using System.Collections.Generic; using System.Diagnostics; using UnityEngine.Experimental.GlobalIllumination; using UnityEngine.Rendering; using UnityEngine.Rendering.PostProcessing; using UnityEngine.XR; namespace UnityEngine.Experimental.Rendering.LightweightPipeline { public class ForwardLitPass : ScriptableRenderPass { const int k_DepthStencilBufferBits = 32; Vector4 k_DefaultLightPosition = new Vector4(0.0f, 0.0f, 1.0f, 0.0f); Vector4 k_DefaultLightColor = Color.black; Vector4 k_DefaultLightAttenuation = new Vector4(0.0f, 1.0f, 0.0f, 1.0f); Vector4 k_DefaultLightSpotDirection = new Vector4(0.0f, 0.0f, 1.0f, 0.0f); Vector4 k_DefaultLightSpotAttenuation = new Vector4(0.0f, 1.0f, 0.0f, 0.0f); Vector4[] m_LightPositions; Vector4[] m_LightColors; Vector4[] m_LightDistanceAttenuations; Vector4[] m_LightSpotDirections; Vector4[] m_LightSpotAttenuations; RenderTextureFormat m_ColorFormat; MixedLightingSetup m_MixedLightingSetup; Material m_BlitMaterial; Material m_ErrorMaterial; // Depth Copy Pass Material m_DepthCopyMaterial; // Opaque Copy Pass Material m_SamplingMaterial; float[] m_OpaqueScalerValues = {1.0f, 0.5f, 0.25f, 0.25f}; int m_SampleOffsetShaderHandle; const string k_SetupRenderTargetTag = "Setup Render Target"; const string k_RenderOpaquesTag = "Render Opaques"; const string k_RenderTransparentsTag = "Render Transparents"; List m_LegacyShaderPassNames; public ForwardLitPass(LightweightForwardRenderer renderer) : base(renderer) { RegisterShaderPassName("LightweightForward"); RegisterShaderPassName("SRPDefaultUnlit"); m_LegacyShaderPassNames = new List(); m_LegacyShaderPassNames.Add(new ShaderPassName("Always")); m_LegacyShaderPassNames.Add(new ShaderPassName("ForwardBase")); m_LegacyShaderPassNames.Add(new ShaderPassName("PrepassBase")); m_LegacyShaderPassNames.Add(new ShaderPassName("Vertex")); m_LegacyShaderPassNames.Add(new ShaderPassName("VertexLMRGBM")); m_LegacyShaderPassNames.Add(new ShaderPassName("VertexLM")); PerCameraBuffer._MainLightPosition = Shader.PropertyToID("_MainLightPosition"); PerCameraBuffer._MainLightColor = Shader.PropertyToID("_MainLightColor"); PerCameraBuffer._MainLightCookie = Shader.PropertyToID("_MainLightCookie"); PerCameraBuffer._WorldToLight = Shader.PropertyToID("_WorldToLight"); PerCameraBuffer._AdditionalLightCount = Shader.PropertyToID("_AdditionalLightCount"); PerCameraBuffer._AdditionalLightPosition = Shader.PropertyToID("_AdditionalLightPosition"); PerCameraBuffer._AdditionalLightColor = Shader.PropertyToID("_AdditionalLightColor"); PerCameraBuffer._AdditionalLightDistanceAttenuation = Shader.PropertyToID("_AdditionalLightDistanceAttenuation"); PerCameraBuffer._AdditionalLightSpotDir = Shader.PropertyToID("_AdditionalLightSpotDir"); PerCameraBuffer._AdditionalLightSpotAttenuation = Shader.PropertyToID("_AdditionalLightSpotAttenuation"); PerCameraBuffer._LightIndexBuffer = Shader.PropertyToID("_LightIndexBuffer"); int maxVisibleLocalLights = renderer.maxVisibleLocalLights; m_LightPositions = new Vector4[maxVisibleLocalLights]; m_LightColors = new Vector4[maxVisibleLocalLights]; m_LightDistanceAttenuations = new Vector4[maxVisibleLocalLights]; m_LightSpotDirections = new Vector4[maxVisibleLocalLights]; m_LightSpotAttenuations = new Vector4[maxVisibleLocalLights]; m_ColorFormat = RenderTextureFormat.Default; m_BlitMaterial = renderer.GetMaterial(MaterialHandles.Blit); m_ErrorMaterial = renderer.GetMaterial(MaterialHandles.Error); // Copy Depth Pass m_DepthCopyMaterial = renderer.GetMaterial(MaterialHandles.DepthCopy); // Copy Opaque Color Pass m_SamplingMaterial = renderer.GetMaterial(MaterialHandles.Sampling); m_SampleOffsetShaderHandle = Shader.PropertyToID("_SampleOffset"); } public override void Setup(CommandBuffer cmd, RenderTextureDescriptor baseDescriptor, int[] colorAttachmentHandles, int depthAttachmentHandle = -1, int samples = 1) { base.Setup(cmd, baseDescriptor, colorAttachmentHandles, depthAttachmentHandle, samples); m_ColorFormat = baseDescriptor.colorFormat; if (colorAttachmentHandle != -1) { var descriptor = baseDescriptor; descriptor.depthBufferBits = k_DepthStencilBufferBits; // TODO: does the color RT always need depth? descriptor.sRGB = true; descriptor.msaaSamples = samples; cmd.GetTemporaryRT(colorAttachmentHandle, descriptor, FilterMode.Bilinear); } if (depthAttachmentHandle != -1) { var descriptor = baseDescriptor; descriptor.colorFormat = RenderTextureFormat.Depth; descriptor.depthBufferBits = k_DepthStencilBufferBits; descriptor.msaaSamples = samples; descriptor.bindMS = samples > 1; cmd.GetTemporaryRT(depthAttachmentHandle, descriptor, FilterMode.Point); } } public override void Execute(ref ScriptableRenderContext context, ref CullResults cullResults, ref RenderingData renderingData) { Camera camera = renderingData.cameraData.camera; bool dynamicBatching = renderingData.supportsDynamicBatching; SetupShaderConstants(ref context, ref renderingData.cameraData, ref renderingData.lightData, ref renderingData.shadowData); RendererConfiguration rendererConfiguration = GetRendererConfiguration(renderingData.lightData.totalAdditionalLightsCount); if (renderingData.cameraData.isStereoEnabled) context.StartMultiEye(camera); RenderOpaques(ref context, ref cullResults, ref renderingData.cameraData, rendererConfiguration, dynamicBatching); if (renderingData.cameraData.postProcessEnabled && renderingData.cameraData.postProcessLayer.HasOpaqueOnlyEffects(renderer.postProcessRenderContext)) OpaquePostProcessSubPass(ref context, ref renderingData.cameraData); if (depthAttachmentHandle != -1) CopyDepthSubPass(ref context, ref renderingData.cameraData); if (renderingData.cameraData.requiresOpaqueTexture) CopyColorSubpass(ref context, ref renderingData.cameraData); RenderTransparents(ref context, ref cullResults, ref renderingData.cameraData, rendererConfiguration, dynamicBatching); if (renderingData.cameraData.postProcessEnabled) PostProcessPass(ref context, ref renderingData.cameraData); else if (!renderingData.cameraData.isOffscreenRender && colorAttachmentHandle != -1) FinalBlitPass(ref context, ref renderingData.cameraData); if (renderingData.cameraData.isStereoEnabled) { context.StopMultiEye(camera); context.StereoEndRender(camera); } } RendererConfiguration GetRendererConfiguration(int localLightsCount) { RendererConfiguration configuration = RendererConfiguration.PerObjectReflectionProbes | RendererConfiguration.PerObjectLightmaps | RendererConfiguration.PerObjectLightProbe; if (localLightsCount > 0) { if (renderer.useComputeBufferForPerObjectLightIndices) configuration |= RendererConfiguration.ProvideLightIndices; else configuration |= RendererConfiguration.PerObjectLightIndices8; } return configuration; } void SetupShaderConstants(ref ScriptableRenderContext context, ref CameraData cameraData, ref LightData lightData, ref ShadowData shadowData) { CommandBuffer cmd = CommandBufferPool.Get("SetupShaderConstants"); SetupShaderLightConstants(cmd, ref lightData); SetShaderKeywords(cmd, ref cameraData, ref lightData, ref shadowData); context.ExecuteCommandBuffer(cmd); CommandBufferPool.Release(cmd); } void SetupShaderLightConstants(CommandBuffer cmd, ref LightData lightData) { // Clear to default all light constant data for (int i = 0; i < renderer.maxVisibleLocalLights; ++i) InitializeLightConstants(lightData.visibleLights, -1, out m_LightPositions[i], out m_LightColors[i], out m_LightDistanceAttenuations[i], out m_LightSpotDirections[i], out m_LightSpotAttenuations[i]); m_MixedLightingSetup = MixedLightingSetup.None; // Main light has an optimized shader path for main light. This will benefit games that only care about a single light. // Lightweight pipeline also supports only a single shadow light, if available it will be the main light. SetupMainLightConstants(cmd, ref lightData); SetupAdditionalLightConstants(cmd, ref lightData); } void SetupMainLightConstants(CommandBuffer cmd, ref LightData lightData) { Vector4 lightPos, lightColor, lightDistanceAttenuation, lightSpotDir, lightSpotAttenuation; List lights = lightData.visibleLights; InitializeLightConstants(lightData.visibleLights, lightData.mainLightIndex, out lightPos, out lightColor, out lightDistanceAttenuation, out lightSpotDir, out lightSpotAttenuation); if (lightData.mainLightIndex >= 0) { VisibleLight mainLight = lights[lightData.mainLightIndex]; Light mainLightRef = mainLight.light; if (LightweightPipeline.IsSupportedCookieType(mainLight.lightType) && mainLightRef.cookie != null) { Matrix4x4 lightCookieMatrix; LightweightPipeline.GetLightCookieMatrix(mainLight, out lightCookieMatrix); cmd.SetGlobalTexture(PerCameraBuffer._MainLightCookie, mainLightRef.cookie); cmd.SetGlobalMatrix(PerCameraBuffer._WorldToLight, lightCookieMatrix); } } cmd.SetGlobalVector(PerCameraBuffer._MainLightPosition, new Vector4(lightPos.x, lightPos.y, lightPos.z, lightDistanceAttenuation.w)); cmd.SetGlobalVector(PerCameraBuffer._MainLightColor, lightColor); } void SetupAdditionalLightConstants(CommandBuffer cmd, ref LightData lightData) { int maxVisibleLocalLights = renderer.maxVisibleLocalLights; List lights = lightData.visibleLights; if (lightData.totalAdditionalLightsCount > 0) { int localLightsCount = 0; for (int i = 0; i < lights.Count && localLightsCount < maxVisibleLocalLights; ++i) { VisibleLight light = lights[i]; if (light.lightType != LightType.Directional) { InitializeLightConstants(lights, i, out m_LightPositions[localLightsCount], out m_LightColors[localLightsCount], out m_LightDistanceAttenuations[localLightsCount], out m_LightSpotDirections[localLightsCount], out m_LightSpotAttenuations[localLightsCount]); localLightsCount++; } } cmd.SetGlobalVector(PerCameraBuffer._AdditionalLightCount, new Vector4(lightData.pixelAdditionalLightsCount, lightData.totalAdditionalLightsCount, 0.0f, 0.0f)); // if not using a compute buffer, engine will set indices in 2 vec4 constants // unity_4LightIndices0 and unity_4LightIndices1 if (renderer.perObjectLightIndices != null) cmd.SetGlobalBuffer("_LightIndexBuffer", renderer.perObjectLightIndices); } else { cmd.SetGlobalVector(PerCameraBuffer._AdditionalLightCount, Vector4.zero); } cmd.SetGlobalVectorArray(PerCameraBuffer._AdditionalLightPosition, m_LightPositions); cmd.SetGlobalVectorArray(PerCameraBuffer._AdditionalLightColor, m_LightColors); cmd.SetGlobalVectorArray(PerCameraBuffer._AdditionalLightDistanceAttenuation, m_LightDistanceAttenuations); cmd.SetGlobalVectorArray(PerCameraBuffer._AdditionalLightSpotDir, m_LightSpotDirections); cmd.SetGlobalVectorArray(PerCameraBuffer._AdditionalLightSpotAttenuation, m_LightSpotAttenuations); } ClearFlag GetCameraClearFlag(Camera camera) { ClearFlag clearFlag = ClearFlag.None; CameraClearFlags cameraClearFlags = camera.clearFlags; if (cameraClearFlags != CameraClearFlags.Nothing) { clearFlag |= ClearFlag.Depth; if (cameraClearFlags == CameraClearFlags.Color || cameraClearFlags == CameraClearFlags.Skybox) clearFlag |= ClearFlag.Color; } return clearFlag; } void SetShaderKeywords(CommandBuffer cmd, ref CameraData cameraData, ref LightData lightData, ref ShadowData shadowData) { int vertexLightsCount = lightData.totalAdditionalLightsCount - lightData.pixelAdditionalLightsCount; CoreUtils.SetKeyword(cmd, LightweightKeywords.AdditionalLightsText, lightData.totalAdditionalLightsCount > 0); CoreUtils.SetKeyword(cmd, LightweightKeywords.MixedLightingSubtractiveText, m_MixedLightingSetup == MixedLightingSetup.Subtractive); CoreUtils.SetKeyword(cmd, LightweightKeywords.VertexLightsText, vertexLightsCount > 0); // TODO: We have to discuss cookie approach on LWRP. // CoreUtils.SetKeyword(cmd, LightweightKeywords.MainLightCookieText, mainLightIndex != -1 && LightweightUtils.IsSupportedCookieType(visibleLights[mainLightIndex].lightType) && visibleLights[mainLightIndex].light.cookie != null); LightShadows directionalShadowQuality = shadowData.renderedDirectionalShadowQuality; LightShadows localShadowQuality = shadowData.renderedLocalShadowQuality; // Currently shadow filtering keyword is shared between local and directional shadows. bool hasSoftShadows = (directionalShadowQuality == LightShadows.Soft || localShadowQuality == LightShadows.Soft) && shadowData.supportsSoftShadows; CoreUtils.SetKeyword(cmd, LightweightKeywords.DirectionalShadowsText, directionalShadowQuality != LightShadows.None); CoreUtils.SetKeyword(cmd, LightweightKeywords.LocalShadowsText, localShadowQuality != LightShadows.None); CoreUtils.SetKeyword(cmd, LightweightKeywords.SoftShadowsText, hasSoftShadows); // TODO: Remove this. legacy particles support will be removed from Unity in 2018.3. This should be a shader_feature instead with prop exposed in the Standard particles shader. CoreUtils.SetKeyword(cmd, "SOFTPARTICLES_ON", cameraData.requiresSoftParticles); } void SetRenderTarget(CommandBuffer cmd, RenderBufferLoadAction loadOp, RenderBufferStoreAction storeOp, ClearFlag clearFlag, Color clearColor) { if (colorAttachmentHandle != -1) { if (depthAttachmentHandle != -1) SetRenderTarget(cmd, GetSurface(colorAttachmentHandle), loadOp, storeOp, GetSurface(depthAttachmentHandle), loadOp, storeOp, clearFlag, clearColor); else SetRenderTarget(cmd, GetSurface(colorAttachmentHandle), loadOp, storeOp, clearFlag, clearColor); } else { SetRenderTarget(cmd, BuiltinRenderTextureType.CameraTarget, loadOp, storeOp, clearFlag, clearColor); } } void RenderOpaques(ref ScriptableRenderContext context, ref CullResults cullResults, ref CameraData cameraData, RendererConfiguration rendererConfiguration, bool dynamicBatching) { CommandBuffer cmd = CommandBufferPool.Get(k_RenderOpaquesTag); using (new ProfilingSample(cmd, k_SetupRenderTargetTag)) { Camera camera = cameraData.camera; ClearFlag clearFlag = GetCameraClearFlag(camera); SetRenderTarget(cmd, RenderBufferLoadAction.DontCare, RenderBufferStoreAction.Store, clearFlag, CoreUtils.ConvertSRGBToActiveColorSpace(camera.backgroundColor)); // If rendering to an intermediate RT we resolve viewport on blit due to offset not being supported // while rendering to a RT. if (colorAttachmentHandle == -1 && cameraData.isDefaultViewport) cmd.SetViewport(camera.pixelRect); context.ExecuteCommandBuffer(cmd); cmd.Clear(); var drawSettings = CreateDrawRendererSettings(camera, SortFlags.CommonOpaque, rendererConfiguration, dynamicBatching); context.DrawRenderers(cullResults.visibleRenderers, ref drawSettings, renderer.opaqueFilterSettings); // Render objects that did not match any shader pass with error shader RenderObjectsWithError(ref context, ref cullResults, camera, renderer.opaqueFilterSettings, SortFlags.None); if (camera.clearFlags == CameraClearFlags.Skybox) context.DrawSkybox(camera); } context.ExecuteCommandBuffer(cmd); CommandBufferPool.Release(cmd); } void RenderTransparents(ref ScriptableRenderContext context, ref CullResults cullResults, ref CameraData cameraData, RendererConfiguration rendererConfiguration, bool dynamicBatching) { CommandBuffer cmd = CommandBufferPool.Get(k_RenderTransparentsTag); using (new ProfilingSample(cmd, k_SetupRenderTargetTag)) { Camera camera = cameraData.camera; SetRenderTarget(cmd, RenderBufferLoadAction.Load, RenderBufferStoreAction.Store, ClearFlag.None, Color.black); context.ExecuteCommandBuffer(cmd); cmd.Clear(); var drawSettings = CreateDrawRendererSettings(camera, SortFlags.CommonTransparent, rendererConfiguration, dynamicBatching); context.DrawRenderers(cullResults.visibleRenderers, ref drawSettings, renderer.transparentFilterSettings); // Render objects that did not match any shader pass with error shader RenderObjectsWithError(ref context, ref cullResults, camera, renderer.transparentFilterSettings, SortFlags.None); } context.ExecuteCommandBuffer(cmd); CommandBufferPool.Release(cmd); } void FinalBlitPass(ref ScriptableRenderContext context, ref CameraData cameraData) { Material material = cameraData.isStereoEnabled ? null : m_BlitMaterial; RenderTargetIdentifier sourceRT = GetSurface(colorAttachmentHandle); CommandBuffer cmd = CommandBufferPool.Get("Final Blit Pass"); cmd.SetGlobalTexture("_BlitTex", sourceRT); if (!cameraData.isDefaultViewport) { SetRenderTarget(cmd, BuiltinRenderTextureType.CameraTarget, RenderBufferLoadAction.DontCare, RenderBufferStoreAction.Store, ClearFlag.All, Color.black); cmd.SetViewProjectionMatrices(Matrix4x4.identity, Matrix4x4.identity); cmd.SetViewport(cameraData.camera.pixelRect); LightweightPipeline.DrawFullScreen(cmd, material); } else { cmd.Blit(GetSurface(colorAttachmentHandle), BuiltinRenderTextureType.CameraTarget, material); } context.ExecuteCommandBuffer(cmd); CommandBufferPool.Release(cmd); } void InitializeLightConstants(List lights, int lightIndex, out Vector4 lightPos, out Vector4 lightColor, out Vector4 lightDistanceAttenuation, out Vector4 lightSpotDir, out Vector4 lightSpotAttenuation) { lightPos = k_DefaultLightPosition; lightColor = k_DefaultLightColor; lightDistanceAttenuation = k_DefaultLightSpotAttenuation; lightSpotDir = k_DefaultLightSpotDirection; lightSpotAttenuation = k_DefaultLightAttenuation; // When no lights are visible, main light will be set to -1. // In this case we initialize it to default values and return if (lightIndex < 0) return; VisibleLight lightData = lights[lightIndex]; if (lightData.lightType == LightType.Directional) { Vector4 dir = -lightData.localToWorld.GetColumn(2); lightPos = new Vector4(dir.x, dir.y, dir.z, 0.0f); } else { Vector4 pos = lightData.localToWorld.GetColumn(3); lightPos = new Vector4(pos.x, pos.y, pos.z, 1.0f); } // VisibleLight.finalColor already returns color in active color space lightColor = lightData.finalColor; // Directional Light attenuation is initialize so distance attenuation always be 1.0 if (lightData.lightType != LightType.Directional) { // Light attenuation in lightweight matches the unity vanilla one. // attenuation = 1.0 / 1.0 + distanceToLightSqr * quadraticAttenuation // then a smooth factor is applied to linearly fade attenuation to light range // the attenuation smooth factor starts having effect at 80% of light range // smoothFactor = (lightRangeSqr - distanceToLightSqr) / (lightRangeSqr - fadeStartDistanceSqr) // We rewrite smoothFactor to be able to pre compute the constant terms below and apply the smooth factor // with one MAD instruction // smoothFactor = distanceSqr * (1.0 / (fadeDistanceSqr - lightRangeSqr)) + (-lightRangeSqr / (fadeDistanceSqr - lightRangeSqr) // distanceSqr * oneOverFadeRangeSqr + lightRangeSqrOverFadeRangeSqr float lightRangeSqr = lightData.range * lightData.range; float fadeStartDistanceSqr = 0.8f * 0.8f * lightRangeSqr; float fadeRangeSqr = (fadeStartDistanceSqr - lightRangeSqr); float oneOverFadeRangeSqr = 1.0f / fadeRangeSqr; float lightRangeSqrOverFadeRangeSqr = -lightRangeSqr / fadeRangeSqr; float quadAtten = 25.0f / lightRangeSqr; lightDistanceAttenuation = new Vector4(quadAtten, oneOverFadeRangeSqr, lightRangeSqrOverFadeRangeSqr, 1.0f); } if (lightData.lightType == LightType.Spot) { Vector4 dir = lightData.localToWorld.GetColumn(2); lightSpotDir = new Vector4(-dir.x, -dir.y, -dir.z, 0.0f); // Spot Attenuation with a linear falloff can be defined as // (SdotL - cosOuterAngle) / (cosInnerAngle - cosOuterAngle) // This can be rewritten as // invAngleRange = 1.0 / (cosInnerAngle - cosOuterAngle) // SdotL * invAngleRange + (-cosOuterAngle * invAngleRange) // If we precompute the terms in a MAD instruction float cosOuterAngle = Mathf.Cos(Mathf.Deg2Rad * lightData.spotAngle * 0.5f); // We neeed to do a null check for particle lights // This should be changed in the future // Particle lights will use an inline function float cosInnerAngle; if (lightData.light != null) cosInnerAngle = Mathf.Cos(LightmapperUtils.ExtractInnerCone(lightData.light) * 0.5f); else cosInnerAngle = Mathf.Cos((2.0f * Mathf.Atan(Mathf.Tan(lightData.spotAngle * 0.5f * Mathf.Deg2Rad) * (64.0f - 18.0f) / 64.0f)) * 0.5f); float smoothAngleRange = Mathf.Max(0.001f, cosInnerAngle - cosOuterAngle); float invAngleRange = 1.0f / smoothAngleRange; float add = -cosOuterAngle * invAngleRange; lightSpotAttenuation = new Vector4(invAngleRange, add, 0.0f); } Light light = lightData.light; // TODO: Add support to shadow mask if (light != null && light.bakingOutput.mixedLightingMode == MixedLightingMode.Subtractive && light.bakingOutput.lightmapBakeType == LightmapBakeType.Mixed) { if (m_MixedLightingSetup == MixedLightingSetup.None && lightData.light.shadows != LightShadows.None) { m_MixedLightingSetup = MixedLightingSetup.Subtractive; lightDistanceAttenuation.w = 0.0f; } } } // TODO: move to postfx pass void PostProcessPass(ref ScriptableRenderContext context, ref CameraData cameraData) { CommandBuffer cmd = CommandBufferPool.Get("Render PostProcess Effects"); LightweightPipeline.RenderPostProcess(cmd, renderer.postProcessRenderContext, ref cameraData, m_ColorFormat, GetSurface(colorAttachmentHandle), BuiltinRenderTextureType.CameraTarget, false); context.ExecuteCommandBuffer(cmd); CommandBufferPool.Release(cmd); } [Conditional("DEVELOPMENT_BUILD"), Conditional("UNITY_EDITOR")] void RenderObjectsWithError(ref ScriptableRenderContext context, ref CullResults cullResults, Camera camera, FilterRenderersSettings filterSettings, SortFlags sortFlags) { if (m_ErrorMaterial != null) { DrawRendererSettings errorSettings = new DrawRendererSettings(camera, m_LegacyShaderPassNames[0]); for (int i = 1; i < m_LegacyShaderPassNames.Count; ++i) errorSettings.SetShaderPassName(i, m_LegacyShaderPassNames[i]); errorSettings.sorting.flags = sortFlags; errorSettings.rendererConfiguration = RendererConfiguration.None; errorSettings.SetOverrideMaterial(m_ErrorMaterial, 0); context.DrawRenderers(cullResults.visibleRenderers, ref errorSettings, filterSettings); } } void OpaquePostProcessSubPass(ref ScriptableRenderContext context, ref CameraData cameraData) { CommandBuffer cmd = CommandBufferPool.Get("Render Opaque PostProcess Effects"); RenderTargetIdentifier source = GetSurface(colorAttachmentHandle); LightweightPipeline.RenderPostProcess(cmd, renderer.postProcessRenderContext, ref cameraData, m_ColorFormat, source, GetSurface(colorAttachmentHandle), true); context.ExecuteCommandBuffer(cmd); CommandBufferPool.Release(cmd); } void CopyDepthSubPass(ref ScriptableRenderContext context, ref CameraData cameraData) { CommandBuffer cmd = CommandBufferPool.Get("Depth Copy"); RenderTargetIdentifier depthSurface = GetSurface(depthAttachmentHandle); RenderTargetIdentifier copyDepthSurface = GetSurface(RenderTargetHandles.DepthTexture); RenderTextureDescriptor descriptor = renderer.CreateRTDesc(ref cameraData); descriptor.colorFormat = RenderTextureFormat.Depth; descriptor.depthBufferBits = k_DepthStencilBufferBits; descriptor.msaaSamples = 1; descriptor.bindMS = false; cmd.GetTemporaryRT(RenderTargetHandles.DepthTexture, descriptor, FilterMode.Point); if (cameraData.msaaSamples > 1) { cmd.DisableShaderKeyword(LightweightKeywords.DepthNoMsaa); if (cameraData.msaaSamples == 4) { cmd.DisableShaderKeyword(LightweightKeywords.DepthMsaa2); cmd.EnableShaderKeyword(LightweightKeywords.DepthMsaa4); } else { cmd.EnableShaderKeyword(LightweightKeywords.DepthMsaa2); cmd.DisableShaderKeyword(LightweightKeywords.DepthMsaa4); } cmd.Blit(depthSurface, copyDepthSurface, m_DepthCopyMaterial); } else { cmd.EnableShaderKeyword(LightweightKeywords.DepthNoMsaa); cmd.DisableShaderKeyword(LightweightKeywords.DepthMsaa2); cmd.DisableShaderKeyword(LightweightKeywords.DepthMsaa4); LightweightPipeline.CopyTexture(cmd, depthSurface, copyDepthSurface, m_DepthCopyMaterial); } context.ExecuteCommandBuffer(cmd); CommandBufferPool.Release(cmd); } void CopyColorSubpass(ref ScriptableRenderContext context, ref CameraData cameraData) { CommandBuffer cmd = CommandBufferPool.Get("Copy Opaque Color"); Downsampling downsampling = cameraData.opaqueTextureDownsampling; float opaqueScaler = m_OpaqueScalerValues[(int)downsampling]; RenderTextureDescriptor opaqueDesc = renderer.CreateRTDesc(ref cameraData, opaqueScaler); RenderTargetIdentifier colorRT = GetSurface(colorAttachmentHandle); RenderTargetIdentifier opaqueColorRT = GetSurface(RenderTargetHandles.OpaqueColor); cmd.GetTemporaryRT(RenderTargetHandles.OpaqueColor, opaqueDesc, cameraData.opaqueTextureDownsampling == Downsampling.None ? FilterMode.Point : FilterMode.Bilinear); switch (downsampling) { case Downsampling.None: cmd.Blit(colorRT, opaqueColorRT); break; case Downsampling._2xBilinear: cmd.Blit(colorRT, opaqueColorRT); break; case Downsampling._4xBox: m_SamplingMaterial.SetFloat(m_SampleOffsetShaderHandle, 2); cmd.Blit(colorRT, opaqueColorRT, m_SamplingMaterial, 0); break; case Downsampling._4xBilinear: cmd.Blit(colorRT, opaqueColorRT); break; } context.ExecuteCommandBuffer(cmd); CommandBufferPool.Release(cmd); } } }