VRTowerDef/Plugins/MetaXR/Source/OculusXRHMD/Private/OculusXRHMD_CustomPresent.cpp

658 lines
24 KiB
C++

// @lint-ignore-every LICENSELINT
// Copyright Epic Games, Inc. All Rights Reserved.
#include "OculusXRHMD_CustomPresent.h"
#if OCULUS_HMD_SUPPORTED_PLATFORMS
#include "OculusXRHMD.h"
#include "ScreenRendering.h"
#include "PipelineStateCache.h"
#include "ClearQuad.h"
#include "OculusShaders.h"
#include "CommonRenderResources.h"
#include "RHIStaticStates.h"
#if PLATFORM_ANDROID
#include "Android/AndroidJNI.h"
#include "Android/AndroidEGL.h"
#include "Android/AndroidApplication.h"
#include "Android/AndroidPlatformMisc.h"
#endif
#define VULKAN_CUBEMAP_POSITIVE_Y 2
#define VULKAN_CUBEMAP_NEGATIVE_Y 3
namespace OculusXRHMD
{
/**
* A pixel shader for rendering a textured screen element with mip maps and array slice.
*/
class FScreenPSMipLevelArray : public FGlobalShader
{
DECLARE_SHADER_TYPE(FScreenPSMipLevelArray, Global);
public:
static bool ShouldCompilePermutation(const FGlobalShaderPermutationParameters& Parameters) { return true; }
FScreenPSMipLevelArray(const ShaderMetaType::CompiledShaderInitializerType& Initializer)
: FGlobalShader(Initializer)
{
InTexture.Bind(Initializer.ParameterMap, TEXT("InTexture"), SPF_Mandatory);
InTextureSampler.Bind(Initializer.ParameterMap, TEXT("InTextureSampler"));
InMipLevelParameter.Bind(Initializer.ParameterMap, TEXT("MipLevel"));
InArraySliceParameter.Bind(Initializer.ParameterMap, TEXT("ArraySlice"));
}
FScreenPSMipLevelArray() {}
void SetParameters(FRHIBatchedShaderParameters& BatchedParameters, const FTexture* Texture, int ArraySlice, int MipLevel)
{
SetTextureParameter(BatchedParameters, InTexture, InTextureSampler, Texture);
SetShaderValue(BatchedParameters, InMipLevelParameter, MipLevel);
SetShaderValue(BatchedParameters, InArraySliceParameter, ArraySlice);
}
void SetParameters(FRHIBatchedShaderParameters& BatchedParameters, FRHISamplerState* SamplerStateRHI, FRHITexture* TextureRHI, int ArraySlice, int MipLevel)
{
SetTextureParameter(BatchedParameters, InTexture, InTextureSampler, SamplerStateRHI, TextureRHI);
SetShaderValue(BatchedParameters, InMipLevelParameter, MipLevel);
SetShaderValue(BatchedParameters, InArraySliceParameter, ArraySlice);
}
private:
LAYOUT_FIELD(FShaderResourceParameter, InTexture);
LAYOUT_FIELD(FShaderResourceParameter, InTextureSampler);
LAYOUT_FIELD(FShaderParameter, InMipLevelParameter);
LAYOUT_FIELD(FShaderParameter, InArraySliceParameter);
};
IMPLEMENT_SHADER_TYPE(, FScreenPSMipLevelArray, TEXT("/Plugin/OculusXR/Private/ScreenPixelShaderArraySlice.usf"), TEXT("MainMipLevel"), SF_Pixel);
/**
* A pixel shader for rendering a textured screen element with mip maps and array slice.
*/
class FScreenPSsRGBSourceMipLevelArray : public FGlobalShader
{
DECLARE_SHADER_TYPE(FScreenPSsRGBSourceMipLevelArray, Global);
public:
static bool ShouldCompilePermutation(const FGlobalShaderPermutationParameters& Parameters) { return true; }
FScreenPSsRGBSourceMipLevelArray(const ShaderMetaType::CompiledShaderInitializerType& Initializer)
: FGlobalShader(Initializer)
{
InTexture.Bind(Initializer.ParameterMap, TEXT("InTexture"), SPF_Mandatory);
InTextureSampler.Bind(Initializer.ParameterMap, TEXT("InTextureSampler"));
InMipLevelParameter.Bind(Initializer.ParameterMap, TEXT("MipLevel"));
InArraySliceParameter.Bind(Initializer.ParameterMap, TEXT("ArraySlice"));
}
FScreenPSsRGBSourceMipLevelArray() {}
void SetParameters(FRHIBatchedShaderParameters& BatchedParameters, const FTexture* Texture, int ArraySlice, int MipLevel)
{
SetTextureParameter(BatchedParameters, InTexture, InTextureSampler, Texture);
SetShaderValue(BatchedParameters, InMipLevelParameter, MipLevel);
SetShaderValue(BatchedParameters, InArraySliceParameter, ArraySlice);
}
void SetParameters(FRHIBatchedShaderParameters& BatchedParameters, FRHISamplerState* SamplerStateRHI, FRHITexture* TextureRHI, int ArraySlice, int MipLevel)
{
SetTextureParameter(BatchedParameters, InTexture, InTextureSampler, SamplerStateRHI, TextureRHI);
SetShaderValue(BatchedParameters, InMipLevelParameter, MipLevel);
SetShaderValue(BatchedParameters, InArraySliceParameter, ArraySlice);
}
private:
LAYOUT_FIELD(FShaderResourceParameter, InTexture);
LAYOUT_FIELD(FShaderResourceParameter, InTextureSampler);
LAYOUT_FIELD(FShaderParameter, InMipLevelParameter);
LAYOUT_FIELD(FShaderParameter, InArraySliceParameter);
};
IMPLEMENT_SHADER_TYPE(, FScreenPSsRGBSourceMipLevelArray, TEXT("/Plugin/OculusXR/Private/ScreenPixelShaderArraySlice.usf"), TEXT("MainsRGBSourceMipLevel"), SF_Pixel);
//-------------------------------------------------------------------------------------------------
// FCustomPresent
//-------------------------------------------------------------------------------------------------
FCustomPresent::FCustomPresent(class FOculusXRHMD* InOculusXRHMD, ovrpRenderAPIType InRenderAPI, EPixelFormat InDefaultPixelFormat, bool bInSupportsSRGB)
: OculusXRHMD(InOculusXRHMD)
, RenderAPI(InRenderAPI)
, DefaultPixelFormat(InDefaultPixelFormat)
, bSupportsSRGB(bInSupportsSRGB)
, bSupportsSubsampled(false)
, bIsStandaloneStereoDevice(false)
{
CheckInGameThread();
DefaultOvrpTextureFormat = GetOvrpTextureFormat(GetDefaultPixelFormat());
DefaultDepthOvrpTextureFormat = ovrpTextureFormat_None;
#if PLATFORM_ANDROID
bIsStandaloneStereoDevice = FAndroidMisc::GetDeviceMake() == FString("Oculus");
#endif
// grab a pointer to the renderer module for displaying our mirror window
static const FName RendererModuleName("Renderer");
RendererModule = FModuleManager::GetModulePtr<IRendererModule>(RendererModuleName);
}
void FCustomPresent::ReleaseResources_RHIThread()
{
CheckInRHIThread();
if (MirrorTextureRHI.IsValid())
{
FOculusXRHMDModule::GetPluginWrapper().DestroyMirrorTexture2();
MirrorTextureRHI = nullptr;
}
}
void FCustomPresent::Shutdown()
{
CheckInGameThread();
// OculusXRHMD is going away, but this object can live on until viewport is destroyed
ExecuteOnRenderThread([this]() {
ExecuteOnRHIThread([this]() {
OculusXRHMD = nullptr;
});
});
}
bool FCustomPresent::NeedsNativePresent()
{
return !bIsStandaloneStereoDevice;
}
bool FCustomPresent::Present(int32& SyncInterval)
{
CheckInRHIThread();
if (OculusXRHMD)
{
FGameFrame* Frame_RHIThread = OculusXRHMD->GetFrame_RHIThread();
if (Frame_RHIThread)
{
FinishRendering_RHIThread();
}
}
SyncInterval = 0; // VSync off
return NeedsNativePresent();
}
void FCustomPresent::UpdateMirrorTexture_RenderThread()
{
SCOPE_CYCLE_COUNTER(STAT_BeginRendering);
CheckInRenderThread();
const ESpectatorScreenMode MirrorWindowMode = OculusXRHMD->GetSpectatorScreenMode_RenderThread();
const FIntPoint MirrorWindowSize = OculusXRHMD->GetFrame_RenderThread()->WindowSize;
if (FOculusXRHMDModule::GetPluginWrapper().GetInitialized())
{
// Need to destroy mirror texture?
if (MirrorTextureRHI.IsValid())
{
const auto MirrorTextureSize = FIntPoint(MirrorTextureRHI->GetDesc().Extent.X, MirrorTextureRHI->GetDesc().Extent.Y);
if (MirrorWindowMode != ESpectatorScreenMode::Distorted || MirrorWindowSize != MirrorTextureSize)
{
ExecuteOnRHIThread([]() {
FOculusXRHMDModule::GetPluginWrapper().DestroyMirrorTexture2();
});
MirrorTextureRHI = nullptr;
}
}
// Need to create mirror texture?
if (!MirrorTextureRHI.IsValid() && MirrorWindowMode == ESpectatorScreenMode::Distorted && MirrorWindowSize.X != 0 && MirrorWindowSize.Y != 0)
{
const int Width = MirrorWindowSize.X;
const int Height = MirrorWindowSize.Y;
ovrpTextureHandle TextureHandle;
ExecuteOnRHIThread([&]() {
FOculusXRHMDModule::GetPluginWrapper().SetupMirrorTexture2(GetOvrpDevice(), Height, Width, GetDefaultOvrpTextureFormat(), &TextureHandle);
});
UE_LOG(LogHMD, Log, TEXT("Allocated a new mirror texture (size %d x %d)"), Width, Height);
ETextureCreateFlags TexCreateFlags = TexCreate_ShaderResource | TexCreate_RenderTargetable;
MirrorTextureRHI = CreateTexture_RenderThread(Width, Height, GetDefaultPixelFormat(), FClearValueBinding::None, 1, 1, 1, RRT_Texture2D, TextureHandle, TexCreateFlags)->GetTexture2D();
}
}
}
void FCustomPresent::FinishRendering_RHIThread()
{
SCOPE_CYCLE_COUNTER(STAT_FinishRendering);
CheckInRHIThread();
#if STATS
if (OculusXRHMD->GetFrame_RHIThread()->ShowFlags.Rendering)
{
ovrpAppLatencyTimings AppLatencyTimings;
if (OVRP_SUCCESS(FOculusXRHMDModule::GetPluginWrapper().GetAppLatencyTimings2(&AppLatencyTimings)))
{
SET_FLOAT_STAT(STAT_LatencyRender, AppLatencyTimings.LatencyRender * 1000.0f);
SET_FLOAT_STAT(STAT_LatencyTimewarp, AppLatencyTimings.LatencyTimewarp * 1000.0f);
SET_FLOAT_STAT(STAT_LatencyPostPresent, AppLatencyTimings.LatencyPostPresent * 1000.0f);
SET_FLOAT_STAT(STAT_ErrorRender, AppLatencyTimings.ErrorRender * 1000.0f);
SET_FLOAT_STAT(STAT_ErrorTimewarp, AppLatencyTimings.ErrorTimewarp * 1000.0f);
}
}
#endif
OculusXRHMD->FinishRHIFrame_RHIThread();
#if PLATFORM_ANDROID
float GPUFrameTime = 0.0f;
if (OVRP_SUCCESS(FOculusXRHMDModule::GetPluginWrapper().GetGPUFrameTime(&GPUFrameTime)))
{
SubmitGPUFrameTime(GPUFrameTime);
}
#endif
}
EPixelFormat FCustomPresent::GetPixelFormat(EPixelFormat Format) const
{
switch (Format)
{
// case PF_B8G8R8A8:
case PF_FloatRGBA:
case PF_FloatR11G11B10:
// case PF_R8G8B8A8:
case PF_G16:
case PF_R16F:
case PF_R32_FLOAT:
case PF_ShadowDepth:
case PF_D24:
return Format;
}
return GetDefaultPixelFormat();
}
EPixelFormat FCustomPresent::GetPixelFormat(ovrpTextureFormat Format) const
{
switch (Format)
{
// case ovrpTextureFormat_R8G8B8A8_sRGB:
// case ovrpTextureFormat_R8G8B8A8:
// return PF_R8G8B8A8;
case ovrpTextureFormat_R16G16B16A16_FP:
return PF_FloatRGBA;
case ovrpTextureFormat_R11G11B10_FP:
return PF_FloatR11G11B10;
// case ovrpTextureFormat_B8G8R8A8_sRGB:
// case ovrpTextureFormat_B8G8R8A8:
// return PF_B8G8R8A8;
case ovrpTextureFormat_R16:
return PF_G16; // G stands for grey here, not green, and is actually R16 in RHI
case ovrpTextureFormat_R16_FP:
return PF_R16F;
case ovrpTextureFormat_R32_FP:
return PF_R32_FLOAT;
case ovrpTextureFormat_D16:
return PF_ShadowDepth; // ShadowDepth maps to D16 in Vulkan
case ovrpTextureFormat_D24_S8:
return PF_D24;
}
return GetDefaultPixelFormat();
}
ovrpTextureFormat FCustomPresent::GetOvrpTextureFormat(EPixelFormat Format, bool usesRGB) const
{
switch (GetPixelFormat(Format))
{
case PF_B8G8R8A8:
return bSupportsSRGB && usesRGB ? ovrpTextureFormat_B8G8R8A8_sRGB : ovrpTextureFormat_B8G8R8A8;
case PF_FloatRGBA:
return ovrpTextureFormat_R16G16B16A16_FP;
case PF_FloatR11G11B10:
return ovrpTextureFormat_R11G11B10_FP;
case PF_R8G8B8A8:
return bSupportsSRGB && usesRGB ? ovrpTextureFormat_R8G8B8A8_sRGB : ovrpTextureFormat_R8G8B8A8;
case PF_G16:
return ovrpTextureFormat_R16;
case PF_R16F:
return ovrpTextureFormat_R16_FP;
case PF_R32_FLOAT:
return ovrpTextureFormat_R32_FP;
case PF_ShadowDepth:
return ovrpTextureFormat_D16;
case PF_D24:
return ovrpTextureFormat_D24_S8;
}
return ovrpTextureFormat_None;
}
bool FCustomPresent::IsSRGB(ovrpTextureFormat InFormat)
{
switch (InFormat)
{
case ovrpTextureFormat_B8G8R8A8_sRGB:
case ovrpTextureFormat_R8G8B8A8_sRGB:
return true;
}
return false;
}
int FCustomPresent::GetSystemRecommendedMSAALevel() const
{
int SystemRecommendedMSAALevel = 1;
FOculusXRHMDModule::GetPluginWrapper().GetSystemRecommendedMSAALevel2(&SystemRecommendedMSAALevel);
return SystemRecommendedMSAALevel;
}
FXRSwapChainPtr FCustomPresent::CreateSwapChain_RenderThread(uint32 InSizeX, uint32 InSizeY, EPixelFormat InFormat, FClearValueBinding InBinding, uint32 InNumMips, uint32 InNumSamples, uint32 InNumSamplesTileMem, ERHIResourceType InResourceType, const TArray<ovrpTextureHandle>& InTextures, ETextureCreateFlags InTexCreateFlags, const TCHAR* DebugName)
{
TArray<FTextureRHIRef> RHITextureSwapChain = CreateSwapChainTextures_RenderThread(InSizeX, InSizeY, InFormat, InBinding, InNumMips, InNumSamples, InNumSamplesTileMem, InResourceType, InTextures, InTexCreateFlags, DebugName);
FTextureRHIRef RHITexture = GDynamicRHI->RHICreateAliasedTexture(RHITextureSwapChain[0]);
return CreateXRSwapChain(MoveTemp(RHITextureSwapChain), RHITexture);
}
TArray<FTextureRHIRef> FCustomPresent::CreateSwapChainTextures_RenderThread(uint32 InSizeX, uint32 InSizeY, EPixelFormat InFormat, FClearValueBinding InBinding, uint32 InNumMips, uint32 InNumSamples, uint32 InNumSamplesTileMem, ERHIResourceType InResourceType, const TArray<ovrpTextureHandle>& InTextures, ETextureCreateFlags InTexCreateFlags, const TCHAR* DebugName)
{
CheckInRenderThread();
TArray<FTextureRHIRef> RHITextureSwapChain;
{
for (int32 TextureIndex = 0; TextureIndex < InTextures.Num(); ++TextureIndex)
{
FTextureRHIRef TexRef = CreateTexture_RenderThread(InSizeX, InSizeY, InFormat, InBinding, InNumMips, InNumSamples, InNumSamplesTileMem, InResourceType, InTextures[TextureIndex], InTexCreateFlags);
FString TexName = FString::Printf(TEXT("%s (%d/%d)"), DebugName, TextureIndex, InTextures.Num());
TexRef->SetName(*TexName);
RHIBindDebugLabelName(TexRef, *TexName);
RHITextureSwapChain.Add(TexRef);
}
}
return RHITextureSwapChain;
}
void FCustomPresent::CopyTexture_RenderThread(FRHICommandListImmediate& RHICmdList, FRHITexture* DstTexture, FRHITexture* SrcTexture,
FIntRect DstRect, FIntRect SrcRect, bool bAlphaPremultiply, bool bNoAlphaWrite, bool bInvertY, bool sRGBSource, bool bInvertAlpha) const
{
CheckInRenderThread();
FIntPoint DstSize;
FIntPoint SrcSize;
if (DstTexture->GetDesc().IsTexture2D() && SrcTexture->GetDesc().IsTexture2D())
{
DstSize = FIntPoint(DstTexture->GetSizeX(), DstTexture->GetSizeY());
SrcSize = FIntPoint(SrcTexture->GetSizeX(), SrcTexture->GetSizeY());
}
else if (DstTexture->GetDesc().IsTextureCube() && SrcTexture->GetDesc().IsTextureCube())
{
DstSize = FIntPoint(DstTexture->GetSize(), DstTexture->GetSize());
SrcSize = FIntPoint(SrcTexture->GetSize(), SrcTexture->GetSize());
}
else
{
return;
}
if (DstRect.IsEmpty())
{
DstRect = FIntRect(FIntPoint::ZeroValue, DstSize);
}
if (SrcRect.IsEmpty())
{
SrcRect = FIntRect(FIntPoint::ZeroValue, SrcSize);
}
const uint32 ViewportWidth = DstRect.Width();
const uint32 ViewportHeight = DstRect.Height();
const FIntPoint TargetSize(ViewportWidth, ViewportHeight);
float U = SrcRect.Min.X / (float)SrcSize.X;
float V = SrcRect.Min.Y / (float)SrcSize.Y;
float USize = SrcRect.Width() / (float)SrcSize.X;
float VSize = SrcRect.Height() / (float)SrcSize.Y;
#if PLATFORM_ANDROID // on android, top-left isn't 0/0 but 1/0.
if (bInvertY)
{
V = 1.0f - V;
VSize = -VSize;
}
#endif
FRHITexture* SrcTextureRHI = SrcTexture;
RHICmdList.Transition(FRHITransitionInfo(SrcTextureRHI, ERHIAccess::Unknown, ERHIAccess::SRVGraphics));
FGraphicsPipelineStateInitializer GraphicsPSOInit;
if (bInvertAlpha)
{
// write RGBA, RGB = src.rgb * 1 + dst.rgb * 0, A = src.a * 0 + dst.a * (1 - src.a)
GraphicsPSOInit.BlendState = TStaticBlendState<CW_RGBA, BO_Add, BF_One, BF_Zero, BO_Add, BF_Zero, BF_InverseSourceAlpha>::GetRHI();
}
else if (bAlphaPremultiply)
{
if (bNoAlphaWrite)
{
// for quads, write RGB, RGB = src.rgb * 1 + dst.rgb * 0
GraphicsPSOInit.BlendState = TStaticBlendState<CW_RGB, BO_Add, BF_One, BF_Zero, BO_Add, BF_One, BF_Zero>::GetRHI();
}
else
{
// for quads, write RGBA, RGB = src.rgb * src.a + dst.rgb * 0, A = src.a + dst.a * 0
GraphicsPSOInit.BlendState = TStaticBlendState<CW_RGBA, BO_Add, BF_SourceAlpha, BF_Zero, BO_Add, BF_One, BF_Zero>::GetRHI();
}
}
else
{
if (bNoAlphaWrite)
{
GraphicsPSOInit.BlendState = TStaticBlendState<CW_RGB>::GetRHI();
}
else
{
// for mirror window, write RGBA, RGB = src.rgb * src.a + dst.rgb * (1 - src.a), A = src.a * 1 + dst.a * (1 - src a)
GraphicsPSOInit.BlendState = TStaticBlendState<CW_RGBA, BO_Add, BF_SourceAlpha, BF_InverseSourceAlpha, BO_Add, BF_One, BF_InverseSourceAlpha>::GetRHI();
}
}
GraphicsPSOInit.RasterizerState = TStaticRasterizerState<>::GetRHI();
GraphicsPSOInit.DepthStencilState = TStaticDepthStencilState<false, CF_Always>::GetRHI();
GraphicsPSOInit.PrimitiveType = PT_TriangleList;
const auto FeatureLevel = OculusXRHMD->GetSettings_RenderThread()->CurrentFeatureLevel;
auto ShaderMap = GetGlobalShaderMap(FeatureLevel);
TShaderMapRef<FScreenVS> VertexShader(ShaderMap);
GraphicsPSOInit.BoundShaderState.VertexDeclarationRHI = GFilterVertexDeclaration.VertexDeclarationRHI;
GraphicsPSOInit.BoundShaderState.VertexShaderRHI = VertexShader.GetVertexShader();
if (DstTexture->GetDesc().IsTexture2D())
{
sRGBSource &= EnumHasAnyFlags(SrcTexture->GetFlags(), TexCreate_SRGB);
// Need to copy over mip maps on Android since they are not generated like they are on PC
#if PLATFORM_ANDROID
uint32 NumMips = SrcTexture->GetNumMips();
#else
uint32 NumMips = 1;
#endif
const bool bUseTexArrayShader = SrcTexture->GetDesc().IsTextureArray() && DstTexture->GetDesc().IsTextureArray();
const int32 SliceCount = bUseTexArrayShader ? FMath::Min(SrcTexture->GetDesc().ArraySize, DstTexture->GetDesc().ArraySize) : 1;
for (uint32 MipIndex = 0; MipIndex < NumMips; MipIndex++)
{
FRHIRenderPassInfo RPInfo(DstTexture, ERenderTargetActions::Load_Store);
RPInfo.ColorRenderTargets[0].MipIndex = MipIndex;
for (int32 SliceIndex = 0; SliceIndex < SliceCount; ++SliceIndex)
{
RPInfo.ColorRenderTargets[0].ArraySlice = SliceIndex;
RHICmdList.BeginRenderPass(RPInfo, TEXT("CopyTexture"));
{
const uint32 MipViewportWidth = ViewportWidth >> MipIndex;
const uint32 MipViewportHeight = ViewportHeight >> MipIndex;
const FIntPoint MipTargetSize(MipViewportWidth, MipViewportHeight);
if (bNoAlphaWrite || bInvertAlpha)
{
RHICmdList.SetViewport(DstRect.Min.X, DstRect.Min.Y, 0.0f, DstRect.Max.X, DstRect.Max.Y, 1.0f);
DrawClearQuad(RHICmdList, bAlphaPremultiply ? FLinearColor::Black : FLinearColor::White);
}
RHICmdList.ApplyCachedRenderTargets(GraphicsPSOInit);
FRHISamplerState* SamplerState = DstRect.Size() == SrcRect.Size() ? TStaticSamplerState<SF_Point>::GetRHI() : TStaticSamplerState<SF_Bilinear>::GetRHI();
if (!sRGBSource)
{
if (bUseTexArrayShader)
{
TShaderMapRef<FScreenPSMipLevelArray> PixelShader(ShaderMap);
GraphicsPSOInit.BoundShaderState.PixelShaderRHI = PixelShader.GetPixelShader();
SetGraphicsPipelineState(RHICmdList, GraphicsPSOInit, 0);
FRHIBatchedShaderParameters& BatchedParameters = RHICmdList.GetScratchShaderParameters();
PixelShader->SetParameters(BatchedParameters, SamplerState, SrcTextureRHI, SliceIndex, MipIndex);
RHICmdList.SetBatchedShaderParameters(RHICmdList.GetBoundPixelShader(), BatchedParameters);
}
else
{
TShaderMapRef<FScreenPSMipLevel> PixelShader(ShaderMap);
GraphicsPSOInit.BoundShaderState.PixelShaderRHI = PixelShader.GetPixelShader();
SetGraphicsPipelineState(RHICmdList, GraphicsPSOInit, 0);
#if UE_VERSION_OLDER_THAN(5, 3, 0)
PixelShader->SetParameters(RHICmdList, SamplerState, SrcTextureRHI, MipIndex);
#else
FRHIBatchedShaderParameters& BatchedParameters = RHICmdList.GetScratchShaderParameters();
PixelShader->SetParameters(BatchedParameters, SamplerState, SrcTextureRHI, MipIndex);
RHICmdList.SetBatchedShaderParameters(RHICmdList.GetBoundPixelShader(), BatchedParameters);
#endif
}
}
else
{
if (bUseTexArrayShader)
{
TShaderMapRef<FScreenPSsRGBSourceMipLevelArray> PixelShader(ShaderMap);
GraphicsPSOInit.BoundShaderState.PixelShaderRHI = PixelShader.GetPixelShader();
SetGraphicsPipelineState(RHICmdList, GraphicsPSOInit, 0);
FRHIBatchedShaderParameters& BatchedParameters = RHICmdList.GetScratchShaderParameters();
PixelShader->SetParameters(BatchedParameters, SamplerState, SrcTextureRHI, SliceIndex, MipIndex);
RHICmdList.SetBatchedShaderParameters(RHICmdList.GetBoundPixelShader(), BatchedParameters);
}
else
{
TShaderMapRef<FScreenPSsRGBSourceMipLevel> PixelShader(ShaderMap);
GraphicsPSOInit.BoundShaderState.PixelShaderRHI = PixelShader.GetPixelShader();
SetGraphicsPipelineState(RHICmdList, GraphicsPSOInit, 0);
#if UE_VERSION_OLDER_THAN(5, 3, 0)
PixelShader->SetParameters(RHICmdList, SamplerState, SrcTextureRHI, MipIndex);
#else
FRHIBatchedShaderParameters& BatchedParameters = RHICmdList.GetScratchShaderParameters();
PixelShader->SetParameters(BatchedParameters, SamplerState, SrcTextureRHI, MipIndex);
RHICmdList.SetBatchedShaderParameters(RHICmdList.GetBoundPixelShader(), BatchedParameters);
#endif
}
}
RHICmdList.SetViewport(DstRect.Min.X, DstRect.Min.Y, 0.0f, DstRect.Min.X + MipViewportWidth, DstRect.Min.Y + MipViewportHeight, 1.0f);
RendererModule->DrawRectangle(
RHICmdList,
0, 0, MipViewportWidth, MipViewportHeight,
U, V, USize, VSize,
MipTargetSize,
FIntPoint(1, 1),
VertexShader,
EDRF_Default);
}
RHICmdList.EndRenderPass();
}
}
}
else
{
for (int FaceIndex = 0; FaceIndex < 6; FaceIndex++)
{
FRHIRenderPassInfo RPInfo(DstTexture, ERenderTargetActions::Load_Store);
// On Vulkan the positive and negative Y faces of the cubemap need to be flipped
if (RenderAPI == ovrpRenderAPI_Vulkan)
{
int NewFaceIndex = 0;
if (FaceIndex == VULKAN_CUBEMAP_POSITIVE_Y)
NewFaceIndex = VULKAN_CUBEMAP_NEGATIVE_Y;
else if (FaceIndex == VULKAN_CUBEMAP_NEGATIVE_Y)
NewFaceIndex = VULKAN_CUBEMAP_POSITIVE_Y;
else
NewFaceIndex = FaceIndex;
RPInfo.ColorRenderTargets[0].ArraySlice = NewFaceIndex;
}
else
{
RPInfo.ColorRenderTargets[0].ArraySlice = FaceIndex;
}
RHICmdList.BeginRenderPass(RPInfo, TEXT("CopyTextureFace"));
{
if (bNoAlphaWrite)
{
DrawClearQuad(RHICmdList, bAlphaPremultiply ? FLinearColor::Black : FLinearColor::White);
}
RHICmdList.ApplyCachedRenderTargets(GraphicsPSOInit);
TShaderMapRef<FOculusCubemapPS> PixelShader(ShaderMap);
GraphicsPSOInit.BoundShaderState.PixelShaderRHI = PixelShader.GetPixelShader();
SetGraphicsPipelineState(RHICmdList, GraphicsPSOInit, 0);
FRHISamplerState* SamplerState = DstRect.Size() == SrcRect.Size() ? TStaticSamplerState<SF_Point>::GetRHI() : TStaticSamplerState<SF_Bilinear>::GetRHI();
#if UE_VERSION_OLDER_THAN(5, 3, 0)
PixelShader->SetParameters(RHICmdList, SamplerState, SrcTextureRHI, FaceIndex);
#else
FRHIBatchedShaderParameters& BatchedParameters = RHICmdList.GetScratchShaderParameters();
PixelShader->SetParameters(BatchedParameters, SamplerState, SrcTextureRHI, FaceIndex);
RHICmdList.SetBatchedShaderParameters(RHICmdList.GetBoundPixelShader(), BatchedParameters);
#endif
RHICmdList.SetViewport(DstRect.Min.X, DstRect.Min.Y, 0.0f, DstRect.Max.X, DstRect.Max.Y, 1.0f);
RendererModule->DrawRectangle(
RHICmdList,
0, 0, ViewportWidth, ViewportHeight,
#if PLATFORM_ANDROID
U, V, USize, VSize,
#else
U, 1.0 - V, USize, -VSize,
#endif
TargetSize,
FIntPoint(1, 1),
VertexShader,
EDRF_Default);
}
RHICmdList.EndRenderPass();
}
}
}
void FCustomPresent::SubmitGPUCommands_RenderThread(FRHICommandListImmediate& RHICmdList)
{
CheckInRenderThread();
RHICmdList.SubmitCommandsHint();
}
} // namespace OculusXRHMD
#endif //OCULUS_HMD_SUPPORTED_PLATFORMS