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e20abbf9cc
* Vulkan: Don't flush commands when creating most sync When the WaitForIdle method is called, we create sync as some internal GPU method may read back written buffer data. Some games randomly intersperse compute dispatch into their render passes, which result in this happening an unbounded number of times depending on how many times they run compute. Creating sync in Vulkan is expensive, as we need to flush the current command buffer so that it can be waited on. We have a limited number of active command buffers due to how we track resource usage, so submitting too many command buffers will force us to wait for them to return to the pool. This PR allows less "important" sync (things which are less likely to be waited on) to wait on a command buffer's result without submitting it, instead relying on AutoFlush or another, more important sync to flush it later on. Because of the possibility of us waiting for a command buffer that hasn't submitted yet, any thread needs to be able to force the active command buffer to submit. The ability to do this has been added to the backend multithreading via an "Interrupt", though it is not supported without multithreading. OpenGL drivers should already be doing something similar so they don't blow up when creating lots of sync, which is why this hasn't been a problem for these games over there. Improves Vulkan performance on Xenoblade DE, Pokemon Scarlet/Violet, and Zelda BOTW (still another large issue here) * Add strict argument This is technically a separate concern from whether the sync is a host syncpoint. * Remove _interrupted variable * Actually wait for the invoke This is required by AMD GPUs, and also may have caused some issues on other GPUs. * Remove unused using. * I don't know why it added these ones. * Address Feedback * Fix typo
265 lines
9.5 KiB
C#
265 lines
9.5 KiB
C#
using OpenTK.Graphics.OpenGL;
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using Ryujinx.Common.Configuration;
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using Ryujinx.Common.Logging;
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using Ryujinx.Graphics.GAL;
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using Ryujinx.Graphics.OpenGL.Image;
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using Ryujinx.Graphics.OpenGL.Queries;
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using Ryujinx.Graphics.Shader.Translation;
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using System;
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namespace Ryujinx.Graphics.OpenGL
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{
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public sealed class OpenGLRenderer : IRenderer
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{
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private readonly Pipeline _pipeline;
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public IPipeline Pipeline => _pipeline;
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private readonly Counters _counters;
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private readonly Window _window;
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public IWindow Window => _window;
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private TextureCopy _textureCopy;
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private TextureCopy _backgroundTextureCopy;
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internal TextureCopy TextureCopy => BackgroundContextWorker.InBackground ? _backgroundTextureCopy : _textureCopy;
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internal TextureCopyMS TextureCopyMS { get; }
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private Sync _sync;
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public event EventHandler<ScreenCaptureImageInfo> ScreenCaptured;
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internal PersistentBuffers PersistentBuffers { get; }
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internal ResourcePool ResourcePool { get; }
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internal int BufferCount { get; private set; }
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public string GpuVendor { get; private set; }
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public string GpuRenderer { get; private set; }
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public string GpuVersion { get; private set; }
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public bool PreferThreading => true;
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public OpenGLRenderer()
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{
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_pipeline = new Pipeline();
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_counters = new Counters();
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_window = new Window(this);
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_textureCopy = new TextureCopy(this);
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_backgroundTextureCopy = new TextureCopy(this);
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TextureCopyMS = new TextureCopyMS(this);
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_sync = new Sync();
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PersistentBuffers = new PersistentBuffers();
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ResourcePool = new ResourcePool();
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}
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public BufferHandle CreateBuffer(int size)
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{
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BufferCount++;
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return Buffer.Create(size);
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}
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public IProgram CreateProgram(ShaderSource[] shaders, ShaderInfo info)
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{
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return new Program(shaders, info.FragmentOutputMap);
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}
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public ISampler CreateSampler(SamplerCreateInfo info)
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{
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return new Sampler(info);
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}
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public ITexture CreateTexture(TextureCreateInfo info, float scaleFactor)
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{
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if (info.Target == Target.TextureBuffer)
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{
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return new TextureBuffer(this, info);
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}
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else
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{
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return ResourcePool.GetTextureOrNull(info, scaleFactor) ?? new TextureStorage(this, info, scaleFactor).CreateDefaultView();
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}
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}
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public void DeleteBuffer(BufferHandle buffer)
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{
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Buffer.Delete(buffer);
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}
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public HardwareInfo GetHardwareInfo()
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{
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return new HardwareInfo(GpuVendor, GpuRenderer);
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}
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public ReadOnlySpan<byte> GetBufferData(BufferHandle buffer, int offset, int size)
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{
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return Buffer.GetData(this, buffer, offset, size);
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}
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public Capabilities GetCapabilities()
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{
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return new Capabilities(
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api: TargetApi.OpenGL,
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vendorName: GpuVendor,
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hasFrontFacingBug: HwCapabilities.Vendor == HwCapabilities.GpuVendor.IntelWindows,
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hasVectorIndexingBug: HwCapabilities.Vendor == HwCapabilities.GpuVendor.AmdWindows,
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supportsAstcCompression: HwCapabilities.SupportsAstcCompression,
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supportsBc123Compression: HwCapabilities.SupportsTextureCompressionS3tc,
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supportsBc45Compression: HwCapabilities.SupportsTextureCompressionRgtc,
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supportsBc67Compression: true, // Should check BPTC extension, but for some reason NVIDIA is not exposing the extension.
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supportsEtc2Compression: true,
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supports3DTextureCompression: false,
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supportsBgraFormat: false,
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supportsR4G4Format: false,
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supportsR4G4B4A4Format: true,
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supportsSnormBufferTextureFormat: false,
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supports5BitComponentFormat: true,
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supportsFragmentShaderInterlock: HwCapabilities.SupportsFragmentShaderInterlock,
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supportsFragmentShaderOrderingIntel: HwCapabilities.SupportsFragmentShaderOrdering,
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supportsGeometryShaderPassthrough: HwCapabilities.SupportsGeometryShaderPassthrough,
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supportsImageLoadFormatted: HwCapabilities.SupportsImageLoadFormatted,
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supportsLayerVertexTessellation: HwCapabilities.SupportsShaderViewportLayerArray,
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supportsMismatchingViewFormat: HwCapabilities.SupportsMismatchingViewFormat,
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supportsCubemapView: true,
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supportsNonConstantTextureOffset: HwCapabilities.SupportsNonConstantTextureOffset,
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supportsShaderBallot: HwCapabilities.SupportsShaderBallot,
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supportsTextureShadowLod: HwCapabilities.SupportsTextureShadowLod,
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supportsViewportIndex: HwCapabilities.SupportsShaderViewportLayerArray,
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supportsViewportSwizzle: HwCapabilities.SupportsViewportSwizzle,
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supportsIndirectParameters: HwCapabilities.SupportsIndirectParameters,
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maximumUniformBuffersPerStage: 13, // TODO: Avoid hardcoding those limits here and get from driver?
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maximumStorageBuffersPerStage: 16,
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maximumTexturesPerStage: 32,
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maximumImagesPerStage: 8,
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maximumComputeSharedMemorySize: HwCapabilities.MaximumComputeSharedMemorySize,
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maximumSupportedAnisotropy: HwCapabilities.MaximumSupportedAnisotropy,
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storageBufferOffsetAlignment: HwCapabilities.StorageBufferOffsetAlignment);
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}
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public void SetBufferData(BufferHandle buffer, int offset, ReadOnlySpan<byte> data)
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{
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Buffer.SetData(buffer, offset, data);
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}
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public void UpdateCounters()
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{
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_counters.Update();
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}
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public void PreFrame()
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{
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_sync.Cleanup();
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ResourcePool.Tick();
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}
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public ICounterEvent ReportCounter(CounterType type, EventHandler<ulong> resultHandler, bool hostReserved)
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{
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return _counters.QueueReport(type, resultHandler, _pipeline.DrawCount, hostReserved);
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}
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public void Initialize(GraphicsDebugLevel glLogLevel)
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{
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Debugger.Initialize(glLogLevel);
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PrintGpuInformation();
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if (HwCapabilities.SupportsParallelShaderCompile)
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{
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GL.Arb.MaxShaderCompilerThreads(Math.Min(Environment.ProcessorCount, 8));
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}
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_pipeline.Initialize(this);
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_counters.Initialize();
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// This is required to disable [0, 1] clamping for SNorm outputs on compatibility profiles.
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// This call is expected to fail if we're running with a core profile,
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// as this clamp target was deprecated, but that's fine as a core profile
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// should already have the desired behaviour were outputs are not clamped.
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GL.ClampColor(ClampColorTarget.ClampFragmentColor, ClampColorMode.False);
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}
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private void PrintGpuInformation()
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{
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GpuVendor = GL.GetString(StringName.Vendor);
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GpuRenderer = GL.GetString(StringName.Renderer);
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GpuVersion = GL.GetString(StringName.Version);
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Logger.Notice.Print(LogClass.Gpu, $"{GpuVendor} {GpuRenderer} ({GpuVersion})");
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}
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public void ResetCounter(CounterType type)
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{
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_counters.QueueReset(type);
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}
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public void BackgroundContextAction(Action action, bool alwaysBackground = false)
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{
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// alwaysBackground is ignored, since we cannot switch from the current context.
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if (IOpenGLContext.HasContext())
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{
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action(); // We have a context already - use that (assuming it is the main one).
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}
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else
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{
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_window.BackgroundContext.Invoke(action);
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}
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}
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public void InitializeBackgroundContext(IOpenGLContext baseContext)
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{
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_window.InitializeBackgroundContext(baseContext);
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}
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public void Dispose()
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{
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_textureCopy.Dispose();
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_backgroundTextureCopy.Dispose();
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TextureCopyMS.Dispose();
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PersistentBuffers.Dispose();
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ResourcePool.Dispose();
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_pipeline.Dispose();
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_window.Dispose();
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_counters.Dispose();
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_sync.Dispose();
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}
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public IProgram LoadProgramBinary(byte[] programBinary, bool hasFragmentShader, ShaderInfo info)
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{
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return new Program(programBinary, hasFragmentShader, info.FragmentOutputMap);
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}
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public void CreateSync(ulong id, bool strict)
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{
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_sync.Create(id);
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}
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public void WaitSync(ulong id)
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{
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_sync.Wait(id);
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}
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public ulong GetCurrentSync()
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{
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return _sync.GetCurrent();
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}
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public void SetInterruptAction(Action<Action> interruptAction)
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{
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// Currently no need for an interrupt action.
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}
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public void Screenshot()
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{
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_window.ScreenCaptureRequested = true;
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}
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public void OnScreenCaptured(ScreenCaptureImageInfo bitmap)
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{
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ScreenCaptured?.Invoke(this, bitmap);
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}
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}
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}
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