Example #1
0
        public ForwardRenderer(ForwardRendererData data) : base(data)
        {
#if ENABLE_VR && ENABLE_XR_MODULE
            UniversalRenderPipeline.m_XRSystem.InitializeXRSystemData(data.xrSystemData);
#endif

            m_BlitMaterial               = CoreUtils.CreateEngineMaterial(data.shaders.blitPS);
            m_CopyDepthMaterial          = CoreUtils.CreateEngineMaterial(data.shaders.copyDepthPS);
            m_SamplingMaterial           = CoreUtils.CreateEngineMaterial(data.shaders.samplingPS);
            m_ScreenspaceShadowsMaterial = CoreUtils.CreateEngineMaterial(data.shaders.screenSpaceShadowPS);

            StencilStateData stencilData = data.defaultStencilState;
            m_DefaultStencilState         = StencilState.defaultValue;
            m_DefaultStencilState.enabled = stencilData.overrideStencilState;
            m_DefaultStencilState.SetCompareFunction(stencilData.stencilCompareFunction);
            m_DefaultStencilState.SetPassOperation(stencilData.passOperation);
            m_DefaultStencilState.SetFailOperation(stencilData.failOperation);
            m_DefaultStencilState.SetZFailOperation(stencilData.zFailOperation);

            // Note: Since all custom render passes inject first and we have stable sort,
            // we inject the builtin passes in the before events.
            m_MainLightShadowCasterPass        = new MainLightShadowCasterPass(RenderPassEvent.BeforeRenderingShadows);
            m_AdditionalLightsShadowCasterPass = new AdditionalLightsShadowCasterPass(RenderPassEvent.BeforeRenderingShadows);
#if ENABLE_VR && ENABLE_XR_MODULE
            m_XROcclusionMeshPass = new XROcclusionMeshPass(RenderPassEvent.BeforeRenderingPrepasses);
#endif
            m_DepthPrepass                 = new DepthOnlyPass(RenderPassEvent.BeforeRenderingPrepasses, RenderQueueRange.opaque, data.opaqueLayerMask);
            m_ColorGradingLutPass          = new ColorGradingLutPass(RenderPassEvent.BeforeRenderingPrepasses, data.postProcessData);
            m_RenderOpaqueForwardPass      = new DrawObjectsPass("Render Opaques", true, RenderPassEvent.BeforeRenderingOpaques, RenderQueueRange.opaque, data.opaqueLayerMask, m_DefaultStencilState, stencilData.stencilReference);
            m_CopyDepthPass                = new CopyDepthPass(RenderPassEvent.AfterRenderingSkybox, m_CopyDepthMaterial);
            m_DrawSkyboxPass               = new DrawSkyboxPass(RenderPassEvent.BeforeRenderingSkybox);
            m_CopyColorPass                = new CopyColorPass(RenderPassEvent.AfterRenderingSkybox, m_SamplingMaterial, m_BlitMaterial);
            m_TransparentSettingsPass      = new TransparentSettingsPass(RenderPassEvent.BeforeRenderingTransparents, data.shadowTransparentReceive);
            m_RenderTransparentForwardPass = new DrawObjectsPass("Render Transparents", false, RenderPassEvent.BeforeRenderingTransparents, RenderQueueRange.transparent, data.transparentLayerMask, m_DefaultStencilState, stencilData.stencilReference);
            m_OnRenderObjectCallbackPass   = new InvokeOnRenderObjectCallbackPass(RenderPassEvent.BeforeRenderingPostProcessing);
            m_PostProcessPass              = new PostProcessPass(RenderPassEvent.BeforeRenderingPostProcessing, data.postProcessData, m_BlitMaterial);
            m_FinalPostProcessPass         = new PostProcessPass(RenderPassEvent.AfterRendering + 1, data.postProcessData, m_BlitMaterial);
            m_CapturePass   = new CapturePass(RenderPassEvent.AfterRendering);
            m_FinalBlitPass = new FinalBlitPass(RenderPassEvent.AfterRendering + 1, m_BlitMaterial);

#if UNITY_EDITOR
            m_SceneViewDepthCopyPass = new SceneViewDepthCopyPass(RenderPassEvent.AfterRendering + 9, m_CopyDepthMaterial);
#endif

            // RenderTexture format depends on camera and pipeline (HDR, non HDR, etc)
            // Samples (MSAA) depend on camera and pipeline
            m_CameraColorAttachment.Init("_CameraColorTexture");
            m_CameraDepthAttachment.Init("_CameraDepthAttachment");
            m_DepthTexture.Init("_CameraDepthTexture");
            m_OpaqueColor.Init("_CameraOpaqueTexture");
            m_AfterPostProcessColor.Init("_AfterPostProcessTexture");
            m_ColorGradingLut.Init("_InternalGradingLut");
            m_ForwardLights = new ForwardLights();

            supportedRenderingFeatures = new RenderingFeatures()
            {
                cameraStacking = true,
            };
        }
        public ForwardRenderer(ForwardRendererData data) : base(data)
        {
#if ENABLE_VR && ENABLE_XR_MODULE
            UniversalRenderPipeline.m_XRSystem.InitializeXRSystemData(data.xrSystemData);
#endif

            m_BlitMaterial               = CoreUtils.CreateEngineMaterial(data.shaders.blitPS);
            m_CopyDepthMaterial          = CoreUtils.CreateEngineMaterial(data.shaders.copyDepthPS);
            m_SamplingMaterial           = CoreUtils.CreateEngineMaterial(data.shaders.samplingPS);
            m_ScreenspaceShadowsMaterial = CoreUtils.CreateEngineMaterial(data.shaders.screenSpaceShadowPS);
            //m_TileDepthInfoMaterial = CoreUtils.CreateEngineMaterial(data.shaders.tileDepthInfoPS);
            //m_TileDeferredMaterial = CoreUtils.CreateEngineMaterial(data.shaders.tileDeferredPS);
            m_StencilDeferredMaterial = CoreUtils.CreateEngineMaterial(data.shaders.stencilDeferredPS);

            StencilStateData stencilData = data.defaultStencilState;
            m_DefaultStencilState         = StencilState.defaultValue;
            m_DefaultStencilState.enabled = stencilData.overrideStencilState;
            m_DefaultStencilState.SetCompareFunction(stencilData.stencilCompareFunction);
            m_DefaultStencilState.SetPassOperation(stencilData.passOperation);
            m_DefaultStencilState.SetFailOperation(stencilData.failOperation);
            m_DefaultStencilState.SetZFailOperation(stencilData.zFailOperation);

            m_ForwardLights = new ForwardLights();
            //m_DeferredLights.LightCulling = data.lightCulling;
            this.m_RenderingMode = RenderingMode.Forward;

            // Note: Since all custom render passes inject first and we have stable sort,
            // we inject the builtin passes in the before events.
            m_MainLightShadowCasterPass        = new MainLightShadowCasterPass(RenderPassEvent.BeforeRenderingShadows);
            m_AdditionalLightsShadowCasterPass = new AdditionalLightsShadowCasterPass(RenderPassEvent.BeforeRenderingShadows);
#if ENABLE_VR && ENABLE_XR_MODULE
            m_XROcclusionMeshPass = new XROcclusionMeshPass(RenderPassEvent.BeforeRenderingOpaques);
            // Schedule XR copydepth right after m_FinalBlitPass(AfterRendering + 1)
            m_XRCopyDepthPass = new CopyDepthPass(RenderPassEvent.AfterRendering + 2, m_CopyDepthMaterial);
#endif
            m_DepthPrepass        = new DepthOnlyPass(RenderPassEvent.BeforeRenderingPrepasses, RenderQueueRange.opaque, data.opaqueLayerMask);
            m_DepthNormalPrepass  = new DepthNormalOnlyPass(RenderPassEvent.BeforeRenderingPrepasses, RenderQueueRange.opaque, data.opaqueLayerMask);
            m_ColorGradingLutPass = new ColorGradingLutPass(RenderPassEvent.BeforeRenderingPrepasses, data.postProcessData);

            if (this.renderingMode == RenderingMode.Deferred)
            {
                m_DeferredLights = new DeferredLights(m_TileDepthInfoMaterial, m_TileDeferredMaterial, m_StencilDeferredMaterial);
                m_DeferredLights.AccurateGbufferNormals = data.accurateGbufferNormals;
                //m_DeferredLights.TiledDeferredShading = data.tiledDeferredShading;
                m_DeferredLights.TiledDeferredShading = false;
                UniversalRenderPipelineAsset urpAsset = GraphicsSettings.renderPipelineAsset as UniversalRenderPipelineAsset;

                m_GBufferPass = new GBufferPass(RenderPassEvent.BeforeRenderingOpaques, RenderQueueRange.opaque, data.opaqueLayerMask, m_DefaultStencilState, stencilData.stencilReference, m_DeferredLights);
                // Forward-only pass only runs if deferred renderer is enabled.
                // It allows specific materials to be rendered in a forward-like pass.
                // We render both gbuffer pass and forward-only pass before the deferred lighting pass so we can minimize copies of depth buffer and
                // benefits from some depth rejection.
                // - If a material can be rendered either forward or deferred, then it should declare a UniversalForward and a UniversalGBuffer pass.
                // - If a material cannot be lit in deferred (unlit, bakedLit, special material such as hair, skin shader), then it should declare UniversalForwardOnly pass
                // - Legacy materials have unamed pass, which is implicitely renamed as SRPDefaultUnlit. In that case, they are considered forward-only too.
                // TO declare a material with unnamed pass and UniversalForward/UniversalForwardOnly pass is an ERROR, as the material will be rendered twice.
                StencilState  forwardOnlyStencilState = DeferredLights.OverwriteStencil(m_DefaultStencilState, (int)StencilUsage.MaterialMask);
                ShaderTagId[] forwardOnlyShaderTagIds = new ShaderTagId[] {
                    new ShaderTagId("UniversalForwardOnly"),
                    new ShaderTagId("SRPDefaultUnlit"),   // Legacy shaders (do not have a gbuffer pass) are considered forward-only for backward compatibility
                    new ShaderTagId("LightweightForward") // Legacy shaders (do not have a gbuffer pass) are considered forward-only for backward compatibility
                };
                int forwardOnlyStencilRef = stencilData.stencilReference | (int)StencilUsage.MaterialUnlit;
                m_RenderOpaqueForwardOnlyPass = new DrawObjectsPass("Render Opaques Forward Only", forwardOnlyShaderTagIds, true, RenderPassEvent.BeforeRenderingOpaques + 1, RenderQueueRange.opaque, data.opaqueLayerMask, forwardOnlyStencilState, forwardOnlyStencilRef);
                m_GBufferCopyDepthPass        = new CopyDepthPass(RenderPassEvent.BeforeRenderingOpaques + 2, m_CopyDepthMaterial);
                m_TileDepthRangePass          = new TileDepthRangePass(RenderPassEvent.BeforeRenderingOpaques + 3, m_DeferredLights, 0);
                m_TileDepthRangeExtraPass     = new TileDepthRangePass(RenderPassEvent.BeforeRenderingOpaques + 4, m_DeferredLights, 1);
                m_DeferredPass = new DeferredPass(RenderPassEvent.BeforeRenderingOpaques + 5, m_DeferredLights);
            }

            // Always create this pass even in deferred because we use it for wireframe rendering in the Editor or offscreen depth texture rendering.
            m_RenderOpaqueForwardPass = new DrawObjectsPass(URPProfileId.DrawOpaqueObjects, true, RenderPassEvent.BeforeRenderingOpaques, RenderQueueRange.opaque, data.opaqueLayerMask, m_DefaultStencilState, stencilData.stencilReference);

            m_CopyDepthPass  = new CopyDepthPass(RenderPassEvent.AfterRenderingSkybox, m_CopyDepthMaterial);
            m_DrawSkyboxPass = new DrawSkyboxPass(RenderPassEvent.BeforeRenderingSkybox);
            m_CopyColorPass  = new CopyColorPass(RenderPassEvent.AfterRenderingSkybox, m_SamplingMaterial, m_BlitMaterial);
#if ADAPTIVE_PERFORMANCE_2_1_0_OR_NEWER
            if (!UniversalRenderPipeline.asset.useAdaptivePerformance || AdaptivePerformance.AdaptivePerformanceRenderSettings.SkipTransparentObjects == false)
#endif
            {
                m_TransparentSettingsPass      = new TransparentSettingsPass(RenderPassEvent.BeforeRenderingTransparents, data.shadowTransparentReceive);
                m_RenderTransparentForwardPass = new DrawObjectsPass(URPProfileId.DrawTransparentObjects, false, RenderPassEvent.BeforeRenderingTransparents, RenderQueueRange.transparent, data.transparentLayerMask, m_DefaultStencilState, stencilData.stencilReference);
            }
            m_OnRenderObjectCallbackPass = new InvokeOnRenderObjectCallbackPass(RenderPassEvent.BeforeRenderingPostProcessing);
            m_PostProcessPass            = new PostProcessPass(RenderPassEvent.BeforeRenderingPostProcessing, data.postProcessData, m_BlitMaterial);
            m_FinalPostProcessPass       = new PostProcessPass(RenderPassEvent.AfterRendering + 1, data.postProcessData, m_BlitMaterial);
            m_CapturePass   = new CapturePass(RenderPassEvent.AfterRendering);
            m_FinalBlitPass = new FinalBlitPass(RenderPassEvent.AfterRendering + 1, m_BlitMaterial);

#if UNITY_EDITOR
            m_SceneViewDepthCopyPass = new SceneViewDepthCopyPass(RenderPassEvent.AfterRendering + 9, m_CopyDepthMaterial);
#endif

            // RenderTexture format depends on camera and pipeline (HDR, non HDR, etc)
            // Samples (MSAA) depend on camera and pipeline
            m_CameraColorAttachment.Init("_CameraColorTexture");
            m_CameraDepthAttachment.Init("_CameraDepthAttachment");
            m_DepthTexture.Init("_CameraDepthTexture");
            m_NormalsTexture.Init("_CameraNormalsTexture");
            if (this.renderingMode == RenderingMode.Deferred)
            {
                m_GBufferHandles = new RenderTargetHandle[(int)DeferredLights.GBufferHandles.Count];
                m_GBufferHandles[(int)DeferredLights.GBufferHandles.DepthAsColor].Init("_GBufferDepthAsColor");
                m_GBufferHandles[(int)DeferredLights.GBufferHandles.Albedo].Init("_GBuffer0");
                m_GBufferHandles[(int)DeferredLights.GBufferHandles.SpecularMetallic].Init("_GBuffer1");
                m_GBufferHandles[(int)DeferredLights.GBufferHandles.NormalSmoothness].Init("_GBuffer2");
                m_GBufferHandles[(int)DeferredLights.GBufferHandles.Lighting] = new RenderTargetHandle();
                m_GBufferHandles[(int)DeferredLights.GBufferHandles.ShadowMask].Init("_GBuffer4");
            }
            m_OpaqueColor.Init("_CameraOpaqueTexture");
            m_AfterPostProcessColor.Init("_AfterPostProcessTexture");
            m_ColorGradingLut.Init("_InternalGradingLut");
            m_DepthInfoTexture.Init("_DepthInfoTexture");
            m_TileDepthInfoTexture.Init("_TileDepthInfoTexture");

            supportedRenderingFeatures = new RenderingFeatures()
            {
                cameraStacking = true,
            };

            if (this.renderingMode == RenderingMode.Deferred)
            {
                unsupportedGraphicsDeviceTypes = new GraphicsDeviceType[] {
                    GraphicsDeviceType.OpenGLCore,
                    GraphicsDeviceType.OpenGLES2,
                    GraphicsDeviceType.OpenGLES3
                };
            }
        }
Example #3
0
        public DeferredRenderer(DeferredRendererData data) : base(data)
        {
#if ENABLE_VR && ENABLE_XR_MODULE
            UniversalRenderPipeline.m_XRSystem.InitializeXRSystemData(data.xrSystemData);
#endif

            m_BlitMaterial               = CoreUtils.CreateEngineMaterial(data.shaders.blitPS);
            m_CopyDepthMaterial          = CoreUtils.CreateEngineMaterial(data.shaders.copyDepthPS);
            m_SamplingMaterial           = CoreUtils.CreateEngineMaterial(data.shaders.samplingPS);
            m_ScreenspaceShadowsMaterial = CoreUtils.CreateEngineMaterial(data.shaders.screenSpaceShadowPS);
            m_TileDepthInfoMaterial      = CoreUtils.CreateEngineMaterial(data.shaders.tileDepthInfoPS);
            m_TileDeferredMaterial       = CoreUtils.CreateEngineMaterial(data.shaders.tileDeferredPS);
            m_StencilDeferredMaterial    = CoreUtils.CreateEngineMaterial(data.shaders.stencilDeferredPS);

            StencilStateData stencilData = data.defaultStencilState;
            m_DefaultStencilState         = StencilState.defaultValue;
            m_DefaultStencilState.enabled = stencilData.overrideStencilState;
            m_DefaultStencilState.SetCompareFunction(stencilData.stencilCompareFunction);
            m_DefaultStencilState.SetPassOperation(stencilData.passOperation);
            m_DefaultStencilState.SetFailOperation(stencilData.failOperation);
            m_DefaultStencilState.SetZFailOperation(stencilData.zFailOperation);

            m_ForwardLights  = new ForwardLights();
            m_DeferredLights = new DeferredLights(m_TileDepthInfoMaterial, m_TileDeferredMaterial, m_StencilDeferredMaterial);
            //m_DeferredLights.LightCulling = data.lightCulling;
            m_DeferredLights.AccurateGbufferNormals = data.accurateGbufferNormals;
            //m_DeferredLights.TiledDeferredShading = data.tiledDeferredShading;
            m_DeferredLights.TiledDeferredShading = false;

            m_PreferDepthPrepass = data.preferDepthPrepass;

            // Note: Since all custom render passes inject first and we have stable sort,
            // we inject the builtin passes in the before events.
            m_DepthPrepass = new DepthOnlyPass(RenderPassEvent.BeforeRenderingPrepasses, RenderQueueRange.opaque, data.opaqueLayerMask);
            m_MainLightShadowCasterPass        = new MainLightShadowCasterPass(RenderPassEvent.BeforeRenderingShadows);
            m_AdditionalLightsShadowCasterPass = new AdditionalLightsShadowCasterPass(RenderPassEvent.BeforeRenderingShadows);
#if ENABLE_VR && ENABLE_XR_MODULE
            m_XROcclusionMeshPass = new XROcclusionMeshPass(RenderPassEvent.BeforeRenderingOpaques);
#endif
            m_ScreenSpaceShadowResolvePass = new ScreenSpaceShadowResolvePass(RenderPassEvent.BeforeRenderingPrepasses, m_ScreenspaceShadowsMaterial);
            m_ColorGradingLutPass          = new ColorGradingLutPass(RenderPassEvent.BeforeRenderingPrepasses, data.postProcessData);
            m_GBufferPass             = new GBufferPass(RenderPassEvent.BeforeRenderingOpaques, RenderQueueRange.opaque, data.opaqueLayerMask, m_DefaultStencilState, stencilData.stencilReference, m_DeferredLights);
            m_CopyDepthPass0          = new CopyDepthPass(RenderPassEvent.BeforeRenderingOpaques + 1, m_CopyDepthMaterial);
            m_TileDepthRangePass      = new TileDepthRangePass(RenderPassEvent.BeforeRenderingOpaques + 2, m_DeferredLights, 0);
            m_TileDepthRangeExtraPass = new TileDepthRangePass(RenderPassEvent.BeforeRenderingOpaques + 3, m_DeferredLights, 1);
            m_DeferredPass            = new DeferredPass(RenderPassEvent.BeforeRenderingOpaques + 4, m_DeferredLights);
            // Forward only pass:
            // - If a material can be rendered either forward or deferred, then it should declare a UniversalForward and a UniversalGBuffer pass.
            // - If a material cannot be lit in deferred (unlit, bakedLit, special material such as hair, skin shader), then it should declare UniversalForwardOnly pass
            // - Legacy materials have unamed pass, which is implicitely renamed as SRPDefaultUnlit. In that case, they are considered forward-only too.
            // TO declare a material with unnamed pass and UniversalForward/UniversalForwardOnly pass is an ERROR, as the material will be rendered twice.
            m_RenderOpaqueForwardOnlyPass = new DrawObjectsPass("Render Opaques Forward Only", new ShaderTagId[] { new ShaderTagId("SRPDefaultUnlit"), new ShaderTagId("UniversalForwardOnly") }, true, RenderPassEvent.BeforeRenderingOpaques + 5, RenderQueueRange.opaque, data.opaqueLayerMask, m_DefaultStencilState, stencilData.stencilReference);
            m_CopyDepthPass1               = new CopyDepthPass(RenderPassEvent.AfterRenderingSkybox, m_CopyDepthMaterial);
            m_DrawSkyboxPass               = new DrawSkyboxPass(RenderPassEvent.BeforeRenderingSkybox);
            m_CopyColorPass                = new CopyColorPass(RenderPassEvent.BeforeRenderingTransparents, m_SamplingMaterial, m_BlitMaterial);
            m_TransparentSettingsPass      = new TransparentSettingsPass(RenderPassEvent.BeforeRenderingTransparents, data.shadowTransparentReceive);
            m_RenderTransparentForwardPass = new DrawObjectsPass("Render Transparents", false, RenderPassEvent.BeforeRenderingTransparents, RenderQueueRange.transparent, data.transparentLayerMask, m_DefaultStencilState, stencilData.stencilReference);
            m_OnRenderObjectCallbackPass   = new InvokeOnRenderObjectCallbackPass(RenderPassEvent.BeforeRenderingPostProcessing);
            m_PostProcessPass              = new PostProcessPass(RenderPassEvent.BeforeRenderingPostProcessing, data.postProcessData, m_BlitMaterial);
            m_FinalPostProcessPass         = new PostProcessPass(RenderPassEvent.AfterRendering + 1, data.postProcessData, m_BlitMaterial);
            m_CapturePass   = new CapturePass(RenderPassEvent.AfterRendering);
            m_FinalBlitPass = new FinalBlitPass(RenderPassEvent.AfterRendering + 1, m_BlitMaterial);

#if UNITY_EDITOR
            m_SceneViewDepthCopyPass = new SceneViewDepthCopyPass(RenderPassEvent.AfterRendering + 9, m_CopyDepthMaterial);
#endif

            // RenderTexture format depends on camera and pipeline (HDR, non HDR, etc)
            // Samples (MSAA) depend on camera and pipeline
            // string shaderProperty passed to Init() is use to refer to a texture from shader code
            m_CameraColorTexture.Init("_CameraColorTexture");
            m_CameraDepthTexture.Init("_CameraDepthTexture");
            m_CameraDepthAttachment.Init("_CameraDepthAttachment");

            m_GBufferAttachments = new RenderTargetHandle[m_DeferredLights.GBufferSliceCount];
            m_GBufferAttachments[m_DeferredLights.GBufferAlbedoIndex].Init("_GBuffer0");
            m_GBufferAttachments[m_DeferredLights.GBufferSpecularMetallicIndex].Init("_GBuffer1");
            m_GBufferAttachments[m_DeferredLights.GBufferNormalSmoothnessIndex].Init("_GBuffer2");
            //m_GBufferAttachments[m_DeferredLights.GBufferLightingIndex].Init("_GBuffer3"); // RenderTarget bound as output #3 during the GBuffer pass is the LightingGBuffer m_ActiveCameraColorAttachment, initialized as m_CameraColorTexture above

            m_OpaqueColor.Init("_CameraOpaqueTexture");
            m_AfterPostProcessColor.Init("_AfterPostProcessTexture");
            m_ColorGradingLut.Init("_InternalGradingLut");
            m_DepthInfoTexture.Init("_DepthInfoTexture");
            m_TileDepthInfoTexture.Init("_TileDepthInfoTexture");

            supportedRenderingFeatures = new RenderingFeatures()
            {
                cameraStacking = false,
                msaa           = false,
            };

            unsupportedGraphicsDeviceTypes = new GraphicsDeviceType[] {
                GraphicsDeviceType.OpenGLCore,
                GraphicsDeviceType.OpenGLES2,
                GraphicsDeviceType.OpenGLES3
            };
        }
        public ToonForwardRenderer(ToonForwardRendererData data) : base(data)
        {
#if ENABLE_VR && ENABLE_XR_MODULE
            UniversalRenderPipeline.m_XRSystem.InitializeXRSystemData(data.xrSystemData);
#endif

            m_BlitMaterial               = CoreUtils.CreateEngineMaterial(data.shaders.blitPS);
            m_CopyDepthMaterial          = CoreUtils.CreateEngineMaterial(data.shaders.copyDepthPS);
            m_SamplingMaterial           = CoreUtils.CreateEngineMaterial(data.shaders.samplingPS);
            m_ScreenspaceShadowsMaterial = CoreUtils.CreateEngineMaterial(data.shaders.screenSpaceShadowPS);

            StencilStateData stencilData = data.defaultStencilState;
            m_DefaultStencilState         = StencilState.defaultValue;
            m_DefaultStencilState.enabled = stencilData.overrideStencilState;
            m_DefaultStencilState.SetCompareFunction(stencilData.stencilCompareFunction);
            m_DefaultStencilState.SetPassOperation(stencilData.passOperation);
            m_DefaultStencilState.SetFailOperation(stencilData.failOperation);
            m_DefaultStencilState.SetZFailOperation(stencilData.zFailOperation);

            m_ForwardLights = new ForwardLights();

            // Note: Since all custom render passes inject first and we have stable sort,
            // we inject the builtin passes in the before events.
            m_MainLightShadowCasterPass        = new MainLightShadowCasterPass(RenderPassEvent.BeforeRenderingShadows);
            m_AdditionalLightsShadowCasterPass = new AdditionalLightsShadowCasterPass(RenderPassEvent.BeforeRenderingShadows);
#if ENABLE_VR && ENABLE_XR_MODULE
            m_XROcclusionMeshPass = new XROcclusionMeshPass(RenderPassEvent.BeforeRenderingOpaques);
            // Schedule XR copydepth right after m_FinalBlitPass(AfterRendering + 1)
            m_XRCopyDepthPass = new CopyDepthPass(RenderPassEvent.AfterRendering + 2, m_CopyDepthMaterial);
#endif
            m_DepthPrepass        = new DepthOnlyPass(RenderPassEvent.BeforeRenderingPrepasses, RenderQueueRange.opaque, data.opaqueLayerMask);
            m_DepthNormalPrepass  = new DepthNormalOnlyPass(RenderPassEvent.BeforeRenderingPrepasses, RenderQueueRange.opaque, data.opaqueLayerMask);
            m_ColorGradingLutPass = new ColorGradingLutPass(RenderPassEvent.BeforeRenderingPrepasses, data.postProcessData);


            // Always create this pass even in deferred because we use it for wireframe rendering in the Editor or offscreen depth texture rendering.
            m_RenderOpaqueForwardPass  = new DrawObjectsPass(URPProfileId.DrawOpaqueObjects, true, RenderPassEvent.BeforeRenderingOpaques, RenderQueueRange.opaque, data.opaqueLayerMask, m_DefaultStencilState, stencilData.stencilReference);
            m_RenderOutlinePass        = new DrawOutlinePass("Render Outline", RenderPassEvent.BeforeRenderingOpaques, RenderQueueRange.opaque, data.opaqueLayerMask);
            m_RenderHairShadowMaskPass = new DrawHairShadowMaskPass("Render HairShadowMask", RenderPassEvent.BeforeRenderingOpaques, RenderQueueRange.opaque, data.opaqueLayerMask);
            m_CopyDepthPass            = new CopyDepthPass(RenderPassEvent.AfterRenderingSkybox, m_CopyDepthMaterial);
            m_DrawSkyboxPass           = new DrawSkyboxPass(RenderPassEvent.BeforeRenderingSkybox);
            m_CopyColorPass            = new CopyColorPass(RenderPassEvent.AfterRenderingSkybox, m_SamplingMaterial, m_BlitMaterial);
#if ADAPTIVE_PERFORMANCE_2_1_0_OR_NEWER
            if (!UniversalRenderPipeline.asset.useAdaptivePerformance || AdaptivePerformance.AdaptivePerformanceRenderSettings.SkipTransparentObjects == false)
#endif
            {
                m_TransparentSettingsPass      = new TransparentSettingsPass(RenderPassEvent.BeforeRenderingTransparents, data.shadowTransparentReceive);
                m_RenderTransparentForwardPass = new DrawObjectsPass(URPProfileId.DrawTransparentObjects, false, RenderPassEvent.BeforeRenderingTransparents, RenderQueueRange.transparent, data.transparentLayerMask, m_DefaultStencilState, stencilData.stencilReference);
            }
            m_OnRenderObjectCallbackPass = new InvokeOnRenderObjectCallbackPass(RenderPassEvent.BeforeRenderingPostProcessing);
            m_PostProcessPass            = new PostProcessPass(RenderPassEvent.BeforeRenderingPostProcessing, data.postProcessData, m_BlitMaterial);
            m_FinalPostProcessPass       = new PostProcessPass(RenderPassEvent.AfterRendering + 1, data.postProcessData, m_BlitMaterial);
            m_CapturePass   = new CapturePass(RenderPassEvent.AfterRendering);
            m_FinalBlitPass = new FinalBlitPass(RenderPassEvent.AfterRendering + 1, m_BlitMaterial);

#if UNITY_EDITOR
            m_SceneViewDepthCopyPass = new SceneViewDepthCopyPass(RenderPassEvent.AfterRendering + 9, m_CopyDepthMaterial);
#endif

            // RenderTexture format depends on camera and pipeline (HDR, non HDR, etc)
            // Samples (MSAA) depend on camera and pipeline
            m_CameraColorAttachment.Init("_CameraColorTexture");
            m_CameraDepthAttachment.Init("_CameraDepthAttachment");
            m_DepthTexture.Init("_CameraDepthTexture");
            m_NormalsTexture.Init("_CameraNormalsTexture");
            m_OpaqueColor.Init("_CameraOpaqueTexture");
            m_AfterPostProcessColor.Init("_AfterPostProcessTexture");
            m_ColorGradingLut.Init("_InternalGradingLut");
            m_DepthInfoTexture.Init("_DepthInfoTexture");

            supportedRenderingFeatures = new RenderingFeatures()
            {
                cameraStacking = true,
            };
        }