using UnityEngine.Rendering; using System; namespace UnityEngine.Experimental.Rendering.HDPipeline { public class SubsurfaceScatteringManager { // Currently we only support SSSBuffer with one buffer. If the shader code change, it may require to update the shader manager public const int k_MaxSSSBuffer = 1; readonly int m_SSSBuffer0; readonly RenderTargetIdentifier m_SSSBuffer0RT; public int sssBufferCount { get { return k_MaxSSSBuffer; } } RenderTargetIdentifier[] m_ColorMRTs; RenderTargetIdentifier[] m_RTIDs = new RenderTargetIdentifier[k_MaxSSSBuffer]; // Disney SSS Model ComputeShader m_SubsurfaceScatteringCS; int m_SubsurfaceScatteringKernel; Material m_CombineLightingPass; RenderTexture m_HTile; RenderTargetIdentifier m_HTileRT; // End Disney SSS Model // Jimenez SSS Model Material m_SssVerticalFilterPass; Material m_SssHorizontalFilterAndCombinePass; // End Jimenez SSS Model // Jimenez need an extra buffer and Disney need one for some platform readonly int m_CameraFilteringBuffer; readonly RenderTargetIdentifier m_CameraFilteringBufferRT; // This is use to be able to read stencil value in compute shader Material m_CopyStencilForSplitLighting; SubsurfaceScatteringSettings m_sssSettings; public SubsurfaceScatteringManager() { m_SSSBuffer0RT = new RenderTargetIdentifier(m_SSSBuffer0); // Use with Jimenez m_CameraFilteringBuffer = HDShaderIDs._CameraFilteringBuffer; m_CameraFilteringBufferRT = new RenderTargetIdentifier(m_CameraFilteringBuffer); } // In case of deferred, we must be in sync with SubsurfaceScattering.hlsl and lit.hlsl files and setup the correct buffers // for SSS public void InitSSSBuffersFromGBuffer(int width, int height, GBufferManager gbufferManager, CommandBuffer cmd) { m_RTIDs[0] = gbufferManager.GetGBuffers()[0]; } // In case of full forward we must allocate the render target for forward SSS (or reuse one already existing) // TODO: Provide a way to reuse a render target public void InitSSSBuffers(int width, int height, CommandBuffer cmd) { m_RTIDs[0] = m_SSSBuffer0RT; cmd.ReleaseTemporaryRT(m_SSSBuffer0); cmd.GetTemporaryRT(m_SSSBuffer0, width, height, 0, FilterMode.Point, RenderTextureFormat.ARGB32, RenderTextureReadWrite.Linear); } public RenderTargetIdentifier GetSSSBuffers(int index) { Debug.Assert(index < sssBufferCount); return m_RTIDs[index]; } public void Build(RenderPipelineResources renderPipelineResources, SubsurfaceScatteringSettings sssSettings) { m_sssSettings = sssSettings; // Disney SSS (compute + combine) m_SubsurfaceScatteringCS = renderPipelineResources.subsurfaceScatteringCS; m_SubsurfaceScatteringKernel = m_SubsurfaceScatteringCS.FindKernel("SubsurfaceScattering"); m_CombineLightingPass = CoreUtils.CreateEngineMaterial(renderPipelineResources.combineLighting); // Jimenez SSS Model (shader) m_SssVerticalFilterPass = CoreUtils.CreateEngineMaterial(renderPipelineResources.subsurfaceScattering); m_SssVerticalFilterPass.DisableKeyword("SSS_FILTER_HORIZONTAL_AND_COMBINE"); m_SssVerticalFilterPass.SetFloat(HDShaderIDs._DstBlend, (float)BlendMode.Zero); m_SssHorizontalFilterAndCombinePass = CoreUtils.CreateEngineMaterial(renderPipelineResources.subsurfaceScattering); m_SssHorizontalFilterAndCombinePass.EnableKeyword("SSS_FILTER_HORIZONTAL_AND_COMBINE"); m_SssHorizontalFilterAndCombinePass.SetFloat(HDShaderIDs._DstBlend, (float)BlendMode.One); m_CopyStencilForSplitLighting = CoreUtils.CreateEngineMaterial(renderPipelineResources.copyStencilBuffer); m_CopyStencilForSplitLighting.SetInt(HDShaderIDs._StencilRef, (int)StencilLightingUsage.SplitLighting); } public void Cleanup() { CoreUtils.Destroy(m_CombineLightingPass); CoreUtils.Destroy(m_SssVerticalFilterPass); CoreUtils.Destroy(m_SssHorizontalFilterAndCombinePass); CoreUtils.Destroy(m_CopyStencilForSplitLighting); } public void Resize(Camera camera) { // We must use a RenderTexture and not GetTemporaryRT() as currently Unity only aloow to bind a RenderTexture for a UAV in a pixel shader // We use 8x8 tiles in order to match the native GCN HTile as closely as possible. m_HTile = new RenderTexture((camera.pixelWidth + 7) / 8, (camera.pixelHeight + 7) / 8, 0, RenderTextureFormat.R8, RenderTextureReadWrite.Linear); // DXGI_FORMAT_R8_UINT is not supported by Unity m_HTile.filterMode = FilterMode.Point; m_HTile.enableRandomWrite = true; m_HTile.Create(); m_HTileRT = new RenderTargetIdentifier(m_HTile); } public void PushGlobalParams(CommandBuffer cmd, SubsurfaceScatteringSettings sssParameters, DebugDisplaySettings debugDisplaySettings) { // Broadcast SSS parameters to all shaders. cmd.SetGlobalInt(HDShaderIDs._EnableSSSAndTransmission, debugDisplaySettings.renderingDebugSettings.enableSSSAndTransmission ? 1 : 0); cmd.SetGlobalInt(HDShaderIDs._UseDisneySSS, sssParameters.useDisneySSS ? 1 : 0); unsafe { // Warning: Unity is not able to losslessly transfer integers larger than 2^24 to the shader system. // Therefore, we bitcast uint to float in C#, and bitcast back to uint in the shader. uint texturingModeFlags = sssParameters.texturingModeFlags; uint transmissionFlags = sssParameters.transmissionFlags; cmd.SetGlobalFloat(HDShaderIDs._TexturingModeFlags, *(float*)&texturingModeFlags); cmd.SetGlobalFloat(HDShaderIDs._TransmissionFlags, *(float*)&transmissionFlags); } cmd.SetGlobalVectorArray(HDShaderIDs._ThicknessRemaps, sssParameters.thicknessRemaps); cmd.SetGlobalVectorArray(HDShaderIDs._ShapeParams, sssParameters.shapeParams); cmd.SetGlobalVectorArray(HDShaderIDs._HalfRcpVariancesAndWeights, sssParameters.halfRcpVariancesAndWeights); cmd.SetGlobalVectorArray(HDShaderIDs._TransmissionTintsAndFresnel0, sssParameters.transmissionTintsAndFresnel0); cmd.SetGlobalVectorArray(HDShaderIDs._WorldScales, sssParameters.worldScales); } bool NeedTemporarySubsurfaceBuffer() { // Caution: need to be in sync with SubsurfaceScattering.cs USE_INTERMEDIATE_BUFFER (Can't make a keyword as it is a compute shader) // Typed UAV loads from FORMAT_R16G16B16A16_FLOAT is an optional feature of Direct3D 11. // Most modern GPUs support it. We can avoid performing a costly copy in this case. // TODO: test/implement for other platforms. return SystemInfo.graphicsDeviceType != GraphicsDeviceType.PlayStation4 && SystemInfo.graphicsDeviceType != GraphicsDeviceType.XboxOne && SystemInfo.graphicsDeviceType != GraphicsDeviceType.XboxOneD3D12; } // Combines specular lighting and diffuse lighting with subsurface scattering. public void SubsurfaceScatteringPass(HDCamera hdCamera, CommandBuffer cmd, SubsurfaceScatteringSettings sssParameters, DebugDisplaySettings debugDisplaySettings, RenderTargetIdentifier colorBufferRT, RenderTargetIdentifier diffuseBufferRT, RenderTargetIdentifier depthStencilBufferRT, RenderTargetIdentifier depthTextureRT) { if (m_sssSettings == null || !debugDisplaySettings.renderingDebugSettings.enableSSSAndTransmission) return; using (new ProfilingSample(cmd, "Subsurface Scattering", HDRenderPipeline.GetSampler(CustomSamplerId.SubsurfaceScattering))) { int w = hdCamera.camera.pixelWidth; int h = hdCamera.camera.pixelHeight; // For Jimenez we always need an extra buffer, for Disney it depends on platform if (!m_sssSettings.useDisneySSS || (m_sssSettings.useDisneySSS && NeedTemporarySubsurfaceBuffer())) { // Caution: must be same format as m_CameraSssDiffuseLightingBuffer cmd.ReleaseTemporaryRT(m_CameraFilteringBuffer); cmd.GetTemporaryRT(m_CameraFilteringBuffer, w, h, 0, FilterMode.Point, RenderTextureFormat.RGB111110Float, RenderTextureReadWrite.Linear, 1, true); // Enable UAV // Clear the SSS filtering target using (new ProfilingSample(cmd, "Clear SSS filtering target", HDRenderPipeline.GetSampler(CustomSamplerId.ClearSSSFilteringTarget))) { CoreUtils.SetRenderTarget(cmd, m_CameraFilteringBufferRT, ClearFlag.Color, CoreUtils.clearColorAllBlack); } } if (m_sssSettings.useDisneySSS) { using (new ProfilingSample(cmd, "HTile for SSS", HDRenderPipeline.GetSampler(CustomSamplerId.HTileForSSS))) { // Currently, Unity does not offer a way to access the GCN HTile even on PS4 and Xbox One. // Therefore, it's computed in a pixel shader, and optimized to only contain the SSS bit. CoreUtils.SetRenderTarget(cmd, m_HTileRT, ClearFlag.Color, CoreUtils.clearColorAllBlack); cmd.SetRandomWriteTarget(1, m_HTile); // Generate HTile for the split lighting stencil usage. Don't write into stencil texture (shaderPassId = 2) // Use ShaderPassID 1 => "Pass 2 - Export HTILE for stencilRef to output" CoreUtils.SetRenderTarget(cmd, depthStencilBufferRT); // No need for color buffer here CoreUtils.DrawFullScreen(cmd, m_CopyStencilForSplitLighting, null, 2); cmd.ClearRandomWriteTargets(); } // TODO: Remove this once fix, see comment inside the function hdCamera.SetupComputeShader(m_SubsurfaceScatteringCS, cmd); unsafe { // Warning: Unity is not able to losslessly transfer integers larger than 2^24 to the shader system. // Therefore, we bitcast uint to float in C#, and bitcast back to uint in the shader. uint texturingModeFlags = sssParameters.texturingModeFlags; cmd.SetComputeFloatParam(m_SubsurfaceScatteringCS, HDShaderIDs._TexturingModeFlags, *(float*)&texturingModeFlags); } cmd.SetComputeVectorArrayParam(m_SubsurfaceScatteringCS, HDShaderIDs._WorldScales, sssParameters.worldScales); cmd.SetComputeVectorArrayParam(m_SubsurfaceScatteringCS, HDShaderIDs._FilterKernels, sssParameters.filterKernels); cmd.SetComputeVectorArrayParam(m_SubsurfaceScatteringCS, HDShaderIDs._ShapeParams, sssParameters.shapeParams); cmd.SetComputeTextureParam(m_SubsurfaceScatteringCS, m_SubsurfaceScatteringKernel, HDShaderIDs._DepthTexture, depthTextureRT); cmd.SetComputeTextureParam(m_SubsurfaceScatteringCS, m_SubsurfaceScatteringKernel, HDShaderIDs._SSSHTile, m_HTileRT); cmd.SetComputeTextureParam(m_SubsurfaceScatteringCS, m_SubsurfaceScatteringKernel, HDShaderIDs._IrradianceSource, diffuseBufferRT); for (int i = 0; i < sssBufferCount; ++i) { cmd.SetComputeTextureParam(m_SubsurfaceScatteringCS, m_SubsurfaceScatteringKernel, HDShaderIDs._SSSBufferTexture[i], GetSSSBuffers(i)); } if (NeedTemporarySubsurfaceBuffer()) { // Caution: must be same format as m_CameraSssDiffuseLightingBuffer cmd.ReleaseTemporaryRT(m_CameraFilteringBuffer); cmd.GetTemporaryRT(m_CameraFilteringBuffer, w, h, 0, FilterMode.Point, RenderTextureFormat.RGB111110Float, RenderTextureReadWrite.Linear, 1, true); // Enable UAV // Clear the SSS filtering target using (new ProfilingSample(cmd, "Clear SSS filtering target", HDRenderPipeline.GetSampler(CustomSamplerId.ClearSSSFilteringTarget))) { CoreUtils.SetRenderTarget(cmd, m_CameraFilteringBufferRT, ClearFlag.Color, CoreUtils.clearColorAllBlack); } cmd.SetComputeTextureParam(m_SubsurfaceScatteringCS, m_SubsurfaceScatteringKernel, HDShaderIDs._CameraFilteringBuffer, m_CameraFilteringBufferRT); // Perform the SSS filtering pass which fills 'm_CameraFilteringBufferRT'. // We dispatch 4x swizzled 16x16 groups per a 32x32 macro tile. cmd.DispatchCompute(m_SubsurfaceScatteringCS, m_SubsurfaceScatteringKernel, 4, ((int)hdCamera.screenSize.x + 31) / 32, ((int)hdCamera.screenSize.y + 31) / 32); cmd.SetGlobalTexture(HDShaderIDs._IrradianceSource, m_CameraFilteringBufferRT); // Cannot set a RT on a material // Additively blend diffuse and specular lighting into 'm_CameraColorBufferRT'. CoreUtils.DrawFullScreen(cmd, m_CombineLightingPass, colorBufferRT, depthStencilBufferRT); } else { cmd.SetComputeTextureParam(m_SubsurfaceScatteringCS, m_SubsurfaceScatteringKernel, HDShaderIDs._CameraColorTexture, colorBufferRT); // Perform the SSS filtering pass which performs an in-place update of 'colorBuffer'. // We dispatch 4x swizzled 16x16 groups per a 32x32 macro tile. cmd.DispatchCompute(m_SubsurfaceScatteringCS, m_SubsurfaceScatteringKernel, 4, ((int)hdCamera.screenSize.x + 31) / 32, ((int)hdCamera.screenSize.y + 31) / 32); } } else { for (int i = 0; i < sssBufferCount; ++i) { cmd.SetGlobalTexture(HDShaderIDs._SSSBufferTexture[i], GetSSSBuffers(i)); } cmd.SetGlobalTexture(HDShaderIDs._IrradianceSource, diffuseBufferRT); // Cannot set a RT on a material m_SssVerticalFilterPass.SetVectorArray(HDShaderIDs._FilterKernelsBasic, sssParameters.filterKernelsBasic); m_SssVerticalFilterPass.SetVectorArray(HDShaderIDs._HalfRcpWeightedVariances, sssParameters.halfRcpWeightedVariances); // Perform the vertical SSS filtering pass which fills 'm_CameraFilteringBufferRT'. CoreUtils.DrawFullScreen(cmd, m_SssVerticalFilterPass, m_CameraFilteringBufferRT, depthStencilBufferRT); cmd.SetGlobalTexture(HDShaderIDs._IrradianceSource, m_CameraFilteringBufferRT); // Cannot set a RT on a material m_SssHorizontalFilterAndCombinePass.SetVectorArray(HDShaderIDs._FilterKernelsBasic, sssParameters.filterKernelsBasic); m_SssHorizontalFilterAndCombinePass.SetVectorArray(HDShaderIDs._HalfRcpWeightedVariances, sssParameters.halfRcpWeightedVariances); // Perform the horizontal SSS filtering pass, and combine diffuse and specular lighting into 'm_CameraColorBufferRT'. CoreUtils.DrawFullScreen(cmd, m_SssHorizontalFilterAndCombinePass, colorBufferRT, depthStencilBufferRT); } } } } }