void FRCPassPostProcessLensBlur::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PassPostProcessLensBlur);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
FIntPoint TexSize = InputDesc->Extent;
// usually 1, 2, 4 or 8
uint32 ScaleToFullRes = GSceneRenderTargets.GetBufferSizeXY().X / TexSize.X;
FIntRect ViewRect = FIntRect::DivideAndRoundUp(View.ViewRect, ScaleToFullRes);
FIntPoint ViewSize = ViewRect.Size();
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef(), ESimpleRenderTargetMode::EClearColorToBlack);
Context.SetViewportAndCallRHI(ViewRect);
// set the state (additive blending)
Context.RHICmdList.SetBlendState(TStaticBlendState<CW_RGB, BO_Add, BF_One, BF_One>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessLensBlurVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessLensBlurPS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GEmptyVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
uint32 TileSize = 1;
FIntPoint TileCount = ViewSize / TileSize;
float PixelKernelSize = PercentKernelSize / 100.0f * ViewSize.X;
VertexShader->SetParameters(Context, TileCount, TileSize, PixelKernelSize, Threshold);
PixelShader->SetParameters(Context, PixelKernelSize);
Context.RHICmdList.SetStreamSource(0, NULL, 0, 0);
// needs to be the same on shader side (faster on NVIDIA and AMD)
int32 QuadsPerInstance = 4;
Context.RHICmdList.DrawPrimitive(PT_TriangleList, 0, 2, FMath::DivideAndRoundUp(TileCount.X * TileCount.Y, QuadsPerInstance));
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessMorpheus::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PostProcessMorpheus);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntRect SrcRect = View.ViewRect;
FIntRect DestRect = View.UnscaledViewRect;
FIntPoint SrcSize = InputDesc->Extent;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(DestRect);
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessMorpheusVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessMorpheusPS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
FMatrix QuadTexTransform;
FMatrix QuadPosTransform = FMatrix::Identity;
PixelShader->SetPS(Context, SrcRect, SrcSize, View.StereoPass, QuadTexTransform);
// Draw a quad mapping scene color to the view's render target
DrawTransformedRectangle(
Context.RHICmdList,
0, 0,
DestRect.Width(), DestRect.Height(),
QuadPosTransform,
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width(), SrcRect.Height(),
QuadTexTransform,
DestRect.Size(),
SrcSize
);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessVisualizeBloomOverlay::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, VisualizeBloomOverlay);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
check(InputDesc && "Input is not hooked up correctly");
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntPoint SrcSize = InputDesc->Extent;
FIntPoint DestSize = PassOutputs[0].RenderTargetDesc.Extent;
// e.g. 4 means the input texture is 4x smaller than the buffer size
uint32 ScaleFactor = GSceneRenderTargets.GetBufferSizeXY().X / SrcSize.X;
FIntRect SrcRect = View.ViewRect / ScaleFactor;
FIntRect DestRect = SrcRect;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
// is optimized away if possible (RT size=view size, )
Context.RHICmdList.Clear(true, FLinearColor(0, 0, 0, 0), false, 1.0f, false, 0, DestRect);
Context.SetViewportAndCallRHI(0, 0, 0.0f, DestRect.Width(), DestRect.Height(), 1.0f );
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessVisualizeBloomOverlayPS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
VertexShader->SetParameters(Context);
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
DestRect.Min.X, DestRect.Min.Y,
DestRect.Width(), DestRect.Height(),
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width(), SrcRect.Height(),
DestRect.Size(),
SrcSize,
*VertexShader,
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessHistogramReduce::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PostProcessHistogramReduce);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntPoint SrcSize = InputDesc->Extent;
FIntPoint DestSize = PassOutputs[0].RenderTargetDesc.Extent;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessHistogramReducePS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
// we currently assume the input is half res, one full res pixel less to avoid getting bilinear filtered input
FIntPoint GatherExtent = (View.ViewRect.Size() - FIntPoint(1, 1)) / 2;
uint32 LoopSizeValue = ComputeLoopSize(GatherExtent);
PixelShader->SetPS(Context, LoopSizeValue);
DrawPostProcessPass(
Context.RHICmdList,
0, 0,
DestSize.X, DestSize.Y,
0, 0,
SrcSize.X, 0,
DestSize,
SrcSize,
*VertexShader,
View.StereoPass,
Context.HasHmdMesh(),
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
static void SetMotionBlurShaderNewTempl(const FRenderingCompositePassContext& Context)
{
TShaderMapRef< FPostProcessVS > VertexShader( Context.GetShaderMap() );
TShaderMapRef< FPostProcessMotionBlurNewPS< Quality > > PixelShader( Context.GetShaderMap() );
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
VertexShader->SetParameters(Context);
PixelShader->SetParameters(Context);
}
void FRCPassPostProcessVisualizeComplexity::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PostProcessVisualizeComplexity);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntRect SrcRect = View.ViewRect;
FIntRect DestRect = View.UnscaledViewRect;
FIntPoint SrcSize = InputDesc->Extent;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(DestRect);
// turn off culling and blending
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<FM_Solid, CM_None>::GetRHI());
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
// turn off depth reads/writes
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
//reuse this generic vertex shader
TShaderMapRef<FShaderComplexityApplyVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FShaderComplexityApplyPS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState ShaderComplexityBoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), ShaderComplexityBoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context, Colors);
DrawRectangle(
Context.RHICmdList,
0, 0,
DestRect.Width(), DestRect.Height(),
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width(), SrcRect.Height(),
DestRect.Size(),
SrcSize,
*VertexShader,
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void SetSubsurfaceSetupShader(const FRenderingCompositePassContext& Context)
{
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessSubsurfaceSetupPS<HalfRes> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
VertexShader->SetParameters(Context);
}
static void SetSelectionOutlineShaderTempl(const FRenderingCompositePassContext& Context)
{
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessSelectionOutlinePS<MSAASampleCount> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetPS(Context);
}
void FRCPassPostProcessBokehDOFRecombine::SetShader(const FRenderingCompositePassContext& Context)
{
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessBokehDOFRecombinePS<Method> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
VertexShader->SetParameters(Context);
}
void SetNoiseBlurShader(const FRenderingCompositePassContext& Context, float InRadius)
{
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessNoiseBlurPS<Method> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context, InRadius);
VertexShader->SetParameters(Context);
}
void FRCPassPostProcessSceneColorFringe::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, SceneColorFringe);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(View.ViewRect);
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessSceneColorFringeVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessSceneColorFringePS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
VertexShader->SetParameters(Context);
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
0, 0,
View.ViewRect.Width(), View.ViewRect.Height(),
View.ViewRect.Min.X, View.ViewRect.Min.Y,
View.ViewRect.Width(), View.ViewRect.Height(),
View.ViewRect.Size(),
FSceneRenderTargets::Get(Context.RHICmdList).GetBufferSizeXY(),
*VertexShader,
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessHMD::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PostProcessHMD, DEC_SCENE_ITEMS);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
const FIntRect SrcRect = View.ViewRect;
const FIntRect DestRect = View.UnscaledViewRect;
const FIntPoint SrcSize = InputDesc->Extent;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(DestRect);
Context.RHICmdList.Clear(true, FLinearColor::Black, false, 1.0f, false, 0, FIntRect());
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
FMatrix QuadTexTransform = FMatrix::Identity;
FMatrix QuadPosTransform = FMatrix::Identity;
check(GEngine->HMDDevice.IsValid());
{
TShaderMapRef<FPostProcessHMDVS<false> > VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessHMDPS<false> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GDistortionVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
VertexShader->SetVS(Context, View.StereoPass);
PixelShader->SetPS(Context, SrcRect, SrcSize, View.StereoPass, QuadTexTransform);
}
GEngine->HMDDevice->DrawDistortionMesh_RenderThread(Context, View, SrcSize);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessAA::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PostProcessAA);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntRect SrcRect = View.ViewRect;
FIntRect DestRect = View.ViewRect;
FIntPoint SrcSize = InputDesc->Extent;
FIntPoint DestSize = PassOutputs[0].RenderTargetDesc.Extent;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(0, 0, 0.0f, DestSize.X, DestSize.Y, 1.0f );
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
switch(Quality)
{
case 1: SetShaderTemplAA<1>(Context); break;
case 2: SetShaderTemplAA<2>(Context); break;
case 3: SetShaderTemplAA<3>(Context); break;
case 4: SetShaderTemplAA<4>(Context); break;
case 5: SetShaderTemplAA<5>(Context); break;
default: SetShaderTemplAA<6>(Context); break;
}
// Draw a quad mapping scene color to the view's render target
TShaderMapRef<FFXAAVS> VertexShader(Context.GetShaderMap());
DrawRectangle(
Context.RHICmdList,
DestRect.Min.X, DestRect.Min.Y,
DestRect.Width(), DestRect.Height(),
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width(), SrcRect.Height(),
DestSize,
SrcSize,
*VertexShader,
EDRF_Default);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessEyeAdaptation::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PostProcessEyeAdaptation, DEC_SCENE_ITEMS);
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
IPooledRenderTarget* EyeAdaptation = Context.View.GetEyeAdaptation();
check(EyeAdaptation);
FIntPoint DestSize = EyeAdaptation->GetDesc().Extent;
// we render to our own output render target, not the intermediate one created by the compositing system
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, EyeAdaptation->GetRenderTargetItem().TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(0, 0, 0.0f, DestSize.X, DestSize.Y, 1.0f );
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessEyeAdaptationPS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetPS(Context);
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
0, 0,
DestSize.X, DestSize.Y,
0, 0,
DestSize.X, DestSize.Y,
DestSize,
DestSize,
*VertexShader,
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(EyeAdaptation->GetRenderTargetItem().TargetableTexture, EyeAdaptation->GetRenderTargetItem().ShaderResourceTexture, false, FResolveParams());
}
bool RenderPreStencil(FRenderingCompositePassContext& Context, const FMaterialShaderMap* MaterialShaderMap, const FMatrix& ComponentToWorldMatrix, const FMatrix& FrustumComponentToClip)
{
const FSceneView& View = Context.View;
float Distance = (View.ViewMatrices.ViewOrigin - ComponentToWorldMatrix.GetOrigin()).Size();
float Radius = ComponentToWorldMatrix.GetMaximumAxisScale();
// if not inside
if(Distance > Radius)
{
float EstimatedDecalSize = Radius / Distance;
float StencilSizeThreshold = CVarStencilSizeThreshold.GetValueOnRenderThread();
// Check if it's large enough on screen
if(EstimatedDecalSize < StencilSizeThreshold)
{
return false;
}
}
TShaderMapRef<FDeferredDecalVS> VertexShader(Context.GetShaderMap());
Context.RHICmdList.SetLocalBoundShaderState(Context.RHICmdList.BuildLocalBoundShaderState(GetVertexDeclarationFVector3(), VertexShader->GetVertexShader(), FHullShaderRHIRef(), FDomainShaderRHIRef(), NULL, FGeometryShaderRHIRef()));
VertexShader->SetParameters(Context.RHICmdList, View, FrustumComponentToClip);
// Set states, the state cache helps us avoiding redundant sets
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<FM_Solid, CM_None>::GetRHI());
// all the same to have DX10 working
Context.RHICmdList.SetBlendState(TStaticBlendState<
CW_NONE, BO_Add, BF_SourceAlpha, BF_InverseSourceAlpha, BO_Add, BF_Zero, BF_One, // Emissive
CW_NONE, BO_Add, BF_SourceAlpha, BF_InverseSourceAlpha, BO_Add, BF_Zero, BF_One, // Normal
CW_NONE, BO_Add, BF_SourceAlpha, BF_InverseSourceAlpha, BO_Add, BF_Zero, BF_One, // Metallic, Specular, Roughness
CW_NONE, BO_Add, BF_SourceAlpha, BF_InverseSourceAlpha, BO_Add, BF_Zero, BF_One // BaseColor
>::GetRHI() );
// Carmack's reverse on the bounds
//@todo-martinm
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<
false,CF_LessEqual,
true,CF_Equal,SO_Keep,SO_Keep,SO_Increment,
true,CF_Equal,SO_Keep,SO_Keep,SO_Decrement,
0x80,0x7f
>::GetRHI());
// Render decal mask
Context.RHICmdList.DrawIndexedPrimitive(GUnitCubeIndexBuffer.IndexBufferRHI, PT_TriangleList, 0, 0, 8, 0, GUnitCubeIndexBuffer.GetIndexCount() / 3, 1);
return true;
}
void SetSubsurfaceRecombineShader(const FRenderingCompositePassContext& Context, TShaderMapRef<FPostProcessVS> &VertexShader)
{
SCOPED_DRAW_EVENTF(Context.RHICmdList, SubsurfacePassRecombine, TEXT("SubsurfacePassRecombine%d"), RecombineMode);
TShaderMapRef<TPostProcessSubsurfaceRecombinePS<RecombineMode> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
VertexShader->SetParameters(Context);
}
void FRCPassPostProcessDownsample::SetShader(const FRenderingCompositePassContext& Context, const FPooledRenderTargetDesc* InputDesc)
{
auto ShaderMap = Context.GetShaderMap();
TShaderMapRef<FPostProcessDownsampleVS> VertexShader(ShaderMap);
TShaderMapRef<FPostProcessDownsamplePS<Method> > PixelShader(ShaderMap);
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context, InputDesc);
VertexShader->SetParameters(Context);
}
void FRCPassPostProcessHistogram::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PostProcessHistogram);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntPoint SrcSize = InputDesc->Extent;
FIntRect DestRect = View.ViewRect;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
TShaderMapRef<FPostProcessHistogramCS> ComputeShader(Context.GetShaderMap());
SetRenderTarget(Context.RHICmdList, FTextureRHIRef(), FTextureRHIRef());
Context.RHICmdList.SetComputeShader(ComputeShader->GetComputeShader());
// set destination
check(DestRenderTarget.UAV);
Context.RHICmdList.TransitionResource(EResourceTransitionAccess::ERWBarrier, EResourceTransitionPipeline::EGfxToCompute, DestRenderTarget.UAV);
Context.RHICmdList.SetUAVParameter(ComputeShader->GetComputeShader(), ComputeShader->HistogramRWTexture.GetBaseIndex(), DestRenderTarget.UAV);
FIntPoint GatherExtent = ComputeGatherExtent(View);
FIntPoint ThreadGroupCountValue = ComputeThreadGroupCount(GatherExtent);
ComputeShader->SetCS(Context.RHICmdList, Context, ThreadGroupCountValue, (DestRect.Min + FIntPoint(1, 1)) / 2, GatherExtent);
DispatchComputeShader(Context.RHICmdList, *ComputeShader, ThreadGroupCountValue.X, ThreadGroupCountValue.Y, 1);
// un-set destination
Context.RHICmdList.SetUAVParameter(ComputeShader->GetComputeShader(), ComputeShader->HistogramRWTexture.GetBaseIndex(), NULL);
Context.RHICmdList.TransitionResource(EResourceTransitionAccess::EReadable, EResourceTransitionPipeline::EComputeToGfx, DestRenderTarget.UAV);
ensureMsgf(DestRenderTarget.TargetableTexture == DestRenderTarget.ShaderResourceTexture, TEXT("%s should be resolved to a separate SRV"), *DestRenderTarget.TargetableTexture->GetName().ToString());
}
void FRCPassPostProcessVelocityFlatten::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PostProcessVelocityFlatten);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
const FSceneRenderTargetItem& DestRenderTarget0 = PassOutputs[0].RequestSurface(Context);
const FSceneRenderTargetItem& DestRenderTarget1 = PassOutputs[1].RequestSurface(Context);
//const FSceneRenderTargetItem& DestRenderTarget2 = PassOutputs[2].RequestSurface(Context);
TShaderMapRef< FPostProcessVelocityFlattenCS > ComputeShader( Context.GetShaderMap() );
Context.RHICmdList.SetComputeShader(ComputeShader->GetComputeShader());
SetRenderTarget(Context.RHICmdList, FTextureRHIRef(), FTextureRHIRef());
// set destination
Context.RHICmdList.SetUAVParameter( ComputeShader->GetComputeShader(), ComputeShader->OutVelocityFlat.GetBaseIndex(), DestRenderTarget0.UAV );
//Context.RHICmdList.SetUAVParameter( ComputeShader->GetComputeShader(), ComputeShader->OutPackedVelocityDepth.GetBaseIndex(), DestRenderTarget1.UAV );
Context.RHICmdList.SetUAVParameter( ComputeShader->GetComputeShader(), ComputeShader->OutMaxTileVelocity.GetBaseIndex(), DestRenderTarget1.UAV );
ComputeShader->SetCS(Context.RHICmdList, Context, View );
FIntPoint ThreadGroupCountValue = ComputeThreadGroupCount( View.ViewRect.Size() );
DispatchComputeShader(Context.RHICmdList, *ComputeShader, ThreadGroupCountValue.X, ThreadGroupCountValue.Y, 1);
// un-set destination
Context.RHICmdList.SetUAVParameter( ComputeShader->GetComputeShader(), ComputeShader->OutVelocityFlat.GetBaseIndex(), NULL );
//Context.RHICmdList.SetUAVParameter( ComputeShader->GetComputeShader(), ComputeShader->OutPackedVelocityDepth.GetBaseIndex(), NULL );
Context.RHICmdList.SetUAVParameter( ComputeShader->GetComputeShader(), ComputeShader->OutMaxTileVelocity.GetBaseIndex(), NULL );
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget0.TargetableTexture, DestRenderTarget0.ShaderResourceTexture, false, FResolveParams());
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget1.TargetableTexture, DestRenderTarget1.ShaderResourceTexture, false, FResolveParams());
//Context.RHICmdList.CopyToResolveTarget(DestRenderTarget1.TargetableTexture, DestRenderTarget2.ShaderResourceTexture, false, FResolveParams());
}
void SetSubsurfaceExtractSpecular(const FRenderingCompositePassContext& Context, uint32 SampleSet)
{
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
switch(SampleSet)
{
case 0:
{
TShaderMapRef<FPostProcessSubsurfaceExtractSpecularPS<RecombineMethod, 0> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
break;
}
case 1:
{
TShaderMapRef<FPostProcessSubsurfaceExtractSpecularPS<RecombineMethod, 1> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
break;
}
case 2:
{
TShaderMapRef<FPostProcessSubsurfaceExtractSpecularPS<RecombineMethod, 2> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
break;
}
default:
check(0);
}
VertexShader->SetParameters(Context);
}
void FRCPassPostProcessDOFSetup::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, DOFSetup);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
uint32 NumRenderTargets = bNearBlurEnabled ? 2 : 1;
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
const auto FeatureLevel = Context.GetFeatureLevel();
auto ShaderMap = Context.GetShaderMap();
FIntPoint SrcSize = InputDesc->Extent;
FIntPoint DestSize = PassOutputs[0].RenderTargetDesc.Extent;
// e.g. 4 means the input texture is 4x smaller than the buffer size
uint32 ScaleFactor = FSceneRenderTargets::Get(Context.RHICmdList).GetBufferSizeXY().X / SrcSize.X;
FIntRect SrcRect = View.ViewRect / ScaleFactor;
FIntRect DestRect = SrcRect / 2;
const FSceneRenderTargetItem& DestRenderTarget0 = PassOutputs[0].RequestSurface(Context);
const FSceneRenderTargetItem& DestRenderTarget1 = bNearBlurEnabled ? PassOutputs[1].RequestSurface(Context) : FSceneRenderTargetItem();
// Set the view family's render target/viewport.
FTextureRHIParamRef RenderTargets[2] =
{
DestRenderTarget0.TargetableTexture,
DestRenderTarget1.TargetableTexture
};
SetRenderTargets(Context.RHICmdList, NumRenderTargets, RenderTargets, FTextureRHIParamRef(), 0, NULL);
FLinearColor ClearColors[2] =
{
FLinearColor(0, 0, 0, 0),
FLinearColor(0, 0, 0, 0)
};
// is optimized away if possible (RT size=view size, )
Context.RHICmdList.ClearMRT(true, NumRenderTargets, ClearColors, false, 1.0f, false, 0, DestRect);
Context.SetViewportAndCallRHI(0, 0, 0.0f, DestSize.X, DestSize.Y, 1.0f );
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(ShaderMap);
if (bNearBlurEnabled)
{
static FGlobalBoundShaderState BoundShaderState;
TShaderMapRef< FPostProcessDOFSetupPS<1> > PixelShader(ShaderMap);
SetGlobalBoundShaderState(Context.RHICmdList, FeatureLevel, BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
}
else
{
static FGlobalBoundShaderState BoundShaderState;
TShaderMapRef< FPostProcessDOFSetupPS<0> > PixelShader(ShaderMap);
SetGlobalBoundShaderState(Context.RHICmdList, FeatureLevel, BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
}
VertexShader->SetParameters(Context);
DrawPostProcessPass(
Context.RHICmdList,
DestRect.Min.X, DestRect.Min.Y,
DestRect.Width() + 1, DestRect.Height() + 1,
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width() + 1, SrcRect.Height() + 1,
DestSize,
SrcSize,
*VertexShader,
View.StereoPass,
Context.HasHmdMesh(),
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget0.TargetableTexture, DestRenderTarget0.ShaderResourceTexture, false, FResolveParams());
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget1.TargetableTexture, DestRenderTarget1.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessDOFRecombine::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, DOFRecombine);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input1);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const auto FeatureLevel = Context.GetFeatureLevel();
auto ShaderMap = Context.GetShaderMap();
FIntPoint TexSize = InputDesc->Extent;
// usually 1, 2, 4 or 8
uint32 ScaleToFullRes = FSceneRenderTargets::Get(Context.RHICmdList).GetBufferSizeXY().X / TexSize.X;
FIntRect HalfResViewRect = View.ViewRect / ScaleToFullRes;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
// is optimized away if possible (RT size=view size, )
Context.RHICmdList.Clear(true, FLinearColor::Black, false, 1.0f, false, 0, View.ViewRect);
Context.SetViewportAndCallRHI(View.ViewRect);
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(ShaderMap);
if (bNearBlurEnabled)
{
static FGlobalBoundShaderState BoundShaderState;
TShaderMapRef< FPostProcessDOFRecombinePS<1> > PixelShader(ShaderMap);
SetGlobalBoundShaderState(Context.RHICmdList, FeatureLevel, BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
}
else
{
static FGlobalBoundShaderState BoundShaderState;
TShaderMapRef< FPostProcessDOFRecombinePS<0> > PixelShader(ShaderMap);
SetGlobalBoundShaderState(Context.RHICmdList, FeatureLevel, BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetParameters(Context);
}
VertexShader->SetParameters(Context);
DrawPostProcessPass(
Context.RHICmdList,
0, 0,
View.ViewRect.Width(), View.ViewRect.Height(),
HalfResViewRect.Min.X, HalfResViewRect.Min.Y,
HalfResViewRect.Width(), HalfResViewRect.Height(),
View.ViewRect.Size(),
TexSize,
*VertexShader,
View.StereoPass,
Context.HasHmdMesh(),
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessVisualizeShadingModels::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PostProcessVisualizeShadingModels);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
const FSceneView& View = Context.View;
const FViewInfo& ViewInfo = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntRect SrcRect = View.ViewRect;
FIntRect DestRect = View.ViewRect;
FIntPoint SrcSize = InputDesc->Extent;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(DestRect);
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessVisualizeShadingModelsPS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetPS(Context, ((FViewInfo&)View).ShadingModelMaskInView);
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
DestRect.Min.X, DestRect.Min.Y,
DestRect.Width(), DestRect.Height(),
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width(), SrcRect.Height(),
DestRect.Size(),
SrcSize,
*VertexShader,
EDRF_UseTriangleOptimization);
FRenderTargetTemp TempRenderTarget(View, (const FTexture2DRHIRef&)DestRenderTarget.TargetableTexture);
FCanvas Canvas(&TempRenderTarget, NULL, 0, 0, 0, Context.GetFeatureLevel());
float X = 30;
float Y = 28;
const float YStep = 14;
const float ColumnWidth = 250;
FString Line;
Canvas.DrawShadowedString( X, Y += YStep, TEXT("Visualize ShadingModels (mostly to track down bugs)"), GetStatsFont(), FLinearColor(1, 1, 1));
Y = 160 - YStep - 4;
uint32 Value = ((FViewInfo&)View).ShadingModelMaskInView;
Line = FString::Printf(TEXT("View.ShadingModelMaskInView = 0x%x"), Value);
Canvas.DrawShadowedString( X, Y, *Line, GetStatsFont(), FLinearColor(0.5f, 0.5f, 0.5f));
Y += YStep;
UEnum* Enum = FindObject<UEnum>(NULL, TEXT("Engine.EMaterialShadingModel"));
check(Enum);
Y += 5;
for(uint32 i = 0; i < MSM_MAX; ++i)
{
FString Name = Enum->GetEnumName(i);
Line = FString::Printf(TEXT("%d. %s"), i, *Name);
bool bThere = (Value & (1 << i)) != 0;
Canvas.DrawShadowedString(X + 30, Y, *Line, GetStatsFont(), bThere ? FLinearColor(1, 1, 1) : FLinearColor(0, 0, 0) );
Y += 20;
}
Line = FString::Printf(TEXT("(On CPU, based on what gets rendered)"));
Canvas.DrawShadowedString( X, Y, *Line, GetStatsFont(), FLinearColor(0.5f, 0.5f, 0.5f)); Y += YStep;
Canvas.Flush_RenderThread(Context.RHICmdList);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
// AdjustGBufferRefCount(1) call is done in constructor
FSceneRenderTargets::Get(Context.RHICmdList).AdjustGBufferRefCount(Context.RHICmdList, -1);
}
void FRCPassPostProcessTestImage::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, TestImage, DEC_SCENE_ITEMS);
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntRect SrcRect = View.ViewRect;
FIntRect DestRect = View.ViewRect;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(DestRect);
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessTestImagePS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetPS(Context);
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
0, 0,
DestRect.Width(), DestRect.Height(),
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width(), SrcRect.Height(),
DestRect.Size(),
GSceneRenderTargets.GetBufferSizeXY(),
*VertexShader,
EDRF_UseTriangleOptimization);
{
// this is a helper class for FCanvas to be able to get screen size
class FRenderTargetTemp : public FRenderTarget
{
public:
const FSceneView& View;
const FTexture2DRHIRef Texture;
FRenderTargetTemp(const FSceneView& InView, const FTexture2DRHIRef InTexture)
: View(InView), Texture(InTexture)
{
}
virtual FIntPoint GetSizeXY() const
{
return View.ViewRect.Size();
};
virtual const FTexture2DRHIRef& GetRenderTargetTexture() const
{
return Texture;
}
} TempRenderTarget(View, (const FTexture2DRHIRef&)DestRenderTarget.TargetableTexture);
FCanvas Canvas(&TempRenderTarget, NULL, ViewFamily.CurrentRealTime, ViewFamily.CurrentWorldTime, ViewFamily.DeltaWorldTime, Context.GetFeatureLevel());
float X = 30;
float Y = 8;
const float YStep = 14;
const float ColumnWidth = 250;
FString Line;
Line = FString::Printf(TEXT("Top bars:"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" Moving bars using FrameTime"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" Black and white raster, Pixel sized, Watch for Moire pattern"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" Black and white raster, 2x2 block sized"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT("Bottom bars:"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" 8 bars near white, 4 right bars should appear as one (HDTV)"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" 8 bars near black, 4 left bars should appear as one (HDTV)"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" Linear Greyscale in sRGB from 0 to 255"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT("Color bars:"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" Red, Green, Blue"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT("Outside:"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" Moving bars using FrameNumber, Tearing without VSync"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT("Circles:"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" Should be round and centered"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT("Border:"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Line = FString::Printf(TEXT(" 4 white pixel sized lines (only visible without overscan)"));
Canvas.DrawShadowedString( X, Y += YStep, *Line, GetStatsFont(), FLinearColor(1, 1, 1));
Canvas.Flush_RenderThread(Context.RHICmdList);
}
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessVisualizeBuffer::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, VisualizeBuffer);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntRect SrcRect = View.ViewRect;
FIntRect DestRect = View.ViewRect;
FIntPoint SrcSize = InputDesc->Extent;
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(DestRect);
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
{
FShader* VertexShader = SetShaderTempl<false>(Context);
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
0, 0,
DestRect.Width(), DestRect.Height(),
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width(), SrcRect.Height(),
DestRect.Size(),
SrcSize,
VertexShader,
EDRF_UseTriangleOptimization);
}
Context.RHICmdList.SetBlendState(TStaticBlendState<CW_RGB, BO_Add, BF_SourceAlpha, BF_InverseSourceAlpha>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessVisualizeBufferPS<true> > PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
PixelShader->SetPS(Context);
// Track the name and position of each tile we draw so we can write text labels over them
struct LabelRecord
{
FString Label;
int32 LocationX;
int32 LocationY;
};
TArray<LabelRecord> Labels;
const int32 MaxTilesX = 4;
const int32 MaxTilesY = 4;
const int32 TileWidth = DestRect.Width() / MaxTilesX;
const int32 TileHeight = DestRect.Height() / MaxTilesY;
int32 CurrentTileIndex = 0;
for (TArray<TileData>::TConstIterator It = Tiles.CreateConstIterator(); It; ++It, ++CurrentTileIndex)
{
FRenderingCompositeOutputRef Tile = It->Source;
if (Tile.IsValid())
{
FTextureRHIRef Texture = Tile.GetOutput()->PooledRenderTarget->GetRenderTargetItem().TargetableTexture;
int32 TileX = CurrentTileIndex % MaxTilesX;
int32 TileY = CurrentTileIndex / MaxTilesX;
PixelShader->SetSourceTexture(Context.RHICmdList, Texture);
DrawRectangle(
Context.RHICmdList,
TileX * TileWidth, TileY * TileHeight,
TileWidth, TileHeight,
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width(), SrcRect.Height(),
DestRect.Size(),
SrcSize,
*VertexShader,
EDRF_Default
);
Labels.Add(LabelRecord());
Labels.Last().Label = It->Name;
Labels.Last().LocationX = 8 + TileX * TileWidth;
Labels.Last().LocationY = (TileY + 1) * TileHeight - 19;
}
}
// Draw tile labels
// this is a helper class for FCanvas to be able to get screen size
class FRenderTargetTemp : public FRenderTarget
{
public:
const FSceneView& View;
const FTexture2DRHIRef Texture;
FRenderTargetTemp(const FSceneView& InView, const FTexture2DRHIRef InTexture)
: View(InView), Texture(InTexture)
{
}
virtual FIntPoint GetSizeXY() const
{
return View.ViewRect.Size();
};
virtual const FTexture2DRHIRef& GetRenderTargetTexture() const
{
return Texture;
}
} TempRenderTarget(View, (const FTexture2DRHIRef&)DestRenderTarget.TargetableTexture);
FCanvas Canvas(&TempRenderTarget, NULL, ViewFamily.CurrentRealTime, ViewFamily.CurrentWorldTime, ViewFamily.DeltaWorldTime, Context.GetFeatureLevel());
FLinearColor LabelColor(1, 1, 0);
for (auto It = Labels.CreateConstIterator(); It; ++It)
{
Canvas.DrawShadowedString(It->LocationX, It->LocationY, *It->Label, GetStatsFont(), LabelColor);
}
Canvas.Flush_RenderThread(Context.RHICmdList);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessScreenSpaceReflections::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, ScreenSpaceReflections, DEC_SCENE_ITEMS);
const FSceneView& View = Context.View;
const auto FeatureLevel = Context.GetFeatureLevel();
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.RHICmdList.Clear(true, FLinearColor(0, 0, 0, 0), false, 1.0f, false, 0, FIntRect());
Context.SetViewportAndCallRHI(View.ViewRect);
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
int SSRQuality = ComputeSSRQuality(View.FinalPostProcessSettings.ScreenSpaceReflectionQuality);
SSRQuality = FMath::Clamp(SSRQuality, 1, 4);
uint32 iPreFrame = bPrevFrame ? 1 : 0;
if (View.Family->EngineShowFlags.VisualizeSSR)
{
iPreFrame = 0;
SSRQuality = 0;
}
TShaderMapRef< FPostProcessVS > VertexShader(Context.GetShaderMap());
#define CASE(A, B) \
case (A + 2 * (B + 3 * 0 )): \
{ \
TShaderMapRef< FPostProcessScreenSpaceReflectionsPS<A, B> > PixelShader(Context.GetShaderMap()); \
static FGlobalBoundShaderState BoundShaderState; \
SetGlobalBoundShaderState(Context.RHICmdList, FeatureLevel, BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader); \
VertexShader->SetParameters(Context); \
PixelShader->SetParameters(Context); \
}; \
break
switch (iPreFrame + 2 * (SSRQuality + 3 * 0))
{
CASE(0,0);
CASE(0,1); CASE(1,1);
CASE(0,2); CASE(1,2);
CASE(0,3); CASE(1,3);
CASE(0,4); CASE(1,4);
default:
check(!"Missing case in FRCPassPostProcessScreenSpaceReflections");
}
#undef CASE
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
0, 0,
View.ViewRect.Width(), View.ViewRect.Height(),
View.ViewRect.Min.X, View.ViewRect.Min.Y,
View.ViewRect.Width(), View.ViewRect.Height(),
View.ViewRect.Size(),
GSceneRenderTargets.GetBufferSizeXY(),
*VertexShader,
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessPassThrough::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, PassThrough);
const FPooledRenderTargetDesc* InputDesc = GetInputDesc(ePId_Input0);
if(!InputDesc)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
FIntPoint TexSize = InputDesc->Extent;
// we assume the input and output is full resolution
FIntPoint SrcSize = InputDesc->Extent;
FIntPoint DestSize = Dest ? Dest->GetDesc().Extent : PassOutputs[0].RenderTargetDesc.Extent;
// e.g. 4 means the input texture is 4x smaller than the buffer size
uint32 InputScaleFactor = GSceneRenderTargets.GetBufferSizeXY().X / SrcSize.X;
uint32 OutputScaleFactor = GSceneRenderTargets.GetBufferSizeXY().X / DestSize.X;
FIntRect SrcRect = View.ViewRect / InputScaleFactor;
FIntRect DestRect = View.ViewRect / OutputScaleFactor;
const FSceneRenderTargetItem& DestRenderTarget = Dest ? Dest->GetRenderTargetItem() : PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
Context.SetViewportAndCallRHI(0, 0, 0.0f, DestSize.X, DestSize.Y, 1.0f);
// set the state
if(bAdditiveBlend)
{
Context.RHICmdList.SetBlendState(TStaticBlendState<CW_RGB, BO_Add, BF_One, BF_One, BO_Add, BF_One, BF_One>::GetRHI());
}
else
{
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
}
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
TShaderMapRef<FPostProcessPassThroughPS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
VertexShader->SetParameters(Context);
PixelShader->SetParameters(Context);
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
DestRect.Min.X, DestRect.Min.Y,
DestRect.Width(), DestRect.Height(),
SrcRect.Min.X, SrcRect.Min.Y,
SrcRect.Width(), SrcRect.Height(),
DestSize,
SrcSize,
*VertexShader,
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessDeferredDecals::DecodeRTWriteMask(FRenderingCompositePassContext& Context)
{
// @todo: get these values from the RHI?
const uint32 MaskTileSizeX = 8;
const uint32 MaskTileSizeY = 8;
check(GSupportsRenderTargetWriteMask);
FRHICommandListImmediate& RHICmdList = Context.RHICmdList;
FSceneRenderTargets& SceneContext = FSceneRenderTargets::Get(RHICmdList);
FTextureRHIRef DBufferTex = SceneContext.DBufferA->GetRenderTargetItem().TargetableTexture;
FIntPoint RTWriteMaskDims(
FMath::DivideAndRoundUp(DBufferTex->GetTexture2D()->GetSizeX(), MaskTileSizeX),
FMath::DivideAndRoundUp(DBufferTex->GetTexture2D()->GetSizeY(), MaskTileSizeY));
// allocate the DBufferMask from the render target pool.
FPooledRenderTargetDesc MaskDesc(FPooledRenderTargetDesc::Create2DDesc(RTWriteMaskDims,
PF_R8_UINT,
FClearValueBinding::White,
TexCreate_None,
TexCreate_UAV | TexCreate_RenderTargetable,
false));
GRenderTargetPool.FindFreeElement(Context.RHICmdList, MaskDesc, SceneContext.DBufferMask, TEXT("DBufferMask"));
FIntRect ViewRect(0, 0, DBufferTex->GetTexture2D()->GetSizeX(), DBufferTex->GetTexture2D()->GetSizeY());
TShaderMapRef< FRTWriteMaskDecodeCS > ComputeShader(Context.GetShaderMap());
SetRenderTarget(Context.RHICmdList, FTextureRHIRef(), FTextureRHIRef());
Context.SetViewportAndCallRHI(ViewRect);
Context.RHICmdList.SetComputeShader(ComputeShader->GetComputeShader());
// set destination
Context.RHICmdList.SetUAVParameter(ComputeShader->GetComputeShader(), ComputeShader->OutCombinedRTWriteMask.GetBaseIndex(), SceneContext.DBufferMask->GetRenderTargetItem().UAV);
ComputeShader->SetCS(Context.RHICmdList, Context, Context.View, RTWriteMaskDims);
RHICmdList.TransitionResource(EResourceTransitionAccess::EWritable, EResourceTransitionPipeline::EGfxToCompute, SceneContext.DBufferMask->GetRenderTargetItem().UAV);
{
SCOPED_DRAW_EVENTF(Context.RHICmdList, DeferredDecals, TEXT("Combine DBuffer RTWriteMasks"));
FIntPoint ThreadGroupCountValue(
FMath::DivideAndRoundUp((uint32)RTWriteMaskDims.X, FRTWriteMaskDecodeCS::ThreadGroupSizeX),
FMath::DivideAndRoundUp((uint32)RTWriteMaskDims.Y, FRTWriteMaskDecodeCS::ThreadGroupSizeY));
DispatchComputeShader(Context.RHICmdList, *ComputeShader, ThreadGroupCountValue.X, ThreadGroupCountValue.Y, 1);
}
// void FD3D11DynamicRHI::RHIGraphicsWaitOnAsyncComputeJob( uint32 FenceIndex )
Context.RHICmdList.FlushComputeShaderCache();
RHICmdList.TransitionResource(EResourceTransitionAccess::EReadable, EResourceTransitionPipeline::EComputeToGfx, SceneContext.DBufferMask->GetRenderTargetItem().UAV);
RHICmdList.TransitionResource(EResourceTransitionAccess::EMetaData, SceneContext.DBufferA->GetRenderTargetItem().TargetableTexture);
RHICmdList.TransitionResource(EResourceTransitionAccess::EMetaData, SceneContext.DBufferB->GetRenderTargetItem().TargetableTexture);
RHICmdList.TransitionResource(EResourceTransitionAccess::EMetaData, SceneContext.DBufferC->GetRenderTargetItem().TargetableTexture);
// un-set destination
Context.RHICmdList.SetUAVParameter(ComputeShader->GetComputeShader(), ComputeShader->OutCombinedRTWriteMask.GetBaseIndex(), NULL);
}
void FRCPassPostProcessLensFlares::Process(FRenderingCompositePassContext& Context)
{
SCOPED_DRAW_EVENT(Context.RHICmdList, LensFlares);
const FPooledRenderTargetDesc* InputDesc1 = GetInputDesc(ePId_Input0);
const FPooledRenderTargetDesc* InputDesc2 = GetInputDesc(ePId_Input1);
if(!InputDesc1 || !InputDesc2)
{
// input is not hooked up correctly
return;
}
const FSceneView& View = Context.View;
const FSceneViewFamily& ViewFamily = *(View.Family);
FIntPoint TexSize1 = InputDesc1->Extent;
FIntPoint TexSize2 = InputDesc2->Extent;
uint32 ScaleToFullRes1 = GSceneRenderTargets.GetBufferSizeXY().X / TexSize1.X;
uint32 ScaleToFullRes2 = GSceneRenderTargets.GetBufferSizeXY().X / TexSize2.X;
FIntRect ViewRect1 = FIntRect::DivideAndRoundUp(View.ViewRect, ScaleToFullRes1);
FIntRect ViewRect2 = FIntRect::DivideAndRoundUp(View.ViewRect, ScaleToFullRes2);
FIntPoint ViewSize1 = ViewRect1.Size();
FIntPoint ViewSize2 = ViewRect2.Size();
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
// is optimized away if possible (RT size=view size, )
Context.RHICmdList.Clear(true, FLinearColor::Black, false, 1.0f, false, 0, ViewRect1);
Context.SetViewportAndCallRHI(ViewRect1);
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
// setup background (bloom), can be implemented to use additive blending to avoid the read here
{
TShaderMapRef<FPostProcessLensFlareBasePS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
VertexShader->SetParameters(Context);
PixelShader->SetParameters(Context);
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
0, 0,
ViewSize1.X, ViewSize1.Y,
ViewRect1.Min.X, ViewRect1.Min.Y,
ViewSize1.X, ViewSize1.Y,
ViewSize1,
TexSize1,
*VertexShader,
EDRF_UseTriangleOptimization);
}
// additive blend
Context.RHICmdList.SetBlendState(TStaticBlendState<CW_RGB, BO_Add, BF_One, BF_One>::GetRHI());
// add lens flares on top of that
{
TShaderMapRef<FPostProcessLensFlaresPS> PixelShader(Context.GetShaderMap());
static FGlobalBoundShaderState BoundShaderState;
SetGlobalBoundShaderState(Context.RHICmdList, Context.GetFeatureLevel(), BoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *VertexShader, *PixelShader);
FVector2D TexScaleValue = FVector2D(TexSize2) / ViewSize2;
VertexShader->SetParameters(Context);
PixelShader->SetParameters(Context, TexScaleValue);
// todo: expose
const uint32 Count = 8;
// we assume the center of the view is the center of the lens (would not be correct for tiled rendering)
FVector2D Center = FVector2D(ViewSize1) * 0.5f;
FLinearColor LensFlareHDRColor = Context.View.FinalPostProcessSettings.LensFlareTint * Context.View.FinalPostProcessSettings.LensFlareIntensity;
// to get the same brightness with 4x more quads (TileSize=1 in LensBlur)
LensFlareHDRColor.R *= 0.25f;
LensFlareHDRColor.G *= 0.25f;
LensFlareHDRColor.B *= 0.25f;
for(uint32 i = 0; i < Count; ++i)
{
FLinearColor FlareColor = Context.View.FinalPostProcessSettings.LensFlareTints[i % 8];
float NormalizedAlpha = FlareColor.A;
float Alpha = NormalizedAlpha * 7.0f - 3.5f;
// scale to blur outside of the view (only if we use LensBlur)
Alpha *= SizeScale;
// set the individual flare color
SetShaderValue(Context.RHICmdList, PixelShader->GetPixelShader(), PixelShader->FlareColor, FlareColor * LensFlareHDRColor);
// Draw a quad mapping scene color to the view's render target
DrawRectangle(
Context.RHICmdList,
Center.X - 0.5f * ViewSize1.X * Alpha, Center.Y - 0.5f * ViewSize1.Y * Alpha,
ViewSize1.X * Alpha, ViewSize1.Y * Alpha,
ViewRect2.Min.X, ViewRect2.Min.Y,
ViewSize2.X, ViewSize2.Y,
ViewSize1,
TexSize2,
*VertexShader,
EDRF_Default);
}
}
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
void FRCPassPostProcessBokehDOFRecombine::Process(FRenderingCompositePassContext& Context)
{
uint32 Method = 2;
FRenderingCompositeOutputRef* Input1 = GetInput(ePId_Input1);
if(Input1 && Input1->GetPass())
{
if(GetInput(ePId_Input2)->GetPass())
{
Method = 3;
}
else
{
Method = 1;
}
}
else
{
check(GetInput(ePId_Input2)->GetPass());
}
FSceneRenderTargets& SceneContext = FSceneRenderTargets::Get(Context.RHICmdList);
FIntPoint OutScaledSize;
float OutScale;
SceneContext.GetSeparateTranslucencyDimensions(OutScaledSize, OutScale);
const bool bUseNearestDepthNeighborUpsample =
CVarSeparateTranslucencyUpsampleMode.GetValueOnRenderThread() != 0
&& FMath::Abs(OutScale - .5f) < .001f;
if (Method != 1 && bUseNearestDepthNeighborUpsample)
{
Method += 2;
}
const FSceneView& View = Context.View;
SCOPED_DRAW_EVENTF(Context.RHICmdList, BokehDOFRecombine, TEXT("BokehDOFRecombine#%d %dx%d"), Method, View.ViewRect.Width(), View.ViewRect.Height());
const FPooledRenderTargetDesc* InputDesc0 = GetInputDesc(ePId_Input0);
const FPooledRenderTargetDesc* InputDesc1 = GetInputDesc(ePId_Input1);
FIntPoint TexSize = InputDesc1 ? InputDesc1->Extent : InputDesc0->Extent;
// usually 1, 2, 4 or 8
uint32 ScaleToFullRes = FSceneRenderTargets::Get(Context.RHICmdList).GetBufferSizeXY().X / TexSize.X;
FIntRect HalfResViewRect = FIntRect::DivideAndRoundUp(View.ViewRect, ScaleToFullRes);
const FSceneRenderTargetItem& DestRenderTarget = PassOutputs[0].RequestSurface(Context);
// Set the view family's render target/viewport.
SetRenderTarget(Context.RHICmdList, DestRenderTarget.TargetableTexture, FTextureRHIRef());
// is optimized away if possible (RT size=view size, )
Context.RHICmdList.Clear(true, FLinearColor::Black, false, 1.0f, false, 0, View.ViewRect);
Context.SetViewportAndCallRHI(View.ViewRect);
// set the state
Context.RHICmdList.SetBlendState(TStaticBlendState<>::GetRHI());
Context.RHICmdList.SetRasterizerState(TStaticRasterizerState<>::GetRHI());
Context.RHICmdList.SetDepthStencilState(TStaticDepthStencilState<false, CF_Always>::GetRHI());
switch(Method)
{
case 1: SetShader<1>(Context); break;
case 2: SetShader<2>(Context); break;
case 3: SetShader<3>(Context); break;
case 4: SetShader<4>(Context); break;
case 5: SetShader<5>(Context); break;
default:
check(0);
}
TShaderMapRef<FPostProcessVS> VertexShader(Context.GetShaderMap());
DrawPostProcessPass(
Context.RHICmdList,
0, 0,
View.ViewRect.Width(), View.ViewRect.Height(),
HalfResViewRect.Min.X, HalfResViewRect.Min.Y,
HalfResViewRect.Width(), HalfResViewRect.Height(),
View.ViewRect.Size(),
TexSize,
*VertexShader,
View.StereoPass,
Context.HasHmdMesh(),
EDRF_UseTriangleOptimization);
Context.RHICmdList.CopyToResolveTarget(DestRenderTarget.TargetableTexture, DestRenderTarget.ShaderResourceTexture, false, FResolveParams());
}
