Firstborn/Library/PackageCache/com.unity.render-pipelines..../Runtime/Passes/GBufferPass.cs

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2023-03-28 13:24:16 -04:00
using UnityEngine.Experimental.GlobalIllumination;
using UnityEngine.Experimental.Rendering;
using UnityEngine.Profiling;
using Unity.Collections;
namespace UnityEngine.Rendering.Universal.Internal
{
// Render all tiled-based deferred lights.
internal class GBufferPass : ScriptableRenderPass
{
static readonly int s_CameraNormalsTextureID = Shader.PropertyToID("_CameraNormalsTexture");
static ShaderTagId s_ShaderTagLit = new ShaderTagId("Lit");
static ShaderTagId s_ShaderTagSimpleLit = new ShaderTagId("SimpleLit");
static ShaderTagId s_ShaderTagUnlit = new ShaderTagId("Unlit");
static ShaderTagId s_ShaderTagUniversalGBuffer = new ShaderTagId("UniversalGBuffer");
static ShaderTagId s_ShaderTagUniversalMaterialType = new ShaderTagId("UniversalMaterialType");
ProfilingSampler m_ProfilingSampler = new ProfilingSampler("Render GBuffer");
DeferredLights m_DeferredLights;
ShaderTagId[] m_ShaderTagValues;
RenderStateBlock[] m_RenderStateBlocks;
FilteringSettings m_FilteringSettings;
RenderStateBlock m_RenderStateBlock;
public GBufferPass(RenderPassEvent evt, RenderQueueRange renderQueueRange, LayerMask layerMask, StencilState stencilState, int stencilReference, DeferredLights deferredLights)
{
base.profilingSampler = new ProfilingSampler(nameof(GBufferPass));
base.renderPassEvent = evt;
m_DeferredLights = deferredLights;
m_FilteringSettings = new FilteringSettings(renderQueueRange, layerMask);
m_RenderStateBlock = new RenderStateBlock(RenderStateMask.Nothing);
m_RenderStateBlock.stencilState = stencilState;
m_RenderStateBlock.stencilReference = stencilReference;
m_RenderStateBlock.mask = RenderStateMask.Stencil;
m_ShaderTagValues = new ShaderTagId[4];
m_ShaderTagValues[0] = s_ShaderTagLit;
m_ShaderTagValues[1] = s_ShaderTagSimpleLit;
m_ShaderTagValues[2] = s_ShaderTagUnlit;
m_ShaderTagValues[3] = new ShaderTagId(); // Special catch all case for materials where UniversalMaterialType is not defined or the tag value doesn't match anything we know.
m_RenderStateBlocks = new RenderStateBlock[4];
m_RenderStateBlocks[0] = DeferredLights.OverwriteStencil(m_RenderStateBlock, (int)StencilUsage.MaterialMask, (int)StencilUsage.MaterialLit);
m_RenderStateBlocks[1] = DeferredLights.OverwriteStencil(m_RenderStateBlock, (int)StencilUsage.MaterialMask, (int)StencilUsage.MaterialSimpleLit);
m_RenderStateBlocks[2] = DeferredLights.OverwriteStencil(m_RenderStateBlock, (int)StencilUsage.MaterialMask, (int)StencilUsage.MaterialUnlit);
m_RenderStateBlocks[3] = m_RenderStateBlocks[0];
}
public override void Configure(CommandBuffer cmd, RenderTextureDescriptor cameraTextureDescriptor)
{
RenderTargetHandle[] gbufferAttachments = m_DeferredLights.GbufferAttachments;
if (cmd != null)
{
// Create and declare the render targets used in the pass
for (int i = 0; i < gbufferAttachments.Length; ++i)
{
// Lighting buffer has already been declared with line ConfigureCameraTarget(m_ActiveCameraColorAttachment.Identifier(), ...) in DeferredRenderer.Setup
if (i == m_DeferredLights.GBufferLightingIndex)
continue;
// Normal buffer may have already been created if there was a depthNormal prepass before.
// DepthNormal prepass is needed for forward-only materials when SSAO is generated between gbuffer and deferred lighting pass.
if (i == m_DeferredLights.GBufferNormalSmoothnessIndex && m_DeferredLights.HasNormalPrepass)
{
if (m_DeferredLights.UseRenderPass)
m_DeferredLights.DeferredInputIsTransient[i] = false;
continue;
}
// No need to setup temporaryRTs if we are using input attachments as they will be Memoryless
if (m_DeferredLights.UseRenderPass && i != m_DeferredLights.GBufferShadowMask && i != m_DeferredLights.GBufferRenderingLayers && (i != m_DeferredLights.GbufferDepthIndex && !m_DeferredLights.HasDepthPrepass))
continue;
RenderTextureDescriptor gbufferSlice = cameraTextureDescriptor;
gbufferSlice.depthBufferBits = 0; // make sure no depth surface is actually created
gbufferSlice.stencilFormat = GraphicsFormat.None;
gbufferSlice.graphicsFormat = m_DeferredLights.GetGBufferFormat(i);
cmd.GetTemporaryRT(m_DeferredLights.GbufferAttachments[i].id, gbufferSlice);
}
}
ConfigureTarget(m_DeferredLights.GbufferAttachmentIdentifiers, m_DeferredLights.DepthAttachmentIdentifier, m_DeferredLights.GbufferFormats);
// We must explicitely specify we don't want any clear to avoid unwanted side-effects.
// ScriptableRenderer will implicitely force a clear the first time the camera color/depth targets are bound.
ConfigureClear(ClearFlag.None, Color.black);
}
public override void Execute(ScriptableRenderContext context, ref RenderingData renderingData)
{
CommandBuffer gbufferCommands = CommandBufferPool.Get();
using (new ProfilingScope(gbufferCommands, m_ProfilingSampler))
{
context.ExecuteCommandBuffer(gbufferCommands);
gbufferCommands.Clear();
// User can stack several scriptable renderers during rendering but deferred renderer should only lit pixels added by this gbuffer pass.
// If we detect we are in such case (camera is in overlay mode), we clear the highest bits of stencil we have control of and use them to
// mark what pixel to shade during deferred pass. Gbuffer will always mark pixels using their material types.
if (m_DeferredLights.IsOverlay)
{
m_DeferredLights.ClearStencilPartial(gbufferCommands);
context.ExecuteCommandBuffer(gbufferCommands);
gbufferCommands.Clear();
}
ref CameraData cameraData = ref renderingData.cameraData;
Camera camera = cameraData.camera;
ShaderTagId lightModeTag = s_ShaderTagUniversalGBuffer;
DrawingSettings drawingSettings = CreateDrawingSettings(lightModeTag, ref renderingData, renderingData.cameraData.defaultOpaqueSortFlags);
ShaderTagId universalMaterialTypeTag = s_ShaderTagUniversalMaterialType;
NativeArray<ShaderTagId> tagValues = new NativeArray<ShaderTagId>(m_ShaderTagValues, Allocator.Temp);
NativeArray<RenderStateBlock> stateBlocks = new NativeArray<RenderStateBlock>(m_RenderStateBlocks, Allocator.Temp);
context.DrawRenderers(renderingData.cullResults, ref drawingSettings, ref m_FilteringSettings, universalMaterialTypeTag, false, tagValues, stateBlocks);
tagValues.Dispose();
stateBlocks.Dispose();
// Render objects that did not match any shader pass with error shader
RenderingUtils.RenderObjectsWithError(context, ref renderingData.cullResults, camera, m_FilteringSettings, SortingCriteria.None);
// If any sub-system needs camera normal texture, make it available.
gbufferCommands.SetGlobalTexture(s_CameraNormalsTextureID, m_DeferredLights.GbufferAttachmentIdentifiers[m_DeferredLights.GBufferNormalSmoothnessIndex]);
}
context.ExecuteCommandBuffer(gbufferCommands);
CommandBufferPool.Release(gbufferCommands);
}
public override void OnCameraCleanup(CommandBuffer cmd)
{
RenderTargetHandle[] gbufferAttachments = m_DeferredLights.GbufferAttachments;
for (int i = 0; i < gbufferAttachments.Length; ++i)
{
if (i == m_DeferredLights.GBufferLightingIndex)
continue;
if (i == m_DeferredLights.GBufferNormalSmoothnessIndex && m_DeferredLights.HasNormalPrepass)
continue;
cmd.ReleaseTemporaryRT(gbufferAttachments[i].id);
}
}
}
}