mirror of
https://github.com/ryujinx-mirror/ryujinx.git
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b46b63e06a
* Add support for alpha to coverage dithering * Shader cache version bump * Fix wrong alpha register * Ensure support buffer is cleared * New shader specialization based approach
258 lines
12 KiB
C#
258 lines
12 KiB
C#
using Ryujinx.Common;
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using Ryujinx.Common.Logging;
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using Ryujinx.Common.Memory;
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using Ryujinx.Graphics.GAL;
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using Ryujinx.Graphics.Gpu.Engine.Threed;
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using Ryujinx.Graphics.Gpu.Shader.Cache.Definition;
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using Ryujinx.Graphics.Gpu.Shader.DiskCache;
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using Ryujinx.Graphics.Shader;
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using System;
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using System.Collections.Generic;
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using System.Diagnostics;
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using System.IO;
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using System.Runtime.InteropServices;
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namespace Ryujinx.Graphics.Gpu.Shader.Cache
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{
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/// <summary>
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/// Class handling shader cache migrations.
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/// </summary>
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static class Migration
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{
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// Last codegen version before the migration to the new cache.
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private const ulong ShaderCodeGenVersion = 3054;
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/// <summary>
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/// Migrates from the old cache format to the new one.
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/// </summary>
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/// <param name="context">GPU context</param>
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/// <param name="hostStorage">Disk cache host storage (used to create the new shader files)</param>
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/// <returns>Number of migrated shaders</returns>
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public static int MigrateFromLegacyCache(GpuContext context, DiskCacheHostStorage hostStorage)
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{
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string baseCacheDirectory = CacheHelper.GetBaseCacheDirectory(GraphicsConfig.TitleId);
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string cacheDirectory = CacheHelper.GenerateCachePath(baseCacheDirectory, CacheGraphicsApi.Guest, "", "program");
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// If the directory does not exist, we have no old cache.
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// Exist early as the CacheManager constructor will create the directories.
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if (!Directory.Exists(cacheDirectory))
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{
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return 0;
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}
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if (GraphicsConfig.EnableShaderCache && GraphicsConfig.TitleId != null)
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{
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CacheManager cacheManager = new CacheManager(CacheGraphicsApi.OpenGL, CacheHashType.XxHash128, "glsl", GraphicsConfig.TitleId, ShaderCodeGenVersion);
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bool isReadOnly = cacheManager.IsReadOnly;
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HashSet<Hash128> invalidEntries = null;
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if (isReadOnly)
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{
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Logger.Warning?.Print(LogClass.Gpu, "Loading shader cache in read-only mode (cache in use by another program!)");
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}
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else
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{
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invalidEntries = new HashSet<Hash128>();
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}
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ReadOnlySpan<Hash128> guestProgramList = cacheManager.GetGuestProgramList();
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for (int programIndex = 0; programIndex < guestProgramList.Length; programIndex++)
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{
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Hash128 key = guestProgramList[programIndex];
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byte[] guestProgram = cacheManager.GetGuestProgramByHash(ref key);
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if (guestProgram == null)
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{
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Logger.Error?.Print(LogClass.Gpu, $"Ignoring orphan shader hash {key} in cache (is the cache incomplete?)");
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continue;
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}
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ReadOnlySpan<byte> guestProgramReadOnlySpan = guestProgram;
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ReadOnlySpan<GuestShaderCacheEntry> cachedShaderEntries = GuestShaderCacheEntry.Parse(ref guestProgramReadOnlySpan, out GuestShaderCacheHeader fileHeader);
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if (cachedShaderEntries[0].Header.Stage == ShaderStage.Compute)
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{
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Debug.Assert(cachedShaderEntries.Length == 1);
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GuestShaderCacheEntry entry = cachedShaderEntries[0];
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byte[] code = entry.Code.AsSpan(0, entry.Header.Size - entry.Header.Cb1DataSize).ToArray();
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Span<byte> codeSpan = entry.Code;
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byte[] cb1Data = codeSpan.Slice(codeSpan.Length - entry.Header.Cb1DataSize).ToArray();
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ShaderProgramInfo info = new ShaderProgramInfo(
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Array.Empty<BufferDescriptor>(),
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Array.Empty<BufferDescriptor>(),
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Array.Empty<TextureDescriptor>(),
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Array.Empty<TextureDescriptor>(),
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ShaderStage.Compute,
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false,
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false,
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0,
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0);
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GpuChannelComputeState computeState = new GpuChannelComputeState(
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entry.Header.GpuAccessorHeader.ComputeLocalSizeX,
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entry.Header.GpuAccessorHeader.ComputeLocalSizeY,
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entry.Header.GpuAccessorHeader.ComputeLocalSizeZ,
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entry.Header.GpuAccessorHeader.ComputeLocalMemorySize,
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entry.Header.GpuAccessorHeader.ComputeSharedMemorySize);
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ShaderSpecializationState specState = new ShaderSpecializationState(computeState);
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foreach (var td in entry.TextureDescriptors)
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{
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var handle = td.Key;
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var data = td.Value;
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specState.RegisterTexture(
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0,
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handle,
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-1,
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data.UnpackFormat(),
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data.UnpackSrgb(),
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data.UnpackTextureTarget(),
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data.UnpackTextureCoordNormalized());
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}
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CachedShaderStage shader = new CachedShaderStage(info, code, cb1Data);
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CachedShaderProgram program = new CachedShaderProgram(null, specState, shader);
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hostStorage.AddShader(context, program, ReadOnlySpan<byte>.Empty);
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}
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else
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{
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Debug.Assert(cachedShaderEntries.Length == Constants.ShaderStages);
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CachedShaderStage[] shaders = new CachedShaderStage[Constants.ShaderStages + 1];
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List<ShaderProgram> shaderPrograms = new List<ShaderProgram>();
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TransformFeedbackDescriptorOld[] tfd = CacheHelper.ReadTransformFeedbackInformation(ref guestProgramReadOnlySpan, fileHeader);
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GuestShaderCacheEntry[] entries = cachedShaderEntries.ToArray();
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GuestGpuAccessorHeader accessorHeader = entries[0].Header.GpuAccessorHeader;
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TessMode tessMode = new TessMode();
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int tessPatchType = accessorHeader.TessellationModePacked & 3;
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int tessSpacing = (accessorHeader.TessellationModePacked >> 2) & 3;
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bool tessCw = (accessorHeader.TessellationModePacked & 0x10) != 0;
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tessMode.Packed = (uint)tessPatchType;
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tessMode.Packed |= (uint)(tessSpacing << 4);
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if (tessCw)
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{
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tessMode.Packed |= 0x100;
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}
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PrimitiveTopology topology = accessorHeader.PrimitiveTopology switch
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{
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InputTopology.Lines => PrimitiveTopology.Lines,
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InputTopology.LinesAdjacency => PrimitiveTopology.LinesAdjacency,
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InputTopology.Triangles => PrimitiveTopology.Triangles,
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InputTopology.TrianglesAdjacency => PrimitiveTopology.TrianglesAdjacency,
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_ => PrimitiveTopology.Points
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};
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GpuChannelGraphicsState graphicsState = new GpuChannelGraphicsState(
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accessorHeader.StateFlags.HasFlag(GuestGpuStateFlags.EarlyZForce),
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topology,
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tessMode,
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false,
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false,
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false);
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TransformFeedbackDescriptor[] tfdNew = null;
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if (tfd != null)
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{
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tfdNew = new TransformFeedbackDescriptor[tfd.Length];
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for (int tfIndex = 0; tfIndex < tfd.Length; tfIndex++)
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{
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Array32<uint> varyingLocations = new Array32<uint>();
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Span<byte> varyingLocationsSpan = MemoryMarshal.Cast<uint, byte>(varyingLocations.ToSpan());
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tfd[tfIndex].VaryingLocations.CopyTo(varyingLocationsSpan.Slice(0, tfd[tfIndex].VaryingLocations.Length));
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tfdNew[tfIndex] = new TransformFeedbackDescriptor(
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tfd[tfIndex].BufferIndex,
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tfd[tfIndex].Stride,
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tfd[tfIndex].VaryingLocations.Length,
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ref varyingLocations);
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}
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}
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ShaderSpecializationState specState = new ShaderSpecializationState(graphicsState, tfdNew);
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for (int i = 0; i < entries.Length; i++)
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{
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GuestShaderCacheEntry entry = entries[i];
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if (entry == null)
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{
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continue;
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}
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ShaderProgramInfo info = new ShaderProgramInfo(
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Array.Empty<BufferDescriptor>(),
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Array.Empty<BufferDescriptor>(),
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Array.Empty<TextureDescriptor>(),
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Array.Empty<TextureDescriptor>(),
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(ShaderStage)(i + 1),
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false,
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false,
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0,
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0);
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// NOTE: Vertex B comes first in the shader cache.
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byte[] code = entry.Code.AsSpan(0, entry.Header.Size - entry.Header.Cb1DataSize).ToArray();
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byte[] code2 = entry.Header.SizeA != 0 ? entry.Code.AsSpan(entry.Header.Size, entry.Header.SizeA).ToArray() : null;
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Span<byte> codeSpan = entry.Code;
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byte[] cb1Data = codeSpan.Slice(codeSpan.Length - entry.Header.Cb1DataSize).ToArray();
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shaders[i + 1] = new CachedShaderStage(info, code, cb1Data);
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if (code2 != null)
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{
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shaders[0] = new CachedShaderStage(null, code2, cb1Data);
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}
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foreach (var td in entry.TextureDescriptors)
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{
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var handle = td.Key;
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var data = td.Value;
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specState.RegisterTexture(
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i,
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handle,
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-1,
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data.UnpackFormat(),
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data.UnpackSrgb(),
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data.UnpackTextureTarget(),
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data.UnpackTextureCoordNormalized());
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}
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}
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CachedShaderProgram program = new CachedShaderProgram(null, specState, shaders);
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hostStorage.AddShader(context, program, ReadOnlySpan<byte>.Empty);
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}
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}
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return guestProgramList.Length;
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}
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return 0;
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}
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}
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} |