//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLRenderPipeline.hpp
//
// Copyright 2020-2023 Apple Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#pragma once
#include "MTLDefines.hpp"
#include "MTLHeaderBridge.hpp"
#include "MTLPrivate.hpp"
#include <Foundation/Foundation.hpp>
#include "MTLPixelFormat.hpp"
#include "MTLRenderCommandEncoder.hpp"
#include "MTLRenderPipeline.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
_MTL_ENUM(NS::UInteger, BlendFactor) {
BlendFactorZero = 0,
BlendFactorOne = 1,
BlendFactorSourceColor = 2,
BlendFactorOneMinusSourceColor = 3,
BlendFactorSourceAlpha = 4,
BlendFactorOneMinusSourceAlpha = 5,
BlendFactorDestinationColor = 6,
BlendFactorOneMinusDestinationColor = 7,
BlendFactorDestinationAlpha = 8,
BlendFactorOneMinusDestinationAlpha = 9,
BlendFactorSourceAlphaSaturated = 10,
BlendFactorBlendColor = 11,
BlendFactorOneMinusBlendColor = 12,
BlendFactorBlendAlpha = 13,
BlendFactorOneMinusBlendAlpha = 14,
BlendFactorSource1Color = 15,
BlendFactorOneMinusSource1Color = 16,
BlendFactorSource1Alpha = 17,
BlendFactorOneMinusSource1Alpha = 18,
};
_MTL_ENUM(NS::UInteger, BlendOperation) {
BlendOperationAdd = 0,
BlendOperationSubtract = 1,
BlendOperationReverseSubtract = 2,
BlendOperationMin = 3,
BlendOperationMax = 4,
};
_MTL_OPTIONS(NS::UInteger, ColorWriteMask) {
ColorWriteMaskNone = 0,
ColorWriteMaskRed = 8,
ColorWriteMaskGreen = 4,
ColorWriteMaskBlue = 2,
ColorWriteMaskAlpha = 1,
ColorWriteMaskAll = 15,
};
_MTL_ENUM(NS::UInteger, PrimitiveTopologyClass) {
PrimitiveTopologyClassUnspecified = 0,
PrimitiveTopologyClassPoint = 1,
PrimitiveTopologyClassLine = 2,
PrimitiveTopologyClassTriangle = 3,
};
_MTL_ENUM(NS::UInteger, TessellationPartitionMode) {
TessellationPartitionModePow2 = 0,
TessellationPartitionModeInteger = 1,
TessellationPartitionModeFractionalOdd = 2,
TessellationPartitionModeFractionalEven = 3,
};
_MTL_ENUM(NS::UInteger, TessellationFactorStepFunction) {
TessellationFactorStepFunctionConstant = 0,
TessellationFactorStepFunctionPerPatch = 1,
TessellationFactorStepFunctionPerInstance = 2,
TessellationFactorStepFunctionPerPatchAndPerInstance = 3,
};
_MTL_ENUM(NS::UInteger, TessellationFactorFormat) {
TessellationFactorFormatHalf = 0,
};
_MTL_ENUM(NS::UInteger, TessellationControlPointIndexType) {
TessellationControlPointIndexTypeNone = 0,
TessellationControlPointIndexTypeUInt16 = 1,
TessellationControlPointIndexTypeUInt32 = 2,
};
class RenderPipelineColorAttachmentDescriptor : public NS::Copying<RenderPipelineColorAttachmentDescriptor>
{
public:
static class RenderPipelineColorAttachmentDescriptor* alloc();
class RenderPipelineColorAttachmentDescriptor* init();
MTL::PixelFormat pixelFormat() const;
void setPixelFormat(MTL::PixelFormat pixelFormat);
bool blendingEnabled() const;
void setBlendingEnabled(bool blendingEnabled);
MTL::BlendFactor sourceRGBBlendFactor() const;
void setSourceRGBBlendFactor(MTL::BlendFactor sourceRGBBlendFactor);
MTL::BlendFactor destinationRGBBlendFactor() const;
void setDestinationRGBBlendFactor(MTL::BlendFactor destinationRGBBlendFactor);
MTL::BlendOperation rgbBlendOperation() const;
void setRgbBlendOperation(MTL::BlendOperation rgbBlendOperation);
MTL::BlendFactor sourceAlphaBlendFactor() const;
void setSourceAlphaBlendFactor(MTL::BlendFactor sourceAlphaBlendFactor);
MTL::BlendFactor destinationAlphaBlendFactor() const;
void setDestinationAlphaBlendFactor(MTL::BlendFactor destinationAlphaBlendFactor);
MTL::BlendOperation alphaBlendOperation() const;
void setAlphaBlendOperation(MTL::BlendOperation alphaBlendOperation);
MTL::ColorWriteMask writeMask() const;
void setWriteMask(MTL::ColorWriteMask writeMask);
};
class RenderPipelineReflection : public NS::Referencing<RenderPipelineReflection>
{
public:
static class RenderPipelineReflection* alloc();
class RenderPipelineReflection* init();
NS::Array* vertexBindings() const;
NS::Array* fragmentBindings() const;
NS::Array* tileBindings() const;
NS::Array* objectBindings() const;
NS::Array* meshBindings() const;
NS::Array* vertexArguments() const;
NS::Array* fragmentArguments() const;
NS::Array* tileArguments() const;
};
class RenderPipelineDescriptor : public NS::Copying<RenderPipelineDescriptor>
{
public:
static class RenderPipelineDescriptor* alloc();
class RenderPipelineDescriptor* init();
NS::String* label() const;
void setLabel(const NS::String* label);
class Function* vertexFunction() const;
void setVertexFunction(const class Function* vertexFunction);
class Function* fragmentFunction() const;
void setFragmentFunction(const class Function* fragmentFunction);
class VertexDescriptor* vertexDescriptor() const;
void setVertexDescriptor(const class VertexDescriptor* vertexDescriptor);
NS::UInteger sampleCount() const;
void setSampleCount(NS::UInteger sampleCount);
NS::UInteger rasterSampleCount() const;
void setRasterSampleCount(NS::UInteger rasterSampleCount);
bool alphaToCoverageEnabled() const;
void setAlphaToCoverageEnabled(bool alphaToCoverageEnabled);
bool alphaToOneEnabled() const;
void setAlphaToOneEnabled(bool alphaToOneEnabled);
bool rasterizationEnabled() const;
void setRasterizationEnabled(bool rasterizationEnabled);
NS::UInteger maxVertexAmplificationCount() const;
void setMaxVertexAmplificationCount(NS::UInteger maxVertexAmplificationCount);
class RenderPipelineColorAttachmentDescriptorArray* colorAttachments() const;
MTL::PixelFormat depthAttachmentPixelFormat() const;
void setDepthAttachmentPixelFormat(MTL::PixelFormat depthAttachmentPixelFormat);
MTL::PixelFormat stencilAttachmentPixelFormat() const;
void setStencilAttachmentPixelFormat(MTL::PixelFormat stencilAttachmentPixelFormat);
MTL::PrimitiveTopologyClass inputPrimitiveTopology() const;
void setInputPrimitiveTopology(MTL::PrimitiveTopologyClass inputPrimitiveTopology);
MTL::TessellationPartitionMode tessellationPartitionMode() const;
void setTessellationPartitionMode(MTL::TessellationPartitionMode tessellationPartitionMode);
NS::UInteger maxTessellationFactor() const;
void setMaxTessellationFactor(NS::UInteger maxTessellationFactor);
bool tessellationFactorScaleEnabled() const;
void setTessellationFactorScaleEnabled(bool tessellationFactorScaleEnabled);
MTL::TessellationFactorFormat tessellationFactorFormat() const;
void setTessellationFactorFormat(MTL::TessellationFactorFormat tessellationFactorFormat);
MTL::TessellationControlPointIndexType tessellationControlPointIndexType() const;
void setTessellationControlPointIndexType(MTL::TessellationControlPointIndexType tessellationControlPointIndexType);
MTL::TessellationFactorStepFunction tessellationFactorStepFunction() const;
void setTessellationFactorStepFunction(MTL::TessellationFactorStepFunction tessellationFactorStepFunction);
MTL::Winding tessellationOutputWindingOrder() const;
void setTessellationOutputWindingOrder(MTL::Winding tessellationOutputWindingOrder);
class PipelineBufferDescriptorArray* vertexBuffers() const;
class PipelineBufferDescriptorArray* fragmentBuffers() const;
bool supportIndirectCommandBuffers() const;
void setSupportIndirectCommandBuffers(bool supportIndirectCommandBuffers);
NS::Array* binaryArchives() const;
void setBinaryArchives(const NS::Array* binaryArchives);
NS::Array* vertexPreloadedLibraries() const;
void setVertexPreloadedLibraries(const NS::Array* vertexPreloadedLibraries);
NS::Array* fragmentPreloadedLibraries() const;
void setFragmentPreloadedLibraries(const NS::Array* fragmentPreloadedLibraries);
class LinkedFunctions* vertexLinkedFunctions() const;
void setVertexLinkedFunctions(const class LinkedFunctions* vertexLinkedFunctions);
class LinkedFunctions* fragmentLinkedFunctions() const;
void setFragmentLinkedFunctions(const class LinkedFunctions* fragmentLinkedFunctions);
bool supportAddingVertexBinaryFunctions() const;
void setSupportAddingVertexBinaryFunctions(bool supportAddingVertexBinaryFunctions);
bool supportAddingFragmentBinaryFunctions() const;
void setSupportAddingFragmentBinaryFunctions(bool supportAddingFragmentBinaryFunctions);
NS::UInteger maxVertexCallStackDepth() const;
void setMaxVertexCallStackDepth(NS::UInteger maxVertexCallStackDepth);
NS::UInteger maxFragmentCallStackDepth() const;
void setMaxFragmentCallStackDepth(NS::UInteger maxFragmentCallStackDepth);
void reset();
};
class RenderPipelineFunctionsDescriptor : public NS::Copying<RenderPipelineFunctionsDescriptor>
{
public:
static class RenderPipelineFunctionsDescriptor* alloc();
class RenderPipelineFunctionsDescriptor* init();
NS::Array* vertexAdditionalBinaryFunctions() const;
void setVertexAdditionalBinaryFunctions(const NS::Array* vertexAdditionalBinaryFunctions);
NS::Array* fragmentAdditionalBinaryFunctions() const;
void setFragmentAdditionalBinaryFunctions(const NS::Array* fragmentAdditionalBinaryFunctions);
NS::Array* tileAdditionalBinaryFunctions() const;
void setTileAdditionalBinaryFunctions(const NS::Array* tileAdditionalBinaryFunctions);
};
class RenderPipelineState : public NS::Referencing<RenderPipelineState>
{
public:
NS::String* label() const;
class Device* device() const;
NS::UInteger maxTotalThreadsPerThreadgroup() const;
bool threadgroupSizeMatchesTileSize() const;
NS::UInteger imageblockSampleLength() const;
NS::UInteger imageblockMemoryLength(MTL::Size imageblockDimensions);
bool supportIndirectCommandBuffers() const;
NS::UInteger maxTotalThreadsPerObjectThreadgroup() const;
NS::UInteger maxTotalThreadsPerMeshThreadgroup() const;
NS::UInteger objectThreadExecutionWidth() const;
NS::UInteger meshThreadExecutionWidth() const;
NS::UInteger maxTotalThreadgroupsPerMeshGrid() const;
MTL::ResourceID gpuResourceID() const;
class FunctionHandle* functionHandle(const class Function* function, MTL::RenderStages stage);
class VisibleFunctionTable* newVisibleFunctionTable(const class VisibleFunctionTableDescriptor* descriptor, MTL::RenderStages stage);
class IntersectionFunctionTable* newIntersectionFunctionTable(const class IntersectionFunctionTableDescriptor* descriptor, MTL::RenderStages stage);
class RenderPipelineState* newRenderPipelineState(const class RenderPipelineFunctionsDescriptor* additionalBinaryFunctions, NS::Error** error);
};
class RenderPipelineColorAttachmentDescriptorArray : public NS::Referencing<RenderPipelineColorAttachmentDescriptorArray>
{
public:
static class RenderPipelineColorAttachmentDescriptorArray* alloc();
class RenderPipelineColorAttachmentDescriptorArray* init();
class RenderPipelineColorAttachmentDescriptor* object(NS::UInteger attachmentIndex);
void setObject(const class RenderPipelineColorAttachmentDescriptor* attachment, NS::UInteger attachmentIndex);
};
class TileRenderPipelineColorAttachmentDescriptor : public NS::Copying<TileRenderPipelineColorAttachmentDescriptor>
{
public:
static class TileRenderPipelineColorAttachmentDescriptor* alloc();
class TileRenderPipelineColorAttachmentDescriptor* init();
MTL::PixelFormat pixelFormat() const;
void setPixelFormat(MTL::PixelFormat pixelFormat);
};
class TileRenderPipelineColorAttachmentDescriptorArray : public NS::Referencing<TileRenderPipelineColorAttachmentDescriptorArray>
{
public:
static class TileRenderPipelineColorAttachmentDescriptorArray* alloc();
class TileRenderPipelineColorAttachmentDescriptorArray* init();
class TileRenderPipelineColorAttachmentDescriptor* object(NS::UInteger attachmentIndex);
void setObject(const class TileRenderPipelineColorAttachmentDescriptor* attachment, NS::UInteger attachmentIndex);
};
class TileRenderPipelineDescriptor : public NS::Copying<TileRenderPipelineDescriptor>
{
public:
static class TileRenderPipelineDescriptor* alloc();
class TileRenderPipelineDescriptor* init();
NS::String* label() const;
void setLabel(const NS::String* label);
class Function* tileFunction() const;
void setTileFunction(const class Function* tileFunction);
NS::UInteger rasterSampleCount() const;
void setRasterSampleCount(NS::UInteger rasterSampleCount);
class TileRenderPipelineColorAttachmentDescriptorArray* colorAttachments() const;
bool threadgroupSizeMatchesTileSize() const;
void setThreadgroupSizeMatchesTileSize(bool threadgroupSizeMatchesTileSize);
class PipelineBufferDescriptorArray* tileBuffers() const;
NS::UInteger maxTotalThreadsPerThreadgroup() const;
void setMaxTotalThreadsPerThreadgroup(NS::UInteger maxTotalThreadsPerThreadgroup);
NS::Array* binaryArchives() const;
void setBinaryArchives(const NS::Array* binaryArchives);
NS::Array* preloadedLibraries() const;
void setPreloadedLibraries(const NS::Array* preloadedLibraries);
class LinkedFunctions* linkedFunctions() const;
void setLinkedFunctions(const class LinkedFunctions* linkedFunctions);
bool supportAddingBinaryFunctions() const;
void setSupportAddingBinaryFunctions(bool supportAddingBinaryFunctions);
NS::UInteger maxCallStackDepth() const;
void setMaxCallStackDepth(NS::UInteger maxCallStackDepth);
void reset();
};
class MeshRenderPipelineDescriptor : public NS::Copying<MeshRenderPipelineDescriptor>
{
public:
static class MeshRenderPipelineDescriptor* alloc();
class MeshRenderPipelineDescriptor* init();
NS::String* label() const;
void setLabel(const NS::String* label);
class Function* objectFunction() const;
void setObjectFunction(const class Function* objectFunction);
class Function* meshFunction() const;
void setMeshFunction(const class Function* meshFunction);
class Function* fragmentFunction() const;
void setFragmentFunction(const class Function* fragmentFunction);
NS::UInteger maxTotalThreadsPerObjectThreadgroup() const;
void setMaxTotalThreadsPerObjectThreadgroup(NS::UInteger maxTotalThreadsPerObjectThreadgroup);
NS::UInteger maxTotalThreadsPerMeshThreadgroup() const;
void setMaxTotalThreadsPerMeshThreadgroup(NS::UInteger maxTotalThreadsPerMeshThreadgroup);
bool objectThreadgroupSizeIsMultipleOfThreadExecutionWidth() const;
void setObjectThreadgroupSizeIsMultipleOfThreadExecutionWidth(bool objectThreadgroupSizeIsMultipleOfThreadExecutionWidth);
bool meshThreadgroupSizeIsMultipleOfThreadExecutionWidth() const;
void setMeshThreadgroupSizeIsMultipleOfThreadExecutionWidth(bool meshThreadgroupSizeIsMultipleOfThreadExecutionWidth);
NS::UInteger payloadMemoryLength() const;
void setPayloadMemoryLength(NS::UInteger payloadMemoryLength);
NS::UInteger maxTotalThreadgroupsPerMeshGrid() const;
void setMaxTotalThreadgroupsPerMeshGrid(NS::UInteger maxTotalThreadgroupsPerMeshGrid);
class PipelineBufferDescriptorArray* objectBuffers() const;
class PipelineBufferDescriptorArray* meshBuffers() const;
class PipelineBufferDescriptorArray* fragmentBuffers() const;
NS::UInteger rasterSampleCount() const;
void setRasterSampleCount(NS::UInteger rasterSampleCount);
bool alphaToCoverageEnabled() const;
void setAlphaToCoverageEnabled(bool alphaToCoverageEnabled);
bool alphaToOneEnabled() const;
void setAlphaToOneEnabled(bool alphaToOneEnabled);
bool rasterizationEnabled() const;
void setRasterizationEnabled(bool rasterizationEnabled);
NS::UInteger maxVertexAmplificationCount() const;
void setMaxVertexAmplificationCount(NS::UInteger maxVertexAmplificationCount);
class RenderPipelineColorAttachmentDescriptorArray* colorAttachments() const;
MTL::PixelFormat depthAttachmentPixelFormat() const;
void setDepthAttachmentPixelFormat(MTL::PixelFormat depthAttachmentPixelFormat);
MTL::PixelFormat stencilAttachmentPixelFormat() const;
void setStencilAttachmentPixelFormat(MTL::PixelFormat stencilAttachmentPixelFormat);
bool supportIndirectCommandBuffers() const;
void setSupportIndirectCommandBuffers(bool supportIndirectCommandBuffers);
class LinkedFunctions* objectLinkedFunctions() const;
void setObjectLinkedFunctions(const class LinkedFunctions* objectLinkedFunctions);
class LinkedFunctions* meshLinkedFunctions() const;
void setMeshLinkedFunctions(const class LinkedFunctions* meshLinkedFunctions);
class LinkedFunctions* fragmentLinkedFunctions() const;
void setFragmentLinkedFunctions(const class LinkedFunctions* fragmentLinkedFunctions);
void reset();
};
}
// static method: alloc
_MTL_INLINE MTL::RenderPipelineColorAttachmentDescriptor* MTL::RenderPipelineColorAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::RenderPipelineColorAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLRenderPipelineColorAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::RenderPipelineColorAttachmentDescriptor* MTL::RenderPipelineColorAttachmentDescriptor::init()
{
return NS::Object::init<MTL::RenderPipelineColorAttachmentDescriptor>();
}
// property: pixelFormat
_MTL_INLINE MTL::PixelFormat MTL::RenderPipelineColorAttachmentDescriptor::pixelFormat() const
{
return Object::sendMessage<MTL::PixelFormat>(this, _MTL_PRIVATE_SEL(pixelFormat));
}
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptor::setPixelFormat(MTL::PixelFormat pixelFormat)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPixelFormat_), pixelFormat);
}
// property: blendingEnabled
_MTL_INLINE bool MTL::RenderPipelineColorAttachmentDescriptor::blendingEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isBlendingEnabled));
}
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptor::setBlendingEnabled(bool blendingEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBlendingEnabled_), blendingEnabled);
}
// property: sourceRGBBlendFactor
_MTL_INLINE MTL::BlendFactor MTL::RenderPipelineColorAttachmentDescriptor::sourceRGBBlendFactor() const
{
return Object::sendMessage<MTL::BlendFactor>(this, _MTL_PRIVATE_SEL(sourceRGBBlendFactor));
}
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptor::setSourceRGBBlendFactor(MTL::BlendFactor sourceRGBBlendFactor)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSourceRGBBlendFactor_), sourceRGBBlendFactor);
}
// property: destinationRGBBlendFactor
_MTL_INLINE MTL::BlendFactor MTL::RenderPipelineColorAttachmentDescriptor::destinationRGBBlendFactor() const
{
return Object::sendMessage<MTL::BlendFactor>(this, _MTL_PRIVATE_SEL(destinationRGBBlendFactor));
}
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptor::setDestinationRGBBlendFactor(MTL::BlendFactor destinationRGBBlendFactor)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDestinationRGBBlendFactor_), destinationRGBBlendFactor);
}
// property: rgbBlendOperation
_MTL_INLINE MTL::BlendOperation MTL::RenderPipelineColorAttachmentDescriptor::rgbBlendOperation() const
{
return Object::sendMessage<MTL::BlendOperation>(this, _MTL_PRIVATE_SEL(rgbBlendOperation));
}
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptor::setRgbBlendOperation(MTL::BlendOperation rgbBlendOperation)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRgbBlendOperation_), rgbBlendOperation);
}
// property: sourceAlphaBlendFactor
_MTL_INLINE MTL::BlendFactor MTL::RenderPipelineColorAttachmentDescriptor::sourceAlphaBlendFactor() const
{
return Object::sendMessage<MTL::BlendFactor>(this, _MTL_PRIVATE_SEL(sourceAlphaBlendFactor));
}
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptor::setSourceAlphaBlendFactor(MTL::BlendFactor sourceAlphaBlendFactor)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSourceAlphaBlendFactor_), sourceAlphaBlendFactor);
}
// property: destinationAlphaBlendFactor
_MTL_INLINE MTL::BlendFactor MTL::RenderPipelineColorAttachmentDescriptor::destinationAlphaBlendFactor() const
{
return Object::sendMessage<MTL::BlendFactor>(this, _MTL_PRIVATE_SEL(destinationAlphaBlendFactor));
}
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptor::setDestinationAlphaBlendFactor(MTL::BlendFactor destinationAlphaBlendFactor)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDestinationAlphaBlendFactor_), destinationAlphaBlendFactor);
}
// property: alphaBlendOperation
_MTL_INLINE MTL::BlendOperation MTL::RenderPipelineColorAttachmentDescriptor::alphaBlendOperation() const
{
return Object::sendMessage<MTL::BlendOperation>(this, _MTL_PRIVATE_SEL(alphaBlendOperation));
}
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptor::setAlphaBlendOperation(MTL::BlendOperation alphaBlendOperation)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAlphaBlendOperation_), alphaBlendOperation);
}
// property: writeMask
_MTL_INLINE MTL::ColorWriteMask MTL::RenderPipelineColorAttachmentDescriptor::writeMask() const
{
return Object::sendMessage<MTL::ColorWriteMask>(this, _MTL_PRIVATE_SEL(writeMask));
}
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptor::setWriteMask(MTL::ColorWriteMask writeMask)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setWriteMask_), writeMask);
}
// static method: alloc
_MTL_INLINE MTL::RenderPipelineReflection* MTL::RenderPipelineReflection::alloc()
{
return NS::Object::alloc<MTL::RenderPipelineReflection>(_MTL_PRIVATE_CLS(MTLRenderPipelineReflection));
}
// method: init
_MTL_INLINE MTL::RenderPipelineReflection* MTL::RenderPipelineReflection::init()
{
return NS::Object::init<MTL::RenderPipelineReflection>();
}
// property: vertexBindings
_MTL_INLINE NS::Array* MTL::RenderPipelineReflection::vertexBindings() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(vertexBindings));
}
// property: fragmentBindings
_MTL_INLINE NS::Array* MTL::RenderPipelineReflection::fragmentBindings() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(fragmentBindings));
}
// property: tileBindings
_MTL_INLINE NS::Array* MTL::RenderPipelineReflection::tileBindings() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(tileBindings));
}
// property: objectBindings
_MTL_INLINE NS::Array* MTL::RenderPipelineReflection::objectBindings() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(objectBindings));
}
// property: meshBindings
_MTL_INLINE NS::Array* MTL::RenderPipelineReflection::meshBindings() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(meshBindings));
}
// property: vertexArguments
_MTL_INLINE NS::Array* MTL::RenderPipelineReflection::vertexArguments() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(vertexArguments));
}
// property: fragmentArguments
_MTL_INLINE NS::Array* MTL::RenderPipelineReflection::fragmentArguments() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(fragmentArguments));
}
// property: tileArguments
_MTL_INLINE NS::Array* MTL::RenderPipelineReflection::tileArguments() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(tileArguments));
}
// static method: alloc
_MTL_INLINE MTL::RenderPipelineDescriptor* MTL::RenderPipelineDescriptor::alloc()
{
return NS::Object::alloc<MTL::RenderPipelineDescriptor>(_MTL_PRIVATE_CLS(MTLRenderPipelineDescriptor));
}
// method: init
_MTL_INLINE MTL::RenderPipelineDescriptor* MTL::RenderPipelineDescriptor::init()
{
return NS::Object::init<MTL::RenderPipelineDescriptor>();
}
// property: label
_MTL_INLINE NS::String* MTL::RenderPipelineDescriptor::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: vertexFunction
_MTL_INLINE MTL::Function* MTL::RenderPipelineDescriptor::vertexFunction() const
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(vertexFunction));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setVertexFunction(const MTL::Function* vertexFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVertexFunction_), vertexFunction);
}
// property: fragmentFunction
_MTL_INLINE MTL::Function* MTL::RenderPipelineDescriptor::fragmentFunction() const
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(fragmentFunction));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setFragmentFunction(const MTL::Function* fragmentFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFragmentFunction_), fragmentFunction);
}
// property: vertexDescriptor
_MTL_INLINE MTL::VertexDescriptor* MTL::RenderPipelineDescriptor::vertexDescriptor() const
{
return Object::sendMessage<MTL::VertexDescriptor*>(this, _MTL_PRIVATE_SEL(vertexDescriptor));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setVertexDescriptor(const MTL::VertexDescriptor* vertexDescriptor)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVertexDescriptor_), vertexDescriptor);
}
// property: sampleCount
_MTL_INLINE NS::UInteger MTL::RenderPipelineDescriptor::sampleCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(sampleCount));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setSampleCount(NS::UInteger sampleCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSampleCount_), sampleCount);
}
// property: rasterSampleCount
_MTL_INLINE NS::UInteger MTL::RenderPipelineDescriptor::rasterSampleCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(rasterSampleCount));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setRasterSampleCount(NS::UInteger rasterSampleCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRasterSampleCount_), rasterSampleCount);
}
// property: alphaToCoverageEnabled
_MTL_INLINE bool MTL::RenderPipelineDescriptor::alphaToCoverageEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isAlphaToCoverageEnabled));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setAlphaToCoverageEnabled(bool alphaToCoverageEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAlphaToCoverageEnabled_), alphaToCoverageEnabled);
}
// property: alphaToOneEnabled
_MTL_INLINE bool MTL::RenderPipelineDescriptor::alphaToOneEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isAlphaToOneEnabled));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setAlphaToOneEnabled(bool alphaToOneEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAlphaToOneEnabled_), alphaToOneEnabled);
}
// property: rasterizationEnabled
_MTL_INLINE bool MTL::RenderPipelineDescriptor::rasterizationEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isRasterizationEnabled));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setRasterizationEnabled(bool rasterizationEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRasterizationEnabled_), rasterizationEnabled);
}
// property: maxVertexAmplificationCount
_MTL_INLINE NS::UInteger MTL::RenderPipelineDescriptor::maxVertexAmplificationCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxVertexAmplificationCount));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setMaxVertexAmplificationCount(NS::UInteger maxVertexAmplificationCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxVertexAmplificationCount_), maxVertexAmplificationCount);
}
// property: colorAttachments
_MTL_INLINE MTL::RenderPipelineColorAttachmentDescriptorArray* MTL::RenderPipelineDescriptor::colorAttachments() const
{
return Object::sendMessage<MTL::RenderPipelineColorAttachmentDescriptorArray*>(this, _MTL_PRIVATE_SEL(colorAttachments));
}
// property: depthAttachmentPixelFormat
_MTL_INLINE MTL::PixelFormat MTL::RenderPipelineDescriptor::depthAttachmentPixelFormat() const
{
return Object::sendMessage<MTL::PixelFormat>(this, _MTL_PRIVATE_SEL(depthAttachmentPixelFormat));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setDepthAttachmentPixelFormat(MTL::PixelFormat depthAttachmentPixelFormat)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthAttachmentPixelFormat_), depthAttachmentPixelFormat);
}
// property: stencilAttachmentPixelFormat
_MTL_INLINE MTL::PixelFormat MTL::RenderPipelineDescriptor::stencilAttachmentPixelFormat() const
{
return Object::sendMessage<MTL::PixelFormat>(this, _MTL_PRIVATE_SEL(stencilAttachmentPixelFormat));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setStencilAttachmentPixelFormat(MTL::PixelFormat stencilAttachmentPixelFormat)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStencilAttachmentPixelFormat_), stencilAttachmentPixelFormat);
}
// property: inputPrimitiveTopology
_MTL_INLINE MTL::PrimitiveTopologyClass MTL::RenderPipelineDescriptor::inputPrimitiveTopology() const
{
return Object::sendMessage<MTL::PrimitiveTopologyClass>(this, _MTL_PRIVATE_SEL(inputPrimitiveTopology));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setInputPrimitiveTopology(MTL::PrimitiveTopologyClass inputPrimitiveTopology)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setInputPrimitiveTopology_), inputPrimitiveTopology);
}
// property: tessellationPartitionMode
_MTL_INLINE MTL::TessellationPartitionMode MTL::RenderPipelineDescriptor::tessellationPartitionMode() const
{
return Object::sendMessage<MTL::TessellationPartitionMode>(this, _MTL_PRIVATE_SEL(tessellationPartitionMode));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setTessellationPartitionMode(MTL::TessellationPartitionMode tessellationPartitionMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTessellationPartitionMode_), tessellationPartitionMode);
}
// property: maxTessellationFactor
_MTL_INLINE NS::UInteger MTL::RenderPipelineDescriptor::maxTessellationFactor() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTessellationFactor));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setMaxTessellationFactor(NS::UInteger maxTessellationFactor)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxTessellationFactor_), maxTessellationFactor);
}
// property: tessellationFactorScaleEnabled
_MTL_INLINE bool MTL::RenderPipelineDescriptor::tessellationFactorScaleEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isTessellationFactorScaleEnabled));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setTessellationFactorScaleEnabled(bool tessellationFactorScaleEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTessellationFactorScaleEnabled_), tessellationFactorScaleEnabled);
}
// property: tessellationFactorFormat
_MTL_INLINE MTL::TessellationFactorFormat MTL::RenderPipelineDescriptor::tessellationFactorFormat() const
{
return Object::sendMessage<MTL::TessellationFactorFormat>(this, _MTL_PRIVATE_SEL(tessellationFactorFormat));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setTessellationFactorFormat(MTL::TessellationFactorFormat tessellationFactorFormat)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTessellationFactorFormat_), tessellationFactorFormat);
}
// property: tessellationControlPointIndexType
_MTL_INLINE MTL::TessellationControlPointIndexType MTL::RenderPipelineDescriptor::tessellationControlPointIndexType() const
{
return Object::sendMessage<MTL::TessellationControlPointIndexType>(this, _MTL_PRIVATE_SEL(tessellationControlPointIndexType));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setTessellationControlPointIndexType(MTL::TessellationControlPointIndexType tessellationControlPointIndexType)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTessellationControlPointIndexType_), tessellationControlPointIndexType);
}
// property: tessellationFactorStepFunction
_MTL_INLINE MTL::TessellationFactorStepFunction MTL::RenderPipelineDescriptor::tessellationFactorStepFunction() const
{
return Object::sendMessage<MTL::TessellationFactorStepFunction>(this, _MTL_PRIVATE_SEL(tessellationFactorStepFunction));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setTessellationFactorStepFunction(MTL::TessellationFactorStepFunction tessellationFactorStepFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTessellationFactorStepFunction_), tessellationFactorStepFunction);
}
// property: tessellationOutputWindingOrder
_MTL_INLINE MTL::Winding MTL::RenderPipelineDescriptor::tessellationOutputWindingOrder() const
{
return Object::sendMessage<MTL::Winding>(this, _MTL_PRIVATE_SEL(tessellationOutputWindingOrder));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setTessellationOutputWindingOrder(MTL::Winding tessellationOutputWindingOrder)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTessellationOutputWindingOrder_), tessellationOutputWindingOrder);
}
// property: vertexBuffers
_MTL_INLINE MTL::PipelineBufferDescriptorArray* MTL::RenderPipelineDescriptor::vertexBuffers() const
{
return Object::sendMessage<MTL::PipelineBufferDescriptorArray*>(this, _MTL_PRIVATE_SEL(vertexBuffers));
}
// property: fragmentBuffers
_MTL_INLINE MTL::PipelineBufferDescriptorArray* MTL::RenderPipelineDescriptor::fragmentBuffers() const
{
return Object::sendMessage<MTL::PipelineBufferDescriptorArray*>(this, _MTL_PRIVATE_SEL(fragmentBuffers));
}
// property: supportIndirectCommandBuffers
_MTL_INLINE bool MTL::RenderPipelineDescriptor::supportIndirectCommandBuffers() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportIndirectCommandBuffers));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setSupportIndirectCommandBuffers(bool supportIndirectCommandBuffers)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportIndirectCommandBuffers_), supportIndirectCommandBuffers);
}
// property: binaryArchives
_MTL_INLINE NS::Array* MTL::RenderPipelineDescriptor::binaryArchives() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(binaryArchives));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setBinaryArchives(const NS::Array* binaryArchives)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBinaryArchives_), binaryArchives);
}
// property: vertexPreloadedLibraries
_MTL_INLINE NS::Array* MTL::RenderPipelineDescriptor::vertexPreloadedLibraries() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(vertexPreloadedLibraries));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setVertexPreloadedLibraries(const NS::Array* vertexPreloadedLibraries)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVertexPreloadedLibraries_), vertexPreloadedLibraries);
}
// property: fragmentPreloadedLibraries
_MTL_INLINE NS::Array* MTL::RenderPipelineDescriptor::fragmentPreloadedLibraries() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(fragmentPreloadedLibraries));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setFragmentPreloadedLibraries(const NS::Array* fragmentPreloadedLibraries)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFragmentPreloadedLibraries_), fragmentPreloadedLibraries);
}
// property: vertexLinkedFunctions
_MTL_INLINE MTL::LinkedFunctions* MTL::RenderPipelineDescriptor::vertexLinkedFunctions() const
{
return Object::sendMessage<MTL::LinkedFunctions*>(this, _MTL_PRIVATE_SEL(vertexLinkedFunctions));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setVertexLinkedFunctions(const MTL::LinkedFunctions* vertexLinkedFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVertexLinkedFunctions_), vertexLinkedFunctions);
}
// property: fragmentLinkedFunctions
_MTL_INLINE MTL::LinkedFunctions* MTL::RenderPipelineDescriptor::fragmentLinkedFunctions() const
{
return Object::sendMessage<MTL::LinkedFunctions*>(this, _MTL_PRIVATE_SEL(fragmentLinkedFunctions));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setFragmentLinkedFunctions(const MTL::LinkedFunctions* fragmentLinkedFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFragmentLinkedFunctions_), fragmentLinkedFunctions);
}
// property: supportAddingVertexBinaryFunctions
_MTL_INLINE bool MTL::RenderPipelineDescriptor::supportAddingVertexBinaryFunctions() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportAddingVertexBinaryFunctions));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setSupportAddingVertexBinaryFunctions(bool supportAddingVertexBinaryFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportAddingVertexBinaryFunctions_), supportAddingVertexBinaryFunctions);
}
// property: supportAddingFragmentBinaryFunctions
_MTL_INLINE bool MTL::RenderPipelineDescriptor::supportAddingFragmentBinaryFunctions() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportAddingFragmentBinaryFunctions));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setSupportAddingFragmentBinaryFunctions(bool supportAddingFragmentBinaryFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportAddingFragmentBinaryFunctions_), supportAddingFragmentBinaryFunctions);
}
// property: maxVertexCallStackDepth
_MTL_INLINE NS::UInteger MTL::RenderPipelineDescriptor::maxVertexCallStackDepth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxVertexCallStackDepth));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setMaxVertexCallStackDepth(NS::UInteger maxVertexCallStackDepth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxVertexCallStackDepth_), maxVertexCallStackDepth);
}
// property: maxFragmentCallStackDepth
_MTL_INLINE NS::UInteger MTL::RenderPipelineDescriptor::maxFragmentCallStackDepth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxFragmentCallStackDepth));
}
_MTL_INLINE void MTL::RenderPipelineDescriptor::setMaxFragmentCallStackDepth(NS::UInteger maxFragmentCallStackDepth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxFragmentCallStackDepth_), maxFragmentCallStackDepth);
}
// method: reset
_MTL_INLINE void MTL::RenderPipelineDescriptor::reset()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(reset));
}
// static method: alloc
_MTL_INLINE MTL::RenderPipelineFunctionsDescriptor* MTL::RenderPipelineFunctionsDescriptor::alloc()
{
return NS::Object::alloc<MTL::RenderPipelineFunctionsDescriptor>(_MTL_PRIVATE_CLS(MTLRenderPipelineFunctionsDescriptor));
}
// method: init
_MTL_INLINE MTL::RenderPipelineFunctionsDescriptor* MTL::RenderPipelineFunctionsDescriptor::init()
{
return NS::Object::init<MTL::RenderPipelineFunctionsDescriptor>();
}
// property: vertexAdditionalBinaryFunctions
_MTL_INLINE NS::Array* MTL::RenderPipelineFunctionsDescriptor::vertexAdditionalBinaryFunctions() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(vertexAdditionalBinaryFunctions));
}
_MTL_INLINE void MTL::RenderPipelineFunctionsDescriptor::setVertexAdditionalBinaryFunctions(const NS::Array* vertexAdditionalBinaryFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVertexAdditionalBinaryFunctions_), vertexAdditionalBinaryFunctions);
}
// property: fragmentAdditionalBinaryFunctions
_MTL_INLINE NS::Array* MTL::RenderPipelineFunctionsDescriptor::fragmentAdditionalBinaryFunctions() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(fragmentAdditionalBinaryFunctions));
}
_MTL_INLINE void MTL::RenderPipelineFunctionsDescriptor::setFragmentAdditionalBinaryFunctions(const NS::Array* fragmentAdditionalBinaryFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFragmentAdditionalBinaryFunctions_), fragmentAdditionalBinaryFunctions);
}
// property: tileAdditionalBinaryFunctions
_MTL_INLINE NS::Array* MTL::RenderPipelineFunctionsDescriptor::tileAdditionalBinaryFunctions() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(tileAdditionalBinaryFunctions));
}
_MTL_INLINE void MTL::RenderPipelineFunctionsDescriptor::setTileAdditionalBinaryFunctions(const NS::Array* tileAdditionalBinaryFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTileAdditionalBinaryFunctions_), tileAdditionalBinaryFunctions);
}
// property: label
_MTL_INLINE NS::String* MTL::RenderPipelineState::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
// property: device
_MTL_INLINE MTL::Device* MTL::RenderPipelineState::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: maxTotalThreadsPerThreadgroup
_MTL_INLINE NS::UInteger MTL::RenderPipelineState::maxTotalThreadsPerThreadgroup() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadsPerThreadgroup));
}
// property: threadgroupSizeMatchesTileSize
_MTL_INLINE bool MTL::RenderPipelineState::threadgroupSizeMatchesTileSize() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(threadgroupSizeMatchesTileSize));
}
// property: imageblockSampleLength
_MTL_INLINE NS::UInteger MTL::RenderPipelineState::imageblockSampleLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(imageblockSampleLength));
}
// method: imageblockMemoryLengthForDimensions:
_MTL_INLINE NS::UInteger MTL::RenderPipelineState::imageblockMemoryLength(MTL::Size imageblockDimensions)
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(imageblockMemoryLengthForDimensions_), imageblockDimensions);
}
// property: supportIndirectCommandBuffers
_MTL_INLINE bool MTL::RenderPipelineState::supportIndirectCommandBuffers() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportIndirectCommandBuffers));
}
// property: maxTotalThreadsPerObjectThreadgroup
_MTL_INLINE NS::UInteger MTL::RenderPipelineState::maxTotalThreadsPerObjectThreadgroup() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadsPerObjectThreadgroup));
}
// property: maxTotalThreadsPerMeshThreadgroup
_MTL_INLINE NS::UInteger MTL::RenderPipelineState::maxTotalThreadsPerMeshThreadgroup() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadsPerMeshThreadgroup));
}
// property: objectThreadExecutionWidth
_MTL_INLINE NS::UInteger MTL::RenderPipelineState::objectThreadExecutionWidth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(objectThreadExecutionWidth));
}
// property: meshThreadExecutionWidth
_MTL_INLINE NS::UInteger MTL::RenderPipelineState::meshThreadExecutionWidth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(meshThreadExecutionWidth));
}
// property: maxTotalThreadgroupsPerMeshGrid
_MTL_INLINE NS::UInteger MTL::RenderPipelineState::maxTotalThreadgroupsPerMeshGrid() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadgroupsPerMeshGrid));
}
// property: gpuResourceID
_MTL_INLINE MTL::ResourceID MTL::RenderPipelineState::gpuResourceID() const
{
return Object::sendMessage<MTL::ResourceID>(this, _MTL_PRIVATE_SEL(gpuResourceID));
}
// method: functionHandleWithFunction:stage:
_MTL_INLINE MTL::FunctionHandle* MTL::RenderPipelineState::functionHandle(const MTL::Function* function, MTL::RenderStages stage)
{
return Object::sendMessage<MTL::FunctionHandle*>(this, _MTL_PRIVATE_SEL(functionHandleWithFunction_stage_), function, stage);
}
// method: newVisibleFunctionTableWithDescriptor:stage:
_MTL_INLINE MTL::VisibleFunctionTable* MTL::RenderPipelineState::newVisibleFunctionTable(const MTL::VisibleFunctionTableDescriptor* descriptor, MTL::RenderStages stage)
{
return Object::sendMessage<MTL::VisibleFunctionTable*>(this, _MTL_PRIVATE_SEL(newVisibleFunctionTableWithDescriptor_stage_), descriptor, stage);
}
// method: newIntersectionFunctionTableWithDescriptor:stage:
_MTL_INLINE MTL::IntersectionFunctionTable* MTL::RenderPipelineState::newIntersectionFunctionTable(const MTL::IntersectionFunctionTableDescriptor* descriptor, MTL::RenderStages stage)
{
return Object::sendMessage<MTL::IntersectionFunctionTable*>(this, _MTL_PRIVATE_SEL(newIntersectionFunctionTableWithDescriptor_stage_), descriptor, stage);
}
// method: newRenderPipelineStateWithAdditionalBinaryFunctions:error:
_MTL_INLINE MTL::RenderPipelineState* MTL::RenderPipelineState::newRenderPipelineState(const MTL::RenderPipelineFunctionsDescriptor* additionalBinaryFunctions, NS::Error** error)
{
return Object::sendMessage<MTL::RenderPipelineState*>(this, _MTL_PRIVATE_SEL(newRenderPipelineStateWithAdditionalBinaryFunctions_error_), additionalBinaryFunctions, error);
}
// static method: alloc
_MTL_INLINE MTL::RenderPipelineColorAttachmentDescriptorArray* MTL::RenderPipelineColorAttachmentDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::RenderPipelineColorAttachmentDescriptorArray>(_MTL_PRIVATE_CLS(MTLRenderPipelineColorAttachmentDescriptorArray));
}
// method: init
_MTL_INLINE MTL::RenderPipelineColorAttachmentDescriptorArray* MTL::RenderPipelineColorAttachmentDescriptorArray::init()
{
return NS::Object::init<MTL::RenderPipelineColorAttachmentDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::RenderPipelineColorAttachmentDescriptor* MTL::RenderPipelineColorAttachmentDescriptorArray::object(NS::UInteger attachmentIndex)
{
return Object::sendMessage<MTL::RenderPipelineColorAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), attachmentIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::RenderPipelineColorAttachmentDescriptorArray::setObject(const MTL::RenderPipelineColorAttachmentDescriptor* attachment, NS::UInteger attachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attachment, attachmentIndex);
}
// static method: alloc
_MTL_INLINE MTL::TileRenderPipelineColorAttachmentDescriptor* MTL::TileRenderPipelineColorAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::TileRenderPipelineColorAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLTileRenderPipelineColorAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::TileRenderPipelineColorAttachmentDescriptor* MTL::TileRenderPipelineColorAttachmentDescriptor::init()
{
return NS::Object::init<MTL::TileRenderPipelineColorAttachmentDescriptor>();
}
// property: pixelFormat
_MTL_INLINE MTL::PixelFormat MTL::TileRenderPipelineColorAttachmentDescriptor::pixelFormat() const
{
return Object::sendMessage<MTL::PixelFormat>(this, _MTL_PRIVATE_SEL(pixelFormat));
}
_MTL_INLINE void MTL::TileRenderPipelineColorAttachmentDescriptor::setPixelFormat(MTL::PixelFormat pixelFormat)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPixelFormat_), pixelFormat);
}
// static method: alloc
_MTL_INLINE MTL::TileRenderPipelineColorAttachmentDescriptorArray* MTL::TileRenderPipelineColorAttachmentDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::TileRenderPipelineColorAttachmentDescriptorArray>(_MTL_PRIVATE_CLS(MTLTileRenderPipelineColorAttachmentDescriptorArray));
}
// method: init
_MTL_INLINE MTL::TileRenderPipelineColorAttachmentDescriptorArray* MTL::TileRenderPipelineColorAttachmentDescriptorArray::init()
{
return NS::Object::init<MTL::TileRenderPipelineColorAttachmentDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::TileRenderPipelineColorAttachmentDescriptor* MTL::TileRenderPipelineColorAttachmentDescriptorArray::object(NS::UInteger attachmentIndex)
{
return Object::sendMessage<MTL::TileRenderPipelineColorAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), attachmentIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::TileRenderPipelineColorAttachmentDescriptorArray::setObject(const MTL::TileRenderPipelineColorAttachmentDescriptor* attachment, NS::UInteger attachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attachment, attachmentIndex);
}
// static method: alloc
_MTL_INLINE MTL::TileRenderPipelineDescriptor* MTL::TileRenderPipelineDescriptor::alloc()
{
return NS::Object::alloc<MTL::TileRenderPipelineDescriptor>(_MTL_PRIVATE_CLS(MTLTileRenderPipelineDescriptor));
}
// method: init
_MTL_INLINE MTL::TileRenderPipelineDescriptor* MTL::TileRenderPipelineDescriptor::init()
{
return NS::Object::init<MTL::TileRenderPipelineDescriptor>();
}
// property: label
_MTL_INLINE NS::String* MTL::TileRenderPipelineDescriptor::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: tileFunction
_MTL_INLINE MTL::Function* MTL::TileRenderPipelineDescriptor::tileFunction() const
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(tileFunction));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setTileFunction(const MTL::Function* tileFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTileFunction_), tileFunction);
}
// property: rasterSampleCount
_MTL_INLINE NS::UInteger MTL::TileRenderPipelineDescriptor::rasterSampleCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(rasterSampleCount));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setRasterSampleCount(NS::UInteger rasterSampleCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRasterSampleCount_), rasterSampleCount);
}
// property: colorAttachments
_MTL_INLINE MTL::TileRenderPipelineColorAttachmentDescriptorArray* MTL::TileRenderPipelineDescriptor::colorAttachments() const
{
return Object::sendMessage<MTL::TileRenderPipelineColorAttachmentDescriptorArray*>(this, _MTL_PRIVATE_SEL(colorAttachments));
}
// property: threadgroupSizeMatchesTileSize
_MTL_INLINE bool MTL::TileRenderPipelineDescriptor::threadgroupSizeMatchesTileSize() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(threadgroupSizeMatchesTileSize));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setThreadgroupSizeMatchesTileSize(bool threadgroupSizeMatchesTileSize)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setThreadgroupSizeMatchesTileSize_), threadgroupSizeMatchesTileSize);
}
// property: tileBuffers
_MTL_INLINE MTL::PipelineBufferDescriptorArray* MTL::TileRenderPipelineDescriptor::tileBuffers() const
{
return Object::sendMessage<MTL::PipelineBufferDescriptorArray*>(this, _MTL_PRIVATE_SEL(tileBuffers));
}
// property: maxTotalThreadsPerThreadgroup
_MTL_INLINE NS::UInteger MTL::TileRenderPipelineDescriptor::maxTotalThreadsPerThreadgroup() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadsPerThreadgroup));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setMaxTotalThreadsPerThreadgroup(NS::UInteger maxTotalThreadsPerThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxTotalThreadsPerThreadgroup_), maxTotalThreadsPerThreadgroup);
}
// property: binaryArchives
_MTL_INLINE NS::Array* MTL::TileRenderPipelineDescriptor::binaryArchives() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(binaryArchives));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setBinaryArchives(const NS::Array* binaryArchives)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBinaryArchives_), binaryArchives);
}
// property: preloadedLibraries
_MTL_INLINE NS::Array* MTL::TileRenderPipelineDescriptor::preloadedLibraries() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(preloadedLibraries));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setPreloadedLibraries(const NS::Array* preloadedLibraries)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPreloadedLibraries_), preloadedLibraries);
}
// property: linkedFunctions
_MTL_INLINE MTL::LinkedFunctions* MTL::TileRenderPipelineDescriptor::linkedFunctions() const
{
return Object::sendMessage<MTL::LinkedFunctions*>(this, _MTL_PRIVATE_SEL(linkedFunctions));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setLinkedFunctions(const MTL::LinkedFunctions* linkedFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLinkedFunctions_), linkedFunctions);
}
// property: supportAddingBinaryFunctions
_MTL_INLINE bool MTL::TileRenderPipelineDescriptor::supportAddingBinaryFunctions() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportAddingBinaryFunctions));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setSupportAddingBinaryFunctions(bool supportAddingBinaryFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportAddingBinaryFunctions_), supportAddingBinaryFunctions);
}
// property: maxCallStackDepth
_MTL_INLINE NS::UInteger MTL::TileRenderPipelineDescriptor::maxCallStackDepth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxCallStackDepth));
}
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::setMaxCallStackDepth(NS::UInteger maxCallStackDepth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxCallStackDepth_), maxCallStackDepth);
}
// method: reset
_MTL_INLINE void MTL::TileRenderPipelineDescriptor::reset()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(reset));
}
// static method: alloc
_MTL_INLINE MTL::MeshRenderPipelineDescriptor* MTL::MeshRenderPipelineDescriptor::alloc()
{
return NS::Object::alloc<MTL::MeshRenderPipelineDescriptor>(_MTL_PRIVATE_CLS(MTLMeshRenderPipelineDescriptor));
}
// method: init
_MTL_INLINE MTL::MeshRenderPipelineDescriptor* MTL::MeshRenderPipelineDescriptor::init()
{
return NS::Object::init<MTL::MeshRenderPipelineDescriptor>();
}
// property: label
_MTL_INLINE NS::String* MTL::MeshRenderPipelineDescriptor::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: objectFunction
_MTL_INLINE MTL::Function* MTL::MeshRenderPipelineDescriptor::objectFunction() const
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(objectFunction));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setObjectFunction(const MTL::Function* objectFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObjectFunction_), objectFunction);
}
// property: meshFunction
_MTL_INLINE MTL::Function* MTL::MeshRenderPipelineDescriptor::meshFunction() const
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(meshFunction));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setMeshFunction(const MTL::Function* meshFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMeshFunction_), meshFunction);
}
// property: fragmentFunction
_MTL_INLINE MTL::Function* MTL::MeshRenderPipelineDescriptor::fragmentFunction() const
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(fragmentFunction));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setFragmentFunction(const MTL::Function* fragmentFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFragmentFunction_), fragmentFunction);
}
// property: maxTotalThreadsPerObjectThreadgroup
_MTL_INLINE NS::UInteger MTL::MeshRenderPipelineDescriptor::maxTotalThreadsPerObjectThreadgroup() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadsPerObjectThreadgroup));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setMaxTotalThreadsPerObjectThreadgroup(NS::UInteger maxTotalThreadsPerObjectThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxTotalThreadsPerObjectThreadgroup_), maxTotalThreadsPerObjectThreadgroup);
}
// property: maxTotalThreadsPerMeshThreadgroup
_MTL_INLINE NS::UInteger MTL::MeshRenderPipelineDescriptor::maxTotalThreadsPerMeshThreadgroup() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadsPerMeshThreadgroup));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setMaxTotalThreadsPerMeshThreadgroup(NS::UInteger maxTotalThreadsPerMeshThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxTotalThreadsPerMeshThreadgroup_), maxTotalThreadsPerMeshThreadgroup);
}
// property: objectThreadgroupSizeIsMultipleOfThreadExecutionWidth
_MTL_INLINE bool MTL::MeshRenderPipelineDescriptor::objectThreadgroupSizeIsMultipleOfThreadExecutionWidth() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(objectThreadgroupSizeIsMultipleOfThreadExecutionWidth));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setObjectThreadgroupSizeIsMultipleOfThreadExecutionWidth(bool objectThreadgroupSizeIsMultipleOfThreadExecutionWidth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObjectThreadgroupSizeIsMultipleOfThreadExecutionWidth_), objectThreadgroupSizeIsMultipleOfThreadExecutionWidth);
}
// property: meshThreadgroupSizeIsMultipleOfThreadExecutionWidth
_MTL_INLINE bool MTL::MeshRenderPipelineDescriptor::meshThreadgroupSizeIsMultipleOfThreadExecutionWidth() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(meshThreadgroupSizeIsMultipleOfThreadExecutionWidth));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setMeshThreadgroupSizeIsMultipleOfThreadExecutionWidth(bool meshThreadgroupSizeIsMultipleOfThreadExecutionWidth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMeshThreadgroupSizeIsMultipleOfThreadExecutionWidth_), meshThreadgroupSizeIsMultipleOfThreadExecutionWidth);
}
// property: payloadMemoryLength
_MTL_INLINE NS::UInteger MTL::MeshRenderPipelineDescriptor::payloadMemoryLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(payloadMemoryLength));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setPayloadMemoryLength(NS::UInteger payloadMemoryLength)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPayloadMemoryLength_), payloadMemoryLength);
}
// property: maxTotalThreadgroupsPerMeshGrid
_MTL_INLINE NS::UInteger MTL::MeshRenderPipelineDescriptor::maxTotalThreadgroupsPerMeshGrid() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadgroupsPerMeshGrid));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setMaxTotalThreadgroupsPerMeshGrid(NS::UInteger maxTotalThreadgroupsPerMeshGrid)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxTotalThreadgroupsPerMeshGrid_), maxTotalThreadgroupsPerMeshGrid);
}
// property: objectBuffers
_MTL_INLINE MTL::PipelineBufferDescriptorArray* MTL::MeshRenderPipelineDescriptor::objectBuffers() const
{
return Object::sendMessage<MTL::PipelineBufferDescriptorArray*>(this, _MTL_PRIVATE_SEL(objectBuffers));
}
// property: meshBuffers
_MTL_INLINE MTL::PipelineBufferDescriptorArray* MTL::MeshRenderPipelineDescriptor::meshBuffers() const
{
return Object::sendMessage<MTL::PipelineBufferDescriptorArray*>(this, _MTL_PRIVATE_SEL(meshBuffers));
}
// property: fragmentBuffers
_MTL_INLINE MTL::PipelineBufferDescriptorArray* MTL::MeshRenderPipelineDescriptor::fragmentBuffers() const
{
return Object::sendMessage<MTL::PipelineBufferDescriptorArray*>(this, _MTL_PRIVATE_SEL(fragmentBuffers));
}
// property: rasterSampleCount
_MTL_INLINE NS::UInteger MTL::MeshRenderPipelineDescriptor::rasterSampleCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(rasterSampleCount));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setRasterSampleCount(NS::UInteger rasterSampleCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRasterSampleCount_), rasterSampleCount);
}
// property: alphaToCoverageEnabled
_MTL_INLINE bool MTL::MeshRenderPipelineDescriptor::alphaToCoverageEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isAlphaToCoverageEnabled));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setAlphaToCoverageEnabled(bool alphaToCoverageEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAlphaToCoverageEnabled_), alphaToCoverageEnabled);
}
// property: alphaToOneEnabled
_MTL_INLINE bool MTL::MeshRenderPipelineDescriptor::alphaToOneEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isAlphaToOneEnabled));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setAlphaToOneEnabled(bool alphaToOneEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAlphaToOneEnabled_), alphaToOneEnabled);
}
// property: rasterizationEnabled
_MTL_INLINE bool MTL::MeshRenderPipelineDescriptor::rasterizationEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isRasterizationEnabled));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setRasterizationEnabled(bool rasterizationEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRasterizationEnabled_), rasterizationEnabled);
}
// property: maxVertexAmplificationCount
_MTL_INLINE NS::UInteger MTL::MeshRenderPipelineDescriptor::maxVertexAmplificationCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxVertexAmplificationCount));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setMaxVertexAmplificationCount(NS::UInteger maxVertexAmplificationCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxVertexAmplificationCount_), maxVertexAmplificationCount);
}
// property: colorAttachments
_MTL_INLINE MTL::RenderPipelineColorAttachmentDescriptorArray* MTL::MeshRenderPipelineDescriptor::colorAttachments() const
{
return Object::sendMessage<MTL::RenderPipelineColorAttachmentDescriptorArray*>(this, _MTL_PRIVATE_SEL(colorAttachments));
}
// property: depthAttachmentPixelFormat
_MTL_INLINE MTL::PixelFormat MTL::MeshRenderPipelineDescriptor::depthAttachmentPixelFormat() const
{
return Object::sendMessage<MTL::PixelFormat>(this, _MTL_PRIVATE_SEL(depthAttachmentPixelFormat));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setDepthAttachmentPixelFormat(MTL::PixelFormat depthAttachmentPixelFormat)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthAttachmentPixelFormat_), depthAttachmentPixelFormat);
}
// property: stencilAttachmentPixelFormat
_MTL_INLINE MTL::PixelFormat MTL::MeshRenderPipelineDescriptor::stencilAttachmentPixelFormat() const
{
return Object::sendMessage<MTL::PixelFormat>(this, _MTL_PRIVATE_SEL(stencilAttachmentPixelFormat));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setStencilAttachmentPixelFormat(MTL::PixelFormat stencilAttachmentPixelFormat)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStencilAttachmentPixelFormat_), stencilAttachmentPixelFormat);
}
// property: supportIndirectCommandBuffers
_MTL_INLINE bool MTL::MeshRenderPipelineDescriptor::supportIndirectCommandBuffers() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportIndirectCommandBuffers));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setSupportIndirectCommandBuffers(bool supportIndirectCommandBuffers)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportIndirectCommandBuffers_), supportIndirectCommandBuffers);
}
// property: objectLinkedFunctions
_MTL_INLINE MTL::LinkedFunctions* MTL::MeshRenderPipelineDescriptor::objectLinkedFunctions() const
{
return Object::sendMessage<MTL::LinkedFunctions*>(this, _MTL_PRIVATE_SEL(objectLinkedFunctions));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setObjectLinkedFunctions(const MTL::LinkedFunctions* objectLinkedFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObjectLinkedFunctions_), objectLinkedFunctions);
}
// property: meshLinkedFunctions
_MTL_INLINE MTL::LinkedFunctions* MTL::MeshRenderPipelineDescriptor::meshLinkedFunctions() const
{
return Object::sendMessage<MTL::LinkedFunctions*>(this, _MTL_PRIVATE_SEL(meshLinkedFunctions));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setMeshLinkedFunctions(const MTL::LinkedFunctions* meshLinkedFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMeshLinkedFunctions_), meshLinkedFunctions);
}
// property: fragmentLinkedFunctions
_MTL_INLINE MTL::LinkedFunctions* MTL::MeshRenderPipelineDescriptor::fragmentLinkedFunctions() const
{
return Object::sendMessage<MTL::LinkedFunctions*>(this, _MTL_PRIVATE_SEL(fragmentLinkedFunctions));
}
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::setFragmentLinkedFunctions(const MTL::LinkedFunctions* fragmentLinkedFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFragmentLinkedFunctions_), fragmentLinkedFunctions);
}
// method: reset
_MTL_INLINE void MTL::MeshRenderPipelineDescriptor::reset()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(reset));
}