262 lines
6.8 KiB
C++
262 lines
6.8 KiB
C++
/*****************************************************************************\
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Snes9x - Portable Super Nintendo Entertainment System (TM) emulator.
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This file is licensed under the Snes9x License.
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For further information, consult the LICENSE file in the root directory.
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\*****************************************************************************/
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#include "CWaveOut.h"
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#include "../snes9x.h"
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#include "../apu/apu.h"
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#include "wsnes9x.h"
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CWaveOut::CWaveOut(void)
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{
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hWaveOut = NULL;
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initDone = false;
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}
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CWaveOut::~CWaveOut(void)
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{
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DeInitSoundOutput();
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}
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void CALLBACK WaveCallback(HWAVEOUT hWave, UINT uMsg, DWORD_PTR dwUser, DWORD_PTR dw1, DWORD_PTR dw2)
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{
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if (uMsg == WOM_DONE)
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{
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InterlockedDecrement(((volatile LONG *)dwUser));
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SetEvent(GUI.SoundSyncEvent);
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}
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}
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bool CWaveOut::SetupSound()
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{
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WAVEFORMATEX wfx;
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wfx.wFormatTag = WAVE_FORMAT_PCM;
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wfx.nChannels = 2;
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wfx.nSamplesPerSec = Settings.SoundPlaybackRate;
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wfx.nBlockAlign = 2 * 2;
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wfx.wBitsPerSample = 16;
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wfx.nAvgBytesPerSec = wfx.nSamplesPerSec * wfx.nBlockAlign;
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wfx.cbSize = 0;
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// subtract -1, we added "Default" as first index - Default will yield -1, which is WAVE_MAPPER
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int device_index = FindDeviceIndex(GUI.AudioDevice) - 1;
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waveOutOpen(&hWaveOut, device_index, &wfx, (DWORD_PTR)WaveCallback, (DWORD_PTR)&bufferCount, CALLBACK_FUNCTION);
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UINT32 blockTime = GUI.SoundBufferSize / blockCount;
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singleBufferSamples = (Settings.SoundPlaybackRate * blockTime) / 1000;
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if (singleBufferSamples < 256)
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singleBufferSamples = 256;
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singleBufferSamples *= 2;
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singleBufferBytes = singleBufferSamples * 2;
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sumBufferSize = singleBufferBytes * blockCount;
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writeOffset = 0;
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partialOffset = 0;
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waveHeaders.resize(blockCount);
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for (auto &w : waveHeaders)
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{
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w.lpData = (LPSTR)LocalAlloc(LMEM_FIXED, singleBufferBytes);
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w.dwBufferLength = singleBufferBytes;
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w.dwBytesRecorded = 0;
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w.dwUser = 0;
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w.dwFlags = 0;
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w.dwLoops = 0;
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w.lpNext = 0;
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w.reserved = 0;
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waveOutPrepareHeader(hWaveOut, &w, sizeof(WAVEHDR));
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}
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initDone = true;
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return true;
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}
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void CWaveOut::SetVolume(double volume)
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{
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waveOutSetVolume(hWaveOut, (DWORD)(volume * 0xffffffff));
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}
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void CWaveOut::BeginPlayback()
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{
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waveOutRestart(hWaveOut);
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}
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bool CWaveOut::InitSoundOutput()
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{
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return true;
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}
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void CWaveOut::DeInitSoundOutput()
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{
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if (!initDone)
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return;
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StopPlayback();
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waveOutReset(hWaveOut);
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if (!waveHeaders.empty())
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{
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for (auto &w : waveHeaders)
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{
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waveOutUnprepareHeader(hWaveOut, &w, sizeof(WAVEHDR));
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LocalFree(w.lpData);
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}
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}
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waveHeaders.clear();
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waveOutClose(hWaveOut);
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initDone = false;
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}
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void CWaveOut::StopPlayback()
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{
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waveOutPause(hWaveOut);
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}
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int CWaveOut::GetAvailableBytes()
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{
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return ((blockCount - bufferCount) * singleBufferBytes) - partialOffset;
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}
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// Fill the set of blocks preceding writeOffset with silence and write them
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// to the output to get the buffer back to 50%
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void CWaveOut::RecoverFromUnderrun()
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{
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writeOffset = (writeOffset - (blockCount / 2) + blockCount) % blockCount;
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for (int i = 0; i < blockCount / 2; i++)
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{
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memset(waveHeaders[writeOffset].lpData, 0, singleBufferBytes);
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waveOutWrite(hWaveOut, &waveHeaders[writeOffset], sizeof(WAVEHDR));
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InterlockedIncrement(&bufferCount);
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writeOffset++;
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writeOffset %= blockCount;
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}
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}
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void CWaveOut::ProcessSound()
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{
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int freeBytes = ((blockCount - bufferCount) * singleBufferBytes) - partialOffset;
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if (bufferCount == 0)
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RecoverFromUnderrun();
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if (Settings.DynamicRateControl)
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{
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S9xUpdateDynamicRate(freeBytes, sumBufferSize);
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}
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UINT32 availableSamples;
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availableSamples = S9xGetSampleCount();
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if (Settings.DynamicRateControl && !Settings.SoundSync)
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{
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// Using rate control, we should always keep the emulator's sound buffers empty to
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// maintain an accurate measurement.
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if (availableSamples > (freeBytes >> 1))
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{
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S9xClearSamples();
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return;
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}
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}
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if (!initDone)
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return;
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if(Settings.SoundSync && !Settings.TurboMode && !Settings.Mute)
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{
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// no sound sync when speed is not set to 100%
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while((freeBytes >> 1) < availableSamples)
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{
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ResetEvent(GUI.SoundSyncEvent);
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if(!GUI.AllowSoundSync || WaitForSingleObject(GUI.SoundSyncEvent, 1000) != WAIT_OBJECT_0)
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{
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S9xClearSamples();
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return;
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}
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freeBytes = GetAvailableBytes();
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}
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}
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if (partialOffset != 0) {
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UINT32 samplesleftinblock = (singleBufferBytes - partialOffset) >> 1;
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BYTE *offsetBuffer = (BYTE *)waveHeaders[writeOffset].lpData + partialOffset;
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if (availableSamples <= samplesleftinblock)
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{
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S9xMixSamples(offsetBuffer, availableSamples);
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partialOffset += availableSamples << 1;
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availableSamples = 0;
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}
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else
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{
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S9xMixSamples(offsetBuffer, samplesleftinblock);
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partialOffset = 0;
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availableSamples -= samplesleftinblock;
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waveOutWrite(hWaveOut, &waveHeaders[writeOffset], sizeof(WAVEHDR));
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InterlockedIncrement(&bufferCount);
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writeOffset++;
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writeOffset %= blockCount;
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}
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}
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while (availableSamples >= singleBufferSamples && bufferCount < blockCount) {
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BYTE *curBuffer = (BYTE *)waveHeaders[writeOffset].lpData;
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S9xMixSamples(curBuffer, singleBufferSamples);
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waveOutWrite(hWaveOut, &waveHeaders[writeOffset], sizeof(WAVEHDR));
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InterlockedIncrement(&bufferCount);
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writeOffset++;
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writeOffset %= blockCount;
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availableSamples -= singleBufferSamples;
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}
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if (availableSamples > 0 && bufferCount < blockCount) {
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S9xMixSamples((BYTE *)waveHeaders[writeOffset].lpData, availableSamples);
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partialOffset = availableSamples << 1;
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}
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}
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std::vector<std::wstring> CWaveOut::GetDeviceList()
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{
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std::vector<std::wstring> device_list;
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UINT num_devices = waveOutGetNumDevs();
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device_list.push_back(_T("Default"));
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for (unsigned int i = 0; i < num_devices; i++)
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{
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WAVEOUTCAPS caps;
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if(waveOutGetDevCaps(i, &caps, sizeof(WAVEOUTCAPS)) == MMSYSERR_NOERROR)
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{
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device_list.push_back(caps.szPname);
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}
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}
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return device_list;
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}
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int CWaveOut::FindDeviceIndex(TCHAR *audio_device)
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{
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std::vector<std::wstring> device_list = GetDeviceList();
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int index = 0;
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for (int i = 0; i < device_list.size(); i++)
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{
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if (_tcsstr(device_list[i].c_str(), audio_device) != NULL)
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{
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index = i;
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break;
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}
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}
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return index;
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}
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