480 lines
12 KiB
C++
480 lines
12 KiB
C++
// Copyright (c) 2008-2010 Raynaldo (Wildicv) Rivera, Joshua (Dark_Kilauea) Jones
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// This file is part of the "cAudio Engine"
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// For conditions of distribution and use, see copyright notice in cAudio.h
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#include "../Headers/cAudioCapture.h"
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#include "../Headers/cUtils.h"
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#include "../Headers/cThread.h"
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#include "../include/cAudioSleep.h"
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#include "../Headers/cLogger.h"
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#include "../Headers/cPluginManager.h"
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#include <string.h>
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#include <set>
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namespace cAudio
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{
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static bool RunAudioCaptureThread(false);
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//Note: OpenAL is threadsafe, so a mutex only needs to protect the class state
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#ifdef CAUDIO_USE_INTERNAL_THREAD
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static cAudioMutex AudioCaptureObjectsMutex;
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static std::set<IAudioCapture*> AudioCaptureObjects;
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CAUDIO_DECLARE_THREAD_FUNCTION(AudioCaptureUpdateThread)
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{
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while(RunAudioCaptureThread)
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{
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AudioCaptureObjectsMutex.lock();
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std::set<IAudioCapture*>::iterator it;
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for ( it=AudioCaptureObjects.begin() ; it != AudioCaptureObjects.end(); it++ )
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{
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(*it)->updateCaptureBuffer();
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}
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AudioCaptureObjectsMutex.unlock();
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cAudioSleep(1);
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}
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return 0;
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}
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#endif
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cAudioCapture::cAudioCapture() : Frequency(22050), Format(EAF_16BIT_MONO), InternalBufferSize(8192),
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SampleSize(2), Supported(false), Ready(false), Capturing(false),
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CaptureDevice(NULL)
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{
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checkCaptureExtension();
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getAvailableDevices();
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}
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cAudioCapture::~cAudioCapture()
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{
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shutdown();
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}
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bool cAudioCapture::checkCaptureExtension()
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{
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cAudioMutexBasicLock lock(Mutex);
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// Check for Capture Extension support
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Supported = ( alcIsExtensionPresent(NULL, "ALC_EXT_CAPTURE") == AL_TRUE );
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return Supported;
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}
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bool cAudioCapture::initOpenALDevice()
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{
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cAudioMutexBasicLock lock(Mutex);
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if(Supported)
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{
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if(CaptureDevice)
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shutdownOpenALDevice();
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if(DeviceName.empty())
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CaptureDevice = alcCaptureOpenDevice(NULL, Frequency, convertAudioFormatEnum(Format), InternalBufferSize / SampleSize);
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else
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CaptureDevice = alcCaptureOpenDevice(DeviceName.c_str(), Frequency, convertAudioFormatEnum(Format), InternalBufferSize / SampleSize);
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if(CaptureDevice)
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{
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DeviceName = alcGetString(CaptureDevice, ALC_CAPTURE_DEVICE_SPECIFIER);
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Ready = true;
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checkError();
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getLogger()->logDebug("AudioCapture", "OpenAL Capture Device Opened.");
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return true;
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}
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}
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checkError();
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return false;
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}
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void cAudioCapture::shutdownOpenALDevice()
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{
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cAudioMutexBasicLock lock(Mutex);
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if(Supported)
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{
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if(Capturing)
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stopCapture();
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if(CaptureDevice)
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{
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alcCaptureCloseDevice(CaptureDevice);
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CaptureDevice = NULL;
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Ready = false;
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getLogger()->logDebug("AudioCapture", "OpenAL Capture Device Closed.");
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signalEvent(ON_RELEASE);
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}
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checkError();
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CaptureBuffer.clear();
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}
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}
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void cAudioCapture::shutdown()
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{
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cAudioMutexBasicLock lock(Mutex);
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shutdownOpenALDevice();
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signalEvent(ON_RELEASE);
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}
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void cAudioCapture::getAvailableDevices()
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{
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// Get list of available Capture Devices
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cAudioMutexBasicLock lock(Mutex);
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if( alcIsExtensionPresent(NULL, "ALC_ENUMERATION_EXT") == AL_TRUE )
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{
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const char* deviceList = alcGetString(NULL, ALC_CAPTURE_DEVICE_SPECIFIER);
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if (deviceList)
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{
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while(*deviceList)
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{
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std::string device(deviceList);
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AvailableDevices.push_back(device);
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deviceList += strlen(deviceList) + 1;
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}
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}
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// Get the name of the 'default' capture device
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DefaultDevice = alcGetString(NULL, ALC_CAPTURE_DEFAULT_DEVICE_SPECIFIER);
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}
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}
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const char* cAudioCapture::getAvailableDeviceName(unsigned int index)
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{
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cAudioMutexBasicLock lock(Mutex);
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if(!AvailableDevices.empty())
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{
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//Bounds check
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if( index > (AvailableDevices.size()-1) ) index = (AvailableDevices.size()-1);
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const char* deviceName = AvailableDevices[index].c_str();
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return deviceName;
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}
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return "";
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}
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unsigned int cAudioCapture::getAvailableDeviceCount()
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{
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cAudioMutexBasicLock lock(Mutex);
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return AvailableDevices.size();
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}
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const char* cAudioCapture::getDefaultDeviceName()
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{
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cAudioMutexBasicLock lock(Mutex);
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return DefaultDevice.empty() ? "" : DefaultDevice.c_str();
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}
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void cAudioCapture::updateCaptureBuffer(bool force)
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{
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cAudioMutexBasicLock lock(Mutex);
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if(Capturing && CaptureDevice && Ready)
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{
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int AvailableSamples = 0;
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alcGetIntegerv(CaptureDevice, ALC_CAPTURE_SAMPLES, 1, &AvailableSamples);
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const unsigned int availbuffersize = AvailableSamples * SampleSize;
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//If the samples in the OpenAL buffer are more than half of its max size, grab them
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if(availbuffersize > InternalBufferSize / 2 || force)
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{
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//Fixes a bug with the capture being forced, but no data being available
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if(availbuffersize > 0)
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{
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const unsigned int oldBufferSize = CaptureBuffer.size();
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CaptureBuffer.resize(oldBufferSize + availbuffersize, 0);
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alcCaptureSamples(CaptureDevice, &CaptureBuffer[oldBufferSize], AvailableSamples);
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checkError();
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getLogger()->logDebug("AudioCapture", "Captured %i bytes of audio data.", availbuffersize);
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signalEvent(ON_UPDATE);
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}
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}
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}
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}
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bool cAudioCapture::beginCapture()
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{
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cAudioMutexBasicLock lock(Mutex);
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if(!Capturing)
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{
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CaptureBuffer.clear();
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if(CaptureDevice && Ready)
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{
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alcCaptureStart(CaptureDevice);
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Capturing = true;
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getLogger()->logDebug("AudioCapture", "OpenAL Capture Started.");
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signalEvent(ON_BEGINCAPTURE);
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}
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checkError();
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return Capturing;
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}
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checkError();
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return false;
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}
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void cAudioCapture::stopCapture()
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{
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cAudioMutexBasicLock lock(Mutex);
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if(CaptureDevice && Ready)
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{
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alcCaptureStop(CaptureDevice);
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updateCaptureBuffer(true);
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checkError();
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getLogger()->logDebug("AudioCapture", "OpenAL Capture Stopped.");
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signalEvent(ON_ENDCAPTURE);
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}
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Capturing = false;
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}
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unsigned int cAudioCapture::getCapturedAudio(void* outputBuffer, unsigned int outputBufferSize)
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{
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cAudioMutexBasicLock lock(Mutex);
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unsigned int internalBufferSize = CaptureBuffer.size();
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if(outputBuffer && outputBufferSize > 0 && internalBufferSize > 0)
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{
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int sizeToCopy = (outputBufferSize >= internalBufferSize) ? internalBufferSize : outputBufferSize;
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memcpy(outputBuffer, &CaptureBuffer[0], sizeToCopy);
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CaptureBuffer.erase(CaptureBuffer.begin(), CaptureBuffer.begin()+sizeToCopy);
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getLogger()->logDebug("AudioCapture", "Copied out %i bytes of data out of %i bytes in the buffer at user request.", sizeToCopy, internalBufferSize);
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signalEvent(ON_USERREQUESTEDBUFFER);
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return sizeToCopy;
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}
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return 0;
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}
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unsigned int cAudioCapture::getCurrentCapturedAudioSize()
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{
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cAudioMutexBasicLock lock(Mutex);
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return CaptureBuffer.size();
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}
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bool cAudioCapture::setFrequency(unsigned int frequency)
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{
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cAudioMutexBasicLock lock(Mutex);
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Frequency = frequency;
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shutdownOpenALDevice();
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return initOpenALDevice();
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}
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bool cAudioCapture::setFormat(AudioFormats format)
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{
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cAudioMutexBasicLock lock(Mutex);
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Format = format;
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if(Format == EAF_8BIT_MONO)
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SampleSize = 1;
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else if(Format == EAF_8BIT_STEREO)
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SampleSize = 2;
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else if(Format == EAF_16BIT_MONO)
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SampleSize = 2;
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else
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SampleSize = 4;
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shutdownOpenALDevice();
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return initOpenALDevice();
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}
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bool cAudioCapture::setInternalBufferSize(unsigned int internalBufferSize)
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{
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cAudioMutexBasicLock lock(Mutex);
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InternalBufferSize = internalBufferSize;
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shutdownOpenALDevice();
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return initOpenALDevice();
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}
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bool cAudioCapture::setDevice(const char* deviceName)
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{
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cAudioMutexBasicLock lock(Mutex);
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DeviceName = safeCStr(deviceName);
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shutdownOpenALDevice();
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return initOpenALDevice();
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}
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bool cAudioCapture::initialize(const char* deviceName, unsigned int frequency, AudioFormats format, unsigned int internalBufferSize)
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{
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cAudioMutexBasicLock lock(Mutex);
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DeviceName = safeCStr(deviceName);
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Frequency = frequency;
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InternalBufferSize = internalBufferSize;
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Format = format;
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if(Format == EAF_8BIT_MONO)
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SampleSize = 1;
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else if(Format == EAF_8BIT_STEREO)
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SampleSize = 2;
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else if(Format == EAF_16BIT_MONO)
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SampleSize = 2;
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else
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SampleSize = 4;
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shutdownOpenALDevice();
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signalEvent(ON_INIT);
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return initOpenALDevice();
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}
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bool cAudioCapture::checkError()
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{
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if(CaptureDevice)
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{
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int error = alcGetError(CaptureDevice);
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if (error != AL_NO_ERROR)
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{
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const char* errorString = alGetString(error);
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getLogger()->logError("AudioCapture", "OpenAL Error: %s.", errorString);
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return true;
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}
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}
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return false;
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}
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ALenum cAudioCapture::convertAudioFormatEnum(AudioFormats format)
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{
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switch(format)
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{
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case EAF_8BIT_MONO:
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return AL_FORMAT_MONO8;
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case EAF_16BIT_MONO:
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return AL_FORMAT_MONO16;
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case EAF_8BIT_STEREO:
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return AL_FORMAT_STEREO8;
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case EAF_16BIT_STEREO:
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return AL_FORMAT_STEREO16;
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default:
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return AL_FORMAT_MONO8;
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};
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}
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CAUDIO_API IAudioCapture* createAudioCapture(bool initializeDefault)
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{
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cAudioCapture* capture = new cAudioCapture;
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if(capture)
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{
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if(initializeDefault)
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capture->initialize();
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std::vector<IAudioPlugin*> plugins = cPluginManager::Instance()->getPluginList();
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for(unsigned int i = 0; i < plugins.size(); ++i)
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{
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plugins[i]->onCreateAudioCapture(capture);
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}
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#ifdef CAUDIO_USE_INTERNAL_THREAD
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AudioCaptureObjectsMutex.lock();
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AudioCaptureObjects.insert(capture);
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//First time launch of thread
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if(!RunAudioCaptureThread && AudioCaptureObjects.size() > 0)
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RunAudioCaptureThread = (cAudioThread::SpawnThread(AudioCaptureUpdateThread, NULL) == 0);
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AudioCaptureObjectsMutex.unlock();
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#endif
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}
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return capture;
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}
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CAUDIO_API void destroyAudioCapture(IAudioCapture* capture)
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{
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if(capture)
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{
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#ifdef CAUDIO_USE_INTERNAL_THREAD
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AudioCaptureObjectsMutex.lock();
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AudioCaptureObjects.erase(capture);
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//Kill the thread if there are no objects to process anymore
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if(RunAudioCaptureThread && AudioCaptureObjects.empty())
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RunAudioCaptureThread = false;
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AudioCaptureObjectsMutex.unlock();
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#endif
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std::vector<IAudioPlugin*> plugins = cPluginManager::Instance()->getPluginList();
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for(unsigned int i = 0; i < plugins.size(); ++i)
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{
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plugins[i]->onDestoryAudioCapture(capture);
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}
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delete capture;
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capture = NULL;
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}
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}
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CAUDIO_API bool isAudioCaptureThreadRunning()
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{
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return RunAudioCaptureThread;
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}
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void cAudioCapture::registerEventHandler(ICaptureEventHandler* handler)
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{
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if(handler)
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{
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eventHandlerList.push_back(handler);
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}
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}
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void cAudioCapture::unRegisterEventHandler(ICaptureEventHandler* handler)
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{
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if(handler)
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{
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eventHandlerList.remove(handler);
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}
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}
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void cAudioCapture::unRegisterAllEventHandlers()
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{
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eventHandlerList.clear();
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}
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void cAudioCapture::signalEvent(Events sevent)
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{
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std::list<ICaptureEventHandler*>::iterator it = eventHandlerList.begin();
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if(it != eventHandlerList.end()){
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switch(sevent){
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case ON_INIT:
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for(it; it != eventHandlerList.end(); it++){
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(*it)->onInit();
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}
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break;
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case ON_UPDATE:
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for(it; it != eventHandlerList.end(); it++){
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(*it)->onUpdate();
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}
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break;
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case ON_RELEASE:
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for(it; it != eventHandlerList.end(); it++){
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(*it)->onRelease();
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}
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break;
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case ON_BEGINCAPTURE:
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for(it; it != eventHandlerList.end(); it++){
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(*it)->onBeginCapture();
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}
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break;
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case ON_ENDCAPTURE:
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for(it; it != eventHandlerList.end(); it++){
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(*it)->onEndCapture();
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}
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break;
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case ON_USERREQUESTEDBUFFER:
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for(it; it != eventHandlerList.end(); it++){
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(*it)->onUserRequestBuffer();
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}
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break;
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}
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}
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}
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};
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