本文整理汇总了C++中IsFeatureLevelSupported函数的典型用法代码示例。如果您正苦于以下问题:C++ IsFeatureLevelSupported函数的具体用法?C++ IsFeatureLevelSupported怎么用?C++ IsFeatureLevelSupported使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了IsFeatureLevelSupported函数的16个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C++代码示例。
示例1: ShouldCache
static bool ShouldCache(EShaderPlatform Platform)
{
if(!IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM5))
{
if(MSAASampleCount > 1)
{
return false;
}
}
return IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM4);
}
开发者ID:amyvmiwei,项目名称:UnrealEngine4,代码行数:12,代码来源:PostProcessSelectionOutline.cpp
示例2: ShouldCache
static bool ShouldCache(EShaderPlatform Platform,const FMaterial* Material,const FVertexFactoryType* VertexFactoryType)
{
// Only the local vertex factory supports the position-only stream
if (bUsePositionOnlyStream)
{
return VertexFactoryType->SupportsPositionOnly() && Material->IsSpecialEngineMaterial()
&& IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM3);
}
// Only compile for the default material and masked materials
return (Material->IsSpecialEngineMaterial() || Material->IsMasked() || Material->MaterialModifiesMeshPosition())
&& IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM3);
}
开发者ID:Tigrouzen,项目名称:UnrealEngine-4,代码行数:13,代码来源:DepthRendering.cpp
示例3: ShouldCache
static bool ShouldCache(EShaderPlatform Platform)
{
if( IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM5) )
{
return true;
}
else if( IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM4) )
{
return NumSamples <= 16;
}
else
{
return NumSamples <= 7;
}
}
开发者ID:xiangyuan,项目名称:Unreal4,代码行数:15,代码来源:PostProcessWeightedSampleSum.cpp
示例4: ShouldCache
static bool ShouldCache(EShaderPlatform Platform,const FMaterial* Material,const FVertexFactoryType* VertexFactoryType)
{
return IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM5)
&& DoesPlatformSupportDistanceFieldGI(Platform)
&& (FCString::Strstr(VertexFactoryType->GetName(), TEXT("LocalVertexFactory")) != NULL
|| FCString::Strstr(VertexFactoryType->GetName(), TEXT("InstancedStaticMeshVertexFactory")) != NULL);
}
开发者ID:zhaoyizheng0930,项目名称:UnrealEngine,代码行数:7,代码来源:ConvertToUniformMesh.cpp
示例5: ShouldCache
/**
* Makes sure only shaders for materials that are explicitly flagged
* as 'UsedAsDeferredDecal' in the Material Editor gets compiled into
* the shader cache.
*/
static bool ShouldCache(EShaderPlatform Platform, const FMaterial* Material)
{
if (!Material->IsUsedWithDeferredDecal())
{
return false;
}
return IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM4);
}
开发者ID:Tigrouzen,项目名称:UnrealEngine-4,代码行数:14,代码来源:PostProcessDeferredDecals.cpp
示例6: ShouldCache
static bool ShouldCache(EShaderPlatform Platform,const FMaterial* Material,const FVertexFactoryType* VertexFactoryType)
{
//Only compile the velocity shaders for the default material or if it's masked,
return ((Material->IsSpecialEngineMaterial() || Material->IsMasked()
//or if the material is opaque and two-sided,
|| (Material->IsTwoSided() && !IsTranslucentBlendMode(Material->GetBlendMode()))
// or if the material modifies meshes
|| Material->MaterialMayModifyMeshPosition()))
&& IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM4) && !FVelocityRendering::OutputsToGBuffer();
}
开发者ID:xiangyuan,项目名称:Unreal4,代码行数:10,代码来源:VelocityRendering.cpp
示例7: ShouldCache
static bool ShouldCache(EShaderPlatform Platform)
{
// Always allow simple bilinear upscale. (Provides upscaling for ES2 emulation)
if (Method == 1)
{
return true;
}
return IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM4);
}
开发者ID:didixp,项目名称:Ark-Dev-Kit,代码行数:10,代码来源:PostProcessUpscale.cpp
示例8: ModifyCompilationEnvironment
static void ModifyCompilationEnvironment(EShaderPlatform Platform, FShaderCompilerEnvironment& OutEnvironment)
{
FGlobalShader::ModifyCompilationEnvironment(Platform, OutEnvironment);
if( !IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM5) )
{
//Need to hack in exposure scale for < SM5
OutEnvironment.SetDefine(TEXT("NO_EYEADAPTATION_EXPOSURE_FIX"), 1);
}
}
开发者ID:Tigrouzen,项目名称:UnrealEngine-4,代码行数:10,代码来源:PostProcessBloomSetup.cpp
示例9: UpdateDownsampledDepthSurface
/** Updates the downsized depth buffer with the current full resolution depth buffer. */
void FDeferredShadingSceneRenderer::UpdateDownsampledDepthSurface()
{
if (GSceneRenderTargets.UseDownsizedOcclusionQueries() && IsFeatureLevelSupported(GRHIShaderPlatform, ERHIFeatureLevel::SM3))
{
RHISetRenderTarget(NULL, GSceneRenderTargets.GetSmallDepthSurface());
SCOPED_DRAW_EVENT(DownsampleDepth, DEC_SCENE_ITEMS);
for (int32 ViewIndex = 0; ViewIndex < Views.Num(); ViewIndex++)
{
const FViewInfo& View = Views[ViewIndex];
// Set shaders and texture
TShaderMapRef<FScreenVS> ScreenVertexShader(GetGlobalShaderMap());
TShaderMapRef<FDownsampleSceneDepthPS> PixelShader(GetGlobalShaderMap());
extern TGlobalResource<FFilterVertexDeclaration> GFilterVertexDeclaration;
SetGlobalBoundShaderState(DownsampleDepthBoundShaderState, GFilterVertexDeclaration.VertexDeclarationRHI, *ScreenVertexShader, *PixelShader);
RHISetBlendState(TStaticBlendState<CW_NONE>::GetRHI());
RHISetRasterizerState(TStaticRasterizerState<FM_Solid,CM_None>::GetRHI());
RHISetDepthStencilState(TStaticDepthStencilState<true,CF_Always>::GetRHI());
PixelShader->SetParameters(View);
const uint32 DownsampledX = FMath::Trunc(View.ViewRect.Min.X / GSceneRenderTargets.GetSmallColorDepthDownsampleFactor());
const uint32 DownsampledY = FMath::Trunc(View.ViewRect.Min.Y / GSceneRenderTargets.GetSmallColorDepthDownsampleFactor());
const uint32 DownsampledSizeX = FMath::Trunc(View.ViewRect.Width() / GSceneRenderTargets.GetSmallColorDepthDownsampleFactor());
const uint32 DownsampledSizeY = FMath::Trunc(View.ViewRect.Height() / GSceneRenderTargets.GetSmallColorDepthDownsampleFactor());
RHISetViewport(DownsampledX, DownsampledY, 0.0f, DownsampledX + DownsampledSizeX, DownsampledY + DownsampledSizeY, 1.0f);
DrawRectangle(
0, 0,
DownsampledSizeX, DownsampledSizeY,
View.ViewRect.Min.X, View.ViewRect.Min.Y,
View.ViewRect.Width(), View.ViewRect.Height(),
FIntPoint(DownsampledSizeX, DownsampledSizeY),
GSceneRenderTargets.GetBufferSizeXY(),
EDRF_UseTriangleOptimization);
}
}
}
开发者ID:Tigrouzen,项目名称:UnrealEngine-4,代码行数:44,代码来源:DeferredShadingRenderer.cpp
示例10: ShouldCache
static bool ShouldCache(EShaderPlatform Platform)
{
return IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM4);
}
开发者ID:ErwinT6,项目名称:T6Engine,代码行数:4,代码来源:PostProcessDOF.cpp
示例11: ShouldCache
//@todo-rco: Remove this when reenabling for OpenGL
static bool ShouldCache( EShaderPlatform Platform ) {
return IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM5) && !IsOpenGLPlatform(Platform);
}
开发者ID:xiangyuan,项目名称:Unreal4,代码行数:4,代码来源:LightPropagationVolumeVisualisation.cpp
示例12: IsFeatureLevelSupported
bool FGPUSkinPassthroughVertexFactory::ShouldCache(EShaderPlatform Platform, const class FMaterial* Material, const class FShaderType* ShaderType)
{
// Passhrough is only valid on platforms with Compute Shader support
return GEnableGPUSkinCache && IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM5) && Super::ShouldCache(Platform, Material, ShaderType);
}
开发者ID:1vanK,项目名称:AHRUnrealEngine,代码行数:5,代码来源:GPUSkinVertexFactory.cpp
示例13: ShouldCache
static bool ShouldCache(EShaderPlatform Platform)
{
return bEnablePlanarReflectionPrefilter ? IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM4) : true;
}
开发者ID:zhaoyizheng0930,项目名称:UnrealEngine,代码行数:4,代码来源:PlanarReflectionRendering.cpp
示例14: SCOPED_DRAW_EVENT
/**
* Renders the view family.
*/
void FDeferredShadingSceneRenderer::Render()
{
if(!ViewFamily.EngineShowFlags.Rendering)
{
return;
}
SCOPED_DRAW_EVENT(Scene,DEC_SCENE_ITEMS);
// Initialize global system textures (pass-through if already initialized).
GSystemTextures.InitializeTextures();
// Allocate the maximum scene render target space for the current view family.
GSceneRenderTargets.Allocate(ViewFamily);
// Find the visible primitives.
InitViews();
const bool bIsWireframe = ViewFamily.EngineShowFlags.Wireframe;
static const auto ClearMethodCVar = IConsoleManager::Get().FindTConsoleVariableDataInt(TEXT("r.ClearSceneMethod"));
bool bRequiresRHIClear = true;
bool bRequiresFarZQuadClear = false;
if (ClearMethodCVar)
{
switch (ClearMethodCVar->GetValueOnRenderThread())
{
case 0: // No clear
{
bRequiresRHIClear = false;
bRequiresFarZQuadClear = false;
break;
}
case 1: // RHIClear
{
bRequiresRHIClear = true;
bRequiresFarZQuadClear = false;
break;
}
case 2: // Clear using far-z quad
{
bRequiresFarZQuadClear = true;
bRequiresRHIClear = false;
break;
}
}
}
// Always perform a full buffer clear for wireframe, shader complexity view mode, and stationary light overlap viewmode.
if (bIsWireframe || ViewFamily.EngineShowFlags.ShaderComplexity || ViewFamily.EngineShowFlags.StationaryLightOverlap)
{
bRequiresRHIClear = true;
}
// force using occ queries for wireframe if rendering is parented or frozen in the first view
check(Views.Num());
#if (UE_BUILD_SHIPPING || UE_BUILD_TEST)
const bool bIsViewFrozen = false;
const bool bHasViewParent = false;
#else
const bool bIsViewFrozen = Views[0].State && ((FSceneViewState*)Views[0].State)->bIsFrozen;
const bool bHasViewParent = Views[0].State && ((FSceneViewState*)Views[0].State)->HasViewParent();
#endif
const bool bIsOcclusionTesting = DoOcclusionQueries() && (!bIsWireframe || bIsViewFrozen || bHasViewParent);
// Dynamic vertex and index buffers need to be committed before rendering.
FGlobalDynamicVertexBuffer::Get().Commit();
FGlobalDynamicIndexBuffer::Get().Commit();
// Notify the FX system that the scene is about to be rendered.
if (Scene->FXSystem)
{
Scene->FXSystem->PreRender();
}
// Draw the scene pre-pass / early z pass, populating the scene depth buffer and HiZ
RenderPrePass();
// Clear scene color buffer if necessary.
if ( bRequiresRHIClear )
{
ClearView();
// Only clear once.
bRequiresRHIClear = false;
}
// Clear LPVs for all views
if ( IsFeatureLevelSupported(GRHIShaderPlatform, ERHIFeatureLevel::SM5) )
{
ClearLPVs();
}
// only temporarily available after early z pass and until base pass
//.........这里部分代码省略.........
开发者ID:Tigrouzen,项目名称:UnrealEngine-4,代码行数:101,代码来源:DeferredShadingRenderer.cpp
示例15: ShouldCache
/**
* Only compile these shaders for post processing domain materials
*/
static bool ShouldCache(EShaderPlatform Platform, const FMaterial* Material)
{
return (Material->GetMaterialDomain() == MD_PostProcess) && IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM4);
}
开发者ID:xiangyuan,项目名称:Unreal4,代码行数:7,代码来源:PostProcessMaterial.cpp
示例16: ShouldCache
/**
* Makes sure only shaders for materials that are explicitly flagged
* as 'UsedAsLightFunction' in the Material Editor gets compiled into
* the shader cache.
*/
static bool ShouldCache(EShaderPlatform Platform, const FMaterial* Material)
{
return Material->IsLightFunction() && IsFeatureLevelSupported(Platform, ERHIFeatureLevel::SM3);
}
开发者ID:Tigrouzen,项目名称:UnrealEngine-4,代码行数:9,代码来源:LightFunctionRendering.cpp
注:本文中的IsFeatureLevelSupported函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
请发表评论