UnrealEngineUWP/Engine/Source/Runtime/Renderer/Private/DistanceFieldVisualization.cpp

// Copyright Epic Games, Inc. All Rights Reserved.

/*=============================================================================
	DistanceFieldVisualization.cpp
=============================================================================*/

#include "DistanceFieldAmbientOcclusion.h"
#include "DeferredShadingRenderer.h"
#include "PostProcess/PostProcessing.h"
#include "PostProcess/SceneFilterRendering.h"
#include "DistanceFieldLightingShared.h"
#include "ScreenRendering.h"
#include "DistanceFieldLightingPost.h"
#include "OneColorShader.h"
#include "GlobalDistanceField.h"
#include "FXSystem.h"
#include "PostProcess/PostProcessSubsurface.h"
#include "PipelineStateCache.h"

class FVisualizeMeshDistanceFieldCS : public FGlobalShader
{
public:
	DECLARE_GLOBAL_SHADER(FVisualizeMeshDistanceFieldCS);
	SHADER_USE_PARAMETER_STRUCT(FVisualizeMeshDistanceFieldCS, FGlobalShader);

	class FUseGlobalDistanceFieldDim : SHADER_PERMUTATION_BOOL("USE_GLOBAL_DISTANCE_FIELD");
	class FCoverageBasedExpand : SHADER_PERMUTATION_BOOL("GLOBALSDF_USE_COVERAGE_BASED_EXPAND");
	using FPermutationDomain = TShaderPermutationDomain<FUseGlobalDistanceFieldDim, FCoverageBasedExpand>;

	BEGIN_SHADER_PARAMETER_STRUCT(FParameters, )
		SHADER_PARAMETER_STRUCT_REF(FViewUniformShaderParameters, View)
		SHADER_PARAMETER_RDG_UNIFORM_BUFFER(FForwardLightData, ForwardLightData)
		SHADER_PARAMETER_STRUCT_REF(FReflectionUniformParameters, ReflectionStruct)
		SHADER_PARAMETER_STRUCT_INCLUDE(FDistanceFieldObjectBufferParameters, DistanceFieldObjectBuffers)
		SHADER_PARAMETER_STRUCT_INCLUDE(FDistanceFieldCulledObjectBufferParameters, DistanceFieldCulledObjectBuffers)
		SHADER_PARAMETER_STRUCT_INCLUDE(FDistanceFieldAtlasParameters, DistanceFieldAtlas)
		SHADER_PARAMETER_STRUCT_INCLUDE(FAOParameters, AOParameters)
		SHADER_PARAMETER_STRUCT_INCLUDE(FGlobalDistanceFieldParameters2, GlobalDistanceFieldParameters)
		SHADER_PARAMETER_RDG_UNIFORM_BUFFER(FSceneTextureUniformParameters, SceneTextures)
		SHADER_PARAMETER_RDG_TEXTURE_UAV(RWTexture2D<float4>, RWVisualizeMeshDistanceFields)
		SHADER_PARAMETER(FVector2f, NumGroups)
	END_SHADER_PARAMETER_STRUCT()

	static bool ShouldCompilePermutation(const FGlobalShaderPermutationParameters& Parameters)
	{
		return ShouldCompileDistanceFieldShaders(Parameters.Platform);
	}

	static void ModifyCompilationEnvironment(const FGlobalShaderPermutationParameters& Parameters, FShaderCompilerEnvironment& OutEnvironment)
	{
		OutEnvironment.SetDefine(TEXT("DOWNSAMPLE_FACTOR"), GAODownsampleFactor);
		OutEnvironment.SetDefine(TEXT("THREADGROUP_SIZEX"), GDistanceFieldAOTileSizeX);
		OutEnvironment.SetDefine(TEXT("THREADGROUP_SIZEY"), GDistanceFieldAOTileSizeY);
	}
};

IMPLEMENT_GLOBAL_SHADER(FVisualizeMeshDistanceFieldCS, "/Engine/Private/DistanceFieldVisualization.usf", "VisualizeMeshDistanceFieldCS", SF_Compute);

class FVisualizeDistanceFieldUpsamplePS : public FGlobalShader
{
public:
	DECLARE_GLOBAL_SHADER(FVisualizeDistanceFieldUpsamplePS);
	SHADER_USE_PARAMETER_STRUCT(FVisualizeDistanceFieldUpsamplePS, FGlobalShader);
	
	BEGIN_SHADER_PARAMETER_STRUCT(FParameters, )
		SHADER_PARAMETER_STRUCT_REF(FViewUniformShaderParameters, View)
		SHADER_PARAMETER_RDG_UNIFORM_BUFFER(FSceneTextureUniformParameters, SceneTextures)	
		SHADER_PARAMETER_RDG_TEXTURE(Texture2D, VisualizeDistanceFieldTexture)
		SHADER_PARAMETER_SAMPLER(SamplerState, VisualizeDistanceFieldSampler)
		RENDER_TARGET_BINDING_SLOTS()
	END_SHADER_PARAMETER_STRUCT()

	static bool ShouldCompilePermutation(const FGlobalShaderPermutationParameters& Parameters)
	{
		return ShouldCompileDistanceFieldShaders(Parameters.Platform);
	}

	static void ModifyCompilationEnvironment(const FGlobalShaderPermutationParameters& Parameters, FShaderCompilerEnvironment& OutEnvironment)
	{
		OutEnvironment.SetDefine(TEXT("DOWNSAMPLE_FACTOR"), GAODownsampleFactor);
	}
};

IMPLEMENT_GLOBAL_SHADER(FVisualizeDistanceFieldUpsamplePS, "/Engine/Private/DistanceFieldVisualization.usf", "VisualizeDistanceFieldUpsamplePS", SF_Pixel);

void FDeferredShadingSceneRenderer::RenderMeshDistanceFieldVisualization(
	FRDGBuilder& GraphBuilder,
	const FMinimalSceneTextures& SceneTextures,
	const FDistanceFieldAOParameters& Parameters)
{
	const FViewInfo& FirstView = Views[0];

	const bool bAnyMeshSDFs = Scene->DistanceFieldSceneData.NumObjectsInBuffer > 0;
	const bool bAnyHeightFields = Scene->DistanceFieldSceneData.HeightfieldPrimitives.Num() > 0;

	const bool bVisualizeGlobalDistanceField = FirstView.Family->EngineShowFlags.VisualizeGlobalDistanceField 
		&& ShouldPrepareGlobalDistanceField() 
		&& UseGlobalDistanceField(Parameters) 
		&& (bAnyMeshSDFs || bAnyHeightFields);

	const bool bVisualizeMeshDistanceFields = FirstView.Family->EngineShowFlags.VisualizeMeshDistanceFields && bAnyMeshSDFs;

	if (FeatureLevel < ERHIFeatureLevel::SM5
		|| !DoesPlatformSupportDistanceFields(FirstView.GetShaderPlatform())
		|| !(bVisualizeGlobalDistanceField || bVisualizeMeshDistanceFields))
	{
		return;
	}

	check(!Scene->DistanceFieldSceneData.HasPendingOperations());

	QUICK_SCOPE_CYCLE_COUNTER(STAT_AOIssueGPUWork);

	RDG_EVENT_SCOPE(GraphBuilder, "VisualizeMeshDistanceFields");

	FRDGTextureRef VisualizeResultTexture = nullptr;
	{
		const FIntPoint BufferSize = GetBufferSizeForAO();
		const FRDGTextureDesc Desc(FRDGTextureDesc::Create2D(BufferSize, PF_FloatRGBA, FClearValueBinding::None, TexCreate_UAV));
		VisualizeResultTexture = GraphBuilder.CreateTexture(Desc, TEXT("VisualizeDistanceField"));
	}

	FVisualizeMeshDistanceFieldCS::FPermutationDomain PermutationVector;
	PermutationVector.Set<FVisualizeMeshDistanceFieldCS::FUseGlobalDistanceFieldDim>(bVisualizeGlobalDistanceField);
	PermutationVector.Set<FVisualizeMeshDistanceFieldCS::FCoverageBasedExpand>(IsLumenEnabled(FirstView));
	TShaderMapRef<FVisualizeMeshDistanceFieldCS> ComputeShader(FirstView.ShaderMap, PermutationVector);

	for (const FViewInfo& View : Views)
	{
		FRDGBufferRef ObjectIndirectArguments = nullptr;
		FDistanceFieldCulledObjectBufferParameters CulledObjectBufferParameters;

		if (bVisualizeGlobalDistanceField)
		{
			check(View.GlobalDistanceFieldInfo.Clipmaps.Num() > 0);
		}
		else
		{
			AllocateDistanceFieldCulledObjectBuffers(
				GraphBuilder,
				FMath::DivideAndRoundUp(Scene->DistanceFieldSceneData.NumObjectsInBuffer, 256) * 256,
				ObjectIndirectArguments,
				CulledObjectBufferParameters);

			CullObjectsToView(GraphBuilder, Scene, View, Parameters, CulledObjectBufferParameters);
		}

		uint32 GroupSizeX = FMath::DivideAndRoundUp(View.ViewRect.Size().X / GAODownsampleFactor, GDistanceFieldAOTileSizeX);
		uint32 GroupSizeY = FMath::DivideAndRoundUp(View.ViewRect.Size().Y / GAODownsampleFactor, GDistanceFieldAOTileSizeY);

		RDG_GPU_MASK_SCOPE(GraphBuilder, View.GPUMask);

		auto* PassParameters = GraphBuilder.AllocParameters<FVisualizeMeshDistanceFieldCS::FParameters>();
		PassParameters->View = View.ViewUniformBuffer;
		PassParameters->ForwardLightData = View.ForwardLightingResources.ForwardLightUniformBuffer;
		PassParameters->ReflectionStruct = CreateReflectionUniformBuffer(View, UniformBuffer_MultiFrame);
		PassParameters->DistanceFieldObjectBuffers = DistanceField::SetupObjectBufferParameters(Scene->DistanceFieldSceneData);
		PassParameters->DistanceFieldCulledObjectBuffers = CulledObjectBufferParameters;
		PassParameters->DistanceFieldAtlas = DistanceField::SetupAtlasParameters(Scene->DistanceFieldSceneData);
		PassParameters->AOParameters = DistanceField::SetupAOShaderParameters(Parameters);
		PassParameters->GlobalDistanceFieldParameters = SetupGlobalDistanceFieldParameters(View.GlobalDistanceFieldInfo.ParameterData);
		PassParameters->NumGroups = FVector2f(GroupSizeX, GroupSizeY);
		PassParameters->SceneTextures = SceneTextures.UniformBuffer;
		PassParameters->RWVisualizeMeshDistanceFields = GraphBuilder.CreateUAV(VisualizeResultTexture);

		FComputeShaderUtils::AddPass(GraphBuilder, RDG_EVENT_NAME("VisualizeMeshDistanceFieldCS"), ComputeShader, PassParameters, FIntVector(GroupSizeX, GroupSizeY, 1));
	}

	TShaderMapRef<FVisualizeDistanceFieldUpsamplePS> PixelShader(FirstView.ShaderMap);

	for (const FViewInfo& View : Views)
	{
		auto* PassParameters = GraphBuilder.AllocParameters<FVisualizeDistanceFieldUpsamplePS::FParameters>();
		PassParameters->View = View.ViewUniformBuffer;
		PassParameters->SceneTextures = SceneTextures.UniformBuffer;
		PassParameters->VisualizeDistanceFieldTexture = VisualizeResultTexture;
		PassParameters->VisualizeDistanceFieldSampler = TStaticSamplerState<SF_Bilinear>::GetRHI();
		PassParameters->RenderTargets[0] = FRenderTargetBinding(SceneTextures.Color.Target, ERenderTargetLoadAction::ELoad);
		PassParameters->RenderTargets.DepthStencil = FDepthStencilBinding(SceneTextures.Depth.Target, ERenderTargetLoadAction::ELoad, ERenderTargetLoadAction::ELoad, FExclusiveDepthStencil::DepthRead_StencilRead);

		const FScreenPassTextureViewport InputViewport(VisualizeResultTexture, GetDownscaledRect(View.ViewRect, GAODownsampleFactor));
		const FScreenPassTextureViewport OutputViewport(SceneTextures.Color.Target, View.ViewRect);

		AddDrawScreenPass(GraphBuilder, {}, View, OutputViewport, InputViewport, PixelShader, PassParameters);
	}
}