boo/lib/audiodev/WASAPI.cpp

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#include "../win/Win32Common.hpp"
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#include "AudioVoiceEngine.hpp"
#include "logvisor/logvisor.hpp"
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#include "boo/IApplication.hpp"
#include <Mmdeviceapi.h>
#include <Audioclient.h>
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#include <mmsystem.h>
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#include <Functiondiscoverykeys_devpkey.h>
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#include <iterator>
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#ifdef TE_VIRTUAL_MIDI
#include <teVirtualMIDI.h>
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typedef LPVM_MIDI_PORT(CALLBACK* pfnvirtualMIDICreatePortEx2)(LPCWSTR portName, LPVM_MIDI_DATA_CB callback,
DWORD_PTR dwCallbackInstance, DWORD maxSysexLength,
DWORD flags);
typedef void(CALLBACK* pfnvirtualMIDIClosePort)(LPVM_MIDI_PORT midiPort);
typedef BOOL(CALLBACK* pfnvirtualMIDISendData)(LPVM_MIDI_PORT midiPort, LPBYTE midiDataBytes, DWORD length);
typedef LPCWSTR(CALLBACK* pfnvirtualMIDIGetDriverVersion)(PWORD major, PWORD minor, PWORD release, PWORD build);
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static pfnvirtualMIDICreatePortEx2 virtualMIDICreatePortEx2PROC = nullptr;
static pfnvirtualMIDIClosePort virtualMIDIClosePortPROC = nullptr;
static pfnvirtualMIDISendData virtualMIDISendDataPROC = nullptr;
static pfnvirtualMIDIGetDriverVersion virtualMIDIGetDriverVersionPROC = nullptr;
static double PerfFrequency = 0.0;
#endif
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#if !WINDOWS_STORE
const CLSID CLSID_MMDeviceEnumerator = __uuidof(MMDeviceEnumerator);
const IID IID_IMMDeviceEnumerator = __uuidof(IMMDeviceEnumerator);
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#else
using namespace Windows::Media::Devices;
#endif
const IID IID_IAudioClient = __uuidof(IAudioClient);
const IID IID_IAudioRenderClient = __uuidof(IAudioRenderClient);
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namespace boo {
static logvisor::Module Log("boo::WASAPI");
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#define SAFE_RELEASE(punk) \
if ((punk) != NULL) { \
(punk)->Release(); \
(punk) = NULL; \
}
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struct WASAPIAudioVoiceEngine : BaseAudioVoiceEngine {
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#if !WINDOWS_STORE
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ComPtr<IMMDeviceEnumerator> m_enumerator;
ComPtr<IMMDevice> m_device;
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#else
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bool m_ready = false;
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#endif
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ComPtr<IAudioClient> m_audClient;
ComPtr<IAudioRenderClient> m_renderClient;
std::string m_sinkName;
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size_t m_curBufFrame = 0;
std::vector<float> m_5msBuffer;
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#if !WINDOWS_STORE
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struct NotificationClient final : public IMMNotificationClient {
WASAPIAudioVoiceEngine& m_parent;
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LONG _cRef;
IMMDeviceEnumerator* _pEnumerator;
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NotificationClient(WASAPIAudioVoiceEngine& parent) : m_parent(parent), _cRef(1), _pEnumerator(nullptr) {}
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~NotificationClient(){SAFE_RELEASE(_pEnumerator)}
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// IUnknown methods -- AddRef, Release, and QueryInterface
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ULONG STDMETHODCALLTYPE AddRef() {
return InterlockedIncrement(&_cRef);
}
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ULONG STDMETHODCALLTYPE Release() {
ULONG ulRef = InterlockedDecrement(&_cRef);
if (0 == ulRef) {
delete this;
}
return ulRef;
}
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HRESULT STDMETHODCALLTYPE QueryInterface(REFIID riid, VOID** ppvInterface) {
if (IID_IUnknown == riid) {
AddRef();
*ppvInterface = (IUnknown*)this;
} else if (__uuidof(IMMNotificationClient) == riid) {
AddRef();
*ppvInterface = (IMMNotificationClient*)this;
} else {
*ppvInterface = NULL;
return E_NOINTERFACE;
}
return S_OK;
}
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// Callback methods for device-event notifications.
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HRESULT STDMETHODCALLTYPE OnDefaultDeviceChanged(EDataFlow flow, ERole role, LPCWSTR pwstrDeviceId) {
m_parent.m_rebuild = true;
return S_OK;
}
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HRESULT STDMETHODCALLTYPE OnDeviceAdded(LPCWSTR pwstrDeviceId) { return S_OK; }
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HRESULT STDMETHODCALLTYPE OnDeviceRemoved(LPCWSTR pwstrDeviceId) { return S_OK; }
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HRESULT STDMETHODCALLTYPE OnDeviceStateChanged(LPCWSTR pwstrDeviceId, DWORD dwNewState) { return S_OK; }
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HRESULT STDMETHODCALLTYPE OnPropertyValueChanged(LPCWSTR pwstrDeviceId, const PROPERTYKEY key) { return S_OK; }
} m_notificationClient;
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#endif
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void _buildAudioRenderClient() {
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#if !WINDOWS_STORE
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if (!m_device) {
if (FAILED(m_enumerator->GetDevice(MBSTWCS(m_sinkName.c_str()).c_str(), &m_device))) {
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Log.report(logvisor::Error, fmt("unable to obtain audio device %s"), m_sinkName.c_str());
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m_device.Reset();
return;
}
}
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if (FAILED(m_device->Activate(IID_IAudioClient, CLSCTX_ALL, nullptr, &m_audClient))) {
Log.report(logvisor::Error, L"unable to create audio client from device");
m_device.Reset();
return;
}
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#endif
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WAVEFORMATEXTENSIBLE* pwfx;
if (FAILED(m_audClient->GetMixFormat((WAVEFORMATEX**)&pwfx))) {
Log.report(logvisor::Error, L"unable to obtain audio mix format from device");
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#if !WINDOWS_STORE
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m_device.Reset();
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#endif
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return;
}
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/* Get channel information */
if ((pwfx->dwChannelMask & (SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT)) ==
(SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT)) {
m_mixInfo.m_channels = AudioChannelSet::Stereo;
if ((pwfx->dwChannelMask & (SPEAKER_BACK_LEFT | SPEAKER_BACK_RIGHT)) ==
(SPEAKER_BACK_LEFT | SPEAKER_BACK_RIGHT)) {
m_mixInfo.m_channels = AudioChannelSet::Quad;
if ((pwfx->dwChannelMask & (SPEAKER_FRONT_CENTER | SPEAKER_LOW_FREQUENCY)) ==
(SPEAKER_FRONT_CENTER | SPEAKER_LOW_FREQUENCY)) {
m_mixInfo.m_channels = AudioChannelSet::Surround51;
if ((pwfx->dwChannelMask & (SPEAKER_SIDE_LEFT | SPEAKER_SIDE_RIGHT)) ==
(SPEAKER_SIDE_LEFT | SPEAKER_SIDE_RIGHT)) {
m_mixInfo.m_channels = AudioChannelSet::Surround71;
}
}
}
}
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ChannelMap& chMapOut = m_mixInfo.m_channelMap;
switch (pwfx->Format.nChannels) {
case 2:
chMapOut.m_channelCount = 2;
chMapOut.m_channels[0] = AudioChannel::FrontLeft;
chMapOut.m_channels[1] = AudioChannel::FrontRight;
break;
case 4:
chMapOut.m_channelCount = 4;
chMapOut.m_channels[0] = AudioChannel::FrontLeft;
chMapOut.m_channels[1] = AudioChannel::FrontRight;
chMapOut.m_channels[2] = AudioChannel::RearLeft;
chMapOut.m_channels[3] = AudioChannel::RearRight;
break;
case 5:
chMapOut.m_channelCount = 5;
chMapOut.m_channels[0] = AudioChannel::FrontLeft;
chMapOut.m_channels[1] = AudioChannel::FrontRight;
chMapOut.m_channels[2] = AudioChannel::FrontCenter;
chMapOut.m_channels[3] = AudioChannel::RearLeft;
chMapOut.m_channels[4] = AudioChannel::RearRight;
break;
case 6:
chMapOut.m_channelCount = 6;
chMapOut.m_channels[0] = AudioChannel::FrontLeft;
chMapOut.m_channels[1] = AudioChannel::FrontRight;
chMapOut.m_channels[2] = AudioChannel::FrontCenter;
chMapOut.m_channels[3] = AudioChannel::LFE;
chMapOut.m_channels[4] = AudioChannel::RearLeft;
chMapOut.m_channels[5] = AudioChannel::RearRight;
break;
case 8:
chMapOut.m_channelCount = 8;
chMapOut.m_channels[0] = AudioChannel::FrontLeft;
chMapOut.m_channels[1] = AudioChannel::FrontRight;
chMapOut.m_channels[2] = AudioChannel::FrontCenter;
chMapOut.m_channels[3] = AudioChannel::LFE;
chMapOut.m_channels[4] = AudioChannel::RearLeft;
chMapOut.m_channels[5] = AudioChannel::RearRight;
chMapOut.m_channels[6] = AudioChannel::SideLeft;
chMapOut.m_channels[7] = AudioChannel::SideRight;
break;
default:
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Log.report(logvisor::Warning, fmt("unknown channel layout %u; using stereo"), pwfx->Format.nChannels);
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chMapOut.m_channelCount = 2;
chMapOut.m_channels[0] = AudioChannel::FrontLeft;
chMapOut.m_channels[1] = AudioChannel::FrontRight;
break;
}
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/* Initialize audio client */
if (FAILED(m_audClient->Initialize(AUDCLNT_SHAREMODE_SHARED, 0, 450000, /* 45ms */
0, (WAVEFORMATEX*)pwfx, nullptr))) {
Log.report(logvisor::Error, L"unable to initialize audio client");
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#if !WINDOWS_STORE
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m_device.Reset();
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#endif
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CoTaskMemFree(pwfx);
return;
}
m_mixInfo.m_sampleRate = pwfx->Format.nSamplesPerSec;
m_5msFrames = (m_mixInfo.m_sampleRate * 5 / 500 + 1) / 2;
m_curBufFrame = m_5msFrames;
m_5msBuffer.resize(m_5msFrames * chMapOut.m_channelCount);
if (pwfx->Format.wFormatTag == WAVE_FORMAT_PCM ||
(pwfx->Format.wFormatTag == WAVE_FORMAT_EXTENSIBLE && pwfx->SubFormat == KSDATAFORMAT_SUBTYPE_PCM)) {
if (pwfx->Format.wBitsPerSample == 16) {
m_mixInfo.m_sampleFormat = SOXR_INT16_I;
m_mixInfo.m_bitsPerSample = 16;
} else if (pwfx->Format.wBitsPerSample == 32) {
m_mixInfo.m_sampleFormat = SOXR_INT32_I;
m_mixInfo.m_bitsPerSample = 32;
} else {
Log.report(logvisor::Fatal, L"unsupported bits-per-sample %d", pwfx->Format.wBitsPerSample);
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#if !WINDOWS_STORE
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m_device.Reset();
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#endif
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return;
}
} else if (pwfx->Format.wFormatTag == WAVE_FORMAT_IEEE_FLOAT ||
(pwfx->Format.wFormatTag == WAVE_FORMAT_EXTENSIBLE &&
pwfx->SubFormat == KSDATAFORMAT_SUBTYPE_IEEE_FLOAT)) {
if (pwfx->Format.wBitsPerSample == 32) {
m_mixInfo.m_sampleFormat = SOXR_FLOAT32_I;
m_mixInfo.m_bitsPerSample = 32;
} else {
Log.report(logvisor::Error, L"unsupported floating-point bits-per-sample %d", pwfx->Format.wBitsPerSample);
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#if !WINDOWS_STORE
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m_device.Reset();
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#endif
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return;
}
}
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CoTaskMemFree(pwfx);
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UINT32 bufferFrameCount;
if (FAILED(m_audClient->GetBufferSize(&bufferFrameCount))) {
Log.report(logvisor::Error, L"unable to get audio buffer frame count");
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#if !WINDOWS_STORE
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m_device.Reset();
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#endif
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return;
}
m_mixInfo.m_periodFrames = bufferFrameCount;
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if (FAILED(m_audClient->GetService(IID_IAudioRenderClient, &m_renderClient))) {
Log.report(logvisor::Error, L"unable to create audio render client");
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#if !WINDOWS_STORE
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m_device.Reset();
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#endif
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return;
}
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}
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#if WINDOWS_STORE
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struct CompletionHandler : IActivateAudioInterfaceCompletionHandler {
WASAPIAudioVoiceEngine& e;
LONG _cRef = 1;
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CompletionHandler(WASAPIAudioVoiceEngine& e) : e(e) {}
HRESULT ActivateCompleted(IActivateAudioInterfaceAsyncOperation* operation) {
return e.ActivateCompleted(operation);
}
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ULONG STDMETHODCALLTYPE AddRef() { return InterlockedIncrement(&_cRef); }
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ULONG STDMETHODCALLTYPE Release() {
ULONG ulRef = InterlockedDecrement(&_cRef);
if (0 == ulRef) {
delete this;
}
return ulRef;
}
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HRESULT STDMETHODCALLTYPE QueryInterface(REFIID riid, VOID** ppvInterface) {
if (IID_IUnknown == riid) {
AddRef();
*ppvInterface = (IUnknown*)this;
} else if (__uuidof(IActivateAudioInterfaceCompletionHandler) == riid) {
AddRef();
*ppvInterface = (IActivateAudioInterfaceCompletionHandler*)this;
} else {
*ppvInterface = NULL;
return E_NOINTERFACE;
}
return S_OK;
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}
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} m_completion = {*this};
HRESULT ActivateCompleted(IActivateAudioInterfaceAsyncOperation* operation) {
ComPtr<IUnknown> punkAudioInterface;
HRESULT hrActivateResult;
operation->GetActivateResult(&hrActivateResult, &punkAudioInterface);
punkAudioInterface.As<IAudioClient>(&m_audClient);
_buildAudioRenderClient();
m_ready = true;
return ERROR_SUCCESS;
}
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#endif
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WASAPIAudioVoiceEngine()
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#if !WINDOWS_STORE
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: m_notificationClient(*this)
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#endif
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{
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#if !WINDOWS_STORE
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#ifdef TE_VIRTUAL_MIDI
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HMODULE virtualMidiModule;
if (!virtualMIDICreatePortEx2PROC && (virtualMidiModule = LoadLibraryW(L"teVirtualMIDI64.dll"))) {
virtualMIDICreatePortEx2PROC =
(pfnvirtualMIDICreatePortEx2)GetProcAddress(virtualMidiModule, "virtualMIDICreatePortEx2");
virtualMIDIClosePortPROC = (pfnvirtualMIDIClosePort)GetProcAddress(virtualMidiModule, "virtualMIDIClosePort");
virtualMIDISendDataPROC = (pfnvirtualMIDISendData)GetProcAddress(virtualMidiModule, "virtualMIDISendData");
virtualMIDIGetDriverVersionPROC =
(pfnvirtualMIDIGetDriverVersion)GetProcAddress(virtualMidiModule, "virtualMIDIGetDriverVersion");
LARGE_INTEGER pf;
QueryPerformanceFrequency(&pf);
PerfFrequency = double(pf.QuadPart);
}
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#endif
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/* Enumerate default audio device */
if (FAILED(
CoCreateInstance(CLSID_MMDeviceEnumerator, nullptr, CLSCTX_ALL, IID_IMMDeviceEnumerator, &m_enumerator))) {
Log.report(logvisor::Error, L"unable to create MMDeviceEnumerator instance");
return;
}
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if (FAILED(m_enumerator->RegisterEndpointNotificationCallback(&m_notificationClient))) {
Log.report(logvisor::Error, L"unable to register multimedia event callback");
m_device.Reset();
return;
}
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if (FAILED(m_enumerator->GetDefaultAudioEndpoint(eRender, eConsole, &m_device))) {
Log.report(logvisor::Error, L"unable to obtain default audio device");
m_device.Reset();
return;
}
LPWSTR sinkName = nullptr;
m_device->GetId(&sinkName);
m_sinkName = WCSTMBS(sinkName);
CoTaskMemFree(sinkName);
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_buildAudioRenderClient();
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#else
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auto deviceIdStr = MediaDevice::GetDefaultAudioRenderId(Windows::Media::Devices::AudioDeviceRole::Default);
ComPtr<IActivateAudioInterfaceAsyncOperation> asyncOp;
ActivateAudioInterfaceAsync(deviceIdStr->Data(), __uuidof(IAudioClient3), nullptr, &m_completion, &asyncOp);
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#endif
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}
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bool m_started = false;
bool m_rebuild = false;
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void _rebuildAudioRenderClient() {
soxr_datatype_t oldFmt = m_mixInfo.m_sampleFormat;
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_buildAudioRenderClient();
m_rebuild = false;
m_started = false;
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if (m_mixInfo.m_sampleFormat != oldFmt)
Log.report(logvisor::Fatal, L"audio device sample format changed, boo doesn't support this!!");
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_resetSampleRate();
}
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void pumpAndMixVoices() {
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#if WINDOWS_STORE
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if (!m_ready)
return;
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#else
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if (!m_device)
return;
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#endif
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int attempt = 0;
while (true) {
if (attempt >= 10)
Log.report(logvisor::Fatal, L"unable to setup AudioRenderClient");
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if (m_rebuild) {
m_device.Reset();
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_rebuildAudioRenderClient();
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}
HRESULT res;
if (!m_started) {
res = m_audClient->Start();
if (FAILED(res)) {
m_rebuild = true;
++attempt;
continue;
}
m_started = true;
}
UINT32 numFramesPadding;
res = m_audClient->GetCurrentPadding(&numFramesPadding);
if (FAILED(res)) {
m_rebuild = true;
++attempt;
continue;
}
size_t frames = m_mixInfo.m_periodFrames - numFramesPadding;
if (frames <= 0)
return;
BYTE* bufOut;
res = m_renderClient->GetBuffer(frames, &bufOut);
if (FAILED(res)) {
m_rebuild = true;
++attempt;
continue;
}
for (size_t f = 0; f < frames;) {
if (m_curBufFrame == m_5msFrames) {
_pumpAndMixVoices(m_5msFrames, m_5msBuffer.data());
m_curBufFrame = 0;
}
size_t remRenderFrames = std::min(frames - f, m_5msFrames - m_curBufFrame);
if (remRenderFrames) {
memmove(reinterpret_cast<float*>(bufOut) + m_mixInfo.m_channelMap.m_channelCount * f,
&m_5msBuffer[m_curBufFrame * m_mixInfo.m_channelMap.m_channelCount],
remRenderFrames * m_mixInfo.m_channelMap.m_channelCount * sizeof(float));
m_curBufFrame += remRenderFrames;
f += remRenderFrames;
}
}
res = m_renderClient->ReleaseBuffer(frames, 0);
if (FAILED(res)) {
m_rebuild = true;
++attempt;
continue;
}
break;
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}
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}
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std::string getCurrentAudioOutput() const { return m_sinkName; }
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bool setCurrentAudioOutput(const char* name) {
ComPtr<IMMDevice> newDevice;
if (FAILED(m_enumerator->GetDevice(MBSTWCS(name).c_str(), &newDevice))) {
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Log.report(logvisor::Error, fmt("unable to obtain audio device %s"), name);
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return false;
}
m_device = newDevice;
m_sinkName = name;
_rebuildAudioRenderClient();
return true;
}
std::vector<std::pair<std::string, std::string>> enumerateAudioOutputs() const {
std::vector<std::pair<std::string, std::string>> ret;
ComPtr<IMMDeviceCollection> collection;
if (FAILED(m_enumerator->EnumAudioEndpoints(eRender, DEVICE_STATE_ACTIVE, &collection))) {
Log.report(logvisor::Error, L"unable to enumerate audio outputs");
return ret;
}
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UINT count = 0;
collection->GetCount(&count);
for (UINT i = 0; i < count; ++i) {
ComPtr<IMMDevice> device;
collection->Item(i, &device);
LPWSTR devName;
device->GetId(&devName);
ComPtr<IPropertyStore> props;
device->OpenPropertyStore(STGM_READ, &props);
PROPVARIANT val = {};
props->GetValue(PKEY_Device_FriendlyName, &val);
std::string friendlyName;
if (val.vt == VT_LPWSTR)
friendlyName = WCSTMBS(val.pwszVal);
ret.emplace_back(WCSTMBS(devName), std::move(friendlyName));
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}
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return ret;
}
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#if !WINDOWS_STORE
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std::vector<std::pair<std::string, std::string>> enumerateMIDIInputs() const {
std::vector<std::pair<std::string, std::string>> ret;
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UINT numInDevices = midiInGetNumDevs();
ret.reserve(numInDevices);
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for (UINT i = 0; i < numInDevices; ++i) {
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std::string name = fmt::format(fmt("in{}"), i);
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MIDIINCAPS caps;
if (FAILED(midiInGetDevCaps(i, &caps, sizeof(caps))))
continue;
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#ifdef UNICODE
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ret.push_back(std::make_pair(std::move(name), WCSTMBS(caps.szPname)));
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#else
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ret.push_back(std::make_pair(std::move(name), std::string(caps.szPname)));
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#endif
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}
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#if 0
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for (UINT i=0 ; i<numOutDevices ; ++i)
{
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std::string name = fmt::format(fmt("out{}"), i);
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MIDIOUTCAPS caps;
if (FAILED(midiOutGetDevCaps(i, &caps, sizeof(caps))))
continue;
#ifdef UNICODE
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ret.push_back(std::make_pair(std::move(name), WCSTMBS(caps.szPname)));
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#else
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ret.push_back(std::make_pair(std::move(name), std::string(caps.szPname)));
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#endif
}
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#endif
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return ret;
}
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bool supportsVirtualMIDIIn() const {
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#ifdef TE_VIRTUAL_MIDI
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WORD major, minor, release, build;
return virtualMIDIGetDriverVersionPROC &&
virtualMIDIGetDriverVersionPROC(&major, &minor, &release, &build) != nullptr;
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#else
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return false;
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#endif
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}
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#ifdef TE_VIRTUAL_MIDI
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static void CALLBACK VirtualMIDIReceiveProc(LPVM_MIDI_PORT midiPort, LPBYTE midiDataBytes, DWORD length,
IMIDIReceiver* dwInstance) {
std::vector<uint8_t> bytes;
bytes.resize(length);
memcpy(&bytes[0], midiDataBytes, length);
double timestamp;
LARGE_INTEGER perf;
QueryPerformanceCounter(&perf);
timestamp = perf.QuadPart / PerfFrequency;
dwInstance->m_receiver(std::move(bytes), timestamp);
}
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#endif
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static void CALLBACK MIDIReceiveProc(HMIDIIN hMidiIn, UINT wMsg, IMIDIReceiver* dwInstance, DWORD_PTR dwParam1,
DWORD_PTR dwParam2) {
if (wMsg == MIM_DATA) {
uint8_t(&ptr)[3] = reinterpret_cast<uint8_t(&)[3]>(dwParam1);
std::vector<uint8_t> bytes(std::cbegin(ptr), std::cend(ptr));
dwInstance->m_receiver(std::move(bytes), dwParam2 / 1000.0);
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}
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}
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#ifdef TE_VIRTUAL_MIDI
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struct VMIDIIn : public IMIDIIn {
LPVM_MIDI_PORT m_midi = 0;
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VMIDIIn(WASAPIAudioVoiceEngine* parent, ReceiveFunctor&& receiver) : IMIDIIn(parent, true, std::move(receiver)) {}
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~VMIDIIn() { virtualMIDIClosePortPROC(m_midi); }
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std::string description() const { return "Virtual MIDI-In"; }
};
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struct VMIDIOut : public IMIDIOut {
LPVM_MIDI_PORT m_midi = 0;
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VMIDIOut(WASAPIAudioVoiceEngine* parent) : IMIDIOut(parent, true) {}
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~VMIDIOut() { virtualMIDIClosePortPROC(m_midi); }
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std::string description() const { return "Virtual MIDI-Out"; }
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size_t send(const void* buf, size_t len) const {
return virtualMIDISendDataPROC(m_midi, (LPBYTE)buf, len) ? len : 0;
}
};
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struct VMIDIInOut : public IMIDIInOut {
LPVM_MIDI_PORT m_midi = 0;
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VMIDIInOut(WASAPIAudioVoiceEngine* parent, ReceiveFunctor&& receiver)
: IMIDIInOut(parent, true, std::move(receiver)) {}
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~VMIDIInOut() { virtualMIDIClosePortPROC(m_midi); }
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std::string description() const { return "Virtual MIDI-In/Out"; }
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size_t send(const void* buf, size_t len) const {
return virtualMIDISendDataPROC(m_midi, (LPBYTE)buf, len) ? len : 0;
}
};
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#endif
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struct MIDIIn : public IMIDIIn {
HMIDIIN m_midi = 0;
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MIDIIn(WASAPIAudioVoiceEngine* parent, ReceiveFunctor&& receiver) : IMIDIIn(parent, false, std::move(receiver)) {}
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~MIDIIn() { midiInClose(m_midi); }
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std::string description() const {
UINT id = 0;
midiInGetID(m_midi, &id);
MIDIINCAPS caps;
if (FAILED(midiInGetDevCaps(id, &caps, sizeof(caps))))
return {};
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#ifdef UNICODE
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return WCSTMBS(caps.szPname);
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#else
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return caps.szPname;
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#endif
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}
};
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struct MIDIOut : public IMIDIOut {
HMIDIOUT m_midi = 0;
HMIDISTRM m_strm = 0;
uint8_t m_buf[512];
MIDIHDR m_hdr = {};
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MIDIOut(WASAPIAudioVoiceEngine* parent) : IMIDIOut(parent, false) {}
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void prepare() {
UINT id = 0;
midiOutGetID(m_midi, &id);
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m_hdr.lpData = reinterpret_cast<LPSTR>(m_buf);
m_hdr.dwBufferLength = 512;
m_hdr.dwFlags = MHDR_ISSTRM;
midiOutPrepareHeader(m_midi, &m_hdr, sizeof(m_hdr));
midiStreamOpen(&m_strm, &id, 1, NULL, NULL, CALLBACK_NULL);
}
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~MIDIOut() {
midiStreamClose(m_strm);
midiOutUnprepareHeader(m_midi, &m_hdr, sizeof(m_hdr));
midiOutClose(m_midi);
}
std::string description() const {
UINT id = 0;
midiOutGetID(m_midi, &id);
MIDIOUTCAPS caps;
if (FAILED(midiOutGetDevCaps(id, &caps, sizeof(caps))))
return {};
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#ifdef UNICODE
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return WCSTMBS(caps.szPname);
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#else
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return caps.szPname;
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#endif
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}
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size_t send(const void* buf, size_t len) const {
memcpy(const_cast<MIDIOut*>(this)->m_buf, buf, std::min(len, size_t(512)));
const_cast<MIDIOut*>(this)->m_hdr.dwBytesRecorded = len;
midiStreamOut(m_strm, LPMIDIHDR(&m_hdr), sizeof(m_hdr));
return len;
}
};
struct MIDIInOut : public IMIDIInOut {
HMIDIIN m_midiIn = 0;
HMIDIOUT m_midiOut = 0;
HMIDISTRM m_strm = 0;
uint8_t m_buf[512];
MIDIHDR m_hdr = {};
MIDIInOut(WASAPIAudioVoiceEngine* parent, ReceiveFunctor&& receiver)
: IMIDIInOut(parent, false, std::move(receiver)) {}
void prepare() {
UINT id = 0;
midiOutGetID(m_midiOut, &id);
m_hdr.lpData = reinterpret_cast<LPSTR>(m_buf);
m_hdr.dwBufferLength = 512;
m_hdr.dwFlags = MHDR_ISSTRM;
midiOutPrepareHeader(m_midiOut, &m_hdr, sizeof(m_hdr));
midiStreamOpen(&m_strm, &id, 1, NULL, NULL, CALLBACK_NULL);
}
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~MIDIInOut() {
midiInClose(m_midiIn);
midiStreamClose(m_strm);
midiOutUnprepareHeader(m_midiOut, &m_hdr, sizeof(m_hdr));
midiOutClose(m_midiOut);
}
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std::string description() const {
UINT id = 0;
midiOutGetID(m_midiOut, &id);
MIDIOUTCAPS caps;
if (FAILED(midiOutGetDevCaps(id, &caps, sizeof(caps))))
return {};
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#ifdef UNICODE
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return WCSTMBS(caps.szPname);
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#else
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return caps.szPname;
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#endif
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}
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size_t send(const void* buf, size_t len) const {
memcpy(const_cast<uint8_t*>(m_buf), buf, std::min(len, size_t(512)));
const_cast<MIDIHDR&>(m_hdr).dwBytesRecorded = len;
midiStreamOut(m_strm, LPMIDIHDR(&m_hdr), sizeof(m_hdr));
return len;
}
};
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std::unique_ptr<IMIDIIn> newVirtualMIDIIn(ReceiveFunctor&& receiver) {
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#ifdef TE_VIRTUAL_MIDI
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if (!virtualMIDICreatePortEx2PROC)
return {};
std::unique_ptr<IMIDIIn> ret = std::make_unique<VMIDIIn>(this, std::move(receiver));
if (!ret)
return {};
SystemString name = SystemString(APP->getFriendlyName()) + _SYS_STR(" MIDI-In");
auto port = virtualMIDICreatePortEx2PROC(name.c_str(), LPVM_MIDI_DATA_CB(VirtualMIDIReceiveProc),
DWORD_PTR(static_cast<IMIDIReceiver*>(ret.get())), 512,
TE_VM_FLAGS_PARSE_RX | TE_VM_FLAGS_INSTANTIATE_RX_ONLY);
if (!port)
return {};
static_cast<VMIDIIn&>(*ret).m_midi = port;
return ret;
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#else
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return {};
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#endif
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}
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std::unique_ptr<IMIDIOut> newVirtualMIDIOut() {
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#ifdef TE_VIRTUAL_MIDI
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if (!virtualMIDICreatePortEx2PROC)
return {};
std::unique_ptr<IMIDIOut> ret = std::make_unique<VMIDIOut>(this);
if (!ret)
return {};
SystemString name = SystemString(APP->getFriendlyName()) + _SYS_STR(" MIDI-Out");
auto port = virtualMIDICreatePortEx2PROC(name.c_str(), nullptr, 0, 512,
TE_VM_FLAGS_PARSE_TX | TE_VM_FLAGS_INSTANTIATE_TX_ONLY);
if (!port)
return {};
static_cast<VMIDIOut&>(*ret).m_midi = port;
return ret;
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#else
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return {};
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#endif
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}
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std::unique_ptr<IMIDIInOut> newVirtualMIDIInOut(ReceiveFunctor&& receiver) {
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#ifdef TE_VIRTUAL_MIDI
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if (!virtualMIDICreatePortEx2PROC)
return {};
std::unique_ptr<IMIDIInOut> ret = std::make_unique<VMIDIInOut>(this, std::move(receiver));
if (!ret)
return {};
SystemString name = SystemString(APP->getFriendlyName()) + _SYS_STR(" MIDI-In/Out");
auto port =
virtualMIDICreatePortEx2PROC(name.c_str(), LPVM_MIDI_DATA_CB(VirtualMIDIReceiveProc),
DWORD_PTR(static_cast<IMIDIReceiver*>(ret.get())), 512, TE_VM_FLAGS_SUPPORTED);
if (!port)
return {};
static_cast<VMIDIInOut&>(*ret).m_midi = port;
return ret;
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#else
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return {};
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#endif
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}
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std::unique_ptr<IMIDIIn> newRealMIDIIn(const char* name, ReceiveFunctor&& receiver) {
if (strncmp(name, "in", 2))
return {};
long id = strtol(name + 2, nullptr, 10);
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std::unique_ptr<IMIDIIn> ret = std::make_unique<MIDIIn>(this, std::move(receiver));
if (!ret)
return {};
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if (FAILED(midiInOpen(&static_cast<MIDIIn&>(*ret).m_midi, id, DWORD_PTR(MIDIReceiveProc),
DWORD_PTR(static_cast<IMIDIReceiver*>(ret.get())), CALLBACK_FUNCTION)))
return {};
midiInStart(static_cast<MIDIIn&>(*ret).m_midi);
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return ret;
}
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std::unique_ptr<IMIDIOut> newRealMIDIOut(const char* name) {
if (strncmp(name, "out", 3))
return {};
long id = strtol(name + 3, nullptr, 10);
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std::unique_ptr<IMIDIOut> ret = std::make_unique<MIDIOut>(this);
if (!ret)
return {};
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if (FAILED(midiOutOpen(&static_cast<MIDIOut&>(*ret).m_midi, id, NULL, NULL, CALLBACK_NULL)))
return {};
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static_cast<MIDIOut&>(*ret).prepare();
return ret;
}
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std::unique_ptr<IMIDIInOut> newRealMIDIInOut(const char* name, ReceiveFunctor&& receiver) {
const char* in = strstr(name, "in");
const char* out = strstr(name, "out");
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if (!in || !out)
return {};
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long inId = strtol(in + 2, nullptr, 10);
long outId = strtol(out + 3, nullptr, 10);
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std::unique_ptr<IMIDIInOut> ret = std::make_unique<MIDIInOut>(this, std::move(receiver));
if (!ret)
return {};
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if (FAILED(midiInOpen(&static_cast<MIDIInOut&>(*ret).m_midiIn, inId, DWORD_PTR(MIDIReceiveProc),
DWORD_PTR(static_cast<IMIDIReceiver*>(ret.get())), CALLBACK_FUNCTION)))
return {};
midiInStart(static_cast<MIDIInOut&>(*ret).m_midiIn);
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if (FAILED(midiOutOpen(&static_cast<MIDIInOut&>(*ret).m_midiOut, outId, NULL, NULL, CALLBACK_NULL)))
return {};
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static_cast<MIDIInOut&>(*ret).prepare();
return ret;
}
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bool useMIDILock() const { return true; }
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#else
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std::vector<std::pair<std::string, std::string>> enumerateMIDIDevices() const { return {}; }
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std::unique_ptr<IMIDIIn> newVirtualMIDIIn(ReceiveFunctor&& receiver) { return {}; }
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std::unique_ptr<IMIDIOut> newVirtualMIDIOut() { return {}; }
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std::unique_ptr<IMIDIInOut> newVirtualMIDIInOut(ReceiveFunctor&& receiver) { return {}; }
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std::unique_ptr<IMIDIIn> newRealMIDIIn(const char* name, ReceiveFunctor&& receiver) { return {}; }
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std::unique_ptr<IMIDIOut> newRealMIDIOut(const char* name) { return {}; }
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std::unique_ptr<IMIDIInOut> newRealMIDIInOut(const char* name, ReceiveFunctor&& receiver) { return {}; }
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bool useMIDILock() const { return false; }
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#endif
};
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std::unique_ptr<IAudioVoiceEngine> NewAudioVoiceEngine() { return std::make_unique<WASAPIAudioVoiceEngine>(); }
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} // namespace boo