443 lines
13 KiB
Objective-C
443 lines
13 KiB
Objective-C
//
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// ConverterNode.m
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// Cog
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//
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// Created by Zaphod Beeblebrox on 8/2/05.
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// Copyright 2005 __MyCompanyName__. All rights reserved.
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//
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#import "ConverterNode.h"
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#import "Logging.h"
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void PrintStreamDesc (AudioStreamBasicDescription *inDesc)
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{
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if (!inDesc) {
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DLog (@"Can't print a NULL desc!\n");
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return;
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}
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DLog (@"- - - - - - - - - - - - - - - - - - - -\n");
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DLog (@" Sample Rate:%f\n", inDesc->mSampleRate);
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DLog (@" Format ID:%s\n", (char*)&inDesc->mFormatID);
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DLog (@" Format Flags:%X\n", inDesc->mFormatFlags);
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DLog (@" Bytes per Packet:%d\n", inDesc->mBytesPerPacket);
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DLog (@" Frames per Packet:%d\n", inDesc->mFramesPerPacket);
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DLog (@" Bytes per Frame:%d\n", inDesc->mBytesPerFrame);
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DLog (@" Channels per Frame:%d\n", inDesc->mChannelsPerFrame);
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DLog (@" Bits per Channel:%d\n", inDesc->mBitsPerChannel);
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DLog (@"- - - - - - - - - - - - - - - - - - - -\n");
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}
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@implementation ConverterNode
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- (id)initWithController:(id)c previous:(id)p
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{
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self = [super initWithController:c previous:p];
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if (self)
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{
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rgInfo = nil;
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converterFloat = NULL;
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converter = NULL;
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floatBuffer = NULL;
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callbackBuffer = NULL;
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[[NSUserDefaultsController sharedUserDefaultsController] addObserver:self forKeyPath:@"values.volumeScaling" options:0 context:nil];
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}
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return self;
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}
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static const float STEREO_DOWNMIX[8-2][8][2]={
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/*3.0*/
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{
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{0.5858F,0.0F},{0.0F,0.5858F},{0.4142F,0.4142F}
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},
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/*quadrophonic*/
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{
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{0.4226F,0.0F},{0.0F,0.4226F},{0.366F,0.2114F},{0.2114F,0.336F}
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},
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/*5.0*/
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{
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{0.651F,0.0F},{0.0F,0.651F},{0.46F,0.46F},{0.5636F,0.3254F},
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{0.3254F,0.5636F}
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},
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/*5.1*/
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{
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{0.529F,0.0F},{0.0F,0.529F},{0.3741F,0.3741F},{0.3741F,0.3741F},{0.4582F,0.2645F},
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{0.2645F,0.4582F}
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},
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/*6.1*/
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{
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{0.4553F,0.0F},{0.0F,0.4553F},{0.322F,0.322F},{0.322F,0.322F},{0.3943F,0.2277F},
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{0.2277F,0.3943F},{0.2788F,0.2788F}
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},
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/*7.1*/
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{
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{0.3886F,0.0F},{0.0F,0.3886F},{0.2748F,0.2748F},{0.2748F,0.2748F},{0.3366F,0.1943F},
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{0.1943F,0.3366F},{0.3366F,0.1943F},{0.1943F,0.3366F}
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}
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};
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static void downmix_to_stereo(float * buffer, int channels, int count)
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{
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if (channels >= 3 && channels < 8)
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for (int i = 0; i < count; ++i)
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{
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float left = 0, right = 0;
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for (int j = 0; j < channels; ++j)
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{
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left += buffer[i * channels + j] * STEREO_DOWNMIX[channels - 3][j][0];
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right += buffer[i * channels + j] * STEREO_DOWNMIX[channels - 3][j][1];
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}
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buffer[i * channels + 0] = left;
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buffer[i * channels + 1] = right;
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}
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}
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static void scale_by_volume(float * buffer, int count, float volume)
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{
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if ( volume != 1.0 )
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for (int i = 0; i < count; ++i )
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buffer[i] *= volume;
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}
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//called from the complexfill when the audio is converted...good clean fun
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static OSStatus ACInputProc(AudioConverterRef inAudioConverter,
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UInt32* ioNumberDataPackets,
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AudioBufferList* ioData,
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AudioStreamPacketDescription** outDataPacketDescription,
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void* inUserData)
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{
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ConverterNode *converter = (ConverterNode *)inUserData;
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OSStatus err = noErr;
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int amountToWrite;
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int amountRead;
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if ([converter shouldContinue] == NO || [converter endOfStream] == YES)
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{
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ioData->mBuffers[0].mDataByteSize = 0;
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*ioNumberDataPackets = 0;
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return noErr;
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}
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amountToWrite = (*ioNumberDataPackets)*(converter->inputFormat.mBytesPerPacket);
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converter->callbackBuffer = realloc(converter->callbackBuffer, amountToWrite);
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amountRead = [converter readData:converter->callbackBuffer amount:amountToWrite];
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if (amountRead == 0 && [converter endOfStream] == NO)
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{
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ioData->mBuffers[0].mDataByteSize = 0;
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*ioNumberDataPackets = 0;
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return 100; //Keep asking for data
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}
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ioData->mBuffers[0].mData = converter->callbackBuffer;
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ioData->mBuffers[0].mDataByteSize = amountRead;
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ioData->mBuffers[0].mNumberChannels = (converter->inputFormat.mChannelsPerFrame);
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ioData->mNumberBuffers = 1;
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return err;
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}
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static OSStatus ACFloatProc(AudioConverterRef inAudioConverter,
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UInt32* ioNumberDataPackets,
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AudioBufferList* ioData,
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AudioStreamPacketDescription** outDataPacketDescription,
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void* inUserData)
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{
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ConverterNode *converter = (ConverterNode *)inUserData;
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OSStatus err = noErr;
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int amountToWrite;
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if ([converter shouldContinue] == NO)
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{
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ioData->mBuffers[0].mDataByteSize = 0;
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*ioNumberDataPackets = 0;
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return noErr;
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}
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amountToWrite = (*ioNumberDataPackets)*(converter->floatFormat.mBytesPerPacket);
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if ( amountToWrite + converter->floatOffset > converter->floatSize )
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amountToWrite = converter->floatSize - converter->floatOffset;
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ioData->mBuffers[0].mData = converter->floatBuffer + converter->floatOffset;
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ioData->mBuffers[0].mDataByteSize = amountToWrite;
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ioData->mBuffers[0].mNumberChannels = (converter->floatFormat.mChannelsPerFrame);
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ioData->mNumberBuffers = 1;
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converter->floatOffset += amountToWrite;
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return err;
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}
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-(void)process
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{
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char writeBuf[CHUNK_SIZE];
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while ([self shouldContinue] == YES && [self endOfStream] == NO) //Need to watch EOS somehow....
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{
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int amountConverted = [self convert:writeBuf amount:CHUNK_SIZE];
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[self writeData:writeBuf amount:amountConverted];
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}
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}
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- (int)convert:(void *)dest amount:(int)amount
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{
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AudioBufferList ioData;
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UInt32 ioNumberFrames;
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OSStatus err;
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int amountRead = 0;
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if (floatOffset == floatSize) {
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ioNumberFrames = amount / outputFormat.mBytesPerFrame;
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floatBuffer = realloc( floatBuffer, ioNumberFrames * floatFormat.mBytesPerFrame );
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ioData.mBuffers[0].mData = floatBuffer;
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ioData.mBuffers[0].mDataByteSize = ioNumberFrames * floatFormat.mBytesPerFrame;
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ioData.mBuffers[0].mNumberChannels = floatFormat.mChannelsPerFrame;
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ioData.mNumberBuffers = 1;
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tryagain:
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err = AudioConverterFillComplexBuffer(converterFloat, ACInputProc, self, &ioNumberFrames, &ioData, NULL);
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amountRead += ioData.mBuffers[0].mDataByteSize;
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if (err == 100)
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{
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DLog(@"INSIZE: %i", amountRead);
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ioData.mBuffers[0].mData = floatBuffer + amountRead;
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ioNumberFrames = ( amount / outputFormat.mBytesPerFrame ) - ( amountRead / floatFormat.mBytesPerFrame );
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ioData.mBuffers[0].mDataByteSize = ioNumberFrames * floatFormat.mBytesPerFrame;
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goto tryagain;
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}
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else if (err != noErr && err != kAudioConverterErr_InvalidInputSize)
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{
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DLog(@"Error: %i", err);
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return amountRead;
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}
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if ( inputFormat.mChannelsPerFrame > 2 && outputFormat.mChannelsPerFrame == 2 )
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downmix_to_stereo( (float*) floatBuffer, inputFormat.mChannelsPerFrame, amountRead / floatFormat.mBytesPerFrame );
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scale_by_volume( (float*) floatBuffer, amountRead / sizeof(float), volumeScale);
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floatSize = amountRead;
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floatOffset = 0;
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}
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ioNumberFrames = amount / outputFormat.mBytesPerFrame;
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ioData.mBuffers[0].mData = dest;
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ioData.mBuffers[0].mDataByteSize = amount;
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ioData.mBuffers[0].mNumberChannels = outputFormat.mChannelsPerFrame;
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ioData.mNumberBuffers = 1;
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amountRead = 0;
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tryagain2:
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err = AudioConverterFillComplexBuffer(converter, ACFloatProc, self, &ioNumberFrames, &ioData, NULL);
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amountRead += ioData.mBuffers[0].mDataByteSize;
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if (err == 100)
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{
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DLog(@"INSIZE: %i", amountRead);
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ioData.mBuffers[0].mData = dest + amountRead;
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ioNumberFrames = ( amount - amountRead ) / outputFormat.mBytesPerFrame;
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ioData.mBuffers[0].mDataByteSize = ioNumberFrames * outputFormat.mBytesPerFrame;
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goto tryagain2;
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}
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else if (err != noErr && err != kAudioConverterErr_InvalidInputSize)
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{
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DLog(@"Error: %i", err);
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}
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return amountRead;
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}
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- (void)observeValueForKeyPath:(NSString *)keyPath
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ofObject:(id)object
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change:(NSDictionary *)change
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context:(void *)context
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{
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DLog(@"SOMETHING CHANGED!");
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if ([keyPath isEqual:@"values.volumeScaling"]) {
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//User reset the volume scaling option
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[self refreshVolumeScaling];
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}
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}
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static float db_to_scale(float db)
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{
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return pow(10.0, db / 20);
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}
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- (void)refreshVolumeScaling
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{
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if (rgInfo == nil)
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{
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volumeScale = 1.0;
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return;
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}
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NSString * scaling = [[NSUserDefaults standardUserDefaults] stringForKey:@"volumeScaling"];
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BOOL useAlbum = [scaling hasPrefix:@"albumGain"];
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BOOL useTrack = useAlbum || [scaling hasPrefix:@"trackGain"];
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BOOL useVolume = useAlbum || useTrack || [scaling isEqualToString:@"volumeScale"];
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BOOL usePeak = [scaling hasSuffix:@"WithPeak"];
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float scale = 1.0;
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float peak = 0.0;
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if (useVolume) {
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id pVolumeScale = [rgInfo objectForKey:@"volume"];
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if (pVolumeScale != nil)
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scale = [pVolumeScale floatValue];
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}
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if (useTrack) {
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id trackGain = [rgInfo objectForKey:@"replayGainTrackGain"];
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id trackPeak = [rgInfo objectForKey:@"replayGainTrackPeak"];
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if (trackGain != nil)
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scale = db_to_scale([trackGain floatValue]);
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if (trackPeak != nil)
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peak = [trackPeak floatValue];
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}
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if (useAlbum) {
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id albumGain = [rgInfo objectForKey:@"replayGainAlbumGain"];
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id albumPeak = [rgInfo objectForKey:@"replayGainAlbumPeak"];
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if (albumGain != nil)
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scale = db_to_scale([albumGain floatValue]);
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if (albumPeak != nil)
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peak = [albumPeak floatValue];
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}
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if (usePeak) {
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if (scale * peak > 1.0)
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scale = 1.0 / peak;
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}
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volumeScale = scale;
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}
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- (BOOL)setupWithInputFormat:(AudioStreamBasicDescription)inf outputFormat:(AudioStreamBasicDescription)outf
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{
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//Make the converter
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OSStatus stat = noErr;
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inputFormat = inf;
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outputFormat = outf;
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floatFormat = inputFormat;
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floatFormat.mFormatFlags = kAudioFormatFlagsNativeFloatPacked;
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floatFormat.mBitsPerChannel = 32;
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floatFormat.mBytesPerFrame = (32/8)*floatFormat.mChannelsPerFrame;
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floatFormat.mBytesPerPacket = floatFormat.mBytesPerFrame * floatFormat.mFramesPerPacket;
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floatOffset = 0;
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floatSize = 0;
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stat = AudioConverterNew( &inputFormat, &floatFormat, &converterFloat );
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if (stat != noErr)
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{
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ALog(@"Error creating converter %i", stat);
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return NO;
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}
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stat = AudioConverterNew ( &floatFormat, &outputFormat, &converter );
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if (stat != noErr)
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{
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ALog(@"Error creating converter %i", stat);
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return NO;
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}
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if (inputFormat.mChannelsPerFrame > 2 && outputFormat.mChannelsPerFrame == 2)
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{
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SInt32 channelMap[2] = { 0, 1 };
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stat = AudioConverterSetProperty(converter,kAudioConverterChannelMap,sizeof(channelMap),channelMap);
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if (stat != noErr)
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{
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ALog(@"Error mapping channels %i", stat);
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return NO;
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}
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}
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else if (inputFormat.mChannelsPerFrame == 1)
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{
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SInt32 channelMap[2] = { 0, 0 };
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stat = AudioConverterSetProperty(converter,kAudioConverterChannelMap,sizeof(channelMap),channelMap);
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if (stat != noErr)
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{
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ALog(@"Error mapping channels %i", stat);
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return NO;
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}
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}
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PrintStreamDesc(&inf);
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PrintStreamDesc(&outf);
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[self refreshVolumeScaling];
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return YES;
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}
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- (void)dealloc
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{
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DLog(@"Decoder dealloc");
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[[NSUserDefaultsController sharedUserDefaultsController] removeObserver:self forKeyPath:@"values.volumeScaling"];
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[self cleanUp];
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[super dealloc];
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}
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- (void)setOutputFormat:(AudioStreamBasicDescription)format
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{
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DLog(@"SETTING OUTPUT FORMAT!");
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outputFormat = format;
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}
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- (void)inputFormatDidChange:(AudioStreamBasicDescription)format
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{
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DLog(@"FORMAT CHANGED");
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[self cleanUp];
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[self setupWithInputFormat:format outputFormat:outputFormat];
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}
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- (void)setRGInfo:(NSDictionary *)rgi
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{
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DLog(@"Setting ReplayGain info");
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[rgInfo release];
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[rgi retain];
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rgInfo = rgi;
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[self refreshVolumeScaling];
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}
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- (void)cleanUp
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{
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[rgInfo release];
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rgInfo = nil;
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if (converterFloat)
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{
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AudioConverterDispose(converterFloat);
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converterFloat = NULL;
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}
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if (converter)
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{
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AudioConverterDispose(converter);
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converter = NULL;
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}
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if (floatBuffer)
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{
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free(floatBuffer);
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floatBuffer = NULL;
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}
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if (callbackBuffer) {
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free(callbackBuffer);
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callbackBuffer = NULL;
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}
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floatOffset = 0;
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floatSize = 0;
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}
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@end
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