Example #1
0
 public void WriteResources(RenderGraphBuilder builder)
 {
     source        = builder.WriteTexture(source);
     output        = builder.WriteTexture(output);
     depth         = builder.WriteTexture(depth);
     motionVectors = builder.WriteTexture(motionVectors);
 }
Example #2
0
            public void WriteResources(RenderGraphBuilder builder)
            {
                source        = builder.WriteTexture(source);
                output        = builder.WriteTexture(output);
                depth         = builder.WriteTexture(depth);
                motionVectors = builder.WriteTexture(motionVectors);

                if (biasColorMask.IsValid())
                {
                    biasColorMask = builder.WriteTexture(biasColorMask);
                }
            }
Example #3
0
        void PrepareVolumetricCloudsSkyLowPassData(RenderGraph renderGraph, RenderGraphBuilder builder, HDCamera hdCamera, int width, int height, Matrix4x4[] pixelCoordToViewDir, CubemapFace cubemapFace, VolumetricClouds settings, VolumetricCloudsSkyLowPassData data)
        {
            // Compute the cloud model data
            CloudModelData cloudModelData = GetCloudModelData(settings);

            // Fill the common data
            FillVolumetricCloudsCommonData(false, settings, TVolumetricCloudsCameraType.Sky, in cloudModelData, ref data.commonData);

            // We need to make sure that the allocated size of the history buffers and the dispatch size are perfectly equal.
            // The ideal approach would be to have a function for that returns the converted size from a viewport and texture size.
            // but for now we do it like this.
            // Final resolution at which the effect should be exported
            data.finalWidth  = width;
            data.finalHeight = height;
            // Intermediate resolution at which the effect is accumulated
            data.intermediateWidth  = Mathf.RoundToInt(0.5f * width);
            data.intermediateHeight = Mathf.RoundToInt(0.5f * height);
            // Resolution at which the effect is traced
            data.traceWidth  = Mathf.RoundToInt(0.25f * width);
            data.traceHeight = Mathf.RoundToInt(0.25f * height);

            // Sky
            data.cubemapFace      = cubemapFace;
            data.cloudCombinePass = m_CloudCombinePass;

            // Kernels
            data.renderKernel       = m_CloudRenderKernel;
            data.preUpscaleKernel   = m_PreUpscaleCloudsSkyKernel;
            data.finalUpscaleKernel = m_UpscaleAndCombineCloudsSkyKernel;

            data.pixelCoordToViewDir = pixelCoordToViewDir;

            // Update the constant buffer
            VolumetricCloudsCameraData cameraData;

            cameraData.cameraType            = data.commonData.cameraType;
            cameraData.traceWidth            = data.traceWidth;
            cameraData.traceHeight           = data.traceHeight;
            cameraData.intermediateWidth     = data.intermediateWidth;
            cameraData.intermediateHeight    = data.intermediateHeight;
            cameraData.finalWidth            = data.finalWidth;
            cameraData.finalHeight           = data.finalHeight;
            cameraData.viewCount             = 1;
            cameraData.enableExposureControl = data.commonData.enableExposureControl;
            cameraData.lowResolution         = true;
            cameraData.enableIntegration     = false;
            UpdateShaderVariableslClouds(ref data.commonData.cloudsCB, hdCamera, settings, cameraData, cloudModelData, false);

            int skyResolution = (int)m_Asset.currentPlatformRenderPipelineSettings.lightLoopSettings.skyReflectionSize;

            data.intermediateLightingBuffer = builder.CreateTransientTexture(GetVolumetricCloudsIntermediateLightingBufferDesc());
            data.intermediateDepthBuffer    = builder.CreateTransientTexture(GetVolumetricCloudsIntermediateDepthBufferDesc());
            data.output             = builder.WriteTexture(renderGraph.CreateTexture(GetVolumetricCloudsIntermediateCubeTextureDesc()));
            data.maxZMask           = builder.ReadTexture(renderGraph.defaultResources.blackTextureXR);
            data.ambientProbeBuffer = builder.ReadComputeBuffer(renderGraph.ImportComputeBuffer(m_CloudsProbeBuffer));
        }
Example #4
0
        void PrepareVolumetricCloudsSkyHighPassData(RenderGraph renderGraph, RenderGraphBuilder builder, HDCamera hdCamera, int width, int height, Matrix4x4[] pixelCoordToViewDir, CubemapFace cubemapFace, VolumetricClouds settings, TextureHandle output, VolumetricCloudsSkyHighPassData data)
        {
            // Compute the cloud model data
            CloudModelData cloudModelData = GetCloudModelData(settings);

            // Fill the common data
            FillVolumetricCloudsCommonData(false, settings, TVolumetricCloudsCameraType.Sky, in cloudModelData, ref data.commonData);

            // If this is a baked reflection, we run everything at full res
            data.finalWidth  = width;
            data.finalHeight = height;

            // Sky
            data.cubemapFace      = cubemapFace;
            data.cloudCombinePass = m_CloudCombinePass;

            // Compute shader and kernels
            data.renderKernel  = m_CloudRenderKernel;
            data.combineKernel = m_CombineCloudsSkyKernel;

            data.pixelCoordToViewDir = pixelCoordToViewDir;

            // Update the constant buffer
            VolumetricCloudsCameraData cameraData;

            cameraData.cameraType            = data.commonData.cameraType;
            cameraData.traceWidth            = data.finalWidth;
            cameraData.traceHeight           = data.finalHeight;
            cameraData.intermediateWidth     = data.finalWidth;
            cameraData.intermediateHeight    = data.finalHeight;
            cameraData.finalWidth            = data.finalWidth;
            cameraData.finalHeight           = data.finalHeight;
            cameraData.viewCount             = 1;
            cameraData.enableExposureControl = data.commonData.enableExposureControl;
            cameraData.lowResolution         = false;
            cameraData.enableIntegration     = false;
            UpdateShaderVariableslClouds(ref data.commonData.cloudsCB, hdCamera, settings, cameraData, cloudModelData, false);

            int skyResolution = (int)m_Asset.currentPlatformRenderPipelineSettings.lightLoopSettings.skyReflectionSize;

            data.intermediateLightingBuffer0 = builder.CreateTransientTexture(GetVolumetricCloudsIntermediateLightingBufferDesc());
            data.intermediateDepthBuffer     = builder.CreateTransientTexture(GetVolumetricCloudsIntermediateDepthBufferDesc());
            if (SystemInfo.graphicsDeviceType == GraphicsDeviceType.Metal)
            {
                data.intermediateLightingBuffer1 = builder.CreateTransientTexture(GetVolumetricCloudsIntermediateLightingBufferDesc());
                data.output = builder.ReadWriteTexture(output);
            }
            else
            {
                data.output = builder.WriteTexture(output);
            }
            data.maxZMask           = builder.ReadTexture(renderGraph.defaultResources.blackTextureXR);
            data.ambientProbeBuffer = builder.ReadComputeBuffer(renderGraph.ImportComputeBuffer(m_CloudsProbeBuffer));
        }