using Ryujinx.Common.Logging;
using Ryujinx.Graphics.GAL;
using Ryujinx.Graphics.Shader;
using shaderc;
using Silk.NET.Vulkan;
using System;
using System.Runtime.InteropServices;
using System.Threading.Tasks;
namespace Ryujinx.Graphics.Vulkan
{
class Shader : IDisposable
// The shaderc.net dependency's Options constructor and dispose are not thread safe.
// Take this lock when using them.
private static object _shaderOptionsLock = new object();
private static readonly IntPtr _ptrMainEntryPointName = Marshal.StringToHGlobalAnsi("main");
private readonly Vk _api;
private readonly Device _device;
private readonly ShaderStageFlags _stage;
private bool _disposed;
private ShaderModule _module;
public ShaderStageFlags StageFlags => _stage;
public ShaderBindings Bindings { get; }
public ProgramLinkStatus CompileStatus { private set; get; }
public readonly Task CompileTask;
public unsafe Shader(Vk api, Device device, ShaderSource shaderSource)
_api = api;
_device = device;
Bindings = shaderSource.Bindings;
CompileStatus = ProgramLinkStatus.Incomplete;
_stage = shaderSource.Stage.Convert();
CompileTask = Task.Run(() =>
byte[] spirv = shaderSource.BinaryCode;
if (spirv == null)
spirv = GlslToSpirv(shaderSource.Code, shaderSource.Stage);
CompileStatus = ProgramLinkStatus.Failure;
return;
}
fixed (byte* pCode = spirv)
var shaderModuleCreateInfo = new ShaderModuleCreateInfo()
SType = StructureType.ShaderModuleCreateInfo,
CodeSize = (uint)spirv.Length,
PCode = (uint*)pCode
};
api.CreateShaderModule(device, shaderModuleCreateInfo, null, out _module).ThrowOnError();
CompileStatus = ProgramLinkStatus.Success;
});
private unsafe static byte[] GlslToSpirv(string glsl, ShaderStage stage)
// TODO: We should generate the correct code on the shader translator instead of doing this compensation.
glsl = glsl.Replace("gl_VertexID", "(gl_VertexIndex - gl_BaseVertex)");
glsl = glsl.Replace("gl_InstanceID", "(gl_InstanceIndex - gl_BaseInstance)");
Options options;
lock (_shaderOptionsLock)
options = new Options(false)
SourceLanguage = SourceLanguage.Glsl,
TargetSpirVVersion = new SpirVVersion(1, 5)
options.SetTargetEnvironment(TargetEnvironment.Vulkan, EnvironmentVersion.Vulkan_1_2);
Compiler compiler = new Compiler(options);
var scr = compiler.Compile(glsl, "Ryu", GetShaderCShaderStage(stage));
options.Dispose();
if (scr.Status != Status.Success)
Logger.Error?.Print(LogClass.Gpu, $"Shader compilation error: {scr.Status} {scr.ErrorMessage}");
return null;
var spirvBytes = new Span<byte>((void*)scr.CodePointer, (int)scr.CodeLength);
byte[] code = new byte[(scr.CodeLength + 3) & ~3];
spirvBytes.CopyTo(code.AsSpan().Slice(0, (int)scr.CodeLength));
return code;
private static ShaderKind GetShaderCShaderStage(ShaderStage stage)
switch (stage)
case ShaderStage.Vertex:
return ShaderKind.GlslVertexShader;
case ShaderStage.Geometry:
return ShaderKind.GlslGeometryShader;
case ShaderStage.TessellationControl:
return ShaderKind.GlslTessControlShader;
case ShaderStage.TessellationEvaluation:
return ShaderKind.GlslTessEvaluationShader;
case ShaderStage.Fragment:
return ShaderKind.GlslFragmentShader;
case ShaderStage.Compute:
return ShaderKind.GlslComputeShader;
Logger.Debug?.Print(LogClass.Gpu, $"Invalid {nameof(ShaderStage)} enum value: {stage}.");
public unsafe PipelineShaderStageCreateInfo GetInfo()
return new PipelineShaderStageCreateInfo()
SType = StructureType.PipelineShaderStageCreateInfo,
Stage = _stage,
Module = _module,
PName = (byte*)_ptrMainEntryPointName
public void WaitForCompile()
CompileTask.Wait();
public unsafe void Dispose()
if (!_disposed)
_api.DestroyShaderModule(_device, _module, null);
_disposed = true;