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UnityGame/Library/PackageCache/com.unity.render-pipelines.universal/Samples~/URPRenderGraphSamples/RendererList/RendererListRenderFeature.cs
cuwuvaa d8020acb77 Init commit
2024-10-27 10:53:47 +03:00

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using System.Collections.Generic;
using UnityEngine;
using UnityEngine.Rendering.RenderGraphModule;
using UnityEngine.Rendering;
using UnityEngine.Rendering.RendererUtils;
using UnityEngine.Rendering.Universal;
// This example clears the current active color texture, then renders the scene geometry associated to the m_LayerMask layer.
// Add scene geometry to your own custom layers and experiment switching the layer mask in the render feature UI.
// You can use the frame debugger to inspect the pass output.
public class RendererListRenderFeature : ScriptableRendererFeature
{
class RendererListPass : ScriptableRenderPass
{
// Layer mask used to filter objects to put in the renderer list
private LayerMask m_LayerMask;
// List of shader tags used to build the renderer list
private List<ShaderTagId> m_ShaderTagIdList = new List<ShaderTagId>();
public RendererListPass(LayerMask layerMask)
{
m_LayerMask = layerMask;
}
// This class stores the data needed by the pass, passed as parameter to the delegate function that executes the pass
private class PassData
{
public RendererListHandle rendererListHandle;
}
// Sample utility method that showcases how to create a renderer list via the RenderGraph API
private void InitRendererLists(ContextContainer frameData, ref PassData passData, RenderGraph renderGraph)
{
// Access the relevant frame data from the Universal Render Pipeline
UniversalRenderingData universalRenderingData = frameData.Get<UniversalRenderingData>();
UniversalCameraData cameraData = frameData.Get<UniversalCameraData>();
UniversalLightData lightData = frameData.Get<UniversalLightData>();
var sortFlags = cameraData.defaultOpaqueSortFlags;
RenderQueueRange renderQueueRange = RenderQueueRange.opaque;
FilteringSettings filterSettings = new FilteringSettings(renderQueueRange, m_LayerMask);
ShaderTagId[] forwardOnlyShaderTagIds = new ShaderTagId[]
{
new ShaderTagId("UniversalForwardOnly"),
new ShaderTagId("UniversalForward"),
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
};
m_ShaderTagIdList.Clear();
foreach (ShaderTagId sid in forwardOnlyShaderTagIds)
m_ShaderTagIdList.Add(sid);
DrawingSettings drawSettings = RenderingUtils.CreateDrawingSettings(m_ShaderTagIdList, universalRenderingData, cameraData, lightData, sortFlags);
var param = new RendererListParams(universalRenderingData.cullResults, drawSettings, filterSettings);
passData.rendererListHandle = renderGraph.CreateRendererList(param);
}
// This static method is used to execute the pass and passed as the RenderFunc delegate to the RenderGraph render pass
static void ExecutePass(PassData data, RasterGraphContext context)
{
context.cmd.ClearRenderTarget(RTClearFlags.Color, Color.green, 1,0);
context.cmd.DrawRendererList(data.rendererListHandle);
}
// This is where the renderGraph handle can be accessed.
// Each ScriptableRenderPass can use the RenderGraph handle to add multiple render passes to the render graph
public override void RecordRenderGraph(RenderGraph renderGraph, ContextContainer frameData)
{
string passName = "RenderList Render Pass";
// This simple pass clears the current active color texture, then renders the scene geometry associated to the m_LayerMask layer.
// Add scene geometry to your own custom layers and experiment switching the layer mask in the render feature UI.
// You can use the frame debugger to inspect the pass output
// add a raster render pass to the render graph, specifying the name and the data type that will be passed to the ExecutePass function
using (var builder = renderGraph.AddRasterRenderPass<PassData>(passName, out var passData))
{
// UniversalResourceData contains all the texture handles used by the renderer, including the active color and depth textures
// The active color and depth textures are the main color and depth buffers that the camera renders into
UniversalResourceData resourceData = frameData.Get<UniversalResourceData>();
// Fill up the passData with the data needed by the pass
InitRendererLists(frameData, ref passData, renderGraph);
// Make sure the renderer list is valid
//if (!passData.rendererListHandle.IsValid())
// return;
// We declare the RendererList we just created as an input dependency to this pass, via UseRendererList()
builder.UseRendererList(passData.rendererListHandle);
// Setup as a render target via UseTextureFragment and UseTextureFragmentDepth, which are the equivalent of using the old cmd.SetRenderTarget(color,depth)
builder.SetRenderAttachment(resourceData.activeColorTexture, 0);
builder.SetRenderAttachmentDepth(resourceData.activeDepthTexture, AccessFlags.Write);
// Assign the ExecutePass function to the render pass delegate, which will be called by the render graph when executing the pass
builder.SetRenderFunc((PassData data, RasterGraphContext context) => ExecutePass(data, context));
builder.SetRenderFunc<PassData>(ExecutePass);
}
}
}
RendererListPass m_ScriptablePass;
public LayerMask m_LayerMask;
/// <inheritdoc/>
public override void Create()
{
m_ScriptablePass = new RendererListPass(m_LayerMask);
// Configures where the render pass should be injected.
m_ScriptablePass.renderPassEvent = RenderPassEvent.AfterRenderingOpaques;
}
// Here you can inject one or multiple render passes in the renderer.
// This method is called when setting up the renderer once per-camera.
public override void AddRenderPasses(ScriptableRenderer renderer, ref RenderingData renderingData)
{
renderer.EnqueuePass(m_ScriptablePass);
}
}
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