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53 Commits

Author SHA1 Message Date
Samuliak 8ff1ce68c3
metal: flip y texture coordinate 2024-04-10 19:55:56 +02:00
Samuliak e3ab4c6349
metal: minimalize texture hardcoding 2024-04-10 17:41:45 +02:00
Samuliak 98c4ff461f
metal: don't bind resources that are already bound 2024-04-10 17:20:24 +02:00
Samuliak 4771cd1602
fix(metal): fix incorrect size in buffer to image copy 2024-04-10 17:03:55 +02:00
Samuliak 2f9fd5d69c
metal: set texture usage flags 2024-04-09 19:59:27 +02:00
Samuliak f5830983be
metal: bind sampler to shader 2024-04-09 18:52:25 +02:00
Samuliak 1a284e4bb7
metal: translate pixel formats 2024-04-09 17:30:55 +02:00
Samuliak efda44779f
fix(metal): fix buffer to texture copy 2024-04-09 16:31:04 +02:00
Samuliak 786cd8a708
metal: implement buffer to texture copy 2024-04-09 15:49:12 +02:00
Samuliak 0a2227d1f8
metal: bind and sample from texture 2024-04-09 15:23:44 +02:00
Samuliak a00d9a9027
metal: translate shaders to spirv 2024-04-08 18:52:31 +02:00
Samuliak 67dab8b8d8
metal: do not release null mtl textures 2024-04-08 18:30:04 +02:00
Samuliak 40eca20e12
metal: implement buffer to buffer copy 2024-04-08 17:03:25 +02:00
Samuliak 3fa495840a
metal: configure pipeline before drawing 2024-04-08 16:47:08 +02:00
Samuliak 22ec7e72f0
metal: do not begin render pass if already active 2024-04-08 16:36:29 +02:00
Samuliak 2c38fa1a35
metal: add render pass interruption notice 2024-04-08 16:27:28 +02:00
Exverge 4ea55a855a
fix: clang format 2024-04-07 14:03:32 -04:00
Samuliak 90b8671ddb
metal: bind pipeline and draw for the first time 2024-04-07 18:46:01 +02:00
Samuliak 4d700ac01c
metal: create pipeline cache at startup 2024-04-07 17:58:30 +02:00
Samuliak 58ac31e2be
metal: support buffer to buffer copy 2024-04-07 16:03:20 +02:00
Samuliak 081ad83490
metal: add basic compute pipeline 2024-04-07 15:51:11 +02:00
Samuliak a5e7672de5
metal: blit rendering result to drawable 2024-04-07 13:08:14 +02:00
Samuliak c8a717651c
metal: create basic graphics pipeline 2024-04-07 11:58:35 +02:00
Samuliak bc25c8831d
metal: test buffer creation 2024-04-07 09:25:03 +02:00
Samuliak b3e8d8d11f
metal: create buffer cache on startup 2024-04-07 09:06:15 +02:00
AMA2581 d33d50780e
adding swiftUI notice 2024-04-07 08:12:08 +03:30
Exverge 0feb0aa7a1
metal: todo a fix for NULL images 2024-04-06 23:15:48 -04:00
Exverge 32c49173ad
fix: clang format 2024-04-06 22:00:34 -04:00
Exverge c3584e6c39
metal: make metal-cpp a proper external 2024-04-06 21:55:33 -04:00
Exverge 76009b05a8
temp CI fix 2024-04-06 20:52:29 -04:00
Exverge 3f76e5b8d7
metal: logging 2024-04-06 20:51:23 -04:00
Samuliak 75386a5de7
metal: add missing copyright and license information 2024-04-06 20:42:17 +02:00
Samuliak 844eff564e Don't include objective C in the list of languages 2024-04-06 20:37:31 +02:00
Samuliak 897e0dfdc0 metal: use metal cpp 2024-04-06 20:33:10 +02:00
Samuliak cc0cde9c3f Add metal-cpp to externals 2024-04-06 20:33:10 +02:00
Exverge 74c1c77973
fix: check if apple before enabling objc
Some compilers either only compile to an objc v1 or don't compile it at all, while it most likely wouldn't cause issues I added this just in case we stay on objc
2024-04-06 12:22:43 -04:00
Samuliak 3c82b81899
metal: change license identifiers to GPL-2.0-or-later 2024-04-06 17:50:45 +02:00
Samuliak e947a06441
fix: include metal renderer in ALL_LOG_CLASSES 2024-04-06 17:46:31 +02:00
Samuliak ef8b77c9a3
metal: do not release not existing buffers 2024-04-06 17:35:12 +02:00
Samuliak e87893ec42 metal: add basic buffer cache 2024-04-06 17:28:56 +02:00
Samuliak 19503fd643 metal: print debug messages 2024-04-06 17:28:56 +02:00
Exverge e4d2bcaaeb
Add Metal as a Logging class
Signed-off-by: Exverge <exverge@exverge.xyz>
2024-04-06 11:17:49 -04:00
Samuliak 789bc69281 metal: add info about command recorder memory leaks 2024-04-06 12:42:19 +02:00
Samuliak 863842948b metal: use texture cache to create textures render passes 2024-04-06 12:39:24 +02:00
Samuliak 88154b6c6d metal: add file copyright text to new files 2024-04-06 10:21:35 +02:00
Samuliak c740bf21d2 metal: update license identifiers 2024-04-06 10:13:35 +02:00
Samuliak 3df0977948 Merge branch 'macOSbranch-ama25' into metal-dev
initial metal backend
2024-04-06 09:58:40 +02:00
Samuliak 82b3fcca18 metal: create texture cache in rasterizer 2024-04-06 09:55:26 +02:00
Samuliak ea5dc91b9d metal: add basic staging buffer pool and texture cache 2024-04-06 08:55:11 +02:00
Samuliak 35b751de1b metal: add command recorder for command management 2024-04-05 17:10:21 +02:00
Samuliak 79ff60356d metal: create swap chain to manage metal layer 2024-04-05 16:21:39 +02:00
Samuliak 380af618d3 metal: draw to on-screen qwidget 2024-04-05 14:19:07 +02:00
Samuliak 7ea460a800 metal: initial support 2024-04-05 06:35:06 +02:00
139 changed files with 30765 additions and 7 deletions

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@ -19,7 +19,7 @@ on:
# paths-ignore:
# - 'src/android/**'
push:
branches: [ "dev" ]
branches: [ "dev", "metal-dev" ]
paths:
- 'src/**'
- 'CMakeModules/**'

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@ -321,3 +321,8 @@ if (ARCHITECTURE_arm64 AND NOT TARGET sse2neon)
target_include_directories(sse2neon INTERFACE sse2neon)
endif()
# metal-cpp
if (APPLE)
add_library(metal-cpp INTERFACE)
target_include_directories(metal-cpp INTERFACE metal-cpp)
endif()

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@ -0,0 +1,47 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/Foundation.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 "NSArray.hpp"
#include "NSAutoreleasePool.hpp"
#include "NSBundle.hpp"
#include "NSData.hpp"
#include "NSDate.hpp"
#include "NSDefines.hpp"
#include "NSDictionary.hpp"
#include "NSEnumerator.hpp"
#include "NSError.hpp"
#include "NSLock.hpp"
#include "NSNotification.hpp"
#include "NSNumber.hpp"
#include "NSObject.hpp"
#include "NSPrivate.hpp"
#include "NSProcessInfo.hpp"
#include "NSRange.hpp"
#include "NSSet.hpp"
#include "NSSharedPtr.hpp"
#include "NSString.hpp"
#include "NSTypes.hpp"
#include "NSURL.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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@ -0,0 +1,115 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSArray.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 "NSObject.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
class Array : public Copying<Array>
{
public:
static Array* array();
static Array* array(const Object* pObject);
static Array* array(const Object* const* pObjects, UInteger count);
static Array* alloc();
Array* init();
Array* init(const Object* const* pObjects, UInteger count);
Array* init(const class Coder* pCoder);
template <class _Object = Object>
_Object* object(UInteger index) const;
UInteger count() const;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Array::array()
{
return Object::sendMessage<Array*>(_NS_PRIVATE_CLS(NSArray), _NS_PRIVATE_SEL(array));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Array::array(const Object* pObject)
{
return Object::sendMessage<Array*>(_NS_PRIVATE_CLS(NSArray), _NS_PRIVATE_SEL(arrayWithObject_), pObject);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Array::array(const Object* const* pObjects, UInteger count)
{
return Object::sendMessage<Array*>(_NS_PRIVATE_CLS(NSArray), _NS_PRIVATE_SEL(arrayWithObjects_count_), pObjects, count);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Array::alloc()
{
return NS::Object::alloc<Array>(_NS_PRIVATE_CLS(NSArray));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Array::init()
{
return NS::Object::init<Array>();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Array::init(const Object* const* pObjects, UInteger count)
{
return Object::sendMessage<Array*>(this, _NS_PRIVATE_SEL(initWithObjects_count_), pObjects, count);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Array::init(const class Coder* pCoder)
{
return Object::sendMessage<Array*>(this, _NS_PRIVATE_SEL(initWithCoder_), pCoder);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::Array::count() const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(count));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Object>
_NS_INLINE _Object* NS::Array::object(UInteger index) const
{
return Object::sendMessage<_Object*>(this, _NS_PRIVATE_SEL(objectAtIndex_), index);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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@ -0,0 +1,83 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSAutoreleasePool.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 "NSDefines.hpp"
#include "NSObject.hpp"
#include "NSPrivate.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
class AutoreleasePool : public Object
{
public:
static AutoreleasePool* alloc();
AutoreleasePool* init();
void drain();
void addObject(Object* pObject);
static void showPools();
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::AutoreleasePool* NS::AutoreleasePool::alloc()
{
return NS::Object::alloc<AutoreleasePool>(_NS_PRIVATE_CLS(NSAutoreleasePool));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::AutoreleasePool* NS::AutoreleasePool::init()
{
return NS::Object::init<AutoreleasePool>();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::AutoreleasePool::drain()
{
Object::sendMessage<void>(this, _NS_PRIVATE_SEL(drain));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::AutoreleasePool::addObject(Object* pObject)
{
Object::sendMessage<void>(this, _NS_PRIVATE_SEL(addObject_), pObject);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::AutoreleasePool::showPools()
{
Object::sendMessage<void>(_NS_PRIVATE_CLS(NSAutoreleasePool), _NS_PRIVATE_SEL(showPools));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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@ -0,0 +1,374 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSBundle.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 "NSDefines.hpp"
#include "NSNotification.hpp"
#include "NSObject.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
_NS_CONST(NotificationName, BundleDidLoadNotification);
_NS_CONST(NotificationName, BundleResourceRequestLowDiskSpaceNotification);
class String* LocalizedString(const String* pKey, const String*);
class String* LocalizedStringFromTable(const String* pKey, const String* pTbl, const String*);
class String* LocalizedStringFromTableInBundle(const String* pKey, const String* pTbl, const class Bundle* pBdle, const String*);
class String* LocalizedStringWithDefaultValue(const String* pKey, const String* pTbl, const class Bundle* pBdle, const String* pVal, const String*);
class Bundle : public Referencing<Bundle>
{
public:
static Bundle* mainBundle();
static Bundle* bundle(const class String* pPath);
static Bundle* bundle(const class URL* pURL);
static Bundle* alloc();
Bundle* init(const class String* pPath);
Bundle* init(const class URL* pURL);
class Array* allBundles() const;
class Array* allFrameworks() const;
bool load();
bool unload();
bool isLoaded() const;
bool preflightAndReturnError(class Error** pError) const;
bool loadAndReturnError(class Error** pError);
class URL* bundleURL() const;
class URL* resourceURL() const;
class URL* executableURL() const;
class URL* URLForAuxiliaryExecutable(const class String* pExecutableName) const;
class URL* privateFrameworksURL() const;
class URL* sharedFrameworksURL() const;
class URL* sharedSupportURL() const;
class URL* builtInPlugInsURL() const;
class URL* appStoreReceiptURL() const;
class String* bundlePath() const;
class String* resourcePath() const;
class String* executablePath() const;
class String* pathForAuxiliaryExecutable(const class String* pExecutableName) const;
class String* privateFrameworksPath() const;
class String* sharedFrameworksPath() const;
class String* sharedSupportPath() const;
class String* builtInPlugInsPath() const;
class String* bundleIdentifier() const;
class Dictionary* infoDictionary() const;
class Dictionary* localizedInfoDictionary() const;
class Object* objectForInfoDictionaryKey(const class String* pKey);
class String* localizedString(const class String* pKey, const class String* pValue = nullptr, const class String* pTableName = nullptr) const;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_PRIVATE_DEF_CONST(NS::NotificationName, BundleDidLoadNotification);
_NS_PRIVATE_DEF_CONST(NS::NotificationName, BundleResourceRequestLowDiskSpaceNotification);
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::LocalizedString(const String* pKey, const String*)
{
return Bundle::mainBundle()->localizedString(pKey, nullptr, nullptr);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::LocalizedStringFromTable(const String* pKey, const String* pTbl, const String*)
{
return Bundle::mainBundle()->localizedString(pKey, nullptr, pTbl);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::LocalizedStringFromTableInBundle(const String* pKey, const String* pTbl, const Bundle* pBdl, const String*)
{
return pBdl->localizedString(pKey, nullptr, pTbl);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::LocalizedStringWithDefaultValue(const String* pKey, const String* pTbl, const Bundle* pBdl, const String* pVal, const String*)
{
return pBdl->localizedString(pKey, pVal, pTbl);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Bundle* NS::Bundle::mainBundle()
{
return Object::sendMessage<Bundle*>(_NS_PRIVATE_CLS(NSBundle), _NS_PRIVATE_SEL(mainBundle));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Bundle* NS::Bundle::bundle(const class String* pPath)
{
return Object::sendMessage<Bundle*>(_NS_PRIVATE_CLS(NSBundle), _NS_PRIVATE_SEL(bundleWithPath_), pPath);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Bundle* NS::Bundle::bundle(const class URL* pURL)
{
return Object::sendMessage<Bundle*>(_NS_PRIVATE_CLS(NSBundle), _NS_PRIVATE_SEL(bundleWithURL_), pURL);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Bundle* NS::Bundle::alloc()
{
return Object::sendMessage<Bundle*>(_NS_PRIVATE_CLS(NSBundle), _NS_PRIVATE_SEL(alloc));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Bundle* NS::Bundle::init(const String* pPath)
{
return Object::sendMessage<Bundle*>(this, _NS_PRIVATE_SEL(initWithPath_), pPath);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Bundle* NS::Bundle::init(const URL* pURL)
{
return Object::sendMessage<Bundle*>(this, _NS_PRIVATE_SEL(initWithURL_), pURL);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Bundle::allBundles() const
{
return Object::sendMessage<Array*>(this, _NS_PRIVATE_SEL(allBundles));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Bundle::allFrameworks() const
{
return Object::sendMessage<Array*>(this, _NS_PRIVATE_SEL(allFrameworks));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Bundle::load()
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(load));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Bundle::unload()
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(unload));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Bundle::isLoaded() const
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(isLoaded));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Bundle::preflightAndReturnError(Error** pError) const
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(preflightAndReturnError_), pError);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Bundle::loadAndReturnError(Error** pError)
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(loadAndReturnError_), pError);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::Bundle::bundleURL() const
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(bundleURL));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::Bundle::resourceURL() const
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(resourceURL));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::Bundle::executableURL() const
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(executableURL));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::Bundle::URLForAuxiliaryExecutable(const String* pExecutableName) const
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(URLForAuxiliaryExecutable_), pExecutableName);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::Bundle::privateFrameworksURL() const
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(privateFrameworksURL));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::Bundle::sharedFrameworksURL() const
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(sharedFrameworksURL));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::Bundle::sharedSupportURL() const
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(sharedSupportURL));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::Bundle::builtInPlugInsURL() const
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(builtInPlugInsURL));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::Bundle::appStoreReceiptURL() const
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(appStoreReceiptURL));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::bundlePath() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(bundlePath));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::resourcePath() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(resourcePath));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::executablePath() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(executablePath));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::pathForAuxiliaryExecutable(const String* pExecutableName) const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(pathForAuxiliaryExecutable_), pExecutableName);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::privateFrameworksPath() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(privateFrameworksPath));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::sharedFrameworksPath() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(sharedFrameworksPath));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::sharedSupportPath() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(sharedSupportPath));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::builtInPlugInsPath() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(builtInPlugInsPath));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::bundleIdentifier() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(bundleIdentifier));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Bundle::infoDictionary() const
{
return Object::sendMessage<Dictionary*>(this, _NS_PRIVATE_SEL(infoDictionary));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Bundle::localizedInfoDictionary() const
{
return Object::sendMessage<Dictionary*>(this, _NS_PRIVATE_SEL(localizedInfoDictionary));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Object* NS::Bundle::objectForInfoDictionaryKey(const String* pKey)
{
return Object::sendMessage<Object*>(this, _NS_PRIVATE_SEL(objectForInfoDictionaryKey_), pKey);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Bundle::localizedString(const String* pKey, const String* pValue /* = nullptr */, const String* pTableName /* = nullptr */) const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(localizedStringForKey_value_table_), pKey, pValue, pTableName);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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@ -0,0 +1,54 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSData.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 "NSObject.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
class Data : public Copying<Data>
{
public:
void* mutableBytes() const;
UInteger length() const;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void* NS::Data::mutableBytes() const
{
return Object::sendMessage<void*>(this, _NS_PRIVATE_SEL(mutableBytes));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::Data::length() const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(length));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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@ -0,0 +1,53 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSDate.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 "NSDefines.hpp"
#include "NSObject.hpp"
#include "NSPrivate.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
using TimeInterval = double;
class Date : public Copying<Date>
{
public:
static Date* dateWithTimeIntervalSinceNow(TimeInterval secs);
};
} // NS
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Date* NS::Date::dateWithTimeIntervalSinceNow(NS::TimeInterval secs)
{
return NS::Object::sendMessage<NS::Date*>(_NS_PRIVATE_CLS(NSDate), _NS_PRIVATE_SEL(dateWithTimeIntervalSinceNow_), secs);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSDefines.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
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#define _NS_WEAK_IMPORT __attribute__((weak_import))
#ifdef METALCPP_SYMBOL_VISIBILITY_HIDDEN
#define _NS_EXPORT __attribute__((visibility("hidden")))
#else
#define _NS_EXPORT __attribute__((visibility("default")))
#endif // METALCPP_SYMBOL_VISIBILITY_HIDDEN
#define _NS_EXTERN extern "C" _NS_EXPORT
#define _NS_INLINE inline __attribute__((always_inline))
#define _NS_PACKED __attribute__((packed))
#define _NS_CONST(type, name) _NS_EXTERN type const name
#define _NS_ENUM(type, name) enum name : type
#define _NS_OPTIONS(type, name) \
using name = type; \
enum : name
#define _NS_CAST_TO_UINT(value) static_cast<NS::UInteger>(value)
#define _NS_VALIDATE_SIZE(ns, name) static_assert(sizeof(ns::name) == sizeof(ns##name), "size mismatch " #ns "::" #name)
#define _NS_VALIDATE_ENUM(ns, name) static_assert(_NS_CAST_TO_UINT(ns::name) == _NS_CAST_TO_UINT(ns##name), "value mismatch " #ns "::" #name)
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSDictionary.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 "NSEnumerator.hpp"
#include "NSObject.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
class Dictionary : public NS::Copying<Dictionary>
{
public:
static Dictionary* dictionary();
static Dictionary* dictionary(const Object* pObject, const Object* pKey);
static Dictionary* dictionary(const Object* const* pObjects, const Object* const* pKeys, UInteger count);
static Dictionary* alloc();
Dictionary* init();
Dictionary* init(const Object* const* pObjects, const Object* const* pKeys, UInteger count);
Dictionary* init(const class Coder* pCoder);
template <class _KeyType = Object>
Enumerator<_KeyType>* keyEnumerator() const;
template <class _Object = Object>
_Object* object(const Object* pKey) const;
UInteger count() const;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Dictionary::dictionary()
{
return Object::sendMessage<Dictionary*>(_NS_PRIVATE_CLS(NSDictionary), _NS_PRIVATE_SEL(dictionary));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Dictionary::dictionary(const Object* pObject, const Object* pKey)
{
return Object::sendMessage<Dictionary*>(_NS_PRIVATE_CLS(NSDictionary), _NS_PRIVATE_SEL(dictionaryWithObject_forKey_), pObject, pKey);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Dictionary::dictionary(const Object* const* pObjects, const Object* const* pKeys, UInteger count)
{
return Object::sendMessage<Dictionary*>(_NS_PRIVATE_CLS(NSDictionary), _NS_PRIVATE_SEL(dictionaryWithObjects_forKeys_count_),
pObjects, pKeys, count);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Dictionary::alloc()
{
return NS::Object::alloc<Dictionary>(_NS_PRIVATE_CLS(NSDictionary));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Dictionary::init()
{
return NS::Object::init<Dictionary>();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Dictionary::init(const Object* const* pObjects, const Object* const* pKeys, UInteger count)
{
return Object::sendMessage<Dictionary*>(this, _NS_PRIVATE_SEL(initWithObjects_forKeys_count_), pObjects, pKeys, count);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Dictionary::init(const class Coder* pCoder)
{
return Object::sendMessage<Dictionary*>(this, _NS_PRIVATE_SEL(initWithCoder_), pCoder);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _KeyType>
_NS_INLINE NS::Enumerator<_KeyType>* NS::Dictionary::keyEnumerator() const
{
return Object::sendMessage<Enumerator<_KeyType>*>(this, _NS_PRIVATE_SEL(keyEnumerator));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Object>
_NS_INLINE _Object* NS::Dictionary::object(const Object* pKey) const
{
return Object::sendMessage<_Object*>(this, _NS_PRIVATE_SEL(objectForKey_), pKey);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::Dictionary::count() const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(count));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSEnumerator.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 "NSObject.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
struct FastEnumerationState
{
unsigned long state;
Object** itemsPtr;
unsigned long* mutationsPtr;
unsigned long extra[5];
} _NS_PACKED;
class FastEnumeration : public Referencing<FastEnumeration>
{
public:
NS::UInteger countByEnumerating(FastEnumerationState* pState, Object** pBuffer, NS::UInteger len);
};
template <class _ObjectType>
class Enumerator : public Referencing<Enumerator<_ObjectType>, FastEnumeration>
{
public:
_ObjectType* nextObject();
class Array* allObjects();
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::FastEnumeration::countByEnumerating(FastEnumerationState* pState, Object** pBuffer, NS::UInteger len)
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(countByEnumeratingWithState_objects_count_), pState, pBuffer, len);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _ObjectType>
_NS_INLINE _ObjectType* NS::Enumerator<_ObjectType>::nextObject()
{
return Object::sendMessage<_ObjectType*>(this, _NS_PRIVATE_SEL(nextObject));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _ObjectType>
_NS_INLINE NS::Array* NS::Enumerator<_ObjectType>::allObjects()
{
return Object::sendMessage<Array*>(this, _NS_PRIVATE_SEL(allObjects));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSError.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 "NSDefines.hpp"
#include "NSObject.hpp"
#include "NSPrivate.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
using ErrorDomain = class String*;
_NS_CONST(ErrorDomain, CocoaErrorDomain);
_NS_CONST(ErrorDomain, POSIXErrorDomain);
_NS_CONST(ErrorDomain, OSStatusErrorDomain);
_NS_CONST(ErrorDomain, MachErrorDomain);
using ErrorUserInfoKey = class String*;
_NS_CONST(ErrorUserInfoKey, UnderlyingErrorKey);
_NS_CONST(ErrorUserInfoKey, LocalizedDescriptionKey);
_NS_CONST(ErrorUserInfoKey, LocalizedFailureReasonErrorKey);
_NS_CONST(ErrorUserInfoKey, LocalizedRecoverySuggestionErrorKey);
_NS_CONST(ErrorUserInfoKey, LocalizedRecoveryOptionsErrorKey);
_NS_CONST(ErrorUserInfoKey, RecoveryAttempterErrorKey);
_NS_CONST(ErrorUserInfoKey, HelpAnchorErrorKey);
_NS_CONST(ErrorUserInfoKey, DebugDescriptionErrorKey);
_NS_CONST(ErrorUserInfoKey, LocalizedFailureErrorKey);
_NS_CONST(ErrorUserInfoKey, StringEncodingErrorKey);
_NS_CONST(ErrorUserInfoKey, URLErrorKey);
_NS_CONST(ErrorUserInfoKey, FilePathErrorKey);
class Error : public Copying<Error>
{
public:
static Error* error(ErrorDomain domain, Integer code, class Dictionary* pDictionary);
static Error* alloc();
Error* init();
Error* init(ErrorDomain domain, Integer code, class Dictionary* pDictionary);
Integer code() const;
ErrorDomain domain() const;
class Dictionary* userInfo() const;
class String* localizedDescription() const;
class Array* localizedRecoveryOptions() const;
class String* localizedRecoverySuggestion() const;
class String* localizedFailureReason() const;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_PRIVATE_DEF_CONST(NS::ErrorDomain, CocoaErrorDomain);
_NS_PRIVATE_DEF_CONST(NS::ErrorDomain, POSIXErrorDomain);
_NS_PRIVATE_DEF_CONST(NS::ErrorDomain, OSStatusErrorDomain);
_NS_PRIVATE_DEF_CONST(NS::ErrorDomain, MachErrorDomain);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, UnderlyingErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, LocalizedDescriptionKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, LocalizedFailureReasonErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, LocalizedRecoverySuggestionErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, LocalizedRecoveryOptionsErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, RecoveryAttempterErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, HelpAnchorErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, DebugDescriptionErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, LocalizedFailureErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, StringEncodingErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, URLErrorKey);
_NS_PRIVATE_DEF_CONST(NS::ErrorUserInfoKey, FilePathErrorKey);
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Error* NS::Error::error(ErrorDomain domain, Integer code, class Dictionary* pDictionary)
{
return Object::sendMessage<Error*>(_NS_PRIVATE_CLS(NSError), _NS_PRIVATE_SEL(errorWithDomain_code_userInfo_), domain, code, pDictionary);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Error* NS::Error::alloc()
{
return Object::alloc<Error>(_NS_PRIVATE_CLS(NSError));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Error* NS::Error::init()
{
return Object::init<Error>();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Error* NS::Error::init(ErrorDomain domain, Integer code, class Dictionary* pDictionary)
{
return Object::sendMessage<Error*>(this, _NS_PRIVATE_SEL(initWithDomain_code_userInfo_), domain, code, pDictionary);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Integer NS::Error::code() const
{
return Object::sendMessage<Integer>(this, _NS_PRIVATE_SEL(code));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::ErrorDomain NS::Error::domain() const
{
return Object::sendMessage<ErrorDomain>(this, _NS_PRIVATE_SEL(domain));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Error::userInfo() const
{
return Object::sendMessage<Dictionary*>(this, _NS_PRIVATE_SEL(userInfo));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Error::localizedDescription() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(localizedDescription));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::Error::localizedRecoveryOptions() const
{
return Object::sendMessage<Array*>(this, _NS_PRIVATE_SEL(localizedRecoveryOptions));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Error::localizedRecoverySuggestion() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(localizedRecoverySuggestion));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Error::localizedFailureReason() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(localizedFailureReason));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSLock.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 "NSDefines.hpp"
#include "NSObject.hpp"
#include "NSPrivate.hpp"
#include "NSTypes.hpp"
#include "NSDate.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
template <class _Class, class _Base = class Object>
class Locking : public _Base
{
public:
void lock();
void unlock();
};
class Condition : public Locking<Condition>
{
public:
static Condition* alloc();
Condition* init();
void wait();
bool waitUntilDate(Date* pLimit);
void signal();
void broadcast();
};
} // NS
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template<class _Class, class _Base /* = NS::Object */>
_NS_INLINE void NS::Locking<_Class, _Base>::lock()
{
NS::Object::sendMessage<void>(this, _NS_PRIVATE_SEL(lock));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template<class _Class, class _Base /* = NS::Object */>
_NS_INLINE void NS::Locking<_Class, _Base>::unlock()
{
NS::Object::sendMessage<void>(this, _NS_PRIVATE_SEL(unlock));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Condition* NS::Condition::alloc()
{
return NS::Object::alloc<NS::Condition>(_NS_PRIVATE_CLS(NSCondition));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Condition* NS::Condition::init()
{
return NS::Object::init<NS::Condition>();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::Condition::wait()
{
NS::Object::sendMessage<void>(this, _NS_PRIVATE_SEL(wait));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Condition::waitUntilDate(NS::Date* pLimit)
{
return NS::Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(waitUntilDate_), pLimit);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::Condition::signal()
{
NS::Object::sendMessage<void>(this, _NS_PRIVATE_SEL(signal));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::Condition::broadcast()
{
NS::Object::sendMessage<void>(this, _NS_PRIVATE_SEL(broadcast));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSNotification.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 "NSDefines.hpp"
#include "NSDictionary.hpp"
#include "NSObject.hpp"
#include "NSString.hpp"
#include "NSTypes.hpp"
#include <functional>
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
using NotificationName = class String*;
class Notification : public NS::Referencing<Notification>
{
public:
NS::String* name() const;
NS::Object* object() const;
NS::Dictionary* userInfo() const;
};
using ObserverBlock = void(^)(Notification*);
using ObserverFunction = std::function<void(Notification*)>;
class NotificationCenter : public NS::Referencing<NotificationCenter>
{
public:
static class NotificationCenter* defaultCenter();
Object* addObserver(NotificationName name, Object* pObj, void* pQueue, ObserverBlock block);
Object* addObserver(NotificationName name, Object* pObj, void* pQueue, ObserverFunction &handler);
void removeObserver(Object* pObserver);
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Notification::name() const
{
return Object::sendMessage<NS::String*>(this, _NS_PRIVATE_SEL(name));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Object* NS::Notification::object() const
{
return Object::sendMessage<NS::Object*>(this, _NS_PRIVATE_SEL(object));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::Notification::userInfo() const
{
return Object::sendMessage<NS::Dictionary*>(this, _NS_PRIVATE_SEL(userInfo));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::NotificationCenter* NS::NotificationCenter::defaultCenter()
{
return NS::Object::sendMessage<NS::NotificationCenter*>(_NS_PRIVATE_CLS(NSNotificationCenter), _NS_PRIVATE_SEL(defaultCenter));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Object* NS::NotificationCenter::addObserver(NS::NotificationName name, Object* pObj, void* pQueue, NS::ObserverBlock block)
{
return NS::Object::sendMessage<Object*>(this, _NS_PRIVATE_SEL(addObserverName_object_queue_block_), name, pObj, pQueue, block);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Object* NS::NotificationCenter::addObserver(NS::NotificationName name, Object* pObj, void* pQueue, NS::ObserverFunction &handler)
{
__block ObserverFunction blockFunction = handler;
return addObserver(name, pObj, pQueue, ^(NS::Notification* pNotif) {blockFunction(pNotif);});
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::NotificationCenter::removeObserver(Object* pObserver)
{
return NS::Object::sendMessage<void>(this, _NS_PRIVATE_SEL(removeObserver_), pObserver);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSNumber.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 "NSObjCRuntime.hpp"
#include "NSObject.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
class Value : public Copying<Value>
{
public:
static Value* value(const void* pValue, const char* pType);
static Value* value(const void* pPointer);
static Value* alloc();
Value* init(const void* pValue, const char* pType);
Value* init(const class Coder* pCoder);
void getValue(void* pValue, UInteger size) const;
const char* objCType() const;
bool isEqualToValue(Value* pValue) const;
void* pointerValue() const;
};
class Number : public Copying<Number, Value>
{
public:
static Number* number(char value);
static Number* number(unsigned char value);
static Number* number(short value);
static Number* number(unsigned short value);
static Number* number(int value);
static Number* number(unsigned int value);
static Number* number(long value);
static Number* number(unsigned long value);
static Number* number(long long value);
static Number* number(unsigned long long value);
static Number* number(float value);
static Number* number(double value);
static Number* number(bool value);
static Number* alloc();
Number* init(const class Coder* pCoder);
Number* init(char value);
Number* init(unsigned char value);
Number* init(short value);
Number* init(unsigned short value);
Number* init(int value);
Number* init(unsigned int value);
Number* init(long value);
Number* init(unsigned long value);
Number* init(long long value);
Number* init(unsigned long long value);
Number* init(float value);
Number* init(double value);
Number* init(bool value);
char charValue() const;
unsigned char unsignedCharValue() const;
short shortValue() const;
unsigned short unsignedShortValue() const;
int intValue() const;
unsigned int unsignedIntValue() const;
long longValue() const;
unsigned long unsignedLongValue() const;
long long longLongValue() const;
unsigned long long unsignedLongLongValue() const;
float floatValue() const;
double doubleValue() const;
bool boolValue() const;
Integer integerValue() const;
UInteger unsignedIntegerValue() const;
class String* stringValue() const;
ComparisonResult compare(const Number* pOtherNumber) const;
bool isEqualToNumber(const Number* pNumber) const;
class String* descriptionWithLocale(const Object* pLocale) const;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Value* NS::Value::value(const void* pValue, const char* pType)
{
return Object::sendMessage<Value*>(_NS_PRIVATE_CLS(NSValue), _NS_PRIVATE_SEL(valueWithBytes_objCType_), pValue, pType);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Value* NS::Value::value(const void* pPointer)
{
return Object::sendMessage<Value*>(_NS_PRIVATE_CLS(NSValue), _NS_PRIVATE_SEL(valueWithPointer_), pPointer);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Value* NS::Value::alloc()
{
return NS::Object::alloc<Value>(_NS_PRIVATE_CLS(NSValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Value* NS::Value::init(const void* pValue, const char* pType)
{
return Object::sendMessage<Value*>(this, _NS_PRIVATE_SEL(initWithBytes_objCType_), pValue, pType);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Value* NS::Value::init(const class Coder* pCoder)
{
return Object::sendMessage<Value*>(this, _NS_PRIVATE_SEL(initWithCoder_), pCoder);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::Value::getValue(void* pValue, UInteger size) const
{
Object::sendMessage<void>(this, _NS_PRIVATE_SEL(getValue_size_), pValue, size);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE const char* NS::Value::objCType() const
{
return Object::sendMessage<const char*>(this, _NS_PRIVATE_SEL(objCType));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Value::isEqualToValue(Value* pValue) const
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(isEqualToValue_), pValue);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void* NS::Value::pointerValue() const
{
return Object::sendMessage<void*>(this, _NS_PRIVATE_SEL(pointerValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(char value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithChar_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(unsigned char value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithUnsignedChar_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(short value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithShort_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(unsigned short value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithUnsignedShort_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(int value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithInt_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(unsigned int value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithUnsignedInt_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(long value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithLong_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(unsigned long value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithUnsignedLong_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(long long value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithLongLong_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(unsigned long long value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithUnsignedLongLong_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(float value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithFloat_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(double value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithDouble_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::number(bool value)
{
return Object::sendMessage<Number*>(_NS_PRIVATE_CLS(NSNumber), _NS_PRIVATE_SEL(numberWithBool_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::alloc()
{
return NS::Object::alloc<Number>(_NS_PRIVATE_CLS(NSNumber));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(const Coder* pCoder)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithCoder_), pCoder);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(char value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithChar_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(unsigned char value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithUnsignedChar_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(short value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithShort_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(unsigned short value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithUnsignedShort_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(int value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithInt_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(unsigned int value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithUnsignedInt_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(long value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithLong_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(unsigned long value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithUnsignedLong_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(long long value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithLongLong_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(unsigned long long value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithUnsignedLongLong_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(float value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithFloat_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(double value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithDouble_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Number* NS::Number::init(bool value)
{
return Object::sendMessage<Number*>(this, _NS_PRIVATE_SEL(initWithBool_), value);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE char NS::Number::charValue() const
{
return Object::sendMessage<char>(this, _NS_PRIVATE_SEL(charValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE unsigned char NS::Number::unsignedCharValue() const
{
return Object::sendMessage<unsigned char>(this, _NS_PRIVATE_SEL(unsignedCharValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE short NS::Number::shortValue() const
{
return Object::sendMessage<short>(this, _NS_PRIVATE_SEL(shortValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE unsigned short NS::Number::unsignedShortValue() const
{
return Object::sendMessage<unsigned short>(this, _NS_PRIVATE_SEL(unsignedShortValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE int NS::Number::intValue() const
{
return Object::sendMessage<int>(this, _NS_PRIVATE_SEL(intValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE unsigned int NS::Number::unsignedIntValue() const
{
return Object::sendMessage<unsigned int>(this, _NS_PRIVATE_SEL(unsignedIntValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE long NS::Number::longValue() const
{
return Object::sendMessage<long>(this, _NS_PRIVATE_SEL(longValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE unsigned long NS::Number::unsignedLongValue() const
{
return Object::sendMessage<unsigned long>(this, _NS_PRIVATE_SEL(unsignedLongValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE long long NS::Number::longLongValue() const
{
return Object::sendMessage<long long>(this, _NS_PRIVATE_SEL(longLongValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE unsigned long long NS::Number::unsignedLongLongValue() const
{
return Object::sendMessage<unsigned long long>(this, _NS_PRIVATE_SEL(unsignedLongLongValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE float NS::Number::floatValue() const
{
return Object::sendMessage<float>(this, _NS_PRIVATE_SEL(floatValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE double NS::Number::doubleValue() const
{
return Object::sendMessage<double>(this, _NS_PRIVATE_SEL(doubleValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Number::boolValue() const
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(boolValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Integer NS::Number::integerValue() const
{
return Object::sendMessage<Integer>(this, _NS_PRIVATE_SEL(integerValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::Number::unsignedIntegerValue() const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(unsignedIntegerValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Number::stringValue() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(stringValue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::ComparisonResult NS::Number::compare(const Number* pOtherNumber) const
{
return Object::sendMessage<ComparisonResult>(this, _NS_PRIVATE_SEL(compare_), pOtherNumber);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Number::isEqualToNumber(const Number* pNumber) const
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(isEqualToNumber_), pNumber);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Number::descriptionWithLocale(const Object* pLocale) const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(descriptionWithLocale_), pLocale);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSObjCRuntime.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 "NSDefines.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
_NS_ENUM(Integer, ComparisonResult) {
OrderedAscending = -1L,
OrderedSame,
OrderedDescending
};
const Integer NotFound = IntegerMax;
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSObject.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 "NSDefines.hpp"
#include "NSPrivate.hpp"
#include "NSTypes.hpp"
#include <objc/message.h>
#include <objc/runtime.h>
#include <type_traits>
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
template <class _Class, class _Base = class Object>
class _NS_EXPORT Referencing : public _Base
{
public:
_Class* retain();
void release();
_Class* autorelease();
UInteger retainCount() const;
};
template <class _Class, class _Base = class Object>
class Copying : public Referencing<_Class, _Base>
{
public:
_Class* copy() const;
};
template <class _Class, class _Base = class Object>
class SecureCoding : public Referencing<_Class, _Base>
{
};
class Object : public Referencing<Object, objc_object>
{
public:
UInteger hash() const;
bool isEqual(const Object* pObject) const;
class String* description() const;
class String* debugDescription() const;
protected:
friend class Referencing<Object, objc_object>;
template <class _Class>
static _Class* alloc(const char* pClassName);
template <class _Class>
static _Class* alloc(const void* pClass);
template <class _Class>
_Class* init();
template <class _Dst>
static _Dst bridgingCast(const void* pObj);
static class MethodSignature* methodSignatureForSelector(const void* pObj, SEL selector);
static bool respondsToSelector(const void* pObj, SEL selector);
template <typename _Type>
static constexpr bool doesRequireMsgSendStret();
template <typename _Ret, typename... _Args>
static _Ret sendMessage(const void* pObj, SEL selector, _Args... args);
template <typename _Ret, typename... _Args>
static _Ret sendMessageSafe(const void* pObj, SEL selector, _Args... args);
private:
Object() = delete;
Object(const Object&) = delete;
~Object() = delete;
Object& operator=(const Object&) = delete;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Class, class _Base /* = Object */>
_NS_INLINE _Class* NS::Referencing<_Class, _Base>::retain()
{
return Object::sendMessage<_Class*>(this, _NS_PRIVATE_SEL(retain));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Class, class _Base /* = Object */>
_NS_INLINE void NS::Referencing<_Class, _Base>::release()
{
Object::sendMessage<void>(this, _NS_PRIVATE_SEL(release));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Class, class _Base /* = Object */>
_NS_INLINE _Class* NS::Referencing<_Class, _Base>::autorelease()
{
return Object::sendMessage<_Class*>(this, _NS_PRIVATE_SEL(autorelease));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Class, class _Base /* = Object */>
_NS_INLINE NS::UInteger NS::Referencing<_Class, _Base>::retainCount() const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(retainCount));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Class, class _Base /* = Object */>
_NS_INLINE _Class* NS::Copying<_Class, _Base>::copy() const
{
return Object::sendMessage<_Class*>(this, _NS_PRIVATE_SEL(copy));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Dst>
_NS_INLINE _Dst NS::Object::bridgingCast(const void* pObj)
{
#ifdef __OBJC__
return (__bridge _Dst)pObj;
#else
return (_Dst)pObj;
#endif // __OBJC__
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <typename _Type>
_NS_INLINE constexpr bool NS::Object::doesRequireMsgSendStret()
{
#if (defined(__i386__) || defined(__x86_64__))
constexpr size_t kStructLimit = (sizeof(std::uintptr_t) << 1);
return sizeof(_Type) > kStructLimit;
#elif defined(__arm64__)
return false;
#elif defined(__arm__)
constexpr size_t kStructLimit = sizeof(std::uintptr_t);
return std::is_class(_Type) && (sizeof(_Type) > kStructLimit);
#else
#error "Unsupported architecture!"
#endif
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <>
_NS_INLINE constexpr bool NS::Object::doesRequireMsgSendStret<void>()
{
return false;
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <typename _Ret, typename... _Args>
_NS_INLINE _Ret NS::Object::sendMessage(const void* pObj, SEL selector, _Args... args)
{
#if (defined(__i386__) || defined(__x86_64__))
if constexpr (std::is_floating_point<_Ret>())
{
using SendMessageProcFpret = _Ret (*)(const void*, SEL, _Args...);
const SendMessageProcFpret pProc = reinterpret_cast<SendMessageProcFpret>(&objc_msgSend_fpret);
return (*pProc)(pObj, selector, args...);
}
else
#endif // ( defined( __i386__ ) || defined( __x86_64__ ) )
#if !defined(__arm64__)
if constexpr (doesRequireMsgSendStret<_Ret>())
{
using SendMessageProcStret = void (*)(_Ret*, const void*, SEL, _Args...);
const SendMessageProcStret pProc = reinterpret_cast<SendMessageProcStret>(&objc_msgSend_stret);
_Ret ret;
(*pProc)(&ret, pObj, selector, args...);
return ret;
}
else
#endif // !defined( __arm64__ )
{
using SendMessageProc = _Ret (*)(const void*, SEL, _Args...);
const SendMessageProc pProc = reinterpret_cast<SendMessageProc>(&objc_msgSend);
return (*pProc)(pObj, selector, args...);
}
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::MethodSignature* NS::Object::methodSignatureForSelector(const void* pObj, SEL selector)
{
return sendMessage<MethodSignature*>(pObj, _NS_PRIVATE_SEL(methodSignatureForSelector_), selector);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Object::respondsToSelector(const void* pObj, SEL selector)
{
return sendMessage<bool>(pObj, _NS_PRIVATE_SEL(respondsToSelector_), selector);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <typename _Ret, typename... _Args>
_NS_INLINE _Ret NS::Object::sendMessageSafe(const void* pObj, SEL selector, _Args... args)
{
if ((respondsToSelector(pObj, selector)) || (nullptr != methodSignatureForSelector(pObj, selector)))
{
return sendMessage<_Ret>(pObj, selector, args...);
}
if constexpr (!std::is_void<_Ret>::value)
{
return _Ret(0);
}
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Class>
_NS_INLINE _Class* NS::Object::alloc(const char* pClassName)
{
return sendMessage<_Class*>(objc_lookUpClass(pClassName), _NS_PRIVATE_SEL(alloc));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Class>
_NS_INLINE _Class* NS::Object::alloc(const void* pClass)
{
return sendMessage<_Class*>(pClass, _NS_PRIVATE_SEL(alloc));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
template <class _Class>
_NS_INLINE _Class* NS::Object::init()
{
return sendMessage<_Class*>(this, _NS_PRIVATE_SEL(init));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::Object::hash() const
{
return sendMessage<UInteger>(this, _NS_PRIVATE_SEL(hash));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Object::isEqual(const Object* pObject) const
{
return sendMessage<bool>(this, _NS_PRIVATE_SEL(isEqual_), pObject);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Object::description() const
{
return sendMessage<String*>(this, _NS_PRIVATE_SEL(description));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::Object::debugDescription() const
{
return sendMessageSafe<String*>(this, _NS_PRIVATE_SEL(debugDescription));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSPrivate.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 <objc/runtime.h>
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#define _NS_PRIVATE_CLS(symbol) (Private::Class::s_k##symbol)
#define _NS_PRIVATE_SEL(accessor) (Private::Selector::s_k##accessor)
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#if defined(NS_PRIVATE_IMPLEMENTATION)
#ifdef METALCPP_SYMBOL_VISIBILITY_HIDDEN
#define _NS_PRIVATE_VISIBILITY __attribute__((visibility("hidden")))
#else
#define _NS_PRIVATE_VISIBILITY __attribute__((visibility("default")))
#endif // METALCPP_SYMBOL_VISIBILITY_HIDDEN
#define _NS_PRIVATE_IMPORT __attribute__((weak_import))
#ifdef __OBJC__
#define _NS_PRIVATE_OBJC_LOOKUP_CLASS(symbol) ((__bridge void*)objc_lookUpClass(#symbol))
#define _NS_PRIVATE_OBJC_GET_PROTOCOL(symbol) ((__bridge void*)objc_getProtocol(#symbol))
#else
#define _NS_PRIVATE_OBJC_LOOKUP_CLASS(symbol) objc_lookUpClass(#symbol)
#define _NS_PRIVATE_OBJC_GET_PROTOCOL(symbol) objc_getProtocol(#symbol)
#endif // __OBJC__
#define _NS_PRIVATE_DEF_CLS(symbol) void* s_k##symbol _NS_PRIVATE_VISIBILITY = _NS_PRIVATE_OBJC_LOOKUP_CLASS(symbol)
#define _NS_PRIVATE_DEF_PRO(symbol) void* s_k##symbol _NS_PRIVATE_VISIBILITY = _NS_PRIVATE_OBJC_GET_PROTOCOL(symbol)
#define _NS_PRIVATE_DEF_SEL(accessor, symbol) SEL s_k##accessor _NS_PRIVATE_VISIBILITY = sel_registerName(symbol)
#define _NS_PRIVATE_DEF_CONST(type, symbol) \
_NS_EXTERN type const NS##symbol _NS_PRIVATE_IMPORT; \
type const NS::symbol = (nullptr != &NS##symbol) ? NS##symbol : nullptr
#else
#define _NS_PRIVATE_DEF_CLS(symbol) extern void* s_k##symbol
#define _NS_PRIVATE_DEF_PRO(symbol) extern void* s_k##symbol
#define _NS_PRIVATE_DEF_SEL(accessor, symbol) extern SEL s_k##accessor
#define _NS_PRIVATE_DEF_CONST(type, symbol) extern type const NS::symbol
#endif // NS_PRIVATE_IMPLEMENTATION
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
namespace Private
{
namespace Class
{
_NS_PRIVATE_DEF_CLS(NSArray);
_NS_PRIVATE_DEF_CLS(NSAutoreleasePool);
_NS_PRIVATE_DEF_CLS(NSBundle);
_NS_PRIVATE_DEF_CLS(NSCondition);
_NS_PRIVATE_DEF_CLS(NSDate);
_NS_PRIVATE_DEF_CLS(NSDictionary);
_NS_PRIVATE_DEF_CLS(NSError);
_NS_PRIVATE_DEF_CLS(NSNotificationCenter);
_NS_PRIVATE_DEF_CLS(NSNumber);
_NS_PRIVATE_DEF_CLS(NSObject);
_NS_PRIVATE_DEF_CLS(NSProcessInfo);
_NS_PRIVATE_DEF_CLS(NSSet);
_NS_PRIVATE_DEF_CLS(NSString);
_NS_PRIVATE_DEF_CLS(NSURL);
_NS_PRIVATE_DEF_CLS(NSValue);
} // Class
} // Private
} // MTL
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
namespace Private
{
namespace Protocol
{
} // Protocol
} // Private
} // NS
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
namespace Private
{
namespace Selector
{
_NS_PRIVATE_DEF_SEL(addObject_,
"addObject:");
_NS_PRIVATE_DEF_SEL(addObserverName_object_queue_block_,
"addObserverForName:object:queue:usingBlock:");
_NS_PRIVATE_DEF_SEL(activeProcessorCount,
"activeProcessorCount");
_NS_PRIVATE_DEF_SEL(allBundles,
"allBundles");
_NS_PRIVATE_DEF_SEL(allFrameworks,
"allFrameworks");
_NS_PRIVATE_DEF_SEL(allObjects,
"allObjects");
_NS_PRIVATE_DEF_SEL(alloc,
"alloc");
_NS_PRIVATE_DEF_SEL(appStoreReceiptURL,
"appStoreReceiptURL");
_NS_PRIVATE_DEF_SEL(arguments,
"arguments");
_NS_PRIVATE_DEF_SEL(array,
"array");
_NS_PRIVATE_DEF_SEL(arrayWithObject_,
"arrayWithObject:");
_NS_PRIVATE_DEF_SEL(arrayWithObjects_count_,
"arrayWithObjects:count:");
_NS_PRIVATE_DEF_SEL(automaticTerminationSupportEnabled,
"automaticTerminationSupportEnabled");
_NS_PRIVATE_DEF_SEL(autorelease,
"autorelease");
_NS_PRIVATE_DEF_SEL(beginActivityWithOptions_reason_,
"beginActivityWithOptions:reason:");
_NS_PRIVATE_DEF_SEL(boolValue,
"boolValue");
_NS_PRIVATE_DEF_SEL(broadcast,
"broadcast");
_NS_PRIVATE_DEF_SEL(builtInPlugInsPath,
"builtInPlugInsPath");
_NS_PRIVATE_DEF_SEL(builtInPlugInsURL,
"builtInPlugInsURL");
_NS_PRIVATE_DEF_SEL(bundleIdentifier,
"bundleIdentifier");
_NS_PRIVATE_DEF_SEL(bundlePath,
"bundlePath");
_NS_PRIVATE_DEF_SEL(bundleURL,
"bundleURL");
_NS_PRIVATE_DEF_SEL(bundleWithPath_,
"bundleWithPath:");
_NS_PRIVATE_DEF_SEL(bundleWithURL_,
"bundleWithURL:");
_NS_PRIVATE_DEF_SEL(caseInsensitiveCompare_,
"caseInsensitiveCompare:");
_NS_PRIVATE_DEF_SEL(characterAtIndex_,
"characterAtIndex:");
_NS_PRIVATE_DEF_SEL(charValue,
"charValue");
_NS_PRIVATE_DEF_SEL(countByEnumeratingWithState_objects_count_,
"countByEnumeratingWithState:objects:count:");
_NS_PRIVATE_DEF_SEL(cStringUsingEncoding_,
"cStringUsingEncoding:");
_NS_PRIVATE_DEF_SEL(code,
"code");
_NS_PRIVATE_DEF_SEL(compare_,
"compare:");
_NS_PRIVATE_DEF_SEL(copy,
"copy");
_NS_PRIVATE_DEF_SEL(count,
"count");
_NS_PRIVATE_DEF_SEL(dateWithTimeIntervalSinceNow_,
"dateWithTimeIntervalSinceNow:");
_NS_PRIVATE_DEF_SEL(defaultCenter,
"defaultCenter");
_NS_PRIVATE_DEF_SEL(descriptionWithLocale_,
"descriptionWithLocale:");
_NS_PRIVATE_DEF_SEL(disableAutomaticTermination_,
"disableAutomaticTermination:");
_NS_PRIVATE_DEF_SEL(disableSuddenTermination,
"disableSuddenTermination");
_NS_PRIVATE_DEF_SEL(debugDescription,
"debugDescription");
_NS_PRIVATE_DEF_SEL(description,
"description");
_NS_PRIVATE_DEF_SEL(dictionary,
"dictionary");
_NS_PRIVATE_DEF_SEL(dictionaryWithObject_forKey_,
"dictionaryWithObject:forKey:");
_NS_PRIVATE_DEF_SEL(dictionaryWithObjects_forKeys_count_,
"dictionaryWithObjects:forKeys:count:");
_NS_PRIVATE_DEF_SEL(domain,
"domain");
_NS_PRIVATE_DEF_SEL(doubleValue,
"doubleValue");
_NS_PRIVATE_DEF_SEL(drain,
"drain");
_NS_PRIVATE_DEF_SEL(enableAutomaticTermination_,
"enableAutomaticTermination:");
_NS_PRIVATE_DEF_SEL(enableSuddenTermination,
"enableSuddenTermination");
_NS_PRIVATE_DEF_SEL(endActivity_,
"endActivity:");
_NS_PRIVATE_DEF_SEL(environment,
"environment");
_NS_PRIVATE_DEF_SEL(errorWithDomain_code_userInfo_,
"errorWithDomain:code:userInfo:");
_NS_PRIVATE_DEF_SEL(executablePath,
"executablePath");
_NS_PRIVATE_DEF_SEL(executableURL,
"executableURL");
_NS_PRIVATE_DEF_SEL(fileSystemRepresentation,
"fileSystemRepresentation");
_NS_PRIVATE_DEF_SEL(fileURLWithPath_,
"fileURLWithPath:");
_NS_PRIVATE_DEF_SEL(floatValue,
"floatValue");
_NS_PRIVATE_DEF_SEL(fullUserName,
"fullUserName");
_NS_PRIVATE_DEF_SEL(getValue_size_,
"getValue:size:");
_NS_PRIVATE_DEF_SEL(globallyUniqueString,
"globallyUniqueString");
_NS_PRIVATE_DEF_SEL(hash,
"hash");
_NS_PRIVATE_DEF_SEL(hostName,
"hostName");
_NS_PRIVATE_DEF_SEL(infoDictionary,
"infoDictionary");
_NS_PRIVATE_DEF_SEL(init,
"init");
_NS_PRIVATE_DEF_SEL(initFileURLWithPath_,
"initFileURLWithPath:");
_NS_PRIVATE_DEF_SEL(initWithBool_,
"initWithBool:");
_NS_PRIVATE_DEF_SEL(initWithBytes_objCType_,
"initWithBytes:objCType:");
_NS_PRIVATE_DEF_SEL(initWithBytesNoCopy_length_encoding_freeWhenDone_,
"initWithBytesNoCopy:length:encoding:freeWhenDone:");
_NS_PRIVATE_DEF_SEL(initWithChar_,
"initWithChar:");
_NS_PRIVATE_DEF_SEL(initWithCoder_,
"initWithCoder:");
_NS_PRIVATE_DEF_SEL(initWithCString_encoding_,
"initWithCString:encoding:");
_NS_PRIVATE_DEF_SEL(initWithDomain_code_userInfo_,
"initWithDomain:code:userInfo:");
_NS_PRIVATE_DEF_SEL(initWithDouble_,
"initWithDouble:");
_NS_PRIVATE_DEF_SEL(initWithFloat_,
"initWithFloat:");
_NS_PRIVATE_DEF_SEL(initWithInt_,
"initWithInt:");
_NS_PRIVATE_DEF_SEL(initWithLong_,
"initWithLong:");
_NS_PRIVATE_DEF_SEL(initWithLongLong_,
"initWithLongLong:");
_NS_PRIVATE_DEF_SEL(initWithObjects_count_,
"initWithObjects:count:");
_NS_PRIVATE_DEF_SEL(initWithObjects_forKeys_count_,
"initWithObjects:forKeys:count:");
_NS_PRIVATE_DEF_SEL(initWithPath_,
"initWithPath:");
_NS_PRIVATE_DEF_SEL(initWithShort_,
"initWithShort:");
_NS_PRIVATE_DEF_SEL(initWithString_,
"initWithString:");
_NS_PRIVATE_DEF_SEL(initWithUnsignedChar_,
"initWithUnsignedChar:");
_NS_PRIVATE_DEF_SEL(initWithUnsignedInt_,
"initWithUnsignedInt:");
_NS_PRIVATE_DEF_SEL(initWithUnsignedLong_,
"initWithUnsignedLong:");
_NS_PRIVATE_DEF_SEL(initWithUnsignedLongLong_,
"initWithUnsignedLongLong:");
_NS_PRIVATE_DEF_SEL(initWithUnsignedShort_,
"initWithUnsignedShort:");
_NS_PRIVATE_DEF_SEL(initWithURL_,
"initWithURL:");
_NS_PRIVATE_DEF_SEL(integerValue,
"integerValue");
_NS_PRIVATE_DEF_SEL(intValue,
"intValue");
_NS_PRIVATE_DEF_SEL(isEqual_,
"isEqual:");
_NS_PRIVATE_DEF_SEL(isEqualToNumber_,
"isEqualToNumber:");
_NS_PRIVATE_DEF_SEL(isEqualToString_,
"isEqualToString:");
_NS_PRIVATE_DEF_SEL(isEqualToValue_,
"isEqualToValue:");
_NS_PRIVATE_DEF_SEL(isiOSAppOnMac,
"isiOSAppOnMac");
_NS_PRIVATE_DEF_SEL(isLoaded,
"isLoaded");
_NS_PRIVATE_DEF_SEL(isLowPowerModeEnabled,
"isLowPowerModeEnabled");
_NS_PRIVATE_DEF_SEL(isMacCatalystApp,
"isMacCatalystApp");
_NS_PRIVATE_DEF_SEL(isOperatingSystemAtLeastVersion_,
"isOperatingSystemAtLeastVersion:");
_NS_PRIVATE_DEF_SEL(keyEnumerator,
"keyEnumerator");
_NS_PRIVATE_DEF_SEL(length,
"length");
_NS_PRIVATE_DEF_SEL(lengthOfBytesUsingEncoding_,
"lengthOfBytesUsingEncoding:");
_NS_PRIVATE_DEF_SEL(load,
"load");
_NS_PRIVATE_DEF_SEL(loadAndReturnError_,
"loadAndReturnError:");
_NS_PRIVATE_DEF_SEL(localizedDescription,
"localizedDescription");
_NS_PRIVATE_DEF_SEL(localizedFailureReason,
"localizedFailureReason");
_NS_PRIVATE_DEF_SEL(localizedInfoDictionary,
"localizedInfoDictionary");
_NS_PRIVATE_DEF_SEL(localizedRecoveryOptions,
"localizedRecoveryOptions");
_NS_PRIVATE_DEF_SEL(localizedRecoverySuggestion,
"localizedRecoverySuggestion");
_NS_PRIVATE_DEF_SEL(localizedStringForKey_value_table_,
"localizedStringForKey:value:table:");
_NS_PRIVATE_DEF_SEL(lock,
"lock");
_NS_PRIVATE_DEF_SEL(longValue,
"longValue");
_NS_PRIVATE_DEF_SEL(longLongValue,
"longLongValue");
_NS_PRIVATE_DEF_SEL(mainBundle,
"mainBundle");
_NS_PRIVATE_DEF_SEL(maximumLengthOfBytesUsingEncoding_,
"maximumLengthOfBytesUsingEncoding:");
_NS_PRIVATE_DEF_SEL(methodSignatureForSelector_,
"methodSignatureForSelector:");
_NS_PRIVATE_DEF_SEL(mutableBytes,
"mutableBytes");
_NS_PRIVATE_DEF_SEL(name,
"name");
_NS_PRIVATE_DEF_SEL(nextObject,
"nextObject");
_NS_PRIVATE_DEF_SEL(numberWithBool_,
"numberWithBool:");
_NS_PRIVATE_DEF_SEL(numberWithChar_,
"numberWithChar:");
_NS_PRIVATE_DEF_SEL(numberWithDouble_,
"numberWithDouble:");
_NS_PRIVATE_DEF_SEL(numberWithFloat_,
"numberWithFloat:");
_NS_PRIVATE_DEF_SEL(numberWithInt_,
"numberWithInt:");
_NS_PRIVATE_DEF_SEL(numberWithLong_,
"numberWithLong:");
_NS_PRIVATE_DEF_SEL(numberWithLongLong_,
"numberWithLongLong:");
_NS_PRIVATE_DEF_SEL(numberWithShort_,
"numberWithShort:");
_NS_PRIVATE_DEF_SEL(numberWithUnsignedChar_,
"numberWithUnsignedChar:");
_NS_PRIVATE_DEF_SEL(numberWithUnsignedInt_,
"numberWithUnsignedInt:");
_NS_PRIVATE_DEF_SEL(numberWithUnsignedLong_,
"numberWithUnsignedLong:");
_NS_PRIVATE_DEF_SEL(numberWithUnsignedLongLong_,
"numberWithUnsignedLongLong:");
_NS_PRIVATE_DEF_SEL(numberWithUnsignedShort_,
"numberWithUnsignedShort:");
_NS_PRIVATE_DEF_SEL(objCType,
"objCType");
_NS_PRIVATE_DEF_SEL(object,
"object");
_NS_PRIVATE_DEF_SEL(objectAtIndex_,
"objectAtIndex:");
_NS_PRIVATE_DEF_SEL(objectEnumerator,
"objectEnumerator");
_NS_PRIVATE_DEF_SEL(objectForInfoDictionaryKey_,
"objectForInfoDictionaryKey:");
_NS_PRIVATE_DEF_SEL(objectForKey_,
"objectForKey:");
_NS_PRIVATE_DEF_SEL(operatingSystem,
"operatingSystem");
_NS_PRIVATE_DEF_SEL(operatingSystemVersion,
"operatingSystemVersion");
_NS_PRIVATE_DEF_SEL(operatingSystemVersionString,
"operatingSystemVersionString");
_NS_PRIVATE_DEF_SEL(pathForAuxiliaryExecutable_,
"pathForAuxiliaryExecutable:");
_NS_PRIVATE_DEF_SEL(performActivityWithOptions_reason_usingBlock_,
"performActivityWithOptions:reason:usingBlock:");
_NS_PRIVATE_DEF_SEL(performExpiringActivityWithReason_usingBlock_,
"performExpiringActivityWithReason:usingBlock:");
_NS_PRIVATE_DEF_SEL(physicalMemory,
"physicalMemory");
_NS_PRIVATE_DEF_SEL(pointerValue,
"pointerValue");
_NS_PRIVATE_DEF_SEL(preflightAndReturnError_,
"preflightAndReturnError:");
_NS_PRIVATE_DEF_SEL(privateFrameworksPath,
"privateFrameworksPath");
_NS_PRIVATE_DEF_SEL(privateFrameworksURL,
"privateFrameworksURL");
_NS_PRIVATE_DEF_SEL(processIdentifier,
"processIdentifier");
_NS_PRIVATE_DEF_SEL(processInfo,
"processInfo");
_NS_PRIVATE_DEF_SEL(processName,
"processName");
_NS_PRIVATE_DEF_SEL(processorCount,
"processorCount");
_NS_PRIVATE_DEF_SEL(rangeOfString_options_,
"rangeOfString:options:");
_NS_PRIVATE_DEF_SEL(release,
"release");
_NS_PRIVATE_DEF_SEL(removeObserver_,
"removeObserver:");
_NS_PRIVATE_DEF_SEL(resourcePath,
"resourcePath");
_NS_PRIVATE_DEF_SEL(resourceURL,
"resourceURL");
_NS_PRIVATE_DEF_SEL(respondsToSelector_,
"respondsToSelector:");
_NS_PRIVATE_DEF_SEL(retain,
"retain");
_NS_PRIVATE_DEF_SEL(retainCount,
"retainCount");
_NS_PRIVATE_DEF_SEL(setAutomaticTerminationSupportEnabled_,
"setAutomaticTerminationSupportEnabled:");
_NS_PRIVATE_DEF_SEL(setProcessName_,
"setProcessName:");
_NS_PRIVATE_DEF_SEL(sharedFrameworksPath,
"sharedFrameworksPath");
_NS_PRIVATE_DEF_SEL(sharedFrameworksURL,
"sharedFrameworksURL");
_NS_PRIVATE_DEF_SEL(sharedSupportPath,
"sharedSupportPath");
_NS_PRIVATE_DEF_SEL(sharedSupportURL,
"sharedSupportURL");
_NS_PRIVATE_DEF_SEL(shortValue,
"shortValue");
_NS_PRIVATE_DEF_SEL(showPools,
"showPools");
_NS_PRIVATE_DEF_SEL(signal,
"signal");
_NS_PRIVATE_DEF_SEL(string,
"string");
_NS_PRIVATE_DEF_SEL(stringValue,
"stringValue");
_NS_PRIVATE_DEF_SEL(stringWithString_,
"stringWithString:");
_NS_PRIVATE_DEF_SEL(stringWithCString_encoding_,
"stringWithCString:encoding:");
_NS_PRIVATE_DEF_SEL(stringByAppendingString_,
"stringByAppendingString:");
_NS_PRIVATE_DEF_SEL(systemUptime,
"systemUptime");
_NS_PRIVATE_DEF_SEL(thermalState,
"thermalState");
_NS_PRIVATE_DEF_SEL(unload,
"unload");
_NS_PRIVATE_DEF_SEL(unlock,
"unlock");
_NS_PRIVATE_DEF_SEL(unsignedCharValue,
"unsignedCharValue");
_NS_PRIVATE_DEF_SEL(unsignedIntegerValue,
"unsignedIntegerValue");
_NS_PRIVATE_DEF_SEL(unsignedIntValue,
"unsignedIntValue");
_NS_PRIVATE_DEF_SEL(unsignedLongValue,
"unsignedLongValue");
_NS_PRIVATE_DEF_SEL(unsignedLongLongValue,
"unsignedLongLongValue");
_NS_PRIVATE_DEF_SEL(unsignedShortValue,
"unsignedShortValue");
_NS_PRIVATE_DEF_SEL(URLForAuxiliaryExecutable_,
"URLForAuxiliaryExecutable:");
_NS_PRIVATE_DEF_SEL(userInfo,
"userInfo");
_NS_PRIVATE_DEF_SEL(userName,
"userName");
_NS_PRIVATE_DEF_SEL(UTF8String,
"UTF8String");
_NS_PRIVATE_DEF_SEL(valueWithBytes_objCType_,
"valueWithBytes:objCType:");
_NS_PRIVATE_DEF_SEL(valueWithPointer_,
"valueWithPointer:");
_NS_PRIVATE_DEF_SEL(wait,
"wait");
_NS_PRIVATE_DEF_SEL(waitUntilDate_,
"waitUntilDate:");
} // Class
} // Private
} // MTL
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSProcessInfo.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 "NSDefines.hpp"
#include "NSNotification.hpp"
#include "NSObject.hpp"
#include "NSPrivate.hpp"
#include "NSTypes.hpp"
#include <functional>
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
_NS_CONST(NotificationName, ProcessInfoThermalStateDidChangeNotification);
_NS_CONST(NotificationName, ProcessInfoPowerStateDidChangeNotification);
_NS_ENUM(NS::Integer, ProcessInfoThermalState) {
ProcessInfoThermalStateNominal = 0,
ProcessInfoThermalStateFair = 1,
ProcessInfoThermalStateSerious = 2,
ProcessInfoThermalStateCritical = 3
};
_NS_OPTIONS(std::uint64_t, ActivityOptions) {
ActivityIdleDisplaySleepDisabled = (1ULL << 40),
ActivityIdleSystemSleepDisabled = (1ULL << 20),
ActivitySuddenTerminationDisabled = (1ULL << 14),
ActivityAutomaticTerminationDisabled = (1ULL << 15),
ActivityUserInitiated = (0x00FFFFFFULL | ActivityIdleSystemSleepDisabled),
ActivityUserInitiatedAllowingIdleSystemSleep = (ActivityUserInitiated & ~ActivityIdleSystemSleepDisabled),
ActivityBackground = 0x000000FFULL,
ActivityLatencyCritical = 0xFF00000000ULL,
};
class ProcessInfo : public Referencing<ProcessInfo>
{
public:
static ProcessInfo* processInfo();
class Array* arguments() const;
class Dictionary* environment() const;
class String* hostName() const;
class String* processName() const;
void setProcessName(const String* pString);
int processIdentifier() const;
class String* globallyUniqueString() const;
class String* userName() const;
class String* fullUserName() const;
UInteger operatingSystem() const;
OperatingSystemVersion operatingSystemVersion() const;
class String* operatingSystemVersionString() const;
bool isOperatingSystemAtLeastVersion(OperatingSystemVersion version) const;
UInteger processorCount() const;
UInteger activeProcessorCount() const;
unsigned long long physicalMemory() const;
TimeInterval systemUptime() const;
void disableSuddenTermination();
void enableSuddenTermination();
void disableAutomaticTermination(const class String* pReason);
void enableAutomaticTermination(const class String* pReason);
bool automaticTerminationSupportEnabled() const;
void setAutomaticTerminationSupportEnabled(bool enabled);
class Object* beginActivity(ActivityOptions options, const class String* pReason);
void endActivity(class Object* pActivity);
void performActivity(ActivityOptions options, const class String* pReason, void (^block)(void));
void performActivity(ActivityOptions options, const class String* pReason, const std::function<void()>& func);
void performExpiringActivity(const class String* pReason, void (^block)(bool expired));
void performExpiringActivity(const class String* pReason, const std::function<void(bool expired)>& func);
ProcessInfoThermalState thermalState() const;
bool isLowPowerModeEnabled() const;
bool isiOSAppOnMac() const;
bool isMacCatalystApp() const;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_PRIVATE_DEF_CONST(NS::NotificationName, ProcessInfoThermalStateDidChangeNotification);
_NS_PRIVATE_DEF_CONST(NS::NotificationName, ProcessInfoPowerStateDidChangeNotification);
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::ProcessInfo* NS::ProcessInfo::processInfo()
{
return Object::sendMessage<ProcessInfo*>(_NS_PRIVATE_CLS(NSProcessInfo), _NS_PRIVATE_SEL(processInfo));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Array* NS::ProcessInfo::arguments() const
{
return Object::sendMessage<Array*>(this, _NS_PRIVATE_SEL(arguments));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Dictionary* NS::ProcessInfo::environment() const
{
return Object::sendMessage<Dictionary*>(this, _NS_PRIVATE_SEL(environment));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::ProcessInfo::hostName() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(hostName));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::ProcessInfo::processName() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(processName));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::setProcessName(const String* pString)
{
Object::sendMessage<void>(this, _NS_PRIVATE_SEL(setProcessName_), pString);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE int NS::ProcessInfo::processIdentifier() const
{
return Object::sendMessage<int>(this, _NS_PRIVATE_SEL(processIdentifier));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::ProcessInfo::globallyUniqueString() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(globallyUniqueString));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::ProcessInfo::userName() const
{
return Object::sendMessageSafe<String*>(this, _NS_PRIVATE_SEL(userName));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::ProcessInfo::fullUserName() const
{
return Object::sendMessageSafe<String*>(this, _NS_PRIVATE_SEL(fullUserName));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::ProcessInfo::operatingSystem() const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(operatingSystem));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::OperatingSystemVersion NS::ProcessInfo::operatingSystemVersion() const
{
return Object::sendMessage<OperatingSystemVersion>(this, _NS_PRIVATE_SEL(operatingSystemVersion));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::ProcessInfo::operatingSystemVersionString() const
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(operatingSystemVersionString));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::ProcessInfo::isOperatingSystemAtLeastVersion(OperatingSystemVersion version) const
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(isOperatingSystemAtLeastVersion_), version);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::ProcessInfo::processorCount() const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(processorCount));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::ProcessInfo::activeProcessorCount() const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(activeProcessorCount));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE unsigned long long NS::ProcessInfo::physicalMemory() const
{
return Object::sendMessage<unsigned long long>(this, _NS_PRIVATE_SEL(physicalMemory));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::TimeInterval NS::ProcessInfo::systemUptime() const
{
return Object::sendMessage<TimeInterval>(this, _NS_PRIVATE_SEL(systemUptime));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::disableSuddenTermination()
{
Object::sendMessageSafe<void>(this, _NS_PRIVATE_SEL(disableSuddenTermination));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::enableSuddenTermination()
{
Object::sendMessageSafe<void>(this, _NS_PRIVATE_SEL(enableSuddenTermination));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::disableAutomaticTermination(const String* pReason)
{
Object::sendMessageSafe<void>(this, _NS_PRIVATE_SEL(disableAutomaticTermination_), pReason);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::enableAutomaticTermination(const String* pReason)
{
Object::sendMessageSafe<void>(this, _NS_PRIVATE_SEL(enableAutomaticTermination_), pReason);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::ProcessInfo::automaticTerminationSupportEnabled() const
{
return Object::sendMessageSafe<bool>(this, _NS_PRIVATE_SEL(automaticTerminationSupportEnabled));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::setAutomaticTerminationSupportEnabled(bool enabled)
{
Object::sendMessageSafe<void>(this, _NS_PRIVATE_SEL(setAutomaticTerminationSupportEnabled_), enabled);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Object* NS::ProcessInfo::beginActivity(ActivityOptions options, const String* pReason)
{
return Object::sendMessage<Object*>(this, _NS_PRIVATE_SEL(beginActivityWithOptions_reason_), options, pReason);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::endActivity(Object* pActivity)
{
Object::sendMessage<void>(this, _NS_PRIVATE_SEL(endActivity_), pActivity);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::performActivity(ActivityOptions options, const String* pReason, void (^block)(void))
{
Object::sendMessage<void>(this, _NS_PRIVATE_SEL(performActivityWithOptions_reason_usingBlock_), options, pReason, block);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::performActivity(ActivityOptions options, const String* pReason, const std::function<void()>& function)
{
__block std::function<void()> blockFunction = function;
performActivity(options, pReason, ^() { blockFunction(); });
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::performExpiringActivity(const String* pReason, void (^block)(bool expired))
{
Object::sendMessageSafe<void>(this, _NS_PRIVATE_SEL(performExpiringActivityWithReason_usingBlock_), pReason, block);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE void NS::ProcessInfo::performExpiringActivity(const String* pReason, const std::function<void(bool expired)>& function)
{
__block std::function<void(bool expired)> blockFunction = function;
performExpiringActivity(pReason, ^(bool expired) { blockFunction(expired); });
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::ProcessInfoThermalState NS::ProcessInfo::thermalState() const
{
return Object::sendMessage<ProcessInfoThermalState>(this, _NS_PRIVATE_SEL(thermalState));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::ProcessInfo::isLowPowerModeEnabled() const
{
return Object::sendMessageSafe<bool>(this, _NS_PRIVATE_SEL(isLowPowerModeEnabled));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::ProcessInfo::isiOSAppOnMac() const
{
return Object::sendMessageSafe<bool>(this, _NS_PRIVATE_SEL(isiOSAppOnMac));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::ProcessInfo::isMacCatalystApp() const
{
return Object::sendMessageSafe<bool>(this, _NS_PRIVATE_SEL(isMacCatalystApp));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSRange.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 "NSDefines.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
struct Range
{
static Range Make(UInteger loc, UInteger len);
Range(UInteger loc, UInteger len);
bool Equal(const Range& range) const;
bool LocationInRange(UInteger loc) const;
UInteger Max() const;
UInteger location;
UInteger length;
} _NS_PACKED;
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Range::Range(UInteger loc, UInteger len)
: location(loc)
, length(len)
{
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Range NS::Range::Make(UInteger loc, UInteger len)
{
return Range(loc, len);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Range::Equal(const Range& range) const
{
return (location == range.location) && (length == range.length);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::Range::LocationInRange(UInteger loc) const
{
return (!(loc < location)) && ((loc - location) < length);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::Range::Max() const
{
return location + length;
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSSet.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 "NSObject.hpp"
#include "NSEnumerator.hpp"
/*****Immutable Set*******/
namespace NS
{
class Set : public NS::Copying <Set>
{
public:
UInteger count() const;
Enumerator<Object>* objectEnumerator() const;
static Set* alloc();
Set* init();
Set* init(const Object* const* pObjects, UInteger count);
Set* init(const class Coder* pCoder);
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::Set::count() const
{
return NS::Object::sendMessage<NS::UInteger>(this, _NS_PRIVATE_SEL(count));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Enumerator<NS::Object>* NS::Set::objectEnumerator() const
{
return NS::Object::sendMessage<Enumerator<NS::Object>*>(this, _NS_PRIVATE_SEL(objectEnumerator));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Set* NS::Set::alloc()
{
return NS::Object::alloc<Set>(_NS_PRIVATE_CLS(NSSet));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Set* NS::Set::init()
{
return NS::Object::init<Set>();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Set* NS::Set::init(const Object* const* pObjects, NS::UInteger count)
{
return NS::Object::sendMessage<Set*>(this, _NS_PRIVATE_SEL(initWithObjects_count_), pObjects, count);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Set* NS::Set::init(const class Coder* pCoder)
{
return Object::sendMessage<Set*>(this, _NS_PRIVATE_SEL(initWithCoder_), pCoder);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSSharedPtr.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 "NSDefines.hpp"
namespace NS
{
template <class _Class>
class SharedPtr
{
public:
/**
* Create a new null pointer.
*/
SharedPtr();
/**
* Destroy this SharedPtr, decreasing the reference count.
*/
~SharedPtr();
/**
* SharedPtr copy constructor.
*/
SharedPtr(const SharedPtr<_Class>& other) noexcept;
/**
* Construction from another pointee type.
*/
template <class _OtherClass>
SharedPtr(const SharedPtr<_OtherClass>& other, typename std::enable_if_t<std::is_convertible_v<_OtherClass *, _Class *>> * = nullptr) noexcept;
/**
* SharedPtr move constructor.
*/
SharedPtr(SharedPtr<_Class>&& other) noexcept;
/**
* Move from another pointee type.
*/
template <class _OtherClass>
SharedPtr(SharedPtr<_OtherClass>&& other, typename std::enable_if_t<std::is_convertible_v<_OtherClass *, _Class *>> * = nullptr) noexcept;
/**
* Copy assignment operator.
* Copying increases reference count. Only releases previous pointee if objects are different.
*/
SharedPtr& operator=(const SharedPtr<_Class>& other);
/**
* Copy-assignment from different pointee.
* Copying increases reference count. Only releases previous pointee if objects are different.
*/
template <class _OtherClass>
typename std::enable_if_t<std::is_convertible_v<_OtherClass *, _Class *>, SharedPtr &>
operator=(const SharedPtr<_OtherClass>& other);
/**
* Move assignment operator.
* Move without affecting reference counts, unless pointees are equal. Moved-from object is reset to nullptr.
*/
SharedPtr& operator=(SharedPtr<_Class>&& other);
/**
* Move-asignment from different pointee.
* Move without affecting reference counts, unless pointees are equal. Moved-from object is reset to nullptr.
*/
template <class _OtherClass>
typename std::enable_if_t<std::is_convertible_v<_OtherClass *, _Class *>, SharedPtr &>
operator=(SharedPtr<_OtherClass>&& other);
/**
* Access raw pointee.
* @warning Avoid wrapping the returned value again, as it may lead double frees unless this object becomes detached.
*/
_Class* get() const;
/**
* Call operations directly on the pointee.
*/
_Class* operator->() const;
/**
* Implicit cast to bool.
*/
explicit operator bool() const;
/**
* Reset this SharedPtr to null, decreasing the reference count.
*/
void reset();
/**
* Detach the SharedPtr from the pointee, without decreasing the reference count.
*/
void detach();
template <class _OtherClass>
friend SharedPtr<_OtherClass> RetainPtr(_OtherClass* ptr);
template <class _OtherClass>
friend SharedPtr<_OtherClass> TransferPtr(_OtherClass* ptr);
private:
_Class* m_pObject;
};
/**
* Create a SharedPtr by retaining an existing raw pointer.
* Increases the reference count of the passed-in object.
* If the passed-in object was in an AutoreleasePool, it will be removed from it.
*/
template <class _Class>
_NS_INLINE NS::SharedPtr<_Class> RetainPtr(_Class* pObject)
{
NS::SharedPtr<_Class> ret;
ret.m_pObject = pObject->retain();
return ret;
}
/*
* Create a SharedPtr by transfering the ownership of an existing raw pointer to SharedPtr.
* Does not increase the reference count of the passed-in pointer, it is assumed to be >= 1.
* This method does not remove objects from an AutoreleasePool.
*/
template <class _Class>
_NS_INLINE NS::SharedPtr<_Class> TransferPtr(_Class* pObject)
{
NS::SharedPtr<_Class> ret;
ret.m_pObject = pObject;
return ret;
}
}
template <class _Class>
_NS_INLINE NS::SharedPtr<_Class>::SharedPtr()
: m_pObject(nullptr)
{
}
template <class _Class>
_NS_INLINE NS::SharedPtr<_Class>::~SharedPtr<_Class>()
{
if (m_pObject)
{
m_pObject->release();
}
}
template <class _Class>
_NS_INLINE NS::SharedPtr<_Class>::SharedPtr(const NS::SharedPtr<_Class>& other) noexcept
: m_pObject(other.m_pObject->retain())
{
}
template <class _Class>
template <class _OtherClass>
_NS_INLINE NS::SharedPtr<_Class>::SharedPtr(const NS::SharedPtr<_OtherClass>& other, typename std::enable_if_t<std::is_convertible_v<_OtherClass *, _Class *>> *) noexcept
: m_pObject(reinterpret_cast<_Class*>(other.get()->retain()))
{
}
template <class _Class>
_NS_INLINE NS::SharedPtr<_Class>::SharedPtr(NS::SharedPtr<_Class>&& other) noexcept
: m_pObject(other.m_pObject)
{
other.m_pObject = nullptr;
}
template <class _Class>
template <class _OtherClass>
_NS_INLINE NS::SharedPtr<_Class>::SharedPtr(NS::SharedPtr<_OtherClass>&& other, typename std::enable_if_t<std::is_convertible_v<_OtherClass *, _Class *>> *) noexcept
: m_pObject(reinterpret_cast<_Class*>(other.get()))
{
other.detach();
}
template <class _Class>
_NS_INLINE _Class* NS::SharedPtr<_Class>::get() const
{
return m_pObject;
}
template <class _Class>
_NS_INLINE _Class* NS::SharedPtr<_Class>::operator->() const
{
return m_pObject;
}
template <class _Class>
_NS_INLINE NS::SharedPtr<_Class>::operator bool() const
{
return nullptr != m_pObject;
}
template <class _Class>
_NS_INLINE void NS::SharedPtr<_Class>::reset()
{
m_pObject->release();
m_pObject = nullptr;
}
template <class _Class>
_NS_INLINE void NS::SharedPtr<_Class>::detach()
{
m_pObject = nullptr;
}
template <class _Class>
_NS_INLINE NS::SharedPtr<_Class>& NS::SharedPtr<_Class>::operator=(const SharedPtr<_Class>& other)
{
if (m_pObject != other.m_pObject)
{
if (m_pObject)
{
m_pObject->release();
}
m_pObject = other.m_pObject->retain();
}
return *this;
}
template <class _Class>
template <class _OtherClass>
typename std::enable_if_t<std::is_convertible_v<_OtherClass *, _Class *>, NS::SharedPtr<_Class> &>
_NS_INLINE NS::SharedPtr<_Class>::operator=(const SharedPtr<_OtherClass>& other)
{
if (m_pObject != other.get())
{
if (m_pObject)
{
m_pObject->release();
}
m_pObject = reinterpret_cast<_Class*>(other.get()->retain());
}
return *this;
}
template <class _Class>
_NS_INLINE NS::SharedPtr<_Class>& NS::SharedPtr<_Class>::operator=(SharedPtr<_Class>&& other)
{
if (m_pObject != other.m_pObject)
{
if (m_pObject)
{
m_pObject->release();
}
m_pObject = other.m_pObject;
}
else
{
m_pObject = other.m_pObject;
other.m_pObject->release();
}
other.m_pObject = nullptr;
return *this;
}
template <class _Class>
template <class _OtherClass>
typename std::enable_if_t<std::is_convertible_v<_OtherClass *, _Class *>, NS::SharedPtr<_Class> &>
_NS_INLINE NS::SharedPtr<_Class>::operator=(SharedPtr<_OtherClass>&& other)
{
if (m_pObject != other.get())
{
if (m_pObject)
{
m_pObject->release();
}
m_pObject = reinterpret_cast<_Class*>(other.get());
other.detach();
}
else
{
m_pObject = other.get();
other.reset();
}
return *this;
}
template <class _ClassLhs, class _ClassRhs>
_NS_INLINE bool operator==(const NS::SharedPtr<_ClassLhs>& lhs, const NS::SharedPtr<_ClassRhs>& rhs)
{
return lhs.get() == rhs.get();
}
template <class _ClassLhs, class _ClassRhs>
_NS_INLINE bool operator!=(const NS::SharedPtr<_ClassLhs>& lhs, const NS::SharedPtr<_ClassRhs>& rhs)
{
return lhs.get() != rhs.get();
}

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@ -0,0 +1,255 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSString.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 "NSDefines.hpp"
#include "NSObjCRuntime.hpp"
#include "NSObject.hpp"
#include "NSPrivate.hpp"
#include "NSRange.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
_NS_ENUM(NS::UInteger, StringEncoding) {
ASCIIStringEncoding = 1,
NEXTSTEPStringEncoding = 2,
JapaneseEUCStringEncoding = 3,
UTF8StringEncoding = 4,
ISOLatin1StringEncoding = 5,
SymbolStringEncoding = 6,
NonLossyASCIIStringEncoding = 7,
ShiftJISStringEncoding = 8,
ISOLatin2StringEncoding = 9,
UnicodeStringEncoding = 10,
WindowsCP1251StringEncoding = 11,
WindowsCP1252StringEncoding = 12,
WindowsCP1253StringEncoding = 13,
WindowsCP1254StringEncoding = 14,
WindowsCP1250StringEncoding = 15,
ISO2022JPStringEncoding = 21,
MacOSRomanStringEncoding = 30,
UTF16StringEncoding = UnicodeStringEncoding,
UTF16BigEndianStringEncoding = 0x90000100,
UTF16LittleEndianStringEncoding = 0x94000100,
UTF32StringEncoding = 0x8c000100,
UTF32BigEndianStringEncoding = 0x98000100,
UTF32LittleEndianStringEncoding = 0x9c000100
};
_NS_OPTIONS(NS::UInteger, StringCompareOptions) {
CaseInsensitiveSearch = 1,
LiteralSearch = 2,
BackwardsSearch = 4,
AnchoredSearch = 8,
NumericSearch = 64,
DiacriticInsensitiveSearch = 128,
WidthInsensitiveSearch = 256,
ForcedOrderingSearch = 512,
RegularExpressionSearch = 1024
};
using unichar = unsigned short;
class String : public Copying<String>
{
public:
static String* string();
static String* string(const String* pString);
static String* string(const char* pString, StringEncoding encoding);
static String* alloc();
String* init();
String* init(const String* pString);
String* init(const char* pString, StringEncoding encoding);
String* init(void* pBytes, UInteger len, StringEncoding encoding, bool freeBuffer);
unichar character(UInteger index) const;
UInteger length() const;
const char* cString(StringEncoding encoding) const;
const char* utf8String() const;
UInteger maximumLengthOfBytes(StringEncoding encoding) const;
UInteger lengthOfBytes(StringEncoding encoding) const;
bool isEqualToString(const String* pString) const;
Range rangeOfString(const String* pString, StringCompareOptions options) const;
const char* fileSystemRepresentation() const;
String* stringByAppendingString(const String* pString) const;
ComparisonResult caseInsensitiveCompare(const String* pString) const;
};
/// Create an NS::String* from a string literal.
#define MTLSTR(literal) (NS::String*)__builtin___CFStringMakeConstantString("" literal "")
template <std::size_t _StringLen>
[[deprecated("please use MTLSTR(str)")]] constexpr const String* MakeConstantString(const char (&str)[_StringLen])
{
return reinterpret_cast<const String*>(__CFStringMakeConstantString(str));
}
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::String::string()
{
return Object::sendMessage<String*>(_NS_PRIVATE_CLS(NSString), _NS_PRIVATE_SEL(string));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::String::string(const String* pString)
{
return Object::sendMessage<String*>(_NS_PRIVATE_CLS(NSString), _NS_PRIVATE_SEL(stringWithString_), pString);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::String::string(const char* pString, StringEncoding encoding)
{
return Object::sendMessage<String*>(_NS_PRIVATE_CLS(NSString), _NS_PRIVATE_SEL(stringWithCString_encoding_), pString, encoding);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::String::alloc()
{
return Object::alloc<String>(_NS_PRIVATE_CLS(NSString));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::String::init()
{
return Object::init<String>();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::String::init(const String* pString)
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(initWithString_), pString);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::String::init(const char* pString, StringEncoding encoding)
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(initWithCString_encoding_), pString, encoding);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::String::init(void* pBytes, UInteger len, StringEncoding encoding, bool freeBuffer)
{
return Object::sendMessage<String*>(this, _NS_PRIVATE_SEL(initWithBytesNoCopy_length_encoding_freeWhenDone_), pBytes, len, encoding, freeBuffer);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::unichar NS::String::character(UInteger index) const
{
return Object::sendMessage<unichar>(this, _NS_PRIVATE_SEL(characterAtIndex_), index);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::String::length() const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(length));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE const char* NS::String::cString(StringEncoding encoding) const
{
return Object::sendMessage<const char*>(this, _NS_PRIVATE_SEL(cStringUsingEncoding_), encoding);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE const char* NS::String::utf8String() const
{
return Object::sendMessage<const char*>(this, _NS_PRIVATE_SEL(UTF8String));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::String::maximumLengthOfBytes(StringEncoding encoding) const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(maximumLengthOfBytesUsingEncoding_), encoding);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::UInteger NS::String::lengthOfBytes(StringEncoding encoding) const
{
return Object::sendMessage<UInteger>(this, _NS_PRIVATE_SEL(lengthOfBytesUsingEncoding_), encoding);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE bool NS::String::isEqualToString(const NS::String* pString) const
{
return Object::sendMessage<bool>(this, _NS_PRIVATE_SEL(isEqualToString_), pString);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::Range NS::String::rangeOfString(const NS::String* pString, NS::StringCompareOptions options) const
{
return Object::sendMessage<Range>(this, _NS_PRIVATE_SEL(rangeOfString_options_), pString, options);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE const char* NS::String::fileSystemRepresentation() const
{
return Object::sendMessage<const char*>(this, _NS_PRIVATE_SEL(fileSystemRepresentation));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::String* NS::String::stringByAppendingString(const String* pString) const
{
return Object::sendMessage<NS::String*>(this, _NS_PRIVATE_SEL(stringByAppendingString_), pString);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::ComparisonResult NS::String::caseInsensitiveCompare(const String* pString) const
{
return Object::sendMessage<NS::ComparisonResult>(this, _NS_PRIVATE_SEL(caseInsensitiveCompare_), pString);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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@ -0,0 +1,51 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSTypes.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 "NSDefines.hpp"
#include <CoreFoundation/CoreFoundation.h>
#include <cstdint>
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
using TimeInterval = double;
using Integer = std::intptr_t;
using UInteger = std::uintptr_t;
const Integer IntegerMax = INTPTR_MAX;
const Integer IntegerMin = INTPTR_MIN;
const UInteger UIntegerMax = UINTPTR_MAX;
struct OperatingSystemVersion
{
Integer majorVersion;
Integer minorVersion;
Integer patchVersion;
} _NS_PACKED;
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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@ -0,0 +1,90 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Foundation/NSURL.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 "NSDefines.hpp"
#include "NSObject.hpp"
#include "NSPrivate.hpp"
#include "NSTypes.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace NS
{
class URL : public Copying<URL>
{
public:
static URL* fileURLWithPath(const class String* pPath);
static URL* alloc();
URL* init();
URL* init(const class String* pString);
URL* initFileURLWithPath(const class String* pPath);
const char* fileSystemRepresentation() const;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::URL::fileURLWithPath(const String* pPath)
{
return Object::sendMessage<URL*>(_NS_PRIVATE_CLS(NSURL), _NS_PRIVATE_SEL(fileURLWithPath_), pPath);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::URL::alloc()
{
return Object::alloc<URL>(_NS_PRIVATE_CLS(NSURL));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::URL::init()
{
return Object::init<URL>();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::URL::init(const String* pString)
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(initWithString_), pString);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE NS::URL* NS::URL::initFileURLWithPath(const String* pPath)
{
return Object::sendMessage<URL*>(this, _NS_PRIVATE_SEL(initFileURLWithPath_), pPath);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_NS_INLINE const char* NS::URL::fileSystemRepresentation() const
{
return Object::sendMessage<const char*>(this, _NS_PRIVATE_SEL(fileSystemRepresentation));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

202
externals/metal-cpp/LICENSE.txt vendored Normal file
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Apache License
Version 2.0, January 2004
http://www.apache.org/licenses/
TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION
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File diff suppressed because it is too large Load Diff

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@ -0,0 +1,290 @@
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLAccelerationStructureCommandEncoder.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 "MTLAccelerationStructureCommandEncoder.hpp"
#include "MTLArgument.hpp"
#include "MTLCommandEncoder.hpp"
namespace MTL
{
_MTL_OPTIONS(NS::UInteger, AccelerationStructureRefitOptions) {
AccelerationStructureRefitOptionVertexData = 1,
AccelerationStructureRefitOptionPerPrimitiveData = 2,
};
class AccelerationStructureCommandEncoder : public NS::Referencing<AccelerationStructureCommandEncoder, CommandEncoder>
{
public:
void buildAccelerationStructure(const class AccelerationStructure* accelerationStructure, const class AccelerationStructureDescriptor* descriptor, const class Buffer* scratchBuffer, NS::UInteger scratchBufferOffset);
void refitAccelerationStructure(const class AccelerationStructure* sourceAccelerationStructure, const class AccelerationStructureDescriptor* descriptor, const class AccelerationStructure* destinationAccelerationStructure, const class Buffer* scratchBuffer, NS::UInteger scratchBufferOffset);
void refitAccelerationStructure(const class AccelerationStructure* sourceAccelerationStructure, const class AccelerationStructureDescriptor* descriptor, const class AccelerationStructure* destinationAccelerationStructure, const class Buffer* scratchBuffer, NS::UInteger scratchBufferOffset, MTL::AccelerationStructureRefitOptions options);
void copyAccelerationStructure(const class AccelerationStructure* sourceAccelerationStructure, const class AccelerationStructure* destinationAccelerationStructure);
void writeCompactedAccelerationStructureSize(const class AccelerationStructure* accelerationStructure, const class Buffer* buffer, NS::UInteger offset);
void writeCompactedAccelerationStructureSize(const class AccelerationStructure* accelerationStructure, const class Buffer* buffer, NS::UInteger offset, MTL::DataType sizeDataType);
void copyAndCompactAccelerationStructure(const class AccelerationStructure* sourceAccelerationStructure, const class AccelerationStructure* destinationAccelerationStructure);
void updateFence(const class Fence* fence);
void waitForFence(const class Fence* fence);
void useResource(const class Resource* resource, MTL::ResourceUsage usage);
void useResources(const class Resource* const resources[], NS::UInteger count, MTL::ResourceUsage usage);
void useHeap(const class Heap* heap);
void useHeaps(const class Heap* const heaps[], NS::UInteger count);
void sampleCountersInBuffer(const class CounterSampleBuffer* sampleBuffer, NS::UInteger sampleIndex, bool barrier);
};
class AccelerationStructurePassSampleBufferAttachmentDescriptor : public NS::Copying<AccelerationStructurePassSampleBufferAttachmentDescriptor>
{
public:
static class AccelerationStructurePassSampleBufferAttachmentDescriptor* alloc();
class AccelerationStructurePassSampleBufferAttachmentDescriptor* init();
class CounterSampleBuffer* sampleBuffer() const;
void setSampleBuffer(const class CounterSampleBuffer* sampleBuffer);
NS::UInteger startOfEncoderSampleIndex() const;
void setStartOfEncoderSampleIndex(NS::UInteger startOfEncoderSampleIndex);
NS::UInteger endOfEncoderSampleIndex() const;
void setEndOfEncoderSampleIndex(NS::UInteger endOfEncoderSampleIndex);
};
class AccelerationStructurePassSampleBufferAttachmentDescriptorArray : public NS::Referencing<AccelerationStructurePassSampleBufferAttachmentDescriptorArray>
{
public:
static class AccelerationStructurePassSampleBufferAttachmentDescriptorArray* alloc();
class AccelerationStructurePassSampleBufferAttachmentDescriptorArray* init();
class AccelerationStructurePassSampleBufferAttachmentDescriptor* object(NS::UInteger attachmentIndex);
void setObject(const class AccelerationStructurePassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex);
};
class AccelerationStructurePassDescriptor : public NS::Copying<AccelerationStructurePassDescriptor>
{
public:
static class AccelerationStructurePassDescriptor* alloc();
class AccelerationStructurePassDescriptor* init();
static class AccelerationStructurePassDescriptor* accelerationStructurePassDescriptor();
class AccelerationStructurePassSampleBufferAttachmentDescriptorArray* sampleBufferAttachments() const;
};
}
// method: buildAccelerationStructure:descriptor:scratchBuffer:scratchBufferOffset:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::buildAccelerationStructure(const MTL::AccelerationStructure* accelerationStructure, const MTL::AccelerationStructureDescriptor* descriptor, const MTL::Buffer* scratchBuffer, NS::UInteger scratchBufferOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(buildAccelerationStructure_descriptor_scratchBuffer_scratchBufferOffset_), accelerationStructure, descriptor, scratchBuffer, scratchBufferOffset);
}
// method: refitAccelerationStructure:descriptor:destination:scratchBuffer:scratchBufferOffset:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::refitAccelerationStructure(const MTL::AccelerationStructure* sourceAccelerationStructure, const MTL::AccelerationStructureDescriptor* descriptor, const MTL::AccelerationStructure* destinationAccelerationStructure, const MTL::Buffer* scratchBuffer, NS::UInteger scratchBufferOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(refitAccelerationStructure_descriptor_destination_scratchBuffer_scratchBufferOffset_), sourceAccelerationStructure, descriptor, destinationAccelerationStructure, scratchBuffer, scratchBufferOffset);
}
// method: refitAccelerationStructure:descriptor:destination:scratchBuffer:scratchBufferOffset:options:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::refitAccelerationStructure(const MTL::AccelerationStructure* sourceAccelerationStructure, const MTL::AccelerationStructureDescriptor* descriptor, const MTL::AccelerationStructure* destinationAccelerationStructure, const MTL::Buffer* scratchBuffer, NS::UInteger scratchBufferOffset, MTL::AccelerationStructureRefitOptions options)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(refitAccelerationStructure_descriptor_destination_scratchBuffer_scratchBufferOffset_options_), sourceAccelerationStructure, descriptor, destinationAccelerationStructure, scratchBuffer, scratchBufferOffset, options);
}
// method: copyAccelerationStructure:toAccelerationStructure:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::copyAccelerationStructure(const MTL::AccelerationStructure* sourceAccelerationStructure, const MTL::AccelerationStructure* destinationAccelerationStructure)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyAccelerationStructure_toAccelerationStructure_), sourceAccelerationStructure, destinationAccelerationStructure);
}
// method: writeCompactedAccelerationStructureSize:toBuffer:offset:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::writeCompactedAccelerationStructureSize(const MTL::AccelerationStructure* accelerationStructure, const MTL::Buffer* buffer, NS::UInteger offset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(writeCompactedAccelerationStructureSize_toBuffer_offset_), accelerationStructure, buffer, offset);
}
// method: writeCompactedAccelerationStructureSize:toBuffer:offset:sizeDataType:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::writeCompactedAccelerationStructureSize(const MTL::AccelerationStructure* accelerationStructure, const MTL::Buffer* buffer, NS::UInteger offset, MTL::DataType sizeDataType)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(writeCompactedAccelerationStructureSize_toBuffer_offset_sizeDataType_), accelerationStructure, buffer, offset, sizeDataType);
}
// method: copyAndCompactAccelerationStructure:toAccelerationStructure:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::copyAndCompactAccelerationStructure(const MTL::AccelerationStructure* sourceAccelerationStructure, const MTL::AccelerationStructure* destinationAccelerationStructure)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyAndCompactAccelerationStructure_toAccelerationStructure_), sourceAccelerationStructure, destinationAccelerationStructure);
}
// method: updateFence:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::updateFence(const MTL::Fence* fence)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(updateFence_), fence);
}
// method: waitForFence:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::waitForFence(const MTL::Fence* fence)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(waitForFence_), fence);
}
// method: useResource:usage:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::useResource(const MTL::Resource* resource, MTL::ResourceUsage usage)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(useResource_usage_), resource, usage);
}
// method: useResources:count:usage:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::useResources(const MTL::Resource* const resources[], NS::UInteger count, MTL::ResourceUsage usage)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(useResources_count_usage_), resources, count, usage);
}
// method: useHeap:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::useHeap(const MTL::Heap* heap)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(useHeap_), heap);
}
// method: useHeaps:count:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::useHeaps(const MTL::Heap* const heaps[], NS::UInteger count)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(useHeaps_count_), heaps, count);
}
// method: sampleCountersInBuffer:atSampleIndex:withBarrier:
_MTL_INLINE void MTL::AccelerationStructureCommandEncoder::sampleCountersInBuffer(const MTL::CounterSampleBuffer* sampleBuffer, NS::UInteger sampleIndex, bool barrier)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(sampleCountersInBuffer_atSampleIndex_withBarrier_), sampleBuffer, sampleIndex, barrier);
}
// static method: alloc
_MTL_INLINE MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor* MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLAccelerationStructurePassSampleBufferAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor* MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor::init()
{
return NS::Object::init<MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor>();
}
// property: sampleBuffer
_MTL_INLINE MTL::CounterSampleBuffer* MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor::sampleBuffer() const
{
return Object::sendMessage<MTL::CounterSampleBuffer*>(this, _MTL_PRIVATE_SEL(sampleBuffer));
}
_MTL_INLINE void MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor::setSampleBuffer(const MTL::CounterSampleBuffer* sampleBuffer)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSampleBuffer_), sampleBuffer);
}
// property: startOfEncoderSampleIndex
_MTL_INLINE NS::UInteger MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor::startOfEncoderSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(startOfEncoderSampleIndex));
}
_MTL_INLINE void MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor::setStartOfEncoderSampleIndex(NS::UInteger startOfEncoderSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStartOfEncoderSampleIndex_), startOfEncoderSampleIndex);
}
// property: endOfEncoderSampleIndex
_MTL_INLINE NS::UInteger MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor::endOfEncoderSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(endOfEncoderSampleIndex));
}
_MTL_INLINE void MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor::setEndOfEncoderSampleIndex(NS::UInteger endOfEncoderSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setEndOfEncoderSampleIndex_), endOfEncoderSampleIndex);
}
// static method: alloc
_MTL_INLINE MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray* MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray>(_MTL_PRIVATE_CLS(MTLAccelerationStructurePassSampleBufferAttachmentDescriptorArray));
}
// method: init
_MTL_INLINE MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray* MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray::init()
{
return NS::Object::init<MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor* MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray::object(NS::UInteger attachmentIndex)
{
return Object::sendMessage<MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), attachmentIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray::setObject(const MTL::AccelerationStructurePassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attachment, attachmentIndex);
}
// static method: alloc
_MTL_INLINE MTL::AccelerationStructurePassDescriptor* MTL::AccelerationStructurePassDescriptor::alloc()
{
return NS::Object::alloc<MTL::AccelerationStructurePassDescriptor>(_MTL_PRIVATE_CLS(MTLAccelerationStructurePassDescriptor));
}
// method: init
_MTL_INLINE MTL::AccelerationStructurePassDescriptor* MTL::AccelerationStructurePassDescriptor::init()
{
return NS::Object::init<MTL::AccelerationStructurePassDescriptor>();
}
// static method: accelerationStructurePassDescriptor
_MTL_INLINE MTL::AccelerationStructurePassDescriptor* MTL::AccelerationStructurePassDescriptor::accelerationStructurePassDescriptor()
{
return Object::sendMessage<MTL::AccelerationStructurePassDescriptor*>(_MTL_PRIVATE_CLS(MTLAccelerationStructurePassDescriptor), _MTL_PRIVATE_SEL(accelerationStructurePassDescriptor));
}
// property: sampleBufferAttachments
_MTL_INLINE MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray* MTL::AccelerationStructurePassDescriptor::sampleBufferAttachments() const
{
return Object::sendMessage<MTL::AccelerationStructurePassSampleBufferAttachmentDescriptorArray*>(this, _MTL_PRIVATE_SEL(sampleBufferAttachments));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLAccelerationStructureTypes.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 "MTLPrivate.hpp"
#include "MTLResource.hpp"
#include "MTLStageInputOutputDescriptor.hpp"
#include "../Foundation/NSRange.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTL
{
struct PackedFloat3
{
PackedFloat3();
PackedFloat3(float x, float y, float z);
float& operator[](int idx);
float operator[](int idx) const;
union
{
struct
{
float x;
float y;
float z;
};
float elements[3];
};
} _MTL_PACKED;
struct PackedFloat4x3
{
PackedFloat4x3();
PackedFloat4x3(const PackedFloat3& col0, const PackedFloat3& col1, const PackedFloat3& col2, const PackedFloat3& col3);
PackedFloat3& operator[](int idx);
const PackedFloat3& operator[](int idx) const;
PackedFloat3 columns[4];
} _MTL_PACKED;
struct AxisAlignedBoundingBox
{
AxisAlignedBoundingBox();
AxisAlignedBoundingBox(PackedFloat3 p);
AxisAlignedBoundingBox(PackedFloat3 min, PackedFloat3 max);
PackedFloat3 min;
PackedFloat3 max;
} _MTL_PACKED;
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::PackedFloat3::PackedFloat3()
: x(0.0f)
, y(0.0f)
, z(0.0f)
{
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::PackedFloat3::PackedFloat3(float _x, float _y, float _z)
: x(_x)
, y(_y)
, z(_z)
{
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE float& MTL::PackedFloat3::operator[](int idx)
{
return elements[idx];
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE float MTL::PackedFloat3::operator[](int idx) const
{
return elements[idx];
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::PackedFloat4x3::PackedFloat4x3()
{
columns[0] = PackedFloat3(0.0f, 0.0f, 0.0f);
columns[1] = PackedFloat3(0.0f, 0.0f, 0.0f);
columns[2] = PackedFloat3(0.0f, 0.0f, 0.0f);
columns[3] = PackedFloat3(0.0f, 0.0f, 0.0f);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::PackedFloat4x3::PackedFloat4x3(const PackedFloat3& col0, const PackedFloat3& col1, const PackedFloat3& col2, const PackedFloat3& col3)
{
columns[0] = col0;
columns[1] = col1;
columns[2] = col2;
columns[3] = col3;
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::PackedFloat3& MTL::PackedFloat4x3::operator[](int idx)
{
return columns[idx];
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE const MTL::PackedFloat3& MTL::PackedFloat4x3::operator[](int idx) const
{
return columns[idx];
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::AxisAlignedBoundingBox::AxisAlignedBoundingBox()
: min(INFINITY, INFINITY, INFINITY)
, max(-INFINITY, -INFINITY, -INFINITY)
{
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::AxisAlignedBoundingBox::AxisAlignedBoundingBox(PackedFloat3 p)
: min(p)
, max(p)
{
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::AxisAlignedBoundingBox::AxisAlignedBoundingBox(PackedFloat3 _min, PackedFloat3 _max)
: min(_min)
, max(_max)
{
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLArgument.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 "MTLArgument.hpp"
#include "MTLTexture.hpp"
namespace MTL
{
_MTL_ENUM(NS::UInteger, DataType) {
DataTypeNone = 0,
DataTypeStruct = 1,
DataTypeArray = 2,
DataTypeFloat = 3,
DataTypeFloat2 = 4,
DataTypeFloat3 = 5,
DataTypeFloat4 = 6,
DataTypeFloat2x2 = 7,
DataTypeFloat2x3 = 8,
DataTypeFloat2x4 = 9,
DataTypeFloat3x2 = 10,
DataTypeFloat3x3 = 11,
DataTypeFloat3x4 = 12,
DataTypeFloat4x2 = 13,
DataTypeFloat4x3 = 14,
DataTypeFloat4x4 = 15,
DataTypeHalf = 16,
DataTypeHalf2 = 17,
DataTypeHalf3 = 18,
DataTypeHalf4 = 19,
DataTypeHalf2x2 = 20,
DataTypeHalf2x3 = 21,
DataTypeHalf2x4 = 22,
DataTypeHalf3x2 = 23,
DataTypeHalf3x3 = 24,
DataTypeHalf3x4 = 25,
DataTypeHalf4x2 = 26,
DataTypeHalf4x3 = 27,
DataTypeHalf4x4 = 28,
DataTypeInt = 29,
DataTypeInt2 = 30,
DataTypeInt3 = 31,
DataTypeInt4 = 32,
DataTypeUInt = 33,
DataTypeUInt2 = 34,
DataTypeUInt3 = 35,
DataTypeUInt4 = 36,
DataTypeShort = 37,
DataTypeShort2 = 38,
DataTypeShort3 = 39,
DataTypeShort4 = 40,
DataTypeUShort = 41,
DataTypeUShort2 = 42,
DataTypeUShort3 = 43,
DataTypeUShort4 = 44,
DataTypeChar = 45,
DataTypeChar2 = 46,
DataTypeChar3 = 47,
DataTypeChar4 = 48,
DataTypeUChar = 49,
DataTypeUChar2 = 50,
DataTypeUChar3 = 51,
DataTypeUChar4 = 52,
DataTypeBool = 53,
DataTypeBool2 = 54,
DataTypeBool3 = 55,
DataTypeBool4 = 56,
DataTypeTexture = 58,
DataTypeSampler = 59,
DataTypePointer = 60,
DataTypeR8Unorm = 62,
DataTypeR8Snorm = 63,
DataTypeR16Unorm = 64,
DataTypeR16Snorm = 65,
DataTypeRG8Unorm = 66,
DataTypeRG8Snorm = 67,
DataTypeRG16Unorm = 68,
DataTypeRG16Snorm = 69,
DataTypeRGBA8Unorm = 70,
DataTypeRGBA8Unorm_sRGB = 71,
DataTypeRGBA8Snorm = 72,
DataTypeRGBA16Unorm = 73,
DataTypeRGBA16Snorm = 74,
DataTypeRGB10A2Unorm = 75,
DataTypeRG11B10Float = 76,
DataTypeRGB9E5Float = 77,
DataTypeRenderPipeline = 78,
DataTypeComputePipeline = 79,
DataTypeIndirectCommandBuffer = 80,
DataTypeLong = 81,
DataTypeLong2 = 82,
DataTypeLong3 = 83,
DataTypeLong4 = 84,
DataTypeULong = 85,
DataTypeULong2 = 86,
DataTypeULong3 = 87,
DataTypeULong4 = 88,
DataTypeVisibleFunctionTable = 115,
DataTypeIntersectionFunctionTable = 116,
DataTypePrimitiveAccelerationStructure = 117,
DataTypeInstanceAccelerationStructure = 118,
DataTypeBFloat = 121,
DataTypeBFloat2 = 122,
DataTypeBFloat3 = 123,
DataTypeBFloat4 = 124,
};
_MTL_ENUM(NS::Integer, BindingType) {
BindingTypeBuffer = 0,
BindingTypeThreadgroupMemory = 1,
BindingTypeTexture = 2,
BindingTypeSampler = 3,
BindingTypeImageblockData = 16,
BindingTypeImageblock = 17,
BindingTypeVisibleFunctionTable = 24,
BindingTypePrimitiveAccelerationStructure = 25,
BindingTypeInstanceAccelerationStructure = 26,
BindingTypeIntersectionFunctionTable = 27,
BindingTypeObjectPayload = 34,
};
_MTL_ENUM(NS::UInteger, ArgumentType) {
ArgumentTypeBuffer = 0,
ArgumentTypeThreadgroupMemory = 1,
ArgumentTypeTexture = 2,
ArgumentTypeSampler = 3,
ArgumentTypeImageblockData = 16,
ArgumentTypeImageblock = 17,
ArgumentTypeVisibleFunctionTable = 24,
ArgumentTypePrimitiveAccelerationStructure = 25,
ArgumentTypeInstanceAccelerationStructure = 26,
ArgumentTypeIntersectionFunctionTable = 27,
};
_MTL_ENUM(NS::UInteger, BindingAccess) {
BindingAccessReadOnly = 0,
BindingAccessReadWrite = 1,
BindingAccessWriteOnly = 2,
ArgumentAccessReadOnly = 0,
ArgumentAccessReadWrite = 1,
ArgumentAccessWriteOnly = 2,
};
class Type : public NS::Referencing<Type>
{
public:
static class Type* alloc();
class Type* init();
MTL::DataType dataType() const;
};
class StructMember : public NS::Referencing<StructMember>
{
public:
static class StructMember* alloc();
class StructMember* init();
NS::String* name() const;
NS::UInteger offset() const;
MTL::DataType dataType() const;
class StructType* structType();
class ArrayType* arrayType();
class TextureReferenceType* textureReferenceType();
class PointerType* pointerType();
NS::UInteger argumentIndex() const;
};
class StructType : public NS::Referencing<StructType, Type>
{
public:
static class StructType* alloc();
class StructType* init();
NS::Array* members() const;
class StructMember* memberByName(const NS::String* name);
};
class ArrayType : public NS::Referencing<ArrayType, Type>
{
public:
static class ArrayType* alloc();
class ArrayType* init();
MTL::DataType elementType() const;
NS::UInteger arrayLength() const;
NS::UInteger stride() const;
NS::UInteger argumentIndexStride() const;
class StructType* elementStructType();
class ArrayType* elementArrayType();
class TextureReferenceType* elementTextureReferenceType();
class PointerType* elementPointerType();
};
class PointerType : public NS::Referencing<PointerType, Type>
{
public:
static class PointerType* alloc();
class PointerType* init();
MTL::DataType elementType() const;
MTL::BindingAccess access() const;
NS::UInteger alignment() const;
NS::UInteger dataSize() const;
bool elementIsArgumentBuffer() const;
class StructType* elementStructType();
class ArrayType* elementArrayType();
};
class TextureReferenceType : public NS::Referencing<TextureReferenceType, Type>
{
public:
static class TextureReferenceType* alloc();
class TextureReferenceType* init();
MTL::DataType textureDataType() const;
MTL::TextureType textureType() const;
MTL::BindingAccess access() const;
bool isDepthTexture() const;
};
class Argument : public NS::Referencing<Argument>
{
public:
static class Argument* alloc();
class Argument* init();
NS::String* name() const;
MTL::ArgumentType type() const;
MTL::BindingAccess access() const;
NS::UInteger index() const;
bool active() const;
NS::UInteger bufferAlignment() const;
NS::UInteger bufferDataSize() const;
MTL::DataType bufferDataType() const;
class StructType* bufferStructType() const;
class PointerType* bufferPointerType() const;
NS::UInteger threadgroupMemoryAlignment() const;
NS::UInteger threadgroupMemoryDataSize() const;
MTL::TextureType textureType() const;
MTL::DataType textureDataType() const;
bool isDepthTexture() const;
NS::UInteger arrayLength() const;
};
class Binding : public NS::Referencing<Binding>
{
public:
NS::String* name() const;
MTL::BindingType type() const;
MTL::BindingAccess access() const;
NS::UInteger index() const;
bool used() const;
bool argument() const;
};
class BufferBinding : public NS::Referencing<BufferBinding, Binding>
{
public:
NS::UInteger bufferAlignment() const;
NS::UInteger bufferDataSize() const;
MTL::DataType bufferDataType() const;
class StructType* bufferStructType() const;
class PointerType* bufferPointerType() const;
};
class ThreadgroupBinding : public NS::Referencing<ThreadgroupBinding, Binding>
{
public:
NS::UInteger threadgroupMemoryAlignment() const;
NS::UInteger threadgroupMemoryDataSize() const;
};
class TextureBinding : public NS::Referencing<TextureBinding, Binding>
{
public:
MTL::TextureType textureType() const;
MTL::DataType textureDataType() const;
bool depthTexture() const;
NS::UInteger arrayLength() const;
};
class ObjectPayloadBinding : public NS::Referencing<ObjectPayloadBinding, Binding>
{
public:
NS::UInteger objectPayloadAlignment() const;
NS::UInteger objectPayloadDataSize() const;
};
}
// static method: alloc
_MTL_INLINE MTL::Type* MTL::Type::alloc()
{
return NS::Object::alloc<MTL::Type>(_MTL_PRIVATE_CLS(MTLType));
}
// method: init
_MTL_INLINE MTL::Type* MTL::Type::init()
{
return NS::Object::init<MTL::Type>();
}
// property: dataType
_MTL_INLINE MTL::DataType MTL::Type::dataType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(dataType));
}
// static method: alloc
_MTL_INLINE MTL::StructMember* MTL::StructMember::alloc()
{
return NS::Object::alloc<MTL::StructMember>(_MTL_PRIVATE_CLS(MTLStructMember));
}
// method: init
_MTL_INLINE MTL::StructMember* MTL::StructMember::init()
{
return NS::Object::init<MTL::StructMember>();
}
// property: name
_MTL_INLINE NS::String* MTL::StructMember::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: offset
_MTL_INLINE NS::UInteger MTL::StructMember::offset() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(offset));
}
// property: dataType
_MTL_INLINE MTL::DataType MTL::StructMember::dataType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(dataType));
}
// method: structType
_MTL_INLINE MTL::StructType* MTL::StructMember::structType()
{
return Object::sendMessage<MTL::StructType*>(this, _MTL_PRIVATE_SEL(structType));
}
// method: arrayType
_MTL_INLINE MTL::ArrayType* MTL::StructMember::arrayType()
{
return Object::sendMessage<MTL::ArrayType*>(this, _MTL_PRIVATE_SEL(arrayType));
}
// method: textureReferenceType
_MTL_INLINE MTL::TextureReferenceType* MTL::StructMember::textureReferenceType()
{
return Object::sendMessage<MTL::TextureReferenceType*>(this, _MTL_PRIVATE_SEL(textureReferenceType));
}
// method: pointerType
_MTL_INLINE MTL::PointerType* MTL::StructMember::pointerType()
{
return Object::sendMessage<MTL::PointerType*>(this, _MTL_PRIVATE_SEL(pointerType));
}
// property: argumentIndex
_MTL_INLINE NS::UInteger MTL::StructMember::argumentIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(argumentIndex));
}
// static method: alloc
_MTL_INLINE MTL::StructType* MTL::StructType::alloc()
{
return NS::Object::alloc<MTL::StructType>(_MTL_PRIVATE_CLS(MTLStructType));
}
// method: init
_MTL_INLINE MTL::StructType* MTL::StructType::init()
{
return NS::Object::init<MTL::StructType>();
}
// property: members
_MTL_INLINE NS::Array* MTL::StructType::members() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(members));
}
// method: memberByName:
_MTL_INLINE MTL::StructMember* MTL::StructType::memberByName(const NS::String* name)
{
return Object::sendMessage<MTL::StructMember*>(this, _MTL_PRIVATE_SEL(memberByName_), name);
}
// static method: alloc
_MTL_INLINE MTL::ArrayType* MTL::ArrayType::alloc()
{
return NS::Object::alloc<MTL::ArrayType>(_MTL_PRIVATE_CLS(MTLArrayType));
}
// method: init
_MTL_INLINE MTL::ArrayType* MTL::ArrayType::init()
{
return NS::Object::init<MTL::ArrayType>();
}
// property: elementType
_MTL_INLINE MTL::DataType MTL::ArrayType::elementType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(elementType));
}
// property: arrayLength
_MTL_INLINE NS::UInteger MTL::ArrayType::arrayLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(arrayLength));
}
// property: stride
_MTL_INLINE NS::UInteger MTL::ArrayType::stride() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(stride));
}
// property: argumentIndexStride
_MTL_INLINE NS::UInteger MTL::ArrayType::argumentIndexStride() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(argumentIndexStride));
}
// method: elementStructType
_MTL_INLINE MTL::StructType* MTL::ArrayType::elementStructType()
{
return Object::sendMessage<MTL::StructType*>(this, _MTL_PRIVATE_SEL(elementStructType));
}
// method: elementArrayType
_MTL_INLINE MTL::ArrayType* MTL::ArrayType::elementArrayType()
{
return Object::sendMessage<MTL::ArrayType*>(this, _MTL_PRIVATE_SEL(elementArrayType));
}
// method: elementTextureReferenceType
_MTL_INLINE MTL::TextureReferenceType* MTL::ArrayType::elementTextureReferenceType()
{
return Object::sendMessage<MTL::TextureReferenceType*>(this, _MTL_PRIVATE_SEL(elementTextureReferenceType));
}
// method: elementPointerType
_MTL_INLINE MTL::PointerType* MTL::ArrayType::elementPointerType()
{
return Object::sendMessage<MTL::PointerType*>(this, _MTL_PRIVATE_SEL(elementPointerType));
}
// static method: alloc
_MTL_INLINE MTL::PointerType* MTL::PointerType::alloc()
{
return NS::Object::alloc<MTL::PointerType>(_MTL_PRIVATE_CLS(MTLPointerType));
}
// method: init
_MTL_INLINE MTL::PointerType* MTL::PointerType::init()
{
return NS::Object::init<MTL::PointerType>();
}
// property: elementType
_MTL_INLINE MTL::DataType MTL::PointerType::elementType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(elementType));
}
// property: access
_MTL_INLINE MTL::BindingAccess MTL::PointerType::access() const
{
return Object::sendMessage<MTL::BindingAccess>(this, _MTL_PRIVATE_SEL(access));
}
// property: alignment
_MTL_INLINE NS::UInteger MTL::PointerType::alignment() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(alignment));
}
// property: dataSize
_MTL_INLINE NS::UInteger MTL::PointerType::dataSize() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(dataSize));
}
// property: elementIsArgumentBuffer
_MTL_INLINE bool MTL::PointerType::elementIsArgumentBuffer() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(elementIsArgumentBuffer));
}
// method: elementStructType
_MTL_INLINE MTL::StructType* MTL::PointerType::elementStructType()
{
return Object::sendMessage<MTL::StructType*>(this, _MTL_PRIVATE_SEL(elementStructType));
}
// method: elementArrayType
_MTL_INLINE MTL::ArrayType* MTL::PointerType::elementArrayType()
{
return Object::sendMessage<MTL::ArrayType*>(this, _MTL_PRIVATE_SEL(elementArrayType));
}
// static method: alloc
_MTL_INLINE MTL::TextureReferenceType* MTL::TextureReferenceType::alloc()
{
return NS::Object::alloc<MTL::TextureReferenceType>(_MTL_PRIVATE_CLS(MTLTextureReferenceType));
}
// method: init
_MTL_INLINE MTL::TextureReferenceType* MTL::TextureReferenceType::init()
{
return NS::Object::init<MTL::TextureReferenceType>();
}
// property: textureDataType
_MTL_INLINE MTL::DataType MTL::TextureReferenceType::textureDataType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(textureDataType));
}
// property: textureType
_MTL_INLINE MTL::TextureType MTL::TextureReferenceType::textureType() const
{
return Object::sendMessage<MTL::TextureType>(this, _MTL_PRIVATE_SEL(textureType));
}
// property: access
_MTL_INLINE MTL::BindingAccess MTL::TextureReferenceType::access() const
{
return Object::sendMessage<MTL::BindingAccess>(this, _MTL_PRIVATE_SEL(access));
}
// property: isDepthTexture
_MTL_INLINE bool MTL::TextureReferenceType::isDepthTexture() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isDepthTexture));
}
// static method: alloc
_MTL_INLINE MTL::Argument* MTL::Argument::alloc()
{
return NS::Object::alloc<MTL::Argument>(_MTL_PRIVATE_CLS(MTLArgument));
}
// method: init
_MTL_INLINE MTL::Argument* MTL::Argument::init()
{
return NS::Object::init<MTL::Argument>();
}
// property: name
_MTL_INLINE NS::String* MTL::Argument::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: type
_MTL_INLINE MTL::ArgumentType MTL::Argument::type() const
{
return Object::sendMessage<MTL::ArgumentType>(this, _MTL_PRIVATE_SEL(type));
}
// property: access
_MTL_INLINE MTL::BindingAccess MTL::Argument::access() const
{
return Object::sendMessage<MTL::BindingAccess>(this, _MTL_PRIVATE_SEL(access));
}
// property: index
_MTL_INLINE NS::UInteger MTL::Argument::index() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(index));
}
// property: active
_MTL_INLINE bool MTL::Argument::active() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isActive));
}
// property: bufferAlignment
_MTL_INLINE NS::UInteger MTL::Argument::bufferAlignment() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(bufferAlignment));
}
// property: bufferDataSize
_MTL_INLINE NS::UInteger MTL::Argument::bufferDataSize() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(bufferDataSize));
}
// property: bufferDataType
_MTL_INLINE MTL::DataType MTL::Argument::bufferDataType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(bufferDataType));
}
// property: bufferStructType
_MTL_INLINE MTL::StructType* MTL::Argument::bufferStructType() const
{
return Object::sendMessage<MTL::StructType*>(this, _MTL_PRIVATE_SEL(bufferStructType));
}
// property: bufferPointerType
_MTL_INLINE MTL::PointerType* MTL::Argument::bufferPointerType() const
{
return Object::sendMessage<MTL::PointerType*>(this, _MTL_PRIVATE_SEL(bufferPointerType));
}
// property: threadgroupMemoryAlignment
_MTL_INLINE NS::UInteger MTL::Argument::threadgroupMemoryAlignment() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(threadgroupMemoryAlignment));
}
// property: threadgroupMemoryDataSize
_MTL_INLINE NS::UInteger MTL::Argument::threadgroupMemoryDataSize() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(threadgroupMemoryDataSize));
}
// property: textureType
_MTL_INLINE MTL::TextureType MTL::Argument::textureType() const
{
return Object::sendMessage<MTL::TextureType>(this, _MTL_PRIVATE_SEL(textureType));
}
// property: textureDataType
_MTL_INLINE MTL::DataType MTL::Argument::textureDataType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(textureDataType));
}
// property: isDepthTexture
_MTL_INLINE bool MTL::Argument::isDepthTexture() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isDepthTexture));
}
// property: arrayLength
_MTL_INLINE NS::UInteger MTL::Argument::arrayLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(arrayLength));
}
// property: name
_MTL_INLINE NS::String* MTL::Binding::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: type
_MTL_INLINE MTL::BindingType MTL::Binding::type() const
{
return Object::sendMessage<MTL::BindingType>(this, _MTL_PRIVATE_SEL(type));
}
// property: access
_MTL_INLINE MTL::BindingAccess MTL::Binding::access() const
{
return Object::sendMessage<MTL::BindingAccess>(this, _MTL_PRIVATE_SEL(access));
}
// property: index
_MTL_INLINE NS::UInteger MTL::Binding::index() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(index));
}
// property: used
_MTL_INLINE bool MTL::Binding::used() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isUsed));
}
// property: argument
_MTL_INLINE bool MTL::Binding::argument() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isArgument));
}
// property: bufferAlignment
_MTL_INLINE NS::UInteger MTL::BufferBinding::bufferAlignment() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(bufferAlignment));
}
// property: bufferDataSize
_MTL_INLINE NS::UInteger MTL::BufferBinding::bufferDataSize() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(bufferDataSize));
}
// property: bufferDataType
_MTL_INLINE MTL::DataType MTL::BufferBinding::bufferDataType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(bufferDataType));
}
// property: bufferStructType
_MTL_INLINE MTL::StructType* MTL::BufferBinding::bufferStructType() const
{
return Object::sendMessage<MTL::StructType*>(this, _MTL_PRIVATE_SEL(bufferStructType));
}
// property: bufferPointerType
_MTL_INLINE MTL::PointerType* MTL::BufferBinding::bufferPointerType() const
{
return Object::sendMessage<MTL::PointerType*>(this, _MTL_PRIVATE_SEL(bufferPointerType));
}
// property: threadgroupMemoryAlignment
_MTL_INLINE NS::UInteger MTL::ThreadgroupBinding::threadgroupMemoryAlignment() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(threadgroupMemoryAlignment));
}
// property: threadgroupMemoryDataSize
_MTL_INLINE NS::UInteger MTL::ThreadgroupBinding::threadgroupMemoryDataSize() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(threadgroupMemoryDataSize));
}
// property: textureType
_MTL_INLINE MTL::TextureType MTL::TextureBinding::textureType() const
{
return Object::sendMessage<MTL::TextureType>(this, _MTL_PRIVATE_SEL(textureType));
}
// property: textureDataType
_MTL_INLINE MTL::DataType MTL::TextureBinding::textureDataType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(textureDataType));
}
// property: depthTexture
_MTL_INLINE bool MTL::TextureBinding::depthTexture() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isDepthTexture));
}
// property: arrayLength
_MTL_INLINE NS::UInteger MTL::TextureBinding::arrayLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(arrayLength));
}
// property: objectPayloadAlignment
_MTL_INLINE NS::UInteger MTL::ObjectPayloadBinding::objectPayloadAlignment() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(objectPayloadAlignment));
}
// property: objectPayloadDataSize
_MTL_INLINE NS::UInteger MTL::ObjectPayloadBinding::objectPayloadDataSize() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(objectPayloadDataSize));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLArgumentEncoder.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>
namespace MTL
{
static const NS::UInteger AttributeStrideStatic = NS::UIntegerMax;
class ArgumentEncoder : public NS::Referencing<ArgumentEncoder>
{
public:
class Device* device() const;
NS::String* label() const;
void setLabel(const NS::String* label);
NS::UInteger encodedLength() const;
NS::UInteger alignment() const;
void setArgumentBuffer(const class Buffer* argumentBuffer, NS::UInteger offset);
void setArgumentBuffer(const class Buffer* argumentBuffer, NS::UInteger startOffset, NS::UInteger arrayElement);
void setBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger index);
void setBuffers(const class Buffer* const buffers[], const NS::UInteger offsets[], NS::Range range);
void setTexture(const class Texture* texture, NS::UInteger index);
void setTextures(const class Texture* const textures[], NS::Range range);
void setSamplerState(const class SamplerState* sampler, NS::UInteger index);
void setSamplerStates(const class SamplerState* const samplers[], NS::Range range);
void* constantData(NS::UInteger index);
void setRenderPipelineState(const class RenderPipelineState* pipeline, NS::UInteger index);
void setRenderPipelineStates(const class RenderPipelineState* const pipelines[], NS::Range range);
void setComputePipelineState(const class ComputePipelineState* pipeline, NS::UInteger index);
void setComputePipelineStates(const class ComputePipelineState* const pipelines[], NS::Range range);
void setIndirectCommandBuffer(const class IndirectCommandBuffer* indirectCommandBuffer, NS::UInteger index);
void setIndirectCommandBuffers(const class IndirectCommandBuffer* const buffers[], NS::Range range);
void setAccelerationStructure(const class AccelerationStructure* accelerationStructure, NS::UInteger index);
class ArgumentEncoder* newArgumentEncoder(NS::UInteger index);
void setVisibleFunctionTable(const class VisibleFunctionTable* visibleFunctionTable, NS::UInteger index);
void setVisibleFunctionTables(const class VisibleFunctionTable* const visibleFunctionTables[], NS::Range range);
void setIntersectionFunctionTable(const class IntersectionFunctionTable* intersectionFunctionTable, NS::UInteger index);
void setIntersectionFunctionTables(const class IntersectionFunctionTable* const intersectionFunctionTables[], NS::Range range);
};
}
// property: device
_MTL_INLINE MTL::Device* MTL::ArgumentEncoder::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: label
_MTL_INLINE NS::String* MTL::ArgumentEncoder::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::ArgumentEncoder::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: encodedLength
_MTL_INLINE NS::UInteger MTL::ArgumentEncoder::encodedLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(encodedLength));
}
// property: alignment
_MTL_INLINE NS::UInteger MTL::ArgumentEncoder::alignment() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(alignment));
}
// method: setArgumentBuffer:offset:
_MTL_INLINE void MTL::ArgumentEncoder::setArgumentBuffer(const MTL::Buffer* argumentBuffer, NS::UInteger offset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setArgumentBuffer_offset_), argumentBuffer, offset);
}
// method: setArgumentBuffer:startOffset:arrayElement:
_MTL_INLINE void MTL::ArgumentEncoder::setArgumentBuffer(const MTL::Buffer* argumentBuffer, NS::UInteger startOffset, NS::UInteger arrayElement)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setArgumentBuffer_startOffset_arrayElement_), argumentBuffer, startOffset, arrayElement);
}
// method: setBuffer:offset:atIndex:
_MTL_INLINE void MTL::ArgumentEncoder::setBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBuffer_offset_atIndex_), buffer, offset, index);
}
// method: setBuffers:offsets:withRange:
_MTL_INLINE void MTL::ArgumentEncoder::setBuffers(const MTL::Buffer* const buffers[], const NS::UInteger offsets[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBuffers_offsets_withRange_), buffers, offsets, range);
}
// method: setTexture:atIndex:
_MTL_INLINE void MTL::ArgumentEncoder::setTexture(const MTL::Texture* texture, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTexture_atIndex_), texture, index);
}
// method: setTextures:withRange:
_MTL_INLINE void MTL::ArgumentEncoder::setTextures(const MTL::Texture* const textures[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTextures_withRange_), textures, range);
}
// method: setSamplerState:atIndex:
_MTL_INLINE void MTL::ArgumentEncoder::setSamplerState(const MTL::SamplerState* sampler, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSamplerState_atIndex_), sampler, index);
}
// method: setSamplerStates:withRange:
_MTL_INLINE void MTL::ArgumentEncoder::setSamplerStates(const MTL::SamplerState* const samplers[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSamplerStates_withRange_), samplers, range);
}
// method: constantDataAtIndex:
_MTL_INLINE void* MTL::ArgumentEncoder::constantData(NS::UInteger index)
{
return Object::sendMessage<void*>(this, _MTL_PRIVATE_SEL(constantDataAtIndex_), index);
}
// method: setRenderPipelineState:atIndex:
_MTL_INLINE void MTL::ArgumentEncoder::setRenderPipelineState(const MTL::RenderPipelineState* pipeline, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRenderPipelineState_atIndex_), pipeline, index);
}
// method: setRenderPipelineStates:withRange:
_MTL_INLINE void MTL::ArgumentEncoder::setRenderPipelineStates(const MTL::RenderPipelineState* const pipelines[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRenderPipelineStates_withRange_), pipelines, range);
}
// method: setComputePipelineState:atIndex:
_MTL_INLINE void MTL::ArgumentEncoder::setComputePipelineState(const MTL::ComputePipelineState* pipeline, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setComputePipelineState_atIndex_), pipeline, index);
}
// method: setComputePipelineStates:withRange:
_MTL_INLINE void MTL::ArgumentEncoder::setComputePipelineStates(const MTL::ComputePipelineState* const pipelines[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setComputePipelineStates_withRange_), pipelines, range);
}
// method: setIndirectCommandBuffer:atIndex:
_MTL_INLINE void MTL::ArgumentEncoder::setIndirectCommandBuffer(const MTL::IndirectCommandBuffer* indirectCommandBuffer, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setIndirectCommandBuffer_atIndex_), indirectCommandBuffer, index);
}
// method: setIndirectCommandBuffers:withRange:
_MTL_INLINE void MTL::ArgumentEncoder::setIndirectCommandBuffers(const MTL::IndirectCommandBuffer* const buffers[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setIndirectCommandBuffers_withRange_), buffers, range);
}
// method: setAccelerationStructure:atIndex:
_MTL_INLINE void MTL::ArgumentEncoder::setAccelerationStructure(const MTL::AccelerationStructure* accelerationStructure, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAccelerationStructure_atIndex_), accelerationStructure, index);
}
// method: newArgumentEncoderForBufferAtIndex:
_MTL_INLINE MTL::ArgumentEncoder* MTL::ArgumentEncoder::newArgumentEncoder(NS::UInteger index)
{
return Object::sendMessage<MTL::ArgumentEncoder*>(this, _MTL_PRIVATE_SEL(newArgumentEncoderForBufferAtIndex_), index);
}
// method: setVisibleFunctionTable:atIndex:
_MTL_INLINE void MTL::ArgumentEncoder::setVisibleFunctionTable(const MTL::VisibleFunctionTable* visibleFunctionTable, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVisibleFunctionTable_atIndex_), visibleFunctionTable, index);
}
// method: setVisibleFunctionTables:withRange:
_MTL_INLINE void MTL::ArgumentEncoder::setVisibleFunctionTables(const MTL::VisibleFunctionTable* const visibleFunctionTables[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVisibleFunctionTables_withRange_), visibleFunctionTables, range);
}
// method: setIntersectionFunctionTable:atIndex:
_MTL_INLINE void MTL::ArgumentEncoder::setIntersectionFunctionTable(const MTL::IntersectionFunctionTable* intersectionFunctionTable, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setIntersectionFunctionTable_atIndex_), intersectionFunctionTable, index);
}
// method: setIntersectionFunctionTables:withRange:
_MTL_INLINE void MTL::ArgumentEncoder::setIntersectionFunctionTables(const MTL::IntersectionFunctionTable* const intersectionFunctionTables[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setIntersectionFunctionTables_withRange_), intersectionFunctionTables, range);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLBinaryArchive.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>
namespace MTL
{
_MTL_ENUM(NS::UInteger, BinaryArchiveError) {
BinaryArchiveErrorNone = 0,
BinaryArchiveErrorInvalidFile = 1,
BinaryArchiveErrorUnexpectedElement = 2,
BinaryArchiveErrorCompilationFailure = 3,
BinaryArchiveErrorInternalError = 4,
};
class BinaryArchiveDescriptor : public NS::Copying<BinaryArchiveDescriptor>
{
public:
static class BinaryArchiveDescriptor* alloc();
class BinaryArchiveDescriptor* init();
NS::URL* url() const;
void setUrl(const NS::URL* url);
};
class BinaryArchive : public NS::Referencing<BinaryArchive>
{
public:
NS::String* label() const;
void setLabel(const NS::String* label);
class Device* device() const;
bool addComputePipelineFunctions(const class ComputePipelineDescriptor* descriptor, NS::Error** error);
bool addRenderPipelineFunctions(const class RenderPipelineDescriptor* descriptor, NS::Error** error);
bool addTileRenderPipelineFunctions(const class TileRenderPipelineDescriptor* descriptor, NS::Error** error);
bool serializeToURL(const NS::URL* url, NS::Error** error);
bool addFunction(const class FunctionDescriptor* descriptor, const class Library* library, NS::Error** error);
};
}
// static method: alloc
_MTL_INLINE MTL::BinaryArchiveDescriptor* MTL::BinaryArchiveDescriptor::alloc()
{
return NS::Object::alloc<MTL::BinaryArchiveDescriptor>(_MTL_PRIVATE_CLS(MTLBinaryArchiveDescriptor));
}
// method: init
_MTL_INLINE MTL::BinaryArchiveDescriptor* MTL::BinaryArchiveDescriptor::init()
{
return NS::Object::init<MTL::BinaryArchiveDescriptor>();
}
// property: url
_MTL_INLINE NS::URL* MTL::BinaryArchiveDescriptor::url() const
{
return Object::sendMessage<NS::URL*>(this, _MTL_PRIVATE_SEL(url));
}
_MTL_INLINE void MTL::BinaryArchiveDescriptor::setUrl(const NS::URL* url)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setUrl_), url);
}
// property: label
_MTL_INLINE NS::String* MTL::BinaryArchive::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::BinaryArchive::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: device
_MTL_INLINE MTL::Device* MTL::BinaryArchive::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// method: addComputePipelineFunctionsWithDescriptor:error:
_MTL_INLINE bool MTL::BinaryArchive::addComputePipelineFunctions(const MTL::ComputePipelineDescriptor* descriptor, NS::Error** error)
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(addComputePipelineFunctionsWithDescriptor_error_), descriptor, error);
}
// method: addRenderPipelineFunctionsWithDescriptor:error:
_MTL_INLINE bool MTL::BinaryArchive::addRenderPipelineFunctions(const MTL::RenderPipelineDescriptor* descriptor, NS::Error** error)
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(addRenderPipelineFunctionsWithDescriptor_error_), descriptor, error);
}
// method: addTileRenderPipelineFunctionsWithDescriptor:error:
_MTL_INLINE bool MTL::BinaryArchive::addTileRenderPipelineFunctions(const MTL::TileRenderPipelineDescriptor* descriptor, NS::Error** error)
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(addTileRenderPipelineFunctionsWithDescriptor_error_), descriptor, error);
}
// method: serializeToURL:error:
_MTL_INLINE bool MTL::BinaryArchive::serializeToURL(const NS::URL* url, NS::Error** error)
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(serializeToURL_error_), url, error);
}
// method: addFunctionWithDescriptor:library:error:
_MTL_INLINE bool MTL::BinaryArchive::addFunction(const MTL::FunctionDescriptor* descriptor, const MTL::Library* library, NS::Error** error)
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(addFunctionWithDescriptor_library_error_), descriptor, library, error);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLBlitCommandEncoder.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 "MTLBlitCommandEncoder.hpp"
#include "MTLCommandEncoder.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
_MTL_OPTIONS(NS::UInteger, BlitOption) {
BlitOptionNone = 0,
BlitOptionDepthFromDepthStencil = 1,
BlitOptionStencilFromDepthStencil = 2,
BlitOptionRowLinearPVRTC = 4,
};
class BlitCommandEncoder : public NS::Referencing<BlitCommandEncoder, CommandEncoder>
{
public:
void synchronizeResource(const class Resource* resource);
void synchronizeTexture(const class Texture* texture, NS::UInteger slice, NS::UInteger level);
void copyFromTexture(const class Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, MTL::Origin sourceOrigin, MTL::Size sourceSize, const class Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, MTL::Origin destinationOrigin);
void copyFromBuffer(const class Buffer* sourceBuffer, NS::UInteger sourceOffset, NS::UInteger sourceBytesPerRow, NS::UInteger sourceBytesPerImage, MTL::Size sourceSize, const class Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, MTL::Origin destinationOrigin);
void copyFromBuffer(const class Buffer* sourceBuffer, NS::UInteger sourceOffset, NS::UInteger sourceBytesPerRow, NS::UInteger sourceBytesPerImage, MTL::Size sourceSize, const class Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, MTL::Origin destinationOrigin, MTL::BlitOption options);
void copyFromTexture(const class Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, MTL::Origin sourceOrigin, MTL::Size sourceSize, const class Buffer* destinationBuffer, NS::UInteger destinationOffset, NS::UInteger destinationBytesPerRow, NS::UInteger destinationBytesPerImage);
void copyFromTexture(const class Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, MTL::Origin sourceOrigin, MTL::Size sourceSize, const class Buffer* destinationBuffer, NS::UInteger destinationOffset, NS::UInteger destinationBytesPerRow, NS::UInteger destinationBytesPerImage, MTL::BlitOption options);
void generateMipmaps(const class Texture* texture);
void fillBuffer(const class Buffer* buffer, NS::Range range, uint8_t value);
void copyFromTexture(const class Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, const class Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, NS::UInteger sliceCount, NS::UInteger levelCount);
void copyFromTexture(const class Texture* sourceTexture, const class Texture* destinationTexture);
void copyFromBuffer(const class Buffer* sourceBuffer, NS::UInteger sourceOffset, const class Buffer* destinationBuffer, NS::UInteger destinationOffset, NS::UInteger size);
void updateFence(const class Fence* fence);
void waitForFence(const class Fence* fence);
void getTextureAccessCounters(const class Texture* texture, MTL::Region region, NS::UInteger mipLevel, NS::UInteger slice, bool resetCounters, const class Buffer* countersBuffer, NS::UInteger countersBufferOffset);
void resetTextureAccessCounters(const class Texture* texture, MTL::Region region, NS::UInteger mipLevel, NS::UInteger slice);
void optimizeContentsForGPUAccess(const class Texture* texture);
void optimizeContentsForGPUAccess(const class Texture* texture, NS::UInteger slice, NS::UInteger level);
void optimizeContentsForCPUAccess(const class Texture* texture);
void optimizeContentsForCPUAccess(const class Texture* texture, NS::UInteger slice, NS::UInteger level);
void resetCommandsInBuffer(const class IndirectCommandBuffer* buffer, NS::Range range);
void copyIndirectCommandBuffer(const class IndirectCommandBuffer* source, NS::Range sourceRange, const class IndirectCommandBuffer* destination, NS::UInteger destinationIndex);
void optimizeIndirectCommandBuffer(const class IndirectCommandBuffer* indirectCommandBuffer, NS::Range range);
void sampleCountersInBuffer(const class CounterSampleBuffer* sampleBuffer, NS::UInteger sampleIndex, bool barrier);
void resolveCounters(const class CounterSampleBuffer* sampleBuffer, NS::Range range, const class Buffer* destinationBuffer, NS::UInteger destinationOffset);
};
}
// method: synchronizeResource:
_MTL_INLINE void MTL::BlitCommandEncoder::synchronizeResource(const MTL::Resource* resource)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(synchronizeResource_), resource);
}
// method: synchronizeTexture:slice:level:
_MTL_INLINE void MTL::BlitCommandEncoder::synchronizeTexture(const MTL::Texture* texture, NS::UInteger slice, NS::UInteger level)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(synchronizeTexture_slice_level_), texture, slice, level);
}
// method: copyFromTexture:sourceSlice:sourceLevel:sourceOrigin:sourceSize:toTexture:destinationSlice:destinationLevel:destinationOrigin:
_MTL_INLINE void MTL::BlitCommandEncoder::copyFromTexture(const MTL::Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, MTL::Origin sourceOrigin, MTL::Size sourceSize, const MTL::Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, MTL::Origin destinationOrigin)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyFromTexture_sourceSlice_sourceLevel_sourceOrigin_sourceSize_toTexture_destinationSlice_destinationLevel_destinationOrigin_), sourceTexture, sourceSlice, sourceLevel, sourceOrigin, sourceSize, destinationTexture, destinationSlice, destinationLevel, destinationOrigin);
}
// method: copyFromBuffer:sourceOffset:sourceBytesPerRow:sourceBytesPerImage:sourceSize:toTexture:destinationSlice:destinationLevel:destinationOrigin:
_MTL_INLINE void MTL::BlitCommandEncoder::copyFromBuffer(const MTL::Buffer* sourceBuffer, NS::UInteger sourceOffset, NS::UInteger sourceBytesPerRow, NS::UInteger sourceBytesPerImage, MTL::Size sourceSize, const MTL::Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, MTL::Origin destinationOrigin)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyFromBuffer_sourceOffset_sourceBytesPerRow_sourceBytesPerImage_sourceSize_toTexture_destinationSlice_destinationLevel_destinationOrigin_), sourceBuffer, sourceOffset, sourceBytesPerRow, sourceBytesPerImage, sourceSize, destinationTexture, destinationSlice, destinationLevel, destinationOrigin);
}
// method: copyFromBuffer:sourceOffset:sourceBytesPerRow:sourceBytesPerImage:sourceSize:toTexture:destinationSlice:destinationLevel:destinationOrigin:options:
_MTL_INLINE void MTL::BlitCommandEncoder::copyFromBuffer(const MTL::Buffer* sourceBuffer, NS::UInteger sourceOffset, NS::UInteger sourceBytesPerRow, NS::UInteger sourceBytesPerImage, MTL::Size sourceSize, const MTL::Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, MTL::Origin destinationOrigin, MTL::BlitOption options)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyFromBuffer_sourceOffset_sourceBytesPerRow_sourceBytesPerImage_sourceSize_toTexture_destinationSlice_destinationLevel_destinationOrigin_options_), sourceBuffer, sourceOffset, sourceBytesPerRow, sourceBytesPerImage, sourceSize, destinationTexture, destinationSlice, destinationLevel, destinationOrigin, options);
}
// method: copyFromTexture:sourceSlice:sourceLevel:sourceOrigin:sourceSize:toBuffer:destinationOffset:destinationBytesPerRow:destinationBytesPerImage:
_MTL_INLINE void MTL::BlitCommandEncoder::copyFromTexture(const MTL::Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, MTL::Origin sourceOrigin, MTL::Size sourceSize, const MTL::Buffer* destinationBuffer, NS::UInteger destinationOffset, NS::UInteger destinationBytesPerRow, NS::UInteger destinationBytesPerImage)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyFromTexture_sourceSlice_sourceLevel_sourceOrigin_sourceSize_toBuffer_destinationOffset_destinationBytesPerRow_destinationBytesPerImage_), sourceTexture, sourceSlice, sourceLevel, sourceOrigin, sourceSize, destinationBuffer, destinationOffset, destinationBytesPerRow, destinationBytesPerImage);
}
// method: copyFromTexture:sourceSlice:sourceLevel:sourceOrigin:sourceSize:toBuffer:destinationOffset:destinationBytesPerRow:destinationBytesPerImage:options:
_MTL_INLINE void MTL::BlitCommandEncoder::copyFromTexture(const MTL::Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, MTL::Origin sourceOrigin, MTL::Size sourceSize, const MTL::Buffer* destinationBuffer, NS::UInteger destinationOffset, NS::UInteger destinationBytesPerRow, NS::UInteger destinationBytesPerImage, MTL::BlitOption options)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyFromTexture_sourceSlice_sourceLevel_sourceOrigin_sourceSize_toBuffer_destinationOffset_destinationBytesPerRow_destinationBytesPerImage_options_), sourceTexture, sourceSlice, sourceLevel, sourceOrigin, sourceSize, destinationBuffer, destinationOffset, destinationBytesPerRow, destinationBytesPerImage, options);
}
// method: generateMipmapsForTexture:
_MTL_INLINE void MTL::BlitCommandEncoder::generateMipmaps(const MTL::Texture* texture)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(generateMipmapsForTexture_), texture);
}
// method: fillBuffer:range:value:
_MTL_INLINE void MTL::BlitCommandEncoder::fillBuffer(const MTL::Buffer* buffer, NS::Range range, uint8_t value)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(fillBuffer_range_value_), buffer, range, value);
}
// method: copyFromTexture:sourceSlice:sourceLevel:toTexture:destinationSlice:destinationLevel:sliceCount:levelCount:
_MTL_INLINE void MTL::BlitCommandEncoder::copyFromTexture(const MTL::Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, const MTL::Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, NS::UInteger sliceCount, NS::UInteger levelCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyFromTexture_sourceSlice_sourceLevel_toTexture_destinationSlice_destinationLevel_sliceCount_levelCount_), sourceTexture, sourceSlice, sourceLevel, destinationTexture, destinationSlice, destinationLevel, sliceCount, levelCount);
}
// method: copyFromTexture:toTexture:
_MTL_INLINE void MTL::BlitCommandEncoder::copyFromTexture(const MTL::Texture* sourceTexture, const MTL::Texture* destinationTexture)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyFromTexture_toTexture_), sourceTexture, destinationTexture);
}
// method: copyFromBuffer:sourceOffset:toBuffer:destinationOffset:size:
_MTL_INLINE void MTL::BlitCommandEncoder::copyFromBuffer(const MTL::Buffer* sourceBuffer, NS::UInteger sourceOffset, const MTL::Buffer* destinationBuffer, NS::UInteger destinationOffset, NS::UInteger size)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyFromBuffer_sourceOffset_toBuffer_destinationOffset_size_), sourceBuffer, sourceOffset, destinationBuffer, destinationOffset, size);
}
// method: updateFence:
_MTL_INLINE void MTL::BlitCommandEncoder::updateFence(const MTL::Fence* fence)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(updateFence_), fence);
}
// method: waitForFence:
_MTL_INLINE void MTL::BlitCommandEncoder::waitForFence(const MTL::Fence* fence)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(waitForFence_), fence);
}
// method: getTextureAccessCounters:region:mipLevel:slice:resetCounters:countersBuffer:countersBufferOffset:
_MTL_INLINE void MTL::BlitCommandEncoder::getTextureAccessCounters(const MTL::Texture* texture, MTL::Region region, NS::UInteger mipLevel, NS::UInteger slice, bool resetCounters, const MTL::Buffer* countersBuffer, NS::UInteger countersBufferOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(getTextureAccessCounters_region_mipLevel_slice_resetCounters_countersBuffer_countersBufferOffset_), texture, region, mipLevel, slice, resetCounters, countersBuffer, countersBufferOffset);
}
// method: resetTextureAccessCounters:region:mipLevel:slice:
_MTL_INLINE void MTL::BlitCommandEncoder::resetTextureAccessCounters(const MTL::Texture* texture, MTL::Region region, NS::UInteger mipLevel, NS::UInteger slice)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(resetTextureAccessCounters_region_mipLevel_slice_), texture, region, mipLevel, slice);
}
// method: optimizeContentsForGPUAccess:
_MTL_INLINE void MTL::BlitCommandEncoder::optimizeContentsForGPUAccess(const MTL::Texture* texture)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(optimizeContentsForGPUAccess_), texture);
}
// method: optimizeContentsForGPUAccess:slice:level:
_MTL_INLINE void MTL::BlitCommandEncoder::optimizeContentsForGPUAccess(const MTL::Texture* texture, NS::UInteger slice, NS::UInteger level)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(optimizeContentsForGPUAccess_slice_level_), texture, slice, level);
}
// method: optimizeContentsForCPUAccess:
_MTL_INLINE void MTL::BlitCommandEncoder::optimizeContentsForCPUAccess(const MTL::Texture* texture)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(optimizeContentsForCPUAccess_), texture);
}
// method: optimizeContentsForCPUAccess:slice:level:
_MTL_INLINE void MTL::BlitCommandEncoder::optimizeContentsForCPUAccess(const MTL::Texture* texture, NS::UInteger slice, NS::UInteger level)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(optimizeContentsForCPUAccess_slice_level_), texture, slice, level);
}
// method: resetCommandsInBuffer:withRange:
_MTL_INLINE void MTL::BlitCommandEncoder::resetCommandsInBuffer(const MTL::IndirectCommandBuffer* buffer, NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(resetCommandsInBuffer_withRange_), buffer, range);
}
// method: copyIndirectCommandBuffer:sourceRange:destination:destinationIndex:
_MTL_INLINE void MTL::BlitCommandEncoder::copyIndirectCommandBuffer(const MTL::IndirectCommandBuffer* source, NS::Range sourceRange, const MTL::IndirectCommandBuffer* destination, NS::UInteger destinationIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyIndirectCommandBuffer_sourceRange_destination_destinationIndex_), source, sourceRange, destination, destinationIndex);
}
// method: optimizeIndirectCommandBuffer:withRange:
_MTL_INLINE void MTL::BlitCommandEncoder::optimizeIndirectCommandBuffer(const MTL::IndirectCommandBuffer* indirectCommandBuffer, NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(optimizeIndirectCommandBuffer_withRange_), indirectCommandBuffer, range);
}
// method: sampleCountersInBuffer:atSampleIndex:withBarrier:
_MTL_INLINE void MTL::BlitCommandEncoder::sampleCountersInBuffer(const MTL::CounterSampleBuffer* sampleBuffer, NS::UInteger sampleIndex, bool barrier)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(sampleCountersInBuffer_atSampleIndex_withBarrier_), sampleBuffer, sampleIndex, barrier);
}
// method: resolveCounters:inRange:destinationBuffer:destinationOffset:
_MTL_INLINE void MTL::BlitCommandEncoder::resolveCounters(const MTL::CounterSampleBuffer* sampleBuffer, NS::Range range, const MTL::Buffer* destinationBuffer, NS::UInteger destinationOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(resolveCounters_inRange_destinationBuffer_destinationOffset_), sampleBuffer, range, destinationBuffer, destinationOffset);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLBlitPass.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>
namespace MTL
{
class BlitPassSampleBufferAttachmentDescriptor : public NS::Copying<BlitPassSampleBufferAttachmentDescriptor>
{
public:
static class BlitPassSampleBufferAttachmentDescriptor* alloc();
class BlitPassSampleBufferAttachmentDescriptor* init();
class CounterSampleBuffer* sampleBuffer() const;
void setSampleBuffer(const class CounterSampleBuffer* sampleBuffer);
NS::UInteger startOfEncoderSampleIndex() const;
void setStartOfEncoderSampleIndex(NS::UInteger startOfEncoderSampleIndex);
NS::UInteger endOfEncoderSampleIndex() const;
void setEndOfEncoderSampleIndex(NS::UInteger endOfEncoderSampleIndex);
};
class BlitPassSampleBufferAttachmentDescriptorArray : public NS::Referencing<BlitPassSampleBufferAttachmentDescriptorArray>
{
public:
static class BlitPassSampleBufferAttachmentDescriptorArray* alloc();
class BlitPassSampleBufferAttachmentDescriptorArray* init();
class BlitPassSampleBufferAttachmentDescriptor* object(NS::UInteger attachmentIndex);
void setObject(const class BlitPassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex);
};
class BlitPassDescriptor : public NS::Copying<BlitPassDescriptor>
{
public:
static class BlitPassDescriptor* alloc();
class BlitPassDescriptor* init();
static class BlitPassDescriptor* blitPassDescriptor();
class BlitPassSampleBufferAttachmentDescriptorArray* sampleBufferAttachments() const;
};
}
// static method: alloc
_MTL_INLINE MTL::BlitPassSampleBufferAttachmentDescriptor* MTL::BlitPassSampleBufferAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::BlitPassSampleBufferAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLBlitPassSampleBufferAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::BlitPassSampleBufferAttachmentDescriptor* MTL::BlitPassSampleBufferAttachmentDescriptor::init()
{
return NS::Object::init<MTL::BlitPassSampleBufferAttachmentDescriptor>();
}
// property: sampleBuffer
_MTL_INLINE MTL::CounterSampleBuffer* MTL::BlitPassSampleBufferAttachmentDescriptor::sampleBuffer() const
{
return Object::sendMessage<MTL::CounterSampleBuffer*>(this, _MTL_PRIVATE_SEL(sampleBuffer));
}
_MTL_INLINE void MTL::BlitPassSampleBufferAttachmentDescriptor::setSampleBuffer(const MTL::CounterSampleBuffer* sampleBuffer)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSampleBuffer_), sampleBuffer);
}
// property: startOfEncoderSampleIndex
_MTL_INLINE NS::UInteger MTL::BlitPassSampleBufferAttachmentDescriptor::startOfEncoderSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(startOfEncoderSampleIndex));
}
_MTL_INLINE void MTL::BlitPassSampleBufferAttachmentDescriptor::setStartOfEncoderSampleIndex(NS::UInteger startOfEncoderSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStartOfEncoderSampleIndex_), startOfEncoderSampleIndex);
}
// property: endOfEncoderSampleIndex
_MTL_INLINE NS::UInteger MTL::BlitPassSampleBufferAttachmentDescriptor::endOfEncoderSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(endOfEncoderSampleIndex));
}
_MTL_INLINE void MTL::BlitPassSampleBufferAttachmentDescriptor::setEndOfEncoderSampleIndex(NS::UInteger endOfEncoderSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setEndOfEncoderSampleIndex_), endOfEncoderSampleIndex);
}
// static method: alloc
_MTL_INLINE MTL::BlitPassSampleBufferAttachmentDescriptorArray* MTL::BlitPassSampleBufferAttachmentDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::BlitPassSampleBufferAttachmentDescriptorArray>(_MTL_PRIVATE_CLS(MTLBlitPassSampleBufferAttachmentDescriptorArray));
}
// method: init
_MTL_INLINE MTL::BlitPassSampleBufferAttachmentDescriptorArray* MTL::BlitPassSampleBufferAttachmentDescriptorArray::init()
{
return NS::Object::init<MTL::BlitPassSampleBufferAttachmentDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::BlitPassSampleBufferAttachmentDescriptor* MTL::BlitPassSampleBufferAttachmentDescriptorArray::object(NS::UInteger attachmentIndex)
{
return Object::sendMessage<MTL::BlitPassSampleBufferAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), attachmentIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::BlitPassSampleBufferAttachmentDescriptorArray::setObject(const MTL::BlitPassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attachment, attachmentIndex);
}
// static method: alloc
_MTL_INLINE MTL::BlitPassDescriptor* MTL::BlitPassDescriptor::alloc()
{
return NS::Object::alloc<MTL::BlitPassDescriptor>(_MTL_PRIVATE_CLS(MTLBlitPassDescriptor));
}
// method: init
_MTL_INLINE MTL::BlitPassDescriptor* MTL::BlitPassDescriptor::init()
{
return NS::Object::init<MTL::BlitPassDescriptor>();
}
// static method: blitPassDescriptor
_MTL_INLINE MTL::BlitPassDescriptor* MTL::BlitPassDescriptor::blitPassDescriptor()
{
return Object::sendMessage<MTL::BlitPassDescriptor*>(_MTL_PRIVATE_CLS(MTLBlitPassDescriptor), _MTL_PRIVATE_SEL(blitPassDescriptor));
}
// property: sampleBufferAttachments
_MTL_INLINE MTL::BlitPassSampleBufferAttachmentDescriptorArray* MTL::BlitPassDescriptor::sampleBufferAttachments() const
{
return Object::sendMessage<MTL::BlitPassSampleBufferAttachmentDescriptorArray*>(this, _MTL_PRIVATE_SEL(sampleBufferAttachments));
}

109
externals/metal-cpp/Metal/MTLBuffer.hpp vendored Normal file
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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLBuffer.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 "MTLResource.hpp"
namespace MTL
{
class Buffer : public NS::Referencing<Buffer, Resource>
{
public:
NS::UInteger length() const;
void* contents();
void didModifyRange(NS::Range range);
class Texture* newTexture(const class TextureDescriptor* descriptor, NS::UInteger offset, NS::UInteger bytesPerRow);
void addDebugMarker(const NS::String* marker, NS::Range range);
void removeAllDebugMarkers();
class Buffer* remoteStorageBuffer() const;
class Buffer* newRemoteBufferViewForDevice(const class Device* device);
uint64_t gpuAddress() const;
};
}
// property: length
_MTL_INLINE NS::UInteger MTL::Buffer::length() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(length));
}
// method: contents
_MTL_INLINE void* MTL::Buffer::contents()
{
return Object::sendMessage<void*>(this, _MTL_PRIVATE_SEL(contents));
}
// method: didModifyRange:
_MTL_INLINE void MTL::Buffer::didModifyRange(NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(didModifyRange_), range);
}
// method: newTextureWithDescriptor:offset:bytesPerRow:
_MTL_INLINE MTL::Texture* MTL::Buffer::newTexture(const MTL::TextureDescriptor* descriptor, NS::UInteger offset, NS::UInteger bytesPerRow)
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(newTextureWithDescriptor_offset_bytesPerRow_), descriptor, offset, bytesPerRow);
}
// method: addDebugMarker:range:
_MTL_INLINE void MTL::Buffer::addDebugMarker(const NS::String* marker, NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(addDebugMarker_range_), marker, range);
}
// method: removeAllDebugMarkers
_MTL_INLINE void MTL::Buffer::removeAllDebugMarkers()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(removeAllDebugMarkers));
}
// property: remoteStorageBuffer
_MTL_INLINE MTL::Buffer* MTL::Buffer::remoteStorageBuffer() const
{
return Object::sendMessage<MTL::Buffer*>(this, _MTL_PRIVATE_SEL(remoteStorageBuffer));
}
// method: newRemoteBufferViewForDevice:
_MTL_INLINE MTL::Buffer* MTL::Buffer::newRemoteBufferViewForDevice(const MTL::Device* device)
{
return Object::sendMessage<MTL::Buffer*>(this, _MTL_PRIVATE_SEL(newRemoteBufferViewForDevice_), device);
}
// property: gpuAddress
_MTL_INLINE uint64_t MTL::Buffer::gpuAddress() const
{
return Object::sendMessage<uint64_t>(this, _MTL_PRIVATE_SEL(gpuAddress));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLCaptureManager.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 "MTLCaptureManager.hpp"
namespace MTL
{
_MTL_ENUM(NS::Integer, CaptureError) {
CaptureErrorNotSupported = 1,
CaptureErrorAlreadyCapturing = 2,
CaptureErrorInvalidDescriptor = 3,
};
_MTL_ENUM(NS::Integer, CaptureDestination) {
CaptureDestinationDeveloperTools = 1,
CaptureDestinationGPUTraceDocument = 2,
};
class CaptureDescriptor : public NS::Copying<CaptureDescriptor>
{
public:
static class CaptureDescriptor* alloc();
class CaptureDescriptor* init();
id captureObject() const;
void setCaptureObject(id captureObject);
MTL::CaptureDestination destination() const;
void setDestination(MTL::CaptureDestination destination);
NS::URL* outputURL() const;
void setOutputURL(const NS::URL* outputURL);
};
class CaptureManager : public NS::Referencing<CaptureManager>
{
public:
static class CaptureManager* alloc();
static class CaptureManager* sharedCaptureManager();
MTL::CaptureManager* init();
class CaptureScope* newCaptureScope(const class Device* device);
class CaptureScope* newCaptureScope(const class CommandQueue* commandQueue);
bool supportsDestination(MTL::CaptureDestination destination);
bool startCapture(const class CaptureDescriptor* descriptor, NS::Error** error);
void startCapture(const class Device* device);
void startCapture(const class CommandQueue* commandQueue);
void startCapture(const class CaptureScope* captureScope);
void stopCapture();
class CaptureScope* defaultCaptureScope() const;
void setDefaultCaptureScope(const class CaptureScope* defaultCaptureScope);
bool isCapturing() const;
};
}
// static method: alloc
_MTL_INLINE MTL::CaptureDescriptor* MTL::CaptureDescriptor::alloc()
{
return NS::Object::alloc<MTL::CaptureDescriptor>(_MTL_PRIVATE_CLS(MTLCaptureDescriptor));
}
// method: init
_MTL_INLINE MTL::CaptureDescriptor* MTL::CaptureDescriptor::init()
{
return NS::Object::init<MTL::CaptureDescriptor>();
}
// property: captureObject
_MTL_INLINE id MTL::CaptureDescriptor::captureObject() const
{
return Object::sendMessage<id>(this, _MTL_PRIVATE_SEL(captureObject));
}
_MTL_INLINE void MTL::CaptureDescriptor::setCaptureObject(id captureObject)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setCaptureObject_), captureObject);
}
// property: destination
_MTL_INLINE MTL::CaptureDestination MTL::CaptureDescriptor::destination() const
{
return Object::sendMessage<MTL::CaptureDestination>(this, _MTL_PRIVATE_SEL(destination));
}
_MTL_INLINE void MTL::CaptureDescriptor::setDestination(MTL::CaptureDestination destination)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDestination_), destination);
}
// property: outputURL
_MTL_INLINE NS::URL* MTL::CaptureDescriptor::outputURL() const
{
return Object::sendMessage<NS::URL*>(this, _MTL_PRIVATE_SEL(outputURL));
}
_MTL_INLINE void MTL::CaptureDescriptor::setOutputURL(const NS::URL* outputURL)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOutputURL_), outputURL);
}
// static method: alloc
_MTL_INLINE MTL::CaptureManager* MTL::CaptureManager::alloc()
{
return NS::Object::alloc<MTL::CaptureManager>(_MTL_PRIVATE_CLS(MTLCaptureManager));
}
// static method: sharedCaptureManager
_MTL_INLINE MTL::CaptureManager* MTL::CaptureManager::sharedCaptureManager()
{
return Object::sendMessage<MTL::CaptureManager*>(_MTL_PRIVATE_CLS(MTLCaptureManager), _MTL_PRIVATE_SEL(sharedCaptureManager));
}
// method: init
_MTL_INLINE MTL::CaptureManager* MTL::CaptureManager::init()
{
return NS::Object::init<MTL::CaptureManager>();
}
// method: newCaptureScopeWithDevice:
_MTL_INLINE MTL::CaptureScope* MTL::CaptureManager::newCaptureScope(const MTL::Device* device)
{
return Object::sendMessage<MTL::CaptureScope*>(this, _MTL_PRIVATE_SEL(newCaptureScopeWithDevice_), device);
}
// method: newCaptureScopeWithCommandQueue:
_MTL_INLINE MTL::CaptureScope* MTL::CaptureManager::newCaptureScope(const MTL::CommandQueue* commandQueue)
{
return Object::sendMessage<MTL::CaptureScope*>(this, _MTL_PRIVATE_SEL(newCaptureScopeWithCommandQueue_), commandQueue);
}
// method: supportsDestination:
_MTL_INLINE bool MTL::CaptureManager::supportsDestination(MTL::CaptureDestination destination)
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportsDestination_), destination);
}
// method: startCaptureWithDescriptor:error:
_MTL_INLINE bool MTL::CaptureManager::startCapture(const MTL::CaptureDescriptor* descriptor, NS::Error** error)
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(startCaptureWithDescriptor_error_), descriptor, error);
}
// method: startCaptureWithDevice:
_MTL_INLINE void MTL::CaptureManager::startCapture(const MTL::Device* device)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(startCaptureWithDevice_), device);
}
// method: startCaptureWithCommandQueue:
_MTL_INLINE void MTL::CaptureManager::startCapture(const MTL::CommandQueue* commandQueue)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(startCaptureWithCommandQueue_), commandQueue);
}
// method: startCaptureWithScope:
_MTL_INLINE void MTL::CaptureManager::startCapture(const MTL::CaptureScope* captureScope)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(startCaptureWithScope_), captureScope);
}
// method: stopCapture
_MTL_INLINE void MTL::CaptureManager::stopCapture()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(stopCapture));
}
// property: defaultCaptureScope
_MTL_INLINE MTL::CaptureScope* MTL::CaptureManager::defaultCaptureScope() const
{
return Object::sendMessage<MTL::CaptureScope*>(this, _MTL_PRIVATE_SEL(defaultCaptureScope));
}
_MTL_INLINE void MTL::CaptureManager::setDefaultCaptureScope(const MTL::CaptureScope* defaultCaptureScope)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDefaultCaptureScope_), defaultCaptureScope);
}
// property: isCapturing
_MTL_INLINE bool MTL::CaptureManager::isCapturing() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isCapturing));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLCaptureScope.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 "MTLPrivate.hpp"
#include "../Foundation/NSObject.hpp"
#include "../Foundation/NSString.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTL
{
class CaptureScope : public NS::Referencing<CaptureScope>
{
public:
class Device* device() const;
NS::String* label() const;
void setLabel(const NS::String* pLabel);
class CommandQueue* commandQueue() const;
void beginScope();
void endScope();
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::Device* MTL::CaptureScope::device() const
{
return Object::sendMessage<Device*>(this, _MTL_PRIVATE_SEL(device));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE NS::String* MTL::CaptureScope::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE void MTL::CaptureScope::setLabel(const NS::String* pLabel)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), pLabel);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE MTL::CommandQueue* MTL::CaptureScope::commandQueue() const
{
return Object::sendMessage<CommandQueue*>(this, _MTL_PRIVATE_SEL(commandQueue));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE void MTL::CaptureScope::beginScope()
{
return Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(beginScope));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTL_INLINE void MTL::CaptureScope::endScope()
{
return Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(endScope));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLCommandBuffer.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 "MTLCommandBuffer.hpp"
#include <functional>
namespace MTL
{
_MTL_ENUM(NS::UInteger, CommandBufferStatus) {
CommandBufferStatusNotEnqueued = 0,
CommandBufferStatusEnqueued = 1,
CommandBufferStatusCommitted = 2,
CommandBufferStatusScheduled = 3,
CommandBufferStatusCompleted = 4,
CommandBufferStatusError = 5,
};
_MTL_ENUM(NS::UInteger, CommandBufferError) {
CommandBufferErrorNone = 0,
CommandBufferErrorInternal = 1,
CommandBufferErrorTimeout = 2,
CommandBufferErrorPageFault = 3,
CommandBufferErrorBlacklisted = 4,
CommandBufferErrorAccessRevoked = 4,
CommandBufferErrorNotPermitted = 7,
CommandBufferErrorOutOfMemory = 8,
CommandBufferErrorInvalidResource = 9,
CommandBufferErrorMemoryless = 10,
CommandBufferErrorDeviceRemoved = 11,
CommandBufferErrorStackOverflow = 12,
};
_MTL_OPTIONS(NS::UInteger, CommandBufferErrorOption) {
CommandBufferErrorOptionNone = 0,
CommandBufferErrorOptionEncoderExecutionStatus = 1,
};
_MTL_ENUM(NS::Integer, CommandEncoderErrorState) {
CommandEncoderErrorStateUnknown = 0,
CommandEncoderErrorStateCompleted = 1,
CommandEncoderErrorStateAffected = 2,
CommandEncoderErrorStatePending = 3,
CommandEncoderErrorStateFaulted = 4,
};
class CommandBufferDescriptor : public NS::Copying<CommandBufferDescriptor>
{
public:
static class CommandBufferDescriptor* alloc();
class CommandBufferDescriptor* init();
bool retainedReferences() const;
void setRetainedReferences(bool retainedReferences);
MTL::CommandBufferErrorOption errorOptions() const;
void setErrorOptions(MTL::CommandBufferErrorOption errorOptions);
};
class CommandBufferEncoderInfo : public NS::Referencing<CommandBufferEncoderInfo>
{
public:
NS::String* label() const;
NS::Array* debugSignposts() const;
MTL::CommandEncoderErrorState errorState() const;
};
_MTL_ENUM(NS::UInteger, DispatchType) {
DispatchTypeSerial = 0,
DispatchTypeConcurrent = 1,
};
class CommandBuffer;
using CommandBufferHandler = void (^)(CommandBuffer*);
using HandlerFunction = std::function<void(CommandBuffer*)>;
class CommandBuffer : public NS::Referencing<CommandBuffer>
{
public:
void addScheduledHandler(const HandlerFunction& function);
void addCompletedHandler(const HandlerFunction& function);
class Device* device() const;
class CommandQueue* commandQueue() const;
bool retainedReferences() const;
MTL::CommandBufferErrorOption errorOptions() const;
NS::String* label() const;
void setLabel(const NS::String* label);
CFTimeInterval kernelStartTime() const;
CFTimeInterval kernelEndTime() const;
class LogContainer* logs() const;
CFTimeInterval GPUStartTime() const;
CFTimeInterval GPUEndTime() const;
void enqueue();
void commit();
void addScheduledHandler(const MTL::CommandBufferHandler block);
void presentDrawable(const class Drawable* drawable);
void presentDrawableAtTime(const class Drawable* drawable, CFTimeInterval presentationTime);
void presentDrawableAfterMinimumDuration(const class Drawable* drawable, CFTimeInterval duration);
void waitUntilScheduled();
void addCompletedHandler(const MTL::CommandBufferHandler block);
void waitUntilCompleted();
MTL::CommandBufferStatus status() const;
NS::Error* error() const;
class BlitCommandEncoder* blitCommandEncoder();
class RenderCommandEncoder* renderCommandEncoder(const class RenderPassDescriptor* renderPassDescriptor);
class ComputeCommandEncoder* computeCommandEncoder(const class ComputePassDescriptor* computePassDescriptor);
class BlitCommandEncoder* blitCommandEncoder(const class BlitPassDescriptor* blitPassDescriptor);
class ComputeCommandEncoder* computeCommandEncoder();
class ComputeCommandEncoder* computeCommandEncoder(MTL::DispatchType dispatchType);
void encodeWait(const class Event* event, uint64_t value);
void encodeSignalEvent(const class Event* event, uint64_t value);
class ParallelRenderCommandEncoder* parallelRenderCommandEncoder(const class RenderPassDescriptor* renderPassDescriptor);
class ResourceStateCommandEncoder* resourceStateCommandEncoder();
class ResourceStateCommandEncoder* resourceStateCommandEncoder(const class ResourceStatePassDescriptor* resourceStatePassDescriptor);
class AccelerationStructureCommandEncoder* accelerationStructureCommandEncoder();
class AccelerationStructureCommandEncoder* accelerationStructureCommandEncoder(const class AccelerationStructurePassDescriptor* descriptor);
void pushDebugGroup(const NS::String* string);
void popDebugGroup();
};
}
// static method: alloc
_MTL_INLINE MTL::CommandBufferDescriptor* MTL::CommandBufferDescriptor::alloc()
{
return NS::Object::alloc<MTL::CommandBufferDescriptor>(_MTL_PRIVATE_CLS(MTLCommandBufferDescriptor));
}
// method: init
_MTL_INLINE MTL::CommandBufferDescriptor* MTL::CommandBufferDescriptor::init()
{
return NS::Object::init<MTL::CommandBufferDescriptor>();
}
// property: retainedReferences
_MTL_INLINE bool MTL::CommandBufferDescriptor::retainedReferences() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(retainedReferences));
}
_MTL_INLINE void MTL::CommandBufferDescriptor::setRetainedReferences(bool retainedReferences)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRetainedReferences_), retainedReferences);
}
// property: errorOptions
_MTL_INLINE MTL::CommandBufferErrorOption MTL::CommandBufferDescriptor::errorOptions() const
{
return Object::sendMessage<MTL::CommandBufferErrorOption>(this, _MTL_PRIVATE_SEL(errorOptions));
}
_MTL_INLINE void MTL::CommandBufferDescriptor::setErrorOptions(MTL::CommandBufferErrorOption errorOptions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setErrorOptions_), errorOptions);
}
// property: label
_MTL_INLINE NS::String* MTL::CommandBufferEncoderInfo::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
// property: debugSignposts
_MTL_INLINE NS::Array* MTL::CommandBufferEncoderInfo::debugSignposts() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(debugSignposts));
}
// property: errorState
_MTL_INLINE MTL::CommandEncoderErrorState MTL::CommandBufferEncoderInfo::errorState() const
{
return Object::sendMessage<MTL::CommandEncoderErrorState>(this, _MTL_PRIVATE_SEL(errorState));
}
_MTL_INLINE void MTL::CommandBuffer::addScheduledHandler(const HandlerFunction& function)
{
__block HandlerFunction blockFunction = function;
addScheduledHandler(^(MTL::CommandBuffer* pCommandBuffer) { blockFunction(pCommandBuffer); });
}
_MTL_INLINE void MTL::CommandBuffer::addCompletedHandler(const HandlerFunction& function)
{
__block HandlerFunction blockFunction = function;
addCompletedHandler(^(MTL::CommandBuffer* pCommandBuffer) { blockFunction(pCommandBuffer); });
}
// property: device
_MTL_INLINE MTL::Device* MTL::CommandBuffer::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: commandQueue
_MTL_INLINE MTL::CommandQueue* MTL::CommandBuffer::commandQueue() const
{
return Object::sendMessage<MTL::CommandQueue*>(this, _MTL_PRIVATE_SEL(commandQueue));
}
// property: retainedReferences
_MTL_INLINE bool MTL::CommandBuffer::retainedReferences() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(retainedReferences));
}
// property: errorOptions
_MTL_INLINE MTL::CommandBufferErrorOption MTL::CommandBuffer::errorOptions() const
{
return Object::sendMessage<MTL::CommandBufferErrorOption>(this, _MTL_PRIVATE_SEL(errorOptions));
}
// property: label
_MTL_INLINE NS::String* MTL::CommandBuffer::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::CommandBuffer::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: kernelStartTime
_MTL_INLINE CFTimeInterval MTL::CommandBuffer::kernelStartTime() const
{
return Object::sendMessage<CFTimeInterval>(this, _MTL_PRIVATE_SEL(kernelStartTime));
}
// property: kernelEndTime
_MTL_INLINE CFTimeInterval MTL::CommandBuffer::kernelEndTime() const
{
return Object::sendMessage<CFTimeInterval>(this, _MTL_PRIVATE_SEL(kernelEndTime));
}
// property: logs
_MTL_INLINE MTL::LogContainer* MTL::CommandBuffer::logs() const
{
return Object::sendMessage<MTL::LogContainer*>(this, _MTL_PRIVATE_SEL(logs));
}
// property: GPUStartTime
_MTL_INLINE CFTimeInterval MTL::CommandBuffer::GPUStartTime() const
{
return Object::sendMessage<CFTimeInterval>(this, _MTL_PRIVATE_SEL(GPUStartTime));
}
// property: GPUEndTime
_MTL_INLINE CFTimeInterval MTL::CommandBuffer::GPUEndTime() const
{
return Object::sendMessage<CFTimeInterval>(this, _MTL_PRIVATE_SEL(GPUEndTime));
}
// method: enqueue
_MTL_INLINE void MTL::CommandBuffer::enqueue()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(enqueue));
}
// method: commit
_MTL_INLINE void MTL::CommandBuffer::commit()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(commit));
}
// method: addScheduledHandler:
_MTL_INLINE void MTL::CommandBuffer::addScheduledHandler(const MTL::CommandBufferHandler block)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(addScheduledHandler_), block);
}
// method: presentDrawable:
_MTL_INLINE void MTL::CommandBuffer::presentDrawable(const MTL::Drawable* drawable)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(presentDrawable_), drawable);
}
// method: presentDrawable:atTime:
_MTL_INLINE void MTL::CommandBuffer::presentDrawableAtTime(const MTL::Drawable* drawable, CFTimeInterval presentationTime)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(presentDrawable_atTime_), drawable, presentationTime);
}
// method: presentDrawable:afterMinimumDuration:
_MTL_INLINE void MTL::CommandBuffer::presentDrawableAfterMinimumDuration(const MTL::Drawable* drawable, CFTimeInterval duration)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(presentDrawable_afterMinimumDuration_), drawable, duration);
}
// method: waitUntilScheduled
_MTL_INLINE void MTL::CommandBuffer::waitUntilScheduled()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(waitUntilScheduled));
}
// method: addCompletedHandler:
_MTL_INLINE void MTL::CommandBuffer::addCompletedHandler(const MTL::CommandBufferHandler block)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(addCompletedHandler_), block);
}
// method: waitUntilCompleted
_MTL_INLINE void MTL::CommandBuffer::waitUntilCompleted()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(waitUntilCompleted));
}
// property: status
_MTL_INLINE MTL::CommandBufferStatus MTL::CommandBuffer::status() const
{
return Object::sendMessage<MTL::CommandBufferStatus>(this, _MTL_PRIVATE_SEL(status));
}
// property: error
_MTL_INLINE NS::Error* MTL::CommandBuffer::error() const
{
return Object::sendMessage<NS::Error*>(this, _MTL_PRIVATE_SEL(error));
}
// method: blitCommandEncoder
_MTL_INLINE MTL::BlitCommandEncoder* MTL::CommandBuffer::blitCommandEncoder()
{
return Object::sendMessage<MTL::BlitCommandEncoder*>(this, _MTL_PRIVATE_SEL(blitCommandEncoder));
}
// method: renderCommandEncoderWithDescriptor:
_MTL_INLINE MTL::RenderCommandEncoder* MTL::CommandBuffer::renderCommandEncoder(const MTL::RenderPassDescriptor* renderPassDescriptor)
{
return Object::sendMessage<MTL::RenderCommandEncoder*>(this, _MTL_PRIVATE_SEL(renderCommandEncoderWithDescriptor_), renderPassDescriptor);
}
// method: computeCommandEncoderWithDescriptor:
_MTL_INLINE MTL::ComputeCommandEncoder* MTL::CommandBuffer::computeCommandEncoder(const MTL::ComputePassDescriptor* computePassDescriptor)
{
return Object::sendMessage<MTL::ComputeCommandEncoder*>(this, _MTL_PRIVATE_SEL(computeCommandEncoderWithDescriptor_), computePassDescriptor);
}
// method: blitCommandEncoderWithDescriptor:
_MTL_INLINE MTL::BlitCommandEncoder* MTL::CommandBuffer::blitCommandEncoder(const MTL::BlitPassDescriptor* blitPassDescriptor)
{
return Object::sendMessage<MTL::BlitCommandEncoder*>(this, _MTL_PRIVATE_SEL(blitCommandEncoderWithDescriptor_), blitPassDescriptor);
}
// method: computeCommandEncoder
_MTL_INLINE MTL::ComputeCommandEncoder* MTL::CommandBuffer::computeCommandEncoder()
{
return Object::sendMessage<MTL::ComputeCommandEncoder*>(this, _MTL_PRIVATE_SEL(computeCommandEncoder));
}
// method: computeCommandEncoderWithDispatchType:
_MTL_INLINE MTL::ComputeCommandEncoder* MTL::CommandBuffer::computeCommandEncoder(MTL::DispatchType dispatchType)
{
return Object::sendMessage<MTL::ComputeCommandEncoder*>(this, _MTL_PRIVATE_SEL(computeCommandEncoderWithDispatchType_), dispatchType);
}
// method: encodeWaitForEvent:value:
_MTL_INLINE void MTL::CommandBuffer::encodeWait(const MTL::Event* event, uint64_t value)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(encodeWaitForEvent_value_), event, value);
}
// method: encodeSignalEvent:value:
_MTL_INLINE void MTL::CommandBuffer::encodeSignalEvent(const MTL::Event* event, uint64_t value)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(encodeSignalEvent_value_), event, value);
}
// method: parallelRenderCommandEncoderWithDescriptor:
_MTL_INLINE MTL::ParallelRenderCommandEncoder* MTL::CommandBuffer::parallelRenderCommandEncoder(const MTL::RenderPassDescriptor* renderPassDescriptor)
{
return Object::sendMessage<MTL::ParallelRenderCommandEncoder*>(this, _MTL_PRIVATE_SEL(parallelRenderCommandEncoderWithDescriptor_), renderPassDescriptor);
}
// method: resourceStateCommandEncoder
_MTL_INLINE MTL::ResourceStateCommandEncoder* MTL::CommandBuffer::resourceStateCommandEncoder()
{
return Object::sendMessage<MTL::ResourceStateCommandEncoder*>(this, _MTL_PRIVATE_SEL(resourceStateCommandEncoder));
}
// method: resourceStateCommandEncoderWithDescriptor:
_MTL_INLINE MTL::ResourceStateCommandEncoder* MTL::CommandBuffer::resourceStateCommandEncoder(const MTL::ResourceStatePassDescriptor* resourceStatePassDescriptor)
{
return Object::sendMessage<MTL::ResourceStateCommandEncoder*>(this, _MTL_PRIVATE_SEL(resourceStateCommandEncoderWithDescriptor_), resourceStatePassDescriptor);
}
// method: accelerationStructureCommandEncoder
_MTL_INLINE MTL::AccelerationStructureCommandEncoder* MTL::CommandBuffer::accelerationStructureCommandEncoder()
{
return Object::sendMessage<MTL::AccelerationStructureCommandEncoder*>(this, _MTL_PRIVATE_SEL(accelerationStructureCommandEncoder));
}
// method: accelerationStructureCommandEncoderWithDescriptor:
_MTL_INLINE MTL::AccelerationStructureCommandEncoder* MTL::CommandBuffer::accelerationStructureCommandEncoder(const MTL::AccelerationStructurePassDescriptor* descriptor)
{
return Object::sendMessage<MTL::AccelerationStructureCommandEncoder*>(this, _MTL_PRIVATE_SEL(accelerationStructureCommandEncoderWithDescriptor_), descriptor);
}
// method: pushDebugGroup:
_MTL_INLINE void MTL::CommandBuffer::pushDebugGroup(const NS::String* string)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(pushDebugGroup_), string);
}
// method: popDebugGroup
_MTL_INLINE void MTL::CommandBuffer::popDebugGroup()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(popDebugGroup));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLCommandEncoder.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>
namespace MTL
{
_MTL_OPTIONS(NS::UInteger, ResourceUsage) {
ResourceUsageRead = 1,
ResourceUsageWrite = 2,
ResourceUsageSample = 4,
};
_MTL_OPTIONS(NS::UInteger, BarrierScope) {
BarrierScopeBuffers = 1,
BarrierScopeTextures = 2,
BarrierScopeRenderTargets = 4,
};
class CommandEncoder : public NS::Referencing<CommandEncoder>
{
public:
class Device* device() const;
NS::String* label() const;
void setLabel(const NS::String* label);
void endEncoding();
void insertDebugSignpost(const NS::String* string);
void pushDebugGroup(const NS::String* string);
void popDebugGroup();
};
}
// property: device
_MTL_INLINE MTL::Device* MTL::CommandEncoder::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: label
_MTL_INLINE NS::String* MTL::CommandEncoder::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::CommandEncoder::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// method: endEncoding
_MTL_INLINE void MTL::CommandEncoder::endEncoding()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(endEncoding));
}
// method: insertDebugSignpost:
_MTL_INLINE void MTL::CommandEncoder::insertDebugSignpost(const NS::String* string)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(insertDebugSignpost_), string);
}
// method: pushDebugGroup:
_MTL_INLINE void MTL::CommandEncoder::pushDebugGroup(const NS::String* string)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(pushDebugGroup_), string);
}
// method: popDebugGroup
_MTL_INLINE void MTL::CommandEncoder::popDebugGroup()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(popDebugGroup));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLCommandQueue.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>
namespace MTL
{
class CommandQueue : public NS::Referencing<CommandQueue>
{
public:
NS::String* label() const;
void setLabel(const NS::String* label);
class Device* device() const;
class CommandBuffer* commandBuffer();
class CommandBuffer* commandBuffer(const class CommandBufferDescriptor* descriptor);
class CommandBuffer* commandBufferWithUnretainedReferences();
void insertDebugCaptureBoundary();
};
}
// property: label
_MTL_INLINE NS::String* MTL::CommandQueue::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::CommandQueue::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: device
_MTL_INLINE MTL::Device* MTL::CommandQueue::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// method: commandBuffer
_MTL_INLINE MTL::CommandBuffer* MTL::CommandQueue::commandBuffer()
{
return Object::sendMessage<MTL::CommandBuffer*>(this, _MTL_PRIVATE_SEL(commandBuffer));
}
// method: commandBufferWithDescriptor:
_MTL_INLINE MTL::CommandBuffer* MTL::CommandQueue::commandBuffer(const MTL::CommandBufferDescriptor* descriptor)
{
return Object::sendMessage<MTL::CommandBuffer*>(this, _MTL_PRIVATE_SEL(commandBufferWithDescriptor_), descriptor);
}
// method: commandBufferWithUnretainedReferences
_MTL_INLINE MTL::CommandBuffer* MTL::CommandQueue::commandBufferWithUnretainedReferences()
{
return Object::sendMessage<MTL::CommandBuffer*>(this, _MTL_PRIVATE_SEL(commandBufferWithUnretainedReferences));
}
// method: insertDebugCaptureBoundary
_MTL_INLINE void MTL::CommandQueue::insertDebugCaptureBoundary()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(insertDebugCaptureBoundary));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLComputeCommandEncoder.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 "MTLCommandBuffer.hpp"
#include "MTLCommandEncoder.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
struct DispatchThreadgroupsIndirectArguments
{
uint32_t threadgroupsPerGrid[3];
} _MTL_PACKED;
struct StageInRegionIndirectArguments
{
uint32_t stageInOrigin[3];
uint32_t stageInSize[3];
} _MTL_PACKED;
class ComputeCommandEncoder : public NS::Referencing<ComputeCommandEncoder, CommandEncoder>
{
public:
MTL::DispatchType dispatchType() const;
void setComputePipelineState(const class ComputePipelineState* state);
void setBytes(const void* bytes, NS::UInteger length, NS::UInteger index);
void setBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger index);
void setBufferOffset(NS::UInteger offset, NS::UInteger index);
void setBuffers(const class Buffer* const buffers[], const NS::UInteger offsets[], NS::Range range);
void setBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger stride, NS::UInteger index);
void setBuffers(const class Buffer* const buffers[], const NS::UInteger* offsets, const NS::UInteger* strides, NS::Range range);
void setBufferOffset(NS::UInteger offset, NS::UInteger stride, NS::UInteger index);
void setBytes(const void* bytes, NS::UInteger length, NS::UInteger stride, NS::UInteger index);
void setVisibleFunctionTable(const class VisibleFunctionTable* visibleFunctionTable, NS::UInteger bufferIndex);
void setVisibleFunctionTables(const class VisibleFunctionTable* const visibleFunctionTables[], NS::Range range);
void setIntersectionFunctionTable(const class IntersectionFunctionTable* intersectionFunctionTable, NS::UInteger bufferIndex);
void setIntersectionFunctionTables(const class IntersectionFunctionTable* const intersectionFunctionTables[], NS::Range range);
void setAccelerationStructure(const class AccelerationStructure* accelerationStructure, NS::UInteger bufferIndex);
void setTexture(const class Texture* texture, NS::UInteger index);
void setTextures(const class Texture* const textures[], NS::Range range);
void setSamplerState(const class SamplerState* sampler, NS::UInteger index);
void setSamplerStates(const class SamplerState* const samplers[], NS::Range range);
void setSamplerState(const class SamplerState* sampler, float lodMinClamp, float lodMaxClamp, NS::UInteger index);
void setSamplerStates(const class SamplerState* const samplers[], const float lodMinClamps[], const float lodMaxClamps[], NS::Range range);
void setThreadgroupMemoryLength(NS::UInteger length, NS::UInteger index);
void setImageblockWidth(NS::UInteger width, NS::UInteger height);
void setStageInRegion(MTL::Region region);
void setStageInRegion(const class Buffer* indirectBuffer, NS::UInteger indirectBufferOffset);
void dispatchThreadgroups(MTL::Size threadgroupsPerGrid, MTL::Size threadsPerThreadgroup);
void dispatchThreadgroups(const class Buffer* indirectBuffer, NS::UInteger indirectBufferOffset, MTL::Size threadsPerThreadgroup);
void dispatchThreads(MTL::Size threadsPerGrid, MTL::Size threadsPerThreadgroup);
void updateFence(const class Fence* fence);
void waitForFence(const class Fence* fence);
void useResource(const class Resource* resource, MTL::ResourceUsage usage);
void useResources(const class Resource* const resources[], NS::UInteger count, MTL::ResourceUsage usage);
void useHeap(const class Heap* heap);
void useHeaps(const class Heap* const heaps[], NS::UInteger count);
void executeCommandsInBuffer(const class IndirectCommandBuffer* indirectCommandBuffer, NS::Range executionRange);
void executeCommandsInBuffer(const class IndirectCommandBuffer* indirectCommandbuffer, const class Buffer* indirectRangeBuffer, NS::UInteger indirectBufferOffset);
void memoryBarrier(MTL::BarrierScope scope);
void memoryBarrier(const class Resource* const resources[], NS::UInteger count);
void sampleCountersInBuffer(const class CounterSampleBuffer* sampleBuffer, NS::UInteger sampleIndex, bool barrier);
};
}
// property: dispatchType
_MTL_INLINE MTL::DispatchType MTL::ComputeCommandEncoder::dispatchType() const
{
return Object::sendMessage<MTL::DispatchType>(this, _MTL_PRIVATE_SEL(dispatchType));
}
// method: setComputePipelineState:
_MTL_INLINE void MTL::ComputeCommandEncoder::setComputePipelineState(const MTL::ComputePipelineState* state)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setComputePipelineState_), state);
}
// method: setBytes:length:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setBytes(const void* bytes, NS::UInteger length, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBytes_length_atIndex_), bytes, length, index);
}
// method: setBuffer:offset:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBuffer_offset_atIndex_), buffer, offset, index);
}
// method: setBufferOffset:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setBufferOffset(NS::UInteger offset, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBufferOffset_atIndex_), offset, index);
}
// method: setBuffers:offsets:withRange:
_MTL_INLINE void MTL::ComputeCommandEncoder::setBuffers(const MTL::Buffer* const buffers[], const NS::UInteger offsets[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBuffers_offsets_withRange_), buffers, offsets, range);
}
// method: setBuffer:offset:attributeStride:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger stride, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBuffer_offset_attributeStride_atIndex_), buffer, offset, stride, index);
}
// method: setBuffers:offsets:attributeStrides:withRange:
_MTL_INLINE void MTL::ComputeCommandEncoder::setBuffers(const MTL::Buffer* const buffers[], const NS::UInteger* offsets, const NS::UInteger* strides, NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBuffers_offsets_attributeStrides_withRange_), buffers, offsets, strides, range);
}
// method: setBufferOffset:attributeStride:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setBufferOffset(NS::UInteger offset, NS::UInteger stride, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBufferOffset_attributeStride_atIndex_), offset, stride, index);
}
// method: setBytes:length:attributeStride:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setBytes(const void* bytes, NS::UInteger length, NS::UInteger stride, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBytes_length_attributeStride_atIndex_), bytes, length, stride, index);
}
// method: setVisibleFunctionTable:atBufferIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setVisibleFunctionTable(const MTL::VisibleFunctionTable* visibleFunctionTable, NS::UInteger bufferIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVisibleFunctionTable_atBufferIndex_), visibleFunctionTable, bufferIndex);
}
// method: setVisibleFunctionTables:withBufferRange:
_MTL_INLINE void MTL::ComputeCommandEncoder::setVisibleFunctionTables(const MTL::VisibleFunctionTable* const visibleFunctionTables[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVisibleFunctionTables_withBufferRange_), visibleFunctionTables, range);
}
// method: setIntersectionFunctionTable:atBufferIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setIntersectionFunctionTable(const MTL::IntersectionFunctionTable* intersectionFunctionTable, NS::UInteger bufferIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setIntersectionFunctionTable_atBufferIndex_), intersectionFunctionTable, bufferIndex);
}
// method: setIntersectionFunctionTables:withBufferRange:
_MTL_INLINE void MTL::ComputeCommandEncoder::setIntersectionFunctionTables(const MTL::IntersectionFunctionTable* const intersectionFunctionTables[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setIntersectionFunctionTables_withBufferRange_), intersectionFunctionTables, range);
}
// method: setAccelerationStructure:atBufferIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setAccelerationStructure(const MTL::AccelerationStructure* accelerationStructure, NS::UInteger bufferIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAccelerationStructure_atBufferIndex_), accelerationStructure, bufferIndex);
}
// method: setTexture:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setTexture(const MTL::Texture* texture, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTexture_atIndex_), texture, index);
}
// method: setTextures:withRange:
_MTL_INLINE void MTL::ComputeCommandEncoder::setTextures(const MTL::Texture* const textures[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTextures_withRange_), textures, range);
}
// method: setSamplerState:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setSamplerState(const MTL::SamplerState* sampler, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSamplerState_atIndex_), sampler, index);
}
// method: setSamplerStates:withRange:
_MTL_INLINE void MTL::ComputeCommandEncoder::setSamplerStates(const MTL::SamplerState* const samplers[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSamplerStates_withRange_), samplers, range);
}
// method: setSamplerState:lodMinClamp:lodMaxClamp:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setSamplerState(const MTL::SamplerState* sampler, float lodMinClamp, float lodMaxClamp, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSamplerState_lodMinClamp_lodMaxClamp_atIndex_), sampler, lodMinClamp, lodMaxClamp, index);
}
// method: setSamplerStates:lodMinClamps:lodMaxClamps:withRange:
_MTL_INLINE void MTL::ComputeCommandEncoder::setSamplerStates(const MTL::SamplerState* const samplers[], const float lodMinClamps[], const float lodMaxClamps[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSamplerStates_lodMinClamps_lodMaxClamps_withRange_), samplers, lodMinClamps, lodMaxClamps, range);
}
// method: setThreadgroupMemoryLength:atIndex:
_MTL_INLINE void MTL::ComputeCommandEncoder::setThreadgroupMemoryLength(NS::UInteger length, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setThreadgroupMemoryLength_atIndex_), length, index);
}
// method: setImageblockWidth:height:
_MTL_INLINE void MTL::ComputeCommandEncoder::setImageblockWidth(NS::UInteger width, NS::UInteger height)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setImageblockWidth_height_), width, height);
}
// method: setStageInRegion:
_MTL_INLINE void MTL::ComputeCommandEncoder::setStageInRegion(MTL::Region region)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStageInRegion_), region);
}
// method: setStageInRegionWithIndirectBuffer:indirectBufferOffset:
_MTL_INLINE void MTL::ComputeCommandEncoder::setStageInRegion(const MTL::Buffer* indirectBuffer, NS::UInteger indirectBufferOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStageInRegionWithIndirectBuffer_indirectBufferOffset_), indirectBuffer, indirectBufferOffset);
}
// method: dispatchThreadgroups:threadsPerThreadgroup:
_MTL_INLINE void MTL::ComputeCommandEncoder::dispatchThreadgroups(MTL::Size threadgroupsPerGrid, MTL::Size threadsPerThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(dispatchThreadgroups_threadsPerThreadgroup_), threadgroupsPerGrid, threadsPerThreadgroup);
}
// method: dispatchThreadgroupsWithIndirectBuffer:indirectBufferOffset:threadsPerThreadgroup:
_MTL_INLINE void MTL::ComputeCommandEncoder::dispatchThreadgroups(const MTL::Buffer* indirectBuffer, NS::UInteger indirectBufferOffset, MTL::Size threadsPerThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(dispatchThreadgroupsWithIndirectBuffer_indirectBufferOffset_threadsPerThreadgroup_), indirectBuffer, indirectBufferOffset, threadsPerThreadgroup);
}
// method: dispatchThreads:threadsPerThreadgroup:
_MTL_INLINE void MTL::ComputeCommandEncoder::dispatchThreads(MTL::Size threadsPerGrid, MTL::Size threadsPerThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(dispatchThreads_threadsPerThreadgroup_), threadsPerGrid, threadsPerThreadgroup);
}
// method: updateFence:
_MTL_INLINE void MTL::ComputeCommandEncoder::updateFence(const MTL::Fence* fence)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(updateFence_), fence);
}
// method: waitForFence:
_MTL_INLINE void MTL::ComputeCommandEncoder::waitForFence(const MTL::Fence* fence)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(waitForFence_), fence);
}
// method: useResource:usage:
_MTL_INLINE void MTL::ComputeCommandEncoder::useResource(const MTL::Resource* resource, MTL::ResourceUsage usage)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(useResource_usage_), resource, usage);
}
// method: useResources:count:usage:
_MTL_INLINE void MTL::ComputeCommandEncoder::useResources(const MTL::Resource* const resources[], NS::UInteger count, MTL::ResourceUsage usage)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(useResources_count_usage_), resources, count, usage);
}
// method: useHeap:
_MTL_INLINE void MTL::ComputeCommandEncoder::useHeap(const MTL::Heap* heap)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(useHeap_), heap);
}
// method: useHeaps:count:
_MTL_INLINE void MTL::ComputeCommandEncoder::useHeaps(const MTL::Heap* const heaps[], NS::UInteger count)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(useHeaps_count_), heaps, count);
}
// method: executeCommandsInBuffer:withRange:
_MTL_INLINE void MTL::ComputeCommandEncoder::executeCommandsInBuffer(const MTL::IndirectCommandBuffer* indirectCommandBuffer, NS::Range executionRange)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(executeCommandsInBuffer_withRange_), indirectCommandBuffer, executionRange);
}
// method: executeCommandsInBuffer:indirectBuffer:indirectBufferOffset:
_MTL_INLINE void MTL::ComputeCommandEncoder::executeCommandsInBuffer(const MTL::IndirectCommandBuffer* indirectCommandbuffer, const MTL::Buffer* indirectRangeBuffer, NS::UInteger indirectBufferOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(executeCommandsInBuffer_indirectBuffer_indirectBufferOffset_), indirectCommandbuffer, indirectRangeBuffer, indirectBufferOffset);
}
// method: memoryBarrierWithScope:
_MTL_INLINE void MTL::ComputeCommandEncoder::memoryBarrier(MTL::BarrierScope scope)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(memoryBarrierWithScope_), scope);
}
// method: memoryBarrierWithResources:count:
_MTL_INLINE void MTL::ComputeCommandEncoder::memoryBarrier(const MTL::Resource* const resources[], NS::UInteger count)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(memoryBarrierWithResources_count_), resources, count);
}
// method: sampleCountersInBuffer:atSampleIndex:withBarrier:
_MTL_INLINE void MTL::ComputeCommandEncoder::sampleCountersInBuffer(const MTL::CounterSampleBuffer* sampleBuffer, NS::UInteger sampleIndex, bool barrier)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(sampleCountersInBuffer_atSampleIndex_withBarrier_), sampleBuffer, sampleIndex, barrier);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLComputePass.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 "MTLCommandBuffer.hpp"
namespace MTL
{
class ComputePassSampleBufferAttachmentDescriptor : public NS::Copying<ComputePassSampleBufferAttachmentDescriptor>
{
public:
static class ComputePassSampleBufferAttachmentDescriptor* alloc();
class ComputePassSampleBufferAttachmentDescriptor* init();
class CounterSampleBuffer* sampleBuffer() const;
void setSampleBuffer(const class CounterSampleBuffer* sampleBuffer);
NS::UInteger startOfEncoderSampleIndex() const;
void setStartOfEncoderSampleIndex(NS::UInteger startOfEncoderSampleIndex);
NS::UInteger endOfEncoderSampleIndex() const;
void setEndOfEncoderSampleIndex(NS::UInteger endOfEncoderSampleIndex);
};
class ComputePassSampleBufferAttachmentDescriptorArray : public NS::Referencing<ComputePassSampleBufferAttachmentDescriptorArray>
{
public:
static class ComputePassSampleBufferAttachmentDescriptorArray* alloc();
class ComputePassSampleBufferAttachmentDescriptorArray* init();
class ComputePassSampleBufferAttachmentDescriptor* object(NS::UInteger attachmentIndex);
void setObject(const class ComputePassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex);
};
class ComputePassDescriptor : public NS::Copying<ComputePassDescriptor>
{
public:
static class ComputePassDescriptor* alloc();
class ComputePassDescriptor* init();
static class ComputePassDescriptor* computePassDescriptor();
MTL::DispatchType dispatchType() const;
void setDispatchType(MTL::DispatchType dispatchType);
class ComputePassSampleBufferAttachmentDescriptorArray* sampleBufferAttachments() const;
};
}
// static method: alloc
_MTL_INLINE MTL::ComputePassSampleBufferAttachmentDescriptor* MTL::ComputePassSampleBufferAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::ComputePassSampleBufferAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLComputePassSampleBufferAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::ComputePassSampleBufferAttachmentDescriptor* MTL::ComputePassSampleBufferAttachmentDescriptor::init()
{
return NS::Object::init<MTL::ComputePassSampleBufferAttachmentDescriptor>();
}
// property: sampleBuffer
_MTL_INLINE MTL::CounterSampleBuffer* MTL::ComputePassSampleBufferAttachmentDescriptor::sampleBuffer() const
{
return Object::sendMessage<MTL::CounterSampleBuffer*>(this, _MTL_PRIVATE_SEL(sampleBuffer));
}
_MTL_INLINE void MTL::ComputePassSampleBufferAttachmentDescriptor::setSampleBuffer(const MTL::CounterSampleBuffer* sampleBuffer)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSampleBuffer_), sampleBuffer);
}
// property: startOfEncoderSampleIndex
_MTL_INLINE NS::UInteger MTL::ComputePassSampleBufferAttachmentDescriptor::startOfEncoderSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(startOfEncoderSampleIndex));
}
_MTL_INLINE void MTL::ComputePassSampleBufferAttachmentDescriptor::setStartOfEncoderSampleIndex(NS::UInteger startOfEncoderSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStartOfEncoderSampleIndex_), startOfEncoderSampleIndex);
}
// property: endOfEncoderSampleIndex
_MTL_INLINE NS::UInteger MTL::ComputePassSampleBufferAttachmentDescriptor::endOfEncoderSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(endOfEncoderSampleIndex));
}
_MTL_INLINE void MTL::ComputePassSampleBufferAttachmentDescriptor::setEndOfEncoderSampleIndex(NS::UInteger endOfEncoderSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setEndOfEncoderSampleIndex_), endOfEncoderSampleIndex);
}
// static method: alloc
_MTL_INLINE MTL::ComputePassSampleBufferAttachmentDescriptorArray* MTL::ComputePassSampleBufferAttachmentDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::ComputePassSampleBufferAttachmentDescriptorArray>(_MTL_PRIVATE_CLS(MTLComputePassSampleBufferAttachmentDescriptorArray));
}
// method: init
_MTL_INLINE MTL::ComputePassSampleBufferAttachmentDescriptorArray* MTL::ComputePassSampleBufferAttachmentDescriptorArray::init()
{
return NS::Object::init<MTL::ComputePassSampleBufferAttachmentDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::ComputePassSampleBufferAttachmentDescriptor* MTL::ComputePassSampleBufferAttachmentDescriptorArray::object(NS::UInteger attachmentIndex)
{
return Object::sendMessage<MTL::ComputePassSampleBufferAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), attachmentIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::ComputePassSampleBufferAttachmentDescriptorArray::setObject(const MTL::ComputePassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attachment, attachmentIndex);
}
// static method: alloc
_MTL_INLINE MTL::ComputePassDescriptor* MTL::ComputePassDescriptor::alloc()
{
return NS::Object::alloc<MTL::ComputePassDescriptor>(_MTL_PRIVATE_CLS(MTLComputePassDescriptor));
}
// method: init
_MTL_INLINE MTL::ComputePassDescriptor* MTL::ComputePassDescriptor::init()
{
return NS::Object::init<MTL::ComputePassDescriptor>();
}
// static method: computePassDescriptor
_MTL_INLINE MTL::ComputePassDescriptor* MTL::ComputePassDescriptor::computePassDescriptor()
{
return Object::sendMessage<MTL::ComputePassDescriptor*>(_MTL_PRIVATE_CLS(MTLComputePassDescriptor), _MTL_PRIVATE_SEL(computePassDescriptor));
}
// property: dispatchType
_MTL_INLINE MTL::DispatchType MTL::ComputePassDescriptor::dispatchType() const
{
return Object::sendMessage<MTL::DispatchType>(this, _MTL_PRIVATE_SEL(dispatchType));
}
_MTL_INLINE void MTL::ComputePassDescriptor::setDispatchType(MTL::DispatchType dispatchType)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDispatchType_), dispatchType);
}
// property: sampleBufferAttachments
_MTL_INLINE MTL::ComputePassSampleBufferAttachmentDescriptorArray* MTL::ComputePassDescriptor::sampleBufferAttachments() const
{
return Object::sendMessage<MTL::ComputePassSampleBufferAttachmentDescriptorArray*>(this, _MTL_PRIVATE_SEL(sampleBufferAttachments));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLComputePipeline.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 "MTLTypes.hpp"
namespace MTL
{
class ComputePipelineReflection : public NS::Referencing<ComputePipelineReflection>
{
public:
static class ComputePipelineReflection* alloc();
class ComputePipelineReflection* init();
NS::Array* bindings() const;
NS::Array* arguments() const;
};
class ComputePipelineDescriptor : public NS::Copying<ComputePipelineDescriptor>
{
public:
static class ComputePipelineDescriptor* alloc();
class ComputePipelineDescriptor* init();
NS::String* label() const;
void setLabel(const NS::String* label);
class Function* computeFunction() const;
void setComputeFunction(const class Function* computeFunction);
bool threadGroupSizeIsMultipleOfThreadExecutionWidth() const;
void setThreadGroupSizeIsMultipleOfThreadExecutionWidth(bool threadGroupSizeIsMultipleOfThreadExecutionWidth);
NS::UInteger maxTotalThreadsPerThreadgroup() const;
void setMaxTotalThreadsPerThreadgroup(NS::UInteger maxTotalThreadsPerThreadgroup);
class StageInputOutputDescriptor* stageInputDescriptor() const;
void setStageInputDescriptor(const class StageInputOutputDescriptor* stageInputDescriptor);
class PipelineBufferDescriptorArray* buffers() const;
bool supportIndirectCommandBuffers() const;
void setSupportIndirectCommandBuffers(bool supportIndirectCommandBuffers);
NS::Array* insertLibraries() const;
void setInsertLibraries(const NS::Array* insertLibraries);
NS::Array* preloadedLibraries() const;
void setPreloadedLibraries(const NS::Array* preloadedLibraries);
NS::Array* binaryArchives() const;
void setBinaryArchives(const NS::Array* binaryArchives);
void reset();
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);
};
class ComputePipelineState : public NS::Referencing<ComputePipelineState>
{
public:
NS::String* label() const;
class Device* device() const;
NS::UInteger maxTotalThreadsPerThreadgroup() const;
NS::UInteger threadExecutionWidth() const;
NS::UInteger staticThreadgroupMemoryLength() const;
NS::UInteger imageblockMemoryLength(MTL::Size imageblockDimensions);
bool supportIndirectCommandBuffers() const;
MTL::ResourceID gpuResourceID() const;
class FunctionHandle* functionHandle(const class Function* function);
class ComputePipelineState* newComputePipelineState(const NS::Array* functions, NS::Error** error);
class VisibleFunctionTable* newVisibleFunctionTable(const class VisibleFunctionTableDescriptor* descriptor);
class IntersectionFunctionTable* newIntersectionFunctionTable(const class IntersectionFunctionTableDescriptor* descriptor);
};
}
// static method: alloc
_MTL_INLINE MTL::ComputePipelineReflection* MTL::ComputePipelineReflection::alloc()
{
return NS::Object::alloc<MTL::ComputePipelineReflection>(_MTL_PRIVATE_CLS(MTLComputePipelineReflection));
}
// method: init
_MTL_INLINE MTL::ComputePipelineReflection* MTL::ComputePipelineReflection::init()
{
return NS::Object::init<MTL::ComputePipelineReflection>();
}
// property: bindings
_MTL_INLINE NS::Array* MTL::ComputePipelineReflection::bindings() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(bindings));
}
// property: arguments
_MTL_INLINE NS::Array* MTL::ComputePipelineReflection::arguments() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(arguments));
}
// static method: alloc
_MTL_INLINE MTL::ComputePipelineDescriptor* MTL::ComputePipelineDescriptor::alloc()
{
return NS::Object::alloc<MTL::ComputePipelineDescriptor>(_MTL_PRIVATE_CLS(MTLComputePipelineDescriptor));
}
// method: init
_MTL_INLINE MTL::ComputePipelineDescriptor* MTL::ComputePipelineDescriptor::init()
{
return NS::Object::init<MTL::ComputePipelineDescriptor>();
}
// property: label
_MTL_INLINE NS::String* MTL::ComputePipelineDescriptor::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: computeFunction
_MTL_INLINE MTL::Function* MTL::ComputePipelineDescriptor::computeFunction() const
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(computeFunction));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setComputeFunction(const MTL::Function* computeFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setComputeFunction_), computeFunction);
}
// property: threadGroupSizeIsMultipleOfThreadExecutionWidth
_MTL_INLINE bool MTL::ComputePipelineDescriptor::threadGroupSizeIsMultipleOfThreadExecutionWidth() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(threadGroupSizeIsMultipleOfThreadExecutionWidth));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setThreadGroupSizeIsMultipleOfThreadExecutionWidth(bool threadGroupSizeIsMultipleOfThreadExecutionWidth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setThreadGroupSizeIsMultipleOfThreadExecutionWidth_), threadGroupSizeIsMultipleOfThreadExecutionWidth);
}
// property: maxTotalThreadsPerThreadgroup
_MTL_INLINE NS::UInteger MTL::ComputePipelineDescriptor::maxTotalThreadsPerThreadgroup() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadsPerThreadgroup));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setMaxTotalThreadsPerThreadgroup(NS::UInteger maxTotalThreadsPerThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxTotalThreadsPerThreadgroup_), maxTotalThreadsPerThreadgroup);
}
// property: stageInputDescriptor
_MTL_INLINE MTL::StageInputOutputDescriptor* MTL::ComputePipelineDescriptor::stageInputDescriptor() const
{
return Object::sendMessage<MTL::StageInputOutputDescriptor*>(this, _MTL_PRIVATE_SEL(stageInputDescriptor));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setStageInputDescriptor(const MTL::StageInputOutputDescriptor* stageInputDescriptor)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStageInputDescriptor_), stageInputDescriptor);
}
// property: buffers
_MTL_INLINE MTL::PipelineBufferDescriptorArray* MTL::ComputePipelineDescriptor::buffers() const
{
return Object::sendMessage<MTL::PipelineBufferDescriptorArray*>(this, _MTL_PRIVATE_SEL(buffers));
}
// property: supportIndirectCommandBuffers
_MTL_INLINE bool MTL::ComputePipelineDescriptor::supportIndirectCommandBuffers() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportIndirectCommandBuffers));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setSupportIndirectCommandBuffers(bool supportIndirectCommandBuffers)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportIndirectCommandBuffers_), supportIndirectCommandBuffers);
}
// property: insertLibraries
_MTL_INLINE NS::Array* MTL::ComputePipelineDescriptor::insertLibraries() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(insertLibraries));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setInsertLibraries(const NS::Array* insertLibraries)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setInsertLibraries_), insertLibraries);
}
// property: preloadedLibraries
_MTL_INLINE NS::Array* MTL::ComputePipelineDescriptor::preloadedLibraries() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(preloadedLibraries));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setPreloadedLibraries(const NS::Array* preloadedLibraries)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPreloadedLibraries_), preloadedLibraries);
}
// property: binaryArchives
_MTL_INLINE NS::Array* MTL::ComputePipelineDescriptor::binaryArchives() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(binaryArchives));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setBinaryArchives(const NS::Array* binaryArchives)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBinaryArchives_), binaryArchives);
}
// method: reset
_MTL_INLINE void MTL::ComputePipelineDescriptor::reset()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(reset));
}
// property: linkedFunctions
_MTL_INLINE MTL::LinkedFunctions* MTL::ComputePipelineDescriptor::linkedFunctions() const
{
return Object::sendMessage<MTL::LinkedFunctions*>(this, _MTL_PRIVATE_SEL(linkedFunctions));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setLinkedFunctions(const MTL::LinkedFunctions* linkedFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLinkedFunctions_), linkedFunctions);
}
// property: supportAddingBinaryFunctions
_MTL_INLINE bool MTL::ComputePipelineDescriptor::supportAddingBinaryFunctions() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportAddingBinaryFunctions));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setSupportAddingBinaryFunctions(bool supportAddingBinaryFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportAddingBinaryFunctions_), supportAddingBinaryFunctions);
}
// property: maxCallStackDepth
_MTL_INLINE NS::UInteger MTL::ComputePipelineDescriptor::maxCallStackDepth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxCallStackDepth));
}
_MTL_INLINE void MTL::ComputePipelineDescriptor::setMaxCallStackDepth(NS::UInteger maxCallStackDepth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxCallStackDepth_), maxCallStackDepth);
}
// property: label
_MTL_INLINE NS::String* MTL::ComputePipelineState::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
// property: device
_MTL_INLINE MTL::Device* MTL::ComputePipelineState::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: maxTotalThreadsPerThreadgroup
_MTL_INLINE NS::UInteger MTL::ComputePipelineState::maxTotalThreadsPerThreadgroup() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadsPerThreadgroup));
}
// property: threadExecutionWidth
_MTL_INLINE NS::UInteger MTL::ComputePipelineState::threadExecutionWidth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(threadExecutionWidth));
}
// property: staticThreadgroupMemoryLength
_MTL_INLINE NS::UInteger MTL::ComputePipelineState::staticThreadgroupMemoryLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(staticThreadgroupMemoryLength));
}
// method: imageblockMemoryLengthForDimensions:
_MTL_INLINE NS::UInteger MTL::ComputePipelineState::imageblockMemoryLength(MTL::Size imageblockDimensions)
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(imageblockMemoryLengthForDimensions_), imageblockDimensions);
}
// property: supportIndirectCommandBuffers
_MTL_INLINE bool MTL::ComputePipelineState::supportIndirectCommandBuffers() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportIndirectCommandBuffers));
}
// property: gpuResourceID
_MTL_INLINE MTL::ResourceID MTL::ComputePipelineState::gpuResourceID() const
{
return Object::sendMessage<MTL::ResourceID>(this, _MTL_PRIVATE_SEL(gpuResourceID));
}
// method: functionHandleWithFunction:
_MTL_INLINE MTL::FunctionHandle* MTL::ComputePipelineState::functionHandle(const MTL::Function* function)
{
return Object::sendMessage<MTL::FunctionHandle*>(this, _MTL_PRIVATE_SEL(functionHandleWithFunction_), function);
}
// method: newComputePipelineStateWithAdditionalBinaryFunctions:error:
_MTL_INLINE MTL::ComputePipelineState* MTL::ComputePipelineState::newComputePipelineState(const NS::Array* functions, NS::Error** error)
{
return Object::sendMessage<MTL::ComputePipelineState*>(this, _MTL_PRIVATE_SEL(newComputePipelineStateWithAdditionalBinaryFunctions_error_), functions, error);
}
// method: newVisibleFunctionTableWithDescriptor:
_MTL_INLINE MTL::VisibleFunctionTable* MTL::ComputePipelineState::newVisibleFunctionTable(const MTL::VisibleFunctionTableDescriptor* descriptor)
{
return Object::sendMessage<MTL::VisibleFunctionTable*>(this, _MTL_PRIVATE_SEL(newVisibleFunctionTableWithDescriptor_), descriptor);
}
// method: newIntersectionFunctionTableWithDescriptor:
_MTL_INLINE MTL::IntersectionFunctionTable* MTL::ComputePipelineState::newIntersectionFunctionTable(const MTL::IntersectionFunctionTableDescriptor* descriptor)
{
return Object::sendMessage<MTL::IntersectionFunctionTable*>(this, _MTL_PRIVATE_SEL(newIntersectionFunctionTableWithDescriptor_), descriptor);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLCounters.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 "MTLResource.hpp"
namespace MTL
{
struct CounterResultTimestamp
{
uint64_t timestamp;
} _MTL_PACKED;
struct CounterResultStageUtilization
{
uint64_t totalCycles;
uint64_t vertexCycles;
uint64_t tessellationCycles;
uint64_t postTessellationVertexCycles;
uint64_t fragmentCycles;
uint64_t renderTargetCycles;
} _MTL_PACKED;
struct CounterResultStatistic
{
uint64_t tessellationInputPatches;
uint64_t vertexInvocations;
uint64_t postTessellationVertexInvocations;
uint64_t clipperInvocations;
uint64_t clipperPrimitivesOut;
uint64_t fragmentInvocations;
uint64_t fragmentsPassed;
uint64_t computeKernelInvocations;
} _MTL_PACKED;
_MTL_CONST(NS::ErrorDomain, CounterErrorDomain);
using CommonCounter = NS::String*;
_MTL_CONST(CommonCounter, CommonCounterTimestamp);
_MTL_CONST(CommonCounter, CommonCounterTessellationInputPatches);
_MTL_CONST(CommonCounter, CommonCounterVertexInvocations);
_MTL_CONST(CommonCounter, CommonCounterPostTessellationVertexInvocations);
_MTL_CONST(CommonCounter, CommonCounterClipperInvocations);
_MTL_CONST(CommonCounter, CommonCounterClipperPrimitivesOut);
_MTL_CONST(CommonCounter, CommonCounterFragmentInvocations);
_MTL_CONST(CommonCounter, CommonCounterFragmentsPassed);
_MTL_CONST(CommonCounter, CommonCounterComputeKernelInvocations);
_MTL_CONST(CommonCounter, CommonCounterTotalCycles);
_MTL_CONST(CommonCounter, CommonCounterVertexCycles);
_MTL_CONST(CommonCounter, CommonCounterTessellationCycles);
_MTL_CONST(CommonCounter, CommonCounterPostTessellationVertexCycles);
_MTL_CONST(CommonCounter, CommonCounterFragmentCycles);
_MTL_CONST(CommonCounter, CommonCounterRenderTargetWriteCycles);
using CommonCounterSet = NS::String*;
_MTL_CONST(CommonCounterSet, CommonCounterSetTimestamp);
_MTL_CONST(CommonCounterSet, CommonCounterSetStageUtilization);
_MTL_CONST(CommonCounterSet, CommonCounterSetStatistic);
class Counter : public NS::Referencing<Counter>
{
public:
NS::String* name() const;
};
class CounterSet : public NS::Referencing<CounterSet>
{
public:
NS::String* name() const;
NS::Array* counters() const;
};
class CounterSampleBufferDescriptor : public NS::Copying<CounterSampleBufferDescriptor>
{
public:
static class CounterSampleBufferDescriptor* alloc();
class CounterSampleBufferDescriptor* init();
class CounterSet* counterSet() const;
void setCounterSet(const class CounterSet* counterSet);
NS::String* label() const;
void setLabel(const NS::String* label);
MTL::StorageMode storageMode() const;
void setStorageMode(MTL::StorageMode storageMode);
NS::UInteger sampleCount() const;
void setSampleCount(NS::UInteger sampleCount);
};
class CounterSampleBuffer : public NS::Referencing<CounterSampleBuffer>
{
public:
class Device* device() const;
NS::String* label() const;
NS::UInteger sampleCount() const;
NS::Data* resolveCounterRange(NS::Range range);
};
_MTL_ENUM(NS::Integer, CounterSampleBufferError) {
CounterSampleBufferErrorOutOfMemory = 0,
CounterSampleBufferErrorInvalid = 1,
CounterSampleBufferErrorInternal = 2,
};
}
_MTL_PRIVATE_DEF_STR(NS::ErrorDomain, CounterErrorDomain);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterTimestamp);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterTessellationInputPatches);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterVertexInvocations);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterPostTessellationVertexInvocations);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterClipperInvocations);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterClipperPrimitivesOut);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterFragmentInvocations);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterFragmentsPassed);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterComputeKernelInvocations);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterTotalCycles);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterVertexCycles);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterTessellationCycles);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterPostTessellationVertexCycles);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterFragmentCycles);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounter, CommonCounterRenderTargetWriteCycles);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounterSet, CommonCounterSetTimestamp);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounterSet, CommonCounterSetStageUtilization);
_MTL_PRIVATE_DEF_STR(MTL::CommonCounterSet, CommonCounterSetStatistic);
// property: name
_MTL_INLINE NS::String* MTL::Counter::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: name
_MTL_INLINE NS::String* MTL::CounterSet::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: counters
_MTL_INLINE NS::Array* MTL::CounterSet::counters() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(counters));
}
// static method: alloc
_MTL_INLINE MTL::CounterSampleBufferDescriptor* MTL::CounterSampleBufferDescriptor::alloc()
{
return NS::Object::alloc<MTL::CounterSampleBufferDescriptor>(_MTL_PRIVATE_CLS(MTLCounterSampleBufferDescriptor));
}
// method: init
_MTL_INLINE MTL::CounterSampleBufferDescriptor* MTL::CounterSampleBufferDescriptor::init()
{
return NS::Object::init<MTL::CounterSampleBufferDescriptor>();
}
// property: counterSet
_MTL_INLINE MTL::CounterSet* MTL::CounterSampleBufferDescriptor::counterSet() const
{
return Object::sendMessage<MTL::CounterSet*>(this, _MTL_PRIVATE_SEL(counterSet));
}
_MTL_INLINE void MTL::CounterSampleBufferDescriptor::setCounterSet(const MTL::CounterSet* counterSet)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setCounterSet_), counterSet);
}
// property: label
_MTL_INLINE NS::String* MTL::CounterSampleBufferDescriptor::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::CounterSampleBufferDescriptor::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: storageMode
_MTL_INLINE MTL::StorageMode MTL::CounterSampleBufferDescriptor::storageMode() const
{
return Object::sendMessage<MTL::StorageMode>(this, _MTL_PRIVATE_SEL(storageMode));
}
_MTL_INLINE void MTL::CounterSampleBufferDescriptor::setStorageMode(MTL::StorageMode storageMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStorageMode_), storageMode);
}
// property: sampleCount
_MTL_INLINE NS::UInteger MTL::CounterSampleBufferDescriptor::sampleCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(sampleCount));
}
_MTL_INLINE void MTL::CounterSampleBufferDescriptor::setSampleCount(NS::UInteger sampleCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSampleCount_), sampleCount);
}
// property: device
_MTL_INLINE MTL::Device* MTL::CounterSampleBuffer::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: label
_MTL_INLINE NS::String* MTL::CounterSampleBuffer::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
// property: sampleCount
_MTL_INLINE NS::UInteger MTL::CounterSampleBuffer::sampleCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(sampleCount));
}
// method: resolveCounterRange:
_MTL_INLINE NS::Data* MTL::CounterSampleBuffer::resolveCounterRange(NS::Range range)
{
return Object::sendMessage<NS::Data*>(this, _MTL_PRIVATE_SEL(resolveCounterRange_), range);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLDefines.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 "../Foundation/NSDefines.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#define _MTL_EXPORT _NS_EXPORT
#define _MTL_EXTERN _NS_EXTERN
#define _MTL_INLINE _NS_INLINE
#define _MTL_PACKED _NS_PACKED
#define _MTL_CONST(type, name) _NS_CONST(type, name)
#define _MTL_ENUM(type, name) _NS_ENUM(type, name)
#define _MTL_OPTIONS(type, name) _NS_OPTIONS(type, name)
#define _MTL_VALIDATE_SIZE(ns, name) _NS_VALIDATE_SIZE(ns, name)
#define _MTL_VALIDATE_ENUM(ns, name) _NS_VALIDATE_ENUM(ns, name)
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLDepthStencil.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 "MTLDepthStencil.hpp"
namespace MTL
{
_MTL_ENUM(NS::UInteger, CompareFunction) {
CompareFunctionNever = 0,
CompareFunctionLess = 1,
CompareFunctionEqual = 2,
CompareFunctionLessEqual = 3,
CompareFunctionGreater = 4,
CompareFunctionNotEqual = 5,
CompareFunctionGreaterEqual = 6,
CompareFunctionAlways = 7,
};
_MTL_ENUM(NS::UInteger, StencilOperation) {
StencilOperationKeep = 0,
StencilOperationZero = 1,
StencilOperationReplace = 2,
StencilOperationIncrementClamp = 3,
StencilOperationDecrementClamp = 4,
StencilOperationInvert = 5,
StencilOperationIncrementWrap = 6,
StencilOperationDecrementWrap = 7,
};
class StencilDescriptor : public NS::Copying<StencilDescriptor>
{
public:
static class StencilDescriptor* alloc();
class StencilDescriptor* init();
MTL::CompareFunction stencilCompareFunction() const;
void setStencilCompareFunction(MTL::CompareFunction stencilCompareFunction);
MTL::StencilOperation stencilFailureOperation() const;
void setStencilFailureOperation(MTL::StencilOperation stencilFailureOperation);
MTL::StencilOperation depthFailureOperation() const;
void setDepthFailureOperation(MTL::StencilOperation depthFailureOperation);
MTL::StencilOperation depthStencilPassOperation() const;
void setDepthStencilPassOperation(MTL::StencilOperation depthStencilPassOperation);
uint32_t readMask() const;
void setReadMask(uint32_t readMask);
uint32_t writeMask() const;
void setWriteMask(uint32_t writeMask);
};
class DepthStencilDescriptor : public NS::Copying<DepthStencilDescriptor>
{
public:
static class DepthStencilDescriptor* alloc();
class DepthStencilDescriptor* init();
MTL::CompareFunction depthCompareFunction() const;
void setDepthCompareFunction(MTL::CompareFunction depthCompareFunction);
bool depthWriteEnabled() const;
void setDepthWriteEnabled(bool depthWriteEnabled);
class StencilDescriptor* frontFaceStencil() const;
void setFrontFaceStencil(const class StencilDescriptor* frontFaceStencil);
class StencilDescriptor* backFaceStencil() const;
void setBackFaceStencil(const class StencilDescriptor* backFaceStencil);
NS::String* label() const;
void setLabel(const NS::String* label);
};
class DepthStencilState : public NS::Referencing<DepthStencilState>
{
public:
NS::String* label() const;
class Device* device() const;
};
}
// static method: alloc
_MTL_INLINE MTL::StencilDescriptor* MTL::StencilDescriptor::alloc()
{
return NS::Object::alloc<MTL::StencilDescriptor>(_MTL_PRIVATE_CLS(MTLStencilDescriptor));
}
// method: init
_MTL_INLINE MTL::StencilDescriptor* MTL::StencilDescriptor::init()
{
return NS::Object::init<MTL::StencilDescriptor>();
}
// property: stencilCompareFunction
_MTL_INLINE MTL::CompareFunction MTL::StencilDescriptor::stencilCompareFunction() const
{
return Object::sendMessage<MTL::CompareFunction>(this, _MTL_PRIVATE_SEL(stencilCompareFunction));
}
_MTL_INLINE void MTL::StencilDescriptor::setStencilCompareFunction(MTL::CompareFunction stencilCompareFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStencilCompareFunction_), stencilCompareFunction);
}
// property: stencilFailureOperation
_MTL_INLINE MTL::StencilOperation MTL::StencilDescriptor::stencilFailureOperation() const
{
return Object::sendMessage<MTL::StencilOperation>(this, _MTL_PRIVATE_SEL(stencilFailureOperation));
}
_MTL_INLINE void MTL::StencilDescriptor::setStencilFailureOperation(MTL::StencilOperation stencilFailureOperation)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStencilFailureOperation_), stencilFailureOperation);
}
// property: depthFailureOperation
_MTL_INLINE MTL::StencilOperation MTL::StencilDescriptor::depthFailureOperation() const
{
return Object::sendMessage<MTL::StencilOperation>(this, _MTL_PRIVATE_SEL(depthFailureOperation));
}
_MTL_INLINE void MTL::StencilDescriptor::setDepthFailureOperation(MTL::StencilOperation depthFailureOperation)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthFailureOperation_), depthFailureOperation);
}
// property: depthStencilPassOperation
_MTL_INLINE MTL::StencilOperation MTL::StencilDescriptor::depthStencilPassOperation() const
{
return Object::sendMessage<MTL::StencilOperation>(this, _MTL_PRIVATE_SEL(depthStencilPassOperation));
}
_MTL_INLINE void MTL::StencilDescriptor::setDepthStencilPassOperation(MTL::StencilOperation depthStencilPassOperation)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthStencilPassOperation_), depthStencilPassOperation);
}
// property: readMask
_MTL_INLINE uint32_t MTL::StencilDescriptor::readMask() const
{
return Object::sendMessage<uint32_t>(this, _MTL_PRIVATE_SEL(readMask));
}
_MTL_INLINE void MTL::StencilDescriptor::setReadMask(uint32_t readMask)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setReadMask_), readMask);
}
// property: writeMask
_MTL_INLINE uint32_t MTL::StencilDescriptor::writeMask() const
{
return Object::sendMessage<uint32_t>(this, _MTL_PRIVATE_SEL(writeMask));
}
_MTL_INLINE void MTL::StencilDescriptor::setWriteMask(uint32_t writeMask)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setWriteMask_), writeMask);
}
// static method: alloc
_MTL_INLINE MTL::DepthStencilDescriptor* MTL::DepthStencilDescriptor::alloc()
{
return NS::Object::alloc<MTL::DepthStencilDescriptor>(_MTL_PRIVATE_CLS(MTLDepthStencilDescriptor));
}
// method: init
_MTL_INLINE MTL::DepthStencilDescriptor* MTL::DepthStencilDescriptor::init()
{
return NS::Object::init<MTL::DepthStencilDescriptor>();
}
// property: depthCompareFunction
_MTL_INLINE MTL::CompareFunction MTL::DepthStencilDescriptor::depthCompareFunction() const
{
return Object::sendMessage<MTL::CompareFunction>(this, _MTL_PRIVATE_SEL(depthCompareFunction));
}
_MTL_INLINE void MTL::DepthStencilDescriptor::setDepthCompareFunction(MTL::CompareFunction depthCompareFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthCompareFunction_), depthCompareFunction);
}
// property: depthWriteEnabled
_MTL_INLINE bool MTL::DepthStencilDescriptor::depthWriteEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isDepthWriteEnabled));
}
_MTL_INLINE void MTL::DepthStencilDescriptor::setDepthWriteEnabled(bool depthWriteEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthWriteEnabled_), depthWriteEnabled);
}
// property: frontFaceStencil
_MTL_INLINE MTL::StencilDescriptor* MTL::DepthStencilDescriptor::frontFaceStencil() const
{
return Object::sendMessage<MTL::StencilDescriptor*>(this, _MTL_PRIVATE_SEL(frontFaceStencil));
}
_MTL_INLINE void MTL::DepthStencilDescriptor::setFrontFaceStencil(const MTL::StencilDescriptor* frontFaceStencil)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFrontFaceStencil_), frontFaceStencil);
}
// property: backFaceStencil
_MTL_INLINE MTL::StencilDescriptor* MTL::DepthStencilDescriptor::backFaceStencil() const
{
return Object::sendMessage<MTL::StencilDescriptor*>(this, _MTL_PRIVATE_SEL(backFaceStencil));
}
_MTL_INLINE void MTL::DepthStencilDescriptor::setBackFaceStencil(const MTL::StencilDescriptor* backFaceStencil)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBackFaceStencil_), backFaceStencil);
}
// property: label
_MTL_INLINE NS::String* MTL::DepthStencilDescriptor::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::DepthStencilDescriptor::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: label
_MTL_INLINE NS::String* MTL::DepthStencilState::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
// property: device
_MTL_INLINE MTL::Device* MTL::DepthStencilState::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLDrawable.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 <CoreFoundation/CoreFoundation.h>
#include <functional>
namespace MTL
{
using DrawablePresentedHandler = void (^)(class Drawable*);
using DrawablePresentedHandlerFunction = std::function<void(class Drawable*)>;
class Drawable : public NS::Referencing<Drawable>
{
public:
void addPresentedHandler(const MTL::DrawablePresentedHandlerFunction& function);
void present();
void presentAtTime(CFTimeInterval presentationTime);
void presentAfterMinimumDuration(CFTimeInterval duration);
void addPresentedHandler(const MTL::DrawablePresentedHandler block);
CFTimeInterval presentedTime() const;
NS::UInteger drawableID() const;
};
}
_MTL_INLINE void MTL::Drawable::addPresentedHandler(const MTL::DrawablePresentedHandlerFunction& function)
{
__block DrawablePresentedHandlerFunction blockFunction = function;
addPresentedHandler(^(Drawable* pDrawable) { blockFunction(pDrawable); });
}
// method: present
_MTL_INLINE void MTL::Drawable::present()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(present));
}
// method: presentAtTime:
_MTL_INLINE void MTL::Drawable::presentAtTime(CFTimeInterval presentationTime)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(presentAtTime_), presentationTime);
}
// method: presentAfterMinimumDuration:
_MTL_INLINE void MTL::Drawable::presentAfterMinimumDuration(CFTimeInterval duration)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(presentAfterMinimumDuration_), duration);
}
// method: addPresentedHandler:
_MTL_INLINE void MTL::Drawable::addPresentedHandler(const MTL::DrawablePresentedHandler block)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(addPresentedHandler_), block);
}
// property: presentedTime
_MTL_INLINE CFTimeInterval MTL::Drawable::presentedTime() const
{
return Object::sendMessage<CFTimeInterval>(this, _MTL_PRIVATE_SEL(presentedTime));
}
// property: drawableID
_MTL_INLINE NS::UInteger MTL::Drawable::drawableID() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(drawableID));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLDynamicLibrary.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>
namespace MTL
{
_MTL_ENUM(NS::UInteger, DynamicLibraryError) {
DynamicLibraryErrorNone = 0,
DynamicLibraryErrorInvalidFile = 1,
DynamicLibraryErrorCompilationFailure = 2,
DynamicLibraryErrorUnresolvedInstallName = 3,
DynamicLibraryErrorDependencyLoadFailure = 4,
DynamicLibraryErrorUnsupported = 5,
};
class DynamicLibrary : public NS::Referencing<DynamicLibrary>
{
public:
NS::String* label() const;
void setLabel(const NS::String* label);
class Device* device() const;
NS::String* installName() const;
bool serializeToURL(const NS::URL* url, NS::Error** error);
};
}
// property: label
_MTL_INLINE NS::String* MTL::DynamicLibrary::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::DynamicLibrary::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: device
_MTL_INLINE MTL::Device* MTL::DynamicLibrary::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: installName
_MTL_INLINE NS::String* MTL::DynamicLibrary::installName() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(installName));
}
// method: serializeToURL:error:
_MTL_INLINE bool MTL::DynamicLibrary::serializeToURL(const NS::URL* url, NS::Error** error)
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(serializeToURL_error_), url, error);
}

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externals/metal-cpp/Metal/MTLEvent.hpp vendored Normal file
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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLEvent.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 "MTLEvent.hpp"
namespace MTL
{
class Event : public NS::Referencing<Event>
{
public:
class Device* device() const;
NS::String* label() const;
void setLabel(const NS::String* label);
};
class SharedEventListener : public NS::Referencing<SharedEventListener>
{
public:
static class SharedEventListener* alloc();
MTL::SharedEventListener* init();
MTL::SharedEventListener* init(const dispatch_queue_t dispatchQueue);
dispatch_queue_t dispatchQueue() const;
};
using SharedEventNotificationBlock = void (^)(SharedEvent* pEvent, std::uint64_t value);
class SharedEvent : public NS::Referencing<SharedEvent, Event>
{
public:
void notifyListener(const class SharedEventListener* listener, uint64_t value, const MTL::SharedEventNotificationBlock block);
class SharedEventHandle* newSharedEventHandle();
uint64_t signaledValue() const;
void setSignaledValue(uint64_t signaledValue);
};
class SharedEventHandle : public NS::SecureCoding<SharedEventHandle>
{
public:
static class SharedEventHandle* alloc();
class SharedEventHandle* init();
NS::String* label() const;
};
}
// property: device
_MTL_INLINE MTL::Device* MTL::Event::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: label
_MTL_INLINE NS::String* MTL::Event::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::Event::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// static method: alloc
_MTL_INLINE MTL::SharedEventListener* MTL::SharedEventListener::alloc()
{
return NS::Object::alloc<MTL::SharedEventListener>(_MTL_PRIVATE_CLS(MTLSharedEventListener));
}
// method: init
_MTL_INLINE MTL::SharedEventListener* MTL::SharedEventListener::init()
{
return NS::Object::init<MTL::SharedEventListener>();
}
// method: initWithDispatchQueue:
_MTL_INLINE MTL::SharedEventListener* MTL::SharedEventListener::init(const dispatch_queue_t dispatchQueue)
{
return Object::sendMessage<MTL::SharedEventListener*>(this, _MTL_PRIVATE_SEL(initWithDispatchQueue_), dispatchQueue);
}
// property: dispatchQueue
_MTL_INLINE dispatch_queue_t MTL::SharedEventListener::dispatchQueue() const
{
return Object::sendMessage<dispatch_queue_t>(this, _MTL_PRIVATE_SEL(dispatchQueue));
}
// method: notifyListener:atValue:block:
_MTL_INLINE void MTL::SharedEvent::notifyListener(const MTL::SharedEventListener* listener, uint64_t value, const MTL::SharedEventNotificationBlock block)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(notifyListener_atValue_block_), listener, value, block);
}
// method: newSharedEventHandle
_MTL_INLINE MTL::SharedEventHandle* MTL::SharedEvent::newSharedEventHandle()
{
return Object::sendMessage<MTL::SharedEventHandle*>(this, _MTL_PRIVATE_SEL(newSharedEventHandle));
}
// property: signaledValue
_MTL_INLINE uint64_t MTL::SharedEvent::signaledValue() const
{
return Object::sendMessage<uint64_t>(this, _MTL_PRIVATE_SEL(signaledValue));
}
_MTL_INLINE void MTL::SharedEvent::setSignaledValue(uint64_t signaledValue)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSignaledValue_), signaledValue);
}
// static method: alloc
_MTL_INLINE MTL::SharedEventHandle* MTL::SharedEventHandle::alloc()
{
return NS::Object::alloc<MTL::SharedEventHandle>(_MTL_PRIVATE_CLS(MTLSharedEventHandle));
}
// method: init
_MTL_INLINE MTL::SharedEventHandle* MTL::SharedEventHandle::init()
{
return NS::Object::init<MTL::SharedEventHandle>();
}
// property: label
_MTL_INLINE NS::String* MTL::SharedEventHandle::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}

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externals/metal-cpp/Metal/MTLFence.hpp vendored Normal file
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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLFence.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>
namespace MTL
{
class Fence : public NS::Referencing<Fence>
{
public:
class Device* device() const;
NS::String* label() const;
void setLabel(const NS::String* label);
};
}
// property: device
_MTL_INLINE MTL::Device* MTL::Fence::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: label
_MTL_INLINE NS::String* MTL::Fence::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::Fence::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLFunctionConstantValues.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 "MTLArgument.hpp"
namespace MTL
{
class FunctionConstantValues : public NS::Copying<FunctionConstantValues>
{
public:
static class FunctionConstantValues* alloc();
class FunctionConstantValues* init();
void setConstantValue(const void* value, MTL::DataType type, NS::UInteger index);
void setConstantValues(const void* values, MTL::DataType type, NS::Range range);
void setConstantValue(const void* value, MTL::DataType type, const NS::String* name);
void reset();
};
}
// static method: alloc
_MTL_INLINE MTL::FunctionConstantValues* MTL::FunctionConstantValues::alloc()
{
return NS::Object::alloc<MTL::FunctionConstantValues>(_MTL_PRIVATE_CLS(MTLFunctionConstantValues));
}
// method: init
_MTL_INLINE MTL::FunctionConstantValues* MTL::FunctionConstantValues::init()
{
return NS::Object::init<MTL::FunctionConstantValues>();
}
// method: setConstantValue:type:atIndex:
_MTL_INLINE void MTL::FunctionConstantValues::setConstantValue(const void* value, MTL::DataType type, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setConstantValue_type_atIndex_), value, type, index);
}
// method: setConstantValues:type:withRange:
_MTL_INLINE void MTL::FunctionConstantValues::setConstantValues(const void* values, MTL::DataType type, NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setConstantValues_type_withRange_), values, type, range);
}
// method: setConstantValue:type:withName:
_MTL_INLINE void MTL::FunctionConstantValues::setConstantValue(const void* value, MTL::DataType type, const NS::String* name)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setConstantValue_type_withName_), value, type, name);
}
// method: reset
_MTL_INLINE void MTL::FunctionConstantValues::reset()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(reset));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLFunctionDescriptor.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 "MTLFunctionDescriptor.hpp"
namespace MTL
{
_MTL_OPTIONS(NS::UInteger, FunctionOptions) {
FunctionOptionNone = 0,
FunctionOptionCompileToBinary = 1,
FunctionOptionStoreFunctionInMetalScript = 2,
};
class FunctionDescriptor : public NS::Copying<FunctionDescriptor>
{
public:
static class FunctionDescriptor* alloc();
class FunctionDescriptor* init();
static class FunctionDescriptor* functionDescriptor();
NS::String* name() const;
void setName(const NS::String* name);
NS::String* specializedName() const;
void setSpecializedName(const NS::String* specializedName);
class FunctionConstantValues* constantValues() const;
void setConstantValues(const class FunctionConstantValues* constantValues);
MTL::FunctionOptions options() const;
void setOptions(MTL::FunctionOptions options);
NS::Array* binaryArchives() const;
void setBinaryArchives(const NS::Array* binaryArchives);
};
class IntersectionFunctionDescriptor : public NS::Copying<IntersectionFunctionDescriptor, MTL::FunctionDescriptor>
{
public:
static class IntersectionFunctionDescriptor* alloc();
class IntersectionFunctionDescriptor* init();
};
}
// static method: alloc
_MTL_INLINE MTL::FunctionDescriptor* MTL::FunctionDescriptor::alloc()
{
return NS::Object::alloc<MTL::FunctionDescriptor>(_MTL_PRIVATE_CLS(MTLFunctionDescriptor));
}
// method: init
_MTL_INLINE MTL::FunctionDescriptor* MTL::FunctionDescriptor::init()
{
return NS::Object::init<MTL::FunctionDescriptor>();
}
// static method: functionDescriptor
_MTL_INLINE MTL::FunctionDescriptor* MTL::FunctionDescriptor::functionDescriptor()
{
return Object::sendMessage<MTL::FunctionDescriptor*>(_MTL_PRIVATE_CLS(MTLFunctionDescriptor), _MTL_PRIVATE_SEL(functionDescriptor));
}
// property: name
_MTL_INLINE NS::String* MTL::FunctionDescriptor::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
_MTL_INLINE void MTL::FunctionDescriptor::setName(const NS::String* name)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setName_), name);
}
// property: specializedName
_MTL_INLINE NS::String* MTL::FunctionDescriptor::specializedName() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(specializedName));
}
_MTL_INLINE void MTL::FunctionDescriptor::setSpecializedName(const NS::String* specializedName)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSpecializedName_), specializedName);
}
// property: constantValues
_MTL_INLINE MTL::FunctionConstantValues* MTL::FunctionDescriptor::constantValues() const
{
return Object::sendMessage<MTL::FunctionConstantValues*>(this, _MTL_PRIVATE_SEL(constantValues));
}
_MTL_INLINE void MTL::FunctionDescriptor::setConstantValues(const MTL::FunctionConstantValues* constantValues)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setConstantValues_), constantValues);
}
// property: options
_MTL_INLINE MTL::FunctionOptions MTL::FunctionDescriptor::options() const
{
return Object::sendMessage<MTL::FunctionOptions>(this, _MTL_PRIVATE_SEL(options));
}
_MTL_INLINE void MTL::FunctionDescriptor::setOptions(MTL::FunctionOptions options)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOptions_), options);
}
// property: binaryArchives
_MTL_INLINE NS::Array* MTL::FunctionDescriptor::binaryArchives() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(binaryArchives));
}
_MTL_INLINE void MTL::FunctionDescriptor::setBinaryArchives(const NS::Array* binaryArchives)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBinaryArchives_), binaryArchives);
}
// static method: alloc
_MTL_INLINE MTL::IntersectionFunctionDescriptor* MTL::IntersectionFunctionDescriptor::alloc()
{
return NS::Object::alloc<MTL::IntersectionFunctionDescriptor>(_MTL_PRIVATE_CLS(MTLIntersectionFunctionDescriptor));
}
// method: init
_MTL_INLINE MTL::IntersectionFunctionDescriptor* MTL::IntersectionFunctionDescriptor::init()
{
return NS::Object::init<MTL::IntersectionFunctionDescriptor>();
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLFunctionHandle.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 "MTLLibrary.hpp"
namespace MTL
{
class FunctionHandle : public NS::Referencing<FunctionHandle>
{
public:
MTL::FunctionType functionType() const;
NS::String* name() const;
class Device* device() const;
};
}
// property: functionType
_MTL_INLINE MTL::FunctionType MTL::FunctionHandle::functionType() const
{
return Object::sendMessage<MTL::FunctionType>(this, _MTL_PRIVATE_SEL(functionType));
}
// property: name
_MTL_INLINE NS::String* MTL::FunctionHandle::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: device
_MTL_INLINE MTL::Device* MTL::FunctionHandle::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLFunctionLog.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 "MTLFunctionLog.hpp"
namespace MTL
{
_MTL_ENUM(NS::UInteger, FunctionLogType) {
FunctionLogTypeValidation = 0,
};
class LogContainer : public NS::Referencing<LogContainer, NS::FastEnumeration>
{
public:
};
class FunctionLogDebugLocation : public NS::Referencing<FunctionLogDebugLocation>
{
public:
NS::String* functionName() const;
NS::URL* URL() const;
NS::UInteger line() const;
NS::UInteger column() const;
};
class FunctionLog : public NS::Referencing<FunctionLog>
{
public:
MTL::FunctionLogType type() const;
NS::String* encoderLabel() const;
class Function* function() const;
class FunctionLogDebugLocation* debugLocation() const;
};
}
// property: functionName
_MTL_INLINE NS::String* MTL::FunctionLogDebugLocation::functionName() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(functionName));
}
// property: URL
_MTL_INLINE NS::URL* MTL::FunctionLogDebugLocation::URL() const
{
return Object::sendMessage<NS::URL*>(this, _MTL_PRIVATE_SEL(URL));
}
// property: line
_MTL_INLINE NS::UInteger MTL::FunctionLogDebugLocation::line() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(line));
}
// property: column
_MTL_INLINE NS::UInteger MTL::FunctionLogDebugLocation::column() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(column));
}
// property: type
_MTL_INLINE MTL::FunctionLogType MTL::FunctionLog::type() const
{
return Object::sendMessage<MTL::FunctionLogType>(this, _MTL_PRIVATE_SEL(type));
}
// property: encoderLabel
_MTL_INLINE NS::String* MTL::FunctionLog::encoderLabel() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(encoderLabel));
}
// property: function
_MTL_INLINE MTL::Function* MTL::FunctionLog::function() const
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(function));
}
// property: debugLocation
_MTL_INLINE MTL::FunctionLogDebugLocation* MTL::FunctionLog::debugLocation() const
{
return Object::sendMessage<MTL::FunctionLogDebugLocation*>(this, _MTL_PRIVATE_SEL(debugLocation));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLFunctionStitching.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 "MTLFunctionStitching.hpp"
namespace MTL
{
class FunctionStitchingAttribute : public NS::Referencing<FunctionStitchingAttribute>
{
public:
};
class FunctionStitchingAttributeAlwaysInline : public NS::Referencing<FunctionStitchingAttributeAlwaysInline, FunctionStitchingAttribute>
{
public:
static class FunctionStitchingAttributeAlwaysInline* alloc();
class FunctionStitchingAttributeAlwaysInline* init();
};
class FunctionStitchingNode : public NS::Copying<FunctionStitchingNode>
{
public:
};
class FunctionStitchingInputNode : public NS::Referencing<FunctionStitchingInputNode, FunctionStitchingNode>
{
public:
static class FunctionStitchingInputNode* alloc();
class FunctionStitchingInputNode* init();
NS::UInteger argumentIndex() const;
void setArgumentIndex(NS::UInteger argumentIndex);
MTL::FunctionStitchingInputNode* init(NS::UInteger argument);
};
class FunctionStitchingFunctionNode : public NS::Referencing<FunctionStitchingFunctionNode, FunctionStitchingNode>
{
public:
static class FunctionStitchingFunctionNode* alloc();
class FunctionStitchingFunctionNode* init();
NS::String* name() const;
void setName(const NS::String* name);
NS::Array* arguments() const;
void setArguments(const NS::Array* arguments);
NS::Array* controlDependencies() const;
void setControlDependencies(const NS::Array* controlDependencies);
MTL::FunctionStitchingFunctionNode* init(const NS::String* name, const NS::Array* arguments, const NS::Array* controlDependencies);
};
class FunctionStitchingGraph : public NS::Copying<FunctionStitchingGraph>
{
public:
static class FunctionStitchingGraph* alloc();
class FunctionStitchingGraph* init();
NS::String* functionName() const;
void setFunctionName(const NS::String* functionName);
NS::Array* nodes() const;
void setNodes(const NS::Array* nodes);
class FunctionStitchingFunctionNode* outputNode() const;
void setOutputNode(const class FunctionStitchingFunctionNode* outputNode);
NS::Array* attributes() const;
void setAttributes(const NS::Array* attributes);
MTL::FunctionStitchingGraph* init(const NS::String* functionName, const NS::Array* nodes, const class FunctionStitchingFunctionNode* outputNode, const NS::Array* attributes);
};
class StitchedLibraryDescriptor : public NS::Copying<StitchedLibraryDescriptor>
{
public:
static class StitchedLibraryDescriptor* alloc();
class StitchedLibraryDescriptor* init();
NS::Array* functionGraphs() const;
void setFunctionGraphs(const NS::Array* functionGraphs);
NS::Array* functions() const;
void setFunctions(const NS::Array* functions);
};
}
// static method: alloc
_MTL_INLINE MTL::FunctionStitchingAttributeAlwaysInline* MTL::FunctionStitchingAttributeAlwaysInline::alloc()
{
return NS::Object::alloc<MTL::FunctionStitchingAttributeAlwaysInline>(_MTL_PRIVATE_CLS(MTLFunctionStitchingAttributeAlwaysInline));
}
// method: init
_MTL_INLINE MTL::FunctionStitchingAttributeAlwaysInline* MTL::FunctionStitchingAttributeAlwaysInline::init()
{
return NS::Object::init<MTL::FunctionStitchingAttributeAlwaysInline>();
}
// static method: alloc
_MTL_INLINE MTL::FunctionStitchingInputNode* MTL::FunctionStitchingInputNode::alloc()
{
return NS::Object::alloc<MTL::FunctionStitchingInputNode>(_MTL_PRIVATE_CLS(MTLFunctionStitchingInputNode));
}
// method: init
_MTL_INLINE MTL::FunctionStitchingInputNode* MTL::FunctionStitchingInputNode::init()
{
return NS::Object::init<MTL::FunctionStitchingInputNode>();
}
// property: argumentIndex
_MTL_INLINE NS::UInteger MTL::FunctionStitchingInputNode::argumentIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(argumentIndex));
}
_MTL_INLINE void MTL::FunctionStitchingInputNode::setArgumentIndex(NS::UInteger argumentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setArgumentIndex_), argumentIndex);
}
// method: initWithArgumentIndex:
_MTL_INLINE MTL::FunctionStitchingInputNode* MTL::FunctionStitchingInputNode::init(NS::UInteger argument)
{
return Object::sendMessage<MTL::FunctionStitchingInputNode*>(this, _MTL_PRIVATE_SEL(initWithArgumentIndex_), argument);
}
// static method: alloc
_MTL_INLINE MTL::FunctionStitchingFunctionNode* MTL::FunctionStitchingFunctionNode::alloc()
{
return NS::Object::alloc<MTL::FunctionStitchingFunctionNode>(_MTL_PRIVATE_CLS(MTLFunctionStitchingFunctionNode));
}
// method: init
_MTL_INLINE MTL::FunctionStitchingFunctionNode* MTL::FunctionStitchingFunctionNode::init()
{
return NS::Object::init<MTL::FunctionStitchingFunctionNode>();
}
// property: name
_MTL_INLINE NS::String* MTL::FunctionStitchingFunctionNode::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
_MTL_INLINE void MTL::FunctionStitchingFunctionNode::setName(const NS::String* name)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setName_), name);
}
// property: arguments
_MTL_INLINE NS::Array* MTL::FunctionStitchingFunctionNode::arguments() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(arguments));
}
_MTL_INLINE void MTL::FunctionStitchingFunctionNode::setArguments(const NS::Array* arguments)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setArguments_), arguments);
}
// property: controlDependencies
_MTL_INLINE NS::Array* MTL::FunctionStitchingFunctionNode::controlDependencies() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(controlDependencies));
}
_MTL_INLINE void MTL::FunctionStitchingFunctionNode::setControlDependencies(const NS::Array* controlDependencies)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setControlDependencies_), controlDependencies);
}
// method: initWithName:arguments:controlDependencies:
_MTL_INLINE MTL::FunctionStitchingFunctionNode* MTL::FunctionStitchingFunctionNode::init(const NS::String* name, const NS::Array* arguments, const NS::Array* controlDependencies)
{
return Object::sendMessage<MTL::FunctionStitchingFunctionNode*>(this, _MTL_PRIVATE_SEL(initWithName_arguments_controlDependencies_), name, arguments, controlDependencies);
}
// static method: alloc
_MTL_INLINE MTL::FunctionStitchingGraph* MTL::FunctionStitchingGraph::alloc()
{
return NS::Object::alloc<MTL::FunctionStitchingGraph>(_MTL_PRIVATE_CLS(MTLFunctionStitchingGraph));
}
// method: init
_MTL_INLINE MTL::FunctionStitchingGraph* MTL::FunctionStitchingGraph::init()
{
return NS::Object::init<MTL::FunctionStitchingGraph>();
}
// property: functionName
_MTL_INLINE NS::String* MTL::FunctionStitchingGraph::functionName() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(functionName));
}
_MTL_INLINE void MTL::FunctionStitchingGraph::setFunctionName(const NS::String* functionName)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunctionName_), functionName);
}
// property: nodes
_MTL_INLINE NS::Array* MTL::FunctionStitchingGraph::nodes() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(nodes));
}
_MTL_INLINE void MTL::FunctionStitchingGraph::setNodes(const NS::Array* nodes)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setNodes_), nodes);
}
// property: outputNode
_MTL_INLINE MTL::FunctionStitchingFunctionNode* MTL::FunctionStitchingGraph::outputNode() const
{
return Object::sendMessage<MTL::FunctionStitchingFunctionNode*>(this, _MTL_PRIVATE_SEL(outputNode));
}
_MTL_INLINE void MTL::FunctionStitchingGraph::setOutputNode(const MTL::FunctionStitchingFunctionNode* outputNode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOutputNode_), outputNode);
}
// property: attributes
_MTL_INLINE NS::Array* MTL::FunctionStitchingGraph::attributes() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(attributes));
}
_MTL_INLINE void MTL::FunctionStitchingGraph::setAttributes(const NS::Array* attributes)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAttributes_), attributes);
}
// method: initWithFunctionName:nodes:outputNode:attributes:
_MTL_INLINE MTL::FunctionStitchingGraph* MTL::FunctionStitchingGraph::init(const NS::String* functionName, const NS::Array* nodes, const MTL::FunctionStitchingFunctionNode* outputNode, const NS::Array* attributes)
{
return Object::sendMessage<MTL::FunctionStitchingGraph*>(this, _MTL_PRIVATE_SEL(initWithFunctionName_nodes_outputNode_attributes_), functionName, nodes, outputNode, attributes);
}
// static method: alloc
_MTL_INLINE MTL::StitchedLibraryDescriptor* MTL::StitchedLibraryDescriptor::alloc()
{
return NS::Object::alloc<MTL::StitchedLibraryDescriptor>(_MTL_PRIVATE_CLS(MTLStitchedLibraryDescriptor));
}
// method: init
_MTL_INLINE MTL::StitchedLibraryDescriptor* MTL::StitchedLibraryDescriptor::init()
{
return NS::Object::init<MTL::StitchedLibraryDescriptor>();
}
// property: functionGraphs
_MTL_INLINE NS::Array* MTL::StitchedLibraryDescriptor::functionGraphs() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(functionGraphs));
}
_MTL_INLINE void MTL::StitchedLibraryDescriptor::setFunctionGraphs(const NS::Array* functionGraphs)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunctionGraphs_), functionGraphs);
}
// property: functions
_MTL_INLINE NS::Array* MTL::StitchedLibraryDescriptor::functions() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(functions));
}
_MTL_INLINE void MTL::StitchedLibraryDescriptor::setFunctions(const NS::Array* functions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunctions_), functions);
}

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externals/metal-cpp/Metal/MTLHeap.hpp vendored Normal file
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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLHeap.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 "MTLDevice.hpp"
#include "MTLHeap.hpp"
#include "MTLResource.hpp"
namespace MTL
{
_MTL_ENUM(NS::Integer, HeapType) {
HeapTypeAutomatic = 0,
HeapTypePlacement = 1,
HeapTypeSparse = 2,
};
class HeapDescriptor : public NS::Copying<HeapDescriptor>
{
public:
static class HeapDescriptor* alloc();
class HeapDescriptor* init();
NS::UInteger size() const;
void setSize(NS::UInteger size);
MTL::StorageMode storageMode() const;
void setStorageMode(MTL::StorageMode storageMode);
MTL::CPUCacheMode cpuCacheMode() const;
void setCpuCacheMode(MTL::CPUCacheMode cpuCacheMode);
MTL::SparsePageSize sparsePageSize() const;
void setSparsePageSize(MTL::SparsePageSize sparsePageSize);
MTL::HazardTrackingMode hazardTrackingMode() const;
void setHazardTrackingMode(MTL::HazardTrackingMode hazardTrackingMode);
MTL::ResourceOptions resourceOptions() const;
void setResourceOptions(MTL::ResourceOptions resourceOptions);
MTL::HeapType type() const;
void setType(MTL::HeapType type);
};
class Heap : public NS::Referencing<Heap>
{
public:
NS::String* label() const;
void setLabel(const NS::String* label);
class Device* device() const;
MTL::StorageMode storageMode() const;
MTL::CPUCacheMode cpuCacheMode() const;
MTL::HazardTrackingMode hazardTrackingMode() const;
MTL::ResourceOptions resourceOptions() const;
NS::UInteger size() const;
NS::UInteger usedSize() const;
NS::UInteger currentAllocatedSize() const;
NS::UInteger maxAvailableSize(NS::UInteger alignment);
class Buffer* newBuffer(NS::UInteger length, MTL::ResourceOptions options);
class Texture* newTexture(const class TextureDescriptor* descriptor);
MTL::PurgeableState setPurgeableState(MTL::PurgeableState state);
MTL::HeapType type() const;
class Buffer* newBuffer(NS::UInteger length, MTL::ResourceOptions options, NS::UInteger offset);
class Texture* newTexture(const class TextureDescriptor* descriptor, NS::UInteger offset);
class AccelerationStructure* newAccelerationStructure(NS::UInteger size);
class AccelerationStructure* newAccelerationStructure(const class AccelerationStructureDescriptor* descriptor);
class AccelerationStructure* newAccelerationStructure(NS::UInteger size, NS::UInteger offset);
class AccelerationStructure* newAccelerationStructure(const class AccelerationStructureDescriptor* descriptor, NS::UInteger offset);
};
}
// static method: alloc
_MTL_INLINE MTL::HeapDescriptor* MTL::HeapDescriptor::alloc()
{
return NS::Object::alloc<MTL::HeapDescriptor>(_MTL_PRIVATE_CLS(MTLHeapDescriptor));
}
// method: init
_MTL_INLINE MTL::HeapDescriptor* MTL::HeapDescriptor::init()
{
return NS::Object::init<MTL::HeapDescriptor>();
}
// property: size
_MTL_INLINE NS::UInteger MTL::HeapDescriptor::size() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(size));
}
_MTL_INLINE void MTL::HeapDescriptor::setSize(NS::UInteger size)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSize_), size);
}
// property: storageMode
_MTL_INLINE MTL::StorageMode MTL::HeapDescriptor::storageMode() const
{
return Object::sendMessage<MTL::StorageMode>(this, _MTL_PRIVATE_SEL(storageMode));
}
_MTL_INLINE void MTL::HeapDescriptor::setStorageMode(MTL::StorageMode storageMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStorageMode_), storageMode);
}
// property: cpuCacheMode
_MTL_INLINE MTL::CPUCacheMode MTL::HeapDescriptor::cpuCacheMode() const
{
return Object::sendMessage<MTL::CPUCacheMode>(this, _MTL_PRIVATE_SEL(cpuCacheMode));
}
_MTL_INLINE void MTL::HeapDescriptor::setCpuCacheMode(MTL::CPUCacheMode cpuCacheMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setCpuCacheMode_), cpuCacheMode);
}
// property: sparsePageSize
_MTL_INLINE MTL::SparsePageSize MTL::HeapDescriptor::sparsePageSize() const
{
return Object::sendMessage<MTL::SparsePageSize>(this, _MTL_PRIVATE_SEL(sparsePageSize));
}
_MTL_INLINE void MTL::HeapDescriptor::setSparsePageSize(MTL::SparsePageSize sparsePageSize)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSparsePageSize_), sparsePageSize);
}
// property: hazardTrackingMode
_MTL_INLINE MTL::HazardTrackingMode MTL::HeapDescriptor::hazardTrackingMode() const
{
return Object::sendMessage<MTL::HazardTrackingMode>(this, _MTL_PRIVATE_SEL(hazardTrackingMode));
}
_MTL_INLINE void MTL::HeapDescriptor::setHazardTrackingMode(MTL::HazardTrackingMode hazardTrackingMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setHazardTrackingMode_), hazardTrackingMode);
}
// property: resourceOptions
_MTL_INLINE MTL::ResourceOptions MTL::HeapDescriptor::resourceOptions() const
{
return Object::sendMessage<MTL::ResourceOptions>(this, _MTL_PRIVATE_SEL(resourceOptions));
}
_MTL_INLINE void MTL::HeapDescriptor::setResourceOptions(MTL::ResourceOptions resourceOptions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setResourceOptions_), resourceOptions);
}
// property: type
_MTL_INLINE MTL::HeapType MTL::HeapDescriptor::type() const
{
return Object::sendMessage<MTL::HeapType>(this, _MTL_PRIVATE_SEL(type));
}
_MTL_INLINE void MTL::HeapDescriptor::setType(MTL::HeapType type)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setType_), type);
}
// property: label
_MTL_INLINE NS::String* MTL::Heap::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::Heap::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: device
_MTL_INLINE MTL::Device* MTL::Heap::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: storageMode
_MTL_INLINE MTL::StorageMode MTL::Heap::storageMode() const
{
return Object::sendMessage<MTL::StorageMode>(this, _MTL_PRIVATE_SEL(storageMode));
}
// property: cpuCacheMode
_MTL_INLINE MTL::CPUCacheMode MTL::Heap::cpuCacheMode() const
{
return Object::sendMessage<MTL::CPUCacheMode>(this, _MTL_PRIVATE_SEL(cpuCacheMode));
}
// property: hazardTrackingMode
_MTL_INLINE MTL::HazardTrackingMode MTL::Heap::hazardTrackingMode() const
{
return Object::sendMessage<MTL::HazardTrackingMode>(this, _MTL_PRIVATE_SEL(hazardTrackingMode));
}
// property: resourceOptions
_MTL_INLINE MTL::ResourceOptions MTL::Heap::resourceOptions() const
{
return Object::sendMessage<MTL::ResourceOptions>(this, _MTL_PRIVATE_SEL(resourceOptions));
}
// property: size
_MTL_INLINE NS::UInteger MTL::Heap::size() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(size));
}
// property: usedSize
_MTL_INLINE NS::UInteger MTL::Heap::usedSize() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(usedSize));
}
// property: currentAllocatedSize
_MTL_INLINE NS::UInteger MTL::Heap::currentAllocatedSize() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(currentAllocatedSize));
}
// method: maxAvailableSizeWithAlignment:
_MTL_INLINE NS::UInteger MTL::Heap::maxAvailableSize(NS::UInteger alignment)
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxAvailableSizeWithAlignment_), alignment);
}
// method: newBufferWithLength:options:
_MTL_INLINE MTL::Buffer* MTL::Heap::newBuffer(NS::UInteger length, MTL::ResourceOptions options)
{
return Object::sendMessage<MTL::Buffer*>(this, _MTL_PRIVATE_SEL(newBufferWithLength_options_), length, options);
}
// method: newTextureWithDescriptor:
_MTL_INLINE MTL::Texture* MTL::Heap::newTexture(const MTL::TextureDescriptor* descriptor)
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(newTextureWithDescriptor_), descriptor);
}
// method: setPurgeableState:
_MTL_INLINE MTL::PurgeableState MTL::Heap::setPurgeableState(MTL::PurgeableState state)
{
return Object::sendMessage<MTL::PurgeableState>(this, _MTL_PRIVATE_SEL(setPurgeableState_), state);
}
// property: type
_MTL_INLINE MTL::HeapType MTL::Heap::type() const
{
return Object::sendMessage<MTL::HeapType>(this, _MTL_PRIVATE_SEL(type));
}
// method: newBufferWithLength:options:offset:
_MTL_INLINE MTL::Buffer* MTL::Heap::newBuffer(NS::UInteger length, MTL::ResourceOptions options, NS::UInteger offset)
{
return Object::sendMessage<MTL::Buffer*>(this, _MTL_PRIVATE_SEL(newBufferWithLength_options_offset_), length, options, offset);
}
// method: newTextureWithDescriptor:offset:
_MTL_INLINE MTL::Texture* MTL::Heap::newTexture(const MTL::TextureDescriptor* descriptor, NS::UInteger offset)
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(newTextureWithDescriptor_offset_), descriptor, offset);
}
// method: newAccelerationStructureWithSize:
_MTL_INLINE MTL::AccelerationStructure* MTL::Heap::newAccelerationStructure(NS::UInteger size)
{
return Object::sendMessage<MTL::AccelerationStructure*>(this, _MTL_PRIVATE_SEL(newAccelerationStructureWithSize_), size);
}
// method: newAccelerationStructureWithDescriptor:
_MTL_INLINE MTL::AccelerationStructure* MTL::Heap::newAccelerationStructure(const MTL::AccelerationStructureDescriptor* descriptor)
{
return Object::sendMessage<MTL::AccelerationStructure*>(this, _MTL_PRIVATE_SEL(newAccelerationStructureWithDescriptor_), descriptor);
}
// method: newAccelerationStructureWithSize:offset:
_MTL_INLINE MTL::AccelerationStructure* MTL::Heap::newAccelerationStructure(NS::UInteger size, NS::UInteger offset)
{
return Object::sendMessage<MTL::AccelerationStructure*>(this, _MTL_PRIVATE_SEL(newAccelerationStructureWithSize_offset_), size, offset);
}
// method: newAccelerationStructureWithDescriptor:offset:
_MTL_INLINE MTL::AccelerationStructure* MTL::Heap::newAccelerationStructure(const MTL::AccelerationStructureDescriptor* descriptor, NS::UInteger offset)
{
return Object::sendMessage<MTL::AccelerationStructure*>(this, _MTL_PRIVATE_SEL(newAccelerationStructureWithDescriptor_offset_), descriptor, offset);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLIOCommandBuffer.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 "MTLIOCommandBuffer.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
_MTL_ENUM(NS::Integer, IOStatus) {
IOStatusPending = 0,
IOStatusCancelled = 1,
IOStatusError = 2,
IOStatusComplete = 3,
};
using IOCommandBufferHandler = void (^)(class IOCommandBuffer*);
using IOCommandBufferHandlerFunction = std::function<void(class IOCommandBuffer*)>;
class IOCommandBuffer : public NS::Referencing<IOCommandBuffer>
{
public:
void addCompletedHandler(const MTL::IOCommandBufferHandlerFunction& function);
void addCompletedHandler(const MTL::IOCommandBufferHandler block);
void loadBytes(const void* pointer, NS::UInteger size, const class IOFileHandle* sourceHandle, NS::UInteger sourceHandleOffset);
void loadBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger size, const class IOFileHandle* sourceHandle, NS::UInteger sourceHandleOffset);
void loadTexture(const class Texture* texture, NS::UInteger slice, NS::UInteger level, MTL::Size size, NS::UInteger sourceBytesPerRow, NS::UInteger sourceBytesPerImage, MTL::Origin destinationOrigin, const class IOFileHandle* sourceHandle, NS::UInteger sourceHandleOffset);
void copyStatusToBuffer(const class Buffer* buffer, NS::UInteger offset);
void commit();
void waitUntilCompleted();
void tryCancel();
void addBarrier();
void pushDebugGroup(const NS::String* string);
void popDebugGroup();
void enqueue();
void wait(const class SharedEvent* event, uint64_t value);
void signalEvent(const class SharedEvent* event, uint64_t value);
NS::String* label() const;
void setLabel(const NS::String* label);
MTL::IOStatus status() const;
NS::Error* error() const;
};
}
_MTL_INLINE void MTL::IOCommandBuffer::addCompletedHandler(const MTL::IOCommandBufferHandlerFunction& function)
{
__block IOCommandBufferHandlerFunction blockFunction = function;
addCompletedHandler(^(IOCommandBuffer* pCommandBuffer) { blockFunction(pCommandBuffer); });
}
// method: addCompletedHandler:
_MTL_INLINE void MTL::IOCommandBuffer::addCompletedHandler(const MTL::IOCommandBufferHandler block)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(addCompletedHandler_), block);
}
// method: loadBytes:size:sourceHandle:sourceHandleOffset:
_MTL_INLINE void MTL::IOCommandBuffer::loadBytes(const void* pointer, NS::UInteger size, const MTL::IOFileHandle* sourceHandle, NS::UInteger sourceHandleOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(loadBytes_size_sourceHandle_sourceHandleOffset_), pointer, size, sourceHandle, sourceHandleOffset);
}
// method: loadBuffer:offset:size:sourceHandle:sourceHandleOffset:
_MTL_INLINE void MTL::IOCommandBuffer::loadBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger size, const MTL::IOFileHandle* sourceHandle, NS::UInteger sourceHandleOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(loadBuffer_offset_size_sourceHandle_sourceHandleOffset_), buffer, offset, size, sourceHandle, sourceHandleOffset);
}
// method: loadTexture:slice:level:size:sourceBytesPerRow:sourceBytesPerImage:destinationOrigin:sourceHandle:sourceHandleOffset:
_MTL_INLINE void MTL::IOCommandBuffer::loadTexture(const MTL::Texture* texture, NS::UInteger slice, NS::UInteger level, MTL::Size size, NS::UInteger sourceBytesPerRow, NS::UInteger sourceBytesPerImage, MTL::Origin destinationOrigin, const MTL::IOFileHandle* sourceHandle, NS::UInteger sourceHandleOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(loadTexture_slice_level_size_sourceBytesPerRow_sourceBytesPerImage_destinationOrigin_sourceHandle_sourceHandleOffset_), texture, slice, level, size, sourceBytesPerRow, sourceBytesPerImage, destinationOrigin, sourceHandle, sourceHandleOffset);
}
// method: copyStatusToBuffer:offset:
_MTL_INLINE void MTL::IOCommandBuffer::copyStatusToBuffer(const MTL::Buffer* buffer, NS::UInteger offset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyStatusToBuffer_offset_), buffer, offset);
}
// method: commit
_MTL_INLINE void MTL::IOCommandBuffer::commit()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(commit));
}
// method: waitUntilCompleted
_MTL_INLINE void MTL::IOCommandBuffer::waitUntilCompleted()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(waitUntilCompleted));
}
// method: tryCancel
_MTL_INLINE void MTL::IOCommandBuffer::tryCancel()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(tryCancel));
}
// method: addBarrier
_MTL_INLINE void MTL::IOCommandBuffer::addBarrier()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(addBarrier));
}
// method: pushDebugGroup:
_MTL_INLINE void MTL::IOCommandBuffer::pushDebugGroup(const NS::String* string)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(pushDebugGroup_), string);
}
// method: popDebugGroup
_MTL_INLINE void MTL::IOCommandBuffer::popDebugGroup()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(popDebugGroup));
}
// method: enqueue
_MTL_INLINE void MTL::IOCommandBuffer::enqueue()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(enqueue));
}
// method: waitForEvent:value:
_MTL_INLINE void MTL::IOCommandBuffer::wait(const MTL::SharedEvent* event, uint64_t value)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(waitForEvent_value_), event, value);
}
// method: signalEvent:value:
_MTL_INLINE void MTL::IOCommandBuffer::signalEvent(const MTL::SharedEvent* event, uint64_t value)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(signalEvent_value_), event, value);
}
// property: label
_MTL_INLINE NS::String* MTL::IOCommandBuffer::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::IOCommandBuffer::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: status
_MTL_INLINE MTL::IOStatus MTL::IOCommandBuffer::status() const
{
return Object::sendMessage<MTL::IOStatus>(this, _MTL_PRIVATE_SEL(status));
}
// property: error
_MTL_INLINE NS::Error* MTL::IOCommandBuffer::error() const
{
return Object::sendMessage<NS::Error*>(this, _MTL_PRIVATE_SEL(error));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLIOCommandQueue.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 "MTLIOCommandQueue.hpp"
namespace MTL
{
_MTL_ENUM(NS::Integer, IOPriority) {
IOPriorityHigh = 0,
IOPriorityNormal = 1,
IOPriorityLow = 2,
};
_MTL_ENUM(NS::Integer, IOCommandQueueType) {
IOCommandQueueTypeConcurrent = 0,
IOCommandQueueTypeSerial = 1,
};
_MTL_CONST(NS::ErrorDomain, IOErrorDomain);
_MTL_ENUM(NS::Integer, IOError) {
IOErrorURLInvalid = 1,
IOErrorInternal = 2,
};
class IOCommandQueue : public NS::Referencing<IOCommandQueue>
{
public:
void enqueueBarrier();
class IOCommandBuffer* commandBuffer();
class IOCommandBuffer* commandBufferWithUnretainedReferences();
NS::String* label() const;
void setLabel(const NS::String* label);
};
class IOScratchBuffer : public NS::Referencing<IOScratchBuffer>
{
public:
class Buffer* buffer() const;
};
class IOScratchBufferAllocator : public NS::Referencing<IOScratchBufferAllocator>
{
public:
class IOScratchBuffer* newScratchBuffer(NS::UInteger minimumSize);
};
class IOCommandQueueDescriptor : public NS::Copying<IOCommandQueueDescriptor>
{
public:
static class IOCommandQueueDescriptor* alloc();
class IOCommandQueueDescriptor* init();
NS::UInteger maxCommandBufferCount() const;
void setMaxCommandBufferCount(NS::UInteger maxCommandBufferCount);
MTL::IOPriority priority() const;
void setPriority(MTL::IOPriority priority);
MTL::IOCommandQueueType type() const;
void setType(MTL::IOCommandQueueType type);
NS::UInteger maxCommandsInFlight() const;
void setMaxCommandsInFlight(NS::UInteger maxCommandsInFlight);
class IOScratchBufferAllocator* scratchBufferAllocator() const;
void setScratchBufferAllocator(const class IOScratchBufferAllocator* scratchBufferAllocator);
};
class IOFileHandle : public NS::Referencing<IOFileHandle>
{
public:
NS::String* label() const;
void setLabel(const NS::String* label);
};
}
// method: enqueueBarrier
_MTL_INLINE void MTL::IOCommandQueue::enqueueBarrier()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(enqueueBarrier));
}
// method: commandBuffer
_MTL_INLINE MTL::IOCommandBuffer* MTL::IOCommandQueue::commandBuffer()
{
return Object::sendMessage<MTL::IOCommandBuffer*>(this, _MTL_PRIVATE_SEL(commandBuffer));
}
// method: commandBufferWithUnretainedReferences
_MTL_INLINE MTL::IOCommandBuffer* MTL::IOCommandQueue::commandBufferWithUnretainedReferences()
{
return Object::sendMessage<MTL::IOCommandBuffer*>(this, _MTL_PRIVATE_SEL(commandBufferWithUnretainedReferences));
}
// property: label
_MTL_INLINE NS::String* MTL::IOCommandQueue::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::IOCommandQueue::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: buffer
_MTL_INLINE MTL::Buffer* MTL::IOScratchBuffer::buffer() const
{
return Object::sendMessage<MTL::Buffer*>(this, _MTL_PRIVATE_SEL(buffer));
}
// method: newScratchBufferWithMinimumSize:
_MTL_INLINE MTL::IOScratchBuffer* MTL::IOScratchBufferAllocator::newScratchBuffer(NS::UInteger minimumSize)
{
return Object::sendMessage<MTL::IOScratchBuffer*>(this, _MTL_PRIVATE_SEL(newScratchBufferWithMinimumSize_), minimumSize);
}
// static method: alloc
_MTL_INLINE MTL::IOCommandQueueDescriptor* MTL::IOCommandQueueDescriptor::alloc()
{
return NS::Object::alloc<MTL::IOCommandQueueDescriptor>(_MTL_PRIVATE_CLS(MTLIOCommandQueueDescriptor));
}
// method: init
_MTL_INLINE MTL::IOCommandQueueDescriptor* MTL::IOCommandQueueDescriptor::init()
{
return NS::Object::init<MTL::IOCommandQueueDescriptor>();
}
// property: maxCommandBufferCount
_MTL_INLINE NS::UInteger MTL::IOCommandQueueDescriptor::maxCommandBufferCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxCommandBufferCount));
}
_MTL_INLINE void MTL::IOCommandQueueDescriptor::setMaxCommandBufferCount(NS::UInteger maxCommandBufferCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxCommandBufferCount_), maxCommandBufferCount);
}
// property: priority
_MTL_INLINE MTL::IOPriority MTL::IOCommandQueueDescriptor::priority() const
{
return Object::sendMessage<MTL::IOPriority>(this, _MTL_PRIVATE_SEL(priority));
}
_MTL_INLINE void MTL::IOCommandQueueDescriptor::setPriority(MTL::IOPriority priority)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPriority_), priority);
}
// property: type
_MTL_INLINE MTL::IOCommandQueueType MTL::IOCommandQueueDescriptor::type() const
{
return Object::sendMessage<MTL::IOCommandQueueType>(this, _MTL_PRIVATE_SEL(type));
}
_MTL_INLINE void MTL::IOCommandQueueDescriptor::setType(MTL::IOCommandQueueType type)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setType_), type);
}
// property: maxCommandsInFlight
_MTL_INLINE NS::UInteger MTL::IOCommandQueueDescriptor::maxCommandsInFlight() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxCommandsInFlight));
}
_MTL_INLINE void MTL::IOCommandQueueDescriptor::setMaxCommandsInFlight(NS::UInteger maxCommandsInFlight)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxCommandsInFlight_), maxCommandsInFlight);
}
// property: scratchBufferAllocator
_MTL_INLINE MTL::IOScratchBufferAllocator* MTL::IOCommandQueueDescriptor::scratchBufferAllocator() const
{
return Object::sendMessage<MTL::IOScratchBufferAllocator*>(this, _MTL_PRIVATE_SEL(scratchBufferAllocator));
}
_MTL_INLINE void MTL::IOCommandQueueDescriptor::setScratchBufferAllocator(const MTL::IOScratchBufferAllocator* scratchBufferAllocator)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setScratchBufferAllocator_), scratchBufferAllocator);
}
// property: label
_MTL_INLINE NS::String* MTL::IOFileHandle::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::IOFileHandle::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLIOCompressor.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 "MTLDevice.hpp"
#include <Foundation/Foundation.hpp>
namespace MTL
{
using IOCompresionContext=void*;
_MTL_ENUM(NS::Integer, IOCompressionStatus) {
IOCompressionStatusComplete = 0,
IOCompressionStatusError = 1,
};
size_t IOCompressionContextDefaultChunkSize();
IOCompresionContext IOCreateCompressionContext(const char* path, IOCompressionMethod type, size_t chunkSize);
void IOCompressionContextAppendData(IOCompresionContext context, const void* data, size_t size);
IOCompressionStatus IOFlushAndDestroyCompressionContext(IOCompresionContext context);
}
#if defined(MTL_PRIVATE_IMPLEMENTATION)
namespace MTL::Private {
MTL_DEF_FUNC(MTLIOCompressionContextDefaultChunkSize, size_t (*)(void));
MTL_DEF_FUNC( MTLIOCreateCompressionContext, void* (*)(const char*, MTL::IOCompressionMethod, size_t) );
MTL_DEF_FUNC( MTLIOCompressionContextAppendData, void (*)(void*, const void*, size_t) );
MTL_DEF_FUNC( MTLIOFlushAndDestroyCompressionContext, MTL::IOCompressionStatus (*)(void*) );
}
_NS_EXPORT size_t MTL::IOCompressionContextDefaultChunkSize()
{
return MTL::Private::MTLIOCompressionContextDefaultChunkSize();
}
_NS_EXPORT void* MTL::IOCreateCompressionContext(const char* path, IOCompressionMethod type, size_t chunkSize)
{
if ( MTL::Private::MTLIOCreateCompressionContext )
{
return MTL::Private::MTLIOCreateCompressionContext( path, type, chunkSize );
}
return nullptr;
}
_NS_EXPORT void MTL::IOCompressionContextAppendData(void* context, const void* data, size_t size)
{
if ( MTL::Private::MTLIOCompressionContextAppendData )
{
MTL::Private::MTLIOCompressionContextAppendData( context, data, size );
}
}
_NS_EXPORT MTL::IOCompressionStatus MTL::IOFlushAndDestroyCompressionContext(void* context)
{
if ( MTL::Private::MTLIOFlushAndDestroyCompressionContext )
{
return MTL::Private::MTLIOFlushAndDestroyCompressionContext( context );
}
return MTL::IOCompressionStatusError;
}
#endif

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLIndirectCommandBuffer.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 "MTLIndirectCommandBuffer.hpp"
#include "MTLResource.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
_MTL_OPTIONS(NS::UInteger, IndirectCommandType) {
IndirectCommandTypeDraw = 1,
IndirectCommandTypeDrawIndexed = 2,
IndirectCommandTypeDrawPatches = 4,
IndirectCommandTypeDrawIndexedPatches = 8,
IndirectCommandTypeConcurrentDispatch = 32,
IndirectCommandTypeConcurrentDispatchThreads = 64,
IndirectCommandTypeDrawMeshThreadgroups = 128,
IndirectCommandTypeDrawMeshThreads = 256,
};
struct IndirectCommandBufferExecutionRange
{
uint32_t location;
uint32_t length;
} _MTL_PACKED;
class IndirectCommandBufferDescriptor : public NS::Copying<IndirectCommandBufferDescriptor>
{
public:
static class IndirectCommandBufferDescriptor* alloc();
class IndirectCommandBufferDescriptor* init();
MTL::IndirectCommandType commandTypes() const;
void setCommandTypes(MTL::IndirectCommandType commandTypes);
bool inheritPipelineState() const;
void setInheritPipelineState(bool inheritPipelineState);
bool inheritBuffers() const;
void setInheritBuffers(bool inheritBuffers);
NS::UInteger maxVertexBufferBindCount() const;
void setMaxVertexBufferBindCount(NS::UInteger maxVertexBufferBindCount);
NS::UInteger maxFragmentBufferBindCount() const;
void setMaxFragmentBufferBindCount(NS::UInteger maxFragmentBufferBindCount);
NS::UInteger maxKernelBufferBindCount() const;
void setMaxKernelBufferBindCount(NS::UInteger maxKernelBufferBindCount);
NS::UInteger maxKernelThreadgroupMemoryBindCount() const;
void setMaxKernelThreadgroupMemoryBindCount(NS::UInteger maxKernelThreadgroupMemoryBindCount);
NS::UInteger maxObjectBufferBindCount() const;
void setMaxObjectBufferBindCount(NS::UInteger maxObjectBufferBindCount);
NS::UInteger maxMeshBufferBindCount() const;
void setMaxMeshBufferBindCount(NS::UInteger maxMeshBufferBindCount);
NS::UInteger maxObjectThreadgroupMemoryBindCount() const;
void setMaxObjectThreadgroupMemoryBindCount(NS::UInteger maxObjectThreadgroupMemoryBindCount);
bool supportRayTracing() const;
void setSupportRayTracing(bool supportRayTracing);
bool supportDynamicAttributeStride() const;
void setSupportDynamicAttributeStride(bool supportDynamicAttributeStride);
};
class IndirectCommandBuffer : public NS::Referencing<IndirectCommandBuffer, Resource>
{
public:
NS::UInteger size() const;
MTL::ResourceID gpuResourceID() const;
void reset(NS::Range range);
class IndirectRenderCommand* indirectRenderCommand(NS::UInteger commandIndex);
class IndirectComputeCommand* indirectComputeCommand(NS::UInteger commandIndex);
};
}
// static method: alloc
_MTL_INLINE MTL::IndirectCommandBufferDescriptor* MTL::IndirectCommandBufferDescriptor::alloc()
{
return NS::Object::alloc<MTL::IndirectCommandBufferDescriptor>(_MTL_PRIVATE_CLS(MTLIndirectCommandBufferDescriptor));
}
// method: init
_MTL_INLINE MTL::IndirectCommandBufferDescriptor* MTL::IndirectCommandBufferDescriptor::init()
{
return NS::Object::init<MTL::IndirectCommandBufferDescriptor>();
}
// property: commandTypes
_MTL_INLINE MTL::IndirectCommandType MTL::IndirectCommandBufferDescriptor::commandTypes() const
{
return Object::sendMessage<MTL::IndirectCommandType>(this, _MTL_PRIVATE_SEL(commandTypes));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setCommandTypes(MTL::IndirectCommandType commandTypes)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setCommandTypes_), commandTypes);
}
// property: inheritPipelineState
_MTL_INLINE bool MTL::IndirectCommandBufferDescriptor::inheritPipelineState() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(inheritPipelineState));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setInheritPipelineState(bool inheritPipelineState)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setInheritPipelineState_), inheritPipelineState);
}
// property: inheritBuffers
_MTL_INLINE bool MTL::IndirectCommandBufferDescriptor::inheritBuffers() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(inheritBuffers));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setInheritBuffers(bool inheritBuffers)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setInheritBuffers_), inheritBuffers);
}
// property: maxVertexBufferBindCount
_MTL_INLINE NS::UInteger MTL::IndirectCommandBufferDescriptor::maxVertexBufferBindCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxVertexBufferBindCount));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setMaxVertexBufferBindCount(NS::UInteger maxVertexBufferBindCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxVertexBufferBindCount_), maxVertexBufferBindCount);
}
// property: maxFragmentBufferBindCount
_MTL_INLINE NS::UInteger MTL::IndirectCommandBufferDescriptor::maxFragmentBufferBindCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxFragmentBufferBindCount));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setMaxFragmentBufferBindCount(NS::UInteger maxFragmentBufferBindCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxFragmentBufferBindCount_), maxFragmentBufferBindCount);
}
// property: maxKernelBufferBindCount
_MTL_INLINE NS::UInteger MTL::IndirectCommandBufferDescriptor::maxKernelBufferBindCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxKernelBufferBindCount));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setMaxKernelBufferBindCount(NS::UInteger maxKernelBufferBindCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxKernelBufferBindCount_), maxKernelBufferBindCount);
}
// property: maxKernelThreadgroupMemoryBindCount
_MTL_INLINE NS::UInteger MTL::IndirectCommandBufferDescriptor::maxKernelThreadgroupMemoryBindCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxKernelThreadgroupMemoryBindCount));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setMaxKernelThreadgroupMemoryBindCount(NS::UInteger maxKernelThreadgroupMemoryBindCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxKernelThreadgroupMemoryBindCount_), maxKernelThreadgroupMemoryBindCount);
}
// property: maxObjectBufferBindCount
_MTL_INLINE NS::UInteger MTL::IndirectCommandBufferDescriptor::maxObjectBufferBindCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxObjectBufferBindCount));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setMaxObjectBufferBindCount(NS::UInteger maxObjectBufferBindCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxObjectBufferBindCount_), maxObjectBufferBindCount);
}
// property: maxMeshBufferBindCount
_MTL_INLINE NS::UInteger MTL::IndirectCommandBufferDescriptor::maxMeshBufferBindCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxMeshBufferBindCount));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setMaxMeshBufferBindCount(NS::UInteger maxMeshBufferBindCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxMeshBufferBindCount_), maxMeshBufferBindCount);
}
// property: maxObjectThreadgroupMemoryBindCount
_MTL_INLINE NS::UInteger MTL::IndirectCommandBufferDescriptor::maxObjectThreadgroupMemoryBindCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxObjectThreadgroupMemoryBindCount));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setMaxObjectThreadgroupMemoryBindCount(NS::UInteger maxObjectThreadgroupMemoryBindCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxObjectThreadgroupMemoryBindCount_), maxObjectThreadgroupMemoryBindCount);
}
// property: supportRayTracing
_MTL_INLINE bool MTL::IndirectCommandBufferDescriptor::supportRayTracing() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportRayTracing));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setSupportRayTracing(bool supportRayTracing)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportRayTracing_), supportRayTracing);
}
// property: supportDynamicAttributeStride
_MTL_INLINE bool MTL::IndirectCommandBufferDescriptor::supportDynamicAttributeStride() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportDynamicAttributeStride));
}
_MTL_INLINE void MTL::IndirectCommandBufferDescriptor::setSupportDynamicAttributeStride(bool supportDynamicAttributeStride)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportDynamicAttributeStride_), supportDynamicAttributeStride);
}
// property: size
_MTL_INLINE NS::UInteger MTL::IndirectCommandBuffer::size() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(size));
}
// property: gpuResourceID
_MTL_INLINE MTL::ResourceID MTL::IndirectCommandBuffer::gpuResourceID() const
{
return Object::sendMessage<MTL::ResourceID>(this, _MTL_PRIVATE_SEL(gpuResourceID));
}
// method: resetWithRange:
_MTL_INLINE void MTL::IndirectCommandBuffer::reset(NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(resetWithRange_), range);
}
// method: indirectRenderCommandAtIndex:
_MTL_INLINE MTL::IndirectRenderCommand* MTL::IndirectCommandBuffer::indirectRenderCommand(NS::UInteger commandIndex)
{
return Object::sendMessage<MTL::IndirectRenderCommand*>(this, _MTL_PRIVATE_SEL(indirectRenderCommandAtIndex_), commandIndex);
}
// method: indirectComputeCommandAtIndex:
_MTL_INLINE MTL::IndirectComputeCommand* MTL::IndirectCommandBuffer::indirectComputeCommand(NS::UInteger commandIndex)
{
return Object::sendMessage<MTL::IndirectComputeCommand*>(this, _MTL_PRIVATE_SEL(indirectComputeCommandAtIndex_), commandIndex);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLIndirectCommandEncoder.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 "MTLRenderCommandEncoder.hpp"
#include "MTLStageInputOutputDescriptor.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
class IndirectRenderCommand : public NS::Referencing<IndirectRenderCommand>
{
public:
void setRenderPipelineState(const class RenderPipelineState* pipelineState);
void setVertexBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger index);
void setFragmentBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger index);
void setVertexBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger stride, NS::UInteger index);
void drawPatches(NS::UInteger numberOfPatchControlPoints, NS::UInteger patchStart, NS::UInteger patchCount, const class Buffer* patchIndexBuffer, NS::UInteger patchIndexBufferOffset, NS::UInteger instanceCount, NS::UInteger baseInstance, const class Buffer* buffer, NS::UInteger offset, NS::UInteger instanceStride);
void drawIndexedPatches(NS::UInteger numberOfPatchControlPoints, NS::UInteger patchStart, NS::UInteger patchCount, const class Buffer* patchIndexBuffer, NS::UInteger patchIndexBufferOffset, const class Buffer* controlPointIndexBuffer, NS::UInteger controlPointIndexBufferOffset, NS::UInteger instanceCount, NS::UInteger baseInstance, const class Buffer* buffer, NS::UInteger offset, NS::UInteger instanceStride);
void drawPrimitives(MTL::PrimitiveType primitiveType, NS::UInteger vertexStart, NS::UInteger vertexCount, NS::UInteger instanceCount, NS::UInteger baseInstance);
void drawIndexedPrimitives(MTL::PrimitiveType primitiveType, NS::UInteger indexCount, MTL::IndexType indexType, const class Buffer* indexBuffer, NS::UInteger indexBufferOffset, NS::UInteger instanceCount, NS::Integer baseVertex, NS::UInteger baseInstance);
void setObjectThreadgroupMemoryLength(NS::UInteger length, NS::UInteger index);
void setObjectBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger index);
void setMeshBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger index);
void drawMeshThreadgroups(MTL::Size threadgroupsPerGrid, MTL::Size threadsPerObjectThreadgroup, MTL::Size threadsPerMeshThreadgroup);
void drawMeshThreads(MTL::Size threadsPerGrid, MTL::Size threadsPerObjectThreadgroup, MTL::Size threadsPerMeshThreadgroup);
void setBarrier();
void clearBarrier();
void reset();
};
class IndirectComputeCommand : public NS::Referencing<IndirectComputeCommand>
{
public:
void setComputePipelineState(const class ComputePipelineState* pipelineState);
void setKernelBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger index);
void setKernelBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger stride, NS::UInteger index);
void concurrentDispatchThreadgroups(MTL::Size threadgroupsPerGrid, MTL::Size threadsPerThreadgroup);
void concurrentDispatchThreads(MTL::Size threadsPerGrid, MTL::Size threadsPerThreadgroup);
void setBarrier();
void clearBarrier();
void setImageblockWidth(NS::UInteger width, NS::UInteger height);
void reset();
void setThreadgroupMemoryLength(NS::UInteger length, NS::UInteger index);
void setStageInRegion(MTL::Region region);
};
}
// method: setRenderPipelineState:
_MTL_INLINE void MTL::IndirectRenderCommand::setRenderPipelineState(const MTL::RenderPipelineState* pipelineState)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRenderPipelineState_), pipelineState);
}
// method: setVertexBuffer:offset:atIndex:
_MTL_INLINE void MTL::IndirectRenderCommand::setVertexBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVertexBuffer_offset_atIndex_), buffer, offset, index);
}
// method: setFragmentBuffer:offset:atIndex:
_MTL_INLINE void MTL::IndirectRenderCommand::setFragmentBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFragmentBuffer_offset_atIndex_), buffer, offset, index);
}
// method: setVertexBuffer:offset:attributeStride:atIndex:
_MTL_INLINE void MTL::IndirectRenderCommand::setVertexBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger stride, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVertexBuffer_offset_attributeStride_atIndex_), buffer, offset, stride, index);
}
// method: drawPatches:patchStart:patchCount:patchIndexBuffer:patchIndexBufferOffset:instanceCount:baseInstance:tessellationFactorBuffer:tessellationFactorBufferOffset:tessellationFactorBufferInstanceStride:
_MTL_INLINE void MTL::IndirectRenderCommand::drawPatches(NS::UInteger numberOfPatchControlPoints, NS::UInteger patchStart, NS::UInteger patchCount, const MTL::Buffer* patchIndexBuffer, NS::UInteger patchIndexBufferOffset, NS::UInteger instanceCount, NS::UInteger baseInstance, const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger instanceStride)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(drawPatches_patchStart_patchCount_patchIndexBuffer_patchIndexBufferOffset_instanceCount_baseInstance_tessellationFactorBuffer_tessellationFactorBufferOffset_tessellationFactorBufferInstanceStride_), numberOfPatchControlPoints, patchStart, patchCount, patchIndexBuffer, patchIndexBufferOffset, instanceCount, baseInstance, buffer, offset, instanceStride);
}
// method: drawIndexedPatches:patchStart:patchCount:patchIndexBuffer:patchIndexBufferOffset:controlPointIndexBuffer:controlPointIndexBufferOffset:instanceCount:baseInstance:tessellationFactorBuffer:tessellationFactorBufferOffset:tessellationFactorBufferInstanceStride:
_MTL_INLINE void MTL::IndirectRenderCommand::drawIndexedPatches(NS::UInteger numberOfPatchControlPoints, NS::UInteger patchStart, NS::UInteger patchCount, const MTL::Buffer* patchIndexBuffer, NS::UInteger patchIndexBufferOffset, const MTL::Buffer* controlPointIndexBuffer, NS::UInteger controlPointIndexBufferOffset, NS::UInteger instanceCount, NS::UInteger baseInstance, const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger instanceStride)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(drawIndexedPatches_patchStart_patchCount_patchIndexBuffer_patchIndexBufferOffset_controlPointIndexBuffer_controlPointIndexBufferOffset_instanceCount_baseInstance_tessellationFactorBuffer_tessellationFactorBufferOffset_tessellationFactorBufferInstanceStride_), numberOfPatchControlPoints, patchStart, patchCount, patchIndexBuffer, patchIndexBufferOffset, controlPointIndexBuffer, controlPointIndexBufferOffset, instanceCount, baseInstance, buffer, offset, instanceStride);
}
// method: drawPrimitives:vertexStart:vertexCount:instanceCount:baseInstance:
_MTL_INLINE void MTL::IndirectRenderCommand::drawPrimitives(MTL::PrimitiveType primitiveType, NS::UInteger vertexStart, NS::UInteger vertexCount, NS::UInteger instanceCount, NS::UInteger baseInstance)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(drawPrimitives_vertexStart_vertexCount_instanceCount_baseInstance_), primitiveType, vertexStart, vertexCount, instanceCount, baseInstance);
}
// method: drawIndexedPrimitives:indexCount:indexType:indexBuffer:indexBufferOffset:instanceCount:baseVertex:baseInstance:
_MTL_INLINE void MTL::IndirectRenderCommand::drawIndexedPrimitives(MTL::PrimitiveType primitiveType, NS::UInteger indexCount, MTL::IndexType indexType, const MTL::Buffer* indexBuffer, NS::UInteger indexBufferOffset, NS::UInteger instanceCount, NS::Integer baseVertex, NS::UInteger baseInstance)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(drawIndexedPrimitives_indexCount_indexType_indexBuffer_indexBufferOffset_instanceCount_baseVertex_baseInstance_), primitiveType, indexCount, indexType, indexBuffer, indexBufferOffset, instanceCount, baseVertex, baseInstance);
}
// method: setObjectThreadgroupMemoryLength:atIndex:
_MTL_INLINE void MTL::IndirectRenderCommand::setObjectThreadgroupMemoryLength(NS::UInteger length, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObjectThreadgroupMemoryLength_atIndex_), length, index);
}
// method: setObjectBuffer:offset:atIndex:
_MTL_INLINE void MTL::IndirectRenderCommand::setObjectBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObjectBuffer_offset_atIndex_), buffer, offset, index);
}
// method: setMeshBuffer:offset:atIndex:
_MTL_INLINE void MTL::IndirectRenderCommand::setMeshBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMeshBuffer_offset_atIndex_), buffer, offset, index);
}
// method: drawMeshThreadgroups:threadsPerObjectThreadgroup:threadsPerMeshThreadgroup:
_MTL_INLINE void MTL::IndirectRenderCommand::drawMeshThreadgroups(MTL::Size threadgroupsPerGrid, MTL::Size threadsPerObjectThreadgroup, MTL::Size threadsPerMeshThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(drawMeshThreadgroups_threadsPerObjectThreadgroup_threadsPerMeshThreadgroup_), threadgroupsPerGrid, threadsPerObjectThreadgroup, threadsPerMeshThreadgroup);
}
// method: drawMeshThreads:threadsPerObjectThreadgroup:threadsPerMeshThreadgroup:
_MTL_INLINE void MTL::IndirectRenderCommand::drawMeshThreads(MTL::Size threadsPerGrid, MTL::Size threadsPerObjectThreadgroup, MTL::Size threadsPerMeshThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(drawMeshThreads_threadsPerObjectThreadgroup_threadsPerMeshThreadgroup_), threadsPerGrid, threadsPerObjectThreadgroup, threadsPerMeshThreadgroup);
}
// method: setBarrier
_MTL_INLINE void MTL::IndirectRenderCommand::setBarrier()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBarrier));
}
// method: clearBarrier
_MTL_INLINE void MTL::IndirectRenderCommand::clearBarrier()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(clearBarrier));
}
// method: reset
_MTL_INLINE void MTL::IndirectRenderCommand::reset()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(reset));
}
// method: setComputePipelineState:
_MTL_INLINE void MTL::IndirectComputeCommand::setComputePipelineState(const MTL::ComputePipelineState* pipelineState)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setComputePipelineState_), pipelineState);
}
// method: setKernelBuffer:offset:atIndex:
_MTL_INLINE void MTL::IndirectComputeCommand::setKernelBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setKernelBuffer_offset_atIndex_), buffer, offset, index);
}
// method: setKernelBuffer:offset:attributeStride:atIndex:
_MTL_INLINE void MTL::IndirectComputeCommand::setKernelBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger stride, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setKernelBuffer_offset_attributeStride_atIndex_), buffer, offset, stride, index);
}
// method: concurrentDispatchThreadgroups:threadsPerThreadgroup:
_MTL_INLINE void MTL::IndirectComputeCommand::concurrentDispatchThreadgroups(MTL::Size threadgroupsPerGrid, MTL::Size threadsPerThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(concurrentDispatchThreadgroups_threadsPerThreadgroup_), threadgroupsPerGrid, threadsPerThreadgroup);
}
// method: concurrentDispatchThreads:threadsPerThreadgroup:
_MTL_INLINE void MTL::IndirectComputeCommand::concurrentDispatchThreads(MTL::Size threadsPerGrid, MTL::Size threadsPerThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(concurrentDispatchThreads_threadsPerThreadgroup_), threadsPerGrid, threadsPerThreadgroup);
}
// method: setBarrier
_MTL_INLINE void MTL::IndirectComputeCommand::setBarrier()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBarrier));
}
// method: clearBarrier
_MTL_INLINE void MTL::IndirectComputeCommand::clearBarrier()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(clearBarrier));
}
// method: setImageblockWidth:height:
_MTL_INLINE void MTL::IndirectComputeCommand::setImageblockWidth(NS::UInteger width, NS::UInteger height)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setImageblockWidth_height_), width, height);
}
// method: reset
_MTL_INLINE void MTL::IndirectComputeCommand::reset()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(reset));
}
// method: setThreadgroupMemoryLength:atIndex:
_MTL_INLINE void MTL::IndirectComputeCommand::setThreadgroupMemoryLength(NS::UInteger length, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setThreadgroupMemoryLength_atIndex_), length, index);
}
// method: setStageInRegion:
_MTL_INLINE void MTL::IndirectComputeCommand::setStageInRegion(MTL::Region region)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStageInRegion_), region);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLIntersectionFunctionTable.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 "MTLIntersectionFunctionTable.hpp"
#include "MTLResource.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
_MTL_OPTIONS(NS::UInteger, IntersectionFunctionSignature) {
IntersectionFunctionSignatureNone = 0,
IntersectionFunctionSignatureInstancing = 1,
IntersectionFunctionSignatureTriangleData = 2,
IntersectionFunctionSignatureWorldSpaceData = 4,
IntersectionFunctionSignatureInstanceMotion = 8,
IntersectionFunctionSignaturePrimitiveMotion = 16,
IntersectionFunctionSignatureExtendedLimits = 32,
IntersectionFunctionSignatureMaxLevels = 64,
IntersectionFunctionSignatureCurveData = 128,
};
class IntersectionFunctionTableDescriptor : public NS::Copying<IntersectionFunctionTableDescriptor>
{
public:
static class IntersectionFunctionTableDescriptor* alloc();
class IntersectionFunctionTableDescriptor* init();
static class IntersectionFunctionTableDescriptor* intersectionFunctionTableDescriptor();
NS::UInteger functionCount() const;
void setFunctionCount(NS::UInteger functionCount);
};
class IntersectionFunctionTable : public NS::Referencing<IntersectionFunctionTable, Resource>
{
public:
void setBuffer(const class Buffer* buffer, NS::UInteger offset, NS::UInteger index);
void setBuffers(const class Buffer* const buffers[], const NS::UInteger offsets[], NS::Range range);
MTL::ResourceID gpuResourceID() const;
void setFunction(const class FunctionHandle* function, NS::UInteger index);
void setFunctions(const class FunctionHandle* const functions[], NS::Range range);
void setOpaqueTriangleIntersectionFunction(MTL::IntersectionFunctionSignature signature, NS::UInteger index);
void setOpaqueTriangleIntersectionFunction(MTL::IntersectionFunctionSignature signature, NS::Range range);
void setOpaqueCurveIntersectionFunction(MTL::IntersectionFunctionSignature signature, NS::UInteger index);
void setOpaqueCurveIntersectionFunction(MTL::IntersectionFunctionSignature signature, NS::Range range);
void setVisibleFunctionTable(const class VisibleFunctionTable* functionTable, NS::UInteger bufferIndex);
void setVisibleFunctionTables(const class VisibleFunctionTable* const functionTables[], NS::Range bufferRange);
};
}
// static method: alloc
_MTL_INLINE MTL::IntersectionFunctionTableDescriptor* MTL::IntersectionFunctionTableDescriptor::alloc()
{
return NS::Object::alloc<MTL::IntersectionFunctionTableDescriptor>(_MTL_PRIVATE_CLS(MTLIntersectionFunctionTableDescriptor));
}
// method: init
_MTL_INLINE MTL::IntersectionFunctionTableDescriptor* MTL::IntersectionFunctionTableDescriptor::init()
{
return NS::Object::init<MTL::IntersectionFunctionTableDescriptor>();
}
// static method: intersectionFunctionTableDescriptor
_MTL_INLINE MTL::IntersectionFunctionTableDescriptor* MTL::IntersectionFunctionTableDescriptor::intersectionFunctionTableDescriptor()
{
return Object::sendMessage<MTL::IntersectionFunctionTableDescriptor*>(_MTL_PRIVATE_CLS(MTLIntersectionFunctionTableDescriptor), _MTL_PRIVATE_SEL(intersectionFunctionTableDescriptor));
}
// property: functionCount
_MTL_INLINE NS::UInteger MTL::IntersectionFunctionTableDescriptor::functionCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(functionCount));
}
_MTL_INLINE void MTL::IntersectionFunctionTableDescriptor::setFunctionCount(NS::UInteger functionCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunctionCount_), functionCount);
}
// method: setBuffer:offset:atIndex:
_MTL_INLINE void MTL::IntersectionFunctionTable::setBuffer(const MTL::Buffer* buffer, NS::UInteger offset, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBuffer_offset_atIndex_), buffer, offset, index);
}
// method: setBuffers:offsets:withRange:
_MTL_INLINE void MTL::IntersectionFunctionTable::setBuffers(const MTL::Buffer* const buffers[], const NS::UInteger offsets[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBuffers_offsets_withRange_), buffers, offsets, range);
}
// property: gpuResourceID
_MTL_INLINE MTL::ResourceID MTL::IntersectionFunctionTable::gpuResourceID() const
{
return Object::sendMessage<MTL::ResourceID>(this, _MTL_PRIVATE_SEL(gpuResourceID));
}
// method: setFunction:atIndex:
_MTL_INLINE void MTL::IntersectionFunctionTable::setFunction(const MTL::FunctionHandle* function, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunction_atIndex_), function, index);
}
// method: setFunctions:withRange:
_MTL_INLINE void MTL::IntersectionFunctionTable::setFunctions(const MTL::FunctionHandle* const functions[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunctions_withRange_), functions, range);
}
// method: setOpaqueTriangleIntersectionFunctionWithSignature:atIndex:
_MTL_INLINE void MTL::IntersectionFunctionTable::setOpaqueTriangleIntersectionFunction(MTL::IntersectionFunctionSignature signature, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOpaqueTriangleIntersectionFunctionWithSignature_atIndex_), signature, index);
}
// method: setOpaqueTriangleIntersectionFunctionWithSignature:withRange:
_MTL_INLINE void MTL::IntersectionFunctionTable::setOpaqueTriangleIntersectionFunction(MTL::IntersectionFunctionSignature signature, NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOpaqueTriangleIntersectionFunctionWithSignature_withRange_), signature, range);
}
// method: setOpaqueCurveIntersectionFunctionWithSignature:atIndex:
_MTL_INLINE void MTL::IntersectionFunctionTable::setOpaqueCurveIntersectionFunction(MTL::IntersectionFunctionSignature signature, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOpaqueCurveIntersectionFunctionWithSignature_atIndex_), signature, index);
}
// method: setOpaqueCurveIntersectionFunctionWithSignature:withRange:
_MTL_INLINE void MTL::IntersectionFunctionTable::setOpaqueCurveIntersectionFunction(MTL::IntersectionFunctionSignature signature, NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOpaqueCurveIntersectionFunctionWithSignature_withRange_), signature, range);
}
// method: setVisibleFunctionTable:atBufferIndex:
_MTL_INLINE void MTL::IntersectionFunctionTable::setVisibleFunctionTable(const MTL::VisibleFunctionTable* functionTable, NS::UInteger bufferIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVisibleFunctionTable_atBufferIndex_), functionTable, bufferIndex);
}
// method: setVisibleFunctionTables:withBufferRange:
_MTL_INLINE void MTL::IntersectionFunctionTable::setVisibleFunctionTables(const MTL::VisibleFunctionTable* const functionTables[], NS::Range bufferRange)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVisibleFunctionTables_withBufferRange_), functionTables, bufferRange);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLLibrary.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 "MTLArgument.hpp"
#include "MTLFunctionDescriptor.hpp"
#include "MTLLibrary.hpp"
#include <functional>
namespace MTL
{
_MTL_ENUM(NS::UInteger, PatchType) {
PatchTypeNone = 0,
PatchTypeTriangle = 1,
PatchTypeQuad = 2,
};
class VertexAttribute : public NS::Referencing<VertexAttribute>
{
public:
static class VertexAttribute* alloc();
class VertexAttribute* init();
NS::String* name() const;
NS::UInteger attributeIndex() const;
MTL::DataType attributeType() const;
bool active() const;
bool patchData() const;
bool patchControlPointData() const;
};
class Attribute : public NS::Referencing<Attribute>
{
public:
static class Attribute* alloc();
class Attribute* init();
NS::String* name() const;
NS::UInteger attributeIndex() const;
MTL::DataType attributeType() const;
bool active() const;
bool patchData() const;
bool patchControlPointData() const;
};
_MTL_ENUM(NS::UInteger, FunctionType) {
FunctionTypeVertex = 1,
FunctionTypeFragment = 2,
FunctionTypeKernel = 3,
FunctionTypeVisible = 5,
FunctionTypeIntersection = 6,
FunctionTypeMesh = 7,
FunctionTypeObject = 8,
};
class FunctionConstant : public NS::Referencing<FunctionConstant>
{
public:
static class FunctionConstant* alloc();
class FunctionConstant* init();
NS::String* name() const;
MTL::DataType type() const;
NS::UInteger index() const;
bool required() const;
};
using AutoreleasedArgument = class Argument*;
class Function : public NS::Referencing<Function>
{
public:
NS::String* label() const;
void setLabel(const NS::String* label);
class Device* device() const;
MTL::FunctionType functionType() const;
MTL::PatchType patchType() const;
NS::Integer patchControlPointCount() const;
NS::Array* vertexAttributes() const;
NS::Array* stageInputAttributes() const;
NS::String* name() const;
NS::Dictionary* functionConstantsDictionary() const;
class ArgumentEncoder* newArgumentEncoder(NS::UInteger bufferIndex);
class ArgumentEncoder* newArgumentEncoder(NS::UInteger bufferIndex, const MTL::AutoreleasedArgument* reflection);
MTL::FunctionOptions options() const;
};
_MTL_ENUM(NS::UInteger, LanguageVersion) {
LanguageVersion1_0 = 65536,
LanguageVersion1_1 = 65537,
LanguageVersion1_2 = 65538,
LanguageVersion2_0 = 131072,
LanguageVersion2_1 = 131073,
LanguageVersion2_2 = 131074,
LanguageVersion2_3 = 131075,
LanguageVersion2_4 = 131076,
LanguageVersion3_0 = 196608,
LanguageVersion3_1 = 196609,
};
_MTL_ENUM(NS::Integer, LibraryType) {
LibraryTypeExecutable = 0,
LibraryTypeDynamic = 1,
};
_MTL_ENUM(NS::Integer, LibraryOptimizationLevel) {
LibraryOptimizationLevelDefault = 0,
LibraryOptimizationLevelSize = 1,
};
_MTL_ENUM(NS::Integer, CompileSymbolVisibility) {
CompileSymbolVisibilityDefault = 0,
CompileSymbolVisibilityHidden = 1,
};
class CompileOptions : public NS::Copying<CompileOptions>
{
public:
static class CompileOptions* alloc();
class CompileOptions* init();
NS::Dictionary* preprocessorMacros() const;
void setPreprocessorMacros(const NS::Dictionary* preprocessorMacros);
bool fastMathEnabled() const;
void setFastMathEnabled(bool fastMathEnabled);
MTL::LanguageVersion languageVersion() const;
void setLanguageVersion(MTL::LanguageVersion languageVersion);
MTL::LibraryType libraryType() const;
void setLibraryType(MTL::LibraryType libraryType);
NS::String* installName() const;
void setInstallName(const NS::String* installName);
NS::Array* libraries() const;
void setLibraries(const NS::Array* libraries);
bool preserveInvariance() const;
void setPreserveInvariance(bool preserveInvariance);
MTL::LibraryOptimizationLevel optimizationLevel() const;
void setOptimizationLevel(MTL::LibraryOptimizationLevel optimizationLevel);
MTL::CompileSymbolVisibility compileSymbolVisibility() const;
void setCompileSymbolVisibility(MTL::CompileSymbolVisibility compileSymbolVisibility);
bool allowReferencingUndefinedSymbols() const;
void setAllowReferencingUndefinedSymbols(bool allowReferencingUndefinedSymbols);
NS::UInteger maxTotalThreadsPerThreadgroup() const;
void setMaxTotalThreadsPerThreadgroup(NS::UInteger maxTotalThreadsPerThreadgroup);
};
_MTL_ENUM(NS::UInteger, LibraryError) {
LibraryErrorUnsupported = 1,
LibraryErrorInternal = 2,
LibraryErrorCompileFailure = 3,
LibraryErrorCompileWarning = 4,
LibraryErrorFunctionNotFound = 5,
LibraryErrorFileNotFound = 6,
};
class Library : public NS::Referencing<Library>
{
public:
void newFunction(const NS::String* pFunctionName, const class FunctionConstantValues* pConstantValues, const std::function<void(Function* pFunction, NS::Error* pError)>& completionHandler);
void newFunction(const class FunctionDescriptor* pDescriptor, const std::function<void(Function* pFunction, NS::Error* pError)>& completionHandler);
void newIntersectionFunction(const class IntersectionFunctionDescriptor* pDescriptor, const std::function<void(Function* pFunction, NS::Error* pError)>& completionHandler);
NS::String* label() const;
void setLabel(const NS::String* label);
class Device* device() const;
class Function* newFunction(const NS::String* functionName);
class Function* newFunction(const NS::String* name, const class FunctionConstantValues* constantValues, NS::Error** error);
void newFunction(const NS::String* name, const class FunctionConstantValues* constantValues, void (^completionHandler)(MTL::Function*, NS::Error*));
void newFunction(const class FunctionDescriptor* descriptor, void (^completionHandler)(MTL::Function*, NS::Error*));
class Function* newFunction(const class FunctionDescriptor* descriptor, NS::Error** error);
void newIntersectionFunction(const class IntersectionFunctionDescriptor* descriptor, void (^completionHandler)(MTL::Function*, NS::Error*));
class Function* newIntersectionFunction(const class IntersectionFunctionDescriptor* descriptor, NS::Error** error);
NS::Array* functionNames() const;
MTL::LibraryType type() const;
NS::String* installName() const;
};
}
// static method: alloc
_MTL_INLINE MTL::VertexAttribute* MTL::VertexAttribute::alloc()
{
return NS::Object::alloc<MTL::VertexAttribute>(_MTL_PRIVATE_CLS(MTLVertexAttribute));
}
// method: init
_MTL_INLINE MTL::VertexAttribute* MTL::VertexAttribute::init()
{
return NS::Object::init<MTL::VertexAttribute>();
}
// property: name
_MTL_INLINE NS::String* MTL::VertexAttribute::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: attributeIndex
_MTL_INLINE NS::UInteger MTL::VertexAttribute::attributeIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(attributeIndex));
}
// property: attributeType
_MTL_INLINE MTL::DataType MTL::VertexAttribute::attributeType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(attributeType));
}
// property: active
_MTL_INLINE bool MTL::VertexAttribute::active() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isActive));
}
// property: patchData
_MTL_INLINE bool MTL::VertexAttribute::patchData() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isPatchData));
}
// property: patchControlPointData
_MTL_INLINE bool MTL::VertexAttribute::patchControlPointData() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isPatchControlPointData));
}
// static method: alloc
_MTL_INLINE MTL::Attribute* MTL::Attribute::alloc()
{
return NS::Object::alloc<MTL::Attribute>(_MTL_PRIVATE_CLS(MTLAttribute));
}
// method: init
_MTL_INLINE MTL::Attribute* MTL::Attribute::init()
{
return NS::Object::init<MTL::Attribute>();
}
// property: name
_MTL_INLINE NS::String* MTL::Attribute::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: attributeIndex
_MTL_INLINE NS::UInteger MTL::Attribute::attributeIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(attributeIndex));
}
// property: attributeType
_MTL_INLINE MTL::DataType MTL::Attribute::attributeType() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(attributeType));
}
// property: active
_MTL_INLINE bool MTL::Attribute::active() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isActive));
}
// property: patchData
_MTL_INLINE bool MTL::Attribute::patchData() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isPatchData));
}
// property: patchControlPointData
_MTL_INLINE bool MTL::Attribute::patchControlPointData() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isPatchControlPointData));
}
// static method: alloc
_MTL_INLINE MTL::FunctionConstant* MTL::FunctionConstant::alloc()
{
return NS::Object::alloc<MTL::FunctionConstant>(_MTL_PRIVATE_CLS(MTLFunctionConstant));
}
// method: init
_MTL_INLINE MTL::FunctionConstant* MTL::FunctionConstant::init()
{
return NS::Object::init<MTL::FunctionConstant>();
}
// property: name
_MTL_INLINE NS::String* MTL::FunctionConstant::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: type
_MTL_INLINE MTL::DataType MTL::FunctionConstant::type() const
{
return Object::sendMessage<MTL::DataType>(this, _MTL_PRIVATE_SEL(type));
}
// property: index
_MTL_INLINE NS::UInteger MTL::FunctionConstant::index() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(index));
}
// property: required
_MTL_INLINE bool MTL::FunctionConstant::required() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(required));
}
// property: label
_MTL_INLINE NS::String* MTL::Function::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::Function::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: device
_MTL_INLINE MTL::Device* MTL::Function::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: functionType
_MTL_INLINE MTL::FunctionType MTL::Function::functionType() const
{
return Object::sendMessage<MTL::FunctionType>(this, _MTL_PRIVATE_SEL(functionType));
}
// property: patchType
_MTL_INLINE MTL::PatchType MTL::Function::patchType() const
{
return Object::sendMessage<MTL::PatchType>(this, _MTL_PRIVATE_SEL(patchType));
}
// property: patchControlPointCount
_MTL_INLINE NS::Integer MTL::Function::patchControlPointCount() const
{
return Object::sendMessage<NS::Integer>(this, _MTL_PRIVATE_SEL(patchControlPointCount));
}
// property: vertexAttributes
_MTL_INLINE NS::Array* MTL::Function::vertexAttributes() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(vertexAttributes));
}
// property: stageInputAttributes
_MTL_INLINE NS::Array* MTL::Function::stageInputAttributes() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(stageInputAttributes));
}
// property: name
_MTL_INLINE NS::String* MTL::Function::name() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(name));
}
// property: functionConstantsDictionary
_MTL_INLINE NS::Dictionary* MTL::Function::functionConstantsDictionary() const
{
return Object::sendMessage<NS::Dictionary*>(this, _MTL_PRIVATE_SEL(functionConstantsDictionary));
}
// method: newArgumentEncoderWithBufferIndex:
_MTL_INLINE MTL::ArgumentEncoder* MTL::Function::newArgumentEncoder(NS::UInteger bufferIndex)
{
return Object::sendMessage<MTL::ArgumentEncoder*>(this, _MTL_PRIVATE_SEL(newArgumentEncoderWithBufferIndex_), bufferIndex);
}
// method: newArgumentEncoderWithBufferIndex:reflection:
_MTL_INLINE MTL::ArgumentEncoder* MTL::Function::newArgumentEncoder(NS::UInteger bufferIndex, const MTL::AutoreleasedArgument* reflection)
{
return Object::sendMessage<MTL::ArgumentEncoder*>(this, _MTL_PRIVATE_SEL(newArgumentEncoderWithBufferIndex_reflection_), bufferIndex, reflection);
}
// property: options
_MTL_INLINE MTL::FunctionOptions MTL::Function::options() const
{
return Object::sendMessage<MTL::FunctionOptions>(this, _MTL_PRIVATE_SEL(options));
}
// static method: alloc
_MTL_INLINE MTL::CompileOptions* MTL::CompileOptions::alloc()
{
return NS::Object::alloc<MTL::CompileOptions>(_MTL_PRIVATE_CLS(MTLCompileOptions));
}
// method: init
_MTL_INLINE MTL::CompileOptions* MTL::CompileOptions::init()
{
return NS::Object::init<MTL::CompileOptions>();
}
// property: preprocessorMacros
_MTL_INLINE NS::Dictionary* MTL::CompileOptions::preprocessorMacros() const
{
return Object::sendMessage<NS::Dictionary*>(this, _MTL_PRIVATE_SEL(preprocessorMacros));
}
_MTL_INLINE void MTL::CompileOptions::setPreprocessorMacros(const NS::Dictionary* preprocessorMacros)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPreprocessorMacros_), preprocessorMacros);
}
// property: fastMathEnabled
_MTL_INLINE bool MTL::CompileOptions::fastMathEnabled() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(fastMathEnabled));
}
_MTL_INLINE void MTL::CompileOptions::setFastMathEnabled(bool fastMathEnabled)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFastMathEnabled_), fastMathEnabled);
}
// property: languageVersion
_MTL_INLINE MTL::LanguageVersion MTL::CompileOptions::languageVersion() const
{
return Object::sendMessage<MTL::LanguageVersion>(this, _MTL_PRIVATE_SEL(languageVersion));
}
_MTL_INLINE void MTL::CompileOptions::setLanguageVersion(MTL::LanguageVersion languageVersion)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLanguageVersion_), languageVersion);
}
// property: libraryType
_MTL_INLINE MTL::LibraryType MTL::CompileOptions::libraryType() const
{
return Object::sendMessage<MTL::LibraryType>(this, _MTL_PRIVATE_SEL(libraryType));
}
_MTL_INLINE void MTL::CompileOptions::setLibraryType(MTL::LibraryType libraryType)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLibraryType_), libraryType);
}
// property: installName
_MTL_INLINE NS::String* MTL::CompileOptions::installName() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(installName));
}
_MTL_INLINE void MTL::CompileOptions::setInstallName(const NS::String* installName)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setInstallName_), installName);
}
// property: libraries
_MTL_INLINE NS::Array* MTL::CompileOptions::libraries() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(libraries));
}
_MTL_INLINE void MTL::CompileOptions::setLibraries(const NS::Array* libraries)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLibraries_), libraries);
}
// property: preserveInvariance
_MTL_INLINE bool MTL::CompileOptions::preserveInvariance() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(preserveInvariance));
}
_MTL_INLINE void MTL::CompileOptions::setPreserveInvariance(bool preserveInvariance)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPreserveInvariance_), preserveInvariance);
}
// property: optimizationLevel
_MTL_INLINE MTL::LibraryOptimizationLevel MTL::CompileOptions::optimizationLevel() const
{
return Object::sendMessage<MTL::LibraryOptimizationLevel>(this, _MTL_PRIVATE_SEL(optimizationLevel));
}
_MTL_INLINE void MTL::CompileOptions::setOptimizationLevel(MTL::LibraryOptimizationLevel optimizationLevel)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOptimizationLevel_), optimizationLevel);
}
// property: compileSymbolVisibility
_MTL_INLINE MTL::CompileSymbolVisibility MTL::CompileOptions::compileSymbolVisibility() const
{
return Object::sendMessage<MTL::CompileSymbolVisibility>(this, _MTL_PRIVATE_SEL(compileSymbolVisibility));
}
_MTL_INLINE void MTL::CompileOptions::setCompileSymbolVisibility(MTL::CompileSymbolVisibility compileSymbolVisibility)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setCompileSymbolVisibility_), compileSymbolVisibility);
}
// property: allowReferencingUndefinedSymbols
_MTL_INLINE bool MTL::CompileOptions::allowReferencingUndefinedSymbols() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(allowReferencingUndefinedSymbols));
}
_MTL_INLINE void MTL::CompileOptions::setAllowReferencingUndefinedSymbols(bool allowReferencingUndefinedSymbols)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAllowReferencingUndefinedSymbols_), allowReferencingUndefinedSymbols);
}
// property: maxTotalThreadsPerThreadgroup
_MTL_INLINE NS::UInteger MTL::CompileOptions::maxTotalThreadsPerThreadgroup() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxTotalThreadsPerThreadgroup));
}
_MTL_INLINE void MTL::CompileOptions::setMaxTotalThreadsPerThreadgroup(NS::UInteger maxTotalThreadsPerThreadgroup)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxTotalThreadsPerThreadgroup_), maxTotalThreadsPerThreadgroup);
}
_MTL_INLINE void MTL::Library::newFunction(const NS::String* pFunctionName, const FunctionConstantValues* pConstantValues, const std::function<void(Function* pFunction, NS::Error* pError)>& completionHandler)
{
__block std::function<void(Function * pFunction, NS::Error * pError)> blockCompletionHandler = completionHandler;
newFunction(pFunctionName, pConstantValues, ^(Function* pFunction, NS::Error* pError) { blockCompletionHandler(pFunction, pError); });
}
_MTL_INLINE void MTL::Library::newFunction(const FunctionDescriptor* pDescriptor, const std::function<void(Function* pFunction, NS::Error* pError)>& completionHandler)
{
__block std::function<void(Function * pFunction, NS::Error * pError)> blockCompletionHandler = completionHandler;
newFunction(pDescriptor, ^(Function* pFunction, NS::Error* pError) { blockCompletionHandler(pFunction, pError); });
}
_MTL_INLINE void MTL::Library::newIntersectionFunction(const IntersectionFunctionDescriptor* pDescriptor, const std::function<void(Function* pFunction, NS::Error* pError)>& completionHandler)
{
__block std::function<void(Function * pFunction, NS::Error * pError)> blockCompletionHandler = completionHandler;
newIntersectionFunction(pDescriptor, ^(Function* pFunction, NS::Error* pError) { blockCompletionHandler(pFunction, pError); });
}
// property: label
_MTL_INLINE NS::String* MTL::Library::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::Library::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: device
_MTL_INLINE MTL::Device* MTL::Library::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// method: newFunctionWithName:
_MTL_INLINE MTL::Function* MTL::Library::newFunction(const NS::String* functionName)
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(newFunctionWithName_), functionName);
}
// method: newFunctionWithName:constantValues:error:
_MTL_INLINE MTL::Function* MTL::Library::newFunction(const NS::String* name, const MTL::FunctionConstantValues* constantValues, NS::Error** error)
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(newFunctionWithName_constantValues_error_), name, constantValues, error);
}
// method: newFunctionWithName:constantValues:completionHandler:
_MTL_INLINE void MTL::Library::newFunction(const NS::String* name, const MTL::FunctionConstantValues* constantValues, void (^completionHandler)(MTL::Function*, NS::Error*))
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(newFunctionWithName_constantValues_completionHandler_), name, constantValues, completionHandler);
}
// method: newFunctionWithDescriptor:completionHandler:
_MTL_INLINE void MTL::Library::newFunction(const MTL::FunctionDescriptor* descriptor, void (^completionHandler)(MTL::Function*, NS::Error*))
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(newFunctionWithDescriptor_completionHandler_), descriptor, completionHandler);
}
// method: newFunctionWithDescriptor:error:
_MTL_INLINE MTL::Function* MTL::Library::newFunction(const MTL::FunctionDescriptor* descriptor, NS::Error** error)
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(newFunctionWithDescriptor_error_), descriptor, error);
}
// method: newIntersectionFunctionWithDescriptor:completionHandler:
_MTL_INLINE void MTL::Library::newIntersectionFunction(const MTL::IntersectionFunctionDescriptor* descriptor, void (^completionHandler)(MTL::Function*, NS::Error*))
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(newIntersectionFunctionWithDescriptor_completionHandler_), descriptor, completionHandler);
}
// method: newIntersectionFunctionWithDescriptor:error:
_MTL_INLINE MTL::Function* MTL::Library::newIntersectionFunction(const MTL::IntersectionFunctionDescriptor* descriptor, NS::Error** error)
{
return Object::sendMessage<MTL::Function*>(this, _MTL_PRIVATE_SEL(newIntersectionFunctionWithDescriptor_error_), descriptor, error);
}
// property: functionNames
_MTL_INLINE NS::Array* MTL::Library::functionNames() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(functionNames));
}
// property: type
_MTL_INLINE MTL::LibraryType MTL::Library::type() const
{
return Object::sendMessage<MTL::LibraryType>(this, _MTL_PRIVATE_SEL(type));
}
// property: installName
_MTL_INLINE NS::String* MTL::Library::installName() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(installName));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLLinkedFunctions.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>
namespace MTL
{
class LinkedFunctions : public NS::Copying<LinkedFunctions>
{
public:
static class LinkedFunctions* alloc();
class LinkedFunctions* init();
static class LinkedFunctions* linkedFunctions();
NS::Array* functions() const;
void setFunctions(const NS::Array* functions);
NS::Array* binaryFunctions() const;
void setBinaryFunctions(const NS::Array* binaryFunctions);
NS::Dictionary* groups() const;
void setGroups(const NS::Dictionary* groups);
NS::Array* privateFunctions() const;
void setPrivateFunctions(const NS::Array* privateFunctions);
};
}
// static method: alloc
_MTL_INLINE MTL::LinkedFunctions* MTL::LinkedFunctions::alloc()
{
return NS::Object::alloc<MTL::LinkedFunctions>(_MTL_PRIVATE_CLS(MTLLinkedFunctions));
}
// method: init
_MTL_INLINE MTL::LinkedFunctions* MTL::LinkedFunctions::init()
{
return NS::Object::init<MTL::LinkedFunctions>();
}
// static method: linkedFunctions
_MTL_INLINE MTL::LinkedFunctions* MTL::LinkedFunctions::linkedFunctions()
{
return Object::sendMessage<MTL::LinkedFunctions*>(_MTL_PRIVATE_CLS(MTLLinkedFunctions), _MTL_PRIVATE_SEL(linkedFunctions));
}
// property: functions
_MTL_INLINE NS::Array* MTL::LinkedFunctions::functions() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(functions));
}
_MTL_INLINE void MTL::LinkedFunctions::setFunctions(const NS::Array* functions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunctions_), functions);
}
// property: binaryFunctions
_MTL_INLINE NS::Array* MTL::LinkedFunctions::binaryFunctions() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(binaryFunctions));
}
_MTL_INLINE void MTL::LinkedFunctions::setBinaryFunctions(const NS::Array* binaryFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBinaryFunctions_), binaryFunctions);
}
// property: groups
_MTL_INLINE NS::Dictionary* MTL::LinkedFunctions::groups() const
{
return Object::sendMessage<NS::Dictionary*>(this, _MTL_PRIVATE_SEL(groups));
}
_MTL_INLINE void MTL::LinkedFunctions::setGroups(const NS::Dictionary* groups)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setGroups_), groups);
}
// property: privateFunctions
_MTL_INLINE NS::Array* MTL::LinkedFunctions::privateFunctions() const
{
return Object::sendMessage<NS::Array*>(this, _MTL_PRIVATE_SEL(privateFunctions));
}
_MTL_INLINE void MTL::LinkedFunctions::setPrivateFunctions(const NS::Array* privateFunctions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPrivateFunctions_), privateFunctions);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLParallelRenderCommandEncoder.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 "MTLCommandEncoder.hpp"
#include "MTLRenderPass.hpp"
namespace MTL
{
class ParallelRenderCommandEncoder : public NS::Referencing<ParallelRenderCommandEncoder, CommandEncoder>
{
public:
class RenderCommandEncoder* renderCommandEncoder();
void setColorStoreAction(MTL::StoreAction storeAction, NS::UInteger colorAttachmentIndex);
void setDepthStoreAction(MTL::StoreAction storeAction);
void setStencilStoreAction(MTL::StoreAction storeAction);
void setColorStoreActionOptions(MTL::StoreActionOptions storeActionOptions, NS::UInteger colorAttachmentIndex);
void setDepthStoreActionOptions(MTL::StoreActionOptions storeActionOptions);
void setStencilStoreActionOptions(MTL::StoreActionOptions storeActionOptions);
};
}
// method: renderCommandEncoder
_MTL_INLINE MTL::RenderCommandEncoder* MTL::ParallelRenderCommandEncoder::renderCommandEncoder()
{
return Object::sendMessage<MTL::RenderCommandEncoder*>(this, _MTL_PRIVATE_SEL(renderCommandEncoder));
}
// method: setColorStoreAction:atIndex:
_MTL_INLINE void MTL::ParallelRenderCommandEncoder::setColorStoreAction(MTL::StoreAction storeAction, NS::UInteger colorAttachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setColorStoreAction_atIndex_), storeAction, colorAttachmentIndex);
}
// method: setDepthStoreAction:
_MTL_INLINE void MTL::ParallelRenderCommandEncoder::setDepthStoreAction(MTL::StoreAction storeAction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthStoreAction_), storeAction);
}
// method: setStencilStoreAction:
_MTL_INLINE void MTL::ParallelRenderCommandEncoder::setStencilStoreAction(MTL::StoreAction storeAction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStencilStoreAction_), storeAction);
}
// method: setColorStoreActionOptions:atIndex:
_MTL_INLINE void MTL::ParallelRenderCommandEncoder::setColorStoreActionOptions(MTL::StoreActionOptions storeActionOptions, NS::UInteger colorAttachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setColorStoreActionOptions_atIndex_), storeActionOptions, colorAttachmentIndex);
}
// method: setDepthStoreActionOptions:
_MTL_INLINE void MTL::ParallelRenderCommandEncoder::setDepthStoreActionOptions(MTL::StoreActionOptions storeActionOptions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthStoreActionOptions_), storeActionOptions);
}
// method: setStencilStoreActionOptions:
_MTL_INLINE void MTL::ParallelRenderCommandEncoder::setStencilStoreActionOptions(MTL::StoreActionOptions storeActionOptions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStencilStoreActionOptions_), storeActionOptions);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLPipeline.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 "MTLPipeline.hpp"
namespace MTL
{
_MTL_ENUM(NS::UInteger, Mutability) {
MutabilityDefault = 0,
MutabilityMutable = 1,
MutabilityImmutable = 2,
};
class PipelineBufferDescriptor : public NS::Copying<PipelineBufferDescriptor>
{
public:
static class PipelineBufferDescriptor* alloc();
class PipelineBufferDescriptor* init();
MTL::Mutability mutability() const;
void setMutability(MTL::Mutability mutability);
};
class PipelineBufferDescriptorArray : public NS::Referencing<PipelineBufferDescriptorArray>
{
public:
static class PipelineBufferDescriptorArray* alloc();
class PipelineBufferDescriptorArray* init();
class PipelineBufferDescriptor* object(NS::UInteger bufferIndex);
void setObject(const class PipelineBufferDescriptor* buffer, NS::UInteger bufferIndex);
};
}
// static method: alloc
_MTL_INLINE MTL::PipelineBufferDescriptor* MTL::PipelineBufferDescriptor::alloc()
{
return NS::Object::alloc<MTL::PipelineBufferDescriptor>(_MTL_PRIVATE_CLS(MTLPipelineBufferDescriptor));
}
// method: init
_MTL_INLINE MTL::PipelineBufferDescriptor* MTL::PipelineBufferDescriptor::init()
{
return NS::Object::init<MTL::PipelineBufferDescriptor>();
}
// property: mutability
_MTL_INLINE MTL::Mutability MTL::PipelineBufferDescriptor::mutability() const
{
return Object::sendMessage<MTL::Mutability>(this, _MTL_PRIVATE_SEL(mutability));
}
_MTL_INLINE void MTL::PipelineBufferDescriptor::setMutability(MTL::Mutability mutability)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMutability_), mutability);
}
// static method: alloc
_MTL_INLINE MTL::PipelineBufferDescriptorArray* MTL::PipelineBufferDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::PipelineBufferDescriptorArray>(_MTL_PRIVATE_CLS(MTLPipelineBufferDescriptorArray));
}
// method: init
_MTL_INLINE MTL::PipelineBufferDescriptorArray* MTL::PipelineBufferDescriptorArray::init()
{
return NS::Object::init<MTL::PipelineBufferDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::PipelineBufferDescriptor* MTL::PipelineBufferDescriptorArray::object(NS::UInteger bufferIndex)
{
return Object::sendMessage<MTL::PipelineBufferDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), bufferIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::PipelineBufferDescriptorArray::setObject(const MTL::PipelineBufferDescriptor* buffer, NS::UInteger bufferIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), buffer, bufferIndex);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLPixelFormat.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>
namespace MTL
{
_MTL_ENUM(NS::UInteger, PixelFormat) {
PixelFormatInvalid = 0,
PixelFormatA8Unorm = 1,
PixelFormatR8Unorm = 10,
PixelFormatR8Unorm_sRGB = 11,
PixelFormatR8Snorm = 12,
PixelFormatR8Uint = 13,
PixelFormatR8Sint = 14,
PixelFormatR16Unorm = 20,
PixelFormatR16Snorm = 22,
PixelFormatR16Uint = 23,
PixelFormatR16Sint = 24,
PixelFormatR16Float = 25,
PixelFormatRG8Unorm = 30,
PixelFormatRG8Unorm_sRGB = 31,
PixelFormatRG8Snorm = 32,
PixelFormatRG8Uint = 33,
PixelFormatRG8Sint = 34,
PixelFormatB5G6R5Unorm = 40,
PixelFormatA1BGR5Unorm = 41,
PixelFormatABGR4Unorm = 42,
PixelFormatBGR5A1Unorm = 43,
PixelFormatR32Uint = 53,
PixelFormatR32Sint = 54,
PixelFormatR32Float = 55,
PixelFormatRG16Unorm = 60,
PixelFormatRG16Snorm = 62,
PixelFormatRG16Uint = 63,
PixelFormatRG16Sint = 64,
PixelFormatRG16Float = 65,
PixelFormatRGBA8Unorm = 70,
PixelFormatRGBA8Unorm_sRGB = 71,
PixelFormatRGBA8Snorm = 72,
PixelFormatRGBA8Uint = 73,
PixelFormatRGBA8Sint = 74,
PixelFormatBGRA8Unorm = 80,
PixelFormatBGRA8Unorm_sRGB = 81,
PixelFormatRGB10A2Unorm = 90,
PixelFormatRGB10A2Uint = 91,
PixelFormatRG11B10Float = 92,
PixelFormatRGB9E5Float = 93,
PixelFormatBGR10A2Unorm = 94,
PixelFormatBGR10_XR = 554,
PixelFormatBGR10_XR_sRGB = 555,
PixelFormatRG32Uint = 103,
PixelFormatRG32Sint = 104,
PixelFormatRG32Float = 105,
PixelFormatRGBA16Unorm = 110,
PixelFormatRGBA16Snorm = 112,
PixelFormatRGBA16Uint = 113,
PixelFormatRGBA16Sint = 114,
PixelFormatRGBA16Float = 115,
PixelFormatBGRA10_XR = 552,
PixelFormatBGRA10_XR_sRGB = 553,
PixelFormatRGBA32Uint = 123,
PixelFormatRGBA32Sint = 124,
PixelFormatRGBA32Float = 125,
PixelFormatBC1_RGBA = 130,
PixelFormatBC1_RGBA_sRGB = 131,
PixelFormatBC2_RGBA = 132,
PixelFormatBC2_RGBA_sRGB = 133,
PixelFormatBC3_RGBA = 134,
PixelFormatBC3_RGBA_sRGB = 135,
PixelFormatBC4_RUnorm = 140,
PixelFormatBC4_RSnorm = 141,
PixelFormatBC5_RGUnorm = 142,
PixelFormatBC5_RGSnorm = 143,
PixelFormatBC6H_RGBFloat = 150,
PixelFormatBC6H_RGBUfloat = 151,
PixelFormatBC7_RGBAUnorm = 152,
PixelFormatBC7_RGBAUnorm_sRGB = 153,
PixelFormatPVRTC_RGB_2BPP = 160,
PixelFormatPVRTC_RGB_2BPP_sRGB = 161,
PixelFormatPVRTC_RGB_4BPP = 162,
PixelFormatPVRTC_RGB_4BPP_sRGB = 163,
PixelFormatPVRTC_RGBA_2BPP = 164,
PixelFormatPVRTC_RGBA_2BPP_sRGB = 165,
PixelFormatPVRTC_RGBA_4BPP = 166,
PixelFormatPVRTC_RGBA_4BPP_sRGB = 167,
PixelFormatEAC_R11Unorm = 170,
PixelFormatEAC_R11Snorm = 172,
PixelFormatEAC_RG11Unorm = 174,
PixelFormatEAC_RG11Snorm = 176,
PixelFormatEAC_RGBA8 = 178,
PixelFormatEAC_RGBA8_sRGB = 179,
PixelFormatETC2_RGB8 = 180,
PixelFormatETC2_RGB8_sRGB = 181,
PixelFormatETC2_RGB8A1 = 182,
PixelFormatETC2_RGB8A1_sRGB = 183,
PixelFormatASTC_4x4_sRGB = 186,
PixelFormatASTC_5x4_sRGB = 187,
PixelFormatASTC_5x5_sRGB = 188,
PixelFormatASTC_6x5_sRGB = 189,
PixelFormatASTC_6x6_sRGB = 190,
PixelFormatASTC_8x5_sRGB = 192,
PixelFormatASTC_8x6_sRGB = 193,
PixelFormatASTC_8x8_sRGB = 194,
PixelFormatASTC_10x5_sRGB = 195,
PixelFormatASTC_10x6_sRGB = 196,
PixelFormatASTC_10x8_sRGB = 197,
PixelFormatASTC_10x10_sRGB = 198,
PixelFormatASTC_12x10_sRGB = 199,
PixelFormatASTC_12x12_sRGB = 200,
PixelFormatASTC_4x4_LDR = 204,
PixelFormatASTC_5x4_LDR = 205,
PixelFormatASTC_5x5_LDR = 206,
PixelFormatASTC_6x5_LDR = 207,
PixelFormatASTC_6x6_LDR = 208,
PixelFormatASTC_8x5_LDR = 210,
PixelFormatASTC_8x6_LDR = 211,
PixelFormatASTC_8x8_LDR = 212,
PixelFormatASTC_10x5_LDR = 213,
PixelFormatASTC_10x6_LDR = 214,
PixelFormatASTC_10x8_LDR = 215,
PixelFormatASTC_10x10_LDR = 216,
PixelFormatASTC_12x10_LDR = 217,
PixelFormatASTC_12x12_LDR = 218,
PixelFormatASTC_4x4_HDR = 222,
PixelFormatASTC_5x4_HDR = 223,
PixelFormatASTC_5x5_HDR = 224,
PixelFormatASTC_6x5_HDR = 225,
PixelFormatASTC_6x6_HDR = 226,
PixelFormatASTC_8x5_HDR = 228,
PixelFormatASTC_8x6_HDR = 229,
PixelFormatASTC_8x8_HDR = 230,
PixelFormatASTC_10x5_HDR = 231,
PixelFormatASTC_10x6_HDR = 232,
PixelFormatASTC_10x8_HDR = 233,
PixelFormatASTC_10x10_HDR = 234,
PixelFormatASTC_12x10_HDR = 235,
PixelFormatASTC_12x12_HDR = 236,
PixelFormatGBGR422 = 240,
PixelFormatBGRG422 = 241,
PixelFormatDepth16Unorm = 250,
PixelFormatDepth32Float = 252,
PixelFormatStencil8 = 253,
PixelFormatDepth24Unorm_Stencil8 = 255,
PixelFormatDepth32Float_Stencil8 = 260,
PixelFormatX32_Stencil8 = 261,
PixelFormatX24_Stencil8 = 262,
};
}

156
externals/metal-cpp/Metal/MTLPrivate.hpp vendored Normal file
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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLPrivate.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 <objc/runtime.h>
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#define _MTL_PRIVATE_CLS(symbol) (Private::Class::s_k##symbol)
#define _MTL_PRIVATE_SEL(accessor) (Private::Selector::s_k##accessor)
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#if defined(MTL_PRIVATE_IMPLEMENTATION)
#ifdef METALCPP_SYMBOL_VISIBILITY_HIDDEN
#define _MTL_PRIVATE_VISIBILITY __attribute__((visibility("hidden")))
#else
#define _MTL_PRIVATE_VISIBILITY __attribute__((visibility("default")))
#endif // METALCPP_SYMBOL_VISIBILITY_HIDDEN
#define _MTL_PRIVATE_IMPORT __attribute__((weak_import))
#ifdef __OBJC__
#define _MTL_PRIVATE_OBJC_LOOKUP_CLASS(symbol) ((__bridge void*)objc_lookUpClass(#symbol))
#define _MTL_PRIVATE_OBJC_GET_PROTOCOL(symbol) ((__bridge void*)objc_getProtocol(#symbol))
#else
#define _MTL_PRIVATE_OBJC_LOOKUP_CLASS(symbol) objc_lookUpClass(#symbol)
#define _MTL_PRIVATE_OBJC_GET_PROTOCOL(symbol) objc_getProtocol(#symbol)
#endif // __OBJC__
#define _MTL_PRIVATE_DEF_CLS(symbol) void* s_k##symbol _MTL_PRIVATE_VISIBILITY = _MTL_PRIVATE_OBJC_LOOKUP_CLASS(symbol)
#define _MTL_PRIVATE_DEF_PRO(symbol) void* s_k##symbol _MTL_PRIVATE_VISIBILITY = _MTL_PRIVATE_OBJC_GET_PROTOCOL(symbol)
#define _MTL_PRIVATE_DEF_SEL(accessor, symbol) SEL s_k##accessor _MTL_PRIVATE_VISIBILITY = sel_registerName(symbol)
#include <dlfcn.h>
#define MTL_DEF_FUNC( name, signature ) \
using Fn##name = signature; \
Fn##name name = reinterpret_cast< Fn##name >( dlsym( RTLD_DEFAULT, #name ) )
namespace MTL::Private
{
template <typename _Type>
inline _Type const LoadSymbol(const char* pSymbol)
{
const _Type* pAddress = static_cast<_Type*>(dlsym(RTLD_DEFAULT, pSymbol));
return pAddress ? *pAddress : nullptr;
}
} // MTL::Private
#if defined(__MAC_10_16) || defined(__MAC_11_0) || defined(__MAC_12_0) || defined(__MAC_13_0) || defined(__MAC_14_0) || defined(__IPHONE_14_0) || defined(__IPHONE_15_0) || defined(__IPHONE_16_0) || defined(__IPHONE_17_0) || defined(__TVOS_14_0) || defined(__TVOS_15_0) || defined(__TVOS_16_0) || defined(__TVOS_17_0)
#define _MTL_PRIVATE_DEF_STR(type, symbol) \
_MTL_EXTERN type const MTL##symbol _MTL_PRIVATE_IMPORT; \
type const MTL::symbol = (nullptr != &MTL##symbol) ? MTL##symbol : nullptr
#define _MTL_PRIVATE_DEF_CONST(type, symbol) \
_MTL_EXTERN type const MTL##symbol _MTL_PRIVATE_IMPORT; \
type const MTL::symbol = (nullptr != &MTL##symbol) ? MTL##symbol : nullptr
#define _MTL_PRIVATE_DEF_WEAK_CONST(type, symbol) \
_MTL_EXTERN type const MTL##symbol; \
type const MTL::symbol = Private::LoadSymbol<type>("MTL" #symbol)
#else
#define _MTL_PRIVATE_DEF_STR(type, symbol) \
_MTL_EXTERN type const MTL##symbol; \
type const MTL::symbol = Private::LoadSymbol<type>("MTL" #symbol)
#define _MTL_PRIVATE_DEF_CONST(type, symbol) \
_MTL_EXTERN type const MTL##symbol; \
type const MTL::symbol = Private::LoadSymbol<type>("MTL" #symbol)
#define _MTL_PRIVATE_DEF_WEAK_CONST(type, symbol) _MTL_PRIVATE_DEF_CONST(type, symbol)
#endif // defined(__MAC_10_16) || defined(__MAC_11_0) || defined(__MAC_12_0) || defined(__MAC_13_0) || defined(__MAC_14_0) || defined(__IPHONE_14_0) || defined(__IPHONE_15_0) || defined(__IPHONE_16_0) || defined(__IPHONE_17_0) || defined(__TVOS_14_0) || defined(__TVOS_15_0) || defined(__TVOS_16_0) || defined(__TVOS_17_0)
#else
#define _MTL_PRIVATE_DEF_CLS(symbol) extern void* s_k##symbol
#define _MTL_PRIVATE_DEF_PRO(symbol) extern void* s_k##symbol
#define _MTL_PRIVATE_DEF_SEL(accessor, symbol) extern SEL s_k##accessor
#define _MTL_PRIVATE_DEF_STR(type, symbol) extern type const MTL::symbol
#define _MTL_PRIVATE_DEF_CONST(type, symbol) extern type const MTL::symbol
#define _MTL_PRIVATE_DEF_WEAK_CONST(type, symbol) extern type const MTL::symbol
#endif // MTL_PRIVATE_IMPLEMENTATION
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTL
{
namespace Private
{
namespace Class
{
} // Class
} // Private
} // MTL
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTL
{
namespace Private
{
namespace Protocol
{
} // Protocol
} // Private
} // MTL
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTL
{
namespace Private
{
namespace Selector
{
_MTL_PRIVATE_DEF_SEL(beginScope,
"beginScope");
_MTL_PRIVATE_DEF_SEL(endScope,
"endScope");
} // Class
} // Private
} // MTL
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLRasterizationRate.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 "MTLDevice.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
class RasterizationRateSampleArray : public NS::Referencing<RasterizationRateSampleArray>
{
public:
static class RasterizationRateSampleArray* alloc();
class RasterizationRateSampleArray* init();
NS::Number* object(NS::UInteger index);
void setObject(const NS::Number* value, NS::UInteger index);
};
class RasterizationRateLayerDescriptor : public NS::Copying<RasterizationRateLayerDescriptor>
{
public:
static class RasterizationRateLayerDescriptor* alloc();
MTL::RasterizationRateLayerDescriptor* init();
MTL::RasterizationRateLayerDescriptor* init(MTL::Size sampleCount);
MTL::RasterizationRateLayerDescriptor* init(MTL::Size sampleCount, const float* horizontal, const float* vertical);
MTL::Size sampleCount() const;
MTL::Size maxSampleCount() const;
float* horizontalSampleStorage() const;
float* verticalSampleStorage() const;
class RasterizationRateSampleArray* horizontal() const;
class RasterizationRateSampleArray* vertical() const;
void setSampleCount(MTL::Size sampleCount);
};
class RasterizationRateLayerArray : public NS::Referencing<RasterizationRateLayerArray>
{
public:
static class RasterizationRateLayerArray* alloc();
class RasterizationRateLayerArray* init();
class RasterizationRateLayerDescriptor* object(NS::UInteger layerIndex);
void setObject(const class RasterizationRateLayerDescriptor* layer, NS::UInteger layerIndex);
};
class RasterizationRateMapDescriptor : public NS::Copying<RasterizationRateMapDescriptor>
{
public:
static class RasterizationRateMapDescriptor* alloc();
class RasterizationRateMapDescriptor* init();
static class RasterizationRateMapDescriptor* rasterizationRateMapDescriptor(MTL::Size screenSize);
static class RasterizationRateMapDescriptor* rasterizationRateMapDescriptor(MTL::Size screenSize, const class RasterizationRateLayerDescriptor* layer);
static class RasterizationRateMapDescriptor* rasterizationRateMapDescriptor(MTL::Size screenSize, NS::UInteger layerCount, const class RasterizationRateLayerDescriptor* const* layers);
class RasterizationRateLayerDescriptor* layer(NS::UInteger layerIndex);
void setLayer(const class RasterizationRateLayerDescriptor* layer, NS::UInteger layerIndex);
class RasterizationRateLayerArray* layers() const;
MTL::Size screenSize() const;
void setScreenSize(MTL::Size screenSize);
NS::String* label() const;
void setLabel(const NS::String* label);
NS::UInteger layerCount() const;
};
class RasterizationRateMap : public NS::Referencing<RasterizationRateMap>
{
public:
class Device* device() const;
NS::String* label() const;
MTL::Size screenSize() const;
MTL::Size physicalGranularity() const;
NS::UInteger layerCount() const;
MTL::SizeAndAlign parameterBufferSizeAndAlign() const;
void copyParameterDataToBuffer(const class Buffer* buffer, NS::UInteger offset);
MTL::Size physicalSize(NS::UInteger layerIndex);
MTL::Coordinate2D mapScreenToPhysicalCoordinates(MTL::Coordinate2D screenCoordinates, NS::UInteger layerIndex);
MTL::Coordinate2D mapPhysicalToScreenCoordinates(MTL::Coordinate2D physicalCoordinates, NS::UInteger layerIndex);
};
}
// static method: alloc
_MTL_INLINE MTL::RasterizationRateSampleArray* MTL::RasterizationRateSampleArray::alloc()
{
return NS::Object::alloc<MTL::RasterizationRateSampleArray>(_MTL_PRIVATE_CLS(MTLRasterizationRateSampleArray));
}
// method: init
_MTL_INLINE MTL::RasterizationRateSampleArray* MTL::RasterizationRateSampleArray::init()
{
return NS::Object::init<MTL::RasterizationRateSampleArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE NS::Number* MTL::RasterizationRateSampleArray::object(NS::UInteger index)
{
return Object::sendMessage<NS::Number*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), index);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::RasterizationRateSampleArray::setObject(const NS::Number* value, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), value, index);
}
// static method: alloc
_MTL_INLINE MTL::RasterizationRateLayerDescriptor* MTL::RasterizationRateLayerDescriptor::alloc()
{
return NS::Object::alloc<MTL::RasterizationRateLayerDescriptor>(_MTL_PRIVATE_CLS(MTLRasterizationRateLayerDescriptor));
}
// method: init
_MTL_INLINE MTL::RasterizationRateLayerDescriptor* MTL::RasterizationRateLayerDescriptor::init()
{
return NS::Object::init<MTL::RasterizationRateLayerDescriptor>();
}
// method: initWithSampleCount:
_MTL_INLINE MTL::RasterizationRateLayerDescriptor* MTL::RasterizationRateLayerDescriptor::init(MTL::Size sampleCount)
{
return Object::sendMessage<MTL::RasterizationRateLayerDescriptor*>(this, _MTL_PRIVATE_SEL(initWithSampleCount_), sampleCount);
}
// method: initWithSampleCount:horizontal:vertical:
_MTL_INLINE MTL::RasterizationRateLayerDescriptor* MTL::RasterizationRateLayerDescriptor::init(MTL::Size sampleCount, const float* horizontal, const float* vertical)
{
return Object::sendMessage<MTL::RasterizationRateLayerDescriptor*>(this, _MTL_PRIVATE_SEL(initWithSampleCount_horizontal_vertical_), sampleCount, horizontal, vertical);
}
// property: sampleCount
_MTL_INLINE MTL::Size MTL::RasterizationRateLayerDescriptor::sampleCount() const
{
return Object::sendMessage<MTL::Size>(this, _MTL_PRIVATE_SEL(sampleCount));
}
// property: maxSampleCount
_MTL_INLINE MTL::Size MTL::RasterizationRateLayerDescriptor::maxSampleCount() const
{
return Object::sendMessage<MTL::Size>(this, _MTL_PRIVATE_SEL(maxSampleCount));
}
// property: horizontalSampleStorage
_MTL_INLINE float* MTL::RasterizationRateLayerDescriptor::horizontalSampleStorage() const
{
return Object::sendMessage<float*>(this, _MTL_PRIVATE_SEL(horizontalSampleStorage));
}
// property: verticalSampleStorage
_MTL_INLINE float* MTL::RasterizationRateLayerDescriptor::verticalSampleStorage() const
{
return Object::sendMessage<float*>(this, _MTL_PRIVATE_SEL(verticalSampleStorage));
}
// property: horizontal
_MTL_INLINE MTL::RasterizationRateSampleArray* MTL::RasterizationRateLayerDescriptor::horizontal() const
{
return Object::sendMessage<MTL::RasterizationRateSampleArray*>(this, _MTL_PRIVATE_SEL(horizontal));
}
// property: vertical
_MTL_INLINE MTL::RasterizationRateSampleArray* MTL::RasterizationRateLayerDescriptor::vertical() const
{
return Object::sendMessage<MTL::RasterizationRateSampleArray*>(this, _MTL_PRIVATE_SEL(vertical));
}
// method: setSampleCount:
_MTL_INLINE void MTL::RasterizationRateLayerDescriptor::setSampleCount(MTL::Size sampleCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSampleCount_), sampleCount);
}
// static method: alloc
_MTL_INLINE MTL::RasterizationRateLayerArray* MTL::RasterizationRateLayerArray::alloc()
{
return NS::Object::alloc<MTL::RasterizationRateLayerArray>(_MTL_PRIVATE_CLS(MTLRasterizationRateLayerArray));
}
// method: init
_MTL_INLINE MTL::RasterizationRateLayerArray* MTL::RasterizationRateLayerArray::init()
{
return NS::Object::init<MTL::RasterizationRateLayerArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::RasterizationRateLayerDescriptor* MTL::RasterizationRateLayerArray::object(NS::UInteger layerIndex)
{
return Object::sendMessage<MTL::RasterizationRateLayerDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), layerIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::RasterizationRateLayerArray::setObject(const MTL::RasterizationRateLayerDescriptor* layer, NS::UInteger layerIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), layer, layerIndex);
}
// static method: alloc
_MTL_INLINE MTL::RasterizationRateMapDescriptor* MTL::RasterizationRateMapDescriptor::alloc()
{
return NS::Object::alloc<MTL::RasterizationRateMapDescriptor>(_MTL_PRIVATE_CLS(MTLRasterizationRateMapDescriptor));
}
// method: init
_MTL_INLINE MTL::RasterizationRateMapDescriptor* MTL::RasterizationRateMapDescriptor::init()
{
return NS::Object::init<MTL::RasterizationRateMapDescriptor>();
}
// static method: rasterizationRateMapDescriptorWithScreenSize:
_MTL_INLINE MTL::RasterizationRateMapDescriptor* MTL::RasterizationRateMapDescriptor::rasterizationRateMapDescriptor(MTL::Size screenSize)
{
return Object::sendMessage<MTL::RasterizationRateMapDescriptor*>(_MTL_PRIVATE_CLS(MTLRasterizationRateMapDescriptor), _MTL_PRIVATE_SEL(rasterizationRateMapDescriptorWithScreenSize_), screenSize);
}
// static method: rasterizationRateMapDescriptorWithScreenSize:layer:
_MTL_INLINE MTL::RasterizationRateMapDescriptor* MTL::RasterizationRateMapDescriptor::rasterizationRateMapDescriptor(MTL::Size screenSize, const MTL::RasterizationRateLayerDescriptor* layer)
{
return Object::sendMessage<MTL::RasterizationRateMapDescriptor*>(_MTL_PRIVATE_CLS(MTLRasterizationRateMapDescriptor), _MTL_PRIVATE_SEL(rasterizationRateMapDescriptorWithScreenSize_layer_), screenSize, layer);
}
// static method: rasterizationRateMapDescriptorWithScreenSize:layerCount:layers:
_MTL_INLINE MTL::RasterizationRateMapDescriptor* MTL::RasterizationRateMapDescriptor::rasterizationRateMapDescriptor(MTL::Size screenSize, NS::UInteger layerCount, const MTL::RasterizationRateLayerDescriptor* const* layers)
{
return Object::sendMessage<MTL::RasterizationRateMapDescriptor*>(_MTL_PRIVATE_CLS(MTLRasterizationRateMapDescriptor), _MTL_PRIVATE_SEL(rasterizationRateMapDescriptorWithScreenSize_layerCount_layers_), screenSize, layerCount, layers);
}
// method: layerAtIndex:
_MTL_INLINE MTL::RasterizationRateLayerDescriptor* MTL::RasterizationRateMapDescriptor::layer(NS::UInteger layerIndex)
{
return Object::sendMessage<MTL::RasterizationRateLayerDescriptor*>(this, _MTL_PRIVATE_SEL(layerAtIndex_), layerIndex);
}
// method: setLayer:atIndex:
_MTL_INLINE void MTL::RasterizationRateMapDescriptor::setLayer(const MTL::RasterizationRateLayerDescriptor* layer, NS::UInteger layerIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLayer_atIndex_), layer, layerIndex);
}
// property: layers
_MTL_INLINE MTL::RasterizationRateLayerArray* MTL::RasterizationRateMapDescriptor::layers() const
{
return Object::sendMessage<MTL::RasterizationRateLayerArray*>(this, _MTL_PRIVATE_SEL(layers));
}
// property: screenSize
_MTL_INLINE MTL::Size MTL::RasterizationRateMapDescriptor::screenSize() const
{
return Object::sendMessage<MTL::Size>(this, _MTL_PRIVATE_SEL(screenSize));
}
_MTL_INLINE void MTL::RasterizationRateMapDescriptor::setScreenSize(MTL::Size screenSize)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setScreenSize_), screenSize);
}
// property: label
_MTL_INLINE NS::String* MTL::RasterizationRateMapDescriptor::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::RasterizationRateMapDescriptor::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: layerCount
_MTL_INLINE NS::UInteger MTL::RasterizationRateMapDescriptor::layerCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(layerCount));
}
// property: device
_MTL_INLINE MTL::Device* MTL::RasterizationRateMap::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: label
_MTL_INLINE NS::String* MTL::RasterizationRateMap::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
// property: screenSize
_MTL_INLINE MTL::Size MTL::RasterizationRateMap::screenSize() const
{
return Object::sendMessage<MTL::Size>(this, _MTL_PRIVATE_SEL(screenSize));
}
// property: physicalGranularity
_MTL_INLINE MTL::Size MTL::RasterizationRateMap::physicalGranularity() const
{
return Object::sendMessage<MTL::Size>(this, _MTL_PRIVATE_SEL(physicalGranularity));
}
// property: layerCount
_MTL_INLINE NS::UInteger MTL::RasterizationRateMap::layerCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(layerCount));
}
// property: parameterBufferSizeAndAlign
_MTL_INLINE MTL::SizeAndAlign MTL::RasterizationRateMap::parameterBufferSizeAndAlign() const
{
return Object::sendMessage<MTL::SizeAndAlign>(this, _MTL_PRIVATE_SEL(parameterBufferSizeAndAlign));
}
// method: copyParameterDataToBuffer:offset:
_MTL_INLINE void MTL::RasterizationRateMap::copyParameterDataToBuffer(const MTL::Buffer* buffer, NS::UInteger offset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(copyParameterDataToBuffer_offset_), buffer, offset);
}
// method: physicalSizeForLayer:
_MTL_INLINE MTL::Size MTL::RasterizationRateMap::physicalSize(NS::UInteger layerIndex)
{
return Object::sendMessage<MTL::Size>(this, _MTL_PRIVATE_SEL(physicalSizeForLayer_), layerIndex);
}
// method: mapScreenToPhysicalCoordinates:forLayer:
_MTL_INLINE MTL::Coordinate2D MTL::RasterizationRateMap::mapScreenToPhysicalCoordinates(MTL::Coordinate2D screenCoordinates, NS::UInteger layerIndex)
{
return Object::sendMessage<MTL::Coordinate2D>(this, _MTL_PRIVATE_SEL(mapScreenToPhysicalCoordinates_forLayer_), screenCoordinates, layerIndex);
}
// method: mapPhysicalToScreenCoordinates:forLayer:
_MTL_INLINE MTL::Coordinate2D MTL::RasterizationRateMap::mapPhysicalToScreenCoordinates(MTL::Coordinate2D physicalCoordinates, NS::UInteger layerIndex)
{
return Object::sendMessage<MTL::Coordinate2D>(this, _MTL_PRIVATE_SEL(mapPhysicalToScreenCoordinates_forLayer_), physicalCoordinates, layerIndex);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLRenderPass.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 "MTLRenderPass.hpp"
namespace MTL
{
struct ClearColor
{
static ClearColor Make(double red, double green, double blue, double alpha);
ClearColor() = default;
ClearColor(double red, double green, double blue, double alpha);
double red;
double green;
double blue;
double alpha;
} _MTL_PACKED;
_MTL_ENUM(NS::UInteger, LoadAction) {
LoadActionDontCare = 0,
LoadActionLoad = 1,
LoadActionClear = 2,
};
_MTL_ENUM(NS::UInteger, StoreAction) {
StoreActionDontCare = 0,
StoreActionStore = 1,
StoreActionMultisampleResolve = 2,
StoreActionStoreAndMultisampleResolve = 3,
StoreActionUnknown = 4,
StoreActionCustomSampleDepthStore = 5,
};
_MTL_OPTIONS(NS::UInteger, StoreActionOptions) {
StoreActionOptionNone = 0,
StoreActionOptionCustomSamplePositions = 1,
StoreActionOptionValidMask = 1,
};
class RenderPassAttachmentDescriptor : public NS::Copying<RenderPassAttachmentDescriptor>
{
public:
static class RenderPassAttachmentDescriptor* alloc();
class RenderPassAttachmentDescriptor* init();
class Texture* texture() const;
void setTexture(const class Texture* texture);
NS::UInteger level() const;
void setLevel(NS::UInteger level);
NS::UInteger slice() const;
void setSlice(NS::UInteger slice);
NS::UInteger depthPlane() const;
void setDepthPlane(NS::UInteger depthPlane);
class Texture* resolveTexture() const;
void setResolveTexture(const class Texture* resolveTexture);
NS::UInteger resolveLevel() const;
void setResolveLevel(NS::UInteger resolveLevel);
NS::UInteger resolveSlice() const;
void setResolveSlice(NS::UInteger resolveSlice);
NS::UInteger resolveDepthPlane() const;
void setResolveDepthPlane(NS::UInteger resolveDepthPlane);
MTL::LoadAction loadAction() const;
void setLoadAction(MTL::LoadAction loadAction);
MTL::StoreAction storeAction() const;
void setStoreAction(MTL::StoreAction storeAction);
MTL::StoreActionOptions storeActionOptions() const;
void setStoreActionOptions(MTL::StoreActionOptions storeActionOptions);
};
class RenderPassColorAttachmentDescriptor : public NS::Copying<RenderPassColorAttachmentDescriptor, MTL::RenderPassAttachmentDescriptor>
{
public:
static class RenderPassColorAttachmentDescriptor* alloc();
class RenderPassColorAttachmentDescriptor* init();
MTL::ClearColor clearColor() const;
void setClearColor(MTL::ClearColor clearColor);
};
_MTL_ENUM(NS::UInteger, MultisampleDepthResolveFilter) {
MultisampleDepthResolveFilterSample0 = 0,
MultisampleDepthResolveFilterMin = 1,
MultisampleDepthResolveFilterMax = 2,
};
class RenderPassDepthAttachmentDescriptor : public NS::Copying<RenderPassDepthAttachmentDescriptor, MTL::RenderPassAttachmentDescriptor>
{
public:
static class RenderPassDepthAttachmentDescriptor* alloc();
class RenderPassDepthAttachmentDescriptor* init();
double clearDepth() const;
void setClearDepth(double clearDepth);
MTL::MultisampleDepthResolveFilter depthResolveFilter() const;
void setDepthResolveFilter(MTL::MultisampleDepthResolveFilter depthResolveFilter);
};
_MTL_ENUM(NS::UInteger, MultisampleStencilResolveFilter) {
MultisampleStencilResolveFilterSample0 = 0,
MultisampleStencilResolveFilterDepthResolvedSample = 1,
};
class RenderPassStencilAttachmentDescriptor : public NS::Copying<RenderPassStencilAttachmentDescriptor, MTL::RenderPassAttachmentDescriptor>
{
public:
static class RenderPassStencilAttachmentDescriptor* alloc();
class RenderPassStencilAttachmentDescriptor* init();
uint32_t clearStencil() const;
void setClearStencil(uint32_t clearStencil);
MTL::MultisampleStencilResolveFilter stencilResolveFilter() const;
void setStencilResolveFilter(MTL::MultisampleStencilResolveFilter stencilResolveFilter);
};
class RenderPassColorAttachmentDescriptorArray : public NS::Referencing<RenderPassColorAttachmentDescriptorArray>
{
public:
static class RenderPassColorAttachmentDescriptorArray* alloc();
class RenderPassColorAttachmentDescriptorArray* init();
class RenderPassColorAttachmentDescriptor* object(NS::UInteger attachmentIndex);
void setObject(const class RenderPassColorAttachmentDescriptor* attachment, NS::UInteger attachmentIndex);
};
class RenderPassSampleBufferAttachmentDescriptor : public NS::Copying<RenderPassSampleBufferAttachmentDescriptor>
{
public:
static class RenderPassSampleBufferAttachmentDescriptor* alloc();
class RenderPassSampleBufferAttachmentDescriptor* init();
class CounterSampleBuffer* sampleBuffer() const;
void setSampleBuffer(const class CounterSampleBuffer* sampleBuffer);
NS::UInteger startOfVertexSampleIndex() const;
void setStartOfVertexSampleIndex(NS::UInteger startOfVertexSampleIndex);
NS::UInteger endOfVertexSampleIndex() const;
void setEndOfVertexSampleIndex(NS::UInteger endOfVertexSampleIndex);
NS::UInteger startOfFragmentSampleIndex() const;
void setStartOfFragmentSampleIndex(NS::UInteger startOfFragmentSampleIndex);
NS::UInteger endOfFragmentSampleIndex() const;
void setEndOfFragmentSampleIndex(NS::UInteger endOfFragmentSampleIndex);
};
class RenderPassSampleBufferAttachmentDescriptorArray : public NS::Referencing<RenderPassSampleBufferAttachmentDescriptorArray>
{
public:
static class RenderPassSampleBufferAttachmentDescriptorArray* alloc();
class RenderPassSampleBufferAttachmentDescriptorArray* init();
class RenderPassSampleBufferAttachmentDescriptor* object(NS::UInteger attachmentIndex);
void setObject(const class RenderPassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex);
};
class RenderPassDescriptor : public NS::Copying<RenderPassDescriptor>
{
public:
static class RenderPassDescriptor* alloc();
class RenderPassDescriptor* init();
static class RenderPassDescriptor* renderPassDescriptor();
class RenderPassColorAttachmentDescriptorArray* colorAttachments() const;
class RenderPassDepthAttachmentDescriptor* depthAttachment() const;
void setDepthAttachment(const class RenderPassDepthAttachmentDescriptor* depthAttachment);
class RenderPassStencilAttachmentDescriptor* stencilAttachment() const;
void setStencilAttachment(const class RenderPassStencilAttachmentDescriptor* stencilAttachment);
class Buffer* visibilityResultBuffer() const;
void setVisibilityResultBuffer(const class Buffer* visibilityResultBuffer);
NS::UInteger renderTargetArrayLength() const;
void setRenderTargetArrayLength(NS::UInteger renderTargetArrayLength);
NS::UInteger imageblockSampleLength() const;
void setImageblockSampleLength(NS::UInteger imageblockSampleLength);
NS::UInteger threadgroupMemoryLength() const;
void setThreadgroupMemoryLength(NS::UInteger threadgroupMemoryLength);
NS::UInteger tileWidth() const;
void setTileWidth(NS::UInteger tileWidth);
NS::UInteger tileHeight() const;
void setTileHeight(NS::UInteger tileHeight);
NS::UInteger defaultRasterSampleCount() const;
void setDefaultRasterSampleCount(NS::UInteger defaultRasterSampleCount);
NS::UInteger renderTargetWidth() const;
void setRenderTargetWidth(NS::UInteger renderTargetWidth);
NS::UInteger renderTargetHeight() const;
void setRenderTargetHeight(NS::UInteger renderTargetHeight);
void setSamplePositions(const MTL::SamplePosition* positions, NS::UInteger count);
NS::UInteger getSamplePositions(MTL::SamplePosition* positions, NS::UInteger count);
class RasterizationRateMap* rasterizationRateMap() const;
void setRasterizationRateMap(const class RasterizationRateMap* rasterizationRateMap);
class RenderPassSampleBufferAttachmentDescriptorArray* sampleBufferAttachments() const;
};
}
_MTL_INLINE MTL::ClearColor MTL::ClearColor::Make(double red, double green, double blue, double alpha)
{
return ClearColor(red, green, blue, alpha);
}
_MTL_INLINE MTL::ClearColor::ClearColor(double _red, double _green, double _blue, double _alpha)
: red(_red)
, green(_green)
, blue(_blue)
, alpha(_alpha)
{
}
// static method: alloc
_MTL_INLINE MTL::RenderPassAttachmentDescriptor* MTL::RenderPassAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::RenderPassAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLRenderPassAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::RenderPassAttachmentDescriptor* MTL::RenderPassAttachmentDescriptor::init()
{
return NS::Object::init<MTL::RenderPassAttachmentDescriptor>();
}
// property: texture
_MTL_INLINE MTL::Texture* MTL::RenderPassAttachmentDescriptor::texture() const
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(texture));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setTexture(const MTL::Texture* texture)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTexture_), texture);
}
// property: level
_MTL_INLINE NS::UInteger MTL::RenderPassAttachmentDescriptor::level() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(level));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setLevel(NS::UInteger level)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLevel_), level);
}
// property: slice
_MTL_INLINE NS::UInteger MTL::RenderPassAttachmentDescriptor::slice() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(slice));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setSlice(NS::UInteger slice)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSlice_), slice);
}
// property: depthPlane
_MTL_INLINE NS::UInteger MTL::RenderPassAttachmentDescriptor::depthPlane() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(depthPlane));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setDepthPlane(NS::UInteger depthPlane)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthPlane_), depthPlane);
}
// property: resolveTexture
_MTL_INLINE MTL::Texture* MTL::RenderPassAttachmentDescriptor::resolveTexture() const
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(resolveTexture));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setResolveTexture(const MTL::Texture* resolveTexture)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setResolveTexture_), resolveTexture);
}
// property: resolveLevel
_MTL_INLINE NS::UInteger MTL::RenderPassAttachmentDescriptor::resolveLevel() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(resolveLevel));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setResolveLevel(NS::UInteger resolveLevel)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setResolveLevel_), resolveLevel);
}
// property: resolveSlice
_MTL_INLINE NS::UInteger MTL::RenderPassAttachmentDescriptor::resolveSlice() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(resolveSlice));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setResolveSlice(NS::UInteger resolveSlice)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setResolveSlice_), resolveSlice);
}
// property: resolveDepthPlane
_MTL_INLINE NS::UInteger MTL::RenderPassAttachmentDescriptor::resolveDepthPlane() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(resolveDepthPlane));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setResolveDepthPlane(NS::UInteger resolveDepthPlane)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setResolveDepthPlane_), resolveDepthPlane);
}
// property: loadAction
_MTL_INLINE MTL::LoadAction MTL::RenderPassAttachmentDescriptor::loadAction() const
{
return Object::sendMessage<MTL::LoadAction>(this, _MTL_PRIVATE_SEL(loadAction));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setLoadAction(MTL::LoadAction loadAction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLoadAction_), loadAction);
}
// property: storeAction
_MTL_INLINE MTL::StoreAction MTL::RenderPassAttachmentDescriptor::storeAction() const
{
return Object::sendMessage<MTL::StoreAction>(this, _MTL_PRIVATE_SEL(storeAction));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setStoreAction(MTL::StoreAction storeAction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStoreAction_), storeAction);
}
// property: storeActionOptions
_MTL_INLINE MTL::StoreActionOptions MTL::RenderPassAttachmentDescriptor::storeActionOptions() const
{
return Object::sendMessage<MTL::StoreActionOptions>(this, _MTL_PRIVATE_SEL(storeActionOptions));
}
_MTL_INLINE void MTL::RenderPassAttachmentDescriptor::setStoreActionOptions(MTL::StoreActionOptions storeActionOptions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStoreActionOptions_), storeActionOptions);
}
// static method: alloc
_MTL_INLINE MTL::RenderPassColorAttachmentDescriptor* MTL::RenderPassColorAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::RenderPassColorAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLRenderPassColorAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::RenderPassColorAttachmentDescriptor* MTL::RenderPassColorAttachmentDescriptor::init()
{
return NS::Object::init<MTL::RenderPassColorAttachmentDescriptor>();
}
// property: clearColor
_MTL_INLINE MTL::ClearColor MTL::RenderPassColorAttachmentDescriptor::clearColor() const
{
return Object::sendMessage<MTL::ClearColor>(this, _MTL_PRIVATE_SEL(clearColor));
}
_MTL_INLINE void MTL::RenderPassColorAttachmentDescriptor::setClearColor(MTL::ClearColor clearColor)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setClearColor_), clearColor);
}
// static method: alloc
_MTL_INLINE MTL::RenderPassDepthAttachmentDescriptor* MTL::RenderPassDepthAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::RenderPassDepthAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLRenderPassDepthAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::RenderPassDepthAttachmentDescriptor* MTL::RenderPassDepthAttachmentDescriptor::init()
{
return NS::Object::init<MTL::RenderPassDepthAttachmentDescriptor>();
}
// property: clearDepth
_MTL_INLINE double MTL::RenderPassDepthAttachmentDescriptor::clearDepth() const
{
return Object::sendMessage<double>(this, _MTL_PRIVATE_SEL(clearDepth));
}
_MTL_INLINE void MTL::RenderPassDepthAttachmentDescriptor::setClearDepth(double clearDepth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setClearDepth_), clearDepth);
}
// property: depthResolveFilter
_MTL_INLINE MTL::MultisampleDepthResolveFilter MTL::RenderPassDepthAttachmentDescriptor::depthResolveFilter() const
{
return Object::sendMessage<MTL::MultisampleDepthResolveFilter>(this, _MTL_PRIVATE_SEL(depthResolveFilter));
}
_MTL_INLINE void MTL::RenderPassDepthAttachmentDescriptor::setDepthResolveFilter(MTL::MultisampleDepthResolveFilter depthResolveFilter)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthResolveFilter_), depthResolveFilter);
}
// static method: alloc
_MTL_INLINE MTL::RenderPassStencilAttachmentDescriptor* MTL::RenderPassStencilAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::RenderPassStencilAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLRenderPassStencilAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::RenderPassStencilAttachmentDescriptor* MTL::RenderPassStencilAttachmentDescriptor::init()
{
return NS::Object::init<MTL::RenderPassStencilAttachmentDescriptor>();
}
// property: clearStencil
_MTL_INLINE uint32_t MTL::RenderPassStencilAttachmentDescriptor::clearStencil() const
{
return Object::sendMessage<uint32_t>(this, _MTL_PRIVATE_SEL(clearStencil));
}
_MTL_INLINE void MTL::RenderPassStencilAttachmentDescriptor::setClearStencil(uint32_t clearStencil)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setClearStencil_), clearStencil);
}
// property: stencilResolveFilter
_MTL_INLINE MTL::MultisampleStencilResolveFilter MTL::RenderPassStencilAttachmentDescriptor::stencilResolveFilter() const
{
return Object::sendMessage<MTL::MultisampleStencilResolveFilter>(this, _MTL_PRIVATE_SEL(stencilResolveFilter));
}
_MTL_INLINE void MTL::RenderPassStencilAttachmentDescriptor::setStencilResolveFilter(MTL::MultisampleStencilResolveFilter stencilResolveFilter)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStencilResolveFilter_), stencilResolveFilter);
}
// static method: alloc
_MTL_INLINE MTL::RenderPassColorAttachmentDescriptorArray* MTL::RenderPassColorAttachmentDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::RenderPassColorAttachmentDescriptorArray>(_MTL_PRIVATE_CLS(MTLRenderPassColorAttachmentDescriptorArray));
}
// method: init
_MTL_INLINE MTL::RenderPassColorAttachmentDescriptorArray* MTL::RenderPassColorAttachmentDescriptorArray::init()
{
return NS::Object::init<MTL::RenderPassColorAttachmentDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::RenderPassColorAttachmentDescriptor* MTL::RenderPassColorAttachmentDescriptorArray::object(NS::UInteger attachmentIndex)
{
return Object::sendMessage<MTL::RenderPassColorAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), attachmentIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::RenderPassColorAttachmentDescriptorArray::setObject(const MTL::RenderPassColorAttachmentDescriptor* attachment, NS::UInteger attachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attachment, attachmentIndex);
}
// static method: alloc
_MTL_INLINE MTL::RenderPassSampleBufferAttachmentDescriptor* MTL::RenderPassSampleBufferAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::RenderPassSampleBufferAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLRenderPassSampleBufferAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::RenderPassSampleBufferAttachmentDescriptor* MTL::RenderPassSampleBufferAttachmentDescriptor::init()
{
return NS::Object::init<MTL::RenderPassSampleBufferAttachmentDescriptor>();
}
// property: sampleBuffer
_MTL_INLINE MTL::CounterSampleBuffer* MTL::RenderPassSampleBufferAttachmentDescriptor::sampleBuffer() const
{
return Object::sendMessage<MTL::CounterSampleBuffer*>(this, _MTL_PRIVATE_SEL(sampleBuffer));
}
_MTL_INLINE void MTL::RenderPassSampleBufferAttachmentDescriptor::setSampleBuffer(const MTL::CounterSampleBuffer* sampleBuffer)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSampleBuffer_), sampleBuffer);
}
// property: startOfVertexSampleIndex
_MTL_INLINE NS::UInteger MTL::RenderPassSampleBufferAttachmentDescriptor::startOfVertexSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(startOfVertexSampleIndex));
}
_MTL_INLINE void MTL::RenderPassSampleBufferAttachmentDescriptor::setStartOfVertexSampleIndex(NS::UInteger startOfVertexSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStartOfVertexSampleIndex_), startOfVertexSampleIndex);
}
// property: endOfVertexSampleIndex
_MTL_INLINE NS::UInteger MTL::RenderPassSampleBufferAttachmentDescriptor::endOfVertexSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(endOfVertexSampleIndex));
}
_MTL_INLINE void MTL::RenderPassSampleBufferAttachmentDescriptor::setEndOfVertexSampleIndex(NS::UInteger endOfVertexSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setEndOfVertexSampleIndex_), endOfVertexSampleIndex);
}
// property: startOfFragmentSampleIndex
_MTL_INLINE NS::UInteger MTL::RenderPassSampleBufferAttachmentDescriptor::startOfFragmentSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(startOfFragmentSampleIndex));
}
_MTL_INLINE void MTL::RenderPassSampleBufferAttachmentDescriptor::setStartOfFragmentSampleIndex(NS::UInteger startOfFragmentSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStartOfFragmentSampleIndex_), startOfFragmentSampleIndex);
}
// property: endOfFragmentSampleIndex
_MTL_INLINE NS::UInteger MTL::RenderPassSampleBufferAttachmentDescriptor::endOfFragmentSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(endOfFragmentSampleIndex));
}
_MTL_INLINE void MTL::RenderPassSampleBufferAttachmentDescriptor::setEndOfFragmentSampleIndex(NS::UInteger endOfFragmentSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setEndOfFragmentSampleIndex_), endOfFragmentSampleIndex);
}
// static method: alloc
_MTL_INLINE MTL::RenderPassSampleBufferAttachmentDescriptorArray* MTL::RenderPassSampleBufferAttachmentDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::RenderPassSampleBufferAttachmentDescriptorArray>(_MTL_PRIVATE_CLS(MTLRenderPassSampleBufferAttachmentDescriptorArray));
}
// method: init
_MTL_INLINE MTL::RenderPassSampleBufferAttachmentDescriptorArray* MTL::RenderPassSampleBufferAttachmentDescriptorArray::init()
{
return NS::Object::init<MTL::RenderPassSampleBufferAttachmentDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::RenderPassSampleBufferAttachmentDescriptor* MTL::RenderPassSampleBufferAttachmentDescriptorArray::object(NS::UInteger attachmentIndex)
{
return Object::sendMessage<MTL::RenderPassSampleBufferAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), attachmentIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::RenderPassSampleBufferAttachmentDescriptorArray::setObject(const MTL::RenderPassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attachment, attachmentIndex);
}
// static method: alloc
_MTL_INLINE MTL::RenderPassDescriptor* MTL::RenderPassDescriptor::alloc()
{
return NS::Object::alloc<MTL::RenderPassDescriptor>(_MTL_PRIVATE_CLS(MTLRenderPassDescriptor));
}
// method: init
_MTL_INLINE MTL::RenderPassDescriptor* MTL::RenderPassDescriptor::init()
{
return NS::Object::init<MTL::RenderPassDescriptor>();
}
// static method: renderPassDescriptor
_MTL_INLINE MTL::RenderPassDescriptor* MTL::RenderPassDescriptor::renderPassDescriptor()
{
return Object::sendMessage<MTL::RenderPassDescriptor*>(_MTL_PRIVATE_CLS(MTLRenderPassDescriptor), _MTL_PRIVATE_SEL(renderPassDescriptor));
}
// property: colorAttachments
_MTL_INLINE MTL::RenderPassColorAttachmentDescriptorArray* MTL::RenderPassDescriptor::colorAttachments() const
{
return Object::sendMessage<MTL::RenderPassColorAttachmentDescriptorArray*>(this, _MTL_PRIVATE_SEL(colorAttachments));
}
// property: depthAttachment
_MTL_INLINE MTL::RenderPassDepthAttachmentDescriptor* MTL::RenderPassDescriptor::depthAttachment() const
{
return Object::sendMessage<MTL::RenderPassDepthAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(depthAttachment));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setDepthAttachment(const MTL::RenderPassDepthAttachmentDescriptor* depthAttachment)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepthAttachment_), depthAttachment);
}
// property: stencilAttachment
_MTL_INLINE MTL::RenderPassStencilAttachmentDescriptor* MTL::RenderPassDescriptor::stencilAttachment() const
{
return Object::sendMessage<MTL::RenderPassStencilAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(stencilAttachment));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setStencilAttachment(const MTL::RenderPassStencilAttachmentDescriptor* stencilAttachment)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStencilAttachment_), stencilAttachment);
}
// property: visibilityResultBuffer
_MTL_INLINE MTL::Buffer* MTL::RenderPassDescriptor::visibilityResultBuffer() const
{
return Object::sendMessage<MTL::Buffer*>(this, _MTL_PRIVATE_SEL(visibilityResultBuffer));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setVisibilityResultBuffer(const MTL::Buffer* visibilityResultBuffer)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setVisibilityResultBuffer_), visibilityResultBuffer);
}
// property: renderTargetArrayLength
_MTL_INLINE NS::UInteger MTL::RenderPassDescriptor::renderTargetArrayLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(renderTargetArrayLength));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setRenderTargetArrayLength(NS::UInteger renderTargetArrayLength)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRenderTargetArrayLength_), renderTargetArrayLength);
}
// property: imageblockSampleLength
_MTL_INLINE NS::UInteger MTL::RenderPassDescriptor::imageblockSampleLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(imageblockSampleLength));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setImageblockSampleLength(NS::UInteger imageblockSampleLength)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setImageblockSampleLength_), imageblockSampleLength);
}
// property: threadgroupMemoryLength
_MTL_INLINE NS::UInteger MTL::RenderPassDescriptor::threadgroupMemoryLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(threadgroupMemoryLength));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setThreadgroupMemoryLength(NS::UInteger threadgroupMemoryLength)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setThreadgroupMemoryLength_), threadgroupMemoryLength);
}
// property: tileWidth
_MTL_INLINE NS::UInteger MTL::RenderPassDescriptor::tileWidth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(tileWidth));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setTileWidth(NS::UInteger tileWidth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTileWidth_), tileWidth);
}
// property: tileHeight
_MTL_INLINE NS::UInteger MTL::RenderPassDescriptor::tileHeight() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(tileHeight));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setTileHeight(NS::UInteger tileHeight)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTileHeight_), tileHeight);
}
// property: defaultRasterSampleCount
_MTL_INLINE NS::UInteger MTL::RenderPassDescriptor::defaultRasterSampleCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(defaultRasterSampleCount));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setDefaultRasterSampleCount(NS::UInteger defaultRasterSampleCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDefaultRasterSampleCount_), defaultRasterSampleCount);
}
// property: renderTargetWidth
_MTL_INLINE NS::UInteger MTL::RenderPassDescriptor::renderTargetWidth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(renderTargetWidth));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setRenderTargetWidth(NS::UInteger renderTargetWidth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRenderTargetWidth_), renderTargetWidth);
}
// property: renderTargetHeight
_MTL_INLINE NS::UInteger MTL::RenderPassDescriptor::renderTargetHeight() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(renderTargetHeight));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setRenderTargetHeight(NS::UInteger renderTargetHeight)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRenderTargetHeight_), renderTargetHeight);
}
// method: setSamplePositions:count:
_MTL_INLINE void MTL::RenderPassDescriptor::setSamplePositions(const MTL::SamplePosition* positions, NS::UInteger count)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSamplePositions_count_), positions, count);
}
// method: getSamplePositions:count:
_MTL_INLINE NS::UInteger MTL::RenderPassDescriptor::getSamplePositions(MTL::SamplePosition* positions, NS::UInteger count)
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(getSamplePositions_count_), positions, count);
}
// property: rasterizationRateMap
_MTL_INLINE MTL::RasterizationRateMap* MTL::RenderPassDescriptor::rasterizationRateMap() const
{
return Object::sendMessage<MTL::RasterizationRateMap*>(this, _MTL_PRIVATE_SEL(rasterizationRateMap));
}
_MTL_INLINE void MTL::RenderPassDescriptor::setRasterizationRateMap(const MTL::RasterizationRateMap* rasterizationRateMap)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRasterizationRateMap_), rasterizationRateMap);
}
// property: sampleBufferAttachments
_MTL_INLINE MTL::RenderPassSampleBufferAttachmentDescriptorArray* MTL::RenderPassDescriptor::sampleBufferAttachments() const
{
return Object::sendMessage<MTL::RenderPassSampleBufferAttachmentDescriptorArray*>(this, _MTL_PRIVATE_SEL(sampleBufferAttachments));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLResource.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 "MTLResource.hpp"
namespace MTL
{
_MTL_ENUM(NS::UInteger, PurgeableState) {
PurgeableStateKeepCurrent = 1,
PurgeableStateNonVolatile = 2,
PurgeableStateVolatile = 3,
PurgeableStateEmpty = 4,
};
_MTL_ENUM(NS::UInteger, CPUCacheMode) {
CPUCacheModeDefaultCache = 0,
CPUCacheModeWriteCombined = 1,
};
_MTL_ENUM(NS::UInteger, StorageMode) {
StorageModeShared = 0,
StorageModeManaged = 1,
StorageModePrivate = 2,
StorageModeMemoryless = 3,
};
_MTL_ENUM(NS::UInteger, HazardTrackingMode) {
HazardTrackingModeDefault = 0,
HazardTrackingModeUntracked = 1,
HazardTrackingModeTracked = 2,
};
_MTL_OPTIONS(NS::UInteger, ResourceOptions) {
ResourceCPUCacheModeDefaultCache = 0,
ResourceCPUCacheModeWriteCombined = 1,
ResourceStorageModeShared = 0,
ResourceStorageModeManaged = 16,
ResourceStorageModePrivate = 32,
ResourceStorageModeMemoryless = 48,
ResourceHazardTrackingModeDefault = 0,
ResourceHazardTrackingModeUntracked = 256,
ResourceHazardTrackingModeTracked = 512,
ResourceOptionCPUCacheModeDefault = 0,
ResourceOptionCPUCacheModeWriteCombined = 1,
};
class Resource : public NS::Referencing<Resource>
{
public:
NS::String* label() const;
void setLabel(const NS::String* label);
class Device* device() const;
MTL::CPUCacheMode cpuCacheMode() const;
MTL::StorageMode storageMode() const;
MTL::HazardTrackingMode hazardTrackingMode() const;
MTL::ResourceOptions resourceOptions() const;
MTL::PurgeableState setPurgeableState(MTL::PurgeableState state);
class Heap* heap() const;
NS::UInteger heapOffset() const;
NS::UInteger allocatedSize() const;
void makeAliasable();
bool isAliasable();
};
}
// property: label
_MTL_INLINE NS::String* MTL::Resource::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::Resource::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: device
_MTL_INLINE MTL::Device* MTL::Resource::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: cpuCacheMode
_MTL_INLINE MTL::CPUCacheMode MTL::Resource::cpuCacheMode() const
{
return Object::sendMessage<MTL::CPUCacheMode>(this, _MTL_PRIVATE_SEL(cpuCacheMode));
}
// property: storageMode
_MTL_INLINE MTL::StorageMode MTL::Resource::storageMode() const
{
return Object::sendMessage<MTL::StorageMode>(this, _MTL_PRIVATE_SEL(storageMode));
}
// property: hazardTrackingMode
_MTL_INLINE MTL::HazardTrackingMode MTL::Resource::hazardTrackingMode() const
{
return Object::sendMessage<MTL::HazardTrackingMode>(this, _MTL_PRIVATE_SEL(hazardTrackingMode));
}
// property: resourceOptions
_MTL_INLINE MTL::ResourceOptions MTL::Resource::resourceOptions() const
{
return Object::sendMessage<MTL::ResourceOptions>(this, _MTL_PRIVATE_SEL(resourceOptions));
}
// method: setPurgeableState:
_MTL_INLINE MTL::PurgeableState MTL::Resource::setPurgeableState(MTL::PurgeableState state)
{
return Object::sendMessage<MTL::PurgeableState>(this, _MTL_PRIVATE_SEL(setPurgeableState_), state);
}
// property: heap
_MTL_INLINE MTL::Heap* MTL::Resource::heap() const
{
return Object::sendMessage<MTL::Heap*>(this, _MTL_PRIVATE_SEL(heap));
}
// property: heapOffset
_MTL_INLINE NS::UInteger MTL::Resource::heapOffset() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(heapOffset));
}
// property: allocatedSize
_MTL_INLINE NS::UInteger MTL::Resource::allocatedSize() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(allocatedSize));
}
// method: makeAliasable
_MTL_INLINE void MTL::Resource::makeAliasable()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(makeAliasable));
}
// method: isAliasable
_MTL_INLINE bool MTL::Resource::isAliasable()
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isAliasable));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLResourceStateCommandEncoder.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 "MTLCommandEncoder.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
_MTL_ENUM(NS::UInteger, SparseTextureMappingMode) {
SparseTextureMappingModeMap = 0,
SparseTextureMappingModeUnmap = 1,
};
struct MapIndirectArguments
{
uint32_t regionOriginX;
uint32_t regionOriginY;
uint32_t regionOriginZ;
uint32_t regionSizeWidth;
uint32_t regionSizeHeight;
uint32_t regionSizeDepth;
uint32_t mipMapLevel;
uint32_t sliceId;
} _MTL_PACKED;
class ResourceStateCommandEncoder : public NS::Referencing<ResourceStateCommandEncoder, CommandEncoder>
{
public:
void updateTextureMappings(const class Texture* texture, const MTL::SparseTextureMappingMode mode, const MTL::Region* regions, const NS::UInteger* mipLevels, const NS::UInteger* slices, NS::UInteger numRegions);
void updateTextureMapping(const class Texture* texture, const MTL::SparseTextureMappingMode mode, const MTL::Region region, const NS::UInteger mipLevel, const NS::UInteger slice);
void updateTextureMapping(const class Texture* texture, const MTL::SparseTextureMappingMode mode, const class Buffer* indirectBuffer, NS::UInteger indirectBufferOffset);
void updateFence(const class Fence* fence);
void waitForFence(const class Fence* fence);
void moveTextureMappingsFromTexture(const class Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, MTL::Origin sourceOrigin, MTL::Size sourceSize, const class Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, MTL::Origin destinationOrigin);
};
}
// method: updateTextureMappings:mode:regions:mipLevels:slices:numRegions:
_MTL_INLINE void MTL::ResourceStateCommandEncoder::updateTextureMappings(const MTL::Texture* texture, const MTL::SparseTextureMappingMode mode, const MTL::Region* regions, const NS::UInteger* mipLevels, const NS::UInteger* slices, NS::UInteger numRegions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(updateTextureMappings_mode_regions_mipLevels_slices_numRegions_), texture, mode, regions, mipLevels, slices, numRegions);
}
// method: updateTextureMapping:mode:region:mipLevel:slice:
_MTL_INLINE void MTL::ResourceStateCommandEncoder::updateTextureMapping(const MTL::Texture* texture, const MTL::SparseTextureMappingMode mode, const MTL::Region region, const NS::UInteger mipLevel, const NS::UInteger slice)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(updateTextureMapping_mode_region_mipLevel_slice_), texture, mode, region, mipLevel, slice);
}
// method: updateTextureMapping:mode:indirectBuffer:indirectBufferOffset:
_MTL_INLINE void MTL::ResourceStateCommandEncoder::updateTextureMapping(const MTL::Texture* texture, const MTL::SparseTextureMappingMode mode, const MTL::Buffer* indirectBuffer, NS::UInteger indirectBufferOffset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(updateTextureMapping_mode_indirectBuffer_indirectBufferOffset_), texture, mode, indirectBuffer, indirectBufferOffset);
}
// method: updateFence:
_MTL_INLINE void MTL::ResourceStateCommandEncoder::updateFence(const MTL::Fence* fence)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(updateFence_), fence);
}
// method: waitForFence:
_MTL_INLINE void MTL::ResourceStateCommandEncoder::waitForFence(const MTL::Fence* fence)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(waitForFence_), fence);
}
// method: moveTextureMappingsFromTexture:sourceSlice:sourceLevel:sourceOrigin:sourceSize:toTexture:destinationSlice:destinationLevel:destinationOrigin:
_MTL_INLINE void MTL::ResourceStateCommandEncoder::moveTextureMappingsFromTexture(const MTL::Texture* sourceTexture, NS::UInteger sourceSlice, NS::UInteger sourceLevel, MTL::Origin sourceOrigin, MTL::Size sourceSize, const MTL::Texture* destinationTexture, NS::UInteger destinationSlice, NS::UInteger destinationLevel, MTL::Origin destinationOrigin)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(moveTextureMappingsFromTexture_sourceSlice_sourceLevel_sourceOrigin_sourceSize_toTexture_destinationSlice_destinationLevel_destinationOrigin_), sourceTexture, sourceSlice, sourceLevel, sourceOrigin, sourceSize, destinationTexture, destinationSlice, destinationLevel, destinationOrigin);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLResourceStatePass.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>
namespace MTL
{
class ResourceStatePassSampleBufferAttachmentDescriptor : public NS::Copying<ResourceStatePassSampleBufferAttachmentDescriptor>
{
public:
static class ResourceStatePassSampleBufferAttachmentDescriptor* alloc();
class ResourceStatePassSampleBufferAttachmentDescriptor* init();
class CounterSampleBuffer* sampleBuffer() const;
void setSampleBuffer(const class CounterSampleBuffer* sampleBuffer);
NS::UInteger startOfEncoderSampleIndex() const;
void setStartOfEncoderSampleIndex(NS::UInteger startOfEncoderSampleIndex);
NS::UInteger endOfEncoderSampleIndex() const;
void setEndOfEncoderSampleIndex(NS::UInteger endOfEncoderSampleIndex);
};
class ResourceStatePassSampleBufferAttachmentDescriptorArray : public NS::Referencing<ResourceStatePassSampleBufferAttachmentDescriptorArray>
{
public:
static class ResourceStatePassSampleBufferAttachmentDescriptorArray* alloc();
class ResourceStatePassSampleBufferAttachmentDescriptorArray* init();
class ResourceStatePassSampleBufferAttachmentDescriptor* object(NS::UInteger attachmentIndex);
void setObject(const class ResourceStatePassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex);
};
class ResourceStatePassDescriptor : public NS::Copying<ResourceStatePassDescriptor>
{
public:
static class ResourceStatePassDescriptor* alloc();
class ResourceStatePassDescriptor* init();
static class ResourceStatePassDescriptor* resourceStatePassDescriptor();
class ResourceStatePassSampleBufferAttachmentDescriptorArray* sampleBufferAttachments() const;
};
}
// static method: alloc
_MTL_INLINE MTL::ResourceStatePassSampleBufferAttachmentDescriptor* MTL::ResourceStatePassSampleBufferAttachmentDescriptor::alloc()
{
return NS::Object::alloc<MTL::ResourceStatePassSampleBufferAttachmentDescriptor>(_MTL_PRIVATE_CLS(MTLResourceStatePassSampleBufferAttachmentDescriptor));
}
// method: init
_MTL_INLINE MTL::ResourceStatePassSampleBufferAttachmentDescriptor* MTL::ResourceStatePassSampleBufferAttachmentDescriptor::init()
{
return NS::Object::init<MTL::ResourceStatePassSampleBufferAttachmentDescriptor>();
}
// property: sampleBuffer
_MTL_INLINE MTL::CounterSampleBuffer* MTL::ResourceStatePassSampleBufferAttachmentDescriptor::sampleBuffer() const
{
return Object::sendMessage<MTL::CounterSampleBuffer*>(this, _MTL_PRIVATE_SEL(sampleBuffer));
}
_MTL_INLINE void MTL::ResourceStatePassSampleBufferAttachmentDescriptor::setSampleBuffer(const MTL::CounterSampleBuffer* sampleBuffer)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSampleBuffer_), sampleBuffer);
}
// property: startOfEncoderSampleIndex
_MTL_INLINE NS::UInteger MTL::ResourceStatePassSampleBufferAttachmentDescriptor::startOfEncoderSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(startOfEncoderSampleIndex));
}
_MTL_INLINE void MTL::ResourceStatePassSampleBufferAttachmentDescriptor::setStartOfEncoderSampleIndex(NS::UInteger startOfEncoderSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStartOfEncoderSampleIndex_), startOfEncoderSampleIndex);
}
// property: endOfEncoderSampleIndex
_MTL_INLINE NS::UInteger MTL::ResourceStatePassSampleBufferAttachmentDescriptor::endOfEncoderSampleIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(endOfEncoderSampleIndex));
}
_MTL_INLINE void MTL::ResourceStatePassSampleBufferAttachmentDescriptor::setEndOfEncoderSampleIndex(NS::UInteger endOfEncoderSampleIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setEndOfEncoderSampleIndex_), endOfEncoderSampleIndex);
}
// static method: alloc
_MTL_INLINE MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray* MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray>(_MTL_PRIVATE_CLS(MTLResourceStatePassSampleBufferAttachmentDescriptorArray));
}
// method: init
_MTL_INLINE MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray* MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray::init()
{
return NS::Object::init<MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::ResourceStatePassSampleBufferAttachmentDescriptor* MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray::object(NS::UInteger attachmentIndex)
{
return Object::sendMessage<MTL::ResourceStatePassSampleBufferAttachmentDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), attachmentIndex);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray::setObject(const MTL::ResourceStatePassSampleBufferAttachmentDescriptor* attachment, NS::UInteger attachmentIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attachment, attachmentIndex);
}
// static method: alloc
_MTL_INLINE MTL::ResourceStatePassDescriptor* MTL::ResourceStatePassDescriptor::alloc()
{
return NS::Object::alloc<MTL::ResourceStatePassDescriptor>(_MTL_PRIVATE_CLS(MTLResourceStatePassDescriptor));
}
// method: init
_MTL_INLINE MTL::ResourceStatePassDescriptor* MTL::ResourceStatePassDescriptor::init()
{
return NS::Object::init<MTL::ResourceStatePassDescriptor>();
}
// static method: resourceStatePassDescriptor
_MTL_INLINE MTL::ResourceStatePassDescriptor* MTL::ResourceStatePassDescriptor::resourceStatePassDescriptor()
{
return Object::sendMessage<MTL::ResourceStatePassDescriptor*>(_MTL_PRIVATE_CLS(MTLResourceStatePassDescriptor), _MTL_PRIVATE_SEL(resourceStatePassDescriptor));
}
// property: sampleBufferAttachments
_MTL_INLINE MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray* MTL::ResourceStatePassDescriptor::sampleBufferAttachments() const
{
return Object::sendMessage<MTL::ResourceStatePassSampleBufferAttachmentDescriptorArray*>(this, _MTL_PRIVATE_SEL(sampleBufferAttachments));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLSampler.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 "MTLDepthStencil.hpp"
#include "MTLSampler.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
_MTL_ENUM(NS::UInteger, SamplerMinMagFilter) {
SamplerMinMagFilterNearest = 0,
SamplerMinMagFilterLinear = 1,
};
_MTL_ENUM(NS::UInteger, SamplerMipFilter) {
SamplerMipFilterNotMipmapped = 0,
SamplerMipFilterNearest = 1,
SamplerMipFilterLinear = 2,
};
_MTL_ENUM(NS::UInteger, SamplerAddressMode) {
SamplerAddressModeClampToEdge = 0,
SamplerAddressModeMirrorClampToEdge = 1,
SamplerAddressModeRepeat = 2,
SamplerAddressModeMirrorRepeat = 3,
SamplerAddressModeClampToZero = 4,
SamplerAddressModeClampToBorderColor = 5,
};
_MTL_ENUM(NS::UInteger, SamplerBorderColor) {
SamplerBorderColorTransparentBlack = 0,
SamplerBorderColorOpaqueBlack = 1,
SamplerBorderColorOpaqueWhite = 2,
};
class SamplerDescriptor : public NS::Copying<SamplerDescriptor>
{
public:
static class SamplerDescriptor* alloc();
class SamplerDescriptor* init();
MTL::SamplerMinMagFilter minFilter() const;
void setMinFilter(MTL::SamplerMinMagFilter minFilter);
MTL::SamplerMinMagFilter magFilter() const;
void setMagFilter(MTL::SamplerMinMagFilter magFilter);
MTL::SamplerMipFilter mipFilter() const;
void setMipFilter(MTL::SamplerMipFilter mipFilter);
NS::UInteger maxAnisotropy() const;
void setMaxAnisotropy(NS::UInteger maxAnisotropy);
MTL::SamplerAddressMode sAddressMode() const;
void setSAddressMode(MTL::SamplerAddressMode sAddressMode);
MTL::SamplerAddressMode tAddressMode() const;
void setTAddressMode(MTL::SamplerAddressMode tAddressMode);
MTL::SamplerAddressMode rAddressMode() const;
void setRAddressMode(MTL::SamplerAddressMode rAddressMode);
MTL::SamplerBorderColor borderColor() const;
void setBorderColor(MTL::SamplerBorderColor borderColor);
bool normalizedCoordinates() const;
void setNormalizedCoordinates(bool normalizedCoordinates);
float lodMinClamp() const;
void setLodMinClamp(float lodMinClamp);
float lodMaxClamp() const;
void setLodMaxClamp(float lodMaxClamp);
bool lodAverage() const;
void setLodAverage(bool lodAverage);
MTL::CompareFunction compareFunction() const;
void setCompareFunction(MTL::CompareFunction compareFunction);
bool supportArgumentBuffers() const;
void setSupportArgumentBuffers(bool supportArgumentBuffers);
NS::String* label() const;
void setLabel(const NS::String* label);
};
class SamplerState : public NS::Referencing<SamplerState>
{
public:
NS::String* label() const;
class Device* device() const;
MTL::ResourceID gpuResourceID() const;
};
}
// static method: alloc
_MTL_INLINE MTL::SamplerDescriptor* MTL::SamplerDescriptor::alloc()
{
return NS::Object::alloc<MTL::SamplerDescriptor>(_MTL_PRIVATE_CLS(MTLSamplerDescriptor));
}
// method: init
_MTL_INLINE MTL::SamplerDescriptor* MTL::SamplerDescriptor::init()
{
return NS::Object::init<MTL::SamplerDescriptor>();
}
// property: minFilter
_MTL_INLINE MTL::SamplerMinMagFilter MTL::SamplerDescriptor::minFilter() const
{
return Object::sendMessage<MTL::SamplerMinMagFilter>(this, _MTL_PRIVATE_SEL(minFilter));
}
_MTL_INLINE void MTL::SamplerDescriptor::setMinFilter(MTL::SamplerMinMagFilter minFilter)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMinFilter_), minFilter);
}
// property: magFilter
_MTL_INLINE MTL::SamplerMinMagFilter MTL::SamplerDescriptor::magFilter() const
{
return Object::sendMessage<MTL::SamplerMinMagFilter>(this, _MTL_PRIVATE_SEL(magFilter));
}
_MTL_INLINE void MTL::SamplerDescriptor::setMagFilter(MTL::SamplerMinMagFilter magFilter)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMagFilter_), magFilter);
}
// property: mipFilter
_MTL_INLINE MTL::SamplerMipFilter MTL::SamplerDescriptor::mipFilter() const
{
return Object::sendMessage<MTL::SamplerMipFilter>(this, _MTL_PRIVATE_SEL(mipFilter));
}
_MTL_INLINE void MTL::SamplerDescriptor::setMipFilter(MTL::SamplerMipFilter mipFilter)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMipFilter_), mipFilter);
}
// property: maxAnisotropy
_MTL_INLINE NS::UInteger MTL::SamplerDescriptor::maxAnisotropy() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(maxAnisotropy));
}
_MTL_INLINE void MTL::SamplerDescriptor::setMaxAnisotropy(NS::UInteger maxAnisotropy)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMaxAnisotropy_), maxAnisotropy);
}
// property: sAddressMode
_MTL_INLINE MTL::SamplerAddressMode MTL::SamplerDescriptor::sAddressMode() const
{
return Object::sendMessage<MTL::SamplerAddressMode>(this, _MTL_PRIVATE_SEL(sAddressMode));
}
_MTL_INLINE void MTL::SamplerDescriptor::setSAddressMode(MTL::SamplerAddressMode sAddressMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSAddressMode_), sAddressMode);
}
// property: tAddressMode
_MTL_INLINE MTL::SamplerAddressMode MTL::SamplerDescriptor::tAddressMode() const
{
return Object::sendMessage<MTL::SamplerAddressMode>(this, _MTL_PRIVATE_SEL(tAddressMode));
}
_MTL_INLINE void MTL::SamplerDescriptor::setTAddressMode(MTL::SamplerAddressMode tAddressMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTAddressMode_), tAddressMode);
}
// property: rAddressMode
_MTL_INLINE MTL::SamplerAddressMode MTL::SamplerDescriptor::rAddressMode() const
{
return Object::sendMessage<MTL::SamplerAddressMode>(this, _MTL_PRIVATE_SEL(rAddressMode));
}
_MTL_INLINE void MTL::SamplerDescriptor::setRAddressMode(MTL::SamplerAddressMode rAddressMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setRAddressMode_), rAddressMode);
}
// property: borderColor
_MTL_INLINE MTL::SamplerBorderColor MTL::SamplerDescriptor::borderColor() const
{
return Object::sendMessage<MTL::SamplerBorderColor>(this, _MTL_PRIVATE_SEL(borderColor));
}
_MTL_INLINE void MTL::SamplerDescriptor::setBorderColor(MTL::SamplerBorderColor borderColor)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBorderColor_), borderColor);
}
// property: normalizedCoordinates
_MTL_INLINE bool MTL::SamplerDescriptor::normalizedCoordinates() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(normalizedCoordinates));
}
_MTL_INLINE void MTL::SamplerDescriptor::setNormalizedCoordinates(bool normalizedCoordinates)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setNormalizedCoordinates_), normalizedCoordinates);
}
// property: lodMinClamp
_MTL_INLINE float MTL::SamplerDescriptor::lodMinClamp() const
{
return Object::sendMessage<float>(this, _MTL_PRIVATE_SEL(lodMinClamp));
}
_MTL_INLINE void MTL::SamplerDescriptor::setLodMinClamp(float lodMinClamp)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLodMinClamp_), lodMinClamp);
}
// property: lodMaxClamp
_MTL_INLINE float MTL::SamplerDescriptor::lodMaxClamp() const
{
return Object::sendMessage<float>(this, _MTL_PRIVATE_SEL(lodMaxClamp));
}
_MTL_INLINE void MTL::SamplerDescriptor::setLodMaxClamp(float lodMaxClamp)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLodMaxClamp_), lodMaxClamp);
}
// property: lodAverage
_MTL_INLINE bool MTL::SamplerDescriptor::lodAverage() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(lodAverage));
}
_MTL_INLINE void MTL::SamplerDescriptor::setLodAverage(bool lodAverage)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLodAverage_), lodAverage);
}
// property: compareFunction
_MTL_INLINE MTL::CompareFunction MTL::SamplerDescriptor::compareFunction() const
{
return Object::sendMessage<MTL::CompareFunction>(this, _MTL_PRIVATE_SEL(compareFunction));
}
_MTL_INLINE void MTL::SamplerDescriptor::setCompareFunction(MTL::CompareFunction compareFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setCompareFunction_), compareFunction);
}
// property: supportArgumentBuffers
_MTL_INLINE bool MTL::SamplerDescriptor::supportArgumentBuffers() const
{
return Object::sendMessageSafe<bool>(this, _MTL_PRIVATE_SEL(supportArgumentBuffers));
}
_MTL_INLINE void MTL::SamplerDescriptor::setSupportArgumentBuffers(bool supportArgumentBuffers)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSupportArgumentBuffers_), supportArgumentBuffers);
}
// property: label
_MTL_INLINE NS::String* MTL::SamplerDescriptor::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
_MTL_INLINE void MTL::SamplerDescriptor::setLabel(const NS::String* label)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setLabel_), label);
}
// property: label
_MTL_INLINE NS::String* MTL::SamplerState::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
// property: device
_MTL_INLINE MTL::Device* MTL::SamplerState::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: gpuResourceID
_MTL_INLINE MTL::ResourceID MTL::SamplerState::gpuResourceID() const
{
return Object::sendMessage<MTL::ResourceID>(this, _MTL_PRIVATE_SEL(gpuResourceID));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLStageInputOutputDescriptor.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 "MTLStageInputOutputDescriptor.hpp"
namespace MTL
{
_MTL_ENUM(NS::UInteger, AttributeFormat) {
AttributeFormatInvalid = 0,
AttributeFormatUChar2 = 1,
AttributeFormatUChar3 = 2,
AttributeFormatUChar4 = 3,
AttributeFormatChar2 = 4,
AttributeFormatChar3 = 5,
AttributeFormatChar4 = 6,
AttributeFormatUChar2Normalized = 7,
AttributeFormatUChar3Normalized = 8,
AttributeFormatUChar4Normalized = 9,
AttributeFormatChar2Normalized = 10,
AttributeFormatChar3Normalized = 11,
AttributeFormatChar4Normalized = 12,
AttributeFormatUShort2 = 13,
AttributeFormatUShort3 = 14,
AttributeFormatUShort4 = 15,
AttributeFormatShort2 = 16,
AttributeFormatShort3 = 17,
AttributeFormatShort4 = 18,
AttributeFormatUShort2Normalized = 19,
AttributeFormatUShort3Normalized = 20,
AttributeFormatUShort4Normalized = 21,
AttributeFormatShort2Normalized = 22,
AttributeFormatShort3Normalized = 23,
AttributeFormatShort4Normalized = 24,
AttributeFormatHalf2 = 25,
AttributeFormatHalf3 = 26,
AttributeFormatHalf4 = 27,
AttributeFormatFloat = 28,
AttributeFormatFloat2 = 29,
AttributeFormatFloat3 = 30,
AttributeFormatFloat4 = 31,
AttributeFormatInt = 32,
AttributeFormatInt2 = 33,
AttributeFormatInt3 = 34,
AttributeFormatInt4 = 35,
AttributeFormatUInt = 36,
AttributeFormatUInt2 = 37,
AttributeFormatUInt3 = 38,
AttributeFormatUInt4 = 39,
AttributeFormatInt1010102Normalized = 40,
AttributeFormatUInt1010102Normalized = 41,
AttributeFormatUChar4Normalized_BGRA = 42,
AttributeFormatUChar = 45,
AttributeFormatChar = 46,
AttributeFormatUCharNormalized = 47,
AttributeFormatCharNormalized = 48,
AttributeFormatUShort = 49,
AttributeFormatShort = 50,
AttributeFormatUShortNormalized = 51,
AttributeFormatShortNormalized = 52,
AttributeFormatHalf = 53,
AttributeFormatFloatRG11B10 = 54,
AttributeFormatFloatRGB9E5 = 55,
};
_MTL_ENUM(NS::UInteger, IndexType) {
IndexTypeUInt16 = 0,
IndexTypeUInt32 = 1,
};
_MTL_ENUM(NS::UInteger, StepFunction) {
StepFunctionConstant = 0,
StepFunctionPerVertex = 1,
StepFunctionPerInstance = 2,
StepFunctionPerPatch = 3,
StepFunctionPerPatchControlPoint = 4,
StepFunctionThreadPositionInGridX = 5,
StepFunctionThreadPositionInGridY = 6,
StepFunctionThreadPositionInGridXIndexed = 7,
StepFunctionThreadPositionInGridYIndexed = 8,
};
class BufferLayoutDescriptor : public NS::Copying<BufferLayoutDescriptor>
{
public:
static class BufferLayoutDescriptor* alloc();
class BufferLayoutDescriptor* init();
NS::UInteger stride() const;
void setStride(NS::UInteger stride);
MTL::StepFunction stepFunction() const;
void setStepFunction(MTL::StepFunction stepFunction);
NS::UInteger stepRate() const;
void setStepRate(NS::UInteger stepRate);
};
class BufferLayoutDescriptorArray : public NS::Referencing<BufferLayoutDescriptorArray>
{
public:
static class BufferLayoutDescriptorArray* alloc();
class BufferLayoutDescriptorArray* init();
class BufferLayoutDescriptor* object(NS::UInteger index);
void setObject(const class BufferLayoutDescriptor* bufferDesc, NS::UInteger index);
};
class AttributeDescriptor : public NS::Copying<AttributeDescriptor>
{
public:
static class AttributeDescriptor* alloc();
class AttributeDescriptor* init();
MTL::AttributeFormat format() const;
void setFormat(MTL::AttributeFormat format);
NS::UInteger offset() const;
void setOffset(NS::UInteger offset);
NS::UInteger bufferIndex() const;
void setBufferIndex(NS::UInteger bufferIndex);
};
class AttributeDescriptorArray : public NS::Referencing<AttributeDescriptorArray>
{
public:
static class AttributeDescriptorArray* alloc();
class AttributeDescriptorArray* init();
class AttributeDescriptor* object(NS::UInteger index);
void setObject(const class AttributeDescriptor* attributeDesc, NS::UInteger index);
};
class StageInputOutputDescriptor : public NS::Copying<StageInputOutputDescriptor>
{
public:
static class StageInputOutputDescriptor* alloc();
class StageInputOutputDescriptor* init();
static class StageInputOutputDescriptor* stageInputOutputDescriptor();
class BufferLayoutDescriptorArray* layouts() const;
class AttributeDescriptorArray* attributes() const;
MTL::IndexType indexType() const;
void setIndexType(MTL::IndexType indexType);
NS::UInteger indexBufferIndex() const;
void setIndexBufferIndex(NS::UInteger indexBufferIndex);
void reset();
};
}
// static method: alloc
_MTL_INLINE MTL::BufferLayoutDescriptor* MTL::BufferLayoutDescriptor::alloc()
{
return NS::Object::alloc<MTL::BufferLayoutDescriptor>(_MTL_PRIVATE_CLS(MTLBufferLayoutDescriptor));
}
// method: init
_MTL_INLINE MTL::BufferLayoutDescriptor* MTL::BufferLayoutDescriptor::init()
{
return NS::Object::init<MTL::BufferLayoutDescriptor>();
}
// property: stride
_MTL_INLINE NS::UInteger MTL::BufferLayoutDescriptor::stride() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(stride));
}
_MTL_INLINE void MTL::BufferLayoutDescriptor::setStride(NS::UInteger stride)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStride_), stride);
}
// property: stepFunction
_MTL_INLINE MTL::StepFunction MTL::BufferLayoutDescriptor::stepFunction() const
{
return Object::sendMessage<MTL::StepFunction>(this, _MTL_PRIVATE_SEL(stepFunction));
}
_MTL_INLINE void MTL::BufferLayoutDescriptor::setStepFunction(MTL::StepFunction stepFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStepFunction_), stepFunction);
}
// property: stepRate
_MTL_INLINE NS::UInteger MTL::BufferLayoutDescriptor::stepRate() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(stepRate));
}
_MTL_INLINE void MTL::BufferLayoutDescriptor::setStepRate(NS::UInteger stepRate)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStepRate_), stepRate);
}
// static method: alloc
_MTL_INLINE MTL::BufferLayoutDescriptorArray* MTL::BufferLayoutDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::BufferLayoutDescriptorArray>(_MTL_PRIVATE_CLS(MTLBufferLayoutDescriptorArray));
}
// method: init
_MTL_INLINE MTL::BufferLayoutDescriptorArray* MTL::BufferLayoutDescriptorArray::init()
{
return NS::Object::init<MTL::BufferLayoutDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::BufferLayoutDescriptor* MTL::BufferLayoutDescriptorArray::object(NS::UInteger index)
{
return Object::sendMessage<MTL::BufferLayoutDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), index);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::BufferLayoutDescriptorArray::setObject(const MTL::BufferLayoutDescriptor* bufferDesc, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), bufferDesc, index);
}
// static method: alloc
_MTL_INLINE MTL::AttributeDescriptor* MTL::AttributeDescriptor::alloc()
{
return NS::Object::alloc<MTL::AttributeDescriptor>(_MTL_PRIVATE_CLS(MTLAttributeDescriptor));
}
// method: init
_MTL_INLINE MTL::AttributeDescriptor* MTL::AttributeDescriptor::init()
{
return NS::Object::init<MTL::AttributeDescriptor>();
}
// property: format
_MTL_INLINE MTL::AttributeFormat MTL::AttributeDescriptor::format() const
{
return Object::sendMessage<MTL::AttributeFormat>(this, _MTL_PRIVATE_SEL(format));
}
_MTL_INLINE void MTL::AttributeDescriptor::setFormat(MTL::AttributeFormat format)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFormat_), format);
}
// property: offset
_MTL_INLINE NS::UInteger MTL::AttributeDescriptor::offset() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(offset));
}
_MTL_INLINE void MTL::AttributeDescriptor::setOffset(NS::UInteger offset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOffset_), offset);
}
// property: bufferIndex
_MTL_INLINE NS::UInteger MTL::AttributeDescriptor::bufferIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(bufferIndex));
}
_MTL_INLINE void MTL::AttributeDescriptor::setBufferIndex(NS::UInteger bufferIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBufferIndex_), bufferIndex);
}
// static method: alloc
_MTL_INLINE MTL::AttributeDescriptorArray* MTL::AttributeDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::AttributeDescriptorArray>(_MTL_PRIVATE_CLS(MTLAttributeDescriptorArray));
}
// method: init
_MTL_INLINE MTL::AttributeDescriptorArray* MTL::AttributeDescriptorArray::init()
{
return NS::Object::init<MTL::AttributeDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::AttributeDescriptor* MTL::AttributeDescriptorArray::object(NS::UInteger index)
{
return Object::sendMessage<MTL::AttributeDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), index);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::AttributeDescriptorArray::setObject(const MTL::AttributeDescriptor* attributeDesc, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attributeDesc, index);
}
// static method: alloc
_MTL_INLINE MTL::StageInputOutputDescriptor* MTL::StageInputOutputDescriptor::alloc()
{
return NS::Object::alloc<MTL::StageInputOutputDescriptor>(_MTL_PRIVATE_CLS(MTLStageInputOutputDescriptor));
}
// method: init
_MTL_INLINE MTL::StageInputOutputDescriptor* MTL::StageInputOutputDescriptor::init()
{
return NS::Object::init<MTL::StageInputOutputDescriptor>();
}
// static method: stageInputOutputDescriptor
_MTL_INLINE MTL::StageInputOutputDescriptor* MTL::StageInputOutputDescriptor::stageInputOutputDescriptor()
{
return Object::sendMessage<MTL::StageInputOutputDescriptor*>(_MTL_PRIVATE_CLS(MTLStageInputOutputDescriptor), _MTL_PRIVATE_SEL(stageInputOutputDescriptor));
}
// property: layouts
_MTL_INLINE MTL::BufferLayoutDescriptorArray* MTL::StageInputOutputDescriptor::layouts() const
{
return Object::sendMessage<MTL::BufferLayoutDescriptorArray*>(this, _MTL_PRIVATE_SEL(layouts));
}
// property: attributes
_MTL_INLINE MTL::AttributeDescriptorArray* MTL::StageInputOutputDescriptor::attributes() const
{
return Object::sendMessage<MTL::AttributeDescriptorArray*>(this, _MTL_PRIVATE_SEL(attributes));
}
// property: indexType
_MTL_INLINE MTL::IndexType MTL::StageInputOutputDescriptor::indexType() const
{
return Object::sendMessage<MTL::IndexType>(this, _MTL_PRIVATE_SEL(indexType));
}
_MTL_INLINE void MTL::StageInputOutputDescriptor::setIndexType(MTL::IndexType indexType)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setIndexType_), indexType);
}
// property: indexBufferIndex
_MTL_INLINE NS::UInteger MTL::StageInputOutputDescriptor::indexBufferIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(indexBufferIndex));
}
_MTL_INLINE void MTL::StageInputOutputDescriptor::setIndexBufferIndex(NS::UInteger indexBufferIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setIndexBufferIndex_), indexBufferIndex);
}
// method: reset
_MTL_INLINE void MTL::StageInputOutputDescriptor::reset()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(reset));
}

685
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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLTexture.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 "MTLResource.hpp"
#include "MTLTexture.hpp"
#include "MTLTypes.hpp"
#include <IOSurface/IOSurfaceRef.h>
namespace MTL
{
_MTL_ENUM(NS::UInteger, TextureType) {
TextureType1D = 0,
TextureType1DArray = 1,
TextureType2D = 2,
TextureType2DArray = 3,
TextureType2DMultisample = 4,
TextureTypeCube = 5,
TextureTypeCubeArray = 6,
TextureType3D = 7,
TextureType2DMultisampleArray = 8,
TextureTypeTextureBuffer = 9,
};
_MTL_ENUM(uint8_t, TextureSwizzle) {
TextureSwizzleZero = 0,
TextureSwizzleOne = 1,
TextureSwizzleRed = 2,
TextureSwizzleGreen = 3,
TextureSwizzleBlue = 4,
TextureSwizzleAlpha = 5,
};
struct TextureSwizzleChannels
{
MTL::TextureSwizzle red;
MTL::TextureSwizzle green;
MTL::TextureSwizzle blue;
MTL::TextureSwizzle alpha;
} _MTL_PACKED;
class SharedTextureHandle : public NS::SecureCoding<SharedTextureHandle>
{
public:
static class SharedTextureHandle* alloc();
class SharedTextureHandle* init();
class Device* device() const;
NS::String* label() const;
};
_MTL_OPTIONS(NS::UInteger, TextureUsage) {
TextureUsageUnknown = 0,
TextureUsageShaderRead = 1,
TextureUsageShaderWrite = 2,
TextureUsageRenderTarget = 4,
TextureUsagePixelFormatView = 16,
TextureUsageShaderAtomic = 32,
};
_MTL_ENUM(NS::Integer, TextureCompressionType) {
TextureCompressionTypeLossless = 0,
TextureCompressionTypeLossy = 1,
};
class TextureDescriptor : public NS::Copying<TextureDescriptor>
{
public:
static class TextureDescriptor* alloc();
class TextureDescriptor* init();
static class TextureDescriptor* texture2DDescriptor(MTL::PixelFormat pixelFormat, NS::UInteger width, NS::UInteger height, bool mipmapped);
static class TextureDescriptor* textureCubeDescriptor(MTL::PixelFormat pixelFormat, NS::UInteger size, bool mipmapped);
static class TextureDescriptor* textureBufferDescriptor(MTL::PixelFormat pixelFormat, NS::UInteger width, MTL::ResourceOptions resourceOptions, MTL::TextureUsage usage);
MTL::TextureType textureType() const;
void setTextureType(MTL::TextureType textureType);
MTL::PixelFormat pixelFormat() const;
void setPixelFormat(MTL::PixelFormat pixelFormat);
NS::UInteger width() const;
void setWidth(NS::UInteger width);
NS::UInteger height() const;
void setHeight(NS::UInteger height);
NS::UInteger depth() const;
void setDepth(NS::UInteger depth);
NS::UInteger mipmapLevelCount() const;
void setMipmapLevelCount(NS::UInteger mipmapLevelCount);
NS::UInteger sampleCount() const;
void setSampleCount(NS::UInteger sampleCount);
NS::UInteger arrayLength() const;
void setArrayLength(NS::UInteger arrayLength);
MTL::ResourceOptions resourceOptions() const;
void setResourceOptions(MTL::ResourceOptions resourceOptions);
MTL::CPUCacheMode cpuCacheMode() const;
void setCpuCacheMode(MTL::CPUCacheMode cpuCacheMode);
MTL::StorageMode storageMode() const;
void setStorageMode(MTL::StorageMode storageMode);
MTL::HazardTrackingMode hazardTrackingMode() const;
void setHazardTrackingMode(MTL::HazardTrackingMode hazardTrackingMode);
MTL::TextureUsage usage() const;
void setUsage(MTL::TextureUsage usage);
bool allowGPUOptimizedContents() const;
void setAllowGPUOptimizedContents(bool allowGPUOptimizedContents);
MTL::TextureCompressionType compressionType() const;
void setCompressionType(MTL::TextureCompressionType compressionType);
MTL::TextureSwizzleChannels swizzle() const;
void setSwizzle(MTL::TextureSwizzleChannels swizzle);
};
class Texture : public NS::Referencing<Texture, Resource>
{
public:
class Resource* rootResource() const;
class Texture* parentTexture() const;
NS::UInteger parentRelativeLevel() const;
NS::UInteger parentRelativeSlice() const;
class Buffer* buffer() const;
NS::UInteger bufferOffset() const;
NS::UInteger bufferBytesPerRow() const;
IOSurfaceRef iosurface() const;
NS::UInteger iosurfacePlane() const;
MTL::TextureType textureType() const;
MTL::PixelFormat pixelFormat() const;
NS::UInteger width() const;
NS::UInteger height() const;
NS::UInteger depth() const;
NS::UInteger mipmapLevelCount() const;
NS::UInteger sampleCount() const;
NS::UInteger arrayLength() const;
MTL::TextureUsage usage() const;
bool shareable() const;
bool framebufferOnly() const;
NS::UInteger firstMipmapInTail() const;
NS::UInteger tailSizeInBytes() const;
bool isSparse() const;
bool allowGPUOptimizedContents() const;
MTL::TextureCompressionType compressionType() const;
MTL::ResourceID gpuResourceID() const;
void getBytes(const void* pixelBytes, NS::UInteger bytesPerRow, NS::UInteger bytesPerImage, MTL::Region region, NS::UInteger level, NS::UInteger slice);
void replaceRegion(MTL::Region region, NS::UInteger level, NS::UInteger slice, const void* pixelBytes, NS::UInteger bytesPerRow, NS::UInteger bytesPerImage);
void getBytes(const void* pixelBytes, NS::UInteger bytesPerRow, MTL::Region region, NS::UInteger level);
void replaceRegion(MTL::Region region, NS::UInteger level, const void* pixelBytes, NS::UInteger bytesPerRow);
class Texture* newTextureView(MTL::PixelFormat pixelFormat);
class Texture* newTextureView(MTL::PixelFormat pixelFormat, MTL::TextureType textureType, NS::Range levelRange, NS::Range sliceRange);
class SharedTextureHandle* newSharedTextureHandle();
class Texture* remoteStorageTexture() const;
class Texture* newRemoteTextureViewForDevice(const class Device* device);
MTL::TextureSwizzleChannels swizzle() const;
class Texture* newTextureView(MTL::PixelFormat pixelFormat, MTL::TextureType textureType, NS::Range levelRange, NS::Range sliceRange, MTL::TextureSwizzleChannels swizzle);
};
}
// static method: alloc
_MTL_INLINE MTL::SharedTextureHandle* MTL::SharedTextureHandle::alloc()
{
return NS::Object::alloc<MTL::SharedTextureHandle>(_MTL_PRIVATE_CLS(MTLSharedTextureHandle));
}
// method: init
_MTL_INLINE MTL::SharedTextureHandle* MTL::SharedTextureHandle::init()
{
return NS::Object::init<MTL::SharedTextureHandle>();
}
// property: device
_MTL_INLINE MTL::Device* MTL::SharedTextureHandle::device() const
{
return Object::sendMessage<MTL::Device*>(this, _MTL_PRIVATE_SEL(device));
}
// property: label
_MTL_INLINE NS::String* MTL::SharedTextureHandle::label() const
{
return Object::sendMessage<NS::String*>(this, _MTL_PRIVATE_SEL(label));
}
// static method: alloc
_MTL_INLINE MTL::TextureDescriptor* MTL::TextureDescriptor::alloc()
{
return NS::Object::alloc<MTL::TextureDescriptor>(_MTL_PRIVATE_CLS(MTLTextureDescriptor));
}
// method: init
_MTL_INLINE MTL::TextureDescriptor* MTL::TextureDescriptor::init()
{
return NS::Object::init<MTL::TextureDescriptor>();
}
// static method: texture2DDescriptorWithPixelFormat:width:height:mipmapped:
_MTL_INLINE MTL::TextureDescriptor* MTL::TextureDescriptor::texture2DDescriptor(MTL::PixelFormat pixelFormat, NS::UInteger width, NS::UInteger height, bool mipmapped)
{
return Object::sendMessage<MTL::TextureDescriptor*>(_MTL_PRIVATE_CLS(MTLTextureDescriptor), _MTL_PRIVATE_SEL(texture2DDescriptorWithPixelFormat_width_height_mipmapped_), pixelFormat, width, height, mipmapped);
}
// static method: textureCubeDescriptorWithPixelFormat:size:mipmapped:
_MTL_INLINE MTL::TextureDescriptor* MTL::TextureDescriptor::textureCubeDescriptor(MTL::PixelFormat pixelFormat, NS::UInteger size, bool mipmapped)
{
return Object::sendMessage<MTL::TextureDescriptor*>(_MTL_PRIVATE_CLS(MTLTextureDescriptor), _MTL_PRIVATE_SEL(textureCubeDescriptorWithPixelFormat_size_mipmapped_), pixelFormat, size, mipmapped);
}
// static method: textureBufferDescriptorWithPixelFormat:width:resourceOptions:usage:
_MTL_INLINE MTL::TextureDescriptor* MTL::TextureDescriptor::textureBufferDescriptor(MTL::PixelFormat pixelFormat, NS::UInteger width, MTL::ResourceOptions resourceOptions, MTL::TextureUsage usage)
{
return Object::sendMessage<MTL::TextureDescriptor*>(_MTL_PRIVATE_CLS(MTLTextureDescriptor), _MTL_PRIVATE_SEL(textureBufferDescriptorWithPixelFormat_width_resourceOptions_usage_), pixelFormat, width, resourceOptions, usage);
}
// property: textureType
_MTL_INLINE MTL::TextureType MTL::TextureDescriptor::textureType() const
{
return Object::sendMessage<MTL::TextureType>(this, _MTL_PRIVATE_SEL(textureType));
}
_MTL_INLINE void MTL::TextureDescriptor::setTextureType(MTL::TextureType textureType)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setTextureType_), textureType);
}
// property: pixelFormat
_MTL_INLINE MTL::PixelFormat MTL::TextureDescriptor::pixelFormat() const
{
return Object::sendMessage<MTL::PixelFormat>(this, _MTL_PRIVATE_SEL(pixelFormat));
}
_MTL_INLINE void MTL::TextureDescriptor::setPixelFormat(MTL::PixelFormat pixelFormat)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setPixelFormat_), pixelFormat);
}
// property: width
_MTL_INLINE NS::UInteger MTL::TextureDescriptor::width() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(width));
}
_MTL_INLINE void MTL::TextureDescriptor::setWidth(NS::UInteger width)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setWidth_), width);
}
// property: height
_MTL_INLINE NS::UInteger MTL::TextureDescriptor::height() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(height));
}
_MTL_INLINE void MTL::TextureDescriptor::setHeight(NS::UInteger height)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setHeight_), height);
}
// property: depth
_MTL_INLINE NS::UInteger MTL::TextureDescriptor::depth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(depth));
}
_MTL_INLINE void MTL::TextureDescriptor::setDepth(NS::UInteger depth)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setDepth_), depth);
}
// property: mipmapLevelCount
_MTL_INLINE NS::UInteger MTL::TextureDescriptor::mipmapLevelCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(mipmapLevelCount));
}
_MTL_INLINE void MTL::TextureDescriptor::setMipmapLevelCount(NS::UInteger mipmapLevelCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setMipmapLevelCount_), mipmapLevelCount);
}
// property: sampleCount
_MTL_INLINE NS::UInteger MTL::TextureDescriptor::sampleCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(sampleCount));
}
_MTL_INLINE void MTL::TextureDescriptor::setSampleCount(NS::UInteger sampleCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSampleCount_), sampleCount);
}
// property: arrayLength
_MTL_INLINE NS::UInteger MTL::TextureDescriptor::arrayLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(arrayLength));
}
_MTL_INLINE void MTL::TextureDescriptor::setArrayLength(NS::UInteger arrayLength)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setArrayLength_), arrayLength);
}
// property: resourceOptions
_MTL_INLINE MTL::ResourceOptions MTL::TextureDescriptor::resourceOptions() const
{
return Object::sendMessage<MTL::ResourceOptions>(this, _MTL_PRIVATE_SEL(resourceOptions));
}
_MTL_INLINE void MTL::TextureDescriptor::setResourceOptions(MTL::ResourceOptions resourceOptions)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setResourceOptions_), resourceOptions);
}
// property: cpuCacheMode
_MTL_INLINE MTL::CPUCacheMode MTL::TextureDescriptor::cpuCacheMode() const
{
return Object::sendMessage<MTL::CPUCacheMode>(this, _MTL_PRIVATE_SEL(cpuCacheMode));
}
_MTL_INLINE void MTL::TextureDescriptor::setCpuCacheMode(MTL::CPUCacheMode cpuCacheMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setCpuCacheMode_), cpuCacheMode);
}
// property: storageMode
_MTL_INLINE MTL::StorageMode MTL::TextureDescriptor::storageMode() const
{
return Object::sendMessage<MTL::StorageMode>(this, _MTL_PRIVATE_SEL(storageMode));
}
_MTL_INLINE void MTL::TextureDescriptor::setStorageMode(MTL::StorageMode storageMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStorageMode_), storageMode);
}
// property: hazardTrackingMode
_MTL_INLINE MTL::HazardTrackingMode MTL::TextureDescriptor::hazardTrackingMode() const
{
return Object::sendMessage<MTL::HazardTrackingMode>(this, _MTL_PRIVATE_SEL(hazardTrackingMode));
}
_MTL_INLINE void MTL::TextureDescriptor::setHazardTrackingMode(MTL::HazardTrackingMode hazardTrackingMode)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setHazardTrackingMode_), hazardTrackingMode);
}
// property: usage
_MTL_INLINE MTL::TextureUsage MTL::TextureDescriptor::usage() const
{
return Object::sendMessage<MTL::TextureUsage>(this, _MTL_PRIVATE_SEL(usage));
}
_MTL_INLINE void MTL::TextureDescriptor::setUsage(MTL::TextureUsage usage)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setUsage_), usage);
}
// property: allowGPUOptimizedContents
_MTL_INLINE bool MTL::TextureDescriptor::allowGPUOptimizedContents() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(allowGPUOptimizedContents));
}
_MTL_INLINE void MTL::TextureDescriptor::setAllowGPUOptimizedContents(bool allowGPUOptimizedContents)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setAllowGPUOptimizedContents_), allowGPUOptimizedContents);
}
// property: compressionType
_MTL_INLINE MTL::TextureCompressionType MTL::TextureDescriptor::compressionType() const
{
return Object::sendMessage<MTL::TextureCompressionType>(this, _MTL_PRIVATE_SEL(compressionType));
}
_MTL_INLINE void MTL::TextureDescriptor::setCompressionType(MTL::TextureCompressionType compressionType)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setCompressionType_), compressionType);
}
// property: swizzle
_MTL_INLINE MTL::TextureSwizzleChannels MTL::TextureDescriptor::swizzle() const
{
return Object::sendMessage<MTL::TextureSwizzleChannels>(this, _MTL_PRIVATE_SEL(swizzle));
}
_MTL_INLINE void MTL::TextureDescriptor::setSwizzle(MTL::TextureSwizzleChannels swizzle)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setSwizzle_), swizzle);
}
// property: rootResource
_MTL_INLINE MTL::Resource* MTL::Texture::rootResource() const
{
return Object::sendMessage<MTL::Resource*>(this, _MTL_PRIVATE_SEL(rootResource));
}
// property: parentTexture
_MTL_INLINE MTL::Texture* MTL::Texture::parentTexture() const
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(parentTexture));
}
// property: parentRelativeLevel
_MTL_INLINE NS::UInteger MTL::Texture::parentRelativeLevel() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(parentRelativeLevel));
}
// property: parentRelativeSlice
_MTL_INLINE NS::UInteger MTL::Texture::parentRelativeSlice() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(parentRelativeSlice));
}
// property: buffer
_MTL_INLINE MTL::Buffer* MTL::Texture::buffer() const
{
return Object::sendMessage<MTL::Buffer*>(this, _MTL_PRIVATE_SEL(buffer));
}
// property: bufferOffset
_MTL_INLINE NS::UInteger MTL::Texture::bufferOffset() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(bufferOffset));
}
// property: bufferBytesPerRow
_MTL_INLINE NS::UInteger MTL::Texture::bufferBytesPerRow() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(bufferBytesPerRow));
}
// property: iosurface
_MTL_INLINE IOSurfaceRef MTL::Texture::iosurface() const
{
return Object::sendMessage<IOSurfaceRef>(this, _MTL_PRIVATE_SEL(iosurface));
}
// property: iosurfacePlane
_MTL_INLINE NS::UInteger MTL::Texture::iosurfacePlane() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(iosurfacePlane));
}
// property: textureType
_MTL_INLINE MTL::TextureType MTL::Texture::textureType() const
{
return Object::sendMessage<MTL::TextureType>(this, _MTL_PRIVATE_SEL(textureType));
}
// property: pixelFormat
_MTL_INLINE MTL::PixelFormat MTL::Texture::pixelFormat() const
{
return Object::sendMessage<MTL::PixelFormat>(this, _MTL_PRIVATE_SEL(pixelFormat));
}
// property: width
_MTL_INLINE NS::UInteger MTL::Texture::width() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(width));
}
// property: height
_MTL_INLINE NS::UInteger MTL::Texture::height() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(height));
}
// property: depth
_MTL_INLINE NS::UInteger MTL::Texture::depth() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(depth));
}
// property: mipmapLevelCount
_MTL_INLINE NS::UInteger MTL::Texture::mipmapLevelCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(mipmapLevelCount));
}
// property: sampleCount
_MTL_INLINE NS::UInteger MTL::Texture::sampleCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(sampleCount));
}
// property: arrayLength
_MTL_INLINE NS::UInteger MTL::Texture::arrayLength() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(arrayLength));
}
// property: usage
_MTL_INLINE MTL::TextureUsage MTL::Texture::usage() const
{
return Object::sendMessage<MTL::TextureUsage>(this, _MTL_PRIVATE_SEL(usage));
}
// property: shareable
_MTL_INLINE bool MTL::Texture::shareable() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isShareable));
}
// property: framebufferOnly
_MTL_INLINE bool MTL::Texture::framebufferOnly() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isFramebufferOnly));
}
// property: firstMipmapInTail
_MTL_INLINE NS::UInteger MTL::Texture::firstMipmapInTail() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(firstMipmapInTail));
}
// property: tailSizeInBytes
_MTL_INLINE NS::UInteger MTL::Texture::tailSizeInBytes() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(tailSizeInBytes));
}
// property: isSparse
_MTL_INLINE bool MTL::Texture::isSparse() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(isSparse));
}
// property: allowGPUOptimizedContents
_MTL_INLINE bool MTL::Texture::allowGPUOptimizedContents() const
{
return Object::sendMessage<bool>(this, _MTL_PRIVATE_SEL(allowGPUOptimizedContents));
}
// property: compressionType
_MTL_INLINE MTL::TextureCompressionType MTL::Texture::compressionType() const
{
return Object::sendMessage<MTL::TextureCompressionType>(this, _MTL_PRIVATE_SEL(compressionType));
}
// property: gpuResourceID
_MTL_INLINE MTL::ResourceID MTL::Texture::gpuResourceID() const
{
return Object::sendMessage<MTL::ResourceID>(this, _MTL_PRIVATE_SEL(gpuResourceID));
}
// method: getBytes:bytesPerRow:bytesPerImage:fromRegion:mipmapLevel:slice:
_MTL_INLINE void MTL::Texture::getBytes(const void* pixelBytes, NS::UInteger bytesPerRow, NS::UInteger bytesPerImage, MTL::Region region, NS::UInteger level, NS::UInteger slice)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(getBytes_bytesPerRow_bytesPerImage_fromRegion_mipmapLevel_slice_), pixelBytes, bytesPerRow, bytesPerImage, region, level, slice);
}
// method: replaceRegion:mipmapLevel:slice:withBytes:bytesPerRow:bytesPerImage:
_MTL_INLINE void MTL::Texture::replaceRegion(MTL::Region region, NS::UInteger level, NS::UInteger slice, const void* pixelBytes, NS::UInteger bytesPerRow, NS::UInteger bytesPerImage)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(replaceRegion_mipmapLevel_slice_withBytes_bytesPerRow_bytesPerImage_), region, level, slice, pixelBytes, bytesPerRow, bytesPerImage);
}
// method: getBytes:bytesPerRow:fromRegion:mipmapLevel:
_MTL_INLINE void MTL::Texture::getBytes(const void* pixelBytes, NS::UInteger bytesPerRow, MTL::Region region, NS::UInteger level)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(getBytes_bytesPerRow_fromRegion_mipmapLevel_), pixelBytes, bytesPerRow, region, level);
}
// method: replaceRegion:mipmapLevel:withBytes:bytesPerRow:
_MTL_INLINE void MTL::Texture::replaceRegion(MTL::Region region, NS::UInteger level, const void* pixelBytes, NS::UInteger bytesPerRow)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(replaceRegion_mipmapLevel_withBytes_bytesPerRow_), region, level, pixelBytes, bytesPerRow);
}
// method: newTextureViewWithPixelFormat:
_MTL_INLINE MTL::Texture* MTL::Texture::newTextureView(MTL::PixelFormat pixelFormat)
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(newTextureViewWithPixelFormat_), pixelFormat);
}
// method: newTextureViewWithPixelFormat:textureType:levels:slices:
_MTL_INLINE MTL::Texture* MTL::Texture::newTextureView(MTL::PixelFormat pixelFormat, MTL::TextureType textureType, NS::Range levelRange, NS::Range sliceRange)
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(newTextureViewWithPixelFormat_textureType_levels_slices_), pixelFormat, textureType, levelRange, sliceRange);
}
// method: newSharedTextureHandle
_MTL_INLINE MTL::SharedTextureHandle* MTL::Texture::newSharedTextureHandle()
{
return Object::sendMessage<MTL::SharedTextureHandle*>(this, _MTL_PRIVATE_SEL(newSharedTextureHandle));
}
// property: remoteStorageTexture
_MTL_INLINE MTL::Texture* MTL::Texture::remoteStorageTexture() const
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(remoteStorageTexture));
}
// method: newRemoteTextureViewForDevice:
_MTL_INLINE MTL::Texture* MTL::Texture::newRemoteTextureViewForDevice(const MTL::Device* device)
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(newRemoteTextureViewForDevice_), device);
}
// property: swizzle
_MTL_INLINE MTL::TextureSwizzleChannels MTL::Texture::swizzle() const
{
return Object::sendMessage<MTL::TextureSwizzleChannels>(this, _MTL_PRIVATE_SEL(swizzle));
}
// method: newTextureViewWithPixelFormat:textureType:levels:slices:swizzle:
_MTL_INLINE MTL::Texture* MTL::Texture::newTextureView(MTL::PixelFormat pixelFormat, MTL::TextureType textureType, NS::Range levelRange, NS::Range sliceRange, MTL::TextureSwizzleChannels swizzle)
{
return Object::sendMessage<MTL::Texture*>(this, _MTL_PRIVATE_SEL(newTextureViewWithPixelFormat_textureType_levels_slices_swizzle_), pixelFormat, textureType, levelRange, sliceRange, swizzle);
}

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externals/metal-cpp/Metal/MTLTypes.hpp vendored Normal file
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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLTypes.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 "MTLTypes.hpp"
namespace MTL
{
struct Origin
{
Origin() = default;
Origin(NS::UInteger x, NS::UInteger y, NS::UInteger z);
static Origin Make(NS::UInteger x, NS::UInteger y, NS::UInteger z);
NS::UInteger x;
NS::UInteger y;
NS::UInteger z;
} _MTL_PACKED;
struct Size
{
Size() = default;
Size(NS::UInteger width, NS::UInteger height, NS::UInteger depth);
static Size Make(NS::UInteger width, NS::UInteger height, NS::UInteger depth);
NS::UInteger width;
NS::UInteger height;
NS::UInteger depth;
} _MTL_PACKED;
struct Region
{
Region() = default;
Region(NS::UInteger x, NS::UInteger width);
Region(NS::UInteger x, NS::UInteger y, NS::UInteger width, NS::UInteger height);
Region(NS::UInteger x, NS::UInteger y, NS::UInteger z, NS::UInteger width, NS::UInteger height, NS::UInteger depth);
static Region Make1D(NS::UInteger x, NS::UInteger width);
static Region Make2D(NS::UInteger x, NS::UInteger y, NS::UInteger width, NS::UInteger height);
static Region Make3D(NS::UInteger x, NS::UInteger y, NS::UInteger z, NS::UInteger width, NS::UInteger height, NS::UInteger depth);
MTL::Origin origin;
MTL::Size size;
} _MTL_PACKED;
struct SamplePosition;
using Coordinate2D = SamplePosition;
struct SamplePosition
{
SamplePosition() = default;
SamplePosition(float _x, float _y);
static SamplePosition Make(float x, float y);
float x;
float y;
} _MTL_PACKED;
struct ResourceID
{
uint64_t _impl;
} _MTL_PACKED;
}
_MTL_INLINE MTL::Origin::Origin(NS::UInteger _x, NS::UInteger _y, NS::UInteger _z)
: x(_x)
, y(_y)
, z(_z)
{
}
_MTL_INLINE MTL::Origin MTL::Origin::Make(NS::UInteger x, NS::UInteger y, NS::UInteger z)
{
return Origin(x, y, z);
}
_MTL_INLINE MTL::Size::Size(NS::UInteger _width, NS::UInteger _height, NS::UInteger _depth)
: width(_width)
, height(_height)
, depth(_depth)
{
}
_MTL_INLINE MTL::Size MTL::Size::Make(NS::UInteger width, NS::UInteger height, NS::UInteger depth)
{
return Size(width, height, depth);
}
_MTL_INLINE MTL::Region::Region(NS::UInteger x, NS::UInteger width)
: origin(x, 0, 0)
, size(width, 1, 1)
{
}
_MTL_INLINE MTL::Region::Region(NS::UInteger x, NS::UInteger y, NS::UInteger width, NS::UInteger height)
: origin(x, y, 0)
, size(width, height, 1)
{
}
_MTL_INLINE MTL::Region::Region(NS::UInteger x, NS::UInteger y, NS::UInteger z, NS::UInteger width, NS::UInteger height, NS::UInteger depth)
: origin(x, y, z)
, size(width, height, depth)
{
}
_MTL_INLINE MTL::Region MTL::Region::Make1D(NS::UInteger x, NS::UInteger width)
{
return Region(x, width);
}
_MTL_INLINE MTL::Region MTL::Region::Make2D(NS::UInteger x, NS::UInteger y, NS::UInteger width, NS::UInteger height)
{
return Region(x, y, width, height);
}
_MTL_INLINE MTL::Region MTL::Region::Make3D(NS::UInteger x, NS::UInteger y, NS::UInteger z, NS::UInteger width, NS::UInteger height, NS::UInteger depth)
{
return Region(x, y, z, width, height, depth);
}
_MTL_INLINE MTL::SamplePosition::SamplePosition(float _x, float _y)
: x(_x)
, y(_y)
{
}
_MTL_INLINE MTL::SamplePosition MTL::SamplePosition::Make(float x, float y)
{
return SamplePosition(x, y);
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLVersion.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
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#define METALCPP_VERSION_MAJOR 354
#define METALCPP_VERSION_MINOR 0
#define METALCPP_VERSION_PATCH 0
#define METALCPP_SUPPORTS_VERSION(major, minor, patch) \
((major < METALCPP_VERSION_MAJOR) || \
(major == METALCPP_VERSION_MAJOR && minor < METALCPP_VERSION_MINOR) || \
(major == METALCPP_VERSION_MAJOR && minor == METALCPP_VERSION_MINOR && patch <= METALCPP_VERSION_PATCH))

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLVertexDescriptor.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 "MTLVertexDescriptor.hpp"
namespace MTL
{
static const NS::UInteger BufferLayoutStrideDynamic = NS::UIntegerMax;
_MTL_ENUM(NS::UInteger, VertexFormat) {
VertexFormatInvalid = 0,
VertexFormatUChar2 = 1,
VertexFormatUChar3 = 2,
VertexFormatUChar4 = 3,
VertexFormatChar2 = 4,
VertexFormatChar3 = 5,
VertexFormatChar4 = 6,
VertexFormatUChar2Normalized = 7,
VertexFormatUChar3Normalized = 8,
VertexFormatUChar4Normalized = 9,
VertexFormatChar2Normalized = 10,
VertexFormatChar3Normalized = 11,
VertexFormatChar4Normalized = 12,
VertexFormatUShort2 = 13,
VertexFormatUShort3 = 14,
VertexFormatUShort4 = 15,
VertexFormatShort2 = 16,
VertexFormatShort3 = 17,
VertexFormatShort4 = 18,
VertexFormatUShort2Normalized = 19,
VertexFormatUShort3Normalized = 20,
VertexFormatUShort4Normalized = 21,
VertexFormatShort2Normalized = 22,
VertexFormatShort3Normalized = 23,
VertexFormatShort4Normalized = 24,
VertexFormatHalf2 = 25,
VertexFormatHalf3 = 26,
VertexFormatHalf4 = 27,
VertexFormatFloat = 28,
VertexFormatFloat2 = 29,
VertexFormatFloat3 = 30,
VertexFormatFloat4 = 31,
VertexFormatInt = 32,
VertexFormatInt2 = 33,
VertexFormatInt3 = 34,
VertexFormatInt4 = 35,
VertexFormatUInt = 36,
VertexFormatUInt2 = 37,
VertexFormatUInt3 = 38,
VertexFormatUInt4 = 39,
VertexFormatInt1010102Normalized = 40,
VertexFormatUInt1010102Normalized = 41,
VertexFormatUChar4Normalized_BGRA = 42,
VertexFormatUChar = 45,
VertexFormatChar = 46,
VertexFormatUCharNormalized = 47,
VertexFormatCharNormalized = 48,
VertexFormatUShort = 49,
VertexFormatShort = 50,
VertexFormatUShortNormalized = 51,
VertexFormatShortNormalized = 52,
VertexFormatHalf = 53,
VertexFormatFloatRG11B10 = 54,
VertexFormatFloatRGB9E5 = 55,
};
_MTL_ENUM(NS::UInteger, VertexStepFunction) {
VertexStepFunctionConstant = 0,
VertexStepFunctionPerVertex = 1,
VertexStepFunctionPerInstance = 2,
VertexStepFunctionPerPatch = 3,
VertexStepFunctionPerPatchControlPoint = 4,
};
class VertexBufferLayoutDescriptor : public NS::Copying<VertexBufferLayoutDescriptor>
{
public:
static class VertexBufferLayoutDescriptor* alloc();
class VertexBufferLayoutDescriptor* init();
NS::UInteger stride() const;
void setStride(NS::UInteger stride);
MTL::VertexStepFunction stepFunction() const;
void setStepFunction(MTL::VertexStepFunction stepFunction);
NS::UInteger stepRate() const;
void setStepRate(NS::UInteger stepRate);
};
class VertexBufferLayoutDescriptorArray : public NS::Referencing<VertexBufferLayoutDescriptorArray>
{
public:
static class VertexBufferLayoutDescriptorArray* alloc();
class VertexBufferLayoutDescriptorArray* init();
class VertexBufferLayoutDescriptor* object(NS::UInteger index);
void setObject(const class VertexBufferLayoutDescriptor* bufferDesc, NS::UInteger index);
};
class VertexAttributeDescriptor : public NS::Copying<VertexAttributeDescriptor>
{
public:
static class VertexAttributeDescriptor* alloc();
class VertexAttributeDescriptor* init();
MTL::VertexFormat format() const;
void setFormat(MTL::VertexFormat format);
NS::UInteger offset() const;
void setOffset(NS::UInteger offset);
NS::UInteger bufferIndex() const;
void setBufferIndex(NS::UInteger bufferIndex);
};
class VertexAttributeDescriptorArray : public NS::Referencing<VertexAttributeDescriptorArray>
{
public:
static class VertexAttributeDescriptorArray* alloc();
class VertexAttributeDescriptorArray* init();
class VertexAttributeDescriptor* object(NS::UInteger index);
void setObject(const class VertexAttributeDescriptor* attributeDesc, NS::UInteger index);
};
class VertexDescriptor : public NS::Copying<VertexDescriptor>
{
public:
static class VertexDescriptor* alloc();
class VertexDescriptor* init();
static class VertexDescriptor* vertexDescriptor();
class VertexBufferLayoutDescriptorArray* layouts() const;
class VertexAttributeDescriptorArray* attributes() const;
void reset();
};
}
// static method: alloc
_MTL_INLINE MTL::VertexBufferLayoutDescriptor* MTL::VertexBufferLayoutDescriptor::alloc()
{
return NS::Object::alloc<MTL::VertexBufferLayoutDescriptor>(_MTL_PRIVATE_CLS(MTLVertexBufferLayoutDescriptor));
}
// method: init
_MTL_INLINE MTL::VertexBufferLayoutDescriptor* MTL::VertexBufferLayoutDescriptor::init()
{
return NS::Object::init<MTL::VertexBufferLayoutDescriptor>();
}
// property: stride
_MTL_INLINE NS::UInteger MTL::VertexBufferLayoutDescriptor::stride() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(stride));
}
_MTL_INLINE void MTL::VertexBufferLayoutDescriptor::setStride(NS::UInteger stride)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStride_), stride);
}
// property: stepFunction
_MTL_INLINE MTL::VertexStepFunction MTL::VertexBufferLayoutDescriptor::stepFunction() const
{
return Object::sendMessage<MTL::VertexStepFunction>(this, _MTL_PRIVATE_SEL(stepFunction));
}
_MTL_INLINE void MTL::VertexBufferLayoutDescriptor::setStepFunction(MTL::VertexStepFunction stepFunction)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStepFunction_), stepFunction);
}
// property: stepRate
_MTL_INLINE NS::UInteger MTL::VertexBufferLayoutDescriptor::stepRate() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(stepRate));
}
_MTL_INLINE void MTL::VertexBufferLayoutDescriptor::setStepRate(NS::UInteger stepRate)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setStepRate_), stepRate);
}
// static method: alloc
_MTL_INLINE MTL::VertexBufferLayoutDescriptorArray* MTL::VertexBufferLayoutDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::VertexBufferLayoutDescriptorArray>(_MTL_PRIVATE_CLS(MTLVertexBufferLayoutDescriptorArray));
}
// method: init
_MTL_INLINE MTL::VertexBufferLayoutDescriptorArray* MTL::VertexBufferLayoutDescriptorArray::init()
{
return NS::Object::init<MTL::VertexBufferLayoutDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::VertexBufferLayoutDescriptor* MTL::VertexBufferLayoutDescriptorArray::object(NS::UInteger index)
{
return Object::sendMessage<MTL::VertexBufferLayoutDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), index);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::VertexBufferLayoutDescriptorArray::setObject(const MTL::VertexBufferLayoutDescriptor* bufferDesc, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), bufferDesc, index);
}
// static method: alloc
_MTL_INLINE MTL::VertexAttributeDescriptor* MTL::VertexAttributeDescriptor::alloc()
{
return NS::Object::alloc<MTL::VertexAttributeDescriptor>(_MTL_PRIVATE_CLS(MTLVertexAttributeDescriptor));
}
// method: init
_MTL_INLINE MTL::VertexAttributeDescriptor* MTL::VertexAttributeDescriptor::init()
{
return NS::Object::init<MTL::VertexAttributeDescriptor>();
}
// property: format
_MTL_INLINE MTL::VertexFormat MTL::VertexAttributeDescriptor::format() const
{
return Object::sendMessage<MTL::VertexFormat>(this, _MTL_PRIVATE_SEL(format));
}
_MTL_INLINE void MTL::VertexAttributeDescriptor::setFormat(MTL::VertexFormat format)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFormat_), format);
}
// property: offset
_MTL_INLINE NS::UInteger MTL::VertexAttributeDescriptor::offset() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(offset));
}
_MTL_INLINE void MTL::VertexAttributeDescriptor::setOffset(NS::UInteger offset)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setOffset_), offset);
}
// property: bufferIndex
_MTL_INLINE NS::UInteger MTL::VertexAttributeDescriptor::bufferIndex() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(bufferIndex));
}
_MTL_INLINE void MTL::VertexAttributeDescriptor::setBufferIndex(NS::UInteger bufferIndex)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setBufferIndex_), bufferIndex);
}
// static method: alloc
_MTL_INLINE MTL::VertexAttributeDescriptorArray* MTL::VertexAttributeDescriptorArray::alloc()
{
return NS::Object::alloc<MTL::VertexAttributeDescriptorArray>(_MTL_PRIVATE_CLS(MTLVertexAttributeDescriptorArray));
}
// method: init
_MTL_INLINE MTL::VertexAttributeDescriptorArray* MTL::VertexAttributeDescriptorArray::init()
{
return NS::Object::init<MTL::VertexAttributeDescriptorArray>();
}
// method: objectAtIndexedSubscript:
_MTL_INLINE MTL::VertexAttributeDescriptor* MTL::VertexAttributeDescriptorArray::object(NS::UInteger index)
{
return Object::sendMessage<MTL::VertexAttributeDescriptor*>(this, _MTL_PRIVATE_SEL(objectAtIndexedSubscript_), index);
}
// method: setObject:atIndexedSubscript:
_MTL_INLINE void MTL::VertexAttributeDescriptorArray::setObject(const MTL::VertexAttributeDescriptor* attributeDesc, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setObject_atIndexedSubscript_), attributeDesc, index);
}
// static method: alloc
_MTL_INLINE MTL::VertexDescriptor* MTL::VertexDescriptor::alloc()
{
return NS::Object::alloc<MTL::VertexDescriptor>(_MTL_PRIVATE_CLS(MTLVertexDescriptor));
}
// method: init
_MTL_INLINE MTL::VertexDescriptor* MTL::VertexDescriptor::init()
{
return NS::Object::init<MTL::VertexDescriptor>();
}
// static method: vertexDescriptor
_MTL_INLINE MTL::VertexDescriptor* MTL::VertexDescriptor::vertexDescriptor()
{
return Object::sendMessage<MTL::VertexDescriptor*>(_MTL_PRIVATE_CLS(MTLVertexDescriptor), _MTL_PRIVATE_SEL(vertexDescriptor));
}
// property: layouts
_MTL_INLINE MTL::VertexBufferLayoutDescriptorArray* MTL::VertexDescriptor::layouts() const
{
return Object::sendMessage<MTL::VertexBufferLayoutDescriptorArray*>(this, _MTL_PRIVATE_SEL(layouts));
}
// property: attributes
_MTL_INLINE MTL::VertexAttributeDescriptorArray* MTL::VertexDescriptor::attributes() const
{
return Object::sendMessage<MTL::VertexAttributeDescriptorArray*>(this, _MTL_PRIVATE_SEL(attributes));
}
// method: reset
_MTL_INLINE void MTL::VertexDescriptor::reset()
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(reset));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/MTLVisibleFunctionTable.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 "MTLResource.hpp"
#include "MTLTypes.hpp"
namespace MTL
{
class VisibleFunctionTableDescriptor : public NS::Copying<VisibleFunctionTableDescriptor>
{
public:
static class VisibleFunctionTableDescriptor* alloc();
class VisibleFunctionTableDescriptor* init();
static class VisibleFunctionTableDescriptor* visibleFunctionTableDescriptor();
NS::UInteger functionCount() const;
void setFunctionCount(NS::UInteger functionCount);
};
class VisibleFunctionTable : public NS::Referencing<VisibleFunctionTable, Resource>
{
public:
MTL::ResourceID gpuResourceID() const;
void setFunction(const class FunctionHandle* function, NS::UInteger index);
void setFunctions(const class FunctionHandle* const functions[], NS::Range range);
};
}
// static method: alloc
_MTL_INLINE MTL::VisibleFunctionTableDescriptor* MTL::VisibleFunctionTableDescriptor::alloc()
{
return NS::Object::alloc<MTL::VisibleFunctionTableDescriptor>(_MTL_PRIVATE_CLS(MTLVisibleFunctionTableDescriptor));
}
// method: init
_MTL_INLINE MTL::VisibleFunctionTableDescriptor* MTL::VisibleFunctionTableDescriptor::init()
{
return NS::Object::init<MTL::VisibleFunctionTableDescriptor>();
}
// static method: visibleFunctionTableDescriptor
_MTL_INLINE MTL::VisibleFunctionTableDescriptor* MTL::VisibleFunctionTableDescriptor::visibleFunctionTableDescriptor()
{
return Object::sendMessage<MTL::VisibleFunctionTableDescriptor*>(_MTL_PRIVATE_CLS(MTLVisibleFunctionTableDescriptor), _MTL_PRIVATE_SEL(visibleFunctionTableDescriptor));
}
// property: functionCount
_MTL_INLINE NS::UInteger MTL::VisibleFunctionTableDescriptor::functionCount() const
{
return Object::sendMessage<NS::UInteger>(this, _MTL_PRIVATE_SEL(functionCount));
}
_MTL_INLINE void MTL::VisibleFunctionTableDescriptor::setFunctionCount(NS::UInteger functionCount)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunctionCount_), functionCount);
}
// property: gpuResourceID
_MTL_INLINE MTL::ResourceID MTL::VisibleFunctionTable::gpuResourceID() const
{
return Object::sendMessage<MTL::ResourceID>(this, _MTL_PRIVATE_SEL(gpuResourceID));
}
// method: setFunction:atIndex:
_MTL_INLINE void MTL::VisibleFunctionTable::setFunction(const MTL::FunctionHandle* function, NS::UInteger index)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunction_atIndex_), function, index);
}
// method: setFunctions:withRange:
_MTL_INLINE void MTL::VisibleFunctionTable::setFunctions(const MTL::FunctionHandle* const functions[], NS::Range range)
{
Object::sendMessage<void>(this, _MTL_PRIVATE_SEL(setFunctions_withRange_), functions, range);
}

84
externals/metal-cpp/Metal/Metal.hpp vendored Normal file
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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// Metal/Metal.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 "MTLAccelerationStructure.hpp"
#include "MTLAccelerationStructureCommandEncoder.hpp"
#include "MTLAccelerationStructureTypes.hpp"
#include "MTLArgument.hpp"
#include "MTLArgumentEncoder.hpp"
#include "MTLBinaryArchive.hpp"
#include "MTLBlitCommandEncoder.hpp"
#include "MTLBlitPass.hpp"
#include "MTLBuffer.hpp"
#include "MTLCaptureManager.hpp"
#include "MTLCaptureScope.hpp"
#include "MTLCommandBuffer.hpp"
#include "MTLCommandEncoder.hpp"
#include "MTLCommandQueue.hpp"
#include "MTLComputeCommandEncoder.hpp"
#include "MTLComputePass.hpp"
#include "MTLComputePipeline.hpp"
#include "MTLCounters.hpp"
#include "MTLDefines.hpp"
#include "MTLDepthStencil.hpp"
#include "MTLDevice.hpp"
#include "MTLDrawable.hpp"
#include "MTLDynamicLibrary.hpp"
#include "MTLEvent.hpp"
#include "MTLFence.hpp"
#include "MTLFunctionConstantValues.hpp"
#include "MTLFunctionDescriptor.hpp"
#include "MTLFunctionHandle.hpp"
#include "MTLFunctionLog.hpp"
#include "MTLFunctionStitching.hpp"
#include "MTLHeaderBridge.hpp"
#include "MTLHeap.hpp"
#include "MTLIndirectCommandBuffer.hpp"
#include "MTLIndirectCommandEncoder.hpp"
#include "MTLIntersectionFunctionTable.hpp"
#include "MTLIOCommandBuffer.hpp"
#include "MTLIOCommandQueue.hpp"
#include "MTLIOCompressor.hpp"
#include "MTLLibrary.hpp"
#include "MTLLinkedFunctions.hpp"
#include "MTLParallelRenderCommandEncoder.hpp"
#include "MTLPipeline.hpp"
#include "MTLPixelFormat.hpp"
#include "MTLPrivate.hpp"
#include "MTLRasterizationRate.hpp"
#include "MTLRenderCommandEncoder.hpp"
#include "MTLRenderPass.hpp"
#include "MTLRenderPipeline.hpp"
#include "MTLResource.hpp"
#include "MTLResourceStateCommandEncoder.hpp"
#include "MTLResourceStatePass.hpp"
#include "MTLSampler.hpp"
#include "MTLStageInputOutputDescriptor.hpp"
#include "MTLTexture.hpp"
#include "MTLTypes.hpp"
#include "MTLVertexDescriptor.hpp"
#include "MTLVisibleFunctionTable.hpp"
#include "MTLVersion.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// MetalFX/MTLFXDefines.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 "../Foundation/NSDefines.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#define _MTLFX_EXPORT _NS_EXPORT
#define _MTLFX_EXTERN _NS_EXTERN
#define _MTLFX_INLINE _NS_INLINE
#define _MTLFX_PACKED _NS_PACKED
#define _MTLFX_CONST( type, name ) _NS_CONST( type, name )
#define _MTLFX_ENUM( type, name ) _NS_ENUM( type, name )
#define _MTLFX_OPTIONS( type, name ) _NS_OPTIONS( type, name )
#define _MTLFX_VALIDATE_SIZE( mtlfx, name ) _NS_VALIDATE_SIZE( mtlfx, name )
#define _MTLFX_VALIDATE_ENUM( mtlfx, name ) _NS_VALIDATE_ENUM( mtlfx, name )
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// MetalFX/MTLFXPrivate.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 "MTLFXDefines.hpp"
#include <objc/runtime.h>
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#define _MTLFX_PRIVATE_CLS( symbol ) ( Private::Class::s_k##symbol )
#define _MTLFX_PRIVATE_SEL( accessor ) ( Private::Selector::s_k##accessor )
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#if defined( MTLFX_PRIVATE_IMPLEMENTATION )
#if defined( METALCPP_SYMBOL_VISIBILITY_HIDDEN )
#define _MTLFX_PRIVATE_VISIBILITY __attribute__( ( visibility("hidden" ) ) )
#else
#define _MTLFX_PRIVATE_VISIBILITY __attribute__( ( visibility("default" ) ) )
#endif // METALCPP_SYMBOL_VISIBILITY_HIDDEN
#define _MTLFX_PRIVATE_IMPORT __attribute__( ( weak_import ) )
#ifdef __OBJC__
#define _MTLFX_PRIVATE_OBJC_LOOKUP_CLASS( symbol ) ( ( __bridge void* ) objc_lookUpClass( #symbol ) )
#define _MTLFX_PRIVATE_OBJC_GET_PROTOCOL( symbol ) ( ( __bridge void* ) objc_getProtocol( #symbol ) )
#else
#define _MTLFX_PRIVATE_OBJC_LOOKUP_CLASS( symbol ) objc_lookUpClass(#symbol)
#define _MTLFX_PRIVATE_OBJC_GET_PROTOCOL( symbol ) objc_getProtocol(#symbol)
#endif // __OBJC__
#define _MTLFX_PRIVATE_DEF_CLS( symbol ) void* s_k##symbol _MTLFX_PRIVATE_VISIBILITY = _MTLFX_PRIVATE_OBJC_LOOKUP_CLASS( symbol )
#define _MTLFX_PRIVATE_DEF_PRO( symbol ) void* s_k##symbol _MTLFX_PRIVATE_VISIBILITY = _MTLFX_PRIVATE_OBJC_GET_PROTOCOL( symbol )
#define _MTLFX_PRIVATE_DEF_SEL( accessor, symbol ) SEL s_k##accessor _MTLFX_PRIVATE_VISIBILITY = sel_registerName( symbol )
#include <dlfcn.h>
#define MTLFX_DEF_FUNC( name, signature ) using Fn##name = signature; \
Fn##name name = reinterpret_cast< Fn##name >( dlsym( RTLD_DEFAULT, #name ) )
namespace MTLFX::Private
{
template <typename _Type>
inline _Type const LoadSymbol(const char* pSymbol)
{
const _Type* pAddress = static_cast<_Type*>(dlsym(RTLD_DEFAULT, pSymbol));
return pAddress ? *pAddress : nullptr;
}
} // MTLFX::Private
#if defined( __MAC_13_0 ) || defined( __MAC_14_0 ) || defined( __IPHONE_16_0 ) || defined( __IPHONE_17_0 ) || defined( __TVOS_16_0 ) || defined( __TVOS_17_0 )
#define _MTLFX_PRIVATE_DEF_STR( type, symbol ) \
_MTLFX_EXTERN type const MTLFX##symbol _MTLFX_PRIVATE_IMPORT; \
type const MTLFX::symbol = ( nullptr != &MTLFX##symbol ) ? MTLFX##ssymbol : nullptr
#define _MTLFX_PRIVATE_DEF_CONST( type, symbol ) \
_MTLFX_EXTERN type const MTLFX##ssymbol _MTLFX_PRIVATE_IMPORT; \
type const MTLFX::symbol = (nullptr != &MTLFX##ssymbol) ? MTLFX##ssymbol : nullptr
#define _MTLFX_PRIVATE_DEF_WEAK_CONST( type, symbol ) \
_MTLFX_EXTERN type const MTLFX##ssymbol; \
type const MTLFX::symbol = Private::LoadSymbol< type >( "MTLFX" #symbol )
#else
#define _MTLFX_PRIVATE_DEF_STR( type, symbol ) \
_MTLFX_EXTERN type const MTLFX##ssymbol; \
type const MTLFX::symbol = Private::LoadSymbol< type >( "MTLFX" #symbol )
#define _MTLFX_PRIVATE_DEF_CONST( type, symbol ) \
_MTLFX_EXTERN type const MTLFX##ssymbol; \
type const MTLFX::symbol = Private::LoadSymbol< type >( "MTLFX" #symbol )
#define _MTLFX_PRIVATE_DEF_WEAK_CONST( type, symbol ) _MTLFX_PRIVATE_DEF_CONST( type, symbol )
#endif // defined( __MAC_13_0 ) || defined( __MAC_14_0 ) || defined( __IPHONE_16_0 ) || defined( __IPHONE_17_0 ) || defined( __TVOS_16_0 ) || defined( __TVOS_17_0 )
#else
#define _MTLFX_PRIVATE_DEF_CLS( symbol ) extern void* s_k##symbol
#define _MTLFX_PRIVATE_DEF_PRO( symbol ) extern void* s_k##symbol
#define _MTLFX_PRIVATE_DEF_SEL( accessor, symbol ) extern SEL s_k##accessor
#define _MTLFX_PRIVATE_DEF_STR( type, symbol ) extern type const MTLFX::symbol
#define _MTLFX_PRIVATE_DEF_CONST( type, symbol ) extern type const MTLFX::symbol
#define _MTLFX_PRIVATE_DEF_WEAK_CONST( type, symbol ) extern type const MTLFX::symbol
#endif // MTLFX_PRIVATE_IMPLEMENTATION
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTLFX
{
namespace Private
{
namespace Class
{
_MTLFX_PRIVATE_DEF_CLS( MTLFXSpatialScalerDescriptor );
_MTLFX_PRIVATE_DEF_CLS( MTLFXTemporalScalerDescriptor );
} // Class
} // Private
} // MTLFX
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTLFX
{
namespace Private
{
namespace Protocol
{
_MTLFX_PRIVATE_DEF_PRO( MTLFXSpatialScaler );
_MTLFX_PRIVATE_DEF_PRO( MTLFXTemporalScaler );
} // Protocol
} // Private
} // MTLFX
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTLFX
{
namespace Private
{
namespace Selector
{
_MTLFX_PRIVATE_DEF_SEL( colorProcessingMode,
"colorProcessingMode" );
_MTLFX_PRIVATE_DEF_SEL( colorTexture,
"colorTexture" );
_MTLFX_PRIVATE_DEF_SEL( colorTextureFormat,
"colorTextureFormat" );
_MTLFX_PRIVATE_DEF_SEL( colorTextureUsage,
"colorTextureUsage" );
_MTLFX_PRIVATE_DEF_SEL( depthTexture,
"depthTexture" );
_MTLFX_PRIVATE_DEF_SEL( depthTextureFormat,
"depthTextureFormat" );
_MTLFX_PRIVATE_DEF_SEL( depthTextureUsage,
"depthTextureUsage" );
_MTLFX_PRIVATE_DEF_SEL( encodeToCommandBuffer_,
"encodeToCommandBuffer:" );
_MTLFX_PRIVATE_DEF_SEL( exposureTexture,
"exposureTexture" );
_MTLFX_PRIVATE_DEF_SEL( fence,
"fence" );
_MTLFX_PRIVATE_DEF_SEL( inputContentHeight,
"inputContentHeight" );
_MTLFX_PRIVATE_DEF_SEL( inputContentMaxScale,
"inputContentMaxScale" );
_MTLFX_PRIVATE_DEF_SEL( inputContentMinScale,
"inputContentMinScale" );
_MTLFX_PRIVATE_DEF_SEL( inputContentWidth,
"inputContentWidth" );
_MTLFX_PRIVATE_DEF_SEL( inputHeight,
"inputHeight" );
_MTLFX_PRIVATE_DEF_SEL( inputWidth,
"inputWidth" );
_MTLFX_PRIVATE_DEF_SEL( isAutoExposureEnabled,
"isAutoExposureEnabled" );
_MTLFX_PRIVATE_DEF_SEL( isDepthReversed,
"isDepthReversed" );
_MTLFX_PRIVATE_DEF_SEL( isInputContentPropertiesEnabled,
"isInputContentPropertiesEnabled" );
_MTLFX_PRIVATE_DEF_SEL( jitterOffsetX,
"jitterOffsetX" );
_MTLFX_PRIVATE_DEF_SEL( jitterOffsetY,
"jitterOffsetY" );
_MTLFX_PRIVATE_DEF_SEL( motionTexture,
"motionTexture" );
_MTLFX_PRIVATE_DEF_SEL( motionTextureFormat,
"motionTextureFormat" );
_MTLFX_PRIVATE_DEF_SEL( motionTextureUsage,
"motionTextureUsage" );
_MTLFX_PRIVATE_DEF_SEL( motionVectorScaleX,
"motionVectorScaleX" );
_MTLFX_PRIVATE_DEF_SEL( motionVectorScaleY,
"motionVectorScaleY" );
_MTLFX_PRIVATE_DEF_SEL( newSpatialScalerWithDevice_,
"newSpatialScalerWithDevice:" );
_MTLFX_PRIVATE_DEF_SEL( newTemporalScalerWithDevice_,
"newTemporalScalerWithDevice:" );
_MTLFX_PRIVATE_DEF_SEL( outputHeight,
"outputHeight" );
_MTLFX_PRIVATE_DEF_SEL( outputTexture,
"outputTexture" );
_MTLFX_PRIVATE_DEF_SEL( outputTextureFormat,
"outputTextureFormat" );
_MTLFX_PRIVATE_DEF_SEL( outputTextureUsage,
"outputTextureUsage" );
_MTLFX_PRIVATE_DEF_SEL( outputWidth,
"outputWidth" );
_MTLFX_PRIVATE_DEF_SEL( preExposure,
"preExposure" );
_MTLFX_PRIVATE_DEF_SEL( reset,
"reset" );
_MTLFX_PRIVATE_DEF_SEL( setAutoExposureEnabled_,
"setAutoExposureEnabled:" );
_MTLFX_PRIVATE_DEF_SEL( setColorProcessingMode_,
"setColorProcessingMode:" );
_MTLFX_PRIVATE_DEF_SEL( setColorTexture_,
"setColorTexture:" );
_MTLFX_PRIVATE_DEF_SEL( setColorTextureFormat_,
"setColorTextureFormat:" );
_MTLFX_PRIVATE_DEF_SEL( setDepthReversed_,
"setDepthReversed:" );
_MTLFX_PRIVATE_DEF_SEL( setDepthTexture_,
"setDepthTexture:" );
_MTLFX_PRIVATE_DEF_SEL( setDepthTextureFormat_,
"setDepthTextureFormat:" );
_MTLFX_PRIVATE_DEF_SEL( setExposureTexture_,
"setExposureTexture:" );
_MTLFX_PRIVATE_DEF_SEL( setFence_,
"setFence:" );
_MTLFX_PRIVATE_DEF_SEL( setInputContentHeight_,
"setInputContentHeight:" );
_MTLFX_PRIVATE_DEF_SEL( setInputContentMaxScale_,
"setInputContentMaxScale:" );
_MTLFX_PRIVATE_DEF_SEL( setInputContentMinScale_,
"setInputContentMinScale:" );
_MTLFX_PRIVATE_DEF_SEL( setInputContentPropertiesEnabled_,
"setInputContentPropertiesEnabled:" );
_MTLFX_PRIVATE_DEF_SEL( setInputContentWidth_,
"setInputContentWidth:" );
_MTLFX_PRIVATE_DEF_SEL( setInputHeight_,
"setInputHeight:" );
_MTLFX_PRIVATE_DEF_SEL( setInputWidth_,
"setInputWidth:" );
_MTLFX_PRIVATE_DEF_SEL( setJitterOffsetX_,
"setJitterOffsetX:" );
_MTLFX_PRIVATE_DEF_SEL( setJitterOffsetY_,
"setJitterOffsetY:" );
_MTLFX_PRIVATE_DEF_SEL( setMotionTexture_,
"setMotionTexture:" );
_MTLFX_PRIVATE_DEF_SEL( setMotionTextureFormat_,
"setMotionTextureFormat:" );
_MTLFX_PRIVATE_DEF_SEL( setMotionVectorScaleX_,
"setMotionVectorScaleX:" );
_MTLFX_PRIVATE_DEF_SEL( setMotionVectorScaleY_,
"setMotionVectorScaleY:" );
_MTLFX_PRIVATE_DEF_SEL( setOutputHeight_,
"setOutputHeight:" );
_MTLFX_PRIVATE_DEF_SEL( setOutputTexture_,
"setOutputTexture:" );
_MTLFX_PRIVATE_DEF_SEL( setOutputTextureFormat_,
"setOutputTextureFormat:" );
_MTLFX_PRIVATE_DEF_SEL( setOutputWidth_,
"setOutputWidth:" );
_MTLFX_PRIVATE_DEF_SEL( setPreExposure_,
"setPreExposure:" );
_MTLFX_PRIVATE_DEF_SEL( setReset_,
"setReset:" );
_MTLFX_PRIVATE_DEF_SEL( supportedInputContentMaxScaleForDevice_,
"supportedInputContentMaxScaleForDevice:" );
_MTLFX_PRIVATE_DEF_SEL( supportedInputContentMinScaleForDevice_,
"supportedInputContentMinScaleForDevice:" );
_MTLFX_PRIVATE_DEF_SEL( supportsDevice_,
"supportsDevice:" );
} // Selector
} // Private
} // MTLFX
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// MetalFX/MTLFXSpatialScaler.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 "MTLFXDefines.hpp"
#include "MTLFXPrivate.hpp"
#include "../Metal/Metal.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTLFX
{
_MTLFX_ENUM( NS::Integer, SpatialScalerColorProcessingMode )
{
SpatialScalerColorProcessingModePerceptual = 0,
SpatialScalerColorProcessingModeLinear = 1,
SpatialScalerColorProcessingModeHDR = 2
};
class SpatialScalerDescriptor : public NS::Copying< SpatialScalerDescriptor >
{
public:
static class SpatialScalerDescriptor* alloc();
class SpatialScalerDescriptor* init();
MTL::PixelFormat colorTextureFormat() const;
void setColorTextureFormat( MTL::PixelFormat format );
MTL::PixelFormat outputTextureFormat() const;
void setOutputTextureFormat( MTL::PixelFormat format );
NS::UInteger inputWidth() const;
void setInputWidth( NS::UInteger width );
NS::UInteger inputHeight() const;
void setInputHeight( NS::UInteger height );
NS::UInteger outputWidth() const;
void setOutputWidth( NS::UInteger width );
NS::UInteger outputHeight() const;
void setOutputHeight( NS::UInteger height );
SpatialScalerColorProcessingMode colorProcessingMode() const;
void setColorProcessingMode( SpatialScalerColorProcessingMode mode );
class SpatialScaler* newSpatialScaler( const MTL::Device* pDevice );
static bool supportsDevice( const MTL::Device* );
};
class SpatialScaler : public NS::Referencing< SpatialScaler >
{
public:
MTL::TextureUsage colorTextureUsage() const;
MTL::TextureUsage outputTextureUsage() const;
NS::UInteger inputContentWidth() const;
void setInputContentWidth( NS::UInteger width );
NS::UInteger inputContentHeight() const;
void setInputContentHeight( NS::UInteger height );
MTL::Texture* colorTexture() const;
void setColorTexture( MTL::Texture* pTexture );
MTL::Texture* outputTexture() const;
void setOutputTexture( MTL::Texture* pTexture );
MTL::PixelFormat colorTextureFormat() const;
MTL::PixelFormat outputTextureFormat() const;
NS::UInteger inputWidth() const;
NS::UInteger inputHeight() const;
NS::UInteger outputWidth() const;
NS::UInteger outputHeight() const;
SpatialScalerColorProcessingMode colorProcessingMode() const;
MTL::Fence* fence() const;
void setFence( MTL::Fence* pFence );
void encodeToCommandBuffer( MTL::CommandBuffer* pCommandBuffer );
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTLFX::SpatialScalerDescriptor* MTLFX::SpatialScalerDescriptor::alloc()
{
return NS::Object::alloc< SpatialScalerDescriptor >( _MTLFX_PRIVATE_CLS( MTLFXSpatialScalerDescriptor ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTLFX::SpatialScalerDescriptor* MTLFX::SpatialScalerDescriptor::init()
{
return NS::Object::init< SpatialScalerDescriptor >();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::SpatialScalerDescriptor::colorTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( colorTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScalerDescriptor::setColorTextureFormat( MTL::PixelFormat format )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setColorTextureFormat_ ), format );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::SpatialScalerDescriptor::outputTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( outputTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScalerDescriptor::setOutputTextureFormat( MTL::PixelFormat format )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setOutputTextureFormat_ ), format );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScalerDescriptor::inputWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScalerDescriptor::setInputWidth( NS::UInteger width )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputWidth_ ), width );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScalerDescriptor::inputHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScalerDescriptor::setInputHeight( NS::UInteger height )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputHeight_ ), height );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScalerDescriptor::outputWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( outputWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScalerDescriptor::setOutputWidth( NS::UInteger width )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setOutputWidth_ ), width );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScalerDescriptor::outputHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( outputHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScalerDescriptor::setOutputHeight( NS::UInteger height )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setOutputHeight_ ), height );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTLFX::SpatialScalerColorProcessingMode MTLFX::SpatialScalerDescriptor::colorProcessingMode() const
{
return Object::sendMessage< SpatialScalerColorProcessingMode >( this, _MTLFX_PRIVATE_SEL( colorProcessingMode ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScalerDescriptor::setColorProcessingMode( SpatialScalerColorProcessingMode mode )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setColorProcessingMode_ ), mode );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTLFX::SpatialScaler* MTLFX::SpatialScalerDescriptor::newSpatialScaler( const MTL::Device* pDevice )
{
return Object::sendMessage< SpatialScaler* >( this, _MTLFX_PRIVATE_SEL( newSpatialScalerWithDevice_ ), pDevice );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE bool MTLFX::SpatialScalerDescriptor::supportsDevice( const MTL::Device* pDevice )
{
return Object::sendMessageSafe< bool >( _NS_PRIVATE_CLS( MTLFXSpatialScalerDescriptor ), _MTLFX_PRIVATE_SEL( supportsDevice_ ), pDevice );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::TextureUsage MTLFX::SpatialScaler::colorTextureUsage() const
{
return Object::sendMessage< MTL::TextureUsage >( this, _MTLFX_PRIVATE_SEL( colorTextureUsage ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::TextureUsage MTLFX::SpatialScaler::outputTextureUsage() const
{
return Object::sendMessage< MTL::TextureUsage >( this, _MTLFX_PRIVATE_SEL( outputTextureUsage ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScaler::inputContentWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputContentWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScaler::setInputContentWidth( NS::UInteger width )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputContentWidth_ ), width );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScaler::inputContentHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputContentHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScaler::setInputContentHeight( NS::UInteger height )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputContentHeight_ ), height );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::Texture* MTLFX::SpatialScaler::colorTexture() const
{
return Object::sendMessage< MTL::Texture* >( this, _MTLFX_PRIVATE_SEL( colorTexture ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScaler::setColorTexture( MTL::Texture* pTexture )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setColorTexture_ ), pTexture );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::Texture* MTLFX::SpatialScaler::outputTexture() const
{
return Object::sendMessage< MTL::Texture* >( this, _MTLFX_PRIVATE_SEL( outputTexture ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScaler::setOutputTexture( MTL::Texture* pTexture )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setOutputTexture_ ), pTexture );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::SpatialScaler::colorTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( colorTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::SpatialScaler::outputTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( outputTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScaler::inputWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScaler::inputHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScaler::outputWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( outputWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::SpatialScaler::outputHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( outputHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTLFX::SpatialScalerColorProcessingMode MTLFX::SpatialScaler::colorProcessingMode() const
{
return Object::sendMessage< SpatialScalerColorProcessingMode >( this, _MTLFX_PRIVATE_SEL( colorProcessingMode ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::Fence* MTLFX::SpatialScaler::fence() const
{
return Object::sendMessage< MTL::Fence* >( this, _MTLFX_PRIVATE_SEL( fence ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScaler::setFence( MTL::Fence* pFence )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setFence_ ), pFence );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::SpatialScaler::encodeToCommandBuffer( MTL::CommandBuffer* pCommandBuffer )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( encodeToCommandBuffer_ ), pCommandBuffer );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// MetalFX/MTLFXTemporalScaler.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 "MTLFXDefines.hpp"
#include "MTLFXPrivate.hpp"
#include "../Metal/Metal.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace MTLFX
{
class TemporalScalerDescriptor : public NS::Copying< TemporalScalerDescriptor >
{
public:
static class TemporalScalerDescriptor* alloc();
class TemporalScalerDescriptor* init();
MTL::PixelFormat colorTextureFormat() const;
void setColorTextureFormat( MTL::PixelFormat format );
MTL::PixelFormat depthTextureFormat() const;
void setDepthTextureFormat( MTL::PixelFormat format );
MTL::PixelFormat motionTextureFormat() const;
void setMotionTextureFormat( MTL::PixelFormat format );
MTL::PixelFormat outputTextureFormat() const;
void setOutputTextureFormat( MTL::PixelFormat format );
NS::UInteger inputWidth() const;
void setInputWidth( NS::UInteger width );
NS::UInteger inputHeight() const;
void setInputHeight( NS::UInteger height );
NS::UInteger outputWidth() const;
void setOutputWidth( NS::UInteger width );
NS::UInteger outputHeight() const;
void setOutputHeight( NS::UInteger height );
bool isAutoExposureEnabled() const;
void setAutoExposureEnabled( bool enabled );
bool isInputContentPropertiesEnabled() const;
void setInputContentPropertiesEnabled( bool enabled );
float inputContentMinScale() const;
void setInputContentMinScale( float scale );
float inputContentMaxScale() const;
void setInputContentMaxScale( float scale );
class TemporalScaler* newTemporalScaler( const MTL::Device* pDevice ) const;
static float supportedInputContentMinScale( const MTL::Device* pDevice );
static float supportedInputContentMaxScale( const MTL::Device* pDevice );
static bool supportsDevice( const MTL::Device* pDevice );
};
class TemporalScaler : public NS::Referencing< TemporalScaler >
{
public:
MTL::TextureUsage colorTextureUsage() const;
MTL::TextureUsage depthTextureUsage() const;
MTL::TextureUsage motionTextureUsage() const;
MTL::TextureUsage outputTextureUsage() const;
NS::UInteger inputContentWidth() const;
void setInputContentWidth( NS::UInteger width );
NS::UInteger inputContentHeight() const;
void setInputContentHeight( NS::UInteger height );
MTL::Texture* colorTexture() const;
void setColorTexture( MTL::Texture* pTexture );
MTL::Texture* depthTexture() const;
void setDepthTexture( MTL::Texture* pTexture );
MTL::Texture* motionTexture() const;
void setMotionTexture( MTL::Texture* pTexture );
MTL::Texture* outputTexture() const;
void setOutputTexture( MTL::Texture* pTexture );
MTL::Texture* exposureTexture() const;
void setExposureTexture( MTL::Texture* pTexture );
float preExposure() const;
void setPreExposure( float preExposure );
float jitterOffsetX() const;
void setJitterOffsetX( float offset );
float jitterOffsetY() const;
void setJitterOffsetY( float offset );
float motionVectorScaleX() const;
void setMotionVectorScaleX( float scale );
float motionVectorScaleY() const;
void setMotionVectorScaleY( float scale );
bool reset() const;
void setReset( bool reset );
bool isDepthReversed() const;
void setDepthReversed( bool depthReversed );
MTL::PixelFormat colorTextureFormat() const;
MTL::PixelFormat depthTextureFormat() const;
MTL::PixelFormat motionTextureFormat() const;
MTL::PixelFormat outputTextureFormat() const;
NS::UInteger inputWidth() const;
NS::UInteger inputHeight() const;
NS::UInteger outputWidth() const;
NS::UInteger outputHeight() const;
float inputContentMinScale() const;
float inputContentMaxScale() const;
MTL::Fence* fence() const;
void setFence( MTL::Fence* pFence );
void encodeToCommandBuffer( MTL::CommandBuffer* pCommandBuffer );
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTLFX::TemporalScalerDescriptor* MTLFX::TemporalScalerDescriptor::alloc()
{
return NS::Object::alloc< TemporalScalerDescriptor >( _MTLFX_PRIVATE_CLS( MTLFXTemporalScalerDescriptor ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTLFX::TemporalScalerDescriptor* MTLFX::TemporalScalerDescriptor::init()
{
return NS::Object::init< TemporalScalerDescriptor >();
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::TemporalScalerDescriptor::colorTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( colorTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setColorTextureFormat( MTL::PixelFormat format )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setColorTextureFormat_ ), format );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::TemporalScalerDescriptor::depthTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( depthTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setDepthTextureFormat( MTL::PixelFormat format )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setDepthTextureFormat_ ), format );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::TemporalScalerDescriptor::motionTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( motionTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setMotionTextureFormat( MTL::PixelFormat format )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setMotionTextureFormat_ ), format );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::TemporalScalerDescriptor::outputTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( outputTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setOutputTextureFormat( MTL::PixelFormat format )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setOutputTextureFormat_ ), format );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScalerDescriptor::inputWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setInputWidth( NS::UInteger width )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputWidth_ ), width );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScalerDescriptor::inputHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setInputHeight( NS::UInteger height )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputHeight_ ), height );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScalerDescriptor::outputWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( outputWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setOutputWidth( NS::UInteger width )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setOutputWidth_ ), width );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScalerDescriptor::outputHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( outputHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setOutputHeight( NS::UInteger height )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setOutputHeight_ ), height );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE bool MTLFX::TemporalScalerDescriptor::isAutoExposureEnabled() const
{
return Object::sendMessage< bool >( this, _MTLFX_PRIVATE_SEL( isAutoExposureEnabled ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setAutoExposureEnabled( bool enabled )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setAutoExposureEnabled_ ), enabled );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE bool MTLFX::TemporalScalerDescriptor::isInputContentPropertiesEnabled() const
{
return Object::sendMessage< bool >( this, _MTLFX_PRIVATE_SEL( isInputContentPropertiesEnabled ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setInputContentPropertiesEnabled( bool enabled )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputContentPropertiesEnabled_ ), enabled );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScalerDescriptor::inputContentMinScale() const
{
return Object::sendMessage< float >( this, _MTLFX_PRIVATE_SEL( inputContentMinScale ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setInputContentMinScale( float scale )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputContentMinScale_ ), scale );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScalerDescriptor::inputContentMaxScale() const
{
return Object::sendMessage< float >( this, _MTLFX_PRIVATE_SEL( inputContentMaxScale ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScalerDescriptor::setInputContentMaxScale( float scale )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputContentMaxScale_ ), scale );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTLFX::TemporalScaler* MTLFX::TemporalScalerDescriptor::newTemporalScaler( const MTL::Device* pDevice ) const
{
return Object::sendMessage< TemporalScaler* >( this, _MTLFX_PRIVATE_SEL( newTemporalScalerWithDevice_ ), pDevice );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScalerDescriptor::supportedInputContentMinScale( const MTL::Device* pDevice )
{
float scale = 1.0f;
if ( nullptr != methodSignatureForSelector( _NS_PRIVATE_CLS( MTLFXTemporalScalerDescriptor ), _MTLFX_PRIVATE_SEL( supportedInputContentMinScaleForDevice_ ) ) )
{
scale = sendMessage< float >( _NS_PRIVATE_CLS( MTLFXTemporalScalerDescriptor ), _MTLFX_PRIVATE_SEL( supportedInputContentMinScaleForDevice_ ), pDevice );
}
return scale;
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScalerDescriptor::supportedInputContentMaxScale( const MTL::Device* pDevice )
{
float scale = 1.0f;
if ( nullptr != methodSignatureForSelector( _NS_PRIVATE_CLS( MTLFXTemporalScalerDescriptor ), _MTLFX_PRIVATE_SEL( supportedInputContentMaxScaleForDevice_ ) ) )
{
scale = sendMessage< float >( _NS_PRIVATE_CLS( MTLFXTemporalScalerDescriptor ), _MTLFX_PRIVATE_SEL( supportedInputContentMaxScaleForDevice_ ), pDevice );
}
else if ( supportsDevice( pDevice ) )
{
scale = 2.0f;
}
return scale;
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE bool MTLFX::TemporalScalerDescriptor::supportsDevice( const MTL::Device* pDevice )
{
return Object::sendMessageSafe< bool >( _NS_PRIVATE_CLS( MTLFXTemporalScalerDescriptor ), _MTLFX_PRIVATE_SEL( supportsDevice_ ), pDevice );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::TextureUsage MTLFX::TemporalScaler::colorTextureUsage() const
{
return Object::sendMessage< MTL::TextureUsage >( this, _MTLFX_PRIVATE_SEL( colorTextureUsage ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::TextureUsage MTLFX::TemporalScaler::depthTextureUsage() const
{
return Object::sendMessage< MTL::TextureUsage >( this, _MTLFX_PRIVATE_SEL( depthTextureUsage ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::TextureUsage MTLFX::TemporalScaler::motionTextureUsage() const
{
return Object::sendMessage< MTL::TextureUsage >( this, _MTLFX_PRIVATE_SEL( motionTextureUsage ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::TextureUsage MTLFX::TemporalScaler::outputTextureUsage() const
{
return Object::sendMessage< MTL::TextureUsage >( this, _MTLFX_PRIVATE_SEL( outputTextureUsage ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScaler::inputContentWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputContentWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setInputContentWidth( NS::UInteger width )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputContentWidth_ ), width );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScaler::inputContentHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputContentHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setInputContentHeight( NS::UInteger height )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setInputContentHeight_ ), height );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::Texture* MTLFX::TemporalScaler::colorTexture() const
{
return Object::sendMessage< MTL::Texture* >( this, _MTLFX_PRIVATE_SEL( colorTexture ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setColorTexture( MTL::Texture* pTexture )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setColorTexture_ ), pTexture );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::Texture* MTLFX::TemporalScaler::depthTexture() const
{
return Object::sendMessage< MTL::Texture* >( this, _MTLFX_PRIVATE_SEL( depthTexture ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setDepthTexture( MTL::Texture* pTexture )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setDepthTexture_ ), pTexture );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::Texture* MTLFX::TemporalScaler::motionTexture() const
{
return Object::sendMessage< MTL::Texture* >( this, _MTLFX_PRIVATE_SEL( motionTexture ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setMotionTexture( MTL::Texture* pTexture )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setMotionTexture_ ), pTexture );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::Texture* MTLFX::TemporalScaler::outputTexture() const
{
return Object::sendMessage< MTL::Texture* >( this, _MTLFX_PRIVATE_SEL( outputTexture ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setOutputTexture( MTL::Texture* pTexture )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setOutputTexture_ ), pTexture );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::Texture* MTLFX::TemporalScaler::exposureTexture() const
{
return Object::sendMessage< MTL::Texture* >( this, _MTLFX_PRIVATE_SEL( exposureTexture ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setExposureTexture( MTL::Texture* pTexture )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setExposureTexture_ ), pTexture );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScaler::preExposure() const
{
return Object::sendMessage< float >( this, _MTLFX_PRIVATE_SEL( preExposure ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setPreExposure( float preExposure )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setPreExposure_ ), preExposure );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScaler::jitterOffsetX() const
{
return Object::sendMessage< float >( this, _MTLFX_PRIVATE_SEL( jitterOffsetX ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setJitterOffsetX( float offset )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setJitterOffsetX_ ), offset );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScaler::jitterOffsetY() const
{
return Object::sendMessage< float >( this, _MTLFX_PRIVATE_SEL( jitterOffsetY ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setJitterOffsetY( float offset )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setJitterOffsetY_ ), offset );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScaler::motionVectorScaleX() const
{
return Object::sendMessage< float >( this, _MTLFX_PRIVATE_SEL( motionVectorScaleX ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setMotionVectorScaleX( float scale )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setMotionVectorScaleX_ ), scale );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScaler::motionVectorScaleY() const
{
return Object::sendMessage< float >( this, _MTLFX_PRIVATE_SEL( motionVectorScaleY ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setMotionVectorScaleY( float scale )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setMotionVectorScaleY_ ), scale );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE bool MTLFX::TemporalScaler::reset() const
{
return Object::sendMessage< bool >( this, _MTLFX_PRIVATE_SEL( reset ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setReset( bool reset )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setReset_ ), reset );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE bool MTLFX::TemporalScaler::isDepthReversed() const
{
return Object::sendMessage< bool >( this, _MTLFX_PRIVATE_SEL( isDepthReversed ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setDepthReversed( bool depthReversed )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setDepthReversed_ ), depthReversed );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::TemporalScaler::colorTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( colorTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::TemporalScaler::depthTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( depthTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::TemporalScaler::motionTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( motionTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::PixelFormat MTLFX::TemporalScaler::outputTextureFormat() const
{
return Object::sendMessage< MTL::PixelFormat >( this, _MTLFX_PRIVATE_SEL( outputTextureFormat ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScaler::inputWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScaler::inputHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( inputHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScaler::outputWidth() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( outputWidth ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE NS::UInteger MTLFX::TemporalScaler::outputHeight() const
{
return Object::sendMessage< NS::UInteger >( this, _MTLFX_PRIVATE_SEL( outputHeight ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScaler::inputContentMinScale() const
{
return Object::sendMessage< float >( this, _MTLFX_PRIVATE_SEL( inputContentMinScale ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE float MTLFX::TemporalScaler::inputContentMaxScale() const
{
return Object::sendMessage< float >( this, _MTLFX_PRIVATE_SEL( inputContentMaxScale ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE MTL::Fence* MTLFX::TemporalScaler::fence() const
{
return Object::sendMessage< MTL::Fence* >( this, _MTLFX_PRIVATE_SEL( fence ) );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::setFence( MTL::Fence* pFence )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( setFence_ ), pFence );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_MTLFX_INLINE void MTLFX::TemporalScaler::encodeToCommandBuffer( MTL::CommandBuffer* pCommandBuffer )
{
Object::sendMessage< void >( this, _MTL_PRIVATE_SEL( encodeToCommandBuffer_ ), pCommandBuffer );
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// MetalFX/MetalFX.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 "MTLFXSpatialScaler.hpp"
#include "MTLFXTemporalScaler.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// QuartzCore/CADefines.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 "../Foundation/NSDefines.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#define _CA_EXPORT _NS_EXPORT
#define _CA_EXTERN _NS_EXTERN
#define _CA_INLINE _NS_INLINE
#define _CA_PACKED _NS_PACKED
#define _CA_CONST(type, name) _NS_CONST(type, name)
#define _CA_ENUM(type, name) _NS_ENUM(type, name)
#define _CA_OPTIONS(type, name) _NS_OPTIONS(type, name)
#define _CA_VALIDATE_SIZE(ns, name) _NS_VALIDATE_SIZE(ns, name)
#define _CA_VALIDATE_ENUM(ns, name) _NS_VALIDATE_ENUM(ns, name)
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// QuartzCore/CAMetalDrawable.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 "../Metal/MTLDrawable.hpp"
#include "../Metal/MTLTexture.hpp"
#include "CADefines.hpp"
#include "CAPrivate.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace CA
{
class MetalDrawable : public NS::Referencing<MetalDrawable, MTL::Drawable>
{
public:
class MetalLayer* layer() const;
MTL::Texture* texture() const;
};
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE CA::MetalLayer* CA::MetalDrawable::layer() const
{
return Object::sendMessage<MetalLayer*>(this, _CA_PRIVATE_SEL(layer));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE MTL::Texture* CA::MetalDrawable::texture() const
{
return Object::sendMessage<MTL::Texture*>(this, _CA_PRIVATE_SEL(texture));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// QuartzCore/CAMetalDrawable.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 "../Metal/MTLPixelFormat.hpp"
#include "../Metal/MTLTexture.hpp"
#include <CoreGraphics/CGGeometry.h>
#include "CADefines.hpp"
#include "CAMetalDrawable.hpp"
#include "CAPrivate.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace CA
{
class MetalLayer : public NS::Referencing<MetalLayer>
{
public:
static class MetalLayer* layer();
MTL::Device* device() const;
void setDevice(MTL::Device* device);
MTL::PixelFormat pixelFormat() const;
void setPixelFormat(MTL::PixelFormat pixelFormat);
bool framebufferOnly() const;
void setFramebufferOnly(bool framebufferOnly);
CGSize drawableSize() const;
void setDrawableSize(CGSize drawableSize);
class MetalDrawable* nextDrawable();
};
} // namespace CA
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE CA::MetalLayer* CA::MetalLayer::layer()
{
return Object::sendMessage<CA::MetalLayer*>(_CA_PRIVATE_CLS(CAMetalLayer), _CA_PRIVATE_SEL(layer));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE MTL::Device* CA::MetalLayer::device() const
{
return Object::sendMessage<MTL::Device*>(this, _CA_PRIVATE_SEL(device));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE void CA::MetalLayer::setDevice(MTL::Device* device)
{
return Object::sendMessage<void>(this, _CA_PRIVATE_SEL(setDevice_), device);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE MTL::PixelFormat CA::MetalLayer::pixelFormat() const
{
return Object::sendMessage<MTL::PixelFormat>(this,
_CA_PRIVATE_SEL(pixelFormat));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE void CA::MetalLayer::setPixelFormat(MTL::PixelFormat pixelFormat)
{
return Object::sendMessage<void>(this, _CA_PRIVATE_SEL(setPixelFormat_),
pixelFormat);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE bool CA::MetalLayer::framebufferOnly() const
{
return Object::sendMessage<bool>(this, _CA_PRIVATE_SEL(framebufferOnly));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE void CA::MetalLayer::setFramebufferOnly(bool framebufferOnly)
{
return Object::sendMessage<void>(this, _CA_PRIVATE_SEL(setFramebufferOnly_),
framebufferOnly);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE CGSize CA::MetalLayer::drawableSize() const
{
return Object::sendMessage<CGSize>(this, _CA_PRIVATE_SEL(drawableSize));
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE void CA::MetalLayer::setDrawableSize(CGSize drawableSize)
{
return Object::sendMessage<void>(this, _CA_PRIVATE_SEL(setDrawableSize_),
drawableSize);
}
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
_CA_INLINE CA::MetalDrawable* CA::MetalLayer::nextDrawable()
{
return Object::sendMessage<MetalDrawable*>(this,
_CA_PRIVATE_SEL(nextDrawable));
}

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// QuartzCore/CAPrivate.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 "CADefines.hpp"
#include <objc/runtime.h>
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#define _CA_PRIVATE_CLS(symbol) (Private::Class::s_k##symbol)
#define _CA_PRIVATE_SEL(accessor) (Private::Selector::s_k##accessor)
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
#if defined(CA_PRIVATE_IMPLEMENTATION)
#ifdef METALCPP_SYMBOL_VISIBILITY_HIDDEN
#define _CA_PRIVATE_VISIBILITY __attribute__((visibility("hidden")))
#else
#define _CA_PRIVATE_VISIBILITY __attribute__((visibility("default")))
#endif // METALCPP_SYMBOL_VISIBILITY_HIDDEN
#define _CA_PRIVATE_IMPORT __attribute__((weak_import))
#ifdef __OBJC__
#define _CA_PRIVATE_OBJC_LOOKUP_CLASS(symbol) ((__bridge void*)objc_lookUpClass(#symbol))
#define _CA_PRIVATE_OBJC_GET_PROTOCOL(symbol) ((__bridge void*)objc_getProtocol(#symbol))
#else
#define _CA_PRIVATE_OBJC_LOOKUP_CLASS(symbol) objc_lookUpClass(#symbol)
#define _CA_PRIVATE_OBJC_GET_PROTOCOL(symbol) objc_getProtocol(#symbol)
#endif // __OBJC__
#define _CA_PRIVATE_DEF_CLS(symbol) void* s_k##symbol _CA_PRIVATE_VISIBILITY = _CA_PRIVATE_OBJC_LOOKUP_CLASS(symbol)
#define _CA_PRIVATE_DEF_PRO(symbol) void* s_k##symbol _CA_PRIVATE_VISIBILITY = _CA_PRIVATE_OBJC_GET_PROTOCOL(symbol)
#define _CA_PRIVATE_DEF_SEL(accessor, symbol) SEL s_k##accessor _CA_PRIVATE_VISIBILITY = sel_registerName(symbol)
#define _CA_PRIVATE_DEF_STR(type, symbol) \
_CA_EXTERN type const CA##symbol _CA_PRIVATE_IMPORT; \
type const CA::symbol = (nullptr != &CA##symbol) ? CA##symbol : nullptr
#else
#define _CA_PRIVATE_DEF_CLS(symbol) extern void* s_k##symbol
#define _CA_PRIVATE_DEF_PRO(symbol) extern void* s_k##symbol
#define _CA_PRIVATE_DEF_SEL(accessor, symbol) extern SEL s_k##accessor
#define _CA_PRIVATE_DEF_STR(type, symbol) extern type const CA::symbol
#endif // CA_PRIVATE_IMPLEMENTATION
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace CA
{
namespace Private
{
namespace Class
{
_CA_PRIVATE_DEF_CLS(CAMetalLayer);
} // Class
} // Private
} // CA
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace CA
{
namespace Private
{
namespace Protocol
{
_CA_PRIVATE_DEF_PRO(CAMetalDrawable);
} // Protocol
} // Private
} // CA
//-------------------------------------------------------------------------------------------------------------------------------------------------------------
namespace CA
{
namespace Private
{
namespace Selector
{
_CA_PRIVATE_DEF_SEL(device,
"device");
_CA_PRIVATE_DEF_SEL(drawableSize,
"drawableSize");
_CA_PRIVATE_DEF_SEL(framebufferOnly,
"framebufferOnly");
_CA_PRIVATE_DEF_SEL(layer,
"layer");
_CA_PRIVATE_DEF_SEL(nextDrawable,
"nextDrawable");
_CA_PRIVATE_DEF_SEL(pixelFormat,
"pixelFormat");
_CA_PRIVATE_DEF_SEL(setDevice_,
"setDevice:");
_CA_PRIVATE_DEF_SEL(setDrawableSize_,
"setDrawableSize:");
_CA_PRIVATE_DEF_SEL(setFramebufferOnly_,
"setFramebufferOnly:");
_CA_PRIVATE_DEF_SEL(setPixelFormat_,
"setPixelFormat:");
_CA_PRIVATE_DEF_SEL(texture,
"texture");
} // Class
} // Private
} // CA
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

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//-------------------------------------------------------------------------------------------------------------------------------------------------------------
//
// QuartzCore/QuartzCore.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 "CAMetalDrawable.hpp"
#include "CAMetalLayer.hpp"
//-------------------------------------------------------------------------------------------------------------------------------------------------------------

311
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## About
**metal-cpp** is a low overhead and header only C++ interface for Metal that helps developers add Metal functionality to graphics applications that are written in C++ (such as game engines). **metal-cpp** removes the need to create a shim and allows developers to call Metal functions directly from anywhere in their existing C++ code.
## Highlights
- Drop in C++ alternative interface to the Metal Objective-C headers.
- Direct mapping of all Metal Objective-C classes, constants and enums to C++ in the MTL C++ namespace.
- No measurable overhead compared to calling Metal Objective-C headers, due to inlining of C++ function calls.
- No usage of wrapper containers that require additional allocations.
- Requires C++17 due to the usage of `constexpr` in `NS::Object`.
- Identical header files and function/constant/enum availability for iOS, macOS and tvOS.
- Backwards compatibility: All `bool MTL::Device::supports...()` functions check if their required selectors exist and automatically return `false` if not.
- String (`ErrorDomain`) constants are weak linked and automatically set to `nullptr` if not available.
## Changelog
| Version | Changes |
|-|-|
| macOS 14, iOS 17 | Add support for the **MetalFX** framework. <br/>Add all the APIs in macOS 14 and iOS 17. |
| macOS 13.3, iOS 16.4 | Add all the APIs in macOS 13.3 and iOS 16.4. |
| macOS 13, iOS 16| Add all the APIs in macOS 13 and iOS 16.<br />New optional `NS::SharedPtr<T>` type to assist with memory management.<br/>New convenience function to create a `CA::MetalLayer`.<br/>New `MTLSTR(str)` macro allows faster string creation from literals.<br/>Fix a problem with the signature of functions that take an array of pointers as input.<br/>Fix a problem with the signature of the `setGroups()` function in `MTL::LinkedFunctions`.|
| macOS 12, iOS 15 | Initial release. |
## Memory Allocation Policy
**metal-cpp** follows the object allocation policies of Cocoa, Cocoa Touch, and CoreFoundation. Understanding these rules is especially important when using metal-cpp, as C++ objects are not eligible for automatic reference counting (ARC).
**metal-cpp** objects are reference counted. To help convey and manage object lifecycles, the following conventions are observed:
1. *You own any object returned by methods whose name begins with* `alloc` *,* `new` *,* `copy` *,* `mutableCopy` *, or* `Create`. The method returns these objects with `retainCount` equals to `1`.
2. *You can take ownership of an object by calling its* ```retain()``` *method*. A received object is normally guaranteed to remain valid within the method it was received in. You use `retain` in two situations: (1) In the implementation of an accessor method (a setter) or to take ownership of an object; and (2) To prevent an object from being deallocated as a side-effect of some other operation.
3. *When you no longer need it, you must relinquish ownership of an object you own*. You relinquish ownership by calling its `release()` or `autorelease()` method.
4. *You must not relinquish ownership of an object you do not own*.
When an object's `retainCount` reaches `0`, the object is immediately deallocated. It is illegal to call methods on a deallocated object and it may lead to an application crash.
### AutoreleasePools and Objects
Several methods that create temporary objects in **metal-cpp** add them to an `AutoreleasePool` to help manage their lifetimes. In these situations, after **metal-cpp** creates the object, it adds it to an `AutoreleasePool`, which will release its objects when you release (or drain) it.
By adding temporary objects to an AutoreleasePool, you do not need to explicitly call `release()` to deallocate them. Instead, you can rely on the `AutoreleasePool` to implicitly manage those lifetimes.
If you create an object with a method that does not begin with `alloc`, `new`, `copy`, `mutableCopy`, or `Create`, the creating method adds the object to an autorelease pool.
The typical scope of an `AutoreleasePool` is one frame of rendering for the main thread of the program. When the thread returns control to the RunLoop (an object responsible for receiving input and events from the windowing system), the pool is *drained*, releasing its objects.
You can create and manage additional `AutoreleasePool`s at smaller scopes to reduce your program's working set, and you are required to do so for any additional threads your program creates.
If an object's lifecycle needs to be extended beyond the scope of an `AutoreleasePool` instance, you can claim ownership of it by calling its `retain()` method before the pool is drained. In these cases, you are responsible for making the appropriate `release()` call on the object after you no longer need it.
You can find a more-detailed introduction to the memory management rules here: https://developer.apple.com/library/archive/documentation/Cocoa/Conceptual/MemoryMgmt/Articles/mmRules.html, and here: https://developer.apple.com/library/archive/documentation/CoreFoundation/Conceptual/CFMemoryMgmt/Concepts/Ownership.html
For more details about the application's RunLoop, please find its documentation here: https://developer.apple.com/documentation/foundation/nsrunloop
### Use and debug AutoreleasePools
When you create an autoreleased object and there is no enclosing `AutoreleasePool`, the object is leaked.
To prevent this, you normally create an `AutoreleasePool` in your program's `main` function, and in the entry function for every thread you create. You may also create additional `AutoreleasePool`s to avoid growing your program's high memory watermark when you create several autoreleased objects, such as when rendering.
Use the Environment Variable `OBJC_DEBUG_MISSING_POOLS=YES` to print a runtime warning when an autoreleased object is leaked because no enclosing `AutoreleasePool` is available for its thread.
You can also run `leaks --autoreleasePools` on a memgraph file or a process ID (macOS only) to view a listing of your program's `AutoreleasePool`s and all objects they contain.
### NS::SharedPtr
The **metal-cpp** headers include an optional `NS::SharedPtr<>` (shared pointer) template that can help you manually manage memory in your apps.
Shared pointers in **metal-cpp** are different from `std::shared_ptr<>` in that they implement specific optimizations for its memory model. For example, **metal-cpp**'s shared pointers avoid the overhead of the standard library's version by leveraging the reference counting implementation of the `NS::Object` type.
#### Note
The **metal-cpp** shared pointers destructor method always calls the `release()` method of the pointer that it wraps.
You can create an `NS::SharedPtr<>` by calling the metal-cpp's factory method that's appropriate for your application's intent:
* You can **transfer** ownership of a pointer to a new shared pointer instance by calling the `NS::TransferPtr()` factory function, which is the correct function for Resource Acquisition is Initialization (RAII) implementations because it doesn't increase the pointee's retain count.
* You can **share** ownership of a pointer with another entity by calling the `NS::RetainPtr()` factory function. This function can also extend an object's lifecycle beyond an `AutoreleasePool` instance's scope because it creates a strong reference to the pointee and increases its retain count.
Usage of `NS::SharedPtr<>` is optional.
### nullptr
Similar to Objective-C, it is legal to call any method, including `retain()` and `release()`, on `nullptr` "objects". While calling methods on `nullptr` still does incur in function call overhead, the effective result is equivalent of a NOP.
Conversely, do not assume that because calling a method on a pointer did not result in a crash, that the pointed-to object is valid.
## Adding metal-cpp to a Project
Simply include `Metal/Metal.hpp`. To ensure that the selector and class symbols are linked, add to one of your cpp files:
```cpp
#define NS_PRIVATE_IMPLEMENTATION
#define MTL_PRIVATE_IMPLEMENTATION
#include "Metal/Metal.hpp"
```
If you want to use the QuartzCore wrapper, add:
```cpp
#define CA_PRIVATE_IMPLEMENTATION
#include "QuartzCore/QuartzCore.hpp"
```
## Generating a Single Header File
Purely optional: You can generate a single header file that contains all **metal-cpp** headers via:
```shell
./SingleHeader/MakeSingleHeader.py Foundation/Foundation.hpp QuartzCore/QuartzCore.hpp Metal/Metal.hpp MetalFX/MetalFX.hpp
```
By default the generator script writes its output to `./SingleHeader/Metal.hpp`. Use the `-o` option to customize output filename.
## Global Symbol Visibility
metal-cpp marks all its symbols with `default` visibility. Define the macro: `METALCPP_SYMBOL_VISIBILITY_HIDDEN` to override this behavior and hide its symbols.
## Examples
#### Creating the device
###### Objective-C (with automatic reference counting)
```objc
id< MTLDevice > device = MTLCreateSystemDefaultDevice();
// ...
```
###### Objective-C
```objc
id< MTLDevice > device = MTLCreateSystemDefaultDevice();
// ...
[device release];
```
###### C++
```cpp
MTL::Device* pDevice = MTL::CreateSystemDefaultDevice();
// ...
pDevice->release();
```
###### C++ (using NS::SharedPtr)
```cpp
NS::SharedPtr< MTL::Device > pDevice = NS::TransferPtr( MTL::CreateSystemDefaultDevice() );
// ...
```
#### Metal function calls map directly to C++
###### Objective-C (with automatic reference counting)
```objc
MTLSamplerDescriptor* samplerDescriptor = [[MTLSamplerDescriptor alloc] init];
[samplerDescriptor setSAddressMode: MTLSamplerAddressModeRepeat];
[samplerDescriptor setTAddressMode: MTLSamplerAddressModeRepeat];
[samplerDescriptor setRAddressMode: MTLSamplerAddressModeRepeat];
[samplerDescriptor setMagFilter: MTLSamplerMinMagFilterLinear];
[samplerDescriptor setMinFilter: MTLSamplerMinMagFilterLinear];
[samplerDescriptor setMipFilter: MTLSamplerMipFilterLinear];
[samplerDescriptor setSupportArgumentBuffers: YES];
id< MTLSamplerState > samplerState = [device newSamplerStateWithDescriptor:samplerDescriptor];
```
###### Objective-C
```objc
MTLSamplerDescriptor* samplerDescriptor = [[MTLSamplerDescriptor alloc] init];
[samplerDescriptor setSAddressMode: MTLSamplerAddressModeRepeat];
[samplerDescriptor setTAddressMode: MTLSamplerAddressModeRepeat];
[samplerDescriptor setRAddressMode: MTLSamplerAddressModeRepeat];
[samplerDescriptor setMagFilter: MTLSamplerMinMagFilterLinear];
[samplerDescriptor setMinFilter: MTLSamplerMinMagFilterLinear];
[samplerDescriptor setMipFilter: MTLSamplerMipFilterLinear];
[samplerDescriptor setSupportArgumentBuffers: YES];
id< MTLSamplerState > samplerState = [device newSamplerStateWithDescriptor:samplerDescriptor];
[samplerDescriptor release];
// ...
[samplerState release];
```
###### C++
```cpp
MTL::SamplerDescriptor* pSamplerDescriptor = MTL::SamplerDescriptor::alloc()->init();
pSamplerDescriptor->setSAddressMode( MTL::SamplerAddressModeRepeat );
pSamplerDescriptor->setTAddressMode( MTL::SamplerAddressModeRepeat );
pSamplerDescriptor->setRAddressMode( MTL::SamplerAddressModeRepeat );
pSamplerDescriptor->setMagFilter( MTL::SamplerMinMagFilterLinear );
pSamplerDescriptor->setMinFilter( MTL::SamplerMinMagFilterLinear );
pSamplerDescriptor->setMipFilter( MTL::SamplerMipFilterLinear );
pSamplerDescriptor->setSupportArgumentBuffers( true );
MTL::SamplerState* pSamplerState = pDevice->newSamplerState( pSamplerDescriptor );
pSamplerDescriptor->release();
// ...
pSamplerState->release();
```
###### C++ (using NS::SharedPtr)
```cpp
NS::SharedPtr< MTL::SamplerDescriptor > pSamplerDescriptor = NS::TransferPtr( MTL::SamplerDescriptor::alloc()->init() );
pSamplerDescriptor->setSAddressMode( MTL::SamplerAddressModeRepeat );
pSamplerDescriptor->setTAddressMode( MTL::SamplerAddressModeRepeat );
pSamplerDescriptor->setRAddressMode( MTL::SamplerAddressModeRepeat );
pSamplerDescriptor->setMagFilter( MTL::SamplerMinMagFilterLinear );
pSamplerDescriptor->setMinFilter( MTL::SamplerMinMagFilterLinear );
pSamplerDescriptor->setMipFilter( MTL::SamplerMipFilterLinear );
pSamplerDescriptor->setSupportArgumentBuffers( true );
NS::SharedPtr< MTL::SamplerState > pSamplerState( pDevice->newSamplerState( pSamplerDescriptor ) );
```
#### A subset of bindings for Foundation classes is provided for seamless integration
###### Objective-C (with automatic reference counting)
```objc
NSAutoreleasePool* pool = [[NSAutoreleasePool alloc] init];
NSString* string = [NSString stringWithCString: "Hello World" encoding: NSASCIIStringEncoding];
printf( "string = \"%s\"\n", [string cStringUsingEncoding: NSASCIIStringEncoding] );
```
###### Objective-C
```objc
NSAutoreleasePool* pool = [[NSAutoreleasePool alloc] init];
NSString* string = [NSString stringWithCString: "Hello World" encoding: NSASCIIStringEncoding];
printf( "string = \"%s\"\n", [string cStringUsingEncoding: NSASCIIStringEncoding] );
[pool release];
```
###### C++
```cpp
NS::AutoreleasePool* pPool = NS::AutoreleasePool::alloc()->init();
NS::String* pString = NS::String::string( "Hello World", NS::ASCIIStringEncoding );
printf( "pString = \"%s\"\n", pString->cString( NS::ASCIIStringEncoding ) );
pPool->release();
```
###### C++ (using NS::SharedPtr)
```cpp
NS::SharedPtr< NS::AutoreleasePool > pPool = NS::TransferPtr( NS::AutoreleasePool::alloc()->init() );
NS::String* pString = NS::String::string( "Hello World", NS::ASCIIStringEncoding );
printf( "pString = \"%s\"\n", pString->cString( NS::ASCIIStringEncoding ) );
```
#### Containers
Use the CoreFoundation framework to create `NS::Array` and `NS::Dictionary` instances.
```cpp
MTL::AccelerationStructureTriangleGeometryDescriptor* pGeoDescriptor = MTL::AccelerationStructureTriangleGeometryDescriptor::alloc()->init();
CFTypeRef descriptors[] = { ( CFTypeRef )( pGeoDescriptor ) };
NS::Array* pGeoDescriptors = ( NS::Array* )( CFArrayCreate( kCFAllocatorDefault, descriptors, SIZEOF_ARRAY( descriptors), &kCFTypeArrayCallBacks ) );
// ...
pGeoDescriptors->release();
```
Containers, such as `NS::Array` and `NS::Dictionary`, retain the objects they hold and release them when the container is deallocated.
#### Accessing the Metal Drawable
```cpp
#import <QuartzCore/QuartzCore.hpp>
// ...
CA::MetalLayer* pMetalLayer = /* layer associated with the view */;
CA::MetalDrawable* pMetalDrawable = pMetalLayer->nextDrawable();
// ...
```

View File

@ -0,0 +1,271 @@
#!/usr/bin/env python3
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
#
# SingleHeader/MakeSingleHeader.py
#
# 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.
#
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
import argparse
import datetime
import logging
import os
import re
import subprocess
import sys
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
class HeaderPrefix( object ):
__template = ( '//\n'
'// {file}\n'
'//\n'
'// {meta_data}\n'
'//\n'
'// Copyright 2020-2023 Apple Inc.\n'
'//\n'
'// Licensed under the Apache License, Version 2.0 (the "License");\n'
'// you may not use this file except in compliance with the License.\n'
'// You may obtain a copy of the License at\n'
'//\n'
'// http://www.apache.org/licenses/LICENSE-2.0\n'
'//\n'
'// Unless required by applicable law or agreed to in writing, software\n'
'// distributed under the License is distributed on an "AS IS" BASIS,\n'
'// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n'
'// See the License for the specific language governing permissions and\n'
'// limitations under the License.\n'
'//\n'
'\n' )
__template_commit = 'Autogenerated from commit {commit}.'
__template_date = 'Autogenerated on %B %d, %Y.'
def __init__( self, file ):
self.__file = file
def __str__( self ):
return self.__template.format( file = self.__file, meta_data = self.__meta_data_string() )
def __get_commit_hash( self ):
git_commit_hash = None
try:
git_dir = os.path.dirname( os.path.realpath( __file__ ) )
proc = subprocess.Popen( [ 'git', 'rev-parse', 'HEAD' ], cwd = git_dir, stdout = subprocess.PIPE, stderr = subprocess.PIPE )
git_commit_hash = proc.stdout.read().decode( 'utf-8', 'replace' ).strip()
except:
logging.error( 'Failed to determine git commit hash!' )
pass
return git_commit_hash
def __get_commit_string( self ):
meta_data = None
git_commit_hash = self.__get_commit_hash()
if git_commit_hash:
meta_data = self.__template_commit.format( commit = git_commit_hash )
return meta_data
def __get_date_string( self ):
today = datetime.date.today()
return today.strftime( self.__template_date )
def __meta_data_string( self ):
meta_data = self.__get_commit_string()
if not meta_data:
meta_data = self.__get_date_string()
return meta_data
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
class SingleHeader( object ):
__pragma_once = '#pragma once\n\n'
def __init__( self ):
self.__header_paths = list()
def __str__( self ):
return self.process()
def append( self, header_path ):
self.__header_paths.append( header_path )
def process( self ):
out_header = self.__pragma_once
self.__included_headers = set()
self.__base_path = list()
for header_path in self.__header_paths:
out_header += self.__process_header( header_path )
return self.__strip_empty_lines( out_header )
def __read_header( self, path ):
path = os.path.realpath( path )
try:
f = open( path, 'r' )
except:
raise RuntimeError( 'Failed to open file \"' + path + '\" for read!' )
return f.read()
def __strip_pragma_once( self, header ):
return re.sub( '\\s*#pragma once\s*\\/\\/-*\\n', '', header )
def __strip_comments( self, header ):
return re.sub( '^//.*\\n', '', header, flags = re.MULTILINE )
def __strip_empty_lines( self, header ):
return re.sub( '\\n\\n+', '\\n\\n', header, flags = re.MULTILINE )
def __substitute_include_directive( self, match ):
header_path = match.group( 'HEADER_PATH' )
logging.info( '\tSubstituting \"' + header_path + '\"...' )
return self.__process_header( os.path.join( self.__base_path[-1], header_path ) )
def __process_include_directives( self, header ):
return re.sub( '^\\s*#include\\s\\"(?P<HEADER_PATH>\\S*)\\"', self.__substitute_include_directive, header, flags = re.MULTILINE )
def __process_foundation_directives( self, header ):
if header.find("#include <Foundation/Foundation.hpp>") != -1:
logging.info( '\tSubstituting <Foundation/Foundation.hpp>...' )
return header.replace("#include <Foundation/Foundation.hpp>", self.__process_header( os.path.join( self.__base_path[-1], "../Foundation/Foundation.hpp" ) ) )
return header
def __process_header( self, header_path ):
out_header = ''
header_path = os.path.realpath( header_path )
if not header_path in self.__included_headers:
logging.info( 'Processing \"' + header_path + '\"...' )
self.__base_path.append( os.path.dirname( header_path ) )
self.__included_headers.add( header_path )
out_header = self.__read_header( header_path )
out_header = self.__strip_pragma_once( out_header )
out_header = self.__strip_comments( out_header )
out_header = self.__process_include_directives( out_header )
out_header = self.__process_foundation_directives( out_header )
self.__base_path.pop()
else:
logging.info( '\tSkipping \"' + header_path + '\"...' )
return out_header
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
def create_argument_parser():
parser = argparse.ArgumentParser()
base_path = os.path.dirname( os.path.realpath( __file__ ) )
output_path = os.path.join( base_path, 'Metal.hpp' )
parser.add_argument( '-o', '--output', dest = 'output_path', metavar = 'PATH', default = output_path, help = 'Output path for the single header file.' )
parser.add_argument( '-v', '--verbose', action = 'store_true', help = 'Show verbose output.' )
parser.add_argument( dest = 'header_paths', metavar = 'HEADER_FILE', nargs='+', help = 'Input header file.' )
return parser
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
def parse_arguments():
parser = create_argument_parser()
args = parser.parse_args()
if args.verbose:
logging.getLogger().setLevel( logging.INFO )
else:
logging.getLogger().setLevel( logging.ERROR )
return args
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
def make_header( args ):
prefix = HeaderPrefix( os.path.basename( args.output_path ) )
header = SingleHeader()
for header_path in args.header_paths:
header.append( header_path )
return str( prefix ) + str( header )
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
def make_dir( path ):
try:
if not os.path.exists( path ):
os.makedirs( path )
except os.error:
pass
except:
raise
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
def write_header( args, content ):
path = os.path.realpath( args.output_path )
logging.info( 'Writing \"' + path + '\"...' )
make_dir( os.path.dirname( path ) )
try:
f = open( path, 'w' )
except:
raise RuntimeError( 'Failed to open file \"' + path + '\" for write!' )
f.write( content )
#--------------------------------------------------------------------------------------------------------------------------------------------------------------
if __name__ == '__main__':
result = -1
try:
if sys.getdefaultencoding().lower() == 'ascii':
reload( sys )
sys.setdefaultencoding( 'utf-8' )
args = parse_arguments()
header = make_header( args )
write_header( args, header )
result = 0
except ( KeyboardInterrupt, SystemExit ):
pass
except:
raise
sys.exit( result )
#--------------------------------------------------------------------------------------------------------------------------------------------------------------

View File

@ -148,6 +148,7 @@ bool ParseFilterRule(Filter& instance, Iterator begin, Iterator end) {
SUB(Render, Software) \
SUB(Render, OpenGL) \
SUB(Render, Vulkan) \
SUB(Render, Metal) \
CLS(Shader) \
SUB(Shader, SPIRV) \
SUB(Shader, GLASM) \

View File

@ -116,6 +116,7 @@ enum class Class : u8 {
Render_Software, ///< Software renderer backend
Render_OpenGL, ///< OpenGL backend
Render_Vulkan, ///< Vulkan backend
Render_Metal, ///< Metal backend
Shader, ///< Shader recompiler
Shader_SPIRV, ///< Shader SPIR-V code generation
Shader_GLASM, ///< Shader GLASM code generation

View File

@ -124,7 +124,7 @@ ENUM(VSyncMode, Immediate, Mailbox, Fifo, FifoRelaxed);
ENUM(VramUsageMode, Conservative, Aggressive);
ENUM(RendererBackend, OpenGL, Vulkan, Null);
ENUM(RendererBackend, OpenGL, Vulkan, Metal, Null);
ENUM(ShaderBackend, Glsl, Glasm, SpirV);

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