138 行
4.4 KiB
C++
138 行
4.4 KiB
C++
#include <mmsystem.h>
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auto CALLBACK waveOutCallback(HWAVEOUT handle, UINT message, DWORD_PTR userData, DWORD_PTR, DWORD_PTR) -> void;
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struct AudioWaveOut : AudioDriver {
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AudioWaveOut& self = *this;
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AudioWaveOut(Audio& super) : AudioDriver(super) {}
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~AudioWaveOut() { terminate(); }
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auto create() -> bool override {
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super.setChannels(2);
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super.setFrequency(44100);
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super.setLatency(512);
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return initialize();
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}
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auto driver() -> string override { return "waveOut"; }
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auto ready() -> bool override { return true; }
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auto hasDevices() -> vector<string> override {
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vector<string> devices{"Default"};
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for(u32 index : range(waveOutGetNumDevs())) {
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WAVEOUTCAPS caps{};
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if(waveOutGetDevCaps(index, &caps, sizeof(WAVEOUTCAPS)) == MMSYSERR_NOERROR) {
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devices.append((const char*)utf8_t(caps.szPname));
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}
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}
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return devices;
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}
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auto hasBlocking() -> bool override { return true; }
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auto hasDynamic() -> bool override { return true; }
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auto hasFrequencies() -> vector<u32> override { return {44100}; }
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auto hasLatencies() -> vector<u32> override { return {512, 384, 320, 256, 192, 160, 128, 96, 80, 64, 48, 40, 32}; }
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auto setBlocking(bool blocking) -> bool override { return true; }
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auto setDynamic(bool dynamic) -> bool override { return initialize(); }
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auto setLatency(u32 latency) -> bool override { return initialize(); }
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auto clear() -> void override {
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for(auto& header : headers) {
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memory::fill(header.lpData, frameCount * 4);
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}
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}
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auto level() -> f64 override {
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return (f64)((blockQueue * frameCount) + frameIndex) / (blockCount * frameCount);
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}
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auto output(const f64 samples[]) -> void override {
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u16 lsample = sclamp<16>(samples[0] * 32767.0);
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u16 rsample = sclamp<16>(samples[1] * 32767.0);
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auto block = (u32*)headers[blockIndex].lpData;
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block[frameIndex] = lsample << 0 | rsample << 16;
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if(++frameIndex >= frameCount) {
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frameIndex = 0;
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if(self.dynamic) {
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while(waveOutWrite(handle, &headers[blockIndex], sizeof(WAVEHDR)) == WAVERR_STILLPLAYING);
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InterlockedIncrement(&blockQueue);
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} else while(true) {
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auto result = waveOutWrite(handle, &headers[blockIndex], sizeof(WAVEHDR));
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if(!self.blocking || result != WAVERR_STILLPLAYING) break;
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InterlockedIncrement(&blockQueue);
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}
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if(++blockIndex >= blockCount) {
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blockIndex = 0;
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}
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}
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}
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private:
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auto initialize() -> bool {
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terminate();
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auto deviceIndex = hasDevices().find(self.device);
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if(!deviceIndex) deviceIndex = 0;
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WAVEFORMATEX format{};
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format.wFormatTag = WAVE_FORMAT_PCM;
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format.nChannels = 2;
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format.nSamplesPerSec = 44100;
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format.nBlockAlign = 4;
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format.wBitsPerSample = 16;
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format.nAvgBytesPerSec = format.nSamplesPerSec * format.nBlockAlign;
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format.cbSize = 0; //not sizeof(WAVEFORMAT); size of extra information after WAVEFORMATEX
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//-1 = default; 0+ = specific device; subtract -1 as hasDevices() includes "Default" entry
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waveOutOpen(&handle, (s32)*deviceIndex - 1, &format, (DWORD_PTR)waveOutCallback, (DWORD_PTR)this, CALLBACK_FUNCTION);
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frameCount = self.latency;
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blockCount = 32;
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frameIndex = 0;
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blockIndex = 0;
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blockQueue = 0;
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headers.resize(blockCount);
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for(auto& header : headers) {
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memory::fill(&header, sizeof(WAVEHDR));
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header.lpData = (LPSTR)LocalAlloc(LMEM_FIXED, frameCount * 4);
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header.dwBufferLength = frameCount * 4;
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waveOutPrepareHeader(handle, &header, sizeof(WAVEHDR));
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}
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waveOutSetVolume(handle, 0xffff'ffff); //100% volume (65535 left, 65535 right)
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waveOutRestart(handle);
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return true;
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}
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auto terminate() -> void {
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if(!handle) return;
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waveOutPause(handle);
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waveOutReset(handle);
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for(auto& header : headers) {
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waveOutUnprepareHeader(handle, &header, sizeof(WAVEHDR));
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LocalFree(header.lpData);
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}
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waveOutClose(handle);
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handle = nullptr;
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headers.reset();
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}
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HWAVEOUT handle = nullptr;
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vector<WAVEHDR> headers;
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u32 frameCount = 0;
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u32 blockCount = 0;
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u32 frameIndex = 0;
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u32 blockIndex = 0;
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public:
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LONG blockQueue = 0;
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};
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auto CALLBACK waveOutCallback(HWAVEOUT handle, UINT message, DWORD_PTR userData, DWORD_PTR, DWORD_PTR) -> void {
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auto instance = (AudioWaveOut*)userData;
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if(instance->blockQueue > 0) InterlockedDecrement(&instance->blockQueue);
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}
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