#ifdef _WIN32 #include "Utilities/Log.h" #include "Utilities/StrFmt.h" #include "Emu/System.h" #include "XAudio2Backend.h" #include "3rdparty/minidx12/Include/xaudio2.h" class XAudio28Library : public XAudio2Backend::XAudio2Library { const HMODULE tls_xaudio2_lib; IXAudio2* tls_xaudio2_instance{}; IXAudio2MasteringVoice* tls_master_voice{}; IXAudio2SourceVoice* tls_source_voice{}; public: XAudio28Library(void* lib2_8) : tls_xaudio2_lib(static_cast(lib2_8)) { const auto create = (XAudio2Create)GetProcAddress(tls_xaudio2_lib, "XAudio2Create"); HRESULT hr = S_OK; hr = CoInitializeEx(nullptr, COINIT_MULTITHREADED); if (FAILED(hr)) { LOG_ERROR(GENERAL, "XAudio2Backend : CoInitializeEx() failed(0x%08x)", (u32)hr); Emu.Pause(); return; } hr = create(&tls_xaudio2_instance, 0, XAUDIO2_DEFAULT_PROCESSOR); if (FAILED(hr)) { LOG_ERROR(GENERAL, "XAudio2Backend : XAudio2Create() failed(0x%08x)", (u32)hr); Emu.Pause(); return; } hr = tls_xaudio2_instance->CreateMasteringVoice(&tls_master_voice, g_cfg.audio.downmix_to_2ch ? 2 : 8, 48000); if (FAILED(hr)) { LOG_ERROR(GENERAL, "XAudio2Backend : CreateMasteringVoice() failed(0x%08x)", (u32)hr); tls_xaudio2_instance->Release(); Emu.Pause(); } } ~XAudio28Library() { if (tls_source_voice != nullptr) { tls_source_voice->Stop(); tls_source_voice->DestroyVoice(); } if (tls_master_voice != nullptr) { tls_master_voice->DestroyVoice(); } if (tls_xaudio2_instance != nullptr) { tls_xaudio2_instance->StopEngine(); tls_xaudio2_instance->Release(); } CoUninitialize(); FreeLibrary(tls_xaudio2_lib); } virtual void play() override { AUDIT(tls_source_voice != nullptr); HRESULT hr = tls_source_voice->Start(); if (FAILED(hr)) { LOG_ERROR(GENERAL, "XAudio2Backend : Start() failed(0x%08x)", (u32)hr); Emu.Pause(); } } virtual void flush() override { AUDIT(tls_source_voice != nullptr); HRESULT hr = tls_source_voice->FlushSourceBuffers(); if (FAILED(hr)) { LOG_ERROR(GENERAL, "XAudio2Backend : FlushSourceBuffers() failed(0x%08x)", (u32)hr); Emu.Pause(); } } virtual void stop() override { AUDIT(tls_source_voice != nullptr); HRESULT hr = tls_source_voice->Stop(); if (FAILED(hr)) { LOG_ERROR(GENERAL, "XAudio2Backend : Stop() failed(0x%08x)", (u32)hr); Emu.Pause(); } } virtual bool is_playing() override { AUDIT(tls_source_voice != nullptr); XAUDIO2_VOICE_STATE state; tls_source_voice->GetState(&state, XAUDIO2_VOICE_NOSAMPLESPLAYED); return state.BuffersQueued > 0 || state.pCurrentBufferContext != nullptr; } virtual void open() override { HRESULT hr; const u32 sample_size = AudioBackend::get_sample_size(); const u32 channels = AudioBackend::get_channels(); const u32 sampling_rate = AudioBackend::get_sampling_rate(); WAVEFORMATEX waveformatex; waveformatex.wFormatTag = g_cfg.audio.convert_to_u16 ? WAVE_FORMAT_PCM : WAVE_FORMAT_IEEE_FLOAT; waveformatex.nChannels = channels; waveformatex.nSamplesPerSec = sampling_rate; waveformatex.nAvgBytesPerSec = static_cast(sampling_rate * channels * sample_size); waveformatex.nBlockAlign = channels * sample_size; waveformatex.wBitsPerSample = sample_size * 8; waveformatex.cbSize = 0; hr = tls_xaudio2_instance->CreateSourceVoice(&tls_source_voice, &waveformatex, 0, XAUDIO2_DEFAULT_FREQ_RATIO); if (FAILED(hr)) { LOG_ERROR(GENERAL, "XAudio2Backend : CreateSourceVoice() failed(0x%08x)", (u32)hr); Emu.Pause(); return; } AUDIT(tls_source_voice != nullptr); tls_source_voice->SetVolume(channels == 2 ? 1.0f : 4.0f); } virtual bool add(const void* src, u32 num_samples) override { AUDIT(tls_source_voice != nullptr); XAUDIO2_VOICE_STATE state; tls_source_voice->GetState(&state, XAUDIO2_VOICE_NOSAMPLESPLAYED); if (state.BuffersQueued >= MAX_AUDIO_BUFFERS) { LOG_WARNING(GENERAL, "XAudio2Backend : too many buffers enqueued (%d)", state.BuffersQueued); return false; } XAUDIO2_BUFFER buffer; buffer.AudioBytes = num_samples * AudioBackend::get_sample_size(); buffer.Flags = 0; buffer.LoopBegin = XAUDIO2_NO_LOOP_REGION; buffer.LoopCount = 0; buffer.LoopLength = 0; buffer.pAudioData = (const BYTE*)src; buffer.pContext = 0; buffer.PlayBegin = 0; buffer.PlayLength = AUDIO_BUFFER_SAMPLES; HRESULT hr = tls_source_voice->SubmitSourceBuffer(&buffer); if (FAILED(hr)) { LOG_ERROR(GENERAL, "XAudio2Backend : AddData() failed(0x%08x)", (u32)hr); Emu.Pause(); return false; } return true; } virtual u64 enqueued_samples() override { XAUDIO2_VOICE_STATE state; tls_source_voice->GetState(&state); // all buffers contain AUDIO_BUFFER_SAMPLES, so we can easily calculate how many samples there are remaining return (AUDIO_BUFFER_SAMPLES - state.SamplesPlayed % AUDIO_BUFFER_SAMPLES) + (state.BuffersQueued * AUDIO_BUFFER_SAMPLES); } virtual f32 set_freq_ratio(f32 new_ratio) override { new_ratio = std::clamp(new_ratio, XAUDIO2_MIN_FREQ_RATIO, XAUDIO2_DEFAULT_FREQ_RATIO); HRESULT hr = tls_source_voice->SetFrequencyRatio(new_ratio); if (FAILED(hr)) { LOG_ERROR(GENERAL, "XAudio2Backend : SetFrequencyRatio() failed(0x%08x)", (u32)hr); Emu.Pause(); return 1.0f; } return new_ratio; } }; XAudio2Backend::XAudio2Library* XAudio2Backend::xa28_init(void* lib2_8) { return new XAudio28Library(lib2_8); } #endif