549 lines
26 KiB
C#
549 lines
26 KiB
C#
using System;
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using UnityEngine.Experimental.Rendering;
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using UnityEngine.Rendering.Universal.Internal;
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namespace UnityEngine.Rendering.Universal
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{
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internal sealed partial class Renderer2D : ScriptableRenderer
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{
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#if UNITY_SWITCH || UNITY_EMBEDDED_LINUX || UNITY_QNX
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const GraphicsFormat k_DepthStencilFormat = GraphicsFormat.D24_UNorm_S8_UInt;
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#else
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const GraphicsFormat k_DepthStencilFormat = GraphicsFormat.D32_SFloat_S8_UInt;
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#endif
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const int k_FinalBlitPassQueueOffset = 1;
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const int k_AfterFinalBlitPassQueueOffset = k_FinalBlitPassQueueOffset + 1;
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Render2DLightingPass m_Render2DLightingPass;
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PixelPerfectBackgroundPass m_PixelPerfectBackgroundPass;
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UpscalePass m_UpscalePass;
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CopyDepthPass m_CopyDepthPass;
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CopyCameraSortingLayerPass m_CopyCameraSortingLayerPass;
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FinalBlitPass m_FinalBlitPass;
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DrawScreenSpaceUIPass m_DrawOffscreenUIPass;
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DrawScreenSpaceUIPass m_DrawOverlayUIPass; // from HDRP code
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internal RenderTargetBufferSystem m_ColorBufferSystem;
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private static readonly ProfilingSampler m_ProfilingSampler = new ProfilingSampler("Create Camera Textures");
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bool m_UseDepthStencilBuffer = true;
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bool m_CreateColorTexture;
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bool m_CreateDepthTexture;
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// We probably should declare these names in the base class,
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// as they must be the same across all ScriptableRenderer types for camera stacking to work.
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internal RTHandle m_ColorTextureHandle;
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internal RTHandle m_DepthTextureHandle;
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#if UNITY_EDITOR
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SetEditorTargetPass m_SetEditorTargetPass;
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internal RTHandle m_DefaultWhiteTextureHandle;
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#endif
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Material m_BlitMaterial;
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Material m_BlitHDRMaterial;
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Material m_SamplingMaterial;
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Renderer2DData m_Renderer2DData;
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internal bool createColorTexture => m_CreateColorTexture;
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internal bool createDepthTexture => m_CreateDepthTexture;
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PostProcessPasses m_PostProcessPasses;
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internal ColorGradingLutPass colorGradingLutPass { get => m_PostProcessPasses.colorGradingLutPass; }
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internal PostProcessPass postProcessPass { get => m_PostProcessPasses.postProcessPass; }
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internal PostProcessPass finalPostProcessPass { get => m_PostProcessPasses.finalPostProcessPass; }
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internal RTHandle afterPostProcessColorHandle { get => m_PostProcessPasses.afterPostProcessColor; }
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internal RTHandle colorGradingLutHandle { get => m_PostProcessPasses.colorGradingLut; }
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/// <inheritdoc/>
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public override int SupportedCameraStackingTypes()
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{
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return 1 << (int)CameraRenderType.Base | 1 << (int)CameraRenderType.Overlay;
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}
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public Renderer2D(Renderer2DData data) : base(data)
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{
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if (GraphicsSettings.TryGetRenderPipelineSettings<UniversalRenderPipelineRuntimeShaders>(
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out var shadersResources))
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{
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m_BlitMaterial = CoreUtils.CreateEngineMaterial(shadersResources.coreBlitPS);
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m_BlitHDRMaterial = CoreUtils.CreateEngineMaterial(shadersResources.blitHDROverlay);
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m_SamplingMaterial = CoreUtils.CreateEngineMaterial(shadersResources.samplingPS);
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}
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if (GraphicsSettings.TryGetRenderPipelineSettings<Renderer2DResources>(out var renderer2DResources))
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{
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m_Render2DLightingPass = new Render2DLightingPass(data, m_BlitMaterial, m_SamplingMaterial, renderer2DResources.fallOffLookup);
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m_CopyDepthPass = new CopyDepthPass(
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RenderPassEvent.AfterRenderingTransparents,
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renderer2DResources.copyDepthPS,
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shouldClear: true,
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copyResolvedDepth: RenderingUtils.MultisampleDepthResolveSupported());
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}
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// we should determine why clearing the camera target is set so late in the events... sounds like it could be earlier
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m_PixelPerfectBackgroundPass = new PixelPerfectBackgroundPass(RenderPassEvent.AfterRenderingTransparents);
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m_UpscalePass = new UpscalePass(RenderPassEvent.AfterRenderingPostProcessing, m_BlitMaterial);
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m_CopyCameraSortingLayerPass = new CopyCameraSortingLayerPass(m_BlitMaterial);
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m_FinalBlitPass = new FinalBlitPass(RenderPassEvent.AfterRendering + k_FinalBlitPassQueueOffset, m_BlitMaterial, m_BlitHDRMaterial);
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m_DrawOffscreenUIPass = new DrawScreenSpaceUIPass(RenderPassEvent.BeforeRenderingPostProcessing, true);
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m_DrawOverlayUIPass = new DrawScreenSpaceUIPass(RenderPassEvent.AfterRendering + k_AfterFinalBlitPassQueueOffset, false); // after m_FinalBlitPass
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#if UNITY_EDITOR
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m_SetEditorTargetPass = new SetEditorTargetPass(RenderPassEvent.AfterRendering + 9);
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#endif
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// RenderTexture format depends on camera and pipeline (HDR, non HDR, etc)
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// Samples (MSAA) depend on camera and pipeline
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m_ColorBufferSystem = new RenderTargetBufferSystem("_CameraColorAttachment");
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var ppParams = PostProcessParams.Create();
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ppParams.blitMaterial = m_BlitMaterial;
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ppParams.requestColorFormat = GraphicsFormat.B10G11R11_UFloatPack32;
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m_PostProcessPasses = new PostProcessPasses(data.postProcessData, ref ppParams);
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m_UseDepthStencilBuffer = data.useDepthStencilBuffer;
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m_Renderer2DData = data;
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supportedRenderingFeatures = new RenderingFeatures();
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m_Renderer2DData.lightCullResult = new Light2DCullResult();
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LensFlareCommonSRP.mergeNeeded = 0;
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LensFlareCommonSRP.maxLensFlareWithOcclusionTemporalSample = 1;
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LensFlareCommonSRP.Initialize();
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}
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protected override void Dispose(bool disposing)
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{
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m_Renderer2DData.Dispose();
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m_Render2DLightingPass?.Dispose();
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m_PostProcessPasses.Dispose();
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m_ColorTextureHandle?.Release();
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m_DepthTextureHandle?.Release();
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ReleaseRenderTargets();
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m_UpscalePass.Dispose();
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m_CopyDepthPass?.Dispose();
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m_FinalBlitPass?.Dispose();
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m_DrawOffscreenUIPass?.Dispose();
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m_DrawOverlayUIPass?.Dispose();
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CoreUtils.Destroy(m_BlitMaterial);
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CoreUtils.Destroy(m_BlitHDRMaterial);
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CoreUtils.Destroy(m_SamplingMaterial);
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CleanupRenderGraphResources();
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base.Dispose(disposing);
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}
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internal override void ReleaseRenderTargets()
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{
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m_ColorBufferSystem.Dispose();
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m_PostProcessPasses.ReleaseRenderTargets();
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}
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public Renderer2DData GetRenderer2DData()
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{
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return m_Renderer2DData;
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}
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private struct RenderPassInputSummary
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{
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internal bool requiresDepthTexture;
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internal bool requiresColorTexture;
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}
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private RenderPassInputSummary GetRenderPassInputs(UniversalCameraData cameraData)
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{
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RenderPassInputSummary inputSummary = new RenderPassInputSummary();
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for (int i = 0; i < activeRenderPassQueue.Count; ++i)
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{
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ScriptableRenderPass pass = activeRenderPassQueue[i];
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bool needsDepth = (pass.input & ScriptableRenderPassInput.Depth) != ScriptableRenderPassInput.None;
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bool needsColor = (pass.input & ScriptableRenderPassInput.Color) != ScriptableRenderPassInput.None;
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inputSummary.requiresDepthTexture |= needsDepth;
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inputSummary.requiresColorTexture |= needsColor;
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}
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inputSummary.requiresColorTexture |= cameraData.postProcessEnabled
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|| cameraData.isHdrEnabled
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|| cameraData.isSceneViewCamera
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|| !cameraData.isDefaultViewport
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|| cameraData.requireSrgbConversion
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|| !cameraData.resolveFinalTarget
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|| m_Renderer2DData.useCameraSortingLayerTexture
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|| !Mathf.Approximately(cameraData.renderScale, 1.0f)
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|| (DebugHandler != null && DebugHandler.WriteToDebugScreenTexture(cameraData.resolveFinalTarget));
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inputSummary.requiresDepthTexture |= (!cameraData.resolveFinalTarget && m_UseDepthStencilBuffer);
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return inputSummary;
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}
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void CreateRenderTextures(
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ref RenderPassInputSummary renderPassInputs,
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CommandBuffer cmd,
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UniversalCameraData cameraData,
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bool forceCreateColorTexture,
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FilterMode colorTextureFilterMode,
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out RTHandle colorTargetHandle,
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out RTHandle depthTargetHandle)
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{
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ref var cameraTargetDescriptor = ref cameraData.cameraTargetDescriptor;
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var colorDescriptor = cameraTargetDescriptor;
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colorDescriptor.depthStencilFormat = GraphicsFormat.None;
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m_ColorBufferSystem.SetCameraSettings(colorDescriptor, colorTextureFilterMode);
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if (cameraData.renderType == CameraRenderType.Base)
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{
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m_CreateColorTexture = renderPassInputs.requiresColorTexture;
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m_CreateDepthTexture = renderPassInputs.requiresDepthTexture;
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m_CreateColorTexture |= forceCreateColorTexture;
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// RTHandles do not support combining color and depth in the same texture so we create them separately
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m_CreateDepthTexture |= createColorTexture;
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if (createColorTexture)
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{
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if (m_ColorBufferSystem.PeekBackBuffer() == null || m_ColorBufferSystem.PeekBackBuffer().nameID != BuiltinRenderTextureType.CameraTarget)
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{
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m_ColorTextureHandle = m_ColorBufferSystem.GetBackBuffer(cmd);
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cmd.SetGlobalTexture("_CameraColorTexture", m_ColorTextureHandle.nameID);
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//Set _AfterPostProcessTexture, users might still rely on this although it is now always the cameratarget due to swapbuffer
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cmd.SetGlobalTexture("_AfterPostProcessTexture", m_ColorTextureHandle.nameID);
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}
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m_ColorTextureHandle = m_ColorBufferSystem.PeekBackBuffer();
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}
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if (createDepthTexture)
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{
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var depthDescriptor = cameraTargetDescriptor;
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depthDescriptor.colorFormat = RenderTextureFormat.Depth;
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depthDescriptor.depthStencilFormat = k_DepthStencilFormat;
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if (!cameraData.resolveFinalTarget && m_UseDepthStencilBuffer)
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depthDescriptor.bindMS = depthDescriptor.msaaSamples > 1 && !SystemInfo.supportsMultisampleAutoResolve && (SystemInfo.supportsMultisampledTextures != 0);
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RenderingUtils.ReAllocateHandleIfNeeded(ref m_DepthTextureHandle, depthDescriptor, FilterMode.Point, wrapMode: TextureWrapMode.Clamp, name: "_CameraDepthAttachment");
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}
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colorTargetHandle = createColorTexture ? m_ColorTextureHandle : k_CameraTarget;
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depthTargetHandle = createDepthTexture ? m_DepthTextureHandle : k_CameraTarget;
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}
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else // Overlay camera
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{
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cameraData.baseCamera.TryGetComponent<UniversalAdditionalCameraData>(out var baseCameraData);
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var baseRenderer = (Renderer2D)baseCameraData.scriptableRenderer;
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if (m_ColorBufferSystem != baseRenderer.m_ColorBufferSystem)
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{
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m_ColorBufferSystem.Dispose();
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m_ColorBufferSystem = baseRenderer.m_ColorBufferSystem;
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}
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// These render textures are created by the base camera, but it's the responsibility of the last overlay camera's ScriptableRenderer
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// to release the textures in its FinishRendering().
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m_CreateColorTexture = true;
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m_CreateDepthTexture = true;
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m_ColorTextureHandle = baseRenderer.m_ColorTextureHandle;
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m_DepthTextureHandle = baseRenderer.m_DepthTextureHandle;
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colorTargetHandle = m_ColorTextureHandle;
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depthTargetHandle = m_DepthTextureHandle;
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}
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}
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[Obsolete(DeprecationMessage.CompatibilityScriptingAPIObsolete, false)]
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public override void Setup(ScriptableRenderContext context, ref RenderingData renderingData)
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{
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UniversalRenderingData universalRenderingData = frameData.Get<UniversalRenderingData>();
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UniversalCameraData cameraData = frameData.Get<UniversalCameraData>();
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UniversalPostProcessingData postProcessingData = frameData.Get<UniversalPostProcessingData>();
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ref var cameraTargetDescriptor = ref cameraData.cameraTargetDescriptor;
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bool stackHasPostProcess = postProcessingData.isEnabled && m_PostProcessPasses.isCreated;
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bool hasPostProcess = cameraData.postProcessEnabled && m_PostProcessPasses.isCreated;
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bool lastCameraInStack = cameraData.resolveFinalTarget;
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var colorTextureFilterMode = FilterMode.Bilinear;
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PixelPerfectCamera ppc = null;
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bool ppcUsesOffscreenRT = false;
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bool ppcUpscaleRT = false;
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if (DebugHandler != null)
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{
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#if UNITY_EDITOR
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UnityEditorInternal.SpriteMaskUtility.EnableDebugMode(DebugHandler.DebugDisplaySettings.materialSettings.materialDebugMode == DebugMaterialMode.SpriteMask);
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#endif
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if (DebugHandler.AreAnySettingsActive)
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{
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stackHasPostProcess = stackHasPostProcess && DebugHandler.IsPostProcessingAllowed;
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hasPostProcess = hasPostProcess && DebugHandler.IsPostProcessingAllowed;
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}
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DebugHandler.Setup(universalRenderingData.commandBuffer, cameraData.isPreviewCamera);
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if (DebugHandler.IsActiveForCamera(cameraData.isPreviewCamera))
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{
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if (DebugHandler.WriteToDebugScreenTexture(cameraData.resolveFinalTarget))
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{
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RenderTextureDescriptor descriptor = cameraData.cameraTargetDescriptor;
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DebugHandler.ConfigureColorDescriptorForDebugScreen(ref descriptor, cameraData.pixelWidth, cameraData.pixelHeight);
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RenderingUtils.ReAllocateHandleIfNeeded(ref DebugHandler.DebugScreenColorHandle, descriptor, name: "_DebugScreenColor");
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RenderTextureDescriptor depthDesc = cameraData.cameraTargetDescriptor;
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DebugHandler.ConfigureDepthDescriptorForDebugScreen(ref depthDesc, k_DepthStencilFormat, cameraData.pixelWidth, cameraData.pixelHeight);
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RenderingUtils.ReAllocateHandleIfNeeded(ref DebugHandler.DebugScreenDepthHandle, depthDesc, name: "_DebugScreenDepth");
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}
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if (DebugHandler.HDRDebugViewIsActive(cameraData.resolveFinalTarget))
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{
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DebugHandler.hdrDebugViewPass.Setup(cameraData, DebugHandler.DebugDisplaySettings.lightingSettings.hdrDebugMode);
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EnqueuePass(DebugHandler.hdrDebugViewPass);
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}
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}
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}
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#if UNITY_EDITOR
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// The scene view camera cannot be uninitialized or skybox when using the 2D renderer.
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if (cameraData.cameraType == CameraType.SceneView)
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{
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cameraData.camera.clearFlags = CameraClearFlags.SolidColor;
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}
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#endif
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// Pixel Perfect Camera doesn't support camera stacking.
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if (cameraData.renderType == CameraRenderType.Base && lastCameraInStack)
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{
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cameraData.camera.TryGetComponent(out ppc);
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if (ppc != null && ppc.enabled)
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{
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if (ppc.offscreenRTSize != Vector2Int.zero)
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{
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ppcUsesOffscreenRT = true;
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// Pixel Perfect Camera may request a different RT size than camera VP size.
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// In that case we need to modify cameraTargetDescriptor here so that all the passes would use the same size.
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cameraTargetDescriptor.width = ppc.offscreenRTSize.x;
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cameraTargetDescriptor.height = ppc.offscreenRTSize.y;
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// If using FullScreenRenderPass with Pixel Perfect, we need to reallocate the size of the RT used
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var fullScreenRenderPass = activeRenderPassQueue.Find(x => x is FullScreenPassRendererFeature.FullScreenRenderPass) as FullScreenPassRendererFeature.FullScreenRenderPass;
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fullScreenRenderPass?.ReAllocate(cameraTargetDescriptor);
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}
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colorTextureFilterMode = FilterMode.Point;
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ppcUpscaleRT = ppc.gridSnapping == PixelPerfectCamera.GridSnapping.UpscaleRenderTexture || ppc.requiresUpscalePass;
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}
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}
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RenderPassInputSummary renderPassInputs = GetRenderPassInputs(cameraData);
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RTHandle colorTargetHandle;
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RTHandle depthTargetHandle;
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var cmd = universalRenderingData.commandBuffer;
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#if UNITY_EDITOR
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if(m_DefaultWhiteTextureHandle == null)
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m_DefaultWhiteTextureHandle = RTHandles.Alloc(Texture2D.whiteTexture, "_DefaultWhiteTex");
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cmd.SetGlobalTexture(m_DefaultWhiteTextureHandle.name, m_DefaultWhiteTextureHandle.nameID);
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#endif
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using (new ProfilingScope(cmd, m_ProfilingSampler))
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{
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CreateRenderTextures(ref renderPassInputs, cmd, cameraData, ppcUsesOffscreenRT, colorTextureFilterMode,
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out colorTargetHandle, out depthTargetHandle);
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}
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context.ExecuteCommandBuffer(cmd);
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cmd.Clear();
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ConfigureCameraTarget(colorTargetHandle, depthTargetHandle);
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if (hasPostProcess)
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{
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colorGradingLutPass.ConfigureDescriptor(in postProcessingData, out var desc, out var filterMode);
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RenderingUtils.ReAllocateHandleIfNeeded(ref m_PostProcessPasses.m_ColorGradingLut, desc, filterMode, TextureWrapMode.Clamp, name: "_InternalGradingLut");
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colorGradingLutPass.Setup(colorGradingLutHandle);
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EnqueuePass(colorGradingLutPass);
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}
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m_Render2DLightingPass.Setup(renderPassInputs.requiresDepthTexture || m_UseDepthStencilBuffer);
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// Disable obsolete warning for internal usage
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#pragma warning disable CS0618
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m_Render2DLightingPass.ConfigureTarget(colorTargetHandle, depthTargetHandle);
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#pragma warning restore CS0618
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EnqueuePass(m_Render2DLightingPass);
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bool shouldRenderUI = cameraData.rendersOverlayUI;
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bool outputToHDR = cameraData.isHDROutputActive;
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if (shouldRenderUI && outputToHDR)
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{
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m_DrawOffscreenUIPass.Setup(cameraData, k_DepthStencilFormat);
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EnqueuePass(m_DrawOffscreenUIPass);
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}
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// TODO: Investigate how to make FXAA work with HDR output.
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bool isFXAAEnabled = cameraData.antialiasing == AntialiasingMode.FastApproximateAntialiasing && !outputToHDR;
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// When using Upscale Render Texture on a Pixel Perfect Camera, we want all post-processing effects done with a low-res RT,
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// and only upscale the low-res RT to fullscreen when blitting it to camera target. Also, final post processing pass is not run in this case,
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// so FXAA is not supported (you don't want to apply FXAA when everything is intentionally pixelated).
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bool requireFinalPostProcessPass =
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lastCameraInStack && !ppcUpscaleRT && stackHasPostProcess && isFXAAEnabled;
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bool hasPassesAfterPostProcessing = activeRenderPassQueue.Find(x => x.renderPassEvent == RenderPassEvent.AfterRenderingPostProcessing) != null;
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bool needsColorEncoding = DebugHandler == null || !DebugHandler.HDRDebugViewIsActive(cameraData.resolveFinalTarget);
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if (hasPostProcess)
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{
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var desc = PostProcessPass.GetCompatibleDescriptor(cameraTargetDescriptor, cameraTargetDescriptor.width, cameraTargetDescriptor.height, cameraTargetDescriptor.graphicsFormat);
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RenderingUtils.ReAllocateHandleIfNeeded(ref m_PostProcessPasses.m_AfterPostProcessColor, desc, FilterMode.Point, TextureWrapMode.Clamp, name: "_AfterPostProcessTexture");
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postProcessPass.Setup(
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cameraTargetDescriptor,
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colorTargetHandle,
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afterPostProcessColorHandle,
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depthTargetHandle,
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colorGradingLutHandle,
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requireFinalPostProcessPass,
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afterPostProcessColorHandle.nameID == k_CameraTarget.nameID && needsColorEncoding);
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EnqueuePass(postProcessPass);
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}
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RTHandle finalTargetHandle = colorTargetHandle;
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if (ppc != null && ppc.enabled && ppc.cropFrame != PixelPerfectCamera.CropFrame.None)
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{
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EnqueuePass(m_PixelPerfectBackgroundPass);
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// Queue PixelPerfect UpscalePass. Only used when using the Stretch Fill option
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if (ppc.requiresUpscalePass)
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{
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int upscaleWidth = ppc.refResolutionX * ppc.pixelRatio;
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int upscaleHeight = ppc.refResolutionY * ppc.pixelRatio;
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m_UpscalePass.Setup(colorTargetHandle, upscaleWidth, upscaleHeight, ppc.finalBlitFilterMode, cameraData.cameraTargetDescriptor, out finalTargetHandle);
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EnqueuePass(m_UpscalePass);
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}
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}
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if (requireFinalPostProcessPass)
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{
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finalPostProcessPass.SetupFinalPass(finalTargetHandle, hasPassesAfterPostProcessing, needsColorEncoding);
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EnqueuePass(finalPostProcessPass);
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}
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else if (lastCameraInStack && finalTargetHandle != k_CameraTarget)
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{
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m_FinalBlitPass.Setup(cameraTargetDescriptor, finalTargetHandle);
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EnqueuePass(m_FinalBlitPass);
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}
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// We can explicitely render the overlay UI from URP when HDR output is not enabled.
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// SupportedRenderingFeatures.active.rendersUIOverlay should also be set to true.
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if (shouldRenderUI && !outputToHDR)
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{
|
|
EnqueuePass(m_DrawOverlayUIPass);
|
|
}
|
|
|
|
// The editor scene view still relies on some builtin passes (i.e. drawing the scene grid). The builtin
|
|
// passes are not explicitly setting RTs and rely on the last active render target being set.
|
|
// TODO: this will go away once we remove the builtin dependencies and implement the grid in SRP.
|
|
#if UNITY_EDITOR
|
|
bool isSceneViewOrPreviewCamera = cameraData.isSceneViewCamera || cameraData.isPreviewCamera;
|
|
bool isGizmosEnabled = UnityEditor.Handles.ShouldRenderGizmos();
|
|
if (isSceneViewOrPreviewCamera || (isGizmosEnabled && lastCameraInStack))
|
|
{
|
|
EnqueuePass(m_SetEditorTargetPass);
|
|
}
|
|
#endif
|
|
}
|
|
|
|
public override void SetupCullingParameters(ref ScriptableCullingParameters cullingParameters, ref CameraData cameraData)
|
|
{
|
|
cullingParameters.cullingOptions = CullingOptions.None;
|
|
cullingParameters.isOrthographic = cameraData.camera.orthographic;
|
|
cullingParameters.shadowDistance = 0.0f;
|
|
var cullResult = m_Renderer2DData.lightCullResult as Light2DCullResult;
|
|
cullResult.SetupCulling(ref cullingParameters, cameraData.camera);
|
|
}
|
|
|
|
internal override void SwapColorBuffer(CommandBuffer cmd)
|
|
{
|
|
m_ColorBufferSystem.Swap();
|
|
|
|
// Disable obsolete warning for internal usage
|
|
#pragma warning disable CS0618
|
|
//Check if we are using the depth that is attached to color buffer
|
|
if (m_DepthTextureHandle.nameID != BuiltinRenderTextureType.CameraTarget)
|
|
ConfigureCameraTarget(m_ColorBufferSystem.GetBackBuffer(cmd), m_DepthTextureHandle);
|
|
else
|
|
ConfigureCameraColorTarget(m_ColorBufferSystem.GetBackBuffer(cmd));
|
|
#pragma warning restore CS0618
|
|
|
|
m_ColorTextureHandle = m_ColorBufferSystem.GetBackBuffer(cmd);
|
|
cmd.SetGlobalTexture("_CameraColorTexture", m_ColorTextureHandle.nameID);
|
|
//Set _AfterPostProcessTexture, users might still rely on this although it is now always the cameratarget due to swapbuffer
|
|
cmd.SetGlobalTexture("_AfterPostProcessTexture", m_ColorTextureHandle.nameID);
|
|
}
|
|
|
|
[Obsolete(DeprecationMessage.CompatibilityScriptingAPIObsolete, false)]
|
|
internal override RTHandle GetCameraColorFrontBuffer(CommandBuffer cmd)
|
|
{
|
|
return m_ColorBufferSystem.GetFrontBuffer(cmd);
|
|
}
|
|
|
|
[Obsolete(DeprecationMessage.CompatibilityScriptingAPIObsolete, false)]
|
|
internal override RTHandle GetCameraColorBackBuffer(CommandBuffer cmd)
|
|
{
|
|
return m_ColorBufferSystem.GetBackBuffer(cmd);
|
|
}
|
|
|
|
internal override void EnableSwapBufferMSAA(bool enable)
|
|
{
|
|
m_ColorBufferSystem.EnableMSAA(enable);
|
|
}
|
|
|
|
internal static bool IsGLDevice()
|
|
{
|
|
return SystemInfo.graphicsDeviceType == GraphicsDeviceType.OpenGLES3 || SystemInfo.graphicsDeviceType == GraphicsDeviceType.OpenGLCore;
|
|
}
|
|
|
|
internal static bool supportsMRT
|
|
{
|
|
get => !IsGLDevice();
|
|
}
|
|
|
|
internal override bool supportsNativeRenderPassRendergraphCompiler => true;
|
|
}
|
|
|
|
#if UNITY_EDITOR
|
|
internal class SetEditorTargetPass : ScriptableRenderPass
|
|
{
|
|
public SetEditorTargetPass(RenderPassEvent evt)
|
|
{
|
|
renderPassEvent = evt;
|
|
}
|
|
|
|
[Obsolete(DeprecationMessage.CompatibilityScriptingAPIObsolete, false)]
|
|
public override void Execute(ScriptableRenderContext context, ref RenderingData renderingData)
|
|
{
|
|
renderingData.commandBuffer.SetRenderTarget(k_CameraTarget,
|
|
RenderBufferLoadAction.Load, RenderBufferStoreAction.Store, // color
|
|
RenderBufferLoadAction.Load, RenderBufferStoreAction.DontCare); // depth
|
|
}
|
|
}
|
|
#endif
|
|
}
|