mirror of https://github.com/bsnes-emu/bsnes.git
Update to v103r17 release.
byuu says: Changelog: - tomoko: re-hid the video sync option¹ - tomoko: removed " Settings" duplication on all the individual settings tab options - ruby/audio/wasapi: finished port to new syntax; adapted to an event-driven model; support 32-bit integral audio² - ruby/video/sdl: ported to new syntax; disabled driver on FreeBSD³ ¹: still contemplating a synchronize submenu of {none, video, audio}, but ... the fact that video can't work on PAL, WonderSwan games is a real limitation for it ²: this driver actually received a ton of work. There's also a new ring-buffer queue, and I added special handling for when exclusive mode fails because the latency requested is lower than the hardware can support. It'll pick the closest latency to the minimum that is possible in this case. On my Audigy Rx, the results for non-exclusive mode are the same. For exclusive mode, the framerate drops from 60fps to ~50fps for smaller buffers, and ~55fps for larger buffers (no matter how big, it never hits 60fps.) This is a lot better than before where it was hitting ~15fps, but unfortunately it's the best I can do. The event system used by WASAPI is really stupid. It just uses SetEvent at some arbitrary time, and you have to query to see how many samples it's waiting on. This makes it unknowable how many samples we should buffer before calling `WaitForSingleObject(INFINITE)`, and it's also unclear how we should handle cases where there's more samples available than our queue has: either we can fill it with zeroes, or we can write less samples. The former should prevent audio looping effects when running too slowly, whereas the latter could potentially be too ambitious when the audio could've recovered from a minor stall. It's shocking to me how there's as many ways to send audio to a sound card as there are sound card APIs, when all that's needed is a simple double buffer and a callback event from another thread to do it right. It's also terrifying how unbelievably shitty nearly all sound card drivers apparently are. Also, I don't know if cards can output an actual 24-bit mode with three byte audio samples, or if they always just take 32-bit samples and ignore the lower 8-bits. Whatever, it's all nonsense for the final output to be >16-bits anyway (hi, `double[]` input from ruby.) ³: unfortunately, this driver always crashes on FreeBSD (even before the rewrite), so I'll need someone on Linux to test it and make sure it actually works. I'll also need testing for a lot of the other drivers as well, once they're ported over (I don't have X-video, PulseAudio, ALSA, or udev.) Note that I forgot to set `_ready=true` at the end of `initialize()`, and `_ready=false` in `terminate()`, but it shouldn't actually matter beyond showing you a false warning message on startup about it failing to initialize.
This commit is contained in:
parent
f87c6b7ecb
commit
0b4e7fb5a5
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@ -12,7 +12,7 @@ using namespace nall;
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namespace Emulator {
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static const string Name = "higan";
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static const string Version = "103.16";
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static const string Version = "103.17";
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static const string Author = "byuu";
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static const string License = "GPLv3";
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static const string Website = "http://byuu.org/";
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@ -19,18 +19,18 @@ ui_objects += $(if $(call streq,$(platform),windows),ui-resource)
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# platform
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ifeq ($(platform),windows)
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ruby += video.direct3d #video.wgl video.directdraw video.gdi
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ruby += audio.asio #audio.wasapi audio.xaudio2 audio.directsound
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ruby += audio.asio audio.wasapi #audio.xaudio2 audio.directsound
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ruby += input.windows
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else ifeq ($(platform),macosx)
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ruby += #video.cgl
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ruby += audio.openal
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ruby += #input.quartz input.carbon
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else ifeq ($(platform),linux)
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ruby += video.xshm #video.glx video.xv video.xshm video.sdl
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ruby += audio.oss audio.openal #audio.alsa audio.oss audio.pulseaudio audio.pulseaudiosimple audio.ao
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ruby += input.sdl input.xlib #input.udev input.sdl input.xlib
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ruby += video.xshm video.sdl #video.glx video.xv
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ruby += audio.oss audio.openal #audio.alsa audio.pulseaudio audio.pulseaudiosimple audio.ao
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ruby += input.sdl input.xlib #input.udev
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else ifeq ($(platform),bsd)
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ruby += video.xshm #video.glx video.xv video.xshm video.sdl
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ruby += video.xshm #video.glx video.xv
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ruby += audio.oss audio.openal
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ruby += input.sdl input.xlib
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endif
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@ -82,7 +82,7 @@ Presentation::Presentation() {
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program->updateVideoShader();
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});
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loadShaders();
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synchronizeVideo.setText("Synchronize Video").setChecked(settings["Video/Synchronize"].boolean()).onToggle([&] {
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synchronizeVideo.setText("Synchronize Video").setChecked(settings["Video/Synchronize"].boolean()).setVisible(false).onToggle([&] {
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settings["Video/Synchronize"].setValue(synchronizeVideo.checked());
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video->setBlocking(synchronizeVideo.checked());
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});
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@ -99,9 +99,9 @@ Presentation::Presentation() {
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statusBar.setVisible(showStatusBar.checked());
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if(visible()) resizeViewport();
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});
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showVideoSettings.setText("Video Settings ...").onActivate([&] { settingsManager->show(0); });
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showAudioSettings.setText("Audio Settings ...").onActivate([&] { settingsManager->show(1); });
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showInputSettings.setText("Input Settings ...").onActivate([&] {
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showVideoSettings.setText("Video ...").onActivate([&] { settingsManager->show(0); });
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showAudioSettings.setText("Audio ...").onActivate([&] { settingsManager->show(1); });
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showInputSettings.setText("Input ...").onActivate([&] {
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if(emulator) {
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//default input panel to current core's input settings
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for(auto item : settingsManager->input.emulatorList.items()) {
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@ -114,8 +114,8 @@ Presentation::Presentation() {
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}
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settingsManager->show(2);
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});
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showHotkeySettings.setText("Hotkey Settings ...").onActivate([&] { settingsManager->show(3); });
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showAdvancedSettings.setText("Advanced Settings ...").onActivate([&] { settingsManager->show(4); });
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showHotkeySettings.setText("Hotkeys ...").onActivate([&] { settingsManager->show(3); });
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showAdvancedSettings.setText("Advanced ...").onActivate([&] { settingsManager->show(4); });
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toolsMenu.setText("Tools").setVisible(false);
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saveQuickStateMenu.setText("Save Quick State");
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@ -130,9 +130,9 @@ Presentation::Presentation() {
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loadSlot3.setText("Slot 3").onActivate([&] { program->loadState(3); });
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loadSlot4.setText("Slot 4").onActivate([&] { program->loadState(4); });
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loadSlot5.setText("Slot 5").onActivate([&] { program->loadState(5); });
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cheatEditor.setText("Cheat Editor").onActivate([&] { toolsManager->show(0); });
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stateManager.setText("State Manager").onActivate([&] { toolsManager->show(1); });
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manifestViewer.setText("Manifest Viewer").onActivate([&] { toolsManager->show(2); });
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cheatEditor.setText("Cheat Editor ...").onActivate([&] { toolsManager->show(0); });
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stateManager.setText("State Manager ...").onActivate([&] { toolsManager->show(1); });
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manifestViewer.setText("Manifest Viewer ...").onActivate([&] { toolsManager->show(2); });
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helpMenu.setText("Help");
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documentation.setText("Documentation ...").onActivate([&] {
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@ -41,6 +41,7 @@ Program::Program(string_vector args) {
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presentation->clearViewport();
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audio = Audio::create(settings["Audio/Driver"].text());
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audio->setExclusive(settings["Audio/Exclusive"].boolean());
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audio->setContext(presentation->viewport.handle());
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audio->setDevice(settings["Audio/Device"].text());
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audio->setBlocking(settings["Audio/Synchronize"].boolean());
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@ -15,7 +15,7 @@ struct AudioWASAPI : Audio {
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Information information;
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information.devices = {"Default"};
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information.channels = {2};
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information.frequencies = {};
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information.frequencies = {(double)_frequency};
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information.latencies = {20, 40, 60, 80, 100};
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return information;
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}
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@ -51,32 +51,31 @@ struct AudioWASAPI : Audio {
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}
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auto clear() -> void {
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_queue.read = 0;
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_queue.write = 0;
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_queue.count = 0;
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if(!_audioClient) return;
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_audioClient->Stop();
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_audioClient->Reset();
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for(auto n : range(available())) write(0, 0);
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_audioClient->Start();
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}
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auto output(const double samples[]) -> void {
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_queuedFrames.append(int16_t(samples[0] * 32768.0) << 0 | int16_t(samples[1] * 32768.0) << 16);
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if(!available() && _queuedFrames.size() >= _bufferSize) {
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if(_blocking) {
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while(!available()); //wait for free sample slot
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} else {
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_queuedFrames.takeLeft(); //drop sample (run ahead)
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if(_queue.count < _bufferSize) {
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for(uint n : range(_channels)) {
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_queue.samples[_queue.write][n] = samples[n];
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}
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}
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uint32_t cachedFrame = 0;
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for(auto n : range(available())) {
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if(_queuedFrames) cachedFrame = _queuedFrames.takeLeft();
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write(cachedFrame >> 0, cachedFrame >> 16);
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_queue.write++;
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_queue.count++;
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} else if(WaitForSingleObject(_eventHandle, _blocking ? INFINITE : 0) == WAIT_OBJECT_0) {
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write();
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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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if(CoCreateInstance(CLSID_MMDeviceEnumerator, nullptr, CLSCTX_ALL, IID_IMMDeviceEnumerator, (void**)&_enumerator) != S_OK) return false;
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if(_enumerator->GetDefaultAudioEndpoint(eRender, eConsole, &_audioDevice) != S_OK) return false;
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if(_audioDevice->Activate(IID_IAudioClient, CLSCTX_ALL, nullptr, (void**)&_audioClient) != S_OK) return false;
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_waveFormat = (WAVEFORMATEX*)_propVariant.blob.pBlobData;
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if(_audioClient->GetDevicePeriod(nullptr, &_devicePeriod) != S_OK) return false;
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auto latency = max(_devicePeriod, (REFERENCE_TIME)_latency * 10'000); //1ms to 100ns units
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if(_audioClient->Initialize(AUDCLNT_SHAREMODE_EXCLUSIVE, 0, latency, latency, _waveFormat, nullptr) != S_OK) return false;
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auto result = _audioClient->Initialize(AUDCLNT_SHAREMODE_EXCLUSIVE, AUDCLNT_STREAMFLAGS_EVENTCALLBACK, latency, latency, _waveFormat, nullptr);
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if(result == AUDCLNT_E_BUFFER_SIZE_NOT_ALIGNED) {
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if(_audioClient->GetBufferSize(&_bufferSize) != S_OK) return false;
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_audioClient->Release();
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latency = (REFERENCE_TIME)(10'000 * 1'000 * _bufferSize / _waveFormat->nSamplesPerSec);
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if(_audioDevice->Activate(IID_IAudioClient, CLSCTX_ALL, nullptr, (void**)&_audioClient) != S_OK) return false;
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result = _audioClient->Initialize(AUDCLNT_SHAREMODE_EXCLUSIVE, AUDCLNT_STREAMFLAGS_EVENTCALLBACK, latency, latency, _waveFormat, nullptr);
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}
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if(result != S_OK) return false;
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DWORD taskIndex = 0;
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_taskHandle = AvSetMmThreadCharacteristics(L"Pro Audio", &taskIndex);
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} else {
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if(_audioClient->GetMixFormat(&waveFormat) != S_OK) return false;
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if(_audioClient->GetMixFormat(&_waveFormat) != S_OK) return false;
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if(_audioClient->GetDevicePeriod(&_devicePeriod, nullptr)) return false;
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auto latency = max(_devicePeriod, (REFERENCE_TIME)_latency * 10'000); //1ms to 100ns units
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if(_audioClient->Initialize(AUDCLNT_SHAREMODE_SHARED, 0, latency, 0, _waveFormat, nullptr) != S_OK) return false;
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if(_audioClient->Initialize(AUDCLNT_SHAREMODE_SHARED, AUDCLNT_STREAMFLAGS_EVENTCALLBACK, latency, 0, _waveFormat, nullptr) != S_OK) return false;
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}
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_eventHandle = CreateEvent(nullptr, false, false, nullptr);
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if(_audioClient->SetEventHandle(_eventHandle) != S_OK) return false;
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if(_audioClient->GetService(IID_IAudioRenderClient, (void**)&_renderClient) != S_OK) return false;
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if(_audioClient->GetBufferSize(&_bufferSize) != S_OK) return false;
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_channels = waveFormat->nChannels;
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_frequency = waveFormat->nSamplesPerSec;
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_channels = _waveFormat->nChannels;
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_frequency = _waveFormat->nSamplesPerSec;
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_mode = ((WAVEFORMATEXTENSIBLE*)_waveFormat)->SubFormat.Data1;
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_precision = _waveFormat->wBitsPerSample;
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_audioClient->Start();
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clear();
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return _ready = true;
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}
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if(_waveFormat) CoTaskMemFree(_waveFormat), _waveFormat = nullptr;
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if(_audioClient) _audioClient->Release(), _audioClient = nullptr;
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if(_audioDevice) _audioDevice->Release(), _audioDevice = nullptr;
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if(_eventHandle) CloseHandle(_eventHandle), _eventHandle = nullptr;
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if(_taskHandle) AvRevertMmThreadCharacteristics(_taskHandle), _taskHandle = nullptr;
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}
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auto available() -> uint {
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auto write() -> void {
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uint32_t padding = 0;
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_audioClient->GetCurrentPadding(&padding);
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return bufferSize - padding;
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uint32_t available = _bufferSize - padding;
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uint8_t* buffer = nullptr;
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if(_renderClient->GetBuffer(available, &buffer) == S_OK) {
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uint bufferFlags = 0;
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for(uint _ : range(available)) {
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//if more samples are available than we have queued, fill remainder with silence
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double samples[8] = {};
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if(_queue.count) {
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for(uint n : range(_channels)) {
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samples[n] = _queue.samples[_queue.read][n];
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}
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_queue.read++;
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_queue.count--;
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}
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auto write(int16_t left, int16_t right) -> void {
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if(_renderClient->GetBuffer(1, &_bufferData) != S_OK) return;
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if(_channels >= 2 && _mode == 1 && _precision == 16) {
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auto buffer = (int16_t*)_bufferData;
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buffer[0] = left;
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buffer[1] = right;
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}
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if(_channels >= 2 && _mode == 3 && _precision == 32) {
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auto buffer = (float*)_bufferData;
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buffer[0] = left / 32768.0;
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buffer[1] = right / 32768.0;
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}
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_renderClient->ReleaseBuffer(1, 0);
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if(_mode == 1 && _precision == 16) {
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auto output = (int16_t*)buffer;
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for(uint n : range(_channels)) *output++ = int16_t(samples[n] * 32768.0);
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buffer = (uint8_t*)output;
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} else if(_mode == 1 && _precision == 32) {
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auto output = (int32_t*)buffer;
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for(uint n : range(_channels)) *output++ = int32_t(samples[n] * 65536.0 * 32768.0);
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buffer = (uint8_t*)output;
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} else if(_mode == 3 && _precision == 32) {
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auto output = (float*)buffer;
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for(uint n : range(_channels)) *output++ = float(samples[n]);
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buffer = (uint8_t*)output;
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} else {
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//output silence for unsupported sample formats
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bufferFlags = AUDCLNT_BUFFERFLAGS_SILENT;
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break;
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}
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}
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_renderClient->ReleaseBuffer(available, bufferFlags);
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}
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}
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bool _ready = false;
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bool _exclusive = false;
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bool _blocking = true;
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uint _channels = 2;
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uint _mode = 0;
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uint _precision = 0;
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struct Queue {
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double samples[65536][8];
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uint16_t read;
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uint16_t write;
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uint16_t count;
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} _queue;
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IMMDeviceEnumerator* _enumerator = nullptr;
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IMMDevice* _audioDevice = nullptr;
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IPropertyStore* _propertyStore = nullptr;
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@ -158,9 +193,8 @@ private:
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IAudioRenderClient* _renderClient = nullptr;
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WAVEFORMATEX* _waveFormat = nullptr;
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PROPVARIANT _propVariant;
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HANDLE _eventHandle = nullptr;
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HANDLE _taskHandle = nullptr;
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REFERENCE_TIME _devicePeriod = 0;
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uint32_t _bufferSize = 0; //in frames
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uint8_t* _bufferData = nullptr;
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vector<uint32_t> _queuedFrames;
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};
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@ -1,3 +1,6 @@
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//note: this driver works under Linux, but crashes with SIGSEGV under FreeBSD
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//exact reason is unknown; but I suspect it's a bug in FreeBSD's SDL 1.2 package
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#include <sys/ipc.h>
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#include <sys/shm.h>
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#include <X11/extensions/Xv.h>
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@ -6,130 +9,124 @@
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#include <SDL/SDL.h>
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struct VideoSDL : Video {
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~VideoSDL() { term(); }
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VideoSDL() { initialize(); }
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~VideoSDL() { terminate(); }
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Display* display = nullptr;
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SDL_Surface* screen = nullptr;
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SDL_Surface* buffer = nullptr;
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uint iwidth = 0;
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uint iheight = 0;
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auto ready() -> bool { return _ready; }
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struct {
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uintptr handle = 0;
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auto context() -> uintptr { return _context; }
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uint width = 0;
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uint height = 0;
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} settings;
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auto cap(const string& name) -> bool {
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if(name == Video::Handle) return true;
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return false;
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auto setContext(uintptr context) -> bool {
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if(_context == context) return true;
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_context = context;
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return initialize();
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}
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auto get(const string& name) -> any {
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if(name == Video::Handle) return settings.handle;
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return {};
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auto clear() -> void {
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if(SDL_MUSTLOCK(_buffer)) SDL_LockSurface(_buffer);
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for(uint y : range(_bufferHeight)) {
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uint32_t* data = (uint32_t*)_buffer->pixels + y * (_buffer->pitch >> 2);
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for(uint x : range(_bufferWidth)) *data++ = 0xff000000;
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}
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if(SDL_MUSTLOCK(_buffer)) SDL_UnlockSurface(_buffer);
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output();
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}
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auto set(const string& name, const any& value) -> bool {
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if(name == Video::Handle && value.is<uintptr>()) {
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settings.handle = value.get<uintptr>();
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auto lock(uint32_t*& data, uint& pitch, uint width, uint height) -> bool {
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if(width != _width || height != _height) {
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resize(_width = width, _height = height);
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}
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if(SDL_MUSTLOCK(_buffer)) SDL_LockSurface(_buffer);
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pitch = _buffer->pitch;
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return data = (uint32_t*)_buffer->pixels;
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}
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auto unlock() -> void {
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if(SDL_MUSTLOCK(_buffer)) SDL_UnlockSurface(_buffer);
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}
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auto output() -> void {
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//ruby input is X8R8G8B8, top 8-bits are ignored.
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//as SDL forces us to use a 32-bit buffer, we must set alpha to 255 (full opacity)
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//to prevent blending against the window beneath when X window visual is 32-bits.
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if(SDL_MUSTLOCK(_buffer)) SDL_LockSurface(_buffer);
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for(uint y : range(_height)) {
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uint32_t* data = (uint32_t*)_buffer->pixels + y * (_buffer->pitch >> 2);
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for(uint x : range(_width)) *data++ |= 0xff000000;
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}
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if(SDL_MUSTLOCK(_buffer)) SDL_UnlockSurface(_buffer);
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XWindowAttributes attributes;
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XGetWindowAttributes(_display, _context, &attributes);
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|
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SDL_Rect source;
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SDL_Rect target;
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source.x = 0;
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source.y = 0;
|
||||
source.w = _width;
|
||||
source.h = _height;
|
||||
|
||||
target.x = 0;
|
||||
target.y = 0;
|
||||
target.w = attributes.width;
|
||||
target.h = attributes.height;
|
||||
|
||||
SDL_SoftStretch(_buffer, &source, _screen, &target);
|
||||
SDL_UpdateRect(_screen, target.x, target.y, target.w, target.h);
|
||||
}
|
||||
|
||||
private:
|
||||
auto initialize() -> bool {
|
||||
terminate();
|
||||
if(!_context) return false;
|
||||
|
||||
_display = XOpenDisplay(0);
|
||||
|
||||
char env[512];
|
||||
sprintf(env, "SDL_WINDOWID=%ld", (long)_context);
|
||||
putenv(env);
|
||||
|
||||
SDL_InitSubSystem(SDL_INIT_VIDEO);
|
||||
_screen = SDL_SetVideoMode(2560, 1600, 32, SDL_HWSURFACE);
|
||||
XUndefineCursor(_display, _context);
|
||||
|
||||
_buffer = nullptr;
|
||||
_bufferWidth = 0;
|
||||
_bufferHeight = 0;
|
||||
resize(_width = 256, _height = 256);
|
||||
|
||||
return true;
|
||||
}
|
||||
|
||||
return false;
|
||||
auto terminate() -> void {
|
||||
if(_buffer) SDL_FreeSurface(_buffer), _buffer = nullptr;
|
||||
if(_screen) SDL_QuitSubSystem(SDL_INIT_VIDEO), _screen = nullptr;
|
||||
if(_display) XCloseDisplay(_display), _display = nullptr;
|
||||
}
|
||||
|
||||
auto resize(uint width, uint height) -> void {
|
||||
if(iwidth >= width && iheight >= height) return;
|
||||
if(_bufferWidth >= width && _bufferHeight >= height) return;
|
||||
|
||||
iwidth = max(width, iwidth);
|
||||
iheight = max(height, iheight);
|
||||
_bufferWidth = max(width, _bufferWidth);
|
||||
_bufferHeight = max(height, _bufferHeight);
|
||||
|
||||
if(buffer) SDL_FreeSurface(buffer);
|
||||
buffer = SDL_CreateRGBSurface(
|
||||
SDL_SWSURFACE, iwidth, iheight, 32,
|
||||
if(_buffer) SDL_FreeSurface(_buffer);
|
||||
_buffer = SDL_CreateRGBSurface(
|
||||
SDL_SWSURFACE, _bufferWidth, _bufferHeight, 32,
|
||||
0x00ff0000, 0x0000ff00, 0x000000ff, 0xff000000
|
||||
);
|
||||
}
|
||||
|
||||
auto lock(uint32_t*& data, uint& pitch, uint width, uint height) -> bool {
|
||||
if(width != settings.width || height != settings.height) {
|
||||
resize(settings.width = width, settings.height = height);
|
||||
}
|
||||
bool _ready = false;
|
||||
uintptr _context = 0;
|
||||
|
||||
if(SDL_MUSTLOCK(buffer)) SDL_LockSurface(buffer);
|
||||
pitch = buffer->pitch;
|
||||
return data = (uint32_t*)buffer->pixels;
|
||||
}
|
||||
|
||||
auto unlock() -> void {
|
||||
if(SDL_MUSTLOCK(buffer)) SDL_UnlockSurface(buffer);
|
||||
}
|
||||
|
||||
auto clear() -> void {
|
||||
if(SDL_MUSTLOCK(buffer)) SDL_LockSurface(buffer);
|
||||
for(uint y : range(iheight)) {
|
||||
uint32_t* data = (uint32_t*)buffer->pixels + y * (buffer->pitch >> 2);
|
||||
for(uint x : range(iwidth)) *data++ = 0xff000000;
|
||||
}
|
||||
if(SDL_MUSTLOCK(buffer)) SDL_UnlockSurface(buffer);
|
||||
refresh();
|
||||
}
|
||||
|
||||
auto refresh() -> void {
|
||||
//ruby input is X8R8G8B8, top 8-bits are ignored.
|
||||
//as SDL forces us to use a 32-bit buffer, we must set alpha to 255 (full opacity)
|
||||
//to prevent blending against the window beneath when X window visual is 32-bits.
|
||||
if(SDL_MUSTLOCK(buffer)) SDL_LockSurface(buffer);
|
||||
for(uint y : range(settings.height)) {
|
||||
uint32_t* data = (uint32_t*)buffer->pixels + y * (buffer->pitch >> 2);
|
||||
for(uint x : range(settings.width)) *data++ |= 0xff000000;
|
||||
}
|
||||
if(SDL_MUSTLOCK(buffer)) SDL_UnlockSurface(buffer);
|
||||
|
||||
XWindowAttributes attributes;
|
||||
XGetWindowAttributes(display, settings.handle, &attributes);
|
||||
|
||||
SDL_Rect src, dest;
|
||||
|
||||
src.x = 0;
|
||||
src.y = 0;
|
||||
src.w = settings.width;
|
||||
src.h = settings.height;
|
||||
|
||||
dest.x = 0;
|
||||
dest.y = 0;
|
||||
dest.w = attributes.width;
|
||||
dest.h = attributes.height;
|
||||
|
||||
SDL_SoftStretch(buffer, &src, screen, &dest);
|
||||
SDL_UpdateRect(screen, dest.x, dest.y, dest.w, dest.h);
|
||||
}
|
||||
|
||||
auto init() -> bool {
|
||||
display = XOpenDisplay(0);
|
||||
|
||||
//todo: this causes a segfault inside SDL_SetVideoMode on FreeBSD (works under Linux)
|
||||
char env[512];
|
||||
sprintf(env, "SDL_WINDOWID=%ld", (long)settings.handle);
|
||||
putenv(env);
|
||||
|
||||
SDL_InitSubSystem(SDL_INIT_VIDEO);
|
||||
screen = SDL_SetVideoMode(2560, 1600, 32, SDL_HWSURFACE);
|
||||
XUndefineCursor(display, settings.handle);
|
||||
|
||||
buffer = nullptr;
|
||||
iwidth = 0;
|
||||
iheight = 0;
|
||||
resize(settings.width = 256, settings.height = 256);
|
||||
|
||||
return true;
|
||||
}
|
||||
|
||||
auto term() -> void {
|
||||
XCloseDisplay(display);
|
||||
SDL_FreeSurface(buffer);
|
||||
SDL_QuitSubSystem(SDL_INIT_VIDEO);
|
||||
}
|
||||
Display* _display = nullptr;
|
||||
SDL_Surface* _screen = nullptr;
|
||||
SDL_Surface* _buffer = nullptr;
|
||||
uint _bufferWidth = 0;
|
||||
uint _bufferHeight = 0;
|
||||
uint _width = 0;
|
||||
uint _height = 0;
|
||||
};
|
||||
|
|
|
@ -28,6 +28,14 @@ struct VideoXShm : Video {
|
|||
return true;
|
||||
}
|
||||
|
||||
auto clear() -> void {
|
||||
if(!_ready) return;
|
||||
auto dp = _inputBuffer;
|
||||
uint length = _inputWidth * _inputHeight;
|
||||
while(length--) *dp++ = 255u << 24;
|
||||
output();
|
||||
}
|
||||
|
||||
auto lock(uint32_t*& data, uint& pitch, uint width, uint height) -> bool {
|
||||
if(!_inputBuffer || _inputWidth != width || _inputHeight != height) {
|
||||
if(_inputBuffer) delete[] _inputBuffer;
|
||||
|
@ -44,14 +52,6 @@ struct VideoXShm : Video {
|
|||
auto unlock() -> void {
|
||||
}
|
||||
|
||||
auto clear() -> void {
|
||||
if(!_ready) return;
|
||||
auto dp = _inputBuffer;
|
||||
uint length = _inputWidth * _inputHeight;
|
||||
while(length--) *dp++ = 255u << 24;
|
||||
output();
|
||||
}
|
||||
|
||||
auto output() -> void {
|
||||
if(!_ready) return;
|
||||
size();
|
||||
|
|
Loading…
Reference in New Issue