CoreAudioReadStream::~CoreAudioReadStream()
{
//    cerr << "CoreAudioReadStream::~CoreAudioReadStream" << std::endl;

    if (m_channelCount) {
	ExtAudioFileDispose(m_d->file);
    }

    m_channelCount = 0;

    delete m_d;
}
void ExtAudioFileAudioSource::close()
{
	RPRINT("closing...\n");
    BufferedAudioSource::close();
    
    if(mAudioFile)
    {
        ExtAudioFileDispose(mAudioFile);
        mAudioFile = 0;
    }

	if(mpBufferList)
    {
	    free (mpBufferList);
        mpBufferList = 0;
    }
    
	RPRINT("done closing.\n");
}
int	main(int argc, const char *argv[])
{
 	MyAudioConverterSettings audioConverterSettings = {0};
	
	// open the input with ExtAudioFile
	CFURLRef inputFileURL = CFURLCreateWithFileSystemPath(kCFAllocatorDefault, kInputFileLocation, kCFURLPOSIXPathStyle, false);
	CheckResult(ExtAudioFileOpenURL(inputFileURL, 
									&audioConverterSettings.inputFile),
				"ExtAudioFileOpenURL failed");
	
	// define the ouput format. AudioConverter requires that one of the data formats be LPCM
    audioConverterSettings.outputFormat.mSampleRate = 44100.0;
	audioConverterSettings.outputFormat.mFormatID = kAudioFormatLinearPCM;
    audioConverterSettings.outputFormat.mFormatFlags = kAudioFormatFlagIsBigEndian | kAudioFormatFlagIsSignedInteger | kAudioFormatFlagIsPacked;
	audioConverterSettings.outputFormat.mBytesPerPacket = 4;
	audioConverterSettings.outputFormat.mFramesPerPacket = 1;
	audioConverterSettings.outputFormat.mBytesPerFrame = 4;
	audioConverterSettings.outputFormat.mChannelsPerFrame = 2;
	audioConverterSettings.outputFormat.mBitsPerChannel = 16;
	
	// create output file
	CFURLRef outputFileURL = CFURLCreateWithFileSystemPath(kCFAllocatorDefault, CFSTR("output.aif"), kCFURLPOSIXPathStyle, false);
	CheckResult (AudioFileCreateWithURL(outputFileURL, kAudioFileAIFFType, &audioConverterSettings.outputFormat, kAudioFileFlags_EraseFile, &audioConverterSettings.outputFile),
				 "AudioFileCreateWithURL failed");
    CFRelease(outputFileURL);
	
	// set the PCM format as the client format on the input ext audio file
	CheckResult(ExtAudioFileSetProperty(audioConverterSettings.inputFile,
										kExtAudioFileProperty_ClientDataFormat,
										sizeof (AudioStreamBasicDescription),
										&audioConverterSettings.outputFormat),
				"Couldn't set client data format on input ext file");
	
	fprintf(stdout, "Converting...\n");
	Convert(&audioConverterSettings);
	
cleanup:
	// AudioFileClose(audioConverterSettings.inputFile);
	ExtAudioFileDispose(audioConverterSettings.inputFile);
	AudioFileClose(audioConverterSettings.outputFile);
	return 0;
}
Exemplo n.º 4
0
bool SFB::Audio::CoreAudioDecoder::_Close(CFErrorRef */*error*/)
{
	// Close the output file
	if(mExtAudioFile) {
		OSStatus result = ExtAudioFileDispose(mExtAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileDispose failed: " << result);
		
		mExtAudioFile = nullptr;
	}

	if(mAudioFile) {
		OSStatus result = AudioFileClose(mAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileClose failed: " << result);
		
		mAudioFile = nullptr;
	}

	return true;
}
Exemplo n.º 5
0
int snd_convert(snd_t *snd)
{
	NSString *pp = @"/Volumes/Macintosh HD/Users/kainjow/Desktop/ext.aif";
	ExtAudioFileRef audioFile;
	OSStatus status;
	AudioStreamBasicDescription stream = {0};
	stream.mSampleRate = 22000;
	stream.mFormatID = kAudioFormatLinearPCM;
	stream.mFormatFlags = 0;
	stream.mBytesPerPacket = 1;
	stream.mFramesPerPacket = 1;
	stream.mBytesPerFrame = 1;
	stream.mChannelsPerFrame = 1;
	stream.mBitsPerChannel = 8;
	status = ExtAudioFileCreateWithURL((CFURLRef)[NSURL fileURLWithPath:pp], kAudioFileWAVEType/*kAudioFileAIFFType*/, &stream, NULL, kAudioFileFlags_EraseFile, &audioFile);
	if (status == noErr) {
		UInt32 numFrames = (sndSize - 50);
		AudioBufferList buffer;
		buffer.mNumberBuffers = 1;
		buffer.mBuffers[0].mNumberChannels = 1;
		buffer.mBuffers[0].mDataByteSize = numFrames;
		buffer.mBuffers[0].mData = (char *)snd + 50;
#if 0
		UInt8 *t = (UInt8 *)buffer.mBuffers[0].mData;
		for (UInt32 i=0; i<numFrames; i++) {
			*t ^= 0x80;
			t++;
		}
#endif
		status = ExtAudioFileWrite(audioFile, numFrames, &buffer);
		if (status == noErr) {
			printf("SUCCESS\n");
		} else {
			printf("FAILED: %ld\n", status);
		}
		ExtAudioFileDispose(audioFile);
	} else {
		printf("Couldn't create ext audio file: %ld\n", (long)status);
	}
}
Exemplo n.º 6
0
static int CoreAudio_open(Sound_Sample *sample, const char *ext)
{
	CoreAudioFileContainer* core_audio_file_container;
	AudioFileID* audio_file_id;
	OSStatus error_result;
	Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque;
	AudioStreamBasicDescription	actual_format;
	AudioStreamBasicDescription	output_format;
	Float64 estimated_duration;
	UInt32 format_size;
	

	core_audio_file_container = (CoreAudioFileContainer*)malloc(sizeof(CoreAudioFileContainer));
	BAIL_IF_MACRO(core_audio_file_container == NULL, ERR_OUT_OF_MEMORY, 0);


	audio_file_id = (AudioFileID*)malloc(sizeof(AudioFileID));
	BAIL_IF_MACRO(audio_file_id == NULL, ERR_OUT_OF_MEMORY, 0);

	error_result = AudioFileOpenWithCallbacks(
		internal->rw,
		CoreAudio_ReadCallback,
		NULL,
		CoreAudio_SizeCallback,
		NULL,
		CoreAudio_GetAudioTypeForExtension(ext),
		audio_file_id
	);
	if (error_result != noErr)
	{
		AudioFileClose(*audio_file_id);
		free(audio_file_id);
		free(core_audio_file_container);
		SNDDBG(("Core Audio: can't grok data. reason: [%s].\n", CoreAudio_FourCCToString(error_result)));
		BAIL_MACRO("Core Audio: Not valid audio data.", 0);
	} /* if */
	
    format_size = sizeof(actual_format);
    error_result = AudioFileGetProperty(
		*audio_file_id,
		kAudioFilePropertyDataFormat,
		&format_size,
		&actual_format
	);
    if (error_result != noErr)
	{
		AudioFileClose(*audio_file_id);
		free(audio_file_id);
		free(core_audio_file_container);
		SNDDBG(("Core Audio: AudioFileGetProperty failed. reason: [%s]", CoreAudio_FourCCToString(error_result)));
		BAIL_MACRO("Core Audio: Not valid audio data.", 0);
	} /* if */

    format_size = sizeof(estimated_duration);
    error_result = AudioFileGetProperty(
		*audio_file_id,
		kAudioFilePropertyEstimatedDuration,
		&format_size,
		&estimated_duration
	);
    if (error_result != noErr)
	{
		AudioFileClose(*audio_file_id);
		free(audio_file_id);
		free(core_audio_file_container);
		SNDDBG(("Core Audio: AudioFileGetProperty failed. reason: [%s].\n", CoreAudio_FourCCToString(error_result)));
		BAIL_MACRO("Core Audio: Not valid audio data.", 0);
	} /* if */


	core_audio_file_container->audioFileID = audio_file_id;
	
	internal->decoder_private = core_audio_file_container;
	
	sample->flags = SOUND_SAMPLEFLAG_CANSEEK;
	sample->actual.rate = (UInt32) actual_format.mSampleRate;
	sample->actual.channels = (UInt8)actual_format.mChannelsPerFrame;
	internal->total_time = (SInt32)(estimated_duration * 1000.0 + 0.5);

#if 0
	/* FIXME: Both Core Audio and SDL 1.3 support float and 32-bit formats */
	if(actual_format.mFormatFlags & kAudioFormatFlagIsBigEndian)
	{
		if(16 == actual_format.mBitsPerChannel)
		{
			if(kAudioFormatFlagIsSignedInteger & actual_format.mFormatFlags)
			{
				sample->actual.format = AUDIO_S16MSB;
			}
			else
			{
				sample->actual.format = AUDIO_U16MSB;				
			}
		}
		else if(8 == actual_format.mBitsPerChannel)
		{
			if(kAudioFormatFlagIsSignedInteger & actual_format.mFormatFlags)
			{
				sample->actual.format = AUDIO_S8;
			}
			else
			{
				sample->actual.format = AUDIO_U8;				
			}
		}
		else // might be 0 for undefined? 
		{
			// This case seems to come up a lot for me. Maybe for file types like .m4a?
			sample->actual.format = AUDIO_S16SYS;
			SNDDBG(("Core Audio: Unsupported actual_format.mBitsPerChannel: [%d].\n", actual_format.mBitsPerChannel));
			
		}
	}
	else // little endian
	{
		if(16 == actual_format.mBitsPerChannel)
		{
			if(kAudioFormatFlagIsSignedInteger & actual_format.mFormatFlags)
			{
				sample->actual.format = AUDIO_S16LSB;
			}
			else
			{
				sample->actual.format = AUDIO_U16LSB;				
			}
		}
		else if(8 == actual_format.mBitsPerChannel)
		{
			if(kAudioFormatFlagIsSignedInteger & actual_format.mFormatFlags)
			{
				sample->actual.format = AUDIO_S8;
			}
			else
			{
				sample->actual.format = AUDIO_U8;				
			}
		}
		else // might be 0 for undefined? 
		{
			sample->actual.format = AUDIO_S16SYS;
			
			SNDDBG(("Core Audio: Unsupported actual_format.mBitsPerChannel: [%d].\n", actual_format.mBitsPerChannel));
		}

	}
#else
	
	
	
    /*
     * I want to use Core Audio to do conversion and decoding for performance reasons.
	 * This is particularly important on mobile devices like iOS.
	 * Taking from the Ogg Vorbis decode, I pretend the "actual" format is the same 
	 * as the desired format. 
     */
    sample->actual.format = (sample->desired.format == 0) ?
	AUDIO_S16SYS : sample->desired.format;
#endif	


	SNDDBG(("CoreAudio: channels == (%d).\n", sample->actual.channels));
	SNDDBG(("CoreAudio: sampling rate == (%d).\n",sample->actual.rate));
	SNDDBG(("CoreAudio: total seconds of sample == (%d).\n", internal->total_time));
	SNDDBG(("CoreAudio: sample->actual.format == (%d).\n", sample->actual.format));


	
	error_result = ExtAudioFileWrapAudioFileID(*audio_file_id,
		false, // set to false for read-only
		&core_audio_file_container->extAudioFileRef
	);
	if(error_result != noErr)
	{
		AudioFileClose(*audio_file_id);
		free(audio_file_id);
		free(core_audio_file_container);
		SNDDBG(("Core Audio: can't wrap data. reason: [%s].\n", CoreAudio_FourCCToString(error_result)));
		BAIL_MACRO("Core Audio: Failed to wrap data.", 0);
	} /* if */


	/* The output format must be linear PCM because that's the only type OpenAL knows how to deal with.
	 * Set the client format to 16 bit signed integer (native-endian) data because that is the most
	 * optimal format on iPhone/iPod Touch hardware.
	 * Maintain the channel count and sample rate of the original source format.
	 */
	output_format.mSampleRate = actual_format.mSampleRate; // preserve the original sample rate
	output_format.mChannelsPerFrame = actual_format.mChannelsPerFrame; // preserve the number of channels
	output_format.mFormatID = kAudioFormatLinearPCM; // We want linear PCM data
	output_format.mFramesPerPacket = 1; // We know for linear PCM, the definition is 1 frame per packet

	if(sample->desired.format == 0)
	{
		// do AUDIO_S16SYS
		output_format.mFormatFlags = kAudioFormatFlagsNativeEndian | kAudioFormatFlagIsSignedInteger | kAudioFormatFlagIsPacked; // I seem to read failures problems without kAudioFormatFlagIsPacked. From a mailing list post, this seems to be a Core Audio bug.
		output_format.mBitsPerChannel = 16; // We know we want 16-bit
	}
	else
	{
		output_format.mFormatFlags = 0; // clear flags
		output_format.mFormatFlags |= kAudioFormatFlagIsPacked; // I seem to read failures problems without kAudioFormatFlagIsPacked. From a mailing list post, this seems to be a Core Audio bug.
		// Mask against bitsize
		if(0xFF & sample->desired.format)
		{
			output_format.mBitsPerChannel = 16; /* 16-bit */
		}
		else
		{
			output_format.mBitsPerChannel = 8; /* 8-bit */
		}

		// Mask for signed/unsigned
		if((1<<15) & sample->desired.format)
		{
			output_format.mFormatFlags = output_format.mFormatFlags | kAudioFormatFlagIsSignedInteger;

		}
		else
		{
			// no flag set for unsigned
		}
		// Mask for big/little endian
		if((1<<12) & sample->desired.format)
		{
			output_format.mFormatFlags = output_format.mFormatFlags | kAudioFormatFlagIsBigEndian;
		}
		else
		{
			// no flag set for little endian 
		}
	}

	output_format.mBytesPerPacket = output_format.mBitsPerChannel/8 * output_format.mChannelsPerFrame; // e.g. 16-bits/8 * channels => so 2-bytes per channel per frame
	output_format.mBytesPerFrame = output_format.mBitsPerChannel/8 * output_format.mChannelsPerFrame; // For PCM, since 1 frame is 1 packet, it is the same as mBytesPerPacket

	
/*
	output_format.mSampleRate = actual_format.mSampleRate; // preserve the original sample rate
	output_format.mChannelsPerFrame = actual_format.mChannelsPerFrame; // preserve the number of channels
	output_format.mFormatID = kAudioFormatLinearPCM; // We want linear PCM data
//	output_format.mFormatFlags = kAudioFormatFlagsNativeEndian | kAudioFormatFlagIsPacked | kAudioFormatFlagIsSignedInteger;
	output_format.mFormatFlags = kAudioFormatFlagsNativeEndian |  kAudioFormatFlagIsSignedInteger;
	output_format.mFramesPerPacket = 1; // We know for linear PCM, the definition is 1 frame per packet
	output_format.mBitsPerChannel = 16; // We know we want 16-bit
	output_format.mBytesPerPacket = 2 * output_format.mChannelsPerFrame; // We know we are using 16-bit, so 2-bytes per channel per frame
	output_format.mBytesPerFrame = 2 * output_format.mChannelsPerFrame; // For PCM, since 1 frame is 1 packet, it is the same as mBytesPerPacket
*/
	SNDDBG(("output_format: mSampleRate: %lf\n", output_format.mSampleRate)); 
	SNDDBG(("output_format: mChannelsPerFrame: %d\n", output_format.mChannelsPerFrame)); 
	SNDDBG(("output_format: mFormatID: %d\n", output_format.mFormatID)); 
	SNDDBG(("output_format: mFormatFlags: %d\n", output_format.mFormatFlags)); 
	SNDDBG(("output_format: mFramesPerPacket: %d\n", output_format.mFramesPerPacket)); 
	SNDDBG(("output_format: mBitsPerChannel: %d\n", output_format.mBitsPerChannel)); 
	SNDDBG(("output_format: mBytesPerPacket: %d\n", output_format.mBytesPerPacket)); 
	SNDDBG(("output_format: mBytesPerFrame: %d\n", output_format.mBytesPerFrame)); 
	
	
	/* Set the desired client (output) data format */
	error_result = ExtAudioFileSetProperty(core_audio_file_container->extAudioFileRef, kExtAudioFileProperty_ClientDataFormat, sizeof(output_format), &output_format);
	if(noErr != error_result)
	{
		ExtAudioFileDispose(core_audio_file_container->extAudioFileRef);
		AudioFileClose(*audio_file_id);
		free(audio_file_id);
		free(core_audio_file_container);
		SNDDBG(("Core Audio: ExtAudioFileSetProperty(kExtAudioFileProperty_ClientDataFormat) failed, reason: [%s].\n", CoreAudio_FourCCToString(error_result)));
		BAIL_MACRO("Core Audio: Not valid audio data.", 0);
	}	


	core_audio_file_container->outputFormat = (AudioStreamBasicDescription*)malloc(sizeof(AudioStreamBasicDescription));
	BAIL_IF_MACRO(core_audio_file_container->outputFormat == NULL, ERR_OUT_OF_MEMORY, 0);


	
	/* Copy the output format to the audio_description that was passed in so the 
	 * info will be returned to the user.
	 */
	memcpy(core_audio_file_container->outputFormat, &output_format, sizeof(AudioStreamBasicDescription));

	

	return(1);
} /* CoreAudio_open */
Exemplo n.º 7
0
SoundSourceCoreAudio::~SoundSourceCoreAudio() {
	ExtAudioFileDispose(m_audioFile);

}
AudioDecoderCoreAudio::~AudioDecoderCoreAudio() {
	ExtAudioFileDispose(m_audioFile);

}
Exemplo n.º 9
0
static bool Audio_openAndStart(Audio *audio, const char *alias, char *file)
{
   UInt32 size;

   OSStatus err1;
   OSErr err2;
   ComponentResult err3;

   char *buff;
   FSRef path;
   AudioStreamBasicDescription format;
   ComponentDescription findComp;
   Component comp;
   AURenderCallbackStruct input;

   buff = MMDAgent_pathdup(file);

   /* convert file name */
   err1 = FSPathMakeRef ((const UInt8 *) buff, &path, NULL);
   free(buff);
   if(err1) {
      return false;
   }

   /* open audio file */
   err1 = ExtAudioFileOpen(&path, &audio->file);
   if(err1) {
      return false;
   }

   /* get audio file format */
   size = sizeof(AudioStreamBasicDescription);
   err1 = ExtAudioFileGetProperty(audio->file, kExtAudioFileProperty_FileDataFormat, &size, &format);
   if(err1) {
      ExtAudioFileDispose(audio->file);
      return false;
   }

   /* convert audio format to pcm (32bit stereo with the same sampling rate) */
   format.mSampleRate = format.mSampleRate;
   format.mFormatID = kAudioFormatLinearPCM;
   format.mFormatFlags = kAudioFormatFlagsNativeFloatPacked;
   format.mBytesPerPacket = 4 * 2;
   format.mFramesPerPacket = 1;
   format.mBytesPerFrame = 4 * 2;
   format.mChannelsPerFrame = 2;
   format.mBitsPerChannel = 32;
   format.mReserved = format.mReserved;
   size = sizeof(AudioStreamBasicDescription);
   err1 = ExtAudioFileSetProperty(audio->file, kExtAudioFileProperty_ClientDataFormat, size, &format);
   if(err1) {
      ExtAudioFileDispose(audio->file);
      return false;
   }

   /* open audio device */
   findComp.componentType = kAudioUnitType_Output;
   findComp.componentSubType = kAudioUnitSubType_DefaultOutput;
   findComp.componentManufacturer = kAudioUnitManufacturer_Apple;
   findComp.componentFlags = 0;
   findComp.componentFlagsMask = 0;
   comp = FindNextComponent(NULL, &findComp);
   if(comp == 0) {
      ExtAudioFileDispose(audio->file);
      return false;
   }
   err2 = OpenAComponent(comp, &audio->device);
   if(err2) {
      ExtAudioFileDispose(audio->file);
      return false;
   }

   /* set callback func. */
   input.inputProc = renderCallback;
   input.inputProcRefCon = audio;
   size = sizeof(AURenderCallbackStruct);
   err3 = AudioUnitSetProperty(audio->device, kAudioUnitProperty_SetRenderCallback, kAudioUnitScope_Input, 0, &input, size);
   if(err3) {
      CloseComponent(audio->device);
      ExtAudioFileDispose(audio->file);
      return false;
   }

   /* prepare audio device */
   err3 = AudioUnitInitialize(audio->device);
   if(err3) {
      CloseComponent(audio->device);
      ExtAudioFileDispose(audio->file);
      return false;
   }

   /* start */
   err3 = AudioOutputUnitStart(audio->device);
   if(err3) {
      AudioUnitUninitialize(audio->device);
      CloseComponent(audio->device);
      ExtAudioFileDispose(audio->file);
      return false;
   }

   return true;
}
Exemplo n.º 10
0
void DoAQOfflineRender(CFURLRef sourceURL, CFURLRef destinationURL) 
{
    // main audio queue code
	try {
		AQTestInfo myInfo;
        
		myInfo.mDone = false;
		myInfo.mFlushed = false;
		myInfo.mCurrentPacket = 0;
		
        // get the source file
        XThrowIfError(AudioFileOpenURL(sourceURL, 0x01/*fsRdPerm*/, 0/*inFileTypeHint*/, &myInfo.mAudioFile), "AudioFileOpen failed");
			
		UInt32 size = sizeof(myInfo.mDataFormat);
		XThrowIfError(AudioFileGetProperty(myInfo.mAudioFile, kAudioFilePropertyDataFormat, &size, &myInfo.mDataFormat), "couldn't get file's data format");
		
		printf ("File format: "); myInfo.mDataFormat.Print();

        // create a new audio queue output
		XThrowIfError(AudioQueueNewOutput(&myInfo.mDataFormat,      // The data format of the audio to play. For linear PCM, only interleaved formats are supported.
                                          AQTestBufferCallback,     // A callback function to use with the playback audio queue.
                                          &myInfo,                  // A custom data structure for use with the callback function.
                                          CFRunLoopGetCurrent(),    // The event loop on which the callback function pointed to by the inCallbackProc parameter is to be called.
                                                                    // If you specify NULL, the callback is invoked on one of the audio queue’s internal threads.
                                          kCFRunLoopCommonModes,    // The run loop mode in which to invoke the callback function specified in the inCallbackProc parameter. 
                                          0,                        // Reserved for future use. Must be 0.
                                          &myInfo.mQueue),          // On output, the newly created playback audio queue object.
                                          "AudioQueueNew failed");

		UInt32 bufferByteSize;
		
		// we need to calculate how many packets we read at a time and how big a buffer we need
		// we base this on the size of the packets in the file and an approximate duration for each buffer
		{
			bool isFormatVBR = (myInfo.mDataFormat.mBytesPerPacket == 0 || myInfo.mDataFormat.mFramesPerPacket == 0);
			
			// first check to see what the max size of a packet is - if it is bigger
			// than our allocation default size, that needs to become larger
			UInt32 maxPacketSize;
			size = sizeof(maxPacketSize);
			XThrowIfError(AudioFileGetProperty(myInfo.mAudioFile, kAudioFilePropertyPacketSizeUpperBound, &size, &maxPacketSize), "couldn't get file's max packet size");
			
			// adjust buffer size to represent about a second of audio based on this format
			CalculateBytesForTime(myInfo.mDataFormat, maxPacketSize, 1.0/*seconds*/, &bufferByteSize, &myInfo.mNumPacketsToRead);
			
			if (isFormatVBR) {
				myInfo.mPacketDescs = new AudioStreamPacketDescription [myInfo.mNumPacketsToRead];
			} else {
				myInfo.mPacketDescs = NULL; // we don't provide packet descriptions for constant bit rate formats (like linear PCM)
            }
				
			printf ("Buffer Byte Size: %d, Num Packets to Read: %d\n", (int)bufferByteSize, (int)myInfo.mNumPacketsToRead);
		}

		// if the file has a magic cookie, we should get it and set it on the AQ
		size = sizeof(UInt32);
		OSStatus result = AudioFileGetPropertyInfo (myInfo.mAudioFile, kAudioFilePropertyMagicCookieData, &size, NULL);

		if (!result && size) {
			char* cookie = new char [size];		
			XThrowIfError (AudioFileGetProperty (myInfo.mAudioFile, kAudioFilePropertyMagicCookieData, &size, cookie), "get cookie from file");
			XThrowIfError (AudioQueueSetProperty(myInfo.mQueue, kAudioQueueProperty_MagicCookie, cookie, size), "set cookie on queue");
			delete [] cookie;
		}

		// channel layout?
		OSStatus err = AudioFileGetPropertyInfo(myInfo.mAudioFile, kAudioFilePropertyChannelLayout, &size, NULL);
		AudioChannelLayout *acl = NULL;
		if (err == noErr && size > 0) {
			acl = (AudioChannelLayout *)malloc(size);
			XThrowIfError(AudioFileGetProperty(myInfo.mAudioFile, kAudioFilePropertyChannelLayout, &size, acl), "get audio file's channel layout");
			XThrowIfError(AudioQueueSetProperty(myInfo.mQueue, kAudioQueueProperty_ChannelLayout, acl, size), "set channel layout on queue");
		}

		//allocate the input read buffer
		XThrowIfError(AudioQueueAllocateBuffer(myInfo.mQueue, bufferByteSize, &myInfo.mBuffer), "AudioQueueAllocateBuffer");

		// prepare a canonical interleaved capture format
		CAStreamBasicDescription captureFormat;
		captureFormat.mSampleRate = myInfo.mDataFormat.mSampleRate;
		captureFormat.SetAUCanonical(myInfo.mDataFormat.mChannelsPerFrame, true); // interleaved
		XThrowIfError(AudioQueueSetOfflineRenderFormat(myInfo.mQueue, &captureFormat, acl), "set offline render format");			
		
		ExtAudioFileRef captureFile;
        
		// prepare a 16-bit int file format, sample channel count and sample rate
		CAStreamBasicDescription dstFormat;
		dstFormat.mSampleRate = myInfo.mDataFormat.mSampleRate;
		dstFormat.mChannelsPerFrame = myInfo.mDataFormat.mChannelsPerFrame;
		dstFormat.mFormatID = kAudioFormatLinearPCM;
		dstFormat.mFormatFlags = kLinearPCMFormatFlagIsPacked | kLinearPCMFormatFlagIsSignedInteger; // little-endian
		dstFormat.mBitsPerChannel = 16;
		dstFormat.mBytesPerPacket = dstFormat.mBytesPerFrame = 2 * dstFormat.mChannelsPerFrame;
		dstFormat.mFramesPerPacket = 1;
		
		// create the capture file
        XThrowIfError(ExtAudioFileCreateWithURL(destinationURL, kAudioFileCAFType, &dstFormat, acl, kAudioFileFlags_EraseFile, &captureFile), "ExtAudioFileCreateWithURL");
		
        // set the capture file's client format to be the canonical format from the queue
		XThrowIfError(ExtAudioFileSetProperty(captureFile, kExtAudioFileProperty_ClientDataFormat, sizeof(AudioStreamBasicDescription), &captureFormat), "set ExtAudioFile client format");
		
		// allocate the capture buffer, just keep it at half the size of the enqueue buffer
        // we don't ever want to pull any faster than we can push data in for render
        // this 2:1 ratio keeps the AQ Offline Render happy
		const UInt32 captureBufferByteSize = bufferByteSize / 2;
		
        AudioQueueBufferRef captureBuffer;
		AudioBufferList captureABL;
		
		XThrowIfError(AudioQueueAllocateBuffer(myInfo.mQueue, captureBufferByteSize, &captureBuffer), "AudioQueueAllocateBuffer");
		
        captureABL.mNumberBuffers = 1;
		captureABL.mBuffers[0].mData = captureBuffer->mAudioData;
		captureABL.mBuffers[0].mNumberChannels = captureFormat.mChannelsPerFrame;

		// lets start playing now - stop is called in the AQTestBufferCallback when there's
		// no more to read from the file
		XThrowIfError(AudioQueueStart(myInfo.mQueue, NULL), "AudioQueueStart failed");

		AudioTimeStamp ts;
		ts.mFlags = kAudioTimeStampSampleTimeValid;
		ts.mSampleTime = 0;

		// we need to call this once asking for 0 frames
		XThrowIfError(AudioQueueOfflineRender(myInfo.mQueue, &ts, captureBuffer, 0), "AudioQueueOfflineRender");

		// we need to enqueue a buffer after the queue has started
		AQTestBufferCallback(&myInfo, myInfo.mQueue, myInfo.mBuffer);

		while (true) {
			UInt32 reqFrames = captureBufferByteSize / captureFormat.mBytesPerFrame;
			
            XThrowIfError(AudioQueueOfflineRender(myInfo.mQueue, &ts, captureBuffer, reqFrames), "AudioQueueOfflineRender");
			
            captureABL.mBuffers[0].mData = captureBuffer->mAudioData;
			captureABL.mBuffers[0].mDataByteSize = captureBuffer->mAudioDataByteSize;
			UInt32 writeFrames = captureABL.mBuffers[0].mDataByteSize / captureFormat.mBytesPerFrame;
			
            printf("t = %.f: AudioQueueOfflineRender:  req %d fr/%d bytes, got %ld fr/%d bytes\n", ts.mSampleTime, (int)reqFrames, (int)captureBufferByteSize, writeFrames, (int)captureABL.mBuffers[0].mDataByteSize);
            
			XThrowIfError(ExtAudioFileWrite(captureFile, writeFrames, &captureABL), "ExtAudioFileWrite");
			
            if (myInfo.mFlushed) break;
			
			ts.mSampleTime += writeFrames;
		}

		CFRunLoopRunInMode(kCFRunLoopDefaultMode, 1, false);

		XThrowIfError(AudioQueueDispose(myInfo.mQueue, true), "AudioQueueDispose(true) failed");
		XThrowIfError(AudioFileClose(myInfo.mAudioFile), "AudioQueueDispose(false) failed");
		XThrowIfError(ExtAudioFileDispose(captureFile), "ExtAudioFileDispose failed");

		if (myInfo.mPacketDescs) delete [] myInfo.mPacketDescs;
		if (acl) free(acl);
	}
	catch (CAXException e) {
		char buf[256];
		fprintf(stderr, "Error: %s (%s)\n", e.mOperation, e.FormatError(buf));
	}
    
    return;
}
Exemplo n.º 11
0
void SoundSourceCoreAudio::close() {
    ExtAudioFileDispose(m_audioFile);
}
CoreAudioReadStream::CoreAudioReadStream(string path) :
    m_path(path),
    m_d(new D)
{
    m_channelCount = 0;
    m_sampleRate = 0;

    if (!QFile(m_path).exists()) {
        throw FileNotFound(m_path);
    }

    QByteArray ba = m_path.toLocal8Bit();

    CFURLRef url = CFURLCreateFromFileSystemRepresentation
        (kCFAllocatorDefault,
         (const UInt8 *)ba.data(),
         (CFIndex)ba.length(),
         false);

    //!!! how do we find out if the file open fails because of DRM protection?

#if (MACOSX_DEPLOYMENT_TARGET <= 1040 && MAC_OS_X_VERSION_MIN_REQUIRED <= 1040)
    FSRef fsref;
    if (!CFURLGetFSRef(url, &fsref)) { // returns Boolean, not error code
        m_error = "CoreAudioReadStream: Error looking up FS ref (file not found?)";
        throw FileReadFailed(m_path);
    }
    m_d->err = ExtAudioFileOpen(&fsref, &m_d->file);
#else
    m_d->err = ExtAudioFileOpenURL(url, &m_d->file);
#endif

    CFRelease(url);

    if (m_d->err) { 
        m_error = "CoreAudioReadStream: Error opening file: code " + codestr(m_d->err);
        throw InvalidFileFormat(path, "failed to open audio file");
    }
    if (!m_d->file) { 
        m_error = "CoreAudioReadStream: Failed to open file, but no error reported!";
        throw InvalidFileFormat(path, "failed to open audio file");
    }
    
    UInt32 propsize = sizeof(AudioStreamBasicDescription);
    m_d->err = ExtAudioFileGetProperty
	(m_d->file, kExtAudioFileProperty_FileDataFormat, &propsize, &m_d->asbd);
    
    if (m_d->err) {
        m_error = "CoreAudioReadStream: Error in getting basic description: code " + codestr(m_d->err);
        ExtAudioFileDispose(m_d->file);
        throw FileOperationFailed(m_path, "get basic description", codestr(m_d->err));
    }
	
    m_channelCount = m_d->asbd.mChannelsPerFrame;
    m_sampleRate = m_d->asbd.mSampleRate;

    cerr << "CoreAudioReadStream: " << m_channelCount << " channels, " << m_sampleRate << " Hz" << std::endl;


    m_d->asbd.mSampleRate = getSampleRate();

    m_d->asbd.mFormatID = kAudioFormatLinearPCM;
    m_d->asbd.mFormatFlags =
        kAudioFormatFlagIsFloat |
        kAudioFormatFlagIsPacked |
        kAudioFormatFlagsNativeEndian;
    m_d->asbd.mBitsPerChannel = sizeof(float) * 8;
    m_d->asbd.mBytesPerFrame = sizeof(float) * m_channelCount;
    m_d->asbd.mBytesPerPacket = sizeof(float) * m_channelCount;
    m_d->asbd.mFramesPerPacket = 1;
    m_d->asbd.mReserved = 0;
	
    m_d->err = ExtAudioFileSetProperty
	(m_d->file, kExtAudioFileProperty_ClientDataFormat, propsize, &m_d->asbd);
    
    if (m_d->err) {
        m_error = "CoreAudioReadStream: Error in setting client format: code " + codestr(m_d->err);
        throw FileOperationFailed(m_path, "set client format", codestr(m_d->err));
    }

    m_d->buffer.mNumberBuffers = 1;
    m_d->buffer.mBuffers[0].mNumberChannels = m_channelCount;
    m_d->buffer.mBuffers[0].mDataByteSize = 0;
    m_d->buffer.mBuffers[0].mData = 0;
}
OSStatus DoConvertFile(CFURLRef sourceURL, CFURLRef destinationURL, OSType outputFormat, Float64 outputSampleRate) 
{
    ExtAudioFileRef sourceFile = 0;
    ExtAudioFileRef destinationFile = 0;
    Boolean         canResumeFromInterruption = true; // we can continue unless told otherwise
    OSStatus        error = noErr;
    
    // in this sample we should never be on the main thread here
    assert(![NSThread isMainThread]);
    
    // transition thread state to kStateRunning before continuing
    ThreadStateSetRunning();
    
    printf("DoConvertFile\n");
    
	try {
        CAStreamBasicDescription srcFormat, dstFormat;

        // open the source file
        XThrowIfError(ExtAudioFileOpenURL(sourceURL, &sourceFile), "ExtAudioFileOpenURL failed");
			
        // get the source data format
		UInt32 size = sizeof(srcFormat);
		XThrowIfError(ExtAudioFileGetProperty(sourceFile, kExtAudioFileProperty_FileDataFormat, &size, &srcFormat), "couldn't get source data format");
		
		printf("\nSource file format: "); srcFormat.Print();

        // setup the output file format
        dstFormat.mSampleRate = (outputSampleRate == 0 ? srcFormat.mSampleRate : outputSampleRate); // set sample rate
        if (outputFormat == kAudioFormatLinearPCM) {
            // if PCM was selected as the destination format, create a 16-bit int PCM file format description
            dstFormat.mFormatID = outputFormat;
            dstFormat.mChannelsPerFrame = srcFormat.NumberChannels();
            dstFormat.mBitsPerChannel = 16;
            dstFormat.mBytesPerPacket = dstFormat.mBytesPerFrame = 2 * dstFormat.mChannelsPerFrame;
            dstFormat.mFramesPerPacket = 1;
            dstFormat.mFormatFlags = kLinearPCMFormatFlagIsPacked | kLinearPCMFormatFlagIsSignedInteger; // little-endian
        } else {
            // compressed format - need to set at least format, sample rate and channel fields for kAudioFormatProperty_FormatInfo
            dstFormat.mFormatID = outputFormat;
            dstFormat.mChannelsPerFrame =  (outputFormat == kAudioFormatiLBC ? 1 : srcFormat.NumberChannels()); // for iLBC num channels must be 1
            
            // use AudioFormat API to fill out the rest of the description
            size = sizeof(dstFormat);
            XThrowIfError(AudioFormatGetProperty(kAudioFormatProperty_FormatInfo, 0, NULL, &size, &dstFormat), "couldn't create destination data format");
        }
        
        printf("\nDestination file format: "); dstFormat.Print();
        
        // create the destination file 
        XThrowIfError(ExtAudioFileCreateWithURL(destinationURL, kAudioFileCAFType, &dstFormat, NULL, kAudioFileFlags_EraseFile, &destinationFile), "ExtAudioFileCreateWithURL failed!");

        // set the client format - The format must be linear PCM (kAudioFormatLinearPCM)
        // You must set this in order to encode or decode a non-PCM file data format
        // You may set this on PCM files to specify the data format used in your calls to read/write
        CAStreamBasicDescription clientFormat;
        if (outputFormat == kAudioFormatLinearPCM) {
            clientFormat = dstFormat;
        } else {
            clientFormat.SetCanonical(srcFormat.NumberChannels(), true);
            clientFormat.mSampleRate = srcFormat.mSampleRate;
        }
        
        printf("\nClient data format: "); clientFormat.Print();
        printf("\n");
        
        size = sizeof(clientFormat);
        XThrowIfError(ExtAudioFileSetProperty(sourceFile, kExtAudioFileProperty_ClientDataFormat, size, &clientFormat), "couldn't set source client format");
        
        size = sizeof(clientFormat);
        XThrowIfError(ExtAudioFileSetProperty(destinationFile, kExtAudioFileProperty_ClientDataFormat, size, &clientFormat), "couldn't set destination client format");

        // can the audio converter (which in this case is owned by an ExtAudioFile object) resume conversion after an interruption?
        AudioConverterRef audioConverter;
                    
        size = sizeof(audioConverter);
        XThrowIfError(ExtAudioFileGetProperty(destinationFile, kExtAudioFileProperty_AudioConverter, &size, &audioConverter), "Couldn't get Audio Converter!");
        
        // this property may be queried at any time after construction of the audio converter (which in this case is owned by an ExtAudioFile object)
        // after setting the output format -- there's no clear reason to prefer construction time, interruption time, or potential resumption time but we prefer
        // construction time since it means less code to execute during or after interruption time
        UInt32 canResume = 0;
        size = sizeof(canResume);
        error = AudioConverterGetProperty(audioConverter, kAudioConverterPropertyCanResumeFromInterruption, &size, &canResume);
        if (noErr == error) {
            // we recieved a valid return value from the GetProperty call
            // if the property's value is 1, then the codec CAN resume work following an interruption
            // if the property's value is 0, then interruptions destroy the codec's state and we're done
            
            if (0 == canResume) canResumeFromInterruption = false;
            
            printf("Audio Converter %s continue after interruption!\n", (canResumeFromInterruption == 0 ? "CANNOT" : "CAN"));
        } else {
            // if the property is unimplemented (kAudioConverterErr_PropertyNotSupported, or paramErr returned in the case of PCM),
            // then the codec being used is not a hardware codec so we're not concerned about codec state
            // we are always going to be able to resume conversion after an interruption
            
            if (kAudioConverterErr_PropertyNotSupported == error) {
                printf("kAudioConverterPropertyCanResumeFromInterruption property not supported!\n");
            } else {
                printf("AudioConverterGetProperty kAudioConverterPropertyCanResumeFromInterruption result %ld\n", error);
            }
            
            error = noErr;
        }
        
        // set up buffers
        UInt32 bufferByteSize = 32768;
        char srcBuffer[bufferByteSize];
        
        // keep track of the source file offset so we know where to reset the source for
        // reading if interrupted and input was not consumed by the audio converter
        SInt64 sourceFrameOffset = 0;
        
        //***** do the read and write - the conversion is done on and by the write call *****//
        printf("Converting...\n");
        while (1) {
        
            AudioBufferList fillBufList;
            fillBufList.mNumberBuffers = 1;
            fillBufList.mBuffers[0].mNumberChannels = clientFormat.NumberChannels();
            fillBufList.mBuffers[0].mDataByteSize = bufferByteSize;
            fillBufList.mBuffers[0].mData = srcBuffer;
                
            // client format is always linear PCM - so here we determine how many frames of lpcm
            // we can read/write given our buffer size
            UInt32 numFrames;
            if (clientFormat.mBytesPerFrame > 0) // rids bogus analyzer div by zero warning mBytesPerFrame can't be 0 and is protected by an Assert
                numFrames = clientFormat.BytesToFrames(bufferByteSize); // (bufferByteSize / clientFormat.mBytesPerFrame);

            XThrowIfError(ExtAudioFileRead(sourceFile, &numFrames, &fillBufList), "ExtAudioFileRead failed!");	
            if (!numFrames) {
                // this is our termination condition
                error = noErr;
                break;
            }
            sourceFrameOffset += numFrames;
            
            // this will block if we're interrupted
            Boolean wasInterrupted = ThreadStatePausedCheck();
            
            if ((error || wasInterrupted) && (false == canResumeFromInterruption)) {
                // this is our interruption termination condition
                // an interruption has occured but the audio converter cannot continue
                error = kMyAudioConverterErr_CannotResumeFromInterruptionError;
                break;
            }

            error = ExtAudioFileWrite(destinationFile, numFrames, &fillBufList);
            // if interrupted in the process of the write call, we must handle the errors appropriately
            if (error) {
                if (kExtAudioFileError_CodecUnavailableInputConsumed == error) {
                
                    printf("ExtAudioFileWrite kExtAudioFileError_CodecUnavailableInputConsumed error %ld\n", error);
                    
                    /*
                        Returned when ExtAudioFileWrite was interrupted. You must stop calling
                        ExtAudioFileWrite. If the underlying audio converter can resume after an
                        interruption (see kAudioConverterPropertyCanResumeFromInterruption), you must
                        wait for an EndInterruption notification from AudioSession, then activate the session
                        before resuming. In this situation, the buffer you provided to ExtAudioFileWrite was successfully
                        consumed and you may proceed to the next buffer
                    */
                    
                } else if (kExtAudioFileError_CodecUnavailableInputNotConsumed == error) {
                
                    printf("ExtAudioFileWrite kExtAudioFileError_CodecUnavailableInputNotConsumed error %ld\n", error);
                    
                    /*
                        Returned when ExtAudioFileWrite was interrupted. You must stop calling
                        ExtAudioFileWrite. If the underlying audio converter can resume after an
                        interruption (see kAudioConverterPropertyCanResumeFromInterruption), you must
                        wait for an EndInterruption notification from AudioSession, then activate the session
                        before resuming. In this situation, the buffer you provided to ExtAudioFileWrite was not
                        successfully consumed and you must try to write it again
                    */
                    
                    // seek back to last offset before last read so we can try again after the interruption
                    sourceFrameOffset -= numFrames;
                    XThrowIfError(ExtAudioFileSeek(sourceFile, sourceFrameOffset), "ExtAudioFileSeek failed!");
                    
                } else {
                    XThrowIfError(error, "ExtAudioFileWrite error!");
                }
            } // if
        } // while
	}
    catch (CAXException e) {
		char buf[256];
		fprintf(stderr, "Error: %s (%s)\n", e.mOperation, e.FormatError(buf));
        error = e.mError;
	}
    
    // close
    if (destinationFile) ExtAudioFileDispose(destinationFile);
    if (sourceFile) ExtAudioFileDispose(sourceFile);

    // transition thread state to kStateDone before continuing
    ThreadStateSetDone();
    
    return error;
}
Exemplo n.º 14
0
Arquivo: KLAL.c Projeto: klib/example
static void* GetOpenALAudioData( KLAL* p,
	CFURLRef fileURL, ALsizei* dataSize, ALenum* dataFormat, ALsizei *sampleRate)
{
    OSStatus    	err;
    UInt32			size;
	UInt32			bufferSize;
    void*           data = NULL;
    AudioBufferList dataBuffer;
	
    // オーディオファイルを開く
    ExtAudioFileRef audioFile;
    err = ExtAudioFileOpenURL(fileURL, &audioFile);
    
	if (err)
	{
		KLLog("[KLAL] GetOpenALAudioData(A):%d\n",(int)err);
        goto Exit;
    }
	
	//CFRelease(fileURL);
	
    // オーディオデータフォーマットを取得する
    AudioStreamBasicDescription fileFormat;
    size = sizeof(fileFormat);
    err = ExtAudioFileGetProperty(audioFile, kExtAudioFileProperty_FileDataFormat, &size, &fileFormat);
    if (err)
	{
		KLLog("[KLAL] GetOpenALAudioData(B):%d\n",(int)err);
		goto Exit;
    }
	
    // アウトプットフォーマットを設定する
    AudioStreamBasicDescription outputFormat;
    outputFormat.mSampleRate = fileFormat.mSampleRate;
    outputFormat.mChannelsPerFrame = fileFormat.mChannelsPerFrame;
    outputFormat.mFormatID = kAudioFormatLinearPCM;
    outputFormat.mBytesPerPacket = 2 * outputFormat.mChannelsPerFrame;
    outputFormat.mFramesPerPacket = 1;
    outputFormat.mBytesPerFrame = 2 * outputFormat.mChannelsPerFrame;
    outputFormat.mBitsPerChannel = 16;//fileFormat.mBitsPerChannel;
    outputFormat.mFormatFlags = kAudioFormatFlagsNativeEndian | kAudioFormatFlagIsPacked | kAudioFormatFlagIsSignedInteger;
    
	p->wav.channel	= outputFormat.mChannelsPerFrame;
	p->wav.bit		= fileFormat.mBitsPerChannel;
	p->wav.freq		= fileFormat.mSampleRate;
	
	err = ExtAudioFileSetProperty(
								  audioFile, kExtAudioFileProperty_ClientDataFormat, sizeof(outputFormat), &outputFormat);
    if (err)
	{
		KLLog("[KLAL] GetOpenALAudioData(C):%d\n",(int)err);
		goto Exit;
    }
	
    // フレーム数を取得する
    SInt64  fileLengthFrames = 0;
    size = sizeof(fileLengthFrames);
    err = ExtAudioFileGetProperty(
								  audioFile, kExtAudioFileProperty_FileLengthFrames, &size, &fileLengthFrames);
    if (err)
	{
		KLLog("[KLAL] GetOpenALAudioData(D):%d\n",(int)err);
		goto Exit;
	}
	
    // バッファを用意する
    bufferSize = (UInt32) fileLengthFrames * (UInt32) outputFormat.mBytesPerFrame;
    data = Malloc(bufferSize);
    dataBuffer.mNumberBuffers = 1;
    dataBuffer.mBuffers[0].mDataByteSize = bufferSize;
    dataBuffer.mBuffers[0].mNumberChannels = outputFormat.mChannelsPerFrame;
    dataBuffer.mBuffers[0].mData = data;
	p->wav.sz = bufferSize; 
	
    // バッファにデータを読み込む
    err = ExtAudioFileRead(audioFile, (UInt32*)&fileLengthFrames, &dataBuffer);
    if (err)
	{
		KLLog("[KLAL] GetOpenALAudioData(E):%d\n",(int)err);
		sfree(data);
		goto Exit;
    }
	
    // 出力値を設定する
    *dataSize = (ALsizei)bufferSize;
    *dataFormat = (outputFormat.mChannelsPerFrame > 1) ? AL_FORMAT_STEREO16 : AL_FORMAT_MONO16;
    *sampleRate = (ALsizei)outputFormat.mSampleRate;
	
Exit:
    // オーディオファイルを破棄する
    if (audioFile)
	{
		ExtAudioFileDispose(audioFile);
    }
		
    return data;
}
Exemplo n.º 15
0
int ConvertFile (CFURLRef					inputFileURL,
                 CAStreamBasicDescription	&inputFormat,
                 CFURLRef					outputFileURL,
                 AudioFileTypeID				outputFileType,
                 CAStreamBasicDescription	&outputFormat,
                 UInt32                      outputBitRate)
{
	ExtAudioFileRef infile, outfile;
    
    // first open the input file
	OSStatus err = ExtAudioFileOpenURL (inputFileURL, &infile);
	XThrowIfError (err, "ExtAudioFileOpen");
	
	// if outputBitRate is specified, this can change the sample rate of the output file
	// so we let this "take care of itself"
	if (outputBitRate)
		outputFormat.mSampleRate = 0.;
    
	// create the output file (this will erase an exsiting file)
	err = ExtAudioFileCreateWithURL (outputFileURL, outputFileType, &outputFormat, NULL, kAudioFileFlags_EraseFile, &outfile);
	XThrowIfError (err, "ExtAudioFileCreateNew");
	
	// get and set the client format - it should be lpcm
	CAStreamBasicDescription clientFormat = (inputFormat.mFormatID == kAudioFormatLinearPCM ? inputFormat : outputFormat);
	UInt32 size = sizeof(clientFormat);
	err = ExtAudioFileSetProperty(infile, kExtAudioFileProperty_ClientDataFormat, size, &clientFormat);
	XThrowIfError (err, "ExtAudioFileSetProperty inFile, kExtAudioFileProperty_ClientDataFormat");
	
	size = sizeof(clientFormat);
	err = ExtAudioFileSetProperty(outfile, kExtAudioFileProperty_ClientDataFormat, size, &clientFormat);
	XThrowIfError (err, "ExtAudioFileSetProperty outFile, kExtAudioFileProperty_ClientDataFormat");
	
	if( outputBitRate > 0 ) {
		printf ("Dest bit rate: %d\n", (int)outputBitRate);
		AudioConverterRef outConverter;
		size = sizeof(outConverter);
		err = ExtAudioFileGetProperty(outfile, kExtAudioFileProperty_AudioConverter, &size, &outConverter);
		XThrowIfError (err, "ExtAudioFileGetProperty outFile, kExtAudioFileProperty_AudioConverter");
		
		err = AudioConverterSetProperty(outConverter, kAudioConverterEncodeBitRate,
										sizeof(outputBitRate), &outputBitRate);
		XThrowIfError (err, "AudioConverterSetProperty, kAudioConverterEncodeBitRate");
		
		// we have changed the converter, so we should do this in case
		// setting a converter property changes the converter used by ExtAF in some manner
		CFArrayRef config = NULL;
		err = ExtAudioFileSetProperty(outfile, kExtAudioFileProperty_ConverterConfig, sizeof(config), &config);
		XThrowIfError (err, "ExtAudioFileSetProperty outFile, kExtAudioFileProperty_ConverterConfig");
	}
	
	// set up buffers
	char srcBuffer[kSrcBufSize];
    
	// do the read and write - the conversion is done on and by the write call
	while (1)
	{
		AudioBufferList fillBufList;
		fillBufList.mNumberBuffers = 1;
		fillBufList.mBuffers[0].mNumberChannels = inputFormat.mChannelsPerFrame;
		fillBufList.mBuffers[0].mDataByteSize = kSrcBufSize;
		fillBufList.mBuffers[0].mData = srcBuffer;
        
		// client format is always linear PCM - so here we determine how many frames of lpcm
		// we can read/write given our buffer size
		UInt32 numFrames = (kSrcBufSize / clientFormat.mBytesPerFrame);
		
		// printf("test %d\n", numFrames);
        
		err = ExtAudioFileRead (infile, &numFrames, &fillBufList);
		XThrowIfError (err, "ExtAudioFileRead");
		if (!numFrames) {
			// this is our termination condition
			break;
		}
		
		err = ExtAudioFileWrite(outfile, numFrames, &fillBufList);
		XThrowIfError (err, "ExtAudioFileWrite");
	}
    
    // close
	ExtAudioFileDispose(outfile);
	ExtAudioFileDispose(infile);
	
    return 0;
}
Exemplo n.º 16
0
void *GetOpenALAudioData(CFURLRef inFileURL, ALsizei *outDataSize, ALenum *outDataFormat, ALsizei *outSampleRate)
{
	OSStatus err = noErr;

	ExtAudioFileRef extRef = NULL;
	err = ExtAudioFileOpenURL(inFileURL, &extRef);
	if (err != noErr)
	{
		printf("GetOpenALAudioData: ExtAudioFileOpenURL FAILED, Error = %ld\n", err);
		return NULL;
	}

	AudioStreamBasicDescription theFileFormat;
	UInt32 thePropertySize = sizeof(theFileFormat);
	err = ExtAudioFileGetProperty(extRef, kExtAudioFileProperty_FileDataFormat, &thePropertySize, &theFileFormat);
	if (err != noErr)
	{
		printf("GetOpenALAudioData: ExtAudioFileGetProperty(kExtAudioFileProperty_FileDataFormat) FAILED, Error = %ld\n", err);
		ExtAudioFileDispose(extRef);
		return NULL;
	}

	if (theFileFormat.mChannelsPerFrame > 2)
	{
		printf("GetOpenALAudioData: Unsupported format, channel count is greater than stereo\n");
		ExtAudioFileDispose(extRef);
		return NULL;
	}

	// Set the output format to 16 bit signed integer (native-endian) data
	// Maintain the channel count and sample rate of the original source format
	AudioStreamBasicDescription theOutputFormat;
	theOutputFormat.mSampleRate = theFileFormat.mSampleRate;
	theOutputFormat.mChannelsPerFrame = theFileFormat.mChannelsPerFrame;
	theOutputFormat.mFormatID = kAudioFormatLinearPCM;
	theOutputFormat.mBytesPerPacket = 2 * theOutputFormat.mChannelsPerFrame;
	theOutputFormat.mFramesPerPacket = 1;
	theOutputFormat.mBytesPerFrame = 2 * theOutputFormat.mChannelsPerFrame;
	theOutputFormat.mBitsPerChannel = 16;
	theOutputFormat.mFormatFlags = kAudioFormatFlagsNativeEndian | kAudioFormatFlagIsPacked | kAudioFormatFlagIsSignedInteger;

	err = ExtAudioFileSetProperty(extRef, kExtAudioFileProperty_ClientDataFormat, sizeof(theOutputFormat), &theOutputFormat);
	if (err != noErr)
	{
		printf("GetOpenALAudioData: ExtAudioFileSetProperty(kExtAudioFileProperty_ClientDataFormat) FAILED, Error = %ld\n", err);
		ExtAudioFileDispose(extRef);
		return NULL;
	}

	SInt64 theFileLengthInFrames = 0;
	thePropertySize = sizeof(theFileLengthInFrames);
	err = ExtAudioFileGetProperty(extRef, kExtAudioFileProperty_FileLengthFrames, &thePropertySize, &theFileLengthInFrames);
	if (err != noErr)
	{
		printf("GetOpenALAudioData: ExtAudioFileGetProperty(kExtAudioFileProperty_FileLengthFrames) FAILED, Error = %ld\n", err);
		ExtAudioFileDispose(extRef);
		return NULL;
	}

	UInt32 dataSize = theFileLengthInFrames * theOutputFormat.mBytesPerFrame;
	void *theData = malloc(dataSize);
	if (theData == NULL)
	{
		printf("GetOpenALAudioData: malloc FAILED\n");
		ExtAudioFileDispose(extRef);
		return NULL;
	}

	AudioBufferList theDataBuffer;
	theDataBuffer.mNumberBuffers = 1;
	theDataBuffer.mBuffers[0].mDataByteSize = dataSize;
	theDataBuffer.mBuffers[0].mNumberChannels = theOutputFormat.mChannelsPerFrame;
	theDataBuffer.mBuffers[0].mData = theData;

	err = ExtAudioFileRead(extRef, (UInt32 *)&theFileLengthInFrames, &theDataBuffer);
	if (err != noErr)
	{ 
		printf("GetOpenALAudioData: ExtAudioFileRead FAILED, Error = %ld\n", err);
		free(theData);
		ExtAudioFileDispose(extRef);
		return NULL;
	}

	*outDataSize = (ALsizei)dataSize;
	*outDataFormat = (theOutputFormat.mChannelsPerFrame > 1) ? AL_FORMAT_STEREO16 : AL_FORMAT_MONO16;
	*outSampleRate = (ALsizei)theOutputFormat.mSampleRate;

	ExtAudioFileDispose(extRef);
	return theData;
}
Exemplo n.º 17
0
bool SFB::Audio::CoreAudioDecoder::_Open(CFErrorRef *error)
{
	// Open the input file
	OSStatus result = AudioFileOpenWithCallbacks(this, myAudioFile_ReadProc, nullptr, myAudioFile_GetSizeProc, nullptr, 0, &mAudioFile);

	if(noErr != result) {
		LOGGER_CRIT("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileOpenWithCallbacks failed: " << result);
		
		if(error) {
			SFB::CFString description = CFCopyLocalizedString(CFSTR("The format of the file “%@” was not recognized."), "");
			SFB::CFString failureReason = CFCopyLocalizedString(CFSTR("File Format Not Recognized"), "");
			SFB::CFString recoverySuggestion = CFCopyLocalizedString(CFSTR("The file's extension may not match the file's type."), "");
			
			*error = CreateErrorForURL(Decoder::ErrorDomain, Decoder::InputOutputError, description, mInputSource->GetURL(), failureReason, recoverySuggestion);
		}
		
		return false;
	}
	
	result = ExtAudioFileWrapAudioFileID(mAudioFile, false, &mExtAudioFile);

	if(noErr != result) {
		LOGGER_CRIT("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileWrapAudioFileID failed: " << result);
		
		if(error) {
			SFB::CFString description = CFCopyLocalizedString(CFSTR("The format of the file “%@” was not recognized."), "");
			SFB::CFString failureReason = CFCopyLocalizedString(CFSTR("File Format Not Recognized"), "");
			SFB::CFString recoverySuggestion = CFCopyLocalizedString(CFSTR("The file's extension may not match the file's type."), "");
			
			*error = CreateErrorForURL(Decoder::ErrorDomain, Decoder::InputOutputError, description, mInputSource->GetURL(), failureReason, recoverySuggestion);
		}

		result = AudioFileClose(mAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileClose failed: " << result);
		
		mAudioFile = nullptr;
		
		return false;
	}
	
	// Query file format
	UInt32 dataSize = sizeof(mSourceFormat);
	result = ExtAudioFileGetProperty(mExtAudioFile, kExtAudioFileProperty_FileDataFormat, &dataSize, &mSourceFormat);

	if(noErr != result) {
		LOGGER_CRIT("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileGetProperty (kExtAudioFileProperty_FileDataFormat) failed: " << result);
		
		result = ExtAudioFileDispose(mExtAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileDispose failed: " << result);
		
		result = AudioFileClose(mAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileClose failed: " << result);
		
		mAudioFile = nullptr;		
		mExtAudioFile = nullptr;
		
		return false;
	}
	
	// Tell the ExtAudioFile the format in which we'd like our data
	
	// For Linear PCM formats, leave the data untouched
	if(kAudioFormatLinearPCM == mSourceFormat.mFormatID)
		mFormat = mSourceFormat;
	// For Apple Lossless, convert to high-aligned signed ints in 32 bits
	else if(kAudioFormatAppleLossless == mSourceFormat.mFormatID) {
		mFormat.mFormatID			= kAudioFormatLinearPCM;
		mFormat.mFormatFlags		= kAudioFormatFlagsNativeEndian | kAudioFormatFlagIsSignedInteger | kAudioFormatFlagIsAlignedHigh;
		
		mFormat.mSampleRate			= mSourceFormat.mSampleRate;
		mFormat.mChannelsPerFrame	= mSourceFormat.mChannelsPerFrame;
		
		if(kAppleLosslessFormatFlag_16BitSourceData == mSourceFormat.mFormatFlags)
			mFormat.mBitsPerChannel	= 16;
		else if(kAppleLosslessFormatFlag_20BitSourceData == mSourceFormat.mFormatFlags)
			mFormat.mBitsPerChannel	= 20;
		else if(kAppleLosslessFormatFlag_24BitSourceData == mSourceFormat.mFormatFlags)
			mFormat.mBitsPerChannel	= 24;
		else if(kAppleLosslessFormatFlag_32BitSourceData == mSourceFormat.mFormatFlags)
			mFormat.mBitsPerChannel	= 32;
		
		mFormat.mBytesPerPacket		= 4 * mFormat.mChannelsPerFrame;
		mFormat.mFramesPerPacket	= 1;
		mFormat.mBytesPerFrame		= mFormat.mBytesPerPacket * mFormat.mFramesPerPacket;
		
		mFormat.mReserved			= 0;
		
	}
	// For all other formats convert to the canonical Core Audio format
	else {
		mFormat.mFormatID			= kAudioFormatLinearPCM;
		mFormat.mFormatFlags		= kAudioFormatFlagsNativeFloatPacked | kAudioFormatFlagIsNonInterleaved;
		
		mFormat.mSampleRate			= mSourceFormat.mSampleRate;
		mFormat.mChannelsPerFrame	= mSourceFormat.mChannelsPerFrame;
		mFormat.mBitsPerChannel		= 32;
		
		mFormat.mBytesPerPacket		= (mFormat.mBitsPerChannel / 8);
		mFormat.mFramesPerPacket	= 1;
		mFormat.mBytesPerFrame		= mFormat.mBytesPerPacket * mFormat.mFramesPerPacket;
		
		mFormat.mReserved			= 0;
	}
	
	result = ExtAudioFileSetProperty(mExtAudioFile, kExtAudioFileProperty_ClientDataFormat, sizeof(mFormat), &mFormat);

	if(noErr != result) {
		LOGGER_CRIT("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileSetProperty (kExtAudioFileProperty_ClientDataFormat) failed: " << result);
		
		result = ExtAudioFileDispose(mExtAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileDispose failed: " << result);
		
		result = AudioFileClose(mAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileClose failed: " << result);
		
		mAudioFile = nullptr;		
		mExtAudioFile = nullptr;
		
		return false;
	}
	
	// Setup the channel layout
	// There is a bug in EAF where if the underlying AF doesn't return a channel layout it returns an empty struct
//	result = ExtAudioFileGetPropertyInfo(mExtAudioFile, kExtAudioFileProperty_FileChannelLayout, &dataSize, nullptr);
	result = AudioFileGetPropertyInfo(mAudioFile, kAudioFilePropertyChannelLayout, &dataSize, nullptr);
	if(noErr == result) {
		auto channelLayout = (AudioChannelLayout *)malloc(dataSize);
//		result = ExtAudioFileGetProperty(mExtAudioFile, kExtAudioFileProperty_FileChannelLayout, &dataSize, mChannelLayout);
		result = AudioFileGetProperty(mAudioFile, kAudioFilePropertyChannelLayout, &dataSize, channelLayout);

		if(noErr != result) {
//			LOGGER_ERR("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileGetProperty (kExtAudioFileProperty_FileChannelLayout) failed: " << result);
			LOGGER_ERR("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileGetProperty (kAudioFilePropertyChannelLayout) failed: " << result);
			
            free(channelLayout);

			result = ExtAudioFileDispose(mExtAudioFile);
			if(noErr != result)
				LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileDispose failed: " << result);
			
			result = AudioFileClose(mAudioFile);
			if(noErr != result)
				LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileClose failed: " << result);
			
			mAudioFile = nullptr;		
			mExtAudioFile = nullptr;
			
			return false;
		}

		mChannelLayout = channelLayout;

		free(channelLayout);
	}
	else
//		LOGGER_ERR("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileGetPropertyInfo (kExtAudioFileProperty_FileChannelLayout) failed: " << result);
		LOGGER_ERR("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileGetPropertyInfo (kAudioFilePropertyChannelLayout) failed: " << result);

	// Work around bugs in ExtAudioFile: http://lists.apple.com/archives/coreaudio-api/2009/Nov/msg00119.html
	// Synopsis: ExtAudioFileTell() and ExtAudioFileSeek() are broken for m4a files
	AudioFileID audioFile;
	dataSize = sizeof(audioFile);
	result = ExtAudioFileGetProperty(mExtAudioFile, kExtAudioFileProperty_AudioFile, &dataSize, &audioFile);
	
	if(noErr != result) {
		LOGGER_ERR("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileGetProperty (kExtAudioFileProperty_AudioFile) failed: " << result);
		
		result = ExtAudioFileDispose(mExtAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileDispose failed: " << result);
		
		result = AudioFileClose(mAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileClose failed: " << result);
		
		mAudioFile = nullptr;		
		mExtAudioFile = nullptr;
		
		return false;
	}
	
	AudioFileTypeID fileFormat;
	dataSize = sizeof(fileFormat);
	result = AudioFileGetProperty(audioFile, kAudioFilePropertyFileFormat, &dataSize, &fileFormat);

	if(noErr != result) {
		LOGGER_ERR("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileGetProperty (kAudioFilePropertyFileFormat) failed: " << result);
		
		result = ExtAudioFileDispose(mExtAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileDispose failed: " << result);
		
		result = AudioFileClose(mAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileClose failed: " << result);
		
		mAudioFile = nullptr;		
		mExtAudioFile = nullptr;
		
		return false;
	}
	
	if(kAudioFileM4AType == fileFormat || kAudioFileMPEG4Type == fileFormat || kAudioFileAAC_ADTSType == fileFormat)
		mUseM4AWorkarounds = true;
	
#if 0
	// This was supposed to determine if ExtAudioFile had been fixed, but even though
	// it passes on 10.6.2 things are not behaving properly
	SInt64 currentFrame = -1;	
	result = ExtAudioFileTell(mExtAudioFile, &currentFrame);

	if(noErr != result) {
		LOGGER_ERR("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileTell failed: " << result);
		
		result = ExtAudioFileDispose(mExtAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "ExtAudioFileDispose failed: " << result);
		
		result = AudioFileClose(mAudioFile);
		if(noErr != result)
			LOGGER_NOTICE("org.sbooth.AudioEngine.Decoder.CoreAudio", "AudioFileClose failed: " << result);
		
		mAudioFile = nullptr;		
		mExtAudioFile = nullptr;
		
		return false;
	}
	
	if(0 > currentFrame)
		mUseM4AWorkarounds = true;
#endif

	return true;
}
Exemplo n.º 18
0
core_audio_sound* CCoreAudioSoundManager::LoadSoundFromFile(const CStdString& fileName)
{
  FSRef fileRef;
  UInt32 size = 0;
  ExtAudioFileRef audioFile;
  OSStatus ret = FSPathMakeRef((const UInt8*) fileName.c_str(), &fileRef, false);
  ret = ExtAudioFileOpen(&fileRef, &audioFile);
  if (ret)
  {
    CLog::Log(LOGERROR, "CCoreAudioSoundManager::LoadSoundFromFile: Unable to open source file (%s). Error = 0x%08x (%4.4s)", fileName.c_str(), ret, CONVERT_OSSTATUS(ret));
    return NULL;
  }    
  
  core_audio_sound* pSound = new core_audio_sound;
  
  // Retrieve the format of the source file
  AudioStreamBasicDescription inputFormat;
  size = sizeof(inputFormat);
  ret = ExtAudioFileGetProperty(audioFile, kExtAudioFileProperty_FileDataFormat, &size, &inputFormat);
  if (ret)
  {
    CLog::Log(LOGERROR, "CCoreAudioSoundManager::LoadSoundFromFile: Unable to fetch source file format. Error = 0x%08x (%4.4s)", ret, CONVERT_OSSTATUS(ret));
    delete pSound;
    return NULL;
  }  
  
  // Set up format conversion. This is the format that will be produced by Read/Write calls. 
  // Here we use the same format provided to the output AudioUnit
  ret = ExtAudioFileSetProperty(audioFile, kExtAudioFileProperty_ClientDataFormat, sizeof(AudioStreamBasicDescription), &m_OutputFormat);
  if (ret)
  {
    CLog::Log(LOGERROR, "CCoreAudioSoundManager::LoadSoundFromFile: Unable to set conversion format. Error = 0x%08x (%4.4s)", ret, CONVERT_OSSTATUS(ret));
    delete pSound;
    return NULL;
  }    
  
  // Retrieve the file size (in terms of the file's sample-rate, not the output sample-rate)
  UInt64 totalFrames;
  size = sizeof(totalFrames);
  ret = ExtAudioFileGetProperty(audioFile, kExtAudioFileProperty_FileLengthFrames, &size, &totalFrames);
  if (ret)
  {
    CLog::Log(LOGERROR, "CCoreAudioSoundManager::LoadSoundFromFile: Unable to fetch source file size. Error = 0x%08x (%4.4s)", ret, CONVERT_OSSTATUS(ret));
    delete pSound;
    return NULL;
  }  
  
  // Calculate the total number of converted frames to be read
  totalFrames *= (float)m_OutputFormat.mSampleRate / (float)inputFormat.mSampleRate; // TODO: Verify the accuracy of this
  
  // Allocate AudioBuffers
  UInt32 channelCount = m_OutputFormat.mChannelsPerFrame;
  pSound->buffer_list = (AudioBufferList*)calloc(1, sizeof(AudioBufferList) + sizeof(AudioBuffer) * (channelCount - kVariableLengthArray));
  pSound->buffer_list->mNumberBuffers = channelCount; // One buffer per channel for deinterlaced pcm
  float* buffers = (float*)calloc(1, sizeof(float) * totalFrames * channelCount);
  for(int i = 0; i < channelCount; i++)
  {
    pSound->buffer_list->mBuffers[i].mNumberChannels = 1; // One channel per buffer for deinterlaced pcm
    pSound->buffer_list->mBuffers[i].mData = buffers + (totalFrames * i);
    pSound->buffer_list->mBuffers[i].mDataByteSize = totalFrames * sizeof(float);
  }
  
  // Read the entire file
  // TODO: Should we limit the total file length?
  UInt32 readFrames = totalFrames;
  ret = ExtAudioFileRead(audioFile, &readFrames, pSound->buffer_list);
  if (ret)
  {
    CLog::Log(LOGERROR, "CCoreAudioSoundManager::LoadSoundFromFile: Unable to read from file (%s). Error = 0x%08x (%4.4s)", fileName.c_str(), ret, CONVERT_OSSTATUS(ret));
    delete pSound;
    return NULL;
  }  
  pSound->total_frames = readFrames; // Store the actual number of frames read from the file. Rounding errors in calcuating the converted number of frames can truncate the read.
  
  // TODO: What do we do with files with more than 2 channels. Currently we just copy the first two and dump the rest.
  if (inputFormat.mChannelsPerFrame == 1) // Copy Left channel into Right if the source file is Mono
    memcpy(pSound->buffer_list->mBuffers[1].mData, pSound->buffer_list->mBuffers[0].mData, pSound->buffer_list->mBuffers[0].mDataByteSize);
  
  ret = ExtAudioFileDispose(audioFile); // Close the file. We have what we need. Not a lot to be done on failure.
  if (ret)
    CLog::Log(LOGERROR, "CCoreAudioSoundManager::LoadSoundFromFile: Unable to close file (%s). Error = 0x%08x (%4.4s)", fileName.c_str(), ret, CONVERT_OSSTATUS(ret));

  pSound->ref_count = 1; // The caller holds a reference to this object now
  pSound->play_count = 0;
  
  return pSound;  
}
Exemplo n.º 19
0
void WriteOutputFile (const char*	outputFilePath, 
					OSType			dataFormat, 
					Float64			srate, 
					MusicTimeStamp	sequenceLength, 
					bool			shouldPrint,
					AUGraph			inGraph,
					UInt32			numFrames,
					MusicPlayer		player)
{
		// delete existing output  file
	TestFile (outputFilePath, true);
	OSStatus result = 0;
	UInt32 size;

	CAStreamBasicDescription outputFormat;
	outputFormat.mChannelsPerFrame = 2;
	outputFormat.mSampleRate = srate;
	outputFormat.mFormatID = dataFormat;
	
	AudioFileTypeID destFileType;
	CAAudioFileFormats::Instance()->InferFileFormatFromFilename (outputFilePath, destFileType);
	
	if (dataFormat == kAudioFormatLinearPCM) {
		outputFormat.mBytesPerPacket = outputFormat.mChannelsPerFrame * 2;
		outputFormat.mFramesPerPacket = 1;
		outputFormat.mBytesPerFrame = outputFormat.mBytesPerPacket;
		outputFormat.mBitsPerChannel = 16;
		
		if (destFileType == kAudioFileWAVEType)
			outputFormat.mFormatFlags = kLinearPCMFormatFlagIsSignedInteger
								| kLinearPCMFormatFlagIsPacked;
		else
			outputFormat.mFormatFlags = kLinearPCMFormatFlagIsBigEndian
								| kLinearPCMFormatFlagIsSignedInteger
								| kLinearPCMFormatFlagIsPacked;
	} else {
		// use AudioFormat API to fill out the rest.
		size = sizeof(outputFormat);
		require_noerr (result = AudioFormatGetProperty(kAudioFormatProperty_FormatInfo, 0, NULL, &size, &outputFormat), fail);
	}

	if (shouldPrint) {
		printf ("Writing to file: %s with format:\n* ", outputFilePath);
		outputFormat.Print();
	}
	
	FSRef parentDir;
	CFStringRef destFileName;
	require_noerr (result = PosixPathToParentFSRefAndName(outputFilePath, parentDir, destFileName), fail);

	ExtAudioFileRef outfile;
	result = ExtAudioFileCreateNew (&parentDir, destFileName, destFileType, &outputFormat, NULL, &outfile);
	CFRelease (destFileName);
	require_noerr (result, fail);

	AudioUnit outputUnit;	
	UInt32 nodeCount;
	require_noerr (result = AUGraphGetNodeCount (inGraph, &nodeCount), fail);
	
	for (UInt32 i = 0; i < nodeCount; ++i) 
	{
		AUNode node;
		require_noerr (result = AUGraphGetIndNode(inGraph, i, &node), fail);

		ComponentDescription desc;
		require_noerr (result = AUGraphNodeInfo(inGraph, node, &desc, NULL), fail);
		
		if (desc.componentType == kAudioUnitType_Output) 
		{
			require_noerr (result = AUGraphNodeInfo(inGraph, node, 0, &outputUnit), fail);
			break;
		}
	}

	{
		CAStreamBasicDescription clientFormat;
		size = sizeof(clientFormat);
		require_noerr (result = AudioUnitGetProperty (outputUnit,
													kAudioUnitProperty_StreamFormat,
													kAudioUnitScope_Output, 0,
													&clientFormat, &size), fail);
		size = sizeof(clientFormat);
		require_noerr (result = ExtAudioFileSetProperty(outfile, kExtAudioFileProperty_ClientDataFormat, size, &clientFormat), fail);
		
		{
			MusicTimeStamp currentTime;
			AUOutputBL outputBuffer (clientFormat, numFrames);
			AudioTimeStamp tStamp;
			memset (&tStamp, 0, sizeof(AudioTimeStamp));
			tStamp.mFlags = kAudioTimeStampSampleTimeValid;
			int i = 0;
			int numTimesFor10Secs = (int)(10. / (numFrames / srate));
			do {
				outputBuffer.Prepare();
				AudioUnitRenderActionFlags actionFlags = 0;
				require_noerr (result = AudioUnitRender (outputUnit, &actionFlags, &tStamp, 0, numFrames, outputBuffer.ABL()), fail);

				tStamp.mSampleTime += numFrames;
				
				require_noerr (result = ExtAudioFileWrite(outfile, numFrames, outputBuffer.ABL()), fail);	

				require_noerr (result = MusicPlayerGetTime (player, &currentTime), fail);
				if (shouldPrint && (++i % numTimesFor10Secs == 0))
					printf ("current time: %6.2f beats\n", currentTime);
			} while (currentTime < sequenceLength);
		}
	}
	
// close
	ExtAudioFileDispose(outfile);

	return;

fail:
	printf ("Problem: %ld\n", result); 
	exit(1);
}
Exemplo n.º 20
0
void* MyGetOpenALAudioData(CFURLRef inFileURL, ALsizei *outDataSize, ALenum *outDataFormat, ALsizei*	outSampleRate)
{
	OSStatus						err = noErr;	
	SInt64							theFileLengthInFrames = 0;
	AudioStreamBasicDescription		theFileFormat;
	UInt32							thePropertySize = sizeof(theFileFormat);
	ExtAudioFileRef					extRef = NULL;
	void*							theData = NULL;
	AudioStreamBasicDescription		theOutputFormat;

	// Open a file with ExtAudioFileOpen()
	err = ExtAudioFileOpenURL(inFileURL, &extRef);
	if(err) { printf("MyGetOpenALAudioData: ExtAudioFileOpenURL FAILED, Error = %ld\n", err); goto Exit; }
	
	// Get the audio data format
	err = ExtAudioFileGetProperty(extRef, kExtAudioFileProperty_FileDataFormat, &thePropertySize, &theFileFormat);
	if(err) { printf("MyGetOpenALAudioData: ExtAudioFileGetProperty(kExtAudioFileProperty_FileDataFormat) FAILED, Error = %ld\n", err); goto Exit; }
	if (theFileFormat.mChannelsPerFrame > 2)  { printf("MyGetOpenALAudioData - Unsupported Format, channel count is greater than stereo\n"); goto Exit;}

	// Set the client format to 16 bit signed integer (native-endian) data
	// Maintain the channel count and sample rate of the original source format
	theOutputFormat.mSampleRate = theFileFormat.mSampleRate;
	theOutputFormat.mChannelsPerFrame = theFileFormat.mChannelsPerFrame;

	theOutputFormat.mFormatID = kAudioFormatLinearPCM;
	theOutputFormat.mBytesPerPacket = 2 * theOutputFormat.mChannelsPerFrame;
	theOutputFormat.mFramesPerPacket = 1;
	theOutputFormat.mBytesPerFrame = 2 * theOutputFormat.mChannelsPerFrame;
	theOutputFormat.mBitsPerChannel = 16;
	theOutputFormat.mFormatFlags = kAudioFormatFlagsNativeEndian | kAudioFormatFlagIsPacked | kAudioFormatFlagIsSignedInteger;
	
	// Set the desired client (output) data format
	err = ExtAudioFileSetProperty(extRef, kExtAudioFileProperty_ClientDataFormat, sizeof(theOutputFormat), &theOutputFormat);
	if(err) { printf("MyGetOpenALAudioData: ExtAudioFileSetProperty(kExtAudioFileProperty_ClientDataFormat) FAILED, Error = %ld\n", err); goto Exit; }
	
	// Get the total frame count
	thePropertySize = sizeof(theFileLengthInFrames);
	err = ExtAudioFileGetProperty(extRef, kExtAudioFileProperty_FileLengthFrames, &thePropertySize, &theFileLengthInFrames);
	if(err) { printf("MyGetOpenALAudioData: ExtAudioFileGetProperty(kExtAudioFileProperty_FileLengthFrames) FAILED, Error = %ld\n", err); goto Exit; }
	
	// Read all the data into memory
	UInt32		dataSize = theFileLengthInFrames * theOutputFormat.mBytesPerFrame;;
	theData = malloc(dataSize);
	if (theData)
	{
		AudioBufferList		theDataBuffer;
		theDataBuffer.mNumberBuffers = 1;
		theDataBuffer.mBuffers[0].mDataByteSize = dataSize;
		theDataBuffer.mBuffers[0].mNumberChannels = theOutputFormat.mChannelsPerFrame;
		theDataBuffer.mBuffers[0].mData = theData;
		
		// Read the data into an AudioBufferList
		err = ExtAudioFileRead(extRef, (UInt32*)&theFileLengthInFrames, &theDataBuffer);
		if(err == noErr)
		{
			// success
			*outDataSize = (ALsizei)dataSize;
			*outDataFormat = (theOutputFormat.mChannelsPerFrame > 1) ? AL_FORMAT_STEREO16 : AL_FORMAT_MONO16;
			*outSampleRate = (ALsizei)theOutputFormat.mSampleRate;
		}
		else 
		{ 
			// failure
			free (theData);
			theData = NULL; // make sure to return NULL
			printf("MyGetOpenALAudioData: ExtAudioFileRead FAILED, Error = %ld\n", err); goto Exit;
		}	
	}
	
Exit:
	// Dispose the ExtAudioFileRef, it is no longer needed
	if (extRef) ExtAudioFileDispose(extRef);
	return theData;
}
Exemplo n.º 21
0
/**
 * @note This function returns by reference an open file reference (ExtAudioFileRef). You are responsbile for releasing this
 * this reference yourself when you are finished with it by calling ExtAudioFileDispose().
 */
ExtAudioFileRef MyGetExtAudioFileRef(CFURLRef file_url, AudioStreamBasicDescription* audio_description)
{
	OSStatus error_status = noErr;
	AudioStreamBasicDescription	file_format;
	UInt32 property_size = sizeof(file_format);
	ExtAudioFileRef	ext_file_ref = NULL;
	AudioStreamBasicDescription output_format;
	
	/* Open a file with ExtAudioFileOpen() */
	error_status = ExtAudioFileOpenURL(file_url, &ext_file_ref);
	if(noErr != error_status)
	{
		printf("MyGetExtAudioFileRef: ExtAudioFileOpenURL failed, Error = %ld\n", error_status);
		if(NULL != ext_file_ref)
		{
			ExtAudioFileDispose(ext_file_ref);
		}
		return NULL;
	}
	
	/* Get the audio data format */
	error_status = ExtAudioFileGetProperty(ext_file_ref, kExtAudioFileProperty_FileDataFormat, &property_size, &file_format);
	if(noErr != error_status)
	{
		printf("MyGetExtAudioFileRef: ExtAudioFileGetProperty(kExtAudioFileProperty_FileDataFormat) failed, Error = %ld\n", error_status);
		ExtAudioFileDispose(ext_file_ref);
		return NULL;
	}
	
	/* Don't know how to handle sounds with more than 2 channels (i.e. stereo)
	 * Remember that OpenAL sound effects must be mono to be spatialized anyway.
	 */
	if(file_format.mChannelsPerFrame > 2) 
	{
		printf("MyGetExtAudioFileRef: Unsupported Format, channel count (=%d) is greater than stereo\n", file_format.mChannelsPerFrame); 
		ExtAudioFileDispose(ext_file_ref);
		return NULL;
	}
	
	/* The output format must be linear PCM because that's the only type OpenAL knows how to deal with.
	 * Set the client format to 16 bit signed integer (native-endian) data because that is the most
	 * optimal format on iPhone/iPod Touch hardware.
	 * Maintain the channel count and sample rate of the original source format.
	 */
	output_format.mSampleRate = file_format.mSampleRate; // preserve the original sample rate
	output_format.mChannelsPerFrame = file_format.mChannelsPerFrame; // preserve the number of channels
	output_format.mFormatID = kAudioFormatLinearPCM; // We want linear PCM data
	output_format.mFormatFlags = kAudioFormatFlagsNativeEndian | kAudioFormatFlagIsPacked | kAudioFormatFlagIsSignedInteger;
	output_format.mFramesPerPacket = 1; // We know for linear PCM, the definition is 1 frame per packet
	output_format.mBitsPerChannel = 16; // We know we want 16-bit
	output_format.mBytesPerPacket = 2 * output_format.mChannelsPerFrame; // We know we are using 16-bit, so 2-bytes per channel per frame
	output_format.mBytesPerFrame = 2 * output_format.mChannelsPerFrame; // For PCM, since 1 frame is 1 packet, it is the same as mBytesPerPacket
	
	/* Set the desired client (output) data format */
	error_status = ExtAudioFileSetProperty(ext_file_ref, kExtAudioFileProperty_ClientDataFormat, sizeof(output_format), &output_format);
	if(noErr != error_status)
	{
		printf("MyGetExtAudioFileRef: ExtAudioFileSetProperty(kExtAudioFileProperty_ClientDataFormat) failed, Error = %ld\n", error_status);
		ExtAudioFileDispose(ext_file_ref);
		return NULL;
	}	
	
	/* Copy the output format to the audio_description that was passed in so the 
	 * info will be returned to the user.
	 */
	memcpy(audio_description, &output_format, sizeof(output_format));
	return ext_file_ref;
}
 ~CoreAudioReader()
 {
     ExtAudioFileDispose (audioFileRef);
     AudioFileClose (audioFileID);
 }
Exemplo n.º 23
0
void WriteOutputFile (const char*	outputFilePath, 
					OSType			dataFormat, 
					Float64			srate, 
					MusicTimeStamp	sequenceLength, 
					bool			shouldPrint,
					AUGraph			inGraph,
					UInt32			numFrames,
					MusicPlayer		player)
{
	OSStatus result = 0;
	UInt32 size;

	CAStreamBasicDescription outputFormat;
	outputFormat.mChannelsPerFrame = 2;
	outputFormat.mSampleRate = srate;
	outputFormat.mFormatID = dataFormat;
	
	AudioFileTypeID destFileType;
	CAAudioFileFormats::Instance()->InferFileFormatFromFilename (outputFilePath, destFileType);
	
	if (dataFormat == kAudioFormatLinearPCM) {
		outputFormat.mBytesPerPacket = outputFormat.mChannelsPerFrame * 2;
		outputFormat.mFramesPerPacket = 1;
		outputFormat.mBytesPerFrame = outputFormat.mBytesPerPacket;
		outputFormat.mBitsPerChannel = 16;
		
		if (destFileType == kAudioFileWAVEType)
			outputFormat.mFormatFlags = kLinearPCMFormatFlagIsSignedInteger
								| kLinearPCMFormatFlagIsPacked;
		else
			outputFormat.mFormatFlags = kLinearPCMFormatFlagIsBigEndian
								| kLinearPCMFormatFlagIsSignedInteger
								| kLinearPCMFormatFlagIsPacked;
	} else {
		// use AudioFormat API to fill out the rest.
		size = sizeof(outputFormat);
		FailIf ((result = AudioFormatGetProperty(kAudioFormatProperty_FormatInfo, 0, NULL, &size, &outputFormat)), fail, "");
	}

	if (shouldPrint) {
		printf ("Writing to file: %s with format:\n* ", outputFilePath);
		outputFormat.Print();
	}
	
	CFURLRef url; url = CFURLCreateFromFileSystemRepresentation(NULL, (const UInt8*)outputFilePath, strlen(outputFilePath), false);
    
    // create output file, delete existing file
	ExtAudioFileRef outfile;
	result = ExtAudioFileCreateWithURL(url, destFileType, &outputFormat, NULL, kAudioFileFlags_EraseFile, &outfile);
	if (url) CFRelease (url);	
	FailIf (result, fail, "ExtAudioFileCreateWithURL");

	AudioUnit outputUnit; outputUnit = NULL;
	UInt32 nodeCount;
	FailIf ((result = AUGraphGetNodeCount (inGraph, &nodeCount)), fail, "AUGraphGetNodeCount");
	
	for (UInt32 i = 0; i < nodeCount; ++i) 
	{
		AUNode node;
		FailIf ((result = AUGraphGetIndNode(inGraph, i, &node)), fail, "AUGraphGetIndNode");

		AudioComponentDescription desc;
		FailIf ((result = AUGraphNodeInfo(inGraph, node, &desc, NULL)), fail, "AUGraphNodeInfo");
		
		if (desc.componentType == kAudioUnitType_Output) 
		{
			FailIf ((result = AUGraphNodeInfo(inGraph, node, 0, &outputUnit)), fail, "AUGraphNodeInfo");
			break;
		}
	}
    
    FailIf ((result = (outputUnit == NULL)), fail, "outputUnit == NULL");
	{
		CAStreamBasicDescription clientFormat = CAStreamBasicDescription();
		size = sizeof(clientFormat);
		FailIf ((result = AudioUnitGetProperty (outputUnit,
													kAudioUnitProperty_StreamFormat,
													kAudioUnitScope_Output, 0,
													&clientFormat, &size)), fail, "AudioUnitGetProperty: kAudioUnitProperty_StreamFormat");
		size = sizeof(clientFormat);
		FailIf ((result = ExtAudioFileSetProperty(outfile, kExtAudioFileProperty_ClientDataFormat, size, &clientFormat)), fail, "ExtAudioFileSetProperty: kExtAudioFileProperty_ClientDataFormat");
		
		{
			MusicTimeStamp currentTime;
			AUOutputBL outputBuffer (clientFormat, numFrames);
			AudioTimeStamp tStamp;
			memset (&tStamp, 0, sizeof(AudioTimeStamp));
			tStamp.mFlags = kAudioTimeStampSampleTimeValid;
			int i = 0;
			int numTimesFor10Secs = (int)(10. / (numFrames / srate));
			do {
				outputBuffer.Prepare();
				AudioUnitRenderActionFlags actionFlags = 0;
				FailIf ((result = AudioUnitRender (outputUnit, &actionFlags, &tStamp, 0, numFrames, outputBuffer.ABL())), fail, "AudioUnitRender");

				tStamp.mSampleTime += numFrames;
				
				FailIf ((result = ExtAudioFileWrite(outfile, numFrames, outputBuffer.ABL())), fail, "ExtAudioFileWrite");	

				FailIf ((result = MusicPlayerGetTime (player, &currentTime)), fail, "MusicPlayerGetTime");
				if (shouldPrint && (++i % numTimesFor10Secs == 0))
					printf ("current time: %6.2f beats\n", currentTime);
			} while (currentTime < sequenceLength);
		}
	}
	
// close
	ExtAudioFileDispose(outfile);

	return;

fail:
	printf ("Problem: %ld\n", (long)result); 
	exit(1);
}