Exemplo n.º 1
0
        public void ComputeShader3dTexture()
        {
            // Just a dumb compute shader that fills a 3D texture with the same value from a uniform multiplied by the depth.
            string shaderText = @"
#version 450
layout(set = 0, binding = 0, rgba32f) uniform image3D TextureToFill;
layout(set = 0, binding = 1) uniform FillValueBuffer
{
    float FillValue;
    float Padding1;
    float Padding2;
    float Padding3;
};
layout(local_size_x = 16, local_size_y = 16, local_size_z = 1) in;
void main()
{
    ivec3 textureCoordinate = ivec3(gl_GlobalInvocationID.xyz);
    float dataToStore = FillValue * (textureCoordinate.z + 1);

    imageStore(TextureToFill, textureCoordinate, vec4(dataToStore));
}
";

            const float FillValue         = 42.42f;
            const uint  OutputTextureSize = 32;

            using Shader computeShader = RF.CreateFromSpirv(new ShaderDescription(
                                                                ShaderStages.Compute,
                                                                Encoding.ASCII.GetBytes(shaderText),
                                                                "main"));

            using ResourceLayout computeLayout = RF.CreateResourceLayout(new ResourceLayoutDescription(
                                                                             new ResourceLayoutElementDescription("TextureToFill", ResourceKind.TextureReadWrite, ShaderStages.Compute),
                                                                             new ResourceLayoutElementDescription("FillValueBuffer", ResourceKind.UniformBuffer, ShaderStages.Compute)));

            using Pipeline computePipeline = RF.CreateComputePipeline(new ComputePipelineDescription(
                                                                          computeShader,
                                                                          computeLayout,
                                                                          16, 16, 1));

            using DeviceBuffer fillValueBuffer = RF.CreateBuffer(new BufferDescription((uint)Marshal.SizeOf <FillValueStruct>(), BufferUsage.UniformBuffer));

            // Create our output texture.
            using Texture computeTargetTexture = RF.CreateTexture(TextureDescription.Texture3D(
                                                                      OutputTextureSize,
                                                                      OutputTextureSize,
                                                                      OutputTextureSize,
                                                                      1,
                                                                      PixelFormat.R32_G32_B32_A32_Float,
                                                                      TextureUsage.Sampled | TextureUsage.Storage));

            using TextureView computeTargetTextureView = RF.CreateTextureView(computeTargetTexture);

            using ResourceSet computeResourceSet = RF.CreateResourceSet(new ResourceSetDescription(
                                                                            computeLayout,
                                                                            computeTargetTextureView,
                                                                            fillValueBuffer));

            using CommandList cl = RF.CreateCommandList();
            cl.Begin();

            cl.UpdateBuffer(fillValueBuffer, 0, new FillValueStruct(FillValue));

            // Use the compute shader to fill the texture.
            cl.SetPipeline(computePipeline);
            cl.SetComputeResourceSet(0, computeResourceSet);
            const uint GroupDivisorXY = 16;

            cl.Dispatch(OutputTextureSize / GroupDivisorXY, OutputTextureSize / GroupDivisorXY, OutputTextureSize);

            cl.End();
            GD.SubmitCommands(cl);
            GD.WaitForIdle();

            // Read back from our texture and make sure it has been properly filled.
            for (uint depth = 0; depth < computeTargetTexture.Depth; depth++)
            {
                RgbaFloat expectedFillValue = new RgbaFloat(new System.Numerics.Vector4(FillValue * (depth + 1)));
                int       notFilledCount    = CountTexelsNotFilledAtDepth(GD, computeTargetTexture, expectedFillValue, depth);

                if (notFilledCount == 0)
                {
                    // Expected behavior:
                    Console.WriteLine($"All texels were properly set at depth {depth}");
                }
                else
                {
                    // Unexpected behavior:
                    uint totalTexels = computeTargetTexture.Width * computeTargetTexture.Height;
                    throw new Exception($"{notFilledCount} of {totalTexels} texels were not properly set at depth {depth}");
                }
            }
        }