void RenderPathTracing(HDCamera hdCamera, CommandBuffer cmd, RTHandle outputTexture) { RayTracingShader pathTracingShader = m_Asset.renderPipelineRayTracingResources.pathTracing; m_PathTracingSettings = hdCamera.volumeStack.GetComponent <PathTracing>(); // Check the validity of the state before moving on with the computation if (!pathTracingShader || !m_PathTracingSettings.enable.value) { return; } CheckDirtiness(hdCamera); // Inject the ray-tracing sampling data BlueNoise blueNoiseManager = GetBlueNoiseManager(); blueNoiseManager.BindDitheredRNGData256SPP(cmd); // Grab the acceleration structure and the list of HD lights for the target camera RayTracingAccelerationStructure accelerationStructure = RequestAccelerationStructure(); HDRaytracingLightCluster lightCluster = RequestLightCluster(); LightCluster lightClusterSettings = hdCamera.volumeStack.GetComponent <LightCluster>(); RayTracingSettings rayTracingSettings = hdCamera.volumeStack.GetComponent <RayTracingSettings>(); if (!m_SubFrameManager.isRecording) { // If we are recording, the max iteration is set/overridden by the subframe manager, otherwise we read it from the path tracing volume m_SubFrameManager.subFrameCount = (uint)m_PathTracingSettings.maximumSamples.value; } #if UNITY_HDRP_DXR_TESTS_DEFINE if (Application.isPlaying) { m_SubFrameManager.subFrameCount = 1; } #endif uint currentIteration = m_SubFrameManager.iteration; if (currentIteration < m_SubFrameManager.subFrameCount) { // Define the shader pass to use for the path tracing pass cmd.SetRayTracingShaderPass(pathTracingShader, "PathTracingDXR"); // Set the acceleration structure for the pass cmd.SetRayTracingAccelerationStructure(pathTracingShader, HDShaderIDs._RaytracingAccelerationStructureName, accelerationStructure); // Inject the ray-tracing sampling data cmd.SetGlobalTexture(HDShaderIDs._OwenScrambledTexture, m_Asset.renderPipelineResources.textures.owenScrambled256Tex); cmd.SetGlobalTexture(HDShaderIDs._ScramblingTexture, m_Asset.renderPipelineResources.textures.scramblingTex); // Inject the ray generation data cmd.SetGlobalFloat(HDShaderIDs._RaytracingNumSamples, m_SubFrameManager.subFrameCount); cmd.SetGlobalFloat(HDShaderIDs._RaytracingMinRecursion, m_PathTracingSettings.minimumDepth.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingMaxRecursion, m_PathTracingSettings.maximumDepth.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingIntensityClamp, m_PathTracingSettings.maximumIntensity.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingRayBias, rayTracingSettings.rayBias.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingCameraNearPlane, hdCamera.camera.nearClipPlane); // Set the data for the ray generation cmd.SetGlobalInt(HDShaderIDs._RaytracingSampleIndex, (int)m_SubFrameManager.iteration); // Compute an approximate pixel spread angle value (in radians) cmd.SetGlobalFloat(HDShaderIDs._RaytracingPixelSpreadAngle, GetPixelSpreadAngle(hdCamera.camera.fieldOfView, hdCamera.actualWidth, hdCamera.actualHeight)); // LightLoop data cmd.SetGlobalBuffer(HDShaderIDs._RaytracingLightCluster, lightCluster.GetCluster()); cmd.SetGlobalBuffer(HDShaderIDs._LightDatasRT, lightCluster.GetLightDatas()); cmd.SetGlobalVector(HDShaderIDs._MinClusterPos, lightCluster.GetMinClusterPos()); cmd.SetGlobalVector(HDShaderIDs._MaxClusterPos, lightCluster.GetMaxClusterPos()); cmd.SetGlobalInt(HDShaderIDs._LightPerCellCount, lightClusterSettings.maxNumLightsPercell.value); cmd.SetGlobalInt(HDShaderIDs._PunctualLightCountRT, lightCluster.GetPunctualLightCount()); cmd.SetGlobalInt(HDShaderIDs._AreaLightCountRT, lightCluster.GetAreaLightCount()); // Set the data for the ray miss cmd.SetRayTracingIntParam(pathTracingShader, HDShaderIDs._RaytracingCameraSkyEnabled, m_CameraSkyEnabled ? 1 : 0); cmd.SetRayTracingVectorParam(pathTracingShader, HDShaderIDs._RaytracingCameraClearColor, hdCamera.backgroundColorHDR); cmd.SetRayTracingTextureParam(pathTracingShader, HDShaderIDs._SkyTexture, m_SkyManager.GetSkyReflection(hdCamera)); // Additional data for path tracing cmd.SetRayTracingTextureParam(pathTracingShader, HDShaderIDs._RadianceTexture, m_RadianceTexture); cmd.SetRayTracingMatrixParam(pathTracingShader, HDShaderIDs._PixelCoordToViewDirWS, hdCamera.mainViewConstants.pixelCoordToViewDirWS); // Run the computation cmd.DispatchRays(pathTracingShader, "RayGen", (uint)hdCamera.actualWidth, (uint)hdCamera.actualHeight, 1); } RenderAccumulation(hdCamera, cmd, m_RadianceTexture, outputTexture, true); }
public void RenderPathTracing(HDCamera hdCamera, CommandBuffer cmd, RTHandle outputTexture, ScriptableRenderContext renderContext, int frameCount) { // First thing to check is: Do we have a valid ray-tracing environment? RayTracingShader pathTracingShader = m_Asset.renderPipelineRayTracingResources.pathTracing; PathTracing pathTracingSettings = VolumeManager.instance.stack.GetComponent <PathTracing>(); // Check the validity of the state before computing the effect if (!pathTracingShader || !pathTracingSettings.enable.value) { return; } // Inject the ray-tracing sampling data BlueNoise blueNoiseManager = GetBlueNoiseManager(); blueNoiseManager.BindDitheredRNGData256SPP(cmd); // Grab the history buffer (hijack the reflections one) RTHandle history = hdCamera.GetCurrentFrameRT((int)HDCameraFrameHistoryType.PathTracing) ?? hdCamera.AllocHistoryFrameRT((int)HDCameraFrameHistoryType.PathTracing, PathTracingHistoryBufferAllocatorFunction, 1); // Grab the acceleration structure and the list of HD lights for the target camera RayTracingAccelerationStructure accelerationStructure = RequestAccelerationStructure(); HDRaytracingLightCluster lightCluster = RequestLightCluster(); LightCluster lightClusterSettings = VolumeManager.instance.stack.GetComponent <LightCluster>(); RayTracingSettings rayTracingSettings = VolumeManager.instance.stack.GetComponent <RayTracingSettings>(); // Define the shader pass to use for the path tracing pass cmd.SetRayTracingShaderPass(pathTracingShader, "PathTracingDXR"); // Set the acceleration structure for the pass cmd.SetRayTracingAccelerationStructure(pathTracingShader, HDShaderIDs._RaytracingAccelerationStructureName, accelerationStructure); // Inject the ray-tracing sampling data cmd.SetGlobalTexture(HDShaderIDs._OwenScrambledTexture, m_Asset.renderPipelineResources.textures.owenScrambled256Tex); cmd.SetGlobalTexture(HDShaderIDs._ScramblingTexture, m_Asset.renderPipelineResources.textures.scramblingTex); // Inject the ray generation data cmd.SetGlobalFloat(HDShaderIDs._RaytracingRayBias, rayTracingSettings.rayBias.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingNumSamples, pathTracingSettings.maximumSamples.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingMinRecursion, pathTracingSettings.minimumDepth.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingMaxRecursion, pathTracingSettings.maximumDepth.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingIntensityClamp, pathTracingSettings.maximumIntensity.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingCameraNearPlane, hdCamera.camera.nearClipPlane); // Set the data for the ray generation //cmd.SetRayTracingTextureParam(pathTracingShader, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer()); cmd.SetRayTracingTextureParam(pathTracingShader, HDShaderIDs._CameraColorTextureRW, outputTexture); cmd.SetGlobalInt(HDShaderIDs._RaytracingFrameIndex, frameCount); // Compute an approximate pixel spread angle value (in radians) cmd.SetRayTracingFloatParam(pathTracingShader, HDShaderIDs._RaytracingPixelSpreadAngle, GetPixelSpreadAngle(hdCamera.camera.fieldOfView, hdCamera.actualWidth, hdCamera.actualHeight)); // LightLoop data cmd.SetGlobalBuffer(HDShaderIDs._RaytracingLightCluster, lightCluster.GetCluster()); cmd.SetGlobalBuffer(HDShaderIDs._LightDatasRT, lightCluster.GetLightDatas()); cmd.SetGlobalVector(HDShaderIDs._MinClusterPos, lightCluster.GetMinClusterPos()); cmd.SetGlobalVector(HDShaderIDs._MaxClusterPos, lightCluster.GetMaxClusterPos()); cmd.SetGlobalInt(HDShaderIDs._LightPerCellCount, lightClusterSettings.maxNumLightsPercell.value); cmd.SetGlobalInt(HDShaderIDs._PunctualLightCountRT, lightCluster.GetPunctualLightCount()); cmd.SetGlobalInt(HDShaderIDs._AreaLightCountRT, lightCluster.GetAreaLightCount()); // Set the data for the ray miss cmd.SetRayTracingTextureParam(pathTracingShader, HDShaderIDs._SkyTexture, m_SkyManager.GetSkyReflection(hdCamera)); // Additional data for path tracing cmd.SetRayTracingTextureParam(pathTracingShader, HDShaderIDs._AccumulatedFrameTexture, history); cmd.SetRayTracingMatrixParam(pathTracingShader, HDShaderIDs._PixelCoordToViewDirWS, hdCamera.mainViewConstants.pixelCoordToViewDirWS); // Run the computation cmd.DispatchRays(pathTracingShader, m_PathTracingRayGenShaderName, (uint)hdCamera.actualWidth, (uint)hdCamera.actualHeight, 1); }
public void RaytracingRecursiveRender(HDCamera hdCamera, CommandBuffer cmd, ScriptableRenderContext renderContext, CullingResults cull) { // First thing to check is: Do we have a valid ray-tracing environment? RecursiveRendering recursiveSettings = VolumeManager.instance.stack.GetComponent <RecursiveRendering>(); // Check the validity of the state before computing the effect bool invalidState = !hdCamera.frameSettings.IsEnabled(FrameSettingsField.RayTracing) || !recursiveSettings.enable.value || m_Asset.currentPlatformRenderPipelineSettings.supportedRaytracingTier == RenderPipelineSettings.RaytracingTier.Tier1; // If any resource or game-object is missing We stop right away if (invalidState) { return; } RayTracingShader forwardShader = m_Asset.renderPipelineRayTracingResources.forwardRaytracing; Shader raytracingMask = m_Asset.renderPipelineRayTracingResources.raytracingFlagMask; LightCluster lightClusterSettings = VolumeManager.instance.stack.GetComponent <LightCluster>(); RayTracingSettings rtSettings = VolumeManager.instance.stack.GetComponent <RayTracingSettings>(); // Grab the acceleration structure and the list of HD lights for the target camera RayTracingAccelerationStructure accelerationStructure = RequestAccelerationStructure(); HDRaytracingLightCluster lightCluster = RequestLightCluster(); if (m_RaytracingFlagMaterial == null) { m_RaytracingFlagMaterial = CoreUtils.CreateEngineMaterial(raytracingMask); } // Before going into ray tracing, we need to flag which pixels needs to be raytracing EvaluateRaytracingMask(cull, hdCamera, cmd, renderContext); // Define the shader pass to use for the reflection pass cmd.SetRayTracingShaderPass(forwardShader, "ForwardDXR"); // Set the acceleration structure for the pass cmd.SetRayTracingAccelerationStructure(forwardShader, HDShaderIDs._RaytracingAccelerationStructureName, accelerationStructure); // Inject the ray-tracing sampling data cmd.SetRayTracingTextureParam(forwardShader, HDShaderIDs._OwenScrambledTexture, m_Asset.renderPipelineResources.textures.owenScrambledRGBATex); cmd.SetRayTracingTextureParam(forwardShader, HDShaderIDs._ScramblingTexture, m_Asset.renderPipelineResources.textures.scramblingTex); // Inject the ray generation data cmd.SetGlobalFloat(HDShaderIDs._RaytracingRayBias, rtSettings.rayBias.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingRayMaxLength, recursiveSettings.rayLength.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingMaxRecursion, recursiveSettings.maxDepth.value); cmd.SetGlobalFloat(HDShaderIDs._RaytracingCameraNearPlane, hdCamera.camera.nearClipPlane); // Set the data for the ray generation cmd.SetRayTracingTextureParam(forwardShader, HDShaderIDs._RaytracingFlagMask, m_RaytracingFlagTarget); cmd.SetRayTracingTextureParam(forwardShader, HDShaderIDs._DepthTexture, m_SharedRTManager.GetDepthStencilBuffer()); cmd.SetRayTracingTextureParam(forwardShader, HDShaderIDs._CameraColorTextureRW, m_CameraColorBuffer); // Set ray count texture RayCountManager rayCountManager = GetRayCountManager(); cmd.SetRayTracingIntParam(forwardShader, HDShaderIDs._RayCountEnabled, rayCountManager.RayCountIsEnabled()); cmd.SetRayTracingTextureParam(forwardShader, HDShaderIDs._RayCountTexture, rayCountManager.GetRayCountTexture()); // Compute an approximate pixel spread angle value (in radians) cmd.SetGlobalFloat(HDShaderIDs._RaytracingPixelSpreadAngle, GetPixelSpreadAngle(hdCamera.camera.fieldOfView, hdCamera.actualWidth, hdCamera.actualHeight)); // LightLoop data cmd.SetGlobalBuffer(HDShaderIDs._RaytracingLightCluster, lightCluster.GetCluster()); cmd.SetGlobalBuffer(HDShaderIDs._LightDatasRT, lightCluster.GetLightDatas()); cmd.SetGlobalVector(HDShaderIDs._MinClusterPos, lightCluster.GetMinClusterPos()); cmd.SetGlobalVector(HDShaderIDs._MaxClusterPos, lightCluster.GetMaxClusterPos()); cmd.SetGlobalInt(HDShaderIDs._LightPerCellCount, lightClusterSettings.maxNumLightsPercell.value); cmd.SetGlobalInt(HDShaderIDs._PunctualLightCountRT, lightCluster.GetPunctualLightCount()); cmd.SetGlobalInt(HDShaderIDs._AreaLightCountRT, lightCluster.GetAreaLightCount()); // Note: Just in case, we rebind the directional light data (in case they were not) cmd.SetGlobalBuffer(HDShaderIDs._DirectionalLightDatas, m_LightLoopLightData.directionalLightData); cmd.SetGlobalInt(HDShaderIDs._DirectionalLightCount, m_lightList.directionalLights.Count); // Set the data for the ray miss cmd.SetRayTracingTextureParam(forwardShader, HDShaderIDs._SkyTexture, m_SkyManager.GetSkyReflection(hdCamera)); // If this is the right debug mode and we have at least one light, write the first shadow to the de-noised texture cmd.SetRayTracingTextureParam(forwardShader, HDShaderIDs._RaytracingPrimaryDebug, m_DebugRaytracingTexture); // Run the computation cmd.DispatchRays(forwardShader, m_RayGenShaderName, (uint)hdCamera.actualWidth, (uint)hdCamera.actualHeight, (uint)hdCamera.viewCount); HDRenderPipeline hdrp = (RenderPipelineManager.currentPipeline as HDRenderPipeline); hdrp.PushFullScreenDebugTexture(hdCamera, cmd, m_DebugRaytracingTexture, FullScreenDebugMode.RecursiveRayTracing); }