167 lines
6.5 KiB
C#
167 lines
6.5 KiB
C#
using System;
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namespace UnityEngine.Rendering.PostProcessing
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{
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// Scalable ambient obscurance
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[UnityEngine.Scripting.Preserve]
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[Serializable]
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internal sealed class ScalableAO : IAmbientOcclusionMethod
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{
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RenderTexture m_Result;
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PropertySheet m_PropertySheet;
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AmbientOcclusion m_Settings;
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readonly RenderTargetIdentifier[] m_MRT =
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{
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BuiltinRenderTextureType.GBuffer0, // Albedo, Occ
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BuiltinRenderTextureType.CameraTarget // Ambient
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};
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readonly int[] m_SampleCount = { 4, 6, 10, 8, 12 };
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enum Pass
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{
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OcclusionEstimationForward,
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OcclusionEstimationDeferred,
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HorizontalBlurForward,
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HorizontalBlurDeferred,
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VerticalBlur,
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CompositionForward,
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CompositionDeferred,
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DebugOverlay
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}
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public ScalableAO(AmbientOcclusion settings)
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{
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m_Settings = settings;
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}
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public DepthTextureMode GetCameraFlags()
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{
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return DepthTextureMode.Depth | DepthTextureMode.DepthNormals;
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}
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void DoLazyInitialization(PostProcessRenderContext context)
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{
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m_PropertySheet = context.propertySheets.Get(context.resources.shaders.scalableAO);
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bool reset = false;
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if (m_Result == null || !m_Result.IsCreated())
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{
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// Initial allocation
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m_Result = context.GetScreenSpaceTemporaryRT(0, RenderTextureFormat.ARGB32, RenderTextureReadWrite.Linear);
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m_Result.hideFlags = HideFlags.DontSave;
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m_Result.filterMode = FilterMode.Bilinear;
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reset = true;
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}
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else if (m_Result.width != context.width || m_Result.height != context.height)
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{
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// Release and reallocate
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m_Result.Release();
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m_Result.width = context.width;
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m_Result.height = context.height;
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reset = true;
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}
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if (reset)
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m_Result.Create();
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}
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void Render(PostProcessRenderContext context, CommandBuffer cmd, int occlusionSource)
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{
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DoLazyInitialization(context);
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m_Settings.radius.value = Mathf.Max(m_Settings.radius.value, 1e-4f);
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// Material setup
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// Always use a quater-res AO buffer unless High/Ultra quality is set.
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bool downsampling = (int)m_Settings.quality.value < (int)AmbientOcclusionQuality.High;
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float px = m_Settings.intensity.value;
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float py = m_Settings.radius.value;
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float pz = downsampling ? 0.5f : 1f;
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float pw = m_SampleCount[(int)m_Settings.quality.value];
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var sheet = m_PropertySheet;
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sheet.ClearKeywords();
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sheet.properties.SetVector(ShaderIDs.AOParams, new Vector4(px, py, pz, pw));
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sheet.properties.SetVector(ShaderIDs.AOColor, Color.white - m_Settings.color.value);
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// In forward fog is applied at the object level in the grometry pass so we need to
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// apply it to AO as well or it'll drawn on top of the fog effect.
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// Not needed in Deferred.
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if (context.camera.actualRenderingPath == RenderingPath.Forward && RenderSettings.fog)
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{
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sheet.EnableKeyword("APPLY_FORWARD_FOG");
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sheet.properties.SetVector(
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ShaderIDs.FogParams,
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new Vector3(RenderSettings.fogDensity, RenderSettings.fogStartDistance, RenderSettings.fogEndDistance)
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);
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}
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// Texture setup
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int ts = downsampling ? 2 : 1;
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const RenderTextureFormat kFormat = RenderTextureFormat.ARGB32;
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const RenderTextureReadWrite kRWMode = RenderTextureReadWrite.Linear;
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const FilterMode kFilter = FilterMode.Bilinear;
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// AO buffer
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var rtMask = ShaderIDs.OcclusionTexture1;
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int scaledWidth = context.width / ts;
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int scaledHeight = context.height / ts;
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context.GetScreenSpaceTemporaryRT(cmd, rtMask, 0, kFormat, kRWMode, kFilter, scaledWidth, scaledHeight);
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// AO estimation
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cmd.BlitFullscreenTriangle(BuiltinRenderTextureType.None, rtMask, sheet, (int)Pass.OcclusionEstimationForward + occlusionSource);
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// Blur buffer
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var rtBlur = ShaderIDs.OcclusionTexture2;
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context.GetScreenSpaceTemporaryRT(cmd, rtBlur, 0, kFormat, kRWMode, kFilter);
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// Separable blur (horizontal pass)
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cmd.BlitFullscreenTriangle(rtMask, rtBlur, sheet, (int)Pass.HorizontalBlurForward + occlusionSource);
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cmd.ReleaseTemporaryRT(rtMask);
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// Separable blur (vertical pass)
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cmd.BlitFullscreenTriangle(rtBlur, m_Result, sheet, (int)Pass.VerticalBlur);
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cmd.ReleaseTemporaryRT(rtBlur);
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if (context.IsDebugOverlayEnabled(DebugOverlay.AmbientOcclusion))
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context.PushDebugOverlay(cmd, m_Result, sheet, (int)Pass.DebugOverlay);
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}
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public void RenderAfterOpaque(PostProcessRenderContext context)
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{
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var cmd = context.command;
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cmd.BeginSample("Ambient Occlusion");
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Render(context, cmd, 0);
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cmd.SetGlobalTexture(ShaderIDs.SAOcclusionTexture, m_Result);
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cmd.BlitFullscreenTriangle(BuiltinRenderTextureType.None, BuiltinRenderTextureType.CameraTarget, m_PropertySheet, (int)Pass.CompositionForward, RenderBufferLoadAction.Load);
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cmd.EndSample("Ambient Occlusion");
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}
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public void RenderAmbientOnly(PostProcessRenderContext context)
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{
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var cmd = context.command;
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cmd.BeginSample("Ambient Occlusion Render");
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Render(context, cmd, 1);
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cmd.EndSample("Ambient Occlusion Render");
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}
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public void CompositeAmbientOnly(PostProcessRenderContext context)
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{
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var cmd = context.command;
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cmd.BeginSample("Ambient Occlusion Composite");
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cmd.SetGlobalTexture(ShaderIDs.SAOcclusionTexture, m_Result);
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cmd.BlitFullscreenTriangle(BuiltinRenderTextureType.None, m_MRT, BuiltinRenderTextureType.CameraTarget, m_PropertySheet, (int)Pass.CompositionDeferred);
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cmd.EndSample("Ambient Occlusion Composite");
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}
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public void Release()
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{
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RuntimeUtilities.Destroy(m_Result);
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m_Result = null;
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}
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}
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}
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