Vulkan-Hpp/VulkanHppGenerator.cpp

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// Copyright(c) 2015-2020, NVIDIA CORPORATION. All rights reserved.
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//
// 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.
#include "VulkanHppGenerator.hpp"
#include <algorithm>
#include <cassert>
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#include <fstream>
#include <regex>
bool areDisjoint( std::set<size_t> const & first, std::set<size_t> const & second );
bool beginsWith( std::string const & text, std::string const & prefix );
bool endsWith( std::string const & text, std::string const & postfix );
void check( bool condition, int line, std::string const & message );
void checkAttributes( int line,
std::map<std::string, std::string> const & attributes,
std::map<std::string, std::set<std::string>> const & required,
std::map<std::string, std::set<std::string>> const & optional );
void checkElements( int line,
std::vector<tinyxml2::XMLElement const *> const & elements,
std::map<std::string, bool> const & required,
std::set<std::string> const & optional = {} );
std::set<size_t> determineSingularParams( size_t returnParam, std::map<size_t, size_t> const & vectorParams );
std::string findTag( std::set<std::string> const & tags, std::string const & name, std::string const & postfix = "" );
std::string generateCArraySizes( std::vector<std::string> const & sizes );
std::pair<std::string, std::string> generateEnumSuffixes( std::string const & name, bool bitmask, std::set<std::string> const & tags );
std::string generateEnumValueName( std::string const & enumName, std::string const & valueName, bool bitmask, std::set<std::string> const & tags );
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std::string generateNamespacedType( std::string const & type );
std::string generateNoDiscard( bool returnsSomething, bool multiSuccessCodes, bool multiErrorCodes );
std::string generateNoExcept( std::vector<std::string> const & errorCodes,
std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
bool singular,
bool vectorSizeCheck,
bool raii );
std::string generateStandardArray( std::string const & type, std::vector<std::string> const & sizes );
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std::string generateStandardArrayWrapper( std::string const & type, std::vector<std::string> const & sizes );
std::string generateSuccessCode( std::string const & code, std::set<std::string> const & tags );
std::map<std::string, std::string> getAttributes( tinyxml2::XMLElement const * element );
template <typename ElementContainer>
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std::vector<tinyxml2::XMLElement const *> getChildElements( ElementContainer const * element );
std::pair<std::vector<std::string>, std::string> readModifiers( tinyxml2::XMLNode const * node );
void replaceAll( std::string & str, std::string const & from, std::string const & to );
std::string replaceWithMap( std::string const & input, std::map<std::string, std::string> replacements );
std::string startLowerCase( std::string const & input );
std::string startUpperCase( std::string const & input );
std::string stripPostfix( std::string const & value, std::string const & postfix );
std::string stripPluralS( std::string const & name );
std::string stripPrefix( std::string const & value, std::string const & prefix );
std::string toCamelCase( std::string const & value );
std::string toUpperCase( std::string const & name );
std::vector<std::string> tokenize( std::string const & tokenString, std::string const & separator );
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template <typename StringContainer>
std::string toString( StringContainer const & strings );
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std::string toString( tinyxml2::XMLError error );
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std::string trim( std::string const & input );
std::string trimEnd( std::string const & input );
std::string trimStars( std::string const & input );
void warn( bool condition, int line, std::string const & message );
void writeToFile( std::string const & str, std::string const & fileName );
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template <class InputIt, class UnaryPredicate>
std::vector<InputIt> findAll( InputIt first, InputIt last, UnaryPredicate p )
{
std::vector<InputIt> result;
while ( first != last )
{
if ( p( *first ) )
{
result.push_back( first );
}
++first;
}
return result;
}
const std::set<std::string> altLens = { "2*VK_UUID_SIZE", "codeSize / 4", "(rasterizationSamples + 31) / 32", "(samples + 31) / 32" };
const std::set<std::string> specialPointerTypes = { "Display", "IDirectFB", "wl_display", "xcb_connection_t", "_screen_window" };
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//
// VulkanHppGenerator public interface
//
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VulkanHppGenerator::VulkanHppGenerator( tinyxml2::XMLDocument const & document )
{
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// insert the default "handle" without class (for createInstance, and such)
m_handles.insert( std::make_pair( "", HandleData( {}, "", false, 0 ) ) );
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// read the document and check its correctness
int line = document.GetLineNum();
std::vector<tinyxml2::XMLElement const *> elements = getChildElements( &document );
checkElements( line, elements, { { "registry", true } } );
check( elements.size() == 1, line, "encountered " + std::to_string( elements.size() ) + " elements named <registry> but only one is allowed" );
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readRegistry( elements[0] );
checkCorrectness();
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// some "FlagBits" enums are not specified, but needed for our "Flags" handling -> add them here
for ( auto & feature : m_features )
{
addMissingFlagBits( feature.second.requireData, feature.first );
}
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for ( auto & ext : m_extensions )
{
addMissingFlagBits( ext.second.requireData, ext.first );
}
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// determine the extensionsByNumber map
for ( auto extensionIt = m_extensions.begin(); extensionIt != m_extensions.end(); ++extensionIt )
{
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int number = atoi( extensionIt->second.number.c_str() );
assert( m_extensionsByNumber.find( number ) == m_extensionsByNumber.end() );
m_extensionsByNumber[number] = extensionIt;
}
}
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std::string VulkanHppGenerator::generateBaseTypes() const
{
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assert( !m_baseTypes.empty() );
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const std::string basetypesTemplate = R"(
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//==================
//=== BASE TYPEs ===
//==================
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${basetypes}
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)";
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std::string basetypes;
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for ( auto const & baseType : m_baseTypes )
{
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// filter out VkFlags and VkFlags64, as they are mapped to our own Flags class
if ( ( baseType.first != "VkFlags" ) && ( baseType.first != "VkFlags64" ) )
{
basetypes += " using " + stripPrefix( baseType.first, "Vk" ) + " = " + baseType.second.typeInfo.compose( "VULKAN_HPP_NAMESPACE" ) + ";\n";
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}
}
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return replaceWithMap( basetypesTemplate, { { "basetypes", basetypes } } );
}
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std::string VulkanHppGenerator::generateBitmasks() const
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{
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const std::string bitmasksTemplate = R"(
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//================
//=== BITMASKs ===
//================
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${bitmasks}
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)";
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std::string bitmasks;
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std::set<std::string> listedBitmasks;
for ( auto const & feature : m_features )
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{
bitmasks += generateBitmasks( feature.second.requireData, listedBitmasks, feature.first );
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}
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for ( auto const & extIt : m_extensionsByNumber )
{
bitmasks += generateBitmasks( extIt.second->second.requireData, listedBitmasks, extIt.second->first );
}
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return replaceWithMap( bitmasksTemplate, { { "bitmasks", bitmasks } } );
}
std::string VulkanHppGenerator::generateBitmasksToString() const
{
const std::string bitmasksToStringTemplate = R"(
//==========================
//=== BITMASKs to_string ===
//==========================
${bitmasksToString}
)";
std::string bitmasksToString;
std::set<std::string> listedBitmasks;
for ( auto const & feature : m_features )
{
bitmasksToString += generateBitmasksToString( feature.second.requireData, listedBitmasks, feature.first );
}
for ( auto const & extIt : m_extensionsByNumber )
{
bitmasksToString += generateBitmasksToString( extIt.second->second.requireData, listedBitmasks, extIt.second->first );
}
return replaceWithMap( bitmasksToStringTemplate, { { "bitmasksToString", bitmasksToString } } );
}
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std::string VulkanHppGenerator::generateCommandDefinitions() const
{
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const std::string commandDefinitionsTemplate = R"(
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//===========================
//=== COMMAND Definitions ===
//===========================
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${commandDefinitions}
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)";
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std::string commandDefinitions;
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std::set<std::string> listedCommands; // some commands are listed with more than one extension!
for ( auto const & feature : m_features )
{
commandDefinitions += generateCommandDefinitions( feature.second.requireData, listedCommands, feature.first );
}
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for ( auto const & extIt : m_extensionsByNumber )
{
commandDefinitions += generateCommandDefinitions( extIt.second->second.requireData, listedCommands, extIt.second->first );
}
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return replaceWithMap( commandDefinitionsTemplate, { { "commandDefinitions", commandDefinitions } } );
}
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std::string VulkanHppGenerator::generateDispatchLoaderDynamic() const
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{
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const std::string dispatchLoaderDynamicTemplate = R"(
using PFN_dummy = void ( * )();
class DispatchLoaderDynamic : public DispatchLoaderBase
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{
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public:
${commandMembers}
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public:
DispatchLoaderDynamic() VULKAN_HPP_NOEXCEPT = default;
DispatchLoaderDynamic( DispatchLoaderDynamic const & rhs ) VULKAN_HPP_NOEXCEPT = default;
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#if !defined( VK_NO_PROTOTYPES )
// This interface is designed to be used for per-device function pointers in combination with a linked vulkan library.
template <typename DynamicLoader>
void init(VULKAN_HPP_NAMESPACE::Instance const & instance, VULKAN_HPP_NAMESPACE::Device const & device, DynamicLoader const & dl) VULKAN_HPP_NOEXCEPT
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{
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PFN_vkGetInstanceProcAddr getInstanceProcAddr = dl.template getProcAddress<PFN_vkGetInstanceProcAddr>("vkGetInstanceProcAddr");
PFN_vkGetDeviceProcAddr getDeviceProcAddr = dl.template getProcAddress<PFN_vkGetDeviceProcAddr>("vkGetDeviceProcAddr");
init(static_cast<VkInstance>(instance), getInstanceProcAddr, static_cast<VkDevice>(device), device ? getDeviceProcAddr : nullptr);
}
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// This interface is designed to be used for per-device function pointers in combination with a linked vulkan library.
template <typename DynamicLoader
#if VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL
= VULKAN_HPP_NAMESPACE::DynamicLoader
#endif
>
void init(VULKAN_HPP_NAMESPACE::Instance const & instance, VULKAN_HPP_NAMESPACE::Device const & device) VULKAN_HPP_NOEXCEPT
{
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static DynamicLoader dl;
init(instance, device, dl);
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}
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#endif // !defined( VK_NO_PROTOTYPES )
DispatchLoaderDynamic(PFN_vkGetInstanceProcAddr getInstanceProcAddr) VULKAN_HPP_NOEXCEPT
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{
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init(getInstanceProcAddr);
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}
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void init( PFN_vkGetInstanceProcAddr getInstanceProcAddr ) VULKAN_HPP_NOEXCEPT
{
VULKAN_HPP_ASSERT(getInstanceProcAddr);
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vkGetInstanceProcAddr = getInstanceProcAddr;
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${initialCommandAssignments}
}
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// This interface does not require a linked vulkan library.
DispatchLoaderDynamic( VkInstance instance,
PFN_vkGetInstanceProcAddr getInstanceProcAddr,
VkDevice device = {},
PFN_vkGetDeviceProcAddr getDeviceProcAddr = nullptr ) VULKAN_HPP_NOEXCEPT
{
init( instance, getInstanceProcAddr, device, getDeviceProcAddr );
}
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// This interface does not require a linked vulkan library.
void init( VkInstance instance,
PFN_vkGetInstanceProcAddr getInstanceProcAddr,
VkDevice device = {},
PFN_vkGetDeviceProcAddr /*getDeviceProcAddr*/ = nullptr ) VULKAN_HPP_NOEXCEPT
{
VULKAN_HPP_ASSERT(instance && getInstanceProcAddr);
vkGetInstanceProcAddr = getInstanceProcAddr;
init( VULKAN_HPP_NAMESPACE::Instance(instance) );
if (device) {
init( VULKAN_HPP_NAMESPACE::Device(device) );
}
}
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void init( VULKAN_HPP_NAMESPACE::Instance instanceCpp ) VULKAN_HPP_NOEXCEPT
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{
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VkInstance instance = static_cast<VkInstance>(instanceCpp);
${instanceCommandAssignments}
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}
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void init( VULKAN_HPP_NAMESPACE::Device deviceCpp ) VULKAN_HPP_NOEXCEPT
{
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VkDevice device = static_cast<VkDevice>(deviceCpp);
${deviceCommandAssignments}
}
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};
)";
std::string commandMembers, deviceCommandAssignments, initialCommandAssignments, instanceCommandAssignments;
std::set<std::string> listedCommands; // some commands are listed with more than one extension!
for ( auto const & feature : m_features )
{
appendDispatchLoaderDynamicCommands( feature.second.requireData,
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listedCommands,
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feature.first,
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commandMembers,
initialCommandAssignments,
instanceCommandAssignments,
deviceCommandAssignments );
}
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for ( auto const & extIt : m_extensionsByNumber )
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{
appendDispatchLoaderDynamicCommands( extIt.second->second.requireData,
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listedCommands,
extIt.second->first,
commandMembers,
initialCommandAssignments,
instanceCommandAssignments,
deviceCommandAssignments );
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}
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return replaceWithMap( dispatchLoaderDynamicTemplate,
{ { "commandMembers", commandMembers },
{ "deviceCommandAssignments", deviceCommandAssignments },
{ "initialCommandAssignments", initialCommandAssignments },
{ "instanceCommandAssignments", instanceCommandAssignments } } );
}
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std::string VulkanHppGenerator::generateDispatchLoaderStatic() const
{
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const std::string dispatchLoaderStaticTemplate = R"(
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#if !defined( VK_NO_PROTOTYPES )
class DispatchLoaderStatic : public DispatchLoaderBase
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{
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public:
${commands}
};
#endif
)";
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std::string commands;
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std::set<std::string> listedCommands;
for ( auto const & feature : m_features )
{
commands += generateDispatchLoaderStaticCommands( feature.second.requireData, listedCommands, feature.first );
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}
for ( auto const & extIt : m_extensionsByNumber )
{
commands += generateDispatchLoaderStaticCommands( extIt.second->second.requireData, listedCommands, extIt.second->first );
}
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return replaceWithMap( dispatchLoaderStaticTemplate, { { "commands", commands } } );
}
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std::string VulkanHppGenerator::generateEnums() const
{
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const std::string enumsTemplate = R"(
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//=============
//=== ENUMs ===
//=============
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${enums}
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)";
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std::string enums;
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std::set<std::string> listedEnums;
for ( auto const & feature : m_features )
{
enums += generateEnums( feature.second.requireData, listedEnums, feature.first );
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}
for ( auto const & extIt : m_extensionsByNumber )
{
enums += generateEnums( extIt.second->second.requireData, listedEnums, extIt.second->first );
}
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return replaceWithMap( enumsTemplate, { { "enums", enums } } );
}
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std::string VulkanHppGenerator::generateEnumsToString() const
{
// start with toHexString, which is used in all the to_string functions here!
const std::string enumsToStringTemplate = R"(
//=======================
//=== ENUMs to_string ===
//=======================
VULKAN_HPP_INLINE std::string toHexString( uint32_t value )
{
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#if ( ( 20 <= VULKAN_HPP_CPP_VERSION ) && __has_include( <format> ) )
return std::format( "{:x}", value );
#else
std::stringstream stream;
stream << std::hex << value;
return stream.str();
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#endif
}
${enumsToString}
)";
std::string enumsToString;
std::set<std::string> listedEnums;
for ( auto const & feature : m_features )
{
enumsToString += generateEnumsToString( feature.second.requireData, listedEnums, feature.first );
}
for ( auto const & extIt : m_extensionsByNumber )
{
enumsToString += generateEnumsToString( extIt.second->second.requireData, listedEnums, extIt.second->first );
}
return replaceWithMap( enumsToStringTemplate, { { "enumsToString", enumsToString } } );
}
std::string VulkanHppGenerator::generateFormatTraits() const
{
if ( m_formats.empty() )
{
return "";
}
const std::string formatTraitsTemplate = R"(
//=====================
//=== Format Traits ===
//=====================
// The texel block size in bytes.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 uint8_t blockSize( VULKAN_HPP_NAMESPACE::Format format )
{
switch( format )
{
${blockSizeCases}
default : VULKAN_HPP_ASSERT( false ); return 0;
}
}
// The number of texels in a texel block.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 uint8_t texelsPerBlock( VULKAN_HPP_NAMESPACE::Format format )
{
switch( format )
{
${texelsPerBlockCases}
default: VULKAN_HPP_ASSERT( false ); return 0;
}
}
// The three-dimensional extent of a texel block.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 std::array<uint8_t, 3> blockExtent( VULKAN_HPP_NAMESPACE::Format format )
{
switch( format )
{
${blockExtentCases}
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default: return {{1, 1, 1 }};
}
}
// A textual description of the compression scheme, or an empty string if it is not compressed
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 char const * compressionScheme( VULKAN_HPP_NAMESPACE::Format format )
{
switch( format )
{
${compressionSchemeCases}
default: return "";
}
}
// True, if this format is a compressed one.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 bool isCompressed( VULKAN_HPP_NAMESPACE::Format format )
{
return ( *VULKAN_HPP_NAMESPACE::compressionScheme( format ) != 0 );
}
// The number of bits into which the format is packed. A single image element in this format
// can be stored in the same space as a scalar type of this bit width.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 uint8_t packed( VULKAN_HPP_NAMESPACE::Format format )
{
switch( format )
{
${packedCases}
default: return 0;
}
}
// True, if the components of this format are compressed, otherwise false.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 bool componentsAreCompressed( VULKAN_HPP_NAMESPACE::Format format )
{
switch( format )
{
${componentsAreCompressedCases}
return true;
default: return false;
}
}
// The number of bits in this component, if not compressed, otherwise 0.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 uint8_t componentBits( VULKAN_HPP_NAMESPACE::Format format, uint8_t component )
{
switch( format )
{
${componentBitsCases}
default: return 0;
}
}
// The number of components of this format.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 uint8_t componentCount( VULKAN_HPP_NAMESPACE::Format format )
{
switch( format )
{
${componentCountCases}
default: return 0;
}
}
// The name of the component
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 char const * componentName( VULKAN_HPP_NAMESPACE::Format format, uint8_t component )
{
switch( format )
{
${componentNameCases}
default: return "";
}
}
// The numeric format of the component
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 char const * componentNumericFormat( VULKAN_HPP_NAMESPACE::Format format, uint8_t component )
{
switch( format )
{
${componentNumericFormatCases}
default: return "";
}
}
// The plane this component lies in.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 uint8_t componentPlaneIndex( VULKAN_HPP_NAMESPACE::Format format, uint8_t component )
{
switch( format )
{
${componentPlaneIndexCases}
default: return 0;
}
}
// The number of image planes of this format.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 uint8_t planeCount( VULKAN_HPP_NAMESPACE::Format format )
{
switch( format )
{
${planeCountCases}
default: return 1;
}
}
// The single-plane format that this plane is compatible with.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 VULKAN_HPP_NAMESPACE::Format planeCompatibleFormat( VULKAN_HPP_NAMESPACE::Format format, uint8_t plane )
{
switch( format )
{
${planeCompatibleCases}
default: VULKAN_HPP_ASSERT( plane == 0 ); return format;
}
}
// The relative height of this plane. A value of k means that this plane is 1/k the height of the overall format.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 uint8_t planeHeightDivisor( VULKAN_HPP_NAMESPACE::Format format, uint8_t plane )
{
switch( format )
{
${planeHeightDivisorCases}
default: VULKAN_HPP_ASSERT( plane == 0 ); return 1;
}
}
// The relative width of this plane. A value of k means that this plane is 1/k the width of the overall format.
VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR_14 uint8_t planeWidthDivisor( VULKAN_HPP_NAMESPACE::Format format, uint8_t plane )
{
switch( format )
{
${planeWidthDivisorCases}
default: VULKAN_HPP_ASSERT( plane == 0 ); return 1;
}
}
)";
auto formatIt = m_enums.find( "VkFormat" );
assert( formatIt != m_enums.end() );
assert( formatIt->second.values.front().name == "VK_FORMAT_UNDEFINED" );
std::string blockSizeCases, texelsPerBlockCases, blockExtentCases, compressionSchemeCases, packedCases, componentsAreCompressedCases, componentCountCases,
componentBitsCases, componentNameCases, componentNumericFormatCases, componentPlaneIndexCases, planeCountCases, planeCompatibleCases,
planeHeightDivisorCases, planeWidthDivisorCases;
for ( auto formatValuesIt = std::next( formatIt->second.values.begin() ); formatValuesIt != formatIt->second.values.end(); ++formatValuesIt )
{
auto traitIt = m_formats.find( formatValuesIt->name );
assert( traitIt != m_formats.end() );
std::string caseString = " case VULKAN_HPP_NAMESPACE::Format::" + generateEnumValueName( "VkFormat", traitIt->first, false, m_tags ) + ":";
blockSizeCases += caseString + " return " + traitIt->second.blockSize + ";\n";
texelsPerBlockCases += caseString + " return " + traitIt->second.texelsPerBlock + ";\n";
if ( !traitIt->second.blockExtent.empty() )
{
std::vector<std::string> blockExtent = tokenize( traitIt->second.blockExtent, "," );
assert( blockExtent.size() == 3 );
blockExtentCases += caseString + " return {{ " + blockExtent[0] + ", " + blockExtent[1] + ", " + blockExtent[2] + " }};\n";
}
if ( !traitIt->second.compressed.empty() )
{
compressionSchemeCases += caseString + " return \"" + traitIt->second.compressed + "\";\n";
}
if ( !traitIt->second.packed.empty() )
{
packedCases += caseString + " return " + traitIt->second.packed + ";\n";
}
componentCountCases += caseString + " return " + std::to_string( traitIt->second.components.size() ) + ";\n";
if ( traitIt->second.components.front().bits == "compressed" )
{
componentsAreCompressedCases += caseString + "\n";
}
else
{
const std::string componentBitsCaseTemplate = R"(${caseString}
switch( component )
{
${componentCases}
default: VULKAN_HPP_ASSERT( false ); return 0;
}
)";
std::string componentCases;
for ( size_t i = 0; i < traitIt->second.components.size(); ++i )
{
componentCases += " case " + std::to_string( i ) + ": return " + traitIt->second.components[i].bits + ";\n";
}
componentCases.pop_back();
componentBitsCases += replaceWithMap( componentBitsCaseTemplate, { { "caseString", caseString }, { "componentCases", componentCases } } );
}
{
const std::string componentNameCaseTemplate = R"(${caseString}
switch( component )
{
${componentCases}
default: VULKAN_HPP_ASSERT( false ); return "";
}
)";
std::string componentCases;
for ( size_t i = 0; i < traitIt->second.components.size(); ++i )
{
componentCases += " case " + std::to_string( i ) + ": return \"" + traitIt->second.components[i].name + "\";\n";
}
componentCases.pop_back();
componentNameCases += replaceWithMap( componentNameCaseTemplate, { { "caseString", caseString }, { "componentCases", componentCases } } );
}
{
const std::string componentNumericFormatCaseTemplate = R"(${caseString}
switch( component )
{
${componentCases}
default: VULKAN_HPP_ASSERT( false ); return "";
}
)";
std::string componentCases;
for ( size_t i = 0; i < traitIt->second.components.size(); ++i )
{
componentCases += " case " + std::to_string( i ) + ": return \"" + traitIt->second.components[i].numericFormat + "\";\n";
}
componentCases.pop_back();
componentNumericFormatCases +=
replaceWithMap( componentNumericFormatCaseTemplate, { { "caseString", caseString }, { "componentCases", componentCases } } );
}
if ( !traitIt->second.components.front().planeIndex.empty() )
{
const std::string componentPlaneIndexCaseTemplate = R"(${caseString}
switch( component )
{
${componentCases}
default: VULKAN_HPP_ASSERT( false ); return 0;
}
)";
std::string componentCases;
for ( size_t i = 0; i < traitIt->second.components.size(); ++i )
{
componentCases += " case " + std::to_string( i ) + ": return " + traitIt->second.components[i].planeIndex + ";\n";
}
componentCases.pop_back();
componentPlaneIndexCases += replaceWithMap( componentPlaneIndexCaseTemplate, { { "caseString", caseString }, { "componentCases", componentCases } } );
}
if ( !traitIt->second.planes.empty() )
{
planeCountCases += caseString + " return " + std::to_string( traitIt->second.planes.size() ) + ";\n";
const std::string planeCompatibleCaseTemplate = R"(${caseString}
switch( plane )
{
${compatibleCases}
default: VULKAN_HPP_ASSERT( false ); return VULKAN_HPP_NAMESPACE::Format::eUndefined;
}
)";
const std::string planeHeightDivisorCaseTemplate = R"(${caseString}
switch( plane )
{
${heightDivisorCases}
default: VULKAN_HPP_ASSERT( false ); return 1;
}
)";
const std::string planeWidthDivisorCaseTemplate = R"(${caseString}
switch( plane )
{
${widthDivisorCases}
default: VULKAN_HPP_ASSERT( false ); return 1;
}
)";
std::string compatibleCases, heightDivisorCases, widthDivisorCases;
for ( size_t i = 0; i < traitIt->second.planes.size(); ++i )
{
compatibleCases += " case " + std::to_string( i ) + ": return VULKAN_HPP_NAMESPACE::Format::" +
generateEnumValueName( "VkFormat", traitIt->second.planes[i].compatible, false, m_tags ) + ";\n";
heightDivisorCases += " case " + std::to_string( i ) + ": return " + traitIt->second.planes[i].heightDivisor + ";\n";
widthDivisorCases += " case " + std::to_string( i ) + ": return " + traitIt->second.planes[i].widthDivisor + ";\n";
}
compatibleCases.pop_back();
heightDivisorCases.pop_back();
widthDivisorCases.pop_back();
planeCompatibleCases += replaceWithMap( planeCompatibleCaseTemplate, { { "caseString", caseString }, { "compatibleCases", compatibleCases } } );
planeHeightDivisorCases +=
replaceWithMap( planeHeightDivisorCaseTemplate, { { "caseString", caseString }, { "heightDivisorCases", heightDivisorCases } } );
planeWidthDivisorCases += replaceWithMap( planeWidthDivisorCaseTemplate, { { "caseString", caseString }, { "widthDivisorCases", widthDivisorCases } } );
}
}
return replaceWithMap( formatTraitsTemplate,
{ { "blockExtentCases", blockExtentCases },
{ "blockSizeCases", blockSizeCases },
{ "componentBitsCases", componentBitsCases },
{ "componentCountCases", componentCountCases },
{ "componentNameCases", componentNameCases },
{ "componentNumericFormatCases", componentNumericFormatCases },
{ "componentPlaneIndexCases", componentPlaneIndexCases },
{ "componentsAreCompressedCases", componentsAreCompressedCases },
{ "compressionSchemeCases", compressionSchemeCases },
{ "packedCases", packedCases },
{ "planeCompatibleCases", planeCompatibleCases },
{ "planeCountCases", planeCountCases },
{ "planeHeightDivisorCases", planeHeightDivisorCases },
{ "planeWidthDivisorCases", planeWidthDivisorCases },
{ "texelsPerBlockCases", texelsPerBlockCases } } );
}
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std::string VulkanHppGenerator::generateHandles() const
{
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// Note: reordering structs or handles by features and extensions is not possible!
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std::string str = R"(
//===============
//=== HANDLEs ===
//===============
)";
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std::set<std::string> listedHandles;
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for ( auto const & handle : m_handles )
{
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if ( listedHandles.find( handle.first ) == listedHandles.end() )
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{
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str += generateHandle( handle, listedHandles );
}
}
return str;
}
std::string VulkanHppGenerator::generateHandleHashStructures() const
{
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const std::string hashesTemplate = R"(
//===================================
//=== HASH structures for handles ===
//===================================
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${hashes}
)";
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std::string hashes;
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for ( auto const & feature : m_features )
{
hashes += generateHandleHashStructures( feature.second.requireData, feature.first );
}
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for ( auto const & extIt : m_extensionsByNumber )
{
hashes += generateHandleHashStructures( extIt.second->second.requireData, extIt.second->first );
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}
return replaceWithMap( hashesTemplate, { { "hashes", hashes } } );
}
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std::string VulkanHppGenerator::generateIndexTypeTraits() const
{
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const std::string indexTypeTraitsTemplate = R"(
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template<typename T>
struct IndexTypeValue
{};
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${indexTypeTraits}
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)";
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auto indexType = m_enums.find( "VkIndexType" );
assert( indexType != m_enums.end() );
std::string indexTypeTraits;
std::set<std::string> listedCppTypes;
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for ( auto const & value : indexType->second.values )
{
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std::string valueName = generateEnumValueName( indexType->first, value.name, false, m_tags );
std::string cppType;
if ( !beginsWith( valueName, "eNone" ) )
{
// get the bit count out of the value Name (8, 16, 32, ... ) and generate the cppType (uint8_t,...)
assert( beginsWith( valueName, "eUint" ) );
auto beginDigit = valueName.begin() + strlen( "eUint" );
assert( isdigit( *beginDigit ) );
auto endDigit = std::find_if_not( beginDigit, valueName.end(), []( std::string::value_type c ) { return isdigit( c ); } );
cppType = "uint" + valueName.substr( strlen( "eUint" ), endDigit - beginDigit ) + "_t";
}
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if ( !cppType.empty() )
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{
if ( listedCppTypes.insert( cppType ).second )
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{
// IndexType traits aren't necessarily invertible.
// The Type -> Enum translation will only occur for the first prefixed enum value.
// A hypothetical extension to this enum with a conflicting prefix will use the core spec value.
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const std::string typeToEnumTemplate = R"(
template <>
struct IndexTypeValue<${cppType}>
{
static VULKAN_HPP_CONST_OR_CONSTEXPR IndexType value = IndexType::${valueName};
};
)";
indexTypeTraits += replaceWithMap( typeToEnumTemplate, { { "cppType", cppType }, { "valueName", valueName } } );
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}
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// Enum -> Type translations are always able to occur.
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const std::string enumToTypeTemplate = R"(
template <>
struct CppType<IndexType, IndexType::${valueName}>
{
using Type = ${cppType};
};
)";
indexTypeTraits += replaceWithMap( enumToTypeTemplate, { { "cppType", cppType }, { "valueName", valueName } } );
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}
}
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return replaceWithMap( indexTypeTraitsTemplate, { { "indexTypeTraits", indexTypeTraits } } );
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}
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std::string VulkanHppGenerator::generateRAIICommandDefinitions() const
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{
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const std::string commandDefinitionsTemplate = R"(
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//===========================
//=== COMMAND Definitions ===
//===========================
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${commandDefinitions}
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)";
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std::string commandDefinitions;
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std::set<std::string> listedCommands; // some commands are listed with more than one extension!
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for ( auto const & feature : m_features )
{
commandDefinitions += generateRAIICommandDefinitions( feature.second.requireData, listedCommands, feature.first );
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}
for ( auto const & extIt : m_extensionsByNumber )
{
commandDefinitions += generateRAIICommandDefinitions( extIt.second->second.requireData, listedCommands, extIt.second->first );
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}
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return replaceWithMap( commandDefinitionsTemplate, { { "commandDefinitions", commandDefinitions } } );
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}
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std::string VulkanHppGenerator::generateRAIIDispatchers() const
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{
std::string contextInitializers, contextMembers, deviceAssignments, deviceMembers, instanceAssignments, instanceMembers;
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std::set<std::string> listedCommands;
for ( auto const & feature : m_features )
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{
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appendRAIIDispatcherCommands( feature.second.requireData,
listedCommands,
feature.first,
contextInitializers,
contextMembers,
deviceAssignments,
deviceMembers,
instanceAssignments,
instanceMembers );
}
for ( auto const & extension : m_extensions )
{
appendRAIIDispatcherCommands( extension.second.requireData,
listedCommands,
extension.first,
contextInitializers,
contextMembers,
deviceAssignments,
deviceMembers,
instanceAssignments,
instanceMembers );
}
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std::string contextDispatcherTemplate = R"(
class ContextDispatcher : public DispatchLoaderBase
{
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public:
ContextDispatcher( PFN_vkGetInstanceProcAddr getProcAddr )
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: vkGetInstanceProcAddr( getProcAddr )${contextInitializers}
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{}
public:
PFN_vkGetInstanceProcAddr vkGetInstanceProcAddr = 0;
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${contextMembers}
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};
)";
std::string str = replaceWithMap( contextDispatcherTemplate, { { "contextInitializers", contextInitializers }, { "contextMembers", contextMembers } } );
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std::string instanceDispatcherTemplate = R"(
class InstanceDispatcher : public DispatchLoaderBase
{
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public:
InstanceDispatcher( PFN_vkGetInstanceProcAddr getProcAddr, VkInstance instance )
: vkGetInstanceProcAddr( getProcAddr )
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{
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${instanceAssignments}
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vkGetDeviceProcAddr =
PFN_vkGetDeviceProcAddr( vkGetInstanceProcAddr( instance, "vkGetDeviceProcAddr" ) );
}
public:
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${instanceMembers}
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PFN_vkGetDeviceProcAddr vkGetDeviceProcAddr = 0;
};
)";
str += replaceWithMap( instanceDispatcherTemplate, { { "instanceAssignments", instanceAssignments }, { "instanceMembers", instanceMembers } } );
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std::string deviceDispatcherTemplate = R"(
class DeviceDispatcher : public DispatchLoaderBase
{
public:
DeviceDispatcher( PFN_vkGetDeviceProcAddr getProcAddr, VkDevice device ) : vkGetDeviceProcAddr( getProcAddr )
{
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${deviceAssignments}
}
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public:
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${deviceMembers}
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};
)";
str += replaceWithMap( deviceDispatcherTemplate, { { "deviceAssignments", deviceAssignments }, { "deviceMembers", deviceMembers } } );
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return str;
}
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std::string VulkanHppGenerator::generateRAIIHandles() const
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{
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const std::string raiiHandlesTemplate = R"(
//========================================
//=== RAII HANDLE forward declarations ===
//========================================
${forwardDeclarations}
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//====================
//=== RAII HANDLES ===
//====================
${raiiHandles}
)";
std::string forwardDeclarations;
for ( auto const & feature : m_features )
{
forwardDeclarations += generateRAIIHandleForwardDeclarations( feature.second.requireData, feature.first );
}
for ( auto const & extIt : m_extensionsByNumber )
{
forwardDeclarations += generateRAIIHandleForwardDeclarations( extIt.second->second.requireData, extIt.second->first );
}
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std::set<std::string> listedHandles;
auto handleIt = m_handles.begin();
assert( handleIt->first.empty() );
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std::string raiiHandles = generateRAIIHandleContext( *handleIt, m_RAIISpecialFunctions );
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for ( ++handleIt; handleIt != m_handles.end(); ++handleIt )
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{
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raiiHandles += generateRAIIHandle( *handleIt, listedHandles, m_RAIISpecialFunctions );
}
return replaceWithMap( raiiHandlesTemplate, { { "forwardDeclarations", forwardDeclarations }, { "raiiHandles", raiiHandles } } );
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}
// Intended only for `enum class Result`!
std::string VulkanHppGenerator::generateResultExceptions() const
{
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const std::string templateString = R"(
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${enter} class ${className} : public SystemError
{
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public:
${className}( std::string const & message )
: SystemError( make_error_code( ${enumName}::${enumMemberName} ), message ) {}
${className}( char const * message )
: SystemError( make_error_code( ${enumName}::${enumMemberName} ), message ) {}
};
${leave})";
std::string str;
auto enumIt = m_enums.find( "VkResult" );
for ( auto const & value : enumIt->second.values )
{
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if ( beginsWith( value.name, "VK_ERROR" ) )
{
auto [enter, leave] = generateProtection( value.extension, value.protect );
std::string valueName = generateEnumValueName( enumIt->first, value.name, false, m_tags );
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str += replaceWithMap( templateString,
{ { "className", stripPrefix( valueName, "eError" ) + "Error" },
{ "enter", enter },
{ "enumName", stripPrefix( enumIt->first, "Vk" ) },
{ "enumMemberName", valueName },
{ "leave", leave } } );
}
}
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return str;
}
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std::string VulkanHppGenerator::generateStructExtendsStructs() const
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{
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const std::string structExtendsTemplate = R"(
//=======================
//=== STRUCTS EXTENDS ===
//=======================
${structExtends}
)";
std::string structExtends;
std::set<std::string> listedStructs;
for ( auto const & feature : m_features )
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{
structExtends += generateStructExtendsStructs( feature.second.requireData, listedStructs, feature.first );
}
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for ( auto const & extIt : m_extensionsByNumber )
{
structExtends += generateStructExtendsStructs( extIt.second->second.requireData, listedStructs, extIt.second->first );
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}
return replaceWithMap( structExtendsTemplate, { { "structExtends", structExtends } } );
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}
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std::string VulkanHppGenerator::generateStructForwardDeclarations() const
{
const std::string fowardDeclarationsTemplate = R"(
//===================================
//=== STRUCT forward declarations ===
//===================================
${forwardDeclarations}
)";
std::string forwardDeclarations;
for ( auto const & feature : m_features )
{
forwardDeclarations += generateStructForwardDeclarations( feature.second.requireData, feature.first );
}
for ( auto const & extIt : m_extensionsByNumber )
{
forwardDeclarations += generateStructForwardDeclarations( extIt.second->second.requireData, extIt.second->first );
}
return replaceWithMap( fowardDeclarationsTemplate, { { "forwardDeclarations", forwardDeclarations } } );
}
std::string VulkanHppGenerator::generateStructHashStructures() const
{
const std::string hashesTemplate = R"(
#if 14 <= VULKAN_HPP_CPP_VERSION
//======================================
//=== HASH structures for structures ===
//======================================
# if !defined( VULKAN_HPP_HASH_COMBINE )
# define VULKAN_HPP_HASH_COMBINE( seed, value ) \
seed ^= std::hash<std::decay<decltype( value )>::type>{}( value ) + 0x9e3779b9 + ( seed << 6 ) + ( seed >> 2 )
# endif
${hashes}
#endif // 14 <= VULKAN_HPP_CPP_VERSION
)";
// Note reordering structs or handles by features and extensions is not possible!
std::set<std::string> listedStructs;
std::string hashes;
for ( auto const & structure : m_structures )
{
if ( listedStructs.find( structure.first ) == listedStructs.end() )
{
hashes += generateStructHashStructure( structure, listedStructs );
}
}
return replaceWithMap( hashesTemplate, { { "hashes", hashes } } );
}
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std::string VulkanHppGenerator::generateStructs() const
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{
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const std::string structsTemplate = R"(
//===============
//=== STRUCTS ===
//===============
${structs}
)";
// Note reordering structs or handles by features and extensions is not possible!
std::set<std::string> listedStructs;
std::string structs;
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for ( auto const & structure : m_structures )
{
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if ( listedStructs.find( structure.first ) == listedStructs.end() )
{
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structs += generateStruct( structure, listedStructs );
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}
}
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return replaceWithMap( structsTemplate, { { "structs", structs } } );
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}
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std::string VulkanHppGenerator::generateThrowResultException() const
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{
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auto enumIt = m_enums.find( "VkResult" );
std::string cases;
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for ( auto const & value : enumIt->second.values )
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{
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if ( beginsWith( value.name, "VK_ERROR" ) )
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{
auto [enter, leave] = generateProtection( value.extension, value.protect );
std::string valueName = generateEnumValueName( enumIt->first, value.name, false, m_tags );
cases += enter + " case Result::" + valueName + ": throw " + stripPrefix( valueName, "eError" ) + "Error( message );\n" + leave;
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}
}
cases.pop_back(); // remove last newline
const std::string throwTemplate = R"(
namespace
{
[[noreturn]] void throwResultException( Result result, char const * message )
{
switch ( result )
{
${cases}
default: throw SystemError( make_error_code( result ) );
}
}
}
)";
return replaceWithMap( throwTemplate, { { "cases", cases } } );
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}
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std::string const & VulkanHppGenerator::getTypesafeCheck() const
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{
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return m_typesafeCheck;
}
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std::string const & VulkanHppGenerator::getVersion() const
{
return m_version;
}
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std::string const & VulkanHppGenerator::getVulkanLicenseHeader() const
{
return m_vulkanLicenseHeader;
}
void VulkanHppGenerator::prepareRAIIHandles()
{
// filter out functions that are not usefull on this level of abstraction (like vkGetInstanceProcAddr)
// and all the construction and destruction functions, as they are used differently
for ( auto & handle : m_handles )
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{
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if ( !handle.first.empty() )
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{
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handle.second.destructorIt = determineRAIIHandleDestructor( handle.first );
if ( handle.second.destructorIt != m_commands.end() )
{
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m_RAIISpecialFunctions.insert( handle.second.destructorIt->first );
}
handle.second.constructorIts = determineRAIIHandleConstructors( handle.first, handle.second.destructorIt );
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}
}
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distributeSecondLevelCommands( m_RAIISpecialFunctions );
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// we rename a couple of function parameters to prevent this warning, treated as an error:
// warning C4458: declaration of 'objectType' hides class member
for ( auto & command : m_commands )
{
for ( auto & param : command.second.params )
{
if ( param.name == "objectType" )
{
param.name += "_";
}
}
}
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}
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//
// VulkanHppGenerator private interface
//
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void VulkanHppGenerator::addCommand( std::string const & name, CommandData & commandData )
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{
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// find the handle this command is going to be associated to
check( !commandData.params.empty(), commandData.xmlLine, "command <" + name + "> with no params" );
std::map<std::string, HandleData>::iterator handleIt = m_handles.find( commandData.params[0].type.type );
if ( handleIt == m_handles.end() )
{
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handleIt = m_handles.find( "" );
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}
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check( handleIt != m_handles.end(), commandData.xmlLine, "could not find a handle to hold command <" + name + ">" );
commandData.handle = handleIt->first;
// add this command to the list of commands
check( m_commands.insert( std::make_pair( name, commandData ) ).second, commandData.xmlLine, "already encountered command <" + name + ">" );
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// put the command into the handle's list of commands
check( handleIt->second.commands.insert( name ).second,
commandData.xmlLine,
"command list of handle <" + handleIt->first + "> already holds a commnand <" + name + ">" );
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}
void VulkanHppGenerator::addMissingFlagBits( std::vector<RequireData> & requireData, std::string const & referencedIn )
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{
for ( auto & require : requireData )
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{
std::vector<std::string> newTypes;
for ( auto const & type : require.types )
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{
auto bitmaskIt = m_bitmasks.find( type );
if ( ( bitmaskIt != m_bitmasks.end() ) && bitmaskIt->second.requirements.empty() )
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{
// generate the flagBits enum name out of the bitmask name
size_t pos = bitmaskIt->first.find( "Flags" );
assert( pos != std::string::npos );
std::string flagBits = bitmaskIt->first.substr( 0, pos + 4 ) + "Bit" + bitmaskIt->first.substr( pos + 4 );
// as the bitmask's requirement is still empty, this flagBits should not be listed in the require list!
assert( std::find_if( require.types.begin(), require.types.end(), [&flagBits]( std::string const & type ) { return ( type == flagBits ); } ) ==
require.types.end() );
bitmaskIt->second.requirements = flagBits;
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// some flagsBits are specified but never listed as required for any flags!
// so, even if this bitmask has not enum listed as required, it might still already exist in the enums list
if ( m_enums.find( flagBits ) == m_enums.end() )
{
m_enums.insert( std::make_pair( flagBits, EnumData( 0, true ) ) );
assert( m_types.find( flagBits ) == m_types.end() );
m_types.insert( std::make_pair( flagBits, TypeData( TypeCategory::Bitmask, referencedIn ) ) );
}
else
{
assert( m_types.find( flagBits ) != m_types.end() );
}
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newTypes.push_back( flagBits );
}
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}
// add all the newly created flagBits types to the require list as if they had been part of the vk.xml!
require.types.insert( require.types.end(), newTypes.begin(), newTypes.end() );
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}
}
std::string VulkanHppGenerator::addTitleAndProtection( std::string const & title, std::string const & strIf, std::string const & strElse ) const
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{
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std::string str;
if ( !strIf.empty() )
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{
auto [enter, leave] = generateProtection( title, std::string() );
str = "\n" + enter + " //=== " + title + " ===\n" + strIf;
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if ( !enter.empty() && !strElse.empty() )
{
str += "#else \n" + strElse;
}
str += leave;
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}
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return str;
}
bool VulkanHppGenerator::allVectorSizesSupported( std::vector<ParamData> const & params, std::map<size_t, size_t> const & vectorParams ) const
{
return std::find_if_not( vectorParams.begin(),
vectorParams.end(),
[&params]( std::pair<size_t, size_t> const & vpi )
{
return params[vpi.second].type.isValue() &&
( ( params[vpi.second].type.type == "uint32_t" ) || ( params[vpi.second].type.type == "VkDeviceSize" ) ||
( params[vpi.second].type.type == "VkSampleCountFlagBits" ) );
} ) == vectorParams.end();
}
void VulkanHppGenerator::appendDispatchLoaderDynamicCommands( std::vector<RequireData> const & requireData,
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std::set<std::string> & listedCommands,
std::string const & title,
std::string & commandMembers,
std::string & initialCommandAssignments,
std::string & instanceCommandAssignments,
std::string & deviceCommandAssignments ) const
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{
std::string members, initial, instance, device, placeholders;
for ( auto const & require : requireData )
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{
for ( auto const & command : require.commands )
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{
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if ( listedCommands.insert( command ).second )
{
auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
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members += " PFN_" + commandIt->first + " " + commandIt->first + " = 0;\n";
placeholders += " PFN_dummy " + commandIt->first + "_placeholder = 0;\n";
if ( commandIt->second.handle.empty() )
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{
initial += generateDispatchLoaderDynamicCommandAssignment( commandIt->first, commandIt->second, "NULL" );
}
else
{
instance += generateDispatchLoaderDynamicCommandAssignment( commandIt->first, commandIt->second, "instance" );
if ( isDeviceCommand( commandIt->second ) )
{
device += generateDispatchLoaderDynamicCommandAssignment( commandIt->first, commandIt->second, "device" );
}
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}
}
}
}
auto [enter, leave] = generateProtection( title, std::string() );
std::string header = "\n" + enter + " //=== " + title + " ===\n";
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if ( !members.empty() )
{
commandMembers += header + members;
if ( !enter.empty() )
{
commandMembers += "#else\n" + placeholders;
}
commandMembers += leave;
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}
if ( !initial.empty() )
{
initialCommandAssignments += header + initial + leave;
}
if ( !instance.empty() )
{
instanceCommandAssignments += header + instance + leave;
}
if ( !device.empty() )
{
deviceCommandAssignments += header + device + leave;
}
}
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void VulkanHppGenerator::appendRAIIDispatcherCommands( std::vector<RequireData> const & requireData,
std::set<std::string> & listedCommands,
std::string const & title,
std::string & contextInitializers,
std::string & contextMembers,
std::string & deviceAssignments,
std::string & deviceMembers,
std::string & instanceAssignments,
std::string & instanceMembers ) const
{
std::string ci, cm, da, dm, dmp, ia, im, imp;
for ( auto const & require : requireData )
{
for ( auto const & command : require.commands )
{
if ( listedCommands.insert( command ).second )
{
auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
if ( commandIt->second.handle.empty() )
{
assert( commandIt->second.alias.empty() );
ci += ", " + commandIt->first + "( PFN_" + commandIt->first + "( getProcAddr( NULL, \"" + commandIt->first + "\" ) ) )";
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cm += " PFN_" + commandIt->first + " " + commandIt->first + " = 0;\n";
}
else if ( ( commandIt->second.handle == "VkDevice" ) || hasParentHandle( commandIt->second.handle, "VkDevice" ) )
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{
da += " " + commandIt->first + " = PFN_" + commandIt->first + "( vkGetDeviceProcAddr( device, \"" + commandIt->first + "\" ) );\n";
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// if this is an alias'ed function, use it as a fallback for the original one
if ( !commandIt->second.alias.empty() )
{
da += " if ( !" + commandIt->second.alias + " ) " + commandIt->second.alias + " = " + commandIt->first + ";\n";
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}
dm += " PFN_" + commandIt->first + " " + commandIt->first + " = 0;\n";
dmp += " PFN_dummy " + commandIt->first + "_placeholder = 0;\n";
}
else
{
assert( ( commandIt->second.handle == "VkInstance" ) || hasParentHandle( commandIt->second.handle, "VkInstance" ) );
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// filter out vkGetInstanceProcAddr, as starting with Vulkan 1.2 it can resolve itself only (!) with an
// instance nullptr !
if ( command != "vkGetInstanceProcAddr" )
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{
ia += " " + commandIt->first + " = PFN_" + commandIt->first + "( vkGetInstanceProcAddr( instance, \"" + commandIt->first + "\" ) );\n";
// if this is an alias'ed function, use it as a fallback for the original one
if ( !commandIt->second.alias.empty() )
{
ia += " if ( !" + commandIt->second.alias + " ) " + commandIt->second.alias + " = " + commandIt->first + ";\n";
}
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}
im += +" PFN_" + commandIt->first + " " + commandIt->first + " = 0;\n";
imp += " PFN_dummy " + commandIt->first + "_placeholder = 0;\n";
}
}
}
}
contextInitializers += addTitleAndProtection( title, ci );
contextMembers += addTitleAndProtection( title, cm );
deviceAssignments += addTitleAndProtection( title, da );
deviceMembers += addTitleAndProtection( title, dm, dmp );
instanceAssignments += addTitleAndProtection( title, ia );
instanceMembers += addTitleAndProtection( title, im, imp );
}
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void VulkanHppGenerator::checkBitmaskCorrectness() const
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{
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for ( auto const & bitmask : m_bitmasks )
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{
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// check that a bitmask is referenced somewhere
// I think, it's not forbidden to not reference a bitmask, but it would probably be not intended?
auto typeIt = m_types.find( bitmask.first );
assert( typeIt != m_types.end() );
check( !typeIt->second.referencedIn.empty(), bitmask.second.xmlLine, "bitmask <" + bitmask.first + "> not listed in any feature or extension" );
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// check that the requirement is an enum
if ( !bitmask.second.requirements.empty() )
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{
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check( m_enums.find( bitmask.second.requirements ) != m_enums.end(),
bitmask.second.xmlLine,
"bitmask requires unknown <" + bitmask.second.requirements + ">" );
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}
}
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}
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void VulkanHppGenerator::checkCommandCorrectness() const
{
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// prepare command checks by gathering all result codes and aliases into one set of resultCodes
auto resultIt = m_enums.find( "VkResult" );
assert( resultIt != m_enums.end() );
std::set<std::string> resultCodes;
for ( auto rc : resultIt->second.values )
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{
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resultCodes.insert( rc.name );
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}
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for ( auto rc : resultIt->second.aliases )
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{
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resultCodes.insert( rc.first );
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}
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// command checks
for ( auto const & command : m_commands )
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{
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// check that a command is referenced somewhere
// I think, it's not forbidden to not reference a function, but it would probably be not intended?
check( !command.second.referencedIn.empty(), command.second.xmlLine, "command <" + command.first + "> not listed in any feature or extension" );
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// check for unknow error or succes codes
for ( auto const & ec : command.second.errorCodes )
{
check( resultCodes.find( ec ) != resultCodes.end(), command.second.xmlLine, "command uses unknown error code <" + ec + ">" );
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}
for ( auto const & sc : command.second.successCodes )
{
check( resultCodes.find( sc ) != resultCodes.end(), command.second.xmlLine, "command uses unknown success code <" + sc + ">" );
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}
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// check that functions returning a VkResult specify successcodes
check( ( command.second.returnType != "VkResult" ) || !command.second.successCodes.empty(),
command.second.xmlLine,
"missing successcodes on command <" + command.first + "> returning VkResult!" );
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// check that all parameter types as well as the return type are known types
for ( auto const & p : command.second.params )
{
check( m_types.find( p.type.type ) != m_types.end(), p.xmlLine, "comand uses parameter of unknown type <" + p.type.type + ">" );
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}
check( m_types.find( command.second.returnType ) != m_types.end(),
command.second.xmlLine,
"command uses unknown return type <" + command.second.returnType + ">" );
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}
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}
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void VulkanHppGenerator::checkCorrectness() const
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{
check( !m_vulkanLicenseHeader.empty(), -1, "missing license header" );
checkBitmaskCorrectness();
checkCommandCorrectness();
checkEnumCorrectness();
checkExtensionCorrectness();
checkFuncPointerCorrectness();
checkHandleCorrectness();
checkStructCorrectness();
}
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void VulkanHppGenerator::checkEnumCorrectness() const
{
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for ( auto const & e : m_enums )
{
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// check that a bitmask is referenced somewhere
// it's not forbidden to not reference a bitmask, and in fact that happens! So just warn here
auto typeIt = m_types.find( e.first );
assert( typeIt != m_types.end() );
warn( !typeIt->second.referencedIn.empty(), e.second.xmlLine, "enum <" + e.first + "> not listed in any feature or extension" );
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// check that the aliasNames are known enum values or known aliases
for ( auto const & alias : e.second.aliases )
{
check(
( std::find_if( e.second.values.begin(), e.second.values.end(), [&alias]( EnumValueData const & evd ) { return evd.name == alias.second.name; } ) !=
e.second.values.end() ) ||
( e.second.aliases.find( alias.second.name ) != e.second.aliases.end() ),
alias.second.xmlLine,
"enum <" + alias.first + "> uses unknown alias <" + alias.second.name + ">" );
}
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// check that any protection fits to the corresponding extension
for ( auto const & v : e.second.values )
{
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if ( !v.protect.empty() )
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{
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auto extIt = m_extensions.find( v.extension );
assert( extIt != m_extensions.end() );
auto platformIt = m_platforms.find( extIt->second.platform );
assert( platformIt != m_platforms.end() );
check( v.protect == platformIt->second.protect,
v.xmlLine,
"attribute <protect> of enum value <" + v.name + "> is \"" + v.protect + "\" but corresponding extension <" + v.extension +
"> belongs to platform <" + platformIt->first + "> with protection \"" + platformIt->second.protect + "\"" );
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}
}
}
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// enum checks by features and extensions
for ( auto & feature : m_features )
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{
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checkEnumCorrectness( feature.second.requireData );
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}
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for ( auto & ext : m_extensions )
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{
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checkEnumCorrectness( ext.second.requireData );
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}
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// special check for VkFormat
if ( !m_formats.empty() )
{
auto enumIt = m_enums.find( "VkFormat" );
assert( enumIt != m_enums.end() );
assert( enumIt->second.values.front().name == "VK_FORMAT_UNDEFINED" );
for ( auto enumValueIt = std::next( enumIt->second.values.begin() ); enumValueIt != enumIt->second.values.end(); ++enumValueIt )
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{
auto formatIt = m_formats.find( enumValueIt->name );
if ( formatIt == m_formats.end() )
{
auto aliasIt = std::find_if(
enumIt->second.aliases.begin(), enumIt->second.aliases.end(), [&enumValueIt]( auto const & ead ) { return ead.second.name == enumValueIt->name; } );
check( aliasIt != enumIt->second.aliases.end(), enumValueIt->xmlLine, "missing format specification for <" + enumValueIt->name + ">" );
}
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}
}
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}
void VulkanHppGenerator::checkEnumCorrectness( std::vector<RequireData> const & requireData ) const
{
for ( auto const & require : requireData )
{
for ( auto const & type : require.types )
{
auto typeIt = m_types.find( type );
assert( typeIt != m_types.end() );
switch ( typeIt->second.category )
{
case TypeCategory::Bitmask:
{
// check that each "require" listed for a bitmask is listed for a feature or an extension
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auto bitmaskIt = m_bitmasks.find( type );
if ( bitmaskIt != m_bitmasks.end() )
{
// not for every bitmask is a "require" listed
if ( !bitmaskIt->second.requirements.empty() )
{
auto requireTypeIt = m_types.find( bitmaskIt->second.requirements );
assert( requireTypeIt != m_types.end() );
check( !requireTypeIt->second.referencedIn.empty(),
bitmaskIt->second.xmlLine,
"bitmask <" + bitmaskIt->first + "> requires <" + bitmaskIt->second.requirements +
"> which is not listed for any feature or extension!" );
}
}
else
{
// every bitmask not listed in the m_bitmasks, should be an alias of such a thing
assert( std::find_if( m_bitmasks.begin(),
m_bitmasks.end(),
[&type]( std::pair<const std::string, BitmaskData> const & bd ) { return bd.second.alias == type; } ) != m_bitmasks.end() );
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}
}
break;
case TypeCategory::Enum:
{
auto enumIt = m_enums.find( type );
if ( enumIt != m_enums.end() )
{
if ( enumIt->second.isBitmask )
{
// check that any enum of a bitmask is listed as "require" or "bitvalues" for a bitmask
auto bitmaskIt = std::find_if(
m_bitmasks.begin(), m_bitmasks.end(), [&enumIt]( auto const & bitmask ) { return bitmask.second.requirements == enumIt->first; } );
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check( bitmaskIt != m_bitmasks.end(),
enumIt->second.xmlLine,
"enum <" + enumIt->first + "> is not listed as an requires or bitvalues for any bitmask in the types section" );
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// check that bitwidth of the enum and type of the corresponding bitmask are equal
check( ( enumIt->second.bitwidth != "64" ) || ( bitmaskIt->second.type == "VkFlags64" ),
enumIt->second.xmlLine,
"enum <" + enumIt->first + "> is marked with bitwidth <64> but corresponding bitmask <" + bitmaskIt->first +
"> is not of type <VkFlags64>" );
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}
}
else
{
// every enum not listed in the m_enums, should be an alias of such a thing
assert( std::find_if( m_enums.begin(),
m_enums.end(),
[&type]( std::pair<const std::string, EnumData> const & ed ) { return ed.second.alias == type; } ) != m_enums.end() );
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}
}
break;
default: break;
}
}
}
}
bool VulkanHppGenerator::checkEquivalentSingularConstructor( std::vector<std::map<std::string, CommandData>::const_iterator> const & constructorIts,
std::map<std::string, CommandData>::const_iterator constructorIt,
std::vector<ParamData>::const_iterator lenIt ) const
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{
// check, if there is no singular constructor with the very same arguments as this array constructor
// (besides the size, of course)
auto isEquivalentSingularConstructor = [constructorIt, lenIt]( std::map<std::string, CommandData>::const_iterator it )
{
if ( it->second.params.size() + 1 != constructorIt->second.params.size() )
{
return false;
}
size_t lenIdx = std::distance( constructorIt->second.params.begin(), lenIt );
for ( size_t i = 0, j = 0; i < it->second.params.size(); ++i, ++j )
{
assert( j < constructorIt->second.params.size() );
if ( j == lenIdx )
{
++j;
}
if ( it->second.params[i].type.type != constructorIt->second.params[j].type.type )
{
return false;
}
}
return true;
};
return ( std::find_if( constructorIts.begin(), constructorIts.end(), isEquivalentSingularConstructor ) != constructorIts.end() );
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}
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void VulkanHppGenerator::checkExtensionCorrectness() const
{
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for ( auto const & extension : m_extensions )
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{
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// check for existence of any deprecation, obsoletion, or promotion
if ( !extension.second.deprecatedBy.empty() )
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{
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check( ( m_extensions.find( extension.second.deprecatedBy ) != m_extensions.end() ) ||
( m_features.find( extension.second.deprecatedBy ) != m_features.end() ),
extension.second.xmlLine,
"extension deprecated by unknown extension/version <" + extension.second.promotedTo + ">" );
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}
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if ( !extension.second.obsoletedBy.empty() )
{
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check( ( m_extensions.find( extension.second.obsoletedBy ) != m_extensions.end() ) ||
( m_features.find( extension.second.obsoletedBy ) != m_features.end() ),
extension.second.xmlLine,
"extension obsoleted by unknown extension/version <" + extension.second.promotedTo + ">" );
}
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if ( !extension.second.promotedTo.empty() )
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{
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check( ( m_extensions.find( extension.second.promotedTo ) != m_extensions.end() ) ||
( m_features.find( extension.second.promotedTo ) != m_features.end() ),
extension.second.xmlLine,
"extension promoted to unknown extension/version <" + extension.second.promotedTo + ">" );
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}
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// check for existence of any requirement
for ( auto const & require : extension.second.requireData )
{
if ( !require.titles.empty() )
{
for ( auto const & title : require.titles )
{
check( ( m_features.find( title ) != m_features.end() ) || ( m_extensions.find( title ) != m_extensions.end() ),
require.xmlLine,
"extension <" + extension.first + "> lists an unknown require <" + title + ">" );
}
}
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}
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}
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}
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void VulkanHppGenerator::checkFuncPointerCorrectness() const
{
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for ( auto const & funcPointer : m_funcPointers )
{
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if ( !funcPointer.second.requirements.empty() )
{
check( m_types.find( funcPointer.second.requirements ) != m_types.end(),
funcPointer.second.xmlLine,
"funcpointer requires unknown <" + funcPointer.second.requirements + ">" );
}
for ( auto const & argument : funcPointer.second.arguments )
{
check( m_types.find( argument.type ) != m_types.end(), argument.xmlLine, "funcpointer argument of unknown type <" + argument.type + ">" );
}
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}
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}
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void VulkanHppGenerator::checkHandleCorrectness() const
{
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// prepare handle checks by getting the VkObjectType enum
auto objectTypeIt = m_enums.find( "VkObjectType" );
assert( objectTypeIt != m_enums.end() );
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// handle checks
for ( auto const & handle : m_handles )
{
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// check the existence of the parent
check( m_handles.find( handle.second.parent ) != m_handles.end(),
handle.second.xmlLine,
"handle <" + handle.first + "> with unknown parent <" + handle.second.parent + ">" );
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// check existence of objTypeEnum used with this handle type
if ( !handle.first.empty() )
{
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assert( !handle.second.objTypeEnum.empty() );
check( std::find_if( objectTypeIt->second.values.begin(),
objectTypeIt->second.values.end(),
[&handle]( EnumValueData const & evd ) { return evd.name == handle.second.objTypeEnum; } ) != objectTypeIt->second.values.end(),
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handle.second.xmlLine,
"handle <" + handle.first + "> specifies unknown \"objtypeenum\" <" + handle.second.objTypeEnum + ">" );
}
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}
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// check that all specified objectType values are used with a handle type
for ( auto const & objectTypeValue : objectTypeIt->second.values )
{
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if ( objectTypeValue.name != "VK_OBJECT_TYPE_UNKNOWN" )
{
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check( std::find_if( m_handles.begin(),
m_handles.end(),
[&objectTypeValue]( std::pair<std::string, HandleData> const & hd )
{ return hd.second.objTypeEnum == objectTypeValue.name; } ) != m_handles.end(),
objectTypeValue.xmlLine,
"VkObjectType value <" + objectTypeValue.name + "> not specified as \"objtypeenum\" for any handle" );
}
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}
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}
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void VulkanHppGenerator::checkStructCorrectness() const
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{
for ( auto const & structAlias : m_structureAliases )
{
auto structIt = m_structures.find( structAlias.second.alias );
check( structIt != m_structures.end(), structAlias.second.xmlLine, "unknown struct alias <" + structAlias.second.alias + ">" );
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}
for ( auto const & structAliasInverse : m_structureAliasesInverse )
{
auto structIt = m_structures.find( structAliasInverse.first );
if ( structIt == m_structures.end() )
{
assert( !structAliasInverse.second.empty() );
auto aliasIt = m_structureAliases.find( *structAliasInverse.second.begin() );
assert( aliasIt != m_structureAliases.end() );
check( false, aliasIt->second.xmlLine, "struct <" + aliasIt->first + "> uses unknown alias <" + aliasIt->second.alias + ">" );
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}
}
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std::set<std::string> sTypeValues;
for ( auto const & structure : m_structures )
{
// check that a struct is referenced somewhere
// I think, it's not forbidden to not reference a struct, but it would probably be not intended?
auto typeIt = m_types.find( structure.first );
assert( typeIt != m_types.end() );
check( !typeIt->second.referencedIn.empty(), structure.second.xmlLine, "structure <" + structure.first + "> not listed in any feature or extension" );
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// check for existence of all structs that are extended by this struct
for ( auto const & extend : structure.second.structExtends )
{
check( ( m_structures.find( extend ) != m_structures.end() ) || ( m_structureAliases.find( extend ) != m_structureAliases.end() ),
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structure.second.xmlLine,
"struct <" + structure.first + "> extends unknown <" + extend + ">" );
}
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// checks on the members of a struct
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checkStructMemberCorrectness( structure.first, structure.second.members, sTypeValues );
}
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// enum VkStructureType checks (need to be after structure checks because of sTypeValues gathered there)
auto structureTypeIt = m_enums.find( "VkStructureType" );
assert( structureTypeIt != m_enums.end() );
for ( auto const & enumValue : structureTypeIt->second.values )
{
if ( ( enumValue.name == "VK_STRUCTURE_TYPE_LOADER_INSTANCE_CREATE_INFO" ) || ( enumValue.name == "VK_STRUCTURE_TYPE_LOADER_DEVICE_CREATE_INFO" ) )
{
check(
sTypeValues.find( enumValue.name ) == sTypeValues.end(), enumValue.xmlLine, "Reserved VkStructureType enum value <" + enumValue.name + "> is used" );
}
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else
{
check( sTypeValues.erase( enumValue.name ) == 1, enumValue.xmlLine, "VkStructureType enum value <" + enumValue.name + "> never used" );
}
}
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assert( sTypeValues.empty() );
}
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void VulkanHppGenerator::checkStructMemberCorrectness( std::string const & structureName,
std::vector<MemberData> const & members,
std::set<std::string> & sTypeValues ) const
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{
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for ( auto const & member : members )
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{
// check that all member types are required in some feature or extension
check(
!beginsWith( member.type.type, "Vk" ) ||
( std::find_if( m_features.begin(),
m_features.end(),
[&member]( std::pair<std::string, FeatureData> const & fd )
{
return std::find_if( fd.second.requireData.begin(),
fd.second.requireData.end(),
[&member]( RequireData const & rd ) {
return std::find_if( rd.types.begin(),
rd.types.end(),
[&member]( std::string const & t ) { return t == member.type.type; } ) != rd.types.end();
} ) != fd.second.requireData.end();
} ) != m_features.end() ) ||
( std::find_if( m_extensions.begin(),
m_extensions.end(),
[&member]( std::pair<std::string, ExtensionData> const & ed )
{
return std::find_if( ed.second.requireData.begin(),
ed.second.requireData.end(),
[&member]( RequireData const & rd ) {
return std::find_if( rd.types.begin(),
rd.types.end(),
[&member]( std::string const & t ) { return t == member.type.type; } ) != rd.types.end();
} ) != ed.second.requireData.end();
} ) != m_extensions.end() ),
member.xmlLine,
"struct member type <" + member.type.type + "> used in struct <" + structureName + "> is never listed for any feature or extension" );
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// if a member specifies a selector, that member is a union and the selector is an enum
// check that there's a 1-1 connection between the specified selections and the values of that enum
if ( !member.selector.empty() )
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{
auto selectorIt = findStructMemberIt( member.selector, members );
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assert( selectorIt != members.end() );
auto selectorEnumIt = m_enums.find( selectorIt->type.type );
assert( selectorEnumIt != m_enums.end() );
auto unionIt = m_structures.find( member.type.type );
assert( ( unionIt != m_structures.end() ) && unionIt->second.isUnion );
for ( auto const & unionMember : unionIt->second.members )
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{
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// check that each union member has a selection, that is a value of the seleting enum
assert( !unionMember.selection.empty() );
std::string const & selection = unionMember.selection;
check( std::find_if( selectorEnumIt->second.values.begin(),
selectorEnumIt->second.values.end(),
[&selection]( EnumValueData const & evd ) { return evd.name == selection; } ) != selectorEnumIt->second.values.end(),
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unionMember.xmlLine,
"union member <" + unionMember.name + "> uses selection <" + selection + "> that is not part of the selector type <" + selectorIt->type.type +
">" );
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}
}
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// check that each member type is known
check( m_types.find( member.type.type ) != m_types.end(), member.xmlLine, "struct member uses unknown type <" + member.type.type + ">" );
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// check that any used constant is a known constant
if ( !member.usedConstant.empty() )
{
check( m_constants.find( member.usedConstant ) != m_constants.end(),
member.xmlLine,
"struct member array size uses unknown constant <" + member.usedConstant + ">" );
}
// checks if a value is specified
if ( !member.value.empty() )
{
auto enumIt = m_enums.find( member.type.type );
if ( enumIt != m_enums.end() )
{
// check that the value exists in the specified enum
check( std::find_if( enumIt->second.values.begin(), enumIt->second.values.end(), [&member]( auto const & evd ) { return member.value == evd.name; } ) !=
enumIt->second.values.end(),
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member.xmlLine,
"value <" + member.value + "> for member <" + member.name + "> in structure <" + structureName + "> of enum type <" + member.type.type +
"> not listed" );
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// special handling for sType: no value should appear more than once
if ( member.name == "sType" )
{
check( sTypeValues.insert( member.value ).second, member.xmlLine, "sType value <" + member.value + "> has been used before" );
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}
}
else if ( member.type.type == "uint32_t" )
{
// check that a value for a uint32_t is all digits
check( member.value.find_first_not_of( "0123456789" ) == std::string::npos,
member.xmlLine,
"value <" + member.value + "> for member <" + member.name + "> in structure <" + structureName + "> of type <" + member.type.type +
"> is not a number" );
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}
else
{
// don't know the type of the value -> error out
check( false,
member.xmlLine,
"member <" + member.name + "> in structure <" + structureName + "> holds value <" + member.value + "> for an unhandled type <" +
member.type.type + ">" );
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}
}
}
}
void VulkanHppGenerator::checkValidStructs( int line, std::map<std::string, std::string> const & attributes ) const
{
auto it = attributes.find( "validstructs" );
if ( it != attributes.end() )
{
std::vector<std::string> validStructs = tokenize( it->second, "," );
for ( auto const & vs : validStructs )
{
check( m_structures.find( vs ) != m_structures.end(), line, "unknown struct <" + vs + "> listed in attribute <validstructs>" );
}
}
}
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std::string VulkanHppGenerator::combineDataTypes( std::map<size_t, size_t> const & vectorParams,
std::vector<size_t> const & returnParams,
bool singular,
bool enumerating,
std::vector<std::string> const & dataTypes,
bool unique,
bool raii ) const
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{
assert( dataTypes.size() == returnParams.size() );
std::vector<std::string> modifiedDataTypes( dataTypes.size() );
for ( size_t i = 0; i < returnParams.size(); ++i )
{
auto vectorParamIt = vectorParams.find( returnParams[i] );
modifiedDataTypes[i] = ( vectorParamIt == vectorParams.end() || singular )
? dataTypes[i]
: ( "std::vector<" + dataTypes[i] +
( raii || unique ? ">" : ( ", " + startUpperCase( stripPrefix( dataTypes[i], "VULKAN_HPP_NAMESPACE::" ) ) + "Allocator>" ) ) );
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}
std::string combinedType;
switch ( modifiedDataTypes.size() )
{
case 0: combinedType = "void"; break;
case 1: combinedType = modifiedDataTypes[0]; break;
case 2:
assert( !enumerating ||
( ( vectorParams.find( returnParams[1] ) != vectorParams.end() ) && ( vectorParams.find( returnParams[1] )->second == returnParams[0] ) ) );
combinedType = enumerating ? modifiedDataTypes[1] : ( "std::pair<" + modifiedDataTypes[0] + ", " + modifiedDataTypes[1] + ">" );
break;
case 3:
assert( enumerating && ( vectorParams.size() == 2 ) && ( vectorParams.begin()->first == returnParams[1] ) &&
( vectorParams.begin()->second == returnParams[0] ) && ( std::next( vectorParams.begin() )->first == returnParams[2] ) &&
( std::next( vectorParams.begin() )->second == returnParams[0] ) );
combinedType = "std::pair<" + modifiedDataTypes[1] + ", " + modifiedDataTypes[2] + ">";
break;
default: assert( false ); break;
}
return combinedType;
}
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bool VulkanHppGenerator::containsArray( std::string const & type ) const
{
// a simple recursive check if a type is or contains an array
auto structureIt = m_structures.find( type );
bool found = false;
if ( structureIt != m_structures.end() )
{
for ( auto memberIt = structureIt->second.members.begin(); memberIt != structureIt->second.members.end() && !found; ++memberIt )
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{
found = !memberIt->arraySizes.empty() || containsArray( memberIt->type.type );
}
}
return found;
}
bool VulkanHppGenerator::containsFuncPointer( std::string const & type ) const
{
// a simple recursive check if a type contains a funcpointer
auto structureIt = m_structures.find( type );
bool found = false;
if ( structureIt != m_structures.end() )
{
for ( auto memberIt = structureIt->second.members.begin(); memberIt != structureIt->second.members.end() && !found; ++memberIt )
{
found = ( m_funcPointers.find( memberIt->type.type ) != m_funcPointers.end() ) ||
( ( memberIt->type.type != type ) && containsFuncPointer( memberIt->type.type ) );
}
}
return found;
}
bool VulkanHppGenerator::containsFloatingPoints( std::vector<MemberData> const & members ) const
{
for ( auto const & m : members )
{
if ( ( ( m.type.type == "float" ) || ( m.type.type == "double" ) ) && m.type.isValue() )
{
return true;
}
}
return false;
}
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bool VulkanHppGenerator::containsUnion( std::string const & type ) const
{
// a simple recursive check if a type is or contains a union
auto structureIt = m_structures.find( type );
bool found = false;
if ( structureIt != m_structures.end() )
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{
found = structureIt->second.isUnion;
for ( auto memberIt = structureIt->second.members.begin(); memberIt != structureIt->second.members.end() && !found; ++memberIt )
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{
found = memberIt->type.isValue() && containsUnion( memberIt->type.type );
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}
}
return found;
}
std::vector<size_t> VulkanHppGenerator::determineConstPointerParams( std::vector<ParamData> const & params ) const
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{
std::vector<size_t> constPointerParams;
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for ( size_t i = 0; i < params.size(); i++ )
{
// very special handling for some types, which come in as non-const pointers, but are meant as const-pointers
if ( params[i].type.isConstPointer() ||
( params[i].type.isNonConstPointer() && ( specialPointerTypes.find( params[i].type.type ) != specialPointerTypes.end() ) ) )
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{
constPointerParams.push_back( i );
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}
}
return constPointerParams;
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}
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std::vector<std::string> VulkanHppGenerator::determineDataTypes( std::vector<VulkanHppGenerator::ParamData> const & params,
std::map<size_t, size_t> const & vectorParams,
std::vector<size_t> const & returnParams,
std::set<size_t> const & templatedParams,
bool raii ) const
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{
std::vector<std::string> dataTypes;
for ( auto rp : returnParams )
{
if ( templatedParams.find( rp ) != templatedParams.end() )
{
auto vectorParamIt = vectorParams.find( rp );
if ( ( vectorParamIt != vectorParams.end() ) && ( std::find( returnParams.begin(), returnParams.end(), vectorParamIt->first ) != returnParams.end() ) &&
( std::find( returnParams.begin(), returnParams.end(), vectorParamIt->second ) != returnParams.end() ) )
{
dataTypes.push_back( "uint8_t" );
}
else
{
dataTypes.push_back( ( stripPrefix( params[rp].name, "p" ) + "Type" ) );
}
}
else if ( raii && isHandleType( params[rp].type.type ) )
{
dataTypes.push_back( params[rp].type.type );
}
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else
{
dataTypes.push_back( trimEnd( stripPostfix( params[rp].type.compose( "VULKAN_HPP_NAMESPACE" ), "*" ) ) );
}
}
return dataTypes;
}
size_t VulkanHppGenerator::determineDefaultStartIndex( std::vector<ParamData> const & params, std::set<size_t> const & skippedParams ) const
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{
// determine the index where the arguments start to have defaults
size_t defaultStartIndex = INVALID_INDEX;
for ( int i = static_cast<int>( params.size() ) - 1; ( 0 <= i ) && ( params[i].optional || ( skippedParams.find( i ) != skippedParams.end() ) ); --i )
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{
defaultStartIndex = i;
}
return defaultStartIndex;
}
bool VulkanHppGenerator::determineEnumeration( std::map<size_t, size_t> const & vectorParams, std::vector<size_t> const & returnParams ) const
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{
// a command is considered to be enumerating some data, if for at least one vectorParam both, the data and the counter, are returnParams
return std::find_if( vectorParams.begin(),
vectorParams.end(),
[&returnParams]( std::pair<size_t, size_t> const & vp )
{
return std::find( returnParams.begin(), returnParams.end(), vp.first ) != returnParams.end() &&
std::find( returnParams.begin(), returnParams.end(), vp.second ) != returnParams.end();
} ) != vectorParams.end();
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}
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size_t VulkanHppGenerator::determineInitialSkipCount( std::string const & command ) const
{
// determine the number of arguments to skip for a function
// -> 0: the command is not bound to an instance or a device (the corresponding handle has no name)
// -> 1: the command bound to an instance or a device (the corresponding handle has a name)
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// -> 2: the command has been moved to a second handle
auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
auto handleIt = m_handles.find( commandIt->second.handle );
assert( handleIt != m_handles.end() );
if ( handleIt->second.commands.find( command ) == handleIt->second.commands.end() )
{
assert( 1 < commandIt->second.params.size() );
assert( m_handles.find( commandIt->second.params[1].type.type ) != m_handles.end() );
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return 2;
}
else
{
return handleIt->first.empty() ? 0 : 1;
}
}
std::vector<size_t> VulkanHppGenerator::determineReturnParams( std::vector<ParamData> const & params ) const
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{
std::vector<size_t> nonConstPointerParamIndices;
for ( size_t i = 0; i < params.size(); i++ )
{
// very special handling of parameters of some types, which always come as a non-const pointer but are not meant
// to be a potential return value!
if ( params[i].type.isNonConstPointer() && ( specialPointerTypes.find( params[i].type.type ) == specialPointerTypes.end() ) )
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{
nonConstPointerParamIndices.push_back( i );
}
}
return nonConstPointerParamIndices;
}
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std::vector<std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator>
VulkanHppGenerator::determineRAIIHandleConstructors( std::string const & handleType, std::map<std::string, CommandData>::const_iterator destructorIt ) const
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{
std::vector<std::map<std::string, CommandData>::const_iterator> constructorIts;
auto isConstructorCandidate = [&handleType]( std::pair<std::string, CommandData> const & cd )
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{
return std::find_if( cd.second.params.begin(),
cd.second.params.end(),
[&handleType]( ParamData const & pd )
{ return ( pd.type.type == handleType ) && pd.type.isNonConstPointer(); } ) != cd.second.params.end();
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};
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for ( auto commandIt = m_commands.begin(); commandIt != m_commands.end(); )
{
// find the commands that get a non-const pointer to the handleType, that is, return a handle type
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commandIt = std::find_if( commandIt, m_commands.end(), isConstructorCandidate );
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if ( commandIt != m_commands.end() )
{
// only commands that provide all information needed for the destructor can be considered a constructor!
bool valid = true;
if ( destructorIt != m_commands.end() )
{
// get the destructors parameter to the handleType
auto desctructorHandleParamIt = std::find_if( destructorIt->second.params.begin(),
destructorIt->second.params.end(),
[&handleType]( ParamData const & pd ) { return pd.type.type == handleType; } );
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assert( desctructorHandleParamIt != destructorIt->second.params.end() );
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// lambda to check if a destructor parameter is a parameter of the constructor candidate
// (or it's just the len parameter, which is not needed for the constructor)
auto isConstructorCandidateParam = [&desctructorHandleParamIt, &commandIt, this]( ParamData const & destructorParam )
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{
// check if the destructor param type equals this param type, or, if this param type is a struct, is part of
// that struct
auto isDestructorParamType = [&destructorParam, this]( ParamData const & pd )
{
if ( pd.type.type != destructorParam.type.type )
{
// check if the destructor param type equals a structure member type
auto structureIt = m_structures.find( pd.type.type );
return ( structureIt != m_structures.end() ) &&
( findStructMemberItByType( destructorParam.type.type, structureIt->second.members ) != structureIt->second.members.end() );
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}
return true;
};
return ( destructorParam.name == desctructorHandleParamIt->len ) ||
( std::find_if( commandIt->second.params.begin(), commandIt->second.params.end(), isDestructorParamType ) != commandIt->second.params.end() );
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};
// the constructor candidate is valid, if none of the (relevant) destructor parameters is missing in the
// constructor candidate params
valid = ( std::find_if_not( destructorIt->second.params.begin(), destructorIt->second.params.end(), isConstructorCandidateParam ) ==
destructorIt->second.params.end() );
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}
if ( valid )
{
// filter out alias functions
if ( commandIt->second.alias.empty() )
{
constructorIts.push_back( commandIt );
}
}
++commandIt;
}
}
assert( !constructorIts.empty() );
return constructorIts;
}
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator VulkanHppGenerator::determineRAIIHandleDestructor( std::string const & handleType ) const
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{
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std::string type = stripPrefix( handleType, "Vk" );
auto destructorIt = m_commands.find( "vkDestroy" + type );
if ( destructorIt == m_commands.end() )
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{
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destructorIt = m_commands.find( "vkFree" + type + "s" );
if ( destructorIt == m_commands.end() )
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{
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destructorIt = m_commands.find( "vkRelease" + type );
if ( destructorIt == m_commands.end() )
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{
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if ( handleType == "VkDeviceMemory" )
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{
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// special handling for vkDeviceMemory
destructorIt = m_commands.find( "vkFreeMemory" );
assert( destructorIt != m_commands.end() );
}
else if ( handleType == "VkDisplayKHR" )
{
// special handling for VkDisplayKHR
destructorIt = m_commands.find( "vkReleaseDisplayEXT" );
assert( destructorIt != m_commands.end() );
}
else
{
assert( ( handleType == "VkDisplayModeKHR" ) || ( handleType == "VkPhysicalDevice" ) || ( handleType == "VkQueue" ) );
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}
}
}
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}
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return destructorIt;
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}
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std::set<size_t> VulkanHppGenerator::determineSkippedParams( std::vector<ParamData> const & params,
size_t initialSkipCount,
std::map<size_t, size_t> const & vectorParams,
std::vector<size_t> const & returnParams,
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bool singular ) const
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{
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// skip the initial skips (get fed by the object)
assert( initialSkipCount <= params.size() );
std::set<size_t> skippedParams;
for ( size_t i = 0; i < initialSkipCount; ++i )
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{
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skippedParams.insert( i );
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}
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// skip the size parameters (get derived from an array)
for ( auto const & vpi : vectorParams )
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{
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assert( !params[vpi.first].len.empty() );
if ( ( ( std::find_if( returnParams.begin(), returnParams.end(), [&vpi]( size_t rpi ) { return vpi.first == rpi; } ) == returnParams.end() ) &&
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isParam( params[vpi.first].len, params ) ) ||
( singular && params[vpi.second].type.isValue() ) )
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{
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skippedParams.insert( vpi.second );
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}
}
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// skip the return parameters (get resolved by local variables to be returned)
skippedParams.insert( returnParams.begin(), returnParams.end() );
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return skippedParams;
}
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std::string VulkanHppGenerator::determineSubStruct( std::pair<std::string, StructureData> const & structure ) const
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{
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if ( structure.second.members.front().name != "sType" )
{
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// check if sd is a substruct of structure
auto isSubStruct = [&structure]( std::pair<std::string, StructureData> const & sd )
{
// member-by-member comparison of type and name
auto memberIt = structure.second.members.begin();
auto isMember = [&memberIt]( MemberData const & md )
{
if ( ( md.type == memberIt->type ) && ( md.name == memberIt->name ) )
{
++memberIt;
return true;
}
return false;
};
return ( sd.second.members.size() < structure.second.members.size() ) &&
( std::find_if_not( sd.second.members.begin(), sd.second.members.end(), isMember ) == sd.second.members.end() );
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};
// look for a struct in m_structures that starts identically to structure
auto structIt = std::find_if( m_structures.begin(), m_structures.end(), isSubStruct );
return ( structIt == m_structures.end() ) ? "" : structIt->first;
}
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return "";
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}
std::map<size_t, size_t> VulkanHppGenerator::determineVectorParams( std::vector<ParamData> const & params ) const
{
std::map<size_t, size_t> vectorParams;
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// look for the parameters whose len equals the name of an other parameter
for ( size_t i = 0; i < params.size(); i++ )
{
if ( !params[i].len.empty() )
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{
std::string len;
if ( altLens.find( params[i].len ) != altLens.end() )
{
check( params[i].len == "(samples + 31) / 32", params[i].xmlLine, "unknown command parameter len <" + params[i].len + ">" );
len = "samples";
}
else
{
len = params[i].len;
}
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for ( size_t j = 0; j < i; j++ )
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{
if ( ( params[j].name == len ) || isLenByStructMember( len, params[j] ) )
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{
// add this parameter as a vector parameter, using the len-name parameter as the second value
vectorParams.insert( std::make_pair( i, j ) );
break;
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}
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}
}
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}
return vectorParams;
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}
std::set<size_t> VulkanHppGenerator::determineVoidPointerParams( std::vector<ParamData> const & params ) const
{
std::set<size_t> voidPointerParams;
for ( size_t i = 0; i < params.size(); i++ )
{
if ( !params[i].type.isValue() && ( params[i].type.type == "void" ) && ( params[i].type.postfix != "**" ) )
{
voidPointerParams.insert( i );
}
}
return voidPointerParams;
}
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void VulkanHppGenerator::distributeSecondLevelCommands( std::set<std::string> const & specialFunctions )
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{
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// distribute commands from instance/device to second-level handles, like Queue, Event,... for RAII handles
for ( auto & handle : m_handles )
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{
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if ( !handle.first.empty() )
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{
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for ( auto command = handle.second.commands.begin(); command != handle.second.commands.end(); )
{
bool foundCommand = false;
if ( specialFunctions.find( *command ) == specialFunctions.end() )
{
auto commandIt = m_commands.find( *command );
assert( commandIt != m_commands.end() );
assert( commandIt->second.params.front().type.type == handle.first );
if ( ( 1 < commandIt->second.params.size() ) && ( isHandleType( commandIt->second.params[1].type.type ) ) && !commandIt->second.params[1].optional )
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{
auto handleIt = m_handles.find( commandIt->second.params[1].type.type );
assert( handleIt != m_handles.end() );
assert( !handleIt->second.constructorIts.empty() );
if ( ( *handleIt->second.constructorIts.begin() )->second.handle == handle.first )
{
assert( std::find_if( handleIt->second.constructorIts.begin(),
handleIt->second.constructorIts.end(),
[&handle]( auto const & constructorIt )
{ return constructorIt->second.handle != handle.first; } ) == handleIt->second.constructorIts.end() );
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handleIt->second.secondLevelCommands.insert( *command );
command = handle.second.commands.erase( command );
foundCommand = true;
}
}
}
if ( !foundCommand )
{
++command;
}
}
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}
}
}
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std::string VulkanHppGenerator::findBaseName( std::string aliasName, std::map<std::string, EnumAliasData> const & aliases ) const
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{
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std::string baseName = aliasName;
auto aliasIt = aliases.find( baseName );
while ( aliasIt != aliases.end() )
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{
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baseName = aliasIt->second.name;
aliasIt = aliases.find( baseName );
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}
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return baseName;
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}
std::vector<VulkanHppGenerator::MemberData>::const_iterator VulkanHppGenerator::findStructMemberIt( std::string const & name,
std::vector<MemberData> const & memberData ) const
{
return std::find_if( memberData.begin(), memberData.end(), [&name]( MemberData const & md ) { return md.name == name; } );
}
std::vector<VulkanHppGenerator::MemberData>::const_iterator VulkanHppGenerator::findStructMemberItByType( std::string const & type,
std::vector<MemberData> const & memberData ) const
{
return std::find_if( memberData.begin(), memberData.end(), [&type]( MemberData const & md ) { return md.type.type == type; } );
}
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std::pair<std::string, std::string> VulkanHppGenerator::generateAllocatorTemplates( std::vector<size_t> const & returnParams,
std::vector<std::string> const & returnDataTypes,
std::map<size_t, size_t> const & vectorParams,
bool definition,
bool singular,
bool unique,
bool chained ) const
{
assert( returnParams.size() == returnDataTypes.size() );
std::string allocatorTemplates;
if ( !singular )
{
for ( size_t i = 0; i < returnParams.size(); i++ )
{
if ( vectorParams.find( returnParams[i] ) != vectorParams.end() )
{
if ( chained )
{
allocatorTemplates += "typename StructureChainAllocator";
if ( !definition )
{
allocatorTemplates += " = std::allocator<StructureChain>";
}
}
else
{
allocatorTemplates += "typename " + startUpperCase( stripPrefix( returnDataTypes[i], "VULKAN_HPP_NAMESPACE::" ) ) + "Allocator";
if ( !definition )
{
allocatorTemplates += " = std::allocator<" + ( unique ? ( "UniqueHandle<" + returnDataTypes[i] + ", Dispatch>" ) : returnDataTypes[i] ) + ">";
}
}
allocatorTemplates += ", ";
}
}
}
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std::string uniqueHandleAllocatorTemplates;
if ( unique && !allocatorTemplates.empty() )
{
uniqueHandleAllocatorTemplates = ", " + stripPostfix( allocatorTemplates, ", " );
allocatorTemplates.clear();
}
return std::make_pair( allocatorTemplates, uniqueHandleAllocatorTemplates );
}
std::string VulkanHppGenerator::generateArgumentListEnhanced( std::vector<ParamData> const & params,
std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
std::set<size_t> const & skippedParams,
std::set<size_t> const & singularParams,
std::set<size_t> const & templatedParams,
bool definition,
bool withAllocators,
bool structureChain,
bool withDispatcher ) const
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{
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size_t defaultStartIndex = withAllocators ? ~0 : determineDefaultStartIndex( params, skippedParams );
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std::string argumentList;
bool encounteredArgument = false;
for ( size_t i = 0; i < params.size(); ++i )
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{
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if ( skippedParams.find( i ) == skippedParams.end() )
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{
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if ( encounteredArgument )
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{
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argumentList += ", ";
}
bool hasDefaultAssignment = false;
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std::string composedType = params[i].type.compose( "VULKAN_HPP_NAMESPACE" );
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if ( singularParams.find( i ) != singularParams.end() )
{
assert( !params[i].optional );
assert( params[i].type.isConstPointer() && !params[i].len.empty() && !isLenByStructMember( params[i].len, params ) &&
beginsWith( params[i].type.type, "Vk" ) );
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assert( !isHandleType( params[i].type.type ) );
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assert( endsWith( composedType, " *" ) );
argumentList += stripPostfix( composedType, " *" ) + " & " + stripPluralS( startLowerCase( stripPrefix( params[i].name, "p" ) ) );
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}
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else if ( params[i].type.isConstPointer() )
{
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assert( endsWith( composedType, " *" ) );
std::string name = startLowerCase( stripPrefix( params[i].name, "p" ) );
if ( params[i].len.empty() )
{
assert( withDispatcher || !isHandleType( params[i].type.type ) );
assert( !params[i].type.prefix.empty() && ( params[i].type.postfix == "*" ) );
assert( params[i].arraySizes.empty() );
if ( params[i].type.type == "void" )
{
assert( !params[i].optional );
argumentList += ( templatedParams.find( i ) == templatedParams.end() ) ? ( composedType + " " + params[i].name )
: ( stripPrefix( params[i].name, "p" ) + "Type const & " + name );
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}
else if ( params[i].optional )
{
argumentList += "Optional<" + stripPostfix( composedType, " *" ) + "> " + name +
( ( definition || withAllocators ) ? "" : " VULKAN_HPP_DEFAULT_ARGUMENT_NULLPTR_ASSIGNMENT" );
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hasDefaultAssignment = true;
}
else
{
argumentList += stripPostfix( composedType, " *" ) + " & " + name;
}
}
else
{
// a const-pointer with a non-empty len is either null-terminated (aka a string) or represented by an
// ArrayProxy
assert( params[i].arraySizes.empty() );
if ( params[i].len == "null-terminated" )
{
assert( params[i].type.type == "char" );
if ( params[i].optional )
{
argumentList +=
"Optional<const std::string> " + name + ( ( definition || withAllocators ) ? "" : " VULKAN_HPP_DEFAULT_ARGUMENT_NULLPTR_ASSIGNMENT" );
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hasDefaultAssignment = true;
}
else
{
argumentList += "const std::string & " + name;
}
}
else
{
// an ArrayProxy also covers no data, so any optional flag can be ignored here
std::string type = stripPostfix( composedType, " *" );
size_t pos = type.find( "void" );
if ( pos != std::string::npos )
{
type.replace( pos, 4, stripPrefix( params[i].name, "p" ) + "Type" );
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}
argumentList += "ArrayProxy<" + type + "> const & " + name;
if ( params[i].optional && !definition )
{
argumentList += " VULKAN_HPP_DEFAULT_ARGUMENT_NULLPTR_ASSIGNMENT";
hasDefaultAssignment = true;
}
}
}
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}
else if ( params[i].type.isNonConstPointer() )
{
assert( withDispatcher || !isHandleType( params[i].type.type ) );
assert( params[i].len.empty() && !params[i].optional );
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assert( endsWith( composedType, " *" ) );
argumentList += stripPostfix( composedType, " *" ) + " & " + params[i].name;
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}
else
{
assert( params[i].type.isValue() );
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argumentList += composedType + " " + params[i].name + generateCArraySizes( params[i].arraySizes );
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}
argumentList += std::string( !definition && ( defaultStartIndex <= i ) && !hasDefaultAssignment ? " VULKAN_HPP_DEFAULT_ARGUMENT_ASSIGNMENT" : "" );
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encounteredArgument = true;
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}
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}
if ( withAllocators )
{
if ( structureChain )
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{
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if ( encounteredArgument )
{
argumentList += ", ";
}
argumentList += "StructureChainAllocator & structureChainAllocator";
encounteredArgument = true;
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}
else
{
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for ( auto sp : skippedParams )
{
if ( !params[sp].len.empty() )
{
if ( encounteredArgument )
{
argumentList += ", ";
}
std::string type;
if ( templatedParams.find( sp ) != templatedParams.end() )
{
auto vectorParamIt = vectorParams.find( sp );
if ( ( vectorParamIt != vectorParams.end() ) &&
( std::find( returnParams.begin(), returnParams.end(), vectorParamIt->first ) != returnParams.end() ) &&
( std::find( returnParams.begin(), returnParams.end(), vectorParamIt->second ) != returnParams.end() ) )
{
type = "Uint8_t";
}
else
{
type = stripPrefix( params[sp].name, "p" ) + "Type";
}
}
else
{
type = ( params[sp].type.type == "void" ) ? "Uint8_t" : startUpperCase( stripPrefix( params[sp].type.type, "Vk" ) );
}
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argumentList += type + "Allocator & " + startLowerCase( type ) + "Allocator";
encounteredArgument = true;
}
}
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}
}
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if ( withDispatcher )
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{
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if ( encounteredArgument )
{
argumentList += ", ";
}
argumentList += std::string( "Dispatch const & d" ) + ( definition ? "" : " VULKAN_HPP_DEFAULT_DISPATCHER_ASSIGNMENT" );
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}
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return argumentList;
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}
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std::string VulkanHppGenerator::generateArgumentListStandard( std::vector<ParamData> const & params, std::set<size_t> const & skippedParams ) const
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{
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std::string argumentList;
for ( size_t i = 0; i < params.size(); ++i )
{
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if ( skippedParams.find( i ) == skippedParams.end() )
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{
argumentList += params[i].type.compose( "VULKAN_HPP_NAMESPACE" ) + " " + params[i].name + generateCArraySizes( params[i].arraySizes ) + ", ";
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}
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}
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argumentList += "Dispatch const & d ";
return argumentList;
}
std::string VulkanHppGenerator::generateArgumentTemplates( std::vector<ParamData> const & params,
std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
std::set<size_t> const & templatedParams,
bool chained,
bool raii ) const
{
std::string argumentTemplates;
if ( !templatedParams.empty() )
{
assert( !chained );
for ( auto t : templatedParams )
{
assert( beginsWith( params[t].name, "p" ) );
auto vectorParamIt = vectorParams.find( t );
if ( ( vectorParamIt == vectorParams.end() ) || ( std::find( returnParams.begin(), returnParams.end(), vectorParamIt->first ) == returnParams.end() ) ||
( std::find( returnParams.begin(), returnParams.end(), vectorParamIt->second ) == returnParams.end() ) )
{
// only templated parameters that are not part of an enumeration are really templated
argumentTemplates += "typename " + stripPrefix( params[t].name, "p" ) + "Type, ";
}
}
}
else if ( chained )
{
argumentTemplates = ( returnParams.size() == 1 ) ? "typename X, typename Y, typename... Z, " : "typename StructureChain, ";
}
if ( !argumentTemplates.empty() && raii )
{
argumentTemplates = "template <" + stripPostfix( argumentTemplates, ", " ) + ">";
}
return argumentTemplates;
}
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std::string VulkanHppGenerator::generateBitmask( std::map<std::string, BitmaskData>::const_iterator bitmaskIt ) const
{
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auto bitmaskBitsIt = m_enums.find( bitmaskIt->second.requirements );
assert( bitmaskBitsIt != m_enums.end() );
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std::string bitmaskName = stripPrefix( bitmaskIt->first, "Vk" );
std::string enumName = stripPrefix( bitmaskBitsIt->first, "Vk" );
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// each Flags class is using the class 'Flags' with the corresponding FlagBits enum as the template parameter
std::string str = "\n using " + bitmaskName + " = Flags<" + enumName + ">;\n";
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std::string alias = bitmaskIt->second.alias.empty() ? "" : ( "\n using " + stripPrefix( bitmaskIt->second.alias, "Vk" ) + " = " + bitmaskName + ";\n" );
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if ( bitmaskBitsIt->second.values.empty() )
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{
str += alias + "\n";
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}
else
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{
static const std::string bitmaskTemplate = R"(
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template <> struct FlagTraits<${enumName}>
{
enum : ${bitmaskType}
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{
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allFlags = ${allFlags}
};
};
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VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR ${bitmaskName} operator|( ${enumName} bit0, ${enumName} bit1 ) VULKAN_HPP_NOEXCEPT
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{
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return ${bitmaskName}( bit0 ) | bit1;
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}
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VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR ${bitmaskName} operator&( ${enumName} bit0, ${enumName} bit1 ) VULKAN_HPP_NOEXCEPT
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{
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return ${bitmaskName}( bit0 ) & bit1;
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}
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VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR ${bitmaskName} operator^( ${enumName} bit0, ${enumName} bit1 ) VULKAN_HPP_NOEXCEPT
{
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return ${bitmaskName}( bit0 ) ^ bit1;
}
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VULKAN_HPP_INLINE VULKAN_HPP_CONSTEXPR ${bitmaskName} operator~( ${enumName} bits ) VULKAN_HPP_NOEXCEPT
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{
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return ~( ${bitmaskName}( bits ) );
}
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${alias}
)";
std::string allFlags;
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bool encounteredFlag = false;
std::string previousEnter, previousLeave;
for ( auto const & value : bitmaskBitsIt->second.values )
{
auto [enter, leave] = generateProtection( value.extension, value.protect );
std::string valueName = generateEnumValueName( bitmaskBitsIt->first, value.name, true, m_tags );
allFlags += ( ( previousEnter != enter ) ? ( "\n" + previousLeave + enter ) : "\n" ) + " " + ( encounteredFlag ? "| " : " " ) +
bitmaskIt->second.type + "( " + enumName + "::" + valueName + " )";
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encounteredFlag = true;
previousEnter = enter;
previousLeave = leave;
}
if ( !previousLeave.empty() )
{
assert( endsWith( previousLeave, "\n" ) );
previousLeave.resize( previousLeave.size() - strlen( "\n" ) );
allFlags += "\n" + previousLeave;
}
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str += replaceWithMap(
bitmaskTemplate,
{ { "alias", alias }, { "allFlags", allFlags }, { "bitmaskName", bitmaskName }, { "bitmaskType", bitmaskIt->second.type }, { "enumName", enumName } } );
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}
return str;
}
std::string
VulkanHppGenerator::generateBitmasks( std::vector<RequireData> const & requireData, std::set<std::string> & listedBitmasks, std::string const & title ) const
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{
std::string str;
for ( auto const & require : requireData )
{
for ( auto const & type : require.types )
{
auto bitmaskIt = m_bitmasks.find( type );
if ( ( bitmaskIt != m_bitmasks.end() ) && ( listedBitmasks.find( type ) == listedBitmasks.end() ) )
{
listedBitmasks.insert( type );
str += generateBitmask( bitmaskIt );
}
}
}
return addTitleAndProtection( title, str );
}
std::string VulkanHppGenerator::generateBitmasksToString( std::vector<RequireData> const & requireData,
std::set<std::string> & listedBitmasks,
std::string const & title ) const
{
std::string str;
for ( auto const & require : requireData )
{
for ( auto const & type : require.types )
{
auto bitmaskIt = m_bitmasks.find( type );
if ( ( bitmaskIt != m_bitmasks.end() ) && ( listedBitmasks.find( type ) == listedBitmasks.end() ) )
{
listedBitmasks.insert( type );
str += generateBitmaskToString( bitmaskIt );
}
}
}
return addTitleAndProtection( title, str );
}
std::string VulkanHppGenerator::generateBitmaskToString( std::map<std::string, BitmaskData>::const_iterator bitmaskIt ) const
{
auto bitmaskBitsIt = m_enums.find( bitmaskIt->second.requirements );
assert( bitmaskBitsIt != m_enums.end() );
std::string bitmaskName = stripPrefix( bitmaskIt->first, "Vk" );
std::string enumName = stripPrefix( bitmaskBitsIt->first, "Vk" );
std::string str;
if ( bitmaskBitsIt->second.values.empty() )
{
static std::string bitmaskToStringTemplate = R"(
VULKAN_HPP_INLINE std::string to_string( ${bitmaskName} )
{
return "{}";
}
)";
str += replaceWithMap( bitmaskToStringTemplate, { { "bitmaskName", bitmaskName } } );
}
else
{
static const std::string bitmaskToStringTemplate = R"(
VULKAN_HPP_INLINE std::string to_string( ${bitmaskName} value )
{
if ( !value )
return "{}";
std::string result;
${toStringChecks}
return "{ " + result.substr( 0, result.size() - 3 ) + " }";
}
)";
std::string toStringChecks;
std::string previousEnter, previousLeave;
for ( auto const & value : bitmaskBitsIt->second.values )
{
auto [enter, leave] = generateProtection( value.extension, value.protect );
std::string valueName = generateEnumValueName( bitmaskBitsIt->first, value.name, true, m_tags );
if ( value.singleBit )
{
toStringChecks += ( ( previousEnter != enter ) ? ( previousLeave + enter ) : "" ) + " if ( value & " + enumName + "::" + valueName +
" ) result += \"" + valueName.substr( 1 ) + " | \";\n";
}
previousEnter = enter;
previousLeave = leave;
}
if ( !previousLeave.empty() )
{
assert( endsWith( previousLeave, "\n" ) );
toStringChecks += previousLeave;
previousLeave.resize( previousLeave.size() - strlen( "\n" ) );
}
str += replaceWithMap( bitmaskToStringTemplate, { { "bitmaskName", bitmaskName }, { "toStringChecks", toStringChecks } } );
}
return str;
}
std::string VulkanHppGenerator::generateCallArgumentsEnhanced( CommandData const & commandData,
size_t initialSkipCount,
bool nonConstPointerAsNullptr,
std::set<size_t> const & singularParams,
std::set<size_t> const & templatedParams,
bool raiiHandleMemberFunction ) const
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{
assert( initialSkipCount <= commandData.params.size() );
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std::string arguments;
bool encounteredArgument = false;
if ( raiiHandleMemberFunction )
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{
switch ( initialSkipCount )
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{
case 1:
assert( isHandleType( commandData.params[0].type.type ) && commandData.params[0].type.isValue() );
assert( commandData.params[0].arraySizes.empty() && commandData.params[0].len.empty() );
assert( commandData.params[0].type.type == commandData.handle );
arguments = "static_cast<" + commandData.handle + ">( m_" + startLowerCase( stripPrefix( commandData.handle, "Vk" ) ) + " )";
encounteredArgument = true;
break;
case 2:
{
assert( isHandleType( commandData.params[0].type.type ) && commandData.params[0].type.isValue() );
assert( commandData.params[0].arraySizes.empty() && commandData.params[0].len.empty() );
assert( commandData.params[0].type.type == commandData.handle );
auto handleIt = m_handles.find( commandData.params[1].type.type );
assert( handleIt != m_handles.end() );
arguments = "static_cast<" + commandData.handle + ">( m_" + startLowerCase( stripPrefix( commandData.handle, "Vk" ) ) + " )";
assert( commandData.params[1].type.isValue() && commandData.params[1].arraySizes.empty() && commandData.params[1].len.empty() );
arguments += ", static_cast<" + commandData.params[1].type.type + ">( m_" +
generateRAIIHandleConstructorParamName( handleIt->first, handleIt->second.destructorIt ) + " )";
encounteredArgument = true;
}
break;
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}
}
else
{
for ( size_t i = 0; i < initialSkipCount; ++i )
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{
if ( encounteredArgument )
{
arguments += ", ";
}
assert( isHandleType( commandData.params[i].type.type ) && commandData.params[i].type.isValue() );
assert( commandData.params[i].arraySizes.empty() && commandData.params[i].len.empty() );
arguments += "m_" + startLowerCase( stripPrefix( commandData.params[i].type.type, "Vk" ) );
encounteredArgument = true;
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}
}
for ( size_t i = initialSkipCount; i < commandData.params.size(); ++i )
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{
if ( encounteredArgument )
{
arguments += ", ";
}
arguments += generateCallArgumentEnhanced( commandData.params, i, nonConstPointerAsNullptr, singularParams, templatedParams, raiiHandleMemberFunction );
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encounteredArgument = true;
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}
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return arguments;
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}
std::string VulkanHppGenerator::generateCallArgumentsRAIIFactory( std::vector<ParamData> const & params,
size_t initialSkipCount,
std::set<size_t> const & skippedParams,
std::set<size_t> const & singularParams ) const
{
assert( initialSkipCount <= params.size() );
std::string arguments = "*this";
// skip the last parameter!
for ( size_t i = initialSkipCount; i < params.size() - 1; ++i )
{
if ( skippedParams.find( i ) == skippedParams.end() )
{
std::string argument = params[i].name;
if ( !params[i].type.isValue() )
{
argument = startLowerCase( stripPrefix( argument, "p" ) );
if ( singularParams.find( i ) != singularParams.end() )
{
argument = stripPluralS( argument );
}
}
else
{
assert( singularParams.find( i ) == singularParams.end() );
}
arguments += ", " + argument;
}
}
return arguments;
}
std::string VulkanHppGenerator::generateCallArgumentsStandard( std::string const & handle, std::vector<ParamData> const & params ) const
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{
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std::string arguments;
bool encounteredArgument = false;
for ( auto const & param : params )
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{
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if ( encounteredArgument )
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{
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arguments += ", ";
}
if ( ( param.type.type == handle ) && param.type.isValue() )
{
assert( param.arraySizes.empty() && param.len.empty() );
arguments += "m_" + startLowerCase( stripPrefix( param.type.type, "Vk" ) );
}
else
{
std::string argument = param.name;
if ( beginsWith( param.type.type, "Vk" ) )
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{
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if ( !param.arraySizes.empty() )
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{
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assert( param.arraySizes.size() == 1 );
assert( param.type.isValue() );
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assert( param.type.postfix.empty() );
argument = "reinterpret_cast<" + param.type.compose( "" ) + " *>( " + argument + " )";
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}
else if ( param.type.isValue() )
{
argument = "static_cast<" + param.type.type + ">( " + argument + " )";
}
else
{
assert( !param.type.postfix.empty() );
argument = "reinterpret_cast<" + param.type.compose( "" ) + ">( " + argument + " )";
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}
}
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arguments += argument;
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}
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encounteredArgument = true;
}
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return arguments;
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}
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std::string VulkanHppGenerator::generateCallArgumentEnhanced( std::vector<ParamData> const & params,
size_t paramIndex,
bool nonConstPointerAsNullptr,
std::set<size_t> const & singularParams,
std::set<size_t> const & templatedParams,
bool raiiHandleMemberFunction ) const
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{
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std::string argument;
ParamData const & param = params[paramIndex];
if ( param.type.isConstPointer() || ( specialPointerTypes.find( param.type.type ) != specialPointerTypes.end() ) )
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{
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// parameter is a const-pointer or one of the special pointer types that are considered to be const-pointers
argument = generateCallArgumentEnhancedConstPointer( param, paramIndex, singularParams, templatedParams );
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}
else if ( param.type.isNonConstPointer() && ( specialPointerTypes.find( param.type.type ) == specialPointerTypes.end() ) )
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{
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// parameter is a non-const pointer and none of the special pointer types, that are considered const-pointers
argument = generateCallArgumentEnhancedNonConstPointer( param, paramIndex, nonConstPointerAsNullptr, singularParams, raiiHandleMemberFunction );
}
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else
{
argument = generateCallArgumentEnhancedValue( params, paramIndex, singularParams );
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}
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assert( !argument.empty() );
return argument;
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}
std::string VulkanHppGenerator::generateCallArgumentEnhancedConstPointer( ParamData const & param,
size_t paramIndex,
std::set<size_t> const & singularParams,
std::set<size_t> const & templatedParams ) const
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{
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std::string argument;
std::string name = startLowerCase( stripPrefix( param.name, "p" ) );
if ( isHandleType( param.type.type ) && param.type.isValue() )
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{
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assert( !param.optional );
// if at all, this is the first argument, and it's the implicitly provided member handle
assert( paramIndex == 0 );
assert( param.arraySizes.empty() && param.len.empty() );
argument = "m_" + startLowerCase( stripPrefix( param.type.type, "Vk" ) );
}
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else if ( param.len.empty() )
{
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// this const-pointer parameter has no length, that is it's a const-pointer to a single value
if ( param.type.type == "void" )
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{
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assert( !param.optional );
argument = ( templatedParams.find( paramIndex ) == templatedParams.end() )
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? param.name
: "reinterpret_cast<" + param.type.compose( "VULKAN_HPP_NAMESPACE" ) + ">( &" + name + " )";
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}
else if ( param.optional )
{
argument = "static_cast<" + param.type.compose( "VULKAN_HPP_NAMESPACE" ) + ">( " + name + " )";
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}
else
{
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argument = "&" + name;
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}
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if ( beginsWith( param.type.type, "Vk" ) )
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{
argument = "reinterpret_cast<" + param.type.compose( "" ) + ">( " + argument + " )";
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}
}
else if ( param.len == "null-terminated" )
{
// this const-pointer parameter is "null-terminated", that is it's a string
assert( ( param.type.type == "char" ) && param.arraySizes.empty() );
if ( param.optional )
{
argument = name + " ? " + name + "->c_str() : nullptr";
}
else
{
argument = name + ".c_str()";
}
}
else
{
// this const-pointer parameter has some explicit length
if ( singularParams.find( paramIndex ) != singularParams.end() )
{
assert( !param.optional );
argument = "&" + stripPluralS( name );
}
else
{
// this const-parameter is represented by some array, where data() also works with no data (optional)
argument = name + ".data()";
}
if ( beginsWith( param.type.type, "Vk" ) || ( param.type.type == "void" ) )
{
argument = "reinterpret_cast<" + param.type.compose( "" ) + ">( " + argument + " )";
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}
}
return argument;
}
std::string VulkanHppGenerator::generateCallArgumentEnhancedNonConstPointer(
ParamData const & param, size_t paramIndex, bool nonConstPointerAsNullptr, std::set<size_t> const & singularParams, bool raiiHandleMemberFunction ) const
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{
std::string argument;
std::string name = startLowerCase( stripPrefix( param.name, "p" ) );
if ( param.len.empty() )
{
assert( param.arraySizes.empty() );
if ( beginsWith( param.type.type, "Vk" ) )
{
argument = "reinterpret_cast<" + param.type.compose( "" ) + ">( &" + name + " )";
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}
else
{
assert( !param.optional );
argument = "&" + name;
}
}
else
{
// the non-const pointer has a len -> it will be represented by some array
assert( param.arraySizes.empty() );
if ( nonConstPointerAsNullptr )
{
argument = "nullptr";
}
else
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{
if ( singularParams.find( paramIndex ) != singularParams.end() )
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{
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argument = "&" + stripPluralS( name );
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}
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else
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{
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// get the data of the array, which also covers no data -> no need to look at param.optional
argument = name + ".data()";
}
if ( ( beginsWith( param.type.type, "Vk" ) || ( param.type.type == "void" ) ) && ( !raiiHandleMemberFunction || !isHandleType( param.type.type ) ) )
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{
argument = "reinterpret_cast<" + param.type.compose( "" ) + ">( " + argument + " )";
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}
}
}
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return argument;
}
std::string VulkanHppGenerator::generateCallArgumentEnhancedValue( std::vector<ParamData> const & params,
size_t paramIndex,
std::set<size_t> const & singularParams ) const
{
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std::string argument;
ParamData const & param = params[paramIndex];
assert( param.len.empty() );
if ( beginsWith( param.type.type, "Vk" ) )
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{
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if ( param.arraySizes.empty() )
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{
auto pointerIt = std::find_if( params.begin(), params.end(), [&param]( ParamData const & pd ) { return pd.len == param.name; } );
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if ( pointerIt != params.end() )
{
assert( !param.optional );
argument = startLowerCase( stripPrefix( pointerIt->name, "p" ) ) + ".size()";
if ( pointerIt->type.type == "void" )
{
argument += " * sizeof( " + stripPrefix( pointerIt->name, "p" ) + "Type )";
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}
}
else
{
argument = "static_cast<" + param.type.compose( "" ) + ">( " + param.name + " )";
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}
}
else
{
assert( !param.optional );
assert( param.arraySizes.size() == 1 );
assert( param.type.prefix == "const" );
argument = "reinterpret_cast<" + param.type.compose( "" ) + " *>( " + param.name + " )";
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}
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}
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else
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{
auto pointerIt = std::find_if( params.begin(), params.end(), [&param]( ParamData const & pd ) { return pd.len == param.name; } );
if ( pointerIt != params.end() )
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{
// this parameter is the len of some other -> replace it with that parameter's size
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assert( param.arraySizes.empty() );
assert( ( param.type.type == "size_t" ) || ( param.type.type == "uint32_t" ) );
if ( singularParams.find( paramIndex ) == singularParams.end() )
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{
argument = startLowerCase( stripPrefix( pointerIt->name, "p" ) ) + ".size()";
if ( pointerIt->type.type == "void" )
{
argument += " * sizeof( " + stripPrefix( pointerIt->name, "p" ) + "Type )";
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}
}
else
{
if ( pointerIt->type.type == "void" )
{
argument = "sizeof( " + stripPrefix( pointerIt->name, "p" ) + "Type )";
}
else
{
argument = "1";
}
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}
}
else
{
assert( !param.optional );
assert( param.arraySizes.size() <= 1 );
argument = param.name;
}
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}
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return argument;
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}
std::string VulkanHppGenerator::generateCallSequence( std::string const & name,
CommandData const & commandData,
std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
size_t initialSkipCount,
std::set<size_t> const & singularParams,
std::set<size_t> const & templatedParams,
bool chained,
bool raii ) const
{
std::string dispatcher = raii ? "getDispatcher()->" : "d.";
// if at least one returnParam is a size value of a vector param (and no singular params), we need two calls
if ( singularParams.empty() &&
( std::find_if( returnParams.begin(),
returnParams.end(),
[&vectorParams]( size_t rp ) {
return ( std::find_if( vectorParams.begin(), vectorParams.end(), [rp]( auto const & vp ) { return vp.second == rp; } ) !=
vectorParams.end() );
} ) != returnParams.end() ) )
{
auto vectorParamIt = vectorParams.find( returnParams[1] );
assert( ( vectorParamIt != vectorParams.end() ) && ( vectorParamIt->second == returnParams[0] ) );
std::string firstCallArguments = generateCallArgumentsEnhanced( commandData, initialSkipCount, true, {}, templatedParams, raii );
std::string secondCallArguments = generateCallArgumentsEnhanced( commandData, initialSkipCount, false, {}, templatedParams, raii );
std::string vectorName = startLowerCase( stripPrefix( commandData.params[vectorParamIt->first].name, "p" ) );
std::string vectorSize = startLowerCase( stripPrefix( commandData.params[vectorParamIt->second].name, "p" ) );
if ( chained )
{
assert( vectorParams.size() == 1 );
// chained data needs some more handling!!
std::string vectorElementType = stripPostfix( commandData.params[vectorParamIt->first].type.compose( "VULKAN_HPP_NAMESPACE" ), " *" );
if ( commandData.returnType == "VkResult" )
{
const std::string callSequenceTemplate = R"(VkResult result;
do
{
result = ${dispatcher}${vkCommand}( ${firstCallArguments} );
if ( ( result == VK_SUCCESS ) && ${counterName} )
{
structureChains.resize( ${counterName} );
${vectorName}.resize( ${counterName} );
for ( ${counterType} i = 0; i < ${counterName}; i++ )
{
${vectorName}[i].pNext = structureChains[i].template get<${vectorElementType}>().pNext;
}
result = ${dispatcher}${vkCommand}( ${secondCallArguments} );
}
} while ( result == VK_INCOMPLETE );)";
return replaceWithMap( callSequenceTemplate,
{ { "counterName", startLowerCase( stripPrefix( commandData.params[vectorParamIt->second].name, "p" ) ) },
{ "counterType", commandData.params[vectorParamIt->second].type.type },
{ "dispatcher", dispatcher },
{ "firstCallArguments", firstCallArguments },
{ "secondCallArguments", secondCallArguments },
{ "vectorElementType", vectorElementType },
{ "vectorName", vectorName },
{ "vkCommand", name } } );
}
else
{
const std::string callSequenceTemplate =
R"(${dispatcher}${vkCommand}( ${firstCallArguments} );
structureChains.resize( ${counterName} );
${vectorName}.resize( ${counterName} );
for ( ${counterType} i = 0; i < ${counterName}; i++ )
{
${vectorName}[i].pNext = structureChains[i].template get<${vectorElementType}>().pNext;
}
${dispatcher}${vkCommand}( ${secondCallArguments} );)";
return replaceWithMap( callSequenceTemplate,
{ { "counterName", startLowerCase( stripPrefix( commandData.params[vectorParamIt->second].name, "p" ) ) },
{ "counterType", commandData.params[vectorParamIt->second].type.type },
{ "dispatcher", dispatcher },
{ "firstCallArguments", firstCallArguments },
{ "secondCallArguments", secondCallArguments },
{ "vectorElementType", vectorElementType },
{ "vectorName", vectorName },
{ "vkCommand", name } } );
}
}
else if ( commandData.returnType == "VkResult" )
{
assert( ( commandData.successCodes.size() == 2 ) && ( commandData.successCodes[0] == "VK_SUCCESS" ) &&
( commandData.successCodes[1] == "VK_INCOMPLETE" ) );
std::string resizes;
for ( auto const & vp : vectorParams )
{
assert( ( std::find( returnParams.begin(), returnParams.end(), vp.first ) != returnParams.end() ) &&
( std::find( returnParams.begin(), returnParams.end(), vp.second ) != returnParams.end() ) );
resizes += startLowerCase( stripPrefix( commandData.params[vp.first].name, "p" ) ) + ".resize( " +
startLowerCase( stripPrefix( commandData.params[vp.second].name, "p" ) ) + " );\n";
}
resizes.pop_back();
std::string const callSequenceTemplate = R"(VkResult result;
do
{
result = ${dispatcher}${vkCommand}( ${firstCallArguments} );
if ( ( result == VK_SUCCESS ) && ${counterName} )
{
${resizes}
result = ${dispatcher}${vkCommand}( ${secondCallArguments} );
}
} while ( result == VK_INCOMPLETE );)";
return replaceWithMap( callSequenceTemplate,
{ { "counterName", startLowerCase( stripPrefix( commandData.params[vectorParamIt->second].name, "p" ) ) },
{ "dispatcher", dispatcher },
{ "firstCallArguments", firstCallArguments },
{ "secondCallArguments", secondCallArguments },
{ "resizes", resizes },
{ "vkCommand", name } } );
}
else
{
// no need to enumerate here, just two calls
assert( commandData.returnType == "void" );
std::string const callSequenceTemplate = R"(${dispatcher}${vkCommand}( ${firstCallArguments} );
${vectorName}.resize( ${vectorSize} );
${dispatcher}${vkCommand}( ${secondCallArguments} );)";
return replaceWithMap( callSequenceTemplate,
{ { "dispatcher", dispatcher },
{ "firstCallArguments", firstCallArguments },
{ "secondCallArguments", secondCallArguments },
{ "vectorName", vectorName },
{ "vectorSize", vectorSize },
{ "vkCommand", name } } );
}
}
else
{
std::string const callSequenceTemplate = R"(${resultAssignment}${dispatcher}${vkCommand}( ${callArguments} );)";
std::string callArguments = generateCallArgumentsEnhanced( commandData, initialSkipCount, false, singularParams, templatedParams, raii );
std::string resultAssignment = generateResultAssignment( commandData );
return replaceWithMap(
callSequenceTemplate,
{ { "callArguments", callArguments }, { "dispatcher", dispatcher }, { "resultAssignment", resultAssignment }, { "vkCommand", name } } );
}
}
std::string VulkanHppGenerator::generateCommand( std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition ) const
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{
std::string str;
if ( commandData.returnType == "VkResult" )
{
assert( !commandData.successCodes.empty() );
if ( commandData.successCodes.size() == 1 )
{
if ( commandData.errorCodes.empty() )
{
str = generateCommandResultSingleSuccessNoErrors( name, commandData, initialSkipCount, definition );
}
else
{
str = generateCommandResultSingleSuccessWithErrors( name, commandData, initialSkipCount, definition );
}
}
else
{
if ( commandData.errorCodes.empty() )
{
str = generateCommandResultMultiSuccessNoErrors( name, commandData, initialSkipCount, definition );
}
else
{
str = generateCommandResultMultiSuccessWithErrors( name, commandData, initialSkipCount, definition );
}
}
}
else if ( commandData.returnType == "void" )
{
std::vector<size_t> returnParams = determineReturnParams( commandData.params );
switch ( returnParams.size() )
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{
case 0: str = generateCommandVoid0Return( name, commandData, initialSkipCount, definition ); break;
case 1: str = generateCommandVoid1Return( name, commandData, initialSkipCount, definition, returnParams[0] ); break;
case 2: str = generateCommandVoid2Return( name, commandData, initialSkipCount, definition, returnParams ); break;
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}
}
else
{
str = generateCommandValue( name, commandData, initialSkipCount, definition );
}
if ( str.empty() )
{
throw std::runtime_error( "Never encountered a function like <" + name + "> !" );
}
return str;
}
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std::string VulkanHppGenerator::generateCommandDefinitions( std::vector<RequireData> const & requireData,
std::set<std::string> & listedCommands,
std::string const & title ) const
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{
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std::string str;
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for ( auto const & require : requireData )
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{
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for ( auto const & command : require.commands )
{
if ( listedCommands.insert( command ).second )
{
auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
str += generateCommandDefinitions( command, commandIt->second.handle );
}
}
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}
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return addTitleAndProtection( title, str );
}
std::string VulkanHppGenerator::generateCommandDefinitions( std::string const & command, std::string const & handle ) const
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{
auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
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std::string str = "\n" + generateCommand( commandIt->first, commandIt->second, handle.empty() ? 0 : 1, true );
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// special handling for destroy functions, filter out alias functions
std::string commandName = generateCommandName( commandIt->first, commandIt->second.params, 1, m_tags, false, false );
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if ( commandIt->second.alias.empty() &&
( ( ( commandIt->first.substr( 2, 7 ) == "Destroy" ) && ( commandName != "destroy" ) ) || ( commandIt->first.substr( 2, 4 ) == "Free" ) ||
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( commandIt->first == "vkReleasePerformanceConfigurationINTEL" ) ) )
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{
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CommandData commandData = commandIt->second;
assert( ( 1 < commandData.params.size() ) && ( commandData.params[0].type.type == handle ) );
commandData.params[1].optional = false; // make sure, the object to destroy/free/release is not optional in the shortened version!
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std::string destroyCommandString = generateCommand( commandIt->first, commandData, handle.empty() ? 0 : 1, true );
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std::string shortenedName;
if ( commandIt->first.substr( 2, 7 ) == "Destroy" )
{
shortenedName = "destroy";
}
else if ( commandIt->first.substr( 2, 4 ) == "Free" )
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{
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shortenedName = "free";
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}
else
{
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assert( commandIt->first == "vkReleasePerformanceConfigurationINTEL" );
shortenedName = "release";
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}
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size_t pos = destroyCommandString.find( commandName );
while ( pos != std::string::npos )
{
destroyCommandString.replace( pos, commandName.length(), shortenedName );
pos = destroyCommandString.find( commandName, pos );
}
// special handling for "free", to prevent interfering with MSVC debug free!
if ( shortenedName == "free" )
{
std::string toEncloseString = stripPrefix( handle, "Vk" ) + "::free";
std::string enclosedString = "( " + toEncloseString + " )";
pos = destroyCommandString.find( toEncloseString );
while ( pos != std::string::npos )
{
destroyCommandString.replace( pos, toEncloseString.length(), enclosedString );
pos = destroyCommandString.find( toEncloseString, pos + enclosedString.length() );
}
}
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// we need to remove the default argument for the first argument, to prevent ambiguities!
assert( 1 < commandIt->second.params.size() );
pos = destroyCommandString.find( commandIt->second.params[1].name ); // skip the standard version of the function
assert( pos != std::string::npos );
pos = destroyCommandString.find( commandIt->second.params[1].name,
pos + 1 ); // get the argument to destroy in the advanced version
assert( pos != std::string::npos );
pos = destroyCommandString.find( " VULKAN_HPP_DEFAULT_ARGUMENT_ASSIGNMENT", pos );
if ( pos != std::string::npos )
{
destroyCommandString.erase( pos, strlen( " VULKAN_HPP_DEFAULT_ARGUMENT_ASSIGNMENT" ) );
}
str += "\n" + destroyCommandString;
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}
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return str;
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}
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std::string VulkanHppGenerator::generateCommandEnhanced( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition,
std::map<size_t, size_t> const & vectorParams,
std::vector<size_t> const & returnParams,
bool singular,
bool withAllocator,
bool chained,
bool unique ) const
{
assert( vectorParams.empty() || ( vectorParams.begin()->second != INVALID_INDEX ) );
assert( !singular || !returnParams.empty() ); // if singular is true, then there is at least one returnParam !
std::set<size_t> skippedParams = determineSkippedParams( commandData.params, initialSkipCount, vectorParams, returnParams, singular );
// special handling for vkGetMemoryHostPointerPropertiesEXT: here, we really need to stick with the const void * parameter !
std::set<size_t> templatedParams = ( name == "vkGetMemoryHostPointerPropertiesEXT" ) ? std::set<size_t>() : determineVoidPointerParams( commandData.params );
std::set<size_t> singularParams = singular ? determineSingularParams( returnParams[0], vectorParams ) : std::set<size_t>();
std::pair<bool, std::map<size_t, std::vector<size_t>>> vectorSizeCheck =
needsVectorSizeCheck( commandData.params, vectorParams, returnParams, singularParams );
bool enumerating = determineEnumeration( vectorParams, returnParams );
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std::vector<std::string> dataTypes = determineDataTypes( commandData.params, vectorParams, returnParams, templatedParams, false );
std::string dataType = combineDataTypes( vectorParams, returnParams, singular, enumerating, dataTypes, unique, false );
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std::string argumentTemplates = generateArgumentTemplates( commandData.params, returnParams, vectorParams, templatedParams, chained, false );
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auto [allocatorTemplates, uniqueHandleAllocatorTemplates] =
generateAllocatorTemplates( returnParams, dataTypes, vectorParams, definition, singular, unique, chained );
std::string typenameCheck = generateTypenameCheck( returnParams, vectorParams, definition, dataTypes, singular, withAllocator, unique, chained );
std::string nodiscard = generateNoDiscard( !returnParams.empty(), 1 < commandData.successCodes.size(), 1 < commandData.errorCodes.size() );
std::string returnType = generateReturnType( commandData, returnParams, unique, chained, false, dataType );
std::string className = initialSkipCount ? stripPrefix( commandData.params[initialSkipCount - 1].type.type, "Vk" ) : "";
std::string classSeparator = commandData.handle.empty() ? "" : "::";
std::string commandName = generateCommandName( name, commandData.params, initialSkipCount, m_tags, singular, unique );
std::string argumentList = generateArgumentListEnhanced(
commandData.params, returnParams, vectorParams, skippedParams, singularParams, templatedParams, definition, withAllocator, chained, true );
std::string constString = commandData.handle.empty() ? "" : " const";
std::string noexceptString = generateNoExcept( commandData.errorCodes, returnParams, vectorParams, singular, vectorSizeCheck.first, false );
if ( definition )
{
std::string vectorSizeCheckString =
vectorSizeCheck.first ? generateVectorSizeCheck( name, commandData, initialSkipCount, vectorSizeCheck.second, skippedParams, false ) : "";
std::string returnVariable = generateReturnVariable( commandData, returnParams, vectorParams, chained, singular );
std::string dataDeclarations = generateDataDeclarations( commandData,
returnParams,
vectorParams,
templatedParams,
singular,
withAllocator,
chained,
unique,
false,
dataTypes,
dataType,
returnType,
returnVariable );
std::string dataPreparation = generateDataPreparation(
commandData, initialSkipCount, returnParams, vectorParams, templatedParams, singular, withAllocator, unique, chained, enumerating );
std::string dataSizeChecks = generateDataSizeChecks( commandData, returnParams, dataTypes, vectorParams, templatedParams, singular );
std::string callSequence =
generateCallSequence( name, commandData, returnParams, vectorParams, initialSkipCount, singularParams, templatedParams, chained, false );
std::string resultCheck = generateResultCheck( commandData, className, classSeparator, commandName, enumerating );
std::string returnStatement = generateReturnStatement( name,
commandData,
returnVariable,
returnType,
dataType,
initialSkipCount,
returnParams.empty() ? INVALID_INDEX : returnParams[0],
unique,
enumerating,
false );
std::string const functionTemplate =
R"( template <${argumentTemplates}${allocatorTemplates}typename Dispatch${uniqueHandleAllocatorTemplates}${typenameCheck}>
${nodiscard}VULKAN_HPP_INLINE ${returnType} ${className}${classSeparator}${commandName}( ${argumentList} )${const}${noexcept}
{
VULKAN_HPP_ASSERT( d.getVkHeaderVersion() == VK_HEADER_VERSION );
${vectorSizeCheck}
${dataSizeChecks}
${dataDeclarations}
${callSequence}
${resultCheck}
${dataPreparation}
${returnStatement}
})";
return replaceWithMap( functionTemplate,
{ { "allocatorTemplates", allocatorTemplates },
{ "argumentList", argumentList },
{ "argumentTemplates", argumentTemplates },
{ "callSequence", callSequence },
{ "className", className },
{ "classSeparator", classSeparator },
{ "commandName", commandName },
{ "const", constString },
{ "dataDeclarations", dataDeclarations },
{ "dataPreparation", dataPreparation },
{ "dataSizeChecks", dataSizeChecks },
{ "nodiscard", nodiscard },
{ "noexcept", noexceptString },
{ "resultCheck", resultCheck },
{ "returnStatement", returnStatement },
{ "returnType", returnType },
{ "typenameCheck", typenameCheck },
{ "uniqueHandleAllocatorTemplates", uniqueHandleAllocatorTemplates },
{ "vectorSizeCheck", vectorSizeCheckString } } );
}
else
{
std::string const functionTemplate =
R"( template <${argumentTemplates}${allocatorTemplates}typename Dispatch = VULKAN_HPP_DEFAULT_DISPATCHER_TYPE${uniqueHandleAllocatorTemplates}${typenameCheck}>
${nodiscard}${returnType} ${commandName}( ${argumentList} )${const}${noexcept};)";
return replaceWithMap( functionTemplate,
{ { "allocatorTemplates", allocatorTemplates },
{ "argumentList", argumentList },
{ "argumentTemplates", argumentTemplates },
{ "commandName", commandName },
{ "const", commandData.handle.empty() ? "" : " const" },
{ "nodiscard", nodiscard },
{ "noexcept", noexceptString },
{ "returnType", returnType },
{ "typenameCheck", typenameCheck },
{ "uniqueHandleAllocatorTemplates", uniqueHandleAllocatorTemplates } } );
}
}
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std::string VulkanHppGenerator::generateCommandName( std::string const & vulkanCommandName,
std::vector<ParamData> const & params,
size_t initialSkipCount,
std::set<std::string> const & tags,
bool singular,
bool unique ) const
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{
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std::string commandName( startLowerCase( stripPrefix( vulkanCommandName, "vk" ) ) );
for ( size_t i = initialSkipCount - 1; i < initialSkipCount; --i ) // count down to zero, then wrap around and stop
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{
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std::string const & argumentType = params[i].type.type;
std::string searchName = stripPrefix( argumentType, "Vk" );
std::string argumentTag = findTag( tags, argumentType );
if ( !argumentTag.empty() )
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{
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searchName = stripPostfix( searchName, argumentTag );
}
size_t pos = commandName.find( searchName );
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if ( pos == std::string::npos )
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{
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searchName = startLowerCase( searchName );
pos = commandName.find( searchName );
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}
if ( pos != std::string::npos )
{
size_t len = searchName.length();
if ( commandName.find( searchName + "s" ) == pos )
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{
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// filter out any plural of the searchName as well!
++len;
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}
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commandName.erase( pos, len );
}
else if ( ( searchName == "commandBuffer" ) && beginsWith( commandName, "cmd" ) )
{
commandName.erase( 0, 3 );
pos = 0;
}
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if ( pos == 0 )
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{
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commandName = startLowerCase( commandName );
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}
std::string commandTag = findTag( tags, commandName );
if ( !argumentTag.empty() && ( argumentTag == commandTag ) )
{
commandName = stripPostfix( commandName, argumentTag );
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}
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}
if ( singular )
{
commandName = stripPluralS( commandName );
}
if ( unique )
{
commandName += "Unique";
}
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return commandName;
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}
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std::string VulkanHppGenerator::generateCommandResultMultiSuccessNoErrors( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition ) const
{
std::vector<size_t> returnParams = determineReturnParams( commandData.params );
switch ( returnParams.size() )
{
case 0: return generateCommandResultMultiSuccessNoErrors0Return( name, commandData, initialSkipCount, definition ); break;
case 2: return generateCommandResultMultiSuccessNoErrors2Return( name, commandData, initialSkipCount, definition, returnParams ); break;
}
return "";
}
std::string VulkanHppGenerator::generateCommandResultMultiSuccessNoErrors0Return( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition ) const
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.empty() )
{
std::vector<size_t> constPointerParams = determineConstPointerParams( commandData.params );
if ( constPointerParams.empty() )
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{
return generateCommandSetStandardOrEnhanced(
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, {}, {}, false, false, false, false ) );
}
}
return "";
}
std::string VulkanHppGenerator::generateCommandResultMultiSuccessNoErrors2Return(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, std::vector<size_t> const & returnParams ) const
{
if ( ( commandData.successCodes.size() == 2 ) && ( commandData.successCodes[0] == "VK_SUCCESS" ) && ( commandData.successCodes[1] == "VK_INCOMPLETE" ) )
{
if ( ( commandData.params[returnParams[0]].type.type == "size_t" ) || ( commandData.params[returnParams[0]].type.type == "uint32_t" ) )
{
if ( ( commandData.params[returnParams[1]].type.type != "void" ) && !isHandleType( commandData.params[returnParams[1]].type.type ) &&
!isStructureChainAnchor( commandData.params[returnParams[1]].type.type ) )
2021-07-26 15:59:25 +00:00
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.size() == 1 )
{
if ( returnParams[0] == vectorParams.begin()->second )
{
if ( returnParams[1] == vectorParams.begin()->first )
{
return generateCommandSetStandardEnhancedWithAllocator(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, true, false, false ) );
}
}
}
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}
}
}
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return "";
2021-07-26 15:59:25 +00:00
}
2021-07-06 07:13:53 +00:00
2021-09-21 11:37:15 +00:00
std::string VulkanHppGenerator::generateCommandResultMultiSuccessWithErrors( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition ) const
2021-07-26 15:59:25 +00:00
{
std::vector<size_t> returnParams = determineReturnParams( commandData.params );
switch ( returnParams.size() )
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{
case 0: return generateCommandResultWithErrors0Return( name, commandData, initialSkipCount, definition ); break;
case 1: return generateCommandResultMultiSuccessWithErrors1Return( name, commandData, initialSkipCount, definition, returnParams[0] ); break;
case 2: return generateCommandResultMultiSuccessWithErrors2Return( name, commandData, initialSkipCount, definition, returnParams ); break;
case 3: return generateCommandResultMultiSuccessWithErrors3Return( name, commandData, initialSkipCount, definition, returnParams ); break;
2021-07-06 07:13:53 +00:00
}
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return "";
2021-07-06 07:13:53 +00:00
}
std::string VulkanHppGenerator::generateCommandResultMultiSuccessWithErrors1Return(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, size_t returnParam ) const
2021-09-08 08:15:49 +00:00
{
if ( commandData.params[returnParam].type.type == "void" )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.size() == 1 )
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{
if ( returnParam == vectorParams.begin()->first )
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{
if ( commandData.params[vectorParams.begin()->second].type.isValue() )
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{
return generateCommandSetStandardEnhancedSingular(
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definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, true, false, false, false ) );
2021-09-08 08:15:49 +00:00
}
}
}
}
else if ( isHandleType( commandData.params[returnParam].type.type ) )
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.size() == 2 )
2021-09-08 08:15:49 +00:00
{
if ( returnParam == std::next( vectorParams.begin() )->first )
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{
if ( vectorParams.begin()->second == std::next( vectorParams.begin() )->second )
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{
if ( commandData.params[vectorParams.begin()->second].type.type == "uint32_t" )
2021-09-08 08:15:49 +00:00
{
if ( isStructureChainAnchor( commandData.params[vectorParams.begin()->first].type.type ) )
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{
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return generateCommandSetStandardEnhancedWithAllocatorSingularUnique(
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definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, true, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, true, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, true ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, true, false, true ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, true, false, false, true ) );
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}
}
}
}
}
}
else if ( !isStructureChainAnchor( commandData.params[returnParam].type.type ) )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.empty() )
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{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ) );
2021-09-21 11:37:15 +00:00
}
}
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return "";
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}
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std::string VulkanHppGenerator::generateCommandResultMultiSuccessWithErrors2Return(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, std::vector<size_t> const & returnParams ) const
{
if ( ( commandData.successCodes.size() == 2 ) && ( commandData.successCodes[0] == "VK_SUCCESS" ) && ( commandData.successCodes[1] == "VK_INCOMPLETE" ) )
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{
if ( ( commandData.params[returnParams[0]].type.type == "size_t" ) || ( commandData.params[returnParams[0]].type.type == "uint32_t" ) )
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{
if ( isStructureChainAnchor( commandData.params[returnParams[1]].type.type ) )
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.size() == 1 )
{
if ( returnParams[0] == vectorParams.begin()->second )
{
if ( returnParams[1] == vectorParams.begin()->first )
{
return generateCommandSetStandardEnhancedWithAllocatorChained(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, true, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, true, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, true, true, false ) );
}
}
}
}
else
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.size() == 1 )
{
if ( returnParams[0] == vectorParams.begin()->second )
{
if ( returnParams[1] == vectorParams.begin()->first )
{
return generateCommandSetStandardEnhancedWithAllocator(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, true, false, false ) );
}
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}
}
}
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}
else if ( ( commandData.params[returnParams[0]].type.type != "void" ) && !isHandleType( commandData.params[returnParams[0]].type.type ) &&
!isStructureChainAnchor( commandData.params[returnParams[0]].type.type ) )
{
if ( ( commandData.params[returnParams[1]].type.type != "void" ) && !isHandleType( commandData.params[returnParams[1]].type.type ) &&
!isStructureChainAnchor( commandData.params[returnParams[1]].type.type ) )
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.empty() )
{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ) );
}
}
}
2021-09-21 11:37:15 +00:00
}
return "";
}
std::string VulkanHppGenerator::generateCommandResultMultiSuccessWithErrors3Return(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, std::vector<size_t> const & returnParams ) const
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{
if ( commandData.params[returnParams[0]].type.type == "uint32_t" )
2021-09-21 11:37:15 +00:00
{
if ( ( commandData.params[returnParams[1]].type.type != "void" ) && !isHandleType( commandData.params[returnParams[1]].type.type ) &&
!isStructureChainAnchor( commandData.params[returnParams[1]].type.type ) )
2021-09-21 11:37:15 +00:00
{
if ( ( commandData.params[returnParams[2]].type.type != "void" ) && !isHandleType( commandData.params[returnParams[2]].type.type ) &&
!isStructureChainAnchor( commandData.params[returnParams[2]].type.type ) )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.size() == 2 )
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{
if ( vectorParams.begin()->second == std::next( vectorParams.begin() )->second )
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{
if ( returnParams[0] == vectorParams.begin()->second )
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{
if ( returnParams[1] == vectorParams.begin()->first )
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{
if ( returnParams[2] == std::next( vectorParams.begin() )->first )
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{
return generateCommandSetStandardEnhancedWithAllocator(
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definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, true, false, false ) );
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}
}
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}
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}
}
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}
2021-07-06 07:13:53 +00:00
}
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}
return "";
}
2021-07-06 07:13:53 +00:00
2021-09-21 11:37:15 +00:00
std::string VulkanHppGenerator::generateCommandResultSingleSuccessNoErrors( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition ) const
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{
std::vector<size_t> returnParams = determineReturnParams( commandData.params );
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
switch ( returnParams.size() )
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{
case 0:
switch ( vectorParams.size() )
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{
case 0:
{
std::vector<size_t> constPointerParams = determineConstPointerParams( commandData.params );
if ( constPointerParams.empty() )
{
return generateCommandSetStandardOrEnhanced(
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, {}, {}, false, false, false, false ) );
}
}
break;
case 1:
if ( commandData.params[vectorParams.begin()->second].type.isValue() )
{
if ( isHandleType( commandData.params[vectorParams.begin()->first].type.type ) )
{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, {}, false, false, false, false ) );
}
}
break;
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}
break;
case 1:
if ( vectorParams.empty() )
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{
if ( ( commandData.params[returnParams[0]].type.type != "void" ) && !isHandleType( commandData.params[returnParams[0]].type.type ) &&
!isStructureChainAnchor( commandData.params[returnParams[0]].type.type ) )
2021-09-21 11:37:15 +00:00
{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ) );
2021-09-21 11:37:15 +00:00
}
}
break;
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}
return "";
}
2021-07-26 15:59:25 +00:00
2021-09-21 11:37:15 +00:00
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition ) const
2021-09-08 08:15:49 +00:00
{
std::vector<size_t> returnParams = determineReturnParams( commandData.params );
switch ( returnParams.size() )
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{
case 0: return generateCommandResultWithErrors0Return( name, commandData, initialSkipCount, definition ); break;
case 1: return generateCommandResultSingleSuccessWithErrors1Return( name, commandData, initialSkipCount, definition, returnParams[0] ); break;
case 2: return generateCommandResultSingleSuccessWithErrors2Return( name, commandData, initialSkipCount, definition, returnParams ); break;
2021-09-08 08:15:49 +00:00
}
return "";
}
2021-07-21 16:15:31 +00:00
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors1Return(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, size_t returnParam ) const
2021-09-21 11:37:15 +00:00
{
if ( commandData.params[returnParam].type.type == "void" )
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{
return generateCommandResultSingleSuccessWithErrors1ReturnVoid( name, commandData, initialSkipCount, definition, returnParam );
2021-09-21 11:37:15 +00:00
}
else if ( isHandleType( commandData.params[returnParam].type.type ) )
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{
return generateCommandResultSingleSuccessWithErrors1ReturnHandle( name, commandData, initialSkipCount, definition, returnParam );
2021-09-21 11:37:15 +00:00
}
else if ( isStructureChainAnchor( commandData.params[returnParam].type.type ) )
2021-09-21 11:37:15 +00:00
{
return generateCommandResultSingleSuccessWithErrors1ReturnChain( name, commandData, initialSkipCount, definition, returnParam );
2021-09-21 11:37:15 +00:00
}
else
{
return generateCommandResultSingleSuccessWithErrors1ReturnValue( name, commandData, initialSkipCount, definition, returnParam );
2021-09-21 11:37:15 +00:00
}
}
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors1ReturnChain(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, size_t returnParam ) const
2021-09-21 11:37:15 +00:00
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.empty() )
2021-09-21 11:37:15 +00:00
{
return generateCommandSetStandardEnhancedChained(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, true, false ) );
2021-09-21 11:37:15 +00:00
}
return "";
}
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors1ReturnHandle(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, size_t returnParam ) const
2021-09-21 11:37:15 +00:00
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
switch ( vectorParams.size() )
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{
case 0:
return generateCommandSetStandardEnhancedUnique(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, true ) );
2021-09-21 11:37:15 +00:00
break;
case 1:
return generateCommandResultSingleSuccessWithErrors1ReturnHandle1Vector(
name, commandData, initialSkipCount, definition, returnParam, *vectorParams.begin() );
2021-09-21 11:37:15 +00:00
break;
case 2:
return generateCommandResultSingleSuccessWithErrors1ReturnHandle2Vector( name, commandData, initialSkipCount, definition, returnParam, vectorParams );
2021-09-21 11:37:15 +00:00
break;
}
return "";
}
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors1ReturnHandle1Vector( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition,
size_t returnParam,
std::pair<size_t, size_t> const & vectorParamIndex ) const
2021-09-08 08:15:49 +00:00
{
if ( returnParam == vectorParamIndex.first )
2021-07-26 15:59:25 +00:00
{
if ( isLenByStructMember( commandData.params[vectorParamIndex.first].len, commandData.params[vectorParamIndex.second] ) )
2021-07-26 15:59:25 +00:00
{
2021-09-21 11:37:15 +00:00
return generateCommandSetStandardEnhancedWithAllocatorUnique(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, { vectorParamIndex }, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, { vectorParamIndex }, { returnParam }, false, true, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, { vectorParamIndex }, { returnParam }, false, false, false, true ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, { vectorParamIndex }, { returnParam }, false, true, false, true ) );
2021-07-06 07:13:53 +00:00
}
2021-07-21 16:15:31 +00:00
}
2021-09-21 11:37:15 +00:00
return "";
}
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors1ReturnHandle2Vector( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition,
size_t returnParam,
std::map<size_t, size_t> const & vectorParams ) const
2021-09-21 11:37:15 +00:00
{
if ( returnParam == std::next( vectorParams.begin() )->first )
2021-07-21 16:15:31 +00:00
{
if ( vectorParams.begin()->second == std::next( vectorParams.begin() )->second )
2021-09-08 08:15:49 +00:00
{
if ( commandData.params[vectorParams.begin()->second].type.isValue() )
2021-09-08 08:15:49 +00:00
{
if ( isStructureChainAnchor( commandData.params[vectorParams.begin()->first].type.type ) )
2021-09-08 08:15:49 +00:00
{
2021-09-21 11:37:15 +00:00
return generateCommandSetStandardEnhancedWithAllocatorSingularUnique(
2021-09-08 08:15:49 +00:00
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, true, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, true, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, true ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, true, false, true ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, true, false, false, true ) );
2021-09-08 08:15:49 +00:00
}
}
}
}
2021-09-08 08:15:49 +00:00
return "";
2021-07-06 07:13:53 +00:00
}
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors1ReturnValue(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, size_t returnParam ) const
2021-07-26 15:59:25 +00:00
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
switch ( vectorParams.size() )
2021-07-21 16:15:31 +00:00
{
case 0:
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ) );
case 2:
return generateCommandResultSingleSuccessWithErrors1ReturnValue2Vectors( name, commandData, initialSkipCount, definition, returnParam, vectorParams );
break;
}
return "";
}
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors1ReturnValue2Vectors( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition,
size_t returnParam,
std::map<size_t, size_t> const & vectorParams ) const
{
if ( returnParam == std::next( vectorParams.begin() )->first )
{
if ( vectorParams.begin()->second == std::next( vectorParams.begin() )->second )
{
if ( commandData.params[vectorParams.begin()->second].type.type == "uint32_t" )
{
if ( ( commandData.params[vectorParams.begin()->first].type.type != "void" ) &&
!isHandleType( commandData.params[vectorParams.begin()->first].type.type ) &&
!isStructureChainAnchor( commandData.params[vectorParams.begin()->first].type.type ) )
{
return generateCommandSetStandardEnhancedWithAllocatorSingular(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, true, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, true, false, false, false ) );
}
}
}
2021-09-21 11:37:15 +00:00
}
return "";
}
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors1ReturnVoid(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, size_t returnParam ) const
2021-09-21 11:37:15 +00:00
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
switch ( vectorParams.size() )
2021-09-21 11:37:15 +00:00
{
case 0:
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ) );
2021-09-21 11:37:15 +00:00
break;
case 1:
if ( returnParam == vectorParams.begin()->first )
2021-09-08 08:15:49 +00:00
{
if ( commandData.params[vectorParams.begin()->second].type.isValue() )
2021-09-08 08:15:49 +00:00
{
return generateCommandSetStandardEnhancedSingular(
2021-09-21 11:37:15 +00:00
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, true, false, false, false ) );
2021-09-21 11:37:15 +00:00
}
}
break;
case 2:
if ( returnParam == std::next( vectorParams.begin() )->first )
2021-09-21 11:37:15 +00:00
{
if ( vectorParams.begin()->second != std::next( vectorParams.begin() )->second )
2021-09-21 11:37:15 +00:00
{
if ( commandData.params[vectorParams.begin()->second].type.isValue() )
2021-09-08 08:15:49 +00:00
{
if ( isHandleType( commandData.params[vectorParams.begin()->first].type.type ) )
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{
if ( commandData.params[std::next( vectorParams.begin() )->second].type.isValue() )
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{
return generateCommandSetStandardEnhancedSingular(
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definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, true, false, false, false ) );
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}
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}
}
}
}
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break;
}
return "";
}
std::string VulkanHppGenerator::generateCommandResultSingleSuccessWithErrors2Return(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, std::vector<size_t> const & returnParams ) const
{
if ( ( commandData.params[returnParams[0]].type.type != "void" ) && !isHandleType( commandData.params[returnParams[0]].type.type ) &&
!isStructureChainAnchor( commandData.params[returnParams[0]].type.type ) )
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{
if ( ( commandData.params[returnParams[1]].type.type != "void" ) && !isHandleType( commandData.params[returnParams[1]].type.type ) &&
!isStructureChainAnchor( commandData.params[returnParams[1]].type.type ) )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.size() == 2 )
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{
if ( returnParams[0] == std::next( vectorParams.begin() )->first )
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{
if ( vectorParams.find( returnParams[1] ) == vectorParams.end() )
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{
assert( ( returnParams[1] != vectorParams.begin()->second ) && ( returnParams[1] != std::next( vectorParams.begin() )->second ) );
if ( vectorParams.begin()->second == std::next( vectorParams.begin() )->second )
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{
if ( commandData.params[vectorParams.begin()->second].type.isValue() )
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{
if ( ( commandData.params[vectorParams.begin()->first].type.type != "void" ) &&
!isHandleType( commandData.params[vectorParams.begin()->first].type.type ) &&
!isStructureChainAnchor( commandData.params[vectorParams.begin()->first].type.type ) )
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{
return generateCommandSetStandardEnhancedWithAllocatorSingular(
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definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, true, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, true, false, false, false ) );
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}
}
}
}
}
}
}
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}
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return "";
}
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std::string VulkanHppGenerator::generateCommandResultWithErrors0Return( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
bool definition ) const
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.empty() && determineConstPointerParams( commandData.params ).empty() )
{
return generateCommandSetStandardOrEnhanced(
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, {}, false, false, false, false ) );
}
else if ( allVectorSizesSupported( commandData.params, vectorParams ) )
{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, {}, false, false, false, false ) );
}
return "";
}
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std::string VulkanHppGenerator::generateCommandSetStandard( std::string const & standard ) const
{
const std::string commandTemplate = R"(
${commandStandard}
)";
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return replaceWithMap( commandTemplate, std::map<std::string, std::string>( { { "commandStandard", standard } } ) );
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}
std::string VulkanHppGenerator::generateCommandSetStandardEnhanced( bool definition, std::string const & standard, std::string const & enhanced ) const
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{
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const std::string commandTemplate = R"(
${commandStandard}${newlineOnDefinition}
#ifndef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandEnhanced}
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
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return replaceWithMap( commandTemplate,
std::map<std::string, std::string>(
{ { "commandEnhanced", enhanced }, { "commandStandard", standard }, { "newlineOnDefinition", definition ? "\n" : "" } } ) );
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}
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std::string VulkanHppGenerator::generateCommandSetStandardEnhancedChained( bool definition,
std::string const & standard,
std::string const & enhanced,
std::string const & enhancedChained ) const
{
std::string const commandTemplate = R"(
${commandStandard}${newlineOnDefinition}
#ifndef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandEnhanced}${newlineOnDefinition}
${commandEnhancedChained}
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
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return replaceWithMap( commandTemplate,
std::map<std::string, std::string>( { { "commandEnhanced", enhanced },
{ "commandEnhancedChained", enhancedChained },
{ "commandStandard", standard },
{ "newlineOnDefinition", definition ? "\n" : "" } } ) );
}
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std::string VulkanHppGenerator::generateCommandSetStandardEnhancedSingular( bool definition,
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std::string const & standard,
std::string const & enhanced,
std::string const & enhancedSingular ) const
{
std::string const commandTemplate = R"(
${commandStandard}${newlineOnDefinition}
#ifndef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandEnhanced}${newlineOnDefinition}
${commandEnhancedSingular}
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
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return replaceWithMap( commandTemplate,
std::map<std::string, std::string>( { { "commandEnhanced", enhanced },
{ "commandEnhancedSingular", enhancedSingular },
{ "commandStandard", standard },
{ "newlineOnDefinition", definition ? "\n" : "" } } ) );
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}
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std::string VulkanHppGenerator::generateCommandSetStandardEnhancedUnique( bool definition,
std::string const & standard,
std::string const & enhanced,
std::string const & enhancedUnique ) const
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{
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std::string const commandTemplate = R"(
${commandStandard}${newlineOnDefinition}
#ifndef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandEnhanced}${newlineOnDefinition}
# ifndef VULKAN_HPP_NO_SMART_HANDLE
${commandEnhancedUnique}
# endif /*VULKAN_HPP_NO_SMART_HANDLE*/
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
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return replaceWithMap( commandTemplate,
std::map<std::string, std::string>( { { "commandEnhanced", enhanced },
{ "commandEnhancedUnique", enhancedUnique },
{ "commandStandard", standard },
{ "newlineOnDefinition", definition ? "\n" : "" } } ) );
}
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std::string VulkanHppGenerator::generateCommandSetStandardEnhancedWithAllocator( bool definition,
std::string const & standard,
std::string const & enhanced,
std::string const & enhancedWithAllocator ) const
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{
const std::string commandTemplate = R"(
${commandStandard}${newlineOnDefinition}
#ifndef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandEnhanced}${newlineOnDefinition}
${commandEnhancedWithAllocator}
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
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return replaceWithMap( commandTemplate,
std::map<std::string, std::string>( { { "commandEnhanced", enhanced },
{ "commandEnhancedWithAllocator", enhancedWithAllocator },
{ "commandStandard", standard },
{ "newlineOnDefinition", definition ? "\n" : "" } } ) );
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}
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std::string VulkanHppGenerator::generateCommandSetStandardEnhancedWithAllocatorChained( bool definition,
std::string const & standard,
std::string const & enhanced,
std::string const & enhancedWithAllocator,
std::string const & enhancedChained,
std::string const & enhancedChainedWithAllocator ) const
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{
std::string const commandTemplate = R"(
${commandStandard}${newlineOnDefinition}
#ifndef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandEnhanced}${newlineOnDefinition}
${commandEnhancedWithAllocator}${newlineOnDefinition}
${commandEnhancedChained}${newlineOnDefinition}
${commandEnhancedChainedWithAllocator}
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
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return replaceWithMap( commandTemplate,
std::map<std::string, std::string>( { { "commandEnhanced", enhanced },
{ "commandEnhancedChained", enhancedChained },
{ "commandEnhancedChainedWithAllocator", enhancedChainedWithAllocator },
{ "commandEnhancedWithAllocator", enhancedWithAllocator },
{ "commandStandard", standard },
{ "newlineOnDefinition", definition ? "\n" : "" } } ) );
}
std::string VulkanHppGenerator::generateCommandSetStandardEnhancedWithAllocatorSingular( bool definition,
std::string const & standard,
std::string const & enhanced,
std::string const & enhancedWithAllocator,
std::string const & enhancedSingular ) const
{
std::string const commandTemplate = R"(
${commandStandard}${newlineOnDefinition}
#ifndef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandEnhanced}${newlineOnDefinition}
${commandEnhancedWithAllocator}${newlineOnDefinition}
${commandEnhancedSingular}
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
return replaceWithMap( commandTemplate,
std::map<std::string, std::string>( { { "commandEnhanced", enhanced },
{ "commandEnhancedSingular", enhancedSingular },
{ "commandEnhancedWithAllocator", enhancedWithAllocator },
{ "commandStandard", standard },
{ "newlineOnDefinition", definition ? "\n" : "" } } ) );
}
std::string VulkanHppGenerator::generateCommandSetStandardEnhancedWithAllocatorSingularUnique( bool definition,
std::string const & standard,
std::string const & enhanced,
std::string const & enhancedWithAllocator,
std::string const & enhancedSingular,
std::string const & enhancedUnique,
std::string const & enhancedUniqueWithAllocator,
std::string const & enhancedUniqueSingular ) const
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{
std::string const commandTemplate = R"(
${commandStandard}${newlineOnDefinition}
#ifndef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandEnhanced}${newlineOnDefinition}
${commandEnhancedWithAllocator}${newlineOnDefinition}
${commandEnhancedSingular}${newlineOnDefinition}
# ifndef VULKAN_HPP_NO_SMART_HANDLE
${commandEnhancedUnique}${newlineOnDefinition}
${commandEnhancedUniqueWithAllocator}${newlineOnDefinition}
${commandEnhancedUniqueSingular}
# endif /*VULKAN_HPP_NO_SMART_HANDLE*/
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
return replaceWithMap( commandTemplate,
std::map<std::string, std::string>( { { "commandEnhanced", enhanced },
{ "commandEnhancedSingular", enhancedSingular },
{ "commandEnhancedUnique", enhancedUnique },
{ "commandEnhancedUniqueSingular", enhancedUniqueSingular },
{ "commandEnhancedUniqueWithAllocator", enhancedUniqueWithAllocator },
{ "commandEnhancedWithAllocator", enhancedWithAllocator },
{ "commandStandard", standard },
{ "newlineOnDefinition", definition ? "\n" : "" } } ) );
}
std::string VulkanHppGenerator::generateCommandSetStandardEnhancedWithAllocatorUnique( bool definition,
std::string const & standard,
std::string const & enhanced,
std::string const & enhancedWithAllocator,
std::string const & enhancedUnique,
std::string const & enhancedUniqueWithAllocator ) const
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{
std::string const commandTemplate = R"(
${commandStandard}${newlineOnDefinition}
#ifndef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandEnhanced}${newlineOnDefinition}
${commandEnhancedWithAllocator}${newlineOnDefinition}
# ifndef VULKAN_HPP_NO_SMART_HANDLE
${commandEnhancedUnique}${newlineOnDefinition}
${commandEnhancedUniqueWithAllocator}
# endif /*VULKAN_HPP_NO_SMART_HANDLE*/
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
return replaceWithMap( commandTemplate,
std::map<std::string, std::string>( { { "commandEnhanced", enhanced },
{ "commandEnhancedUnique", enhancedUnique },
{ "commandEnhancedUniqueWithAllocator", enhancedUniqueWithAllocator },
{ "commandEnhancedWithAllocator", enhancedWithAllocator },
{ "commandStandard", standard },
{ "newlineOnDefinition", definition ? "\n" : "" } } ) );
}
std::string VulkanHppGenerator::generateCommandSetStandardOrEnhanced( std::string const & standard, std::string const & enhanced ) const
{
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const std::string commandTemplate = R"(
#ifdef VULKAN_HPP_DISABLE_ENHANCED_MODE
${commandStandard}
#else
${commandEnhanced}
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
return replaceWithMap( commandTemplate, std::map<std::string, std::string>( { { "commandEnhanced", enhanced }, { "commandStandard", standard } } ) );
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}
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std::string
VulkanHppGenerator::generateCommandStandard( std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition ) const
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{
std::set<size_t> skippedParams = determineSkippedParams( commandData.params, initialSkipCount, {}, {}, false );
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std::string argumentList = generateArgumentListStandard( commandData.params, skippedParams );
std::string commandName = generateCommandName( name, commandData.params, initialSkipCount, m_tags, false, false );
std::string nodiscard = ( 1 < commandData.successCodes.size() + commandData.errorCodes.size() ) ? "VULKAN_HPP_NODISCARD " : "";
std::string returnType = stripPrefix( commandData.returnType, "Vk" );
if ( definition )
{
std::string functionBody = "d." + name + "( " + generateCallArgumentsStandard( commandData.handle, commandData.params ) + " )";
if ( beginsWith( commandData.returnType, "Vk" ) )
{
functionBody = "return static_cast<" + returnType + ">( " + functionBody + " )";
}
else if ( commandData.returnType != "void" )
{
functionBody = "return " + functionBody;
}
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std::string const functionTemplate =
R"( template <typename Dispatch>
${nodiscard}VULKAN_HPP_INLINE ${returnType} ${className}${classSeparator}${commandName}( ${argumentList} )${const} VULKAN_HPP_NOEXCEPT
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{
VULKAN_HPP_ASSERT( d.getVkHeaderVersion() == VK_HEADER_VERSION );
${functionBody};
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})";
return replaceWithMap( functionTemplate,
{ { "argumentList", argumentList },
{ "className", initialSkipCount ? stripPrefix( commandData.params[initialSkipCount - 1].type.type, "Vk" ) : "" },
{ "classSeparator", commandData.handle.empty() ? "" : "::" },
{ "commandName", commandName },
{ "const", commandData.handle.empty() ? "" : " const" },
{ "functionBody", functionBody },
{ "nodiscard", nodiscard },
{ "returnType", returnType } } );
}
else
{
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std::string const functionTemplate =
R"( template <typename Dispatch = VULKAN_HPP_DEFAULT_DISPATCHER_TYPE>
${nodiscard}${returnType} ${commandName}( ${argumentList} VULKAN_HPP_DEFAULT_DISPATCHER_ASSIGNMENT )${const} VULKAN_HPP_NOEXCEPT;)";
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return replaceWithMap( functionTemplate,
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{ { "argumentList", argumentList },
{ "commandName", commandName },
{ "const", commandData.handle.empty() ? "" : " const" },
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{ "nodiscard", nodiscard },
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{ "returnType", returnType } } );
}
}
std::string
VulkanHppGenerator::generateCommandValue( std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition ) const
2021-09-21 11:37:15 +00:00
{
std::vector<size_t> returnParams = determineReturnParams( commandData.params );
if ( returnParams.empty() )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.empty() )
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{
if ( determineConstPointerParams( commandData.params ).empty() )
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{
return generateCommandSetStandard( generateCommandStandard( name, commandData, initialSkipCount, definition ) );
}
else
{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ) );
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}
}
}
return "";
}
std::string
VulkanHppGenerator::generateCommandVoid0Return( std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition ) const
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.empty() && determineConstPointerParams( commandData.params ).empty() )
{
return generateCommandSetStandard( generateCommandStandard( name, commandData, initialSkipCount, definition ) );
}
else if ( allVectorSizesSupported( commandData.params, vectorParams ) )
{
// All the vectorParams have a counter by value, of type "uint32_t", "VkDeviceSize", or "VkSampleCountFlagBits" (!)
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, {}, false, false, false, false ) );
}
return "";
}
std::string VulkanHppGenerator::generateCommandVoid1Return(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, size_t returnParam ) const
2021-09-21 11:37:15 +00:00
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( commandData.params[returnParam].type.postfix == "**" )
{
// get a pointer to something
if ( commandData.params[returnParam].type.type == "void" )
{
if ( vectorParams.empty() )
{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, {}, { returnParam }, false, false, false, false ) );
}
}
}
else if ( isHandleType( commandData.params[returnParam].type.type ) )
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{
if ( vectorParams.empty() )
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{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, {}, { returnParam }, false, false, false, false ) );
2021-09-21 11:37:15 +00:00
}
}
else if ( isStructureChainAnchor( commandData.params[returnParam].type.type ) )
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{
if ( vectorParams.empty() )
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{
return generateCommandSetStandardEnhancedChained(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, {}, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, {}, { returnParam }, false, false, true, false ) );
2021-09-21 11:37:15 +00:00
}
}
else if ( commandData.params[returnParam].type.type == "void" )
{
if ( vectorParams.size() == 1 )
{
if ( returnParam == vectorParams.begin()->first )
{
if ( name == stripPluralS( name ) )
{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, true, false, false, false ) );
}
}
}
}
else
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{
switch ( vectorParams.size() )
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{
case 0:
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, {}, { returnParam }, false, false, false, false ) );
2021-09-21 11:37:15 +00:00
break;
case 1:
if ( returnParam == vectorParams.begin()->first )
{
// you get a vector of stuff, with the size being one of the parameters
return generateCommandSetStandardEnhancedWithAllocator(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, true, false, false ) );
}
else
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{
if ( !isHandleType( commandData.params[vectorParams.begin()->first].type.type ) &&
!isStructureChainAnchor( commandData.params[vectorParams.begin()->first].type.type ) &&
( commandData.params[vectorParams.begin()->first].type.type != "void" ) )
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{
if ( isLenByStructMember( commandData.params[vectorParams.begin()->first].len, commandData.params[vectorParams.begin()->second] ) )
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{
return generateCommandSetStandardEnhanced(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, { returnParam }, false, false, false, false ) );
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}
}
}
break;
}
}
return "";
}
std::string VulkanHppGenerator::generateCommandVoid2Return(
std::string const & name, CommandData const & commandData, size_t initialSkipCount, bool definition, std::vector<size_t> const & returnParams ) const
2021-09-21 11:37:15 +00:00
{
if ( commandData.params[returnParams[0]].type.type == "uint32_t" )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandData.params );
if ( vectorParams.size() == 1 )
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{
if ( returnParams[0] == vectorParams.begin()->second )
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{
if ( returnParams[1] == vectorParams.begin()->first )
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{
if ( isStructureChainAnchor( commandData.params[returnParams[1]].type.type ) )
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{
return generateCommandSetStandardEnhancedWithAllocatorChained(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, true, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, true, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, true, true, false ) );
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}
else if ( !isHandleType( commandData.params[returnParams[1]].type.type ) )
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{
return generateCommandSetStandardEnhancedWithAllocator(
definition,
generateCommandStandard( name, commandData, initialSkipCount, definition ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, false, false, false ),
generateCommandEnhanced( name, commandData, initialSkipCount, definition, vectorParams, returnParams, false, true, false, false ) );
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}
}
}
}
}
return "";
}
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std::string VulkanHppGenerator::generateConstexprString( std::string const & structName ) const
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{
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// structs with a VkBaseInStructure and VkBaseOutStructure can't be a constexpr!
bool isConstExpression = ( structName != "VkBaseInStructure" ) && ( structName != "VkBaseOutStructure" );
return isConstExpression ? ( std::string( "VULKAN_HPP_CONSTEXPR" ) + ( ( containsUnion( structName ) || containsArray( structName ) ) ? "_14 " : " " ) ) : "";
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}
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std::string VulkanHppGenerator::generateDataDeclarations( CommandData const & commandData,
std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
std::set<size_t> const & templatedParams,
bool singular,
bool withAllocator,
bool chained,
bool unique,
bool raii,
std::vector<std::string> const & dataTypes,
std::string const & dataType,
std::string const & returnType,
std::string const & returnVariable ) const
{
assert( dataTypes.size() == returnParams.size() );
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std::string dataDeclarations;
switch ( returnParams.size() )
{
case 0: break;
case 1:
{
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auto vectorParamIt = vectorParams.find( returnParams[0] );
if ( !chained )
{
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if ( ( vectorParamIt == vectorParams.end() ) || singular )
{
std::string const dataDeclarationsTemplate = R"(${returnType} ${returnVariable};)";
dataDeclarations = replaceWithMap( dataDeclarationsTemplate, { { "returnType", dataType }, { "returnVariable", returnVariable } } );
}
else
{
std::string allocator = stripPrefix( dataTypes[0], "VULKAN_HPP_NAMESPACE::" ) + "Allocator";
std::string vectorAllocator = ( withAllocator && !unique ) ? ( ", " + startLowerCase( allocator ) ) : "";
std::string vectorSize = getVectorSize( commandData.params, vectorParams, returnParams[0], dataTypes[0], templatedParams );
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std::string const dataDeclarationsTemplate = R"(${dataType} ${returnVariable}( ${vectorSize}${vectorAllocator} );)";
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dataDeclarations = replaceWithMap(
dataDeclarationsTemplate,
{ { "dataType", dataType }, { "returnVariable", returnVariable }, { "vectorAllocator", vectorAllocator }, { "vectorSize", vectorSize } } );
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}
}
else
{
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assert( ( vectorParamIt == vectorParams.end() ) || singular );
std::string dataVariable = startLowerCase( stripPrefix( commandData.params[returnParams[0]].name, "p" ) );
std::string const dataDeclarationsTemplate = R"(${returnType} ${returnVariable};
${dataType} & ${dataVariable} = ${returnVariable}.template get<${dataType}>();)";
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dataDeclarations = replaceWithMap( dataDeclarationsTemplate,
{ { "dataType", dataTypes[0] },
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{ "dataVariable", dataVariable },
{ "returnType", ( commandData.returnType == "void" ) ? returnType : "StructureChain<X, Y, Z...>" },
{ "returnVariable", returnVariable } } );
}
}
break;
case 2:
{
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if ( vectorParams.size() == 1 )
{
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assert( ( returnParams[0] == vectorParams.begin()->second ) && ( returnParams[1] == vectorParams.begin()->first ) && !singular && !unique );
std::string counterVariable = startLowerCase( stripPrefix( commandData.params[returnParams[0]].name, "p" ) );
if ( !chained )
{
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std::string vectorAllocator =
withAllocator ? ( "( " + startLowerCase( stripPrefix( dataTypes[1], "VULKAN_HPP_NAMESPACE::" ) ) + "Allocator )" ) : "";
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std::string const dataDeclarationTemplate = R"(${returnType} ${returnVariable}${vectorAllocator};
${counterType} ${counterVariable};)";
dataDeclarations = replaceWithMap( dataDeclarationTemplate,
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{ { "counterType", dataTypes[0] },
{ "counterVariable", counterVariable },
{ "returnType", dataType },
{ "returnVariable", returnVariable },
{ "vectorAllocator", vectorAllocator } } );
}
else
{
std::string structureChainAllocator = raii ? "" : ", StructureChainAllocator";
std::string structureChainInitializer = withAllocator ? ( "( structureChainAllocator )" ) : "";
std::string vectorVariable = startLowerCase( stripPrefix( commandData.params[returnParams[1]].name, "p" ) );
std::string const dataDeclarationTemplate = R"(std::vector<StructureChain${structureChainAllocator}> structureChains${structureChainInitializer};
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std::vector<${vectorElementType}> ${vectorVariable};
${counterType} ${counterVariable};)";
dataDeclarations = replaceWithMap( dataDeclarationTemplate,
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{
{ "counterType", dataTypes[0] },
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{ "counterVariable", counterVariable },
{ "structureChainAllocator", structureChainAllocator },
{ "structureChainInitializer", structureChainInitializer },
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{ "vectorElementType", dataTypes[1] },
{ "vectorVariable", vectorVariable },
} );
}
}
else
{
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assert( ( vectorParams.size() == 2 ) && ( returnParams[0] == std::next( vectorParams.begin() )->first ) &&
( vectorParams.find( returnParams[1] ) == vectorParams.end() ) && !chained && !unique );
std::string firstDataVariable = startLowerCase( stripPrefix( commandData.params[returnParams[0]].name, "p" ) );
std::string secondDataVariable = startLowerCase( stripPrefix( commandData.params[returnParams[1]].name, "p" ) );
if ( singular )
{
firstDataVariable = stripPluralS( firstDataVariable );
std::string const dataDeclarationTemplate = R"(std::pair<${firstDataType},${secondDataType}> data;
${firstDataType} & ${firstDataVariable} = data.first;
${secondDataType} & ${secondDataVariable} = data.second;)";
dataDeclarations = replaceWithMap( dataDeclarationTemplate,
{ { "firstDataType", dataTypes[0] },
{ "firstDataVariable", firstDataVariable },
{ "secondDataType", dataTypes[1] },
{ "secondDataVariable", secondDataVariable } } );
}
else
{
std::string allocatorType = raii ? "" : ( startUpperCase( stripPrefix( dataTypes[0], "VULKAN_HPP_NAMESPACE::" ) ) + "Allocator" );
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std::string allocateInitializer = withAllocator ? ( ", " + startLowerCase( allocatorType ) ) : "";
if ( !raii )
{
allocatorType = ", " + allocatorType;
}
std::string vectorSize = startLowerCase( stripPrefix( commandData.params[vectorParams.begin()->first].name, "p" ) ) + ".size()";
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std::string const dataDeclarationTemplate =
R"(std::pair<std::vector<${firstDataType}${allocatorType}>,${secondDataType}> data( std::piecewise_construct, std::forward_as_tuple( ${vectorSize}${allocateInitializer} ), std::forward_as_tuple( 0 ) );
std::vector<${firstDataType}${allocatorType}> & ${firstDataVariable} = data.first;
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${secondDataType} & ${secondDataVariable} = data.second;)";
dataDeclarations = replaceWithMap( dataDeclarationTemplate,
{ { "allocateInitializer", allocateInitializer },
{ "allocatorType", allocatorType },
{ "firstDataType", dataTypes[0] },
{ "firstDataVariable", firstDataVariable },
{ "secondDataType", dataTypes[1] },
{ "secondDataVariable", secondDataVariable },
{ "vectorSize", vectorSize } } );
}
}
}
break;
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case 3:
{
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assert( ( vectorParams.size() == 2 ) && ( returnParams[0] == vectorParams.begin()->second ) && ( returnParams[1] == vectorParams.begin()->first ) &&
( returnParams[2] == std::next( vectorParams.begin() )->first ) && ( returnParams[0] == std::next( vectorParams.begin() )->second ) &&
templatedParams.empty() && !singular && !chained && !unique );
std::string counterVariable = startLowerCase( stripPrefix( commandData.params[returnParams[0]].name, "p" ) );
std::string firstVectorVariable = startLowerCase( stripPrefix( commandData.params[returnParams[1]].name, "p" ) );
std::string secondVectorVariable = startLowerCase( stripPrefix( commandData.params[returnParams[2]].name, "p" ) );
std::string firstVectorAllocatorType, secondVectorAllocatorType, pairConstructor;
if ( !raii )
{
firstVectorAllocatorType = startUpperCase( stripPrefix( dataTypes[1], "VULKAN_HPP_NAMESPACE::" ) ) + "Allocator";
secondVectorAllocatorType = startUpperCase( stripPrefix( dataTypes[2], "VULKAN_HPP_NAMESPACE::" ) ) + "Allocator";
pairConstructor = withAllocator ? ( "( std::piecewise_construct, std::forward_as_tuple( " + startLowerCase( firstVectorAllocatorType ) +
" ), std::forward_as_tuple( " + startLowerCase( secondVectorAllocatorType ) + " ) )" )
: "";
firstVectorAllocatorType = ", " + firstVectorAllocatorType;
secondVectorAllocatorType = ", " + secondVectorAllocatorType;
}
std::string const dataDeclarationsTemplate =
R"(std::pair<std::vector<${firstVectorElementType}${firstVectorAllocatorType}>, std::vector<${secondVectorElementType}${secondVectorAllocatorType}>> data${pairConstructor};
std::vector<${firstVectorElementType}${firstVectorAllocatorType}> & ${firstVectorVariable} = data.first;
std::vector<${secondVectorElementType}${secondVectorAllocatorType}> & ${secondVectorVariable} = data.second;
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${counterType} ${counterVariable};)";
dataDeclarations = replaceWithMap( dataDeclarationsTemplate,
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{ { "counterType", dataTypes[0] },
{ "counterVariable", counterVariable },
{ "firstVectorAllocatorType", firstVectorAllocatorType },
{ "firstVectorElementType", dataTypes[1] },
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{ "firstVectorVariable", firstVectorVariable },
{ "pairConstructor", pairConstructor },
{ "secondVectorAllocatorType", secondVectorAllocatorType },
{ "secondVectorElementType", dataTypes[2] },
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{ "secondVectorVariable", secondVectorVariable } } );
}
break;
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default: assert( false ); break;
}
return dataDeclarations;
}
std::string VulkanHppGenerator::generateDataPreparation( CommandData const & commandData,
size_t initialSkipCount,
std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
std::set<size_t> const & templatedParams,
bool singular,
bool withAllocator,
bool unique,
bool chained,
bool enumerating ) const
{
auto vectorParamIt = ( 1 < returnParams.size() ) ? vectorParams.find( returnParams[1] ) : vectorParams.end();
if ( vectorParamIt != vectorParams.end() )
{
assert( !unique );
std::string vectorName = startLowerCase( stripPrefix( commandData.params[vectorParamIt->first].name, "p" ) );
if ( chained )
{
assert( !singular );
assert( templatedParams.empty() );
assert( returnParams.size() == 2 );
assert( vectorParams.find( returnParams[0] ) == vectorParams.end() );
assert( ( vectorParamIt != vectorParams.end() ) && ( vectorParamIt->second == returnParams[0] ) );
std::string vectorElementType = stripPostfix( commandData.params[vectorParamIt->first].type.compose( "VULKAN_HPP_NAMESPACE" ), " *" );
if ( enumerating )
{
std::string const dataPreparationTemplate =
R"(VULKAN_HPP_ASSERT( ${counterName} <= ${vectorName}.size() );
if ( ${counterName} < ${vectorName}.size() )
{
structureChains.resize( ${counterName} );
}
for ( ${counterType} i = 0; i < ${counterName}; i++ )
{
structureChains[i].template get<${vectorElementType}>() = ${vectorName}[i];
})";
return replaceWithMap( dataPreparationTemplate,
{ { "counterName", startLowerCase( stripPrefix( commandData.params[vectorParamIt->second].name, "p" ) ) },
{ "counterType", commandData.params[vectorParamIt->second].type.type },
{ "vectorElementType", vectorElementType },
{ "vectorName", vectorName } } );
}
else
{
std::string const dataPreparationTemplate =
R"(for ( ${counterType} i = 0; i < ${counterName}; i++ )
{
structureChains[i].template get<${vectorElementType}>() = ${vectorName}[i];
})";
return replaceWithMap( dataPreparationTemplate,
{ { "counterName", startLowerCase( stripPrefix( commandData.params[vectorParamIt->second].name, "p" ) ) },
{ "counterType", commandData.params[vectorParamIt->second].type.type },
{ "vectorElementType", vectorElementType },
{ "vectorName", vectorName } } );
}
}
else if ( enumerating )
{
assert( !singular );
assert( ( vectorParams.size() != 2 ) ||
( ( vectorParams.begin()->first == returnParams[1] ) && ( vectorParams.begin()->second == returnParams[0] ) &&
( std::next( vectorParams.begin() )->first == returnParams[2] ) && ( std::next( vectorParams.begin() )->second == returnParams[0] ) ) );
std::string resizes;
for ( auto const & vp : vectorParams )
{
assert( ( std::find( returnParams.begin(), returnParams.end(), vp.first ) != returnParams.end() ) &&
( std::find( returnParams.begin(), returnParams.end(), vp.second ) != returnParams.end() ) );
resizes += startLowerCase( stripPrefix( commandData.params[vp.first].name, "p" ) ) + ".resize( " +
startLowerCase( stripPrefix( commandData.params[vp.second].name, "p" ) ) + " );\n";
}
resizes.pop_back();
std::string const dataPreparationTemplate =
R"(VULKAN_HPP_ASSERT( ${counterName} <= ${vectorName}.size() );
if ( ${counterName} < ${vectorName}.size() )
{
${resizes}
})";
return replaceWithMap( dataPreparationTemplate,
{ { "counterName", startLowerCase( stripPrefix( commandData.params[vectorParamIt->second].name, "p" ) ) },
{ "resizes", resizes },
{ "vectorName", vectorName } } );
}
}
else if ( unique && !singular && ( returnParams.size() == 1 ) && ( vectorParams.find( returnParams[0] ) != vectorParams.end() ) )
{
assert( !enumerating );
std::string className = initialSkipCount ? stripPrefix( commandData.params[initialSkipCount - 1].type.type, "Vk" ) : "";
std::string deleterDefinition;
std::vector<std::string> lenParts = tokenize( commandData.params[returnParams[0]].len, "->" );
switch ( lenParts.size() )
{
case 1: deleterDefinition = "ObjectDestroy<" + className + ", Dispatch> deleter( *this, allocator, d )"; break;
case 2:
{
auto vpiIt = vectorParams.find( returnParams[0] );
assert( vpiIt != vectorParams.end() );
std::string poolType, poolName;
std::tie( poolType, poolName ) = getPoolTypeAndName( commandData.params[vpiIt->second].type.type );
assert( !poolType.empty() );
poolType = stripPrefix( poolType, "Vk" );
poolName = startLowerCase( stripPrefix( lenParts[0], "p" ) ) + "." + poolName;
deleterDefinition = "PoolFree<" + className + ", " + poolType + ", Dispatch> deleter( *this, " + poolName + ", d )";
}
break;
}
std::string handleType = stripPrefix( commandData.params[returnParams[0]].type.type, "Vk" );
std::string uniqueVectorName = "unique" + stripPrefix( commandData.params[returnParams[0]].name, "p" );
std::string vectorAllocator = withAllocator ? ( "( " + startLowerCase( handleType ) + "Allocator )" ) : "";
std::string vectorName = startLowerCase( stripPrefix( commandData.params[returnParams[0]].name, "p" ) );
std::string elementName = stripPluralS( vectorName );
std::string vectorSize = getVectorSize( commandData.params, vectorParams, returnParams[0], commandData.params[returnParams[0]].type.type, templatedParams );
std::string const dataPreparationTemplate =
R"(std::vector<UniqueHandle<VULKAN_HPP_NAMESPACE::${handleType}, Dispatch>, ${handleType}Allocator> ${uniqueVectorName}${vectorAllocator};
${uniqueVectorName}.reserve( ${vectorSize} );
${deleterDefinition};
for ( auto const & ${elementName} : ${vectorName} )
{
${uniqueVectorName}.push_back( UniqueHandle<${handleType}, Dispatch>( ${elementName}, deleter ) );
})";
return replaceWithMap( dataPreparationTemplate,
{ { "elementName", elementName },
{ "deleterDefinition", deleterDefinition },
{ "handleType", handleType },
{ "uniqueVectorName", uniqueVectorName },
{ "vectorAllocator", vectorAllocator },
{ "vectorName", vectorName },
{ "vectorSize", vectorSize } } );
}
return "";
}
std::string VulkanHppGenerator::generateDataSizeChecks( CommandData const & commandData,
std::vector<size_t> const & returnParams,
std::vector<std::string> const & returnParamTypes,
std::map<size_t, size_t> const & vectorParams,
std::set<size_t> const & templatedParams,
bool singular ) const
{
assert( returnParams.size() == returnParamTypes.size() );
std::string dataSizeChecks;
if ( !singular )
{
const std::string dataSizeCheckTemplate = R"( VULKAN_HPP_ASSERT( ${dataSize} % sizeof( ${dataType} ) == 0 );)";
for ( size_t i = 0; i < returnParams.size(); i++ )
{
auto vectorParamIt = vectorParams.find( returnParams[i] );
if ( ( vectorParamIt != vectorParams.end() ) && ( templatedParams.find( returnParams[i] ) != templatedParams.end() ) &&
( std::find( returnParams.begin(), returnParams.end(), vectorParamIt->second ) == returnParams.end() ) )
{
dataSizeChecks +=
replaceWithMap( dataSizeCheckTemplate, { { "dataSize", commandData.params[vectorParamIt->second].name }, { "dataType", returnParamTypes[i] } } );
}
}
}
return dataSizeChecks;
}
std::string VulkanHppGenerator::generateDestroyCommand( std::string const & name, CommandData const & commandData ) const
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{
// special handling for destroy functions, filter out alias functions
std::string commandName = generateCommandName( name, commandData.params, 1, m_tags, false, false );
if ( commandData.alias.empty() && ( ( ( name.substr( 2, 7 ) == "Destroy" ) && ( commandName != "destroy" ) ) || ( name.substr( 2, 4 ) == "Free" ) ||
( name == "vkReleasePerformanceConfigurationINTEL" ) ) )
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{
assert( 1 < commandData.params.size() );
// make sure, the object to destroy/free/release is not optional in the shortened version!
CommandData localCommandData = commandData;
localCommandData.params[1].optional = false;
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std::string destroyCommandString = generateCommand( name, localCommandData, 1, false );
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std::string shortenedName;
if ( name.substr( 2, 7 ) == "Destroy" )
{
shortenedName = "destroy";
}
else if ( name.substr( 2, 4 ) == "Free" )
{
// enclose "free" in parenthesis to prevent interference with MSVC debug free
shortenedName = "( free )";
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}
else
{
assert( name == "vkReleasePerformanceConfigurationINTEL" );
shortenedName = "release";
}
size_t pos = destroyCommandString.find( commandName );
while ( pos != std::string::npos )
{
destroyCommandString.replace( pos, commandName.length(), shortenedName );
pos = destroyCommandString.find( commandName, pos );
}
// we need to remove the default argument for the first argument, to prevent ambiguities!
assert( 1 < localCommandData.params.size() );
pos = destroyCommandString.find( localCommandData.params[1].name ); // skip the standard version of the function
assert( pos != std::string::npos );
pos = destroyCommandString.find( localCommandData.params[1].name,
pos + 1 ); // get the argument to destroy in the advanced version
assert( pos != std::string::npos );
pos = destroyCommandString.find( " VULKAN_HPP_DEFAULT_ARGUMENT_ASSIGNMENT", pos );
if ( pos != std::string::npos )
{
destroyCommandString.erase( pos, strlen( " VULKAN_HPP_DEFAULT_ARGUMENT_ASSIGNMENT" ) );
}
return "\n" + destroyCommandString;
}
return "";
}
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std::string VulkanHppGenerator::generateDispatchLoaderDynamicCommandAssignment( std::string const & commandName,
CommandData const & commandData,
std::string const & firstArg ) const
{
if ( commandName == "vkGetInstanceProcAddr" )
{
// Don't overwite vkGetInstanceProcAddr with NULL.
return "";
}
std::string str = " " + commandName + " = PFN_" + commandName + "( vkGet" + ( ( firstArg == "device" ) ? "Device" : "Instance" ) + "ProcAddr( " +
firstArg + ", \"" + commandName + "\" ) );\n";
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// if this is an alias'ed function, use it as a fallback for the original one
if ( !commandData.alias.empty() )
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{
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str += " if ( !" + commandData.alias + " ) " + commandData.alias + " = " + commandName + ";\n";
}
return str;
}
std::string VulkanHppGenerator::generateDispatchLoaderStaticCommands( std::vector<RequireData> const & requireData,
std::set<std::string> & listedCommands,
std::string const & title ) const
{
std::string str;
for ( auto const & require : requireData )
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{
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for ( auto const & command : require.commands )
{
// some commands are listed for multiple extensions !
if ( listedCommands.insert( command ).second )
{
auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
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str += "\n";
std::string parameterList, parameters;
assert( !commandIt->second.params.empty() );
for ( auto param : commandIt->second.params )
{
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parameterList += param.type.compose( "" ) + " " + param.name + generateCArraySizes( param.arraySizes ) + ", ";
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parameters += param.name + ", ";
}
assert( endsWith( parameterList, ", " ) && endsWith( parameters, ", " ) );
parameterList.resize( parameterList.size() - 2 );
parameters.resize( parameters.size() - 2 );
const std::string commandTemplate = R"(
${returnType} ${commandName}( ${parameterList} ) const VULKAN_HPP_NOEXCEPT
{
return ::${commandName}( ${parameters} );
}
)";
str += replaceWithMap( commandTemplate,
{ { "commandName", commandIt->first },
{ "parameterList", parameterList },
{ "parameters", parameters },
{ "returnType", commandIt->second.returnType } } );
}
}
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}
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return addTitleAndProtection( title, str );
}
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std::string VulkanHppGenerator::generateEnum( std::pair<std::string, EnumData> const & enumData ) const
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{
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std::string bitmask;
if ( enumData.second.isBitmask )
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{
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auto bitmaskIt =
std::find_if( m_bitmasks.begin(), m_bitmasks.end(), [&enumData]( auto const & bitmask ) { return bitmask.second.requirements == enumData.first; } );
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assert( bitmaskIt != m_bitmasks.end() );
bitmask = " : " + bitmaskIt->first;
}
std::string enumValues, previousEnter, previousLeave;
std::map<std::string, std::string> valueToNameMap;
for ( auto const & value : enumData.second.values )
{
auto [enter, leave] = generateProtection( value.extension, value.protect );
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if ( previousEnter != enter )
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{
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enumValues += previousLeave + enter;
}
std::string valueName = generateEnumValueName( enumData.first, value.name, enumData.second.isBitmask, m_tags );
enumValues += " " + valueName + " = " + value.name + ",\n";
assert( valueToNameMap.find( valueName ) == valueToNameMap.end() );
valueToNameMap[valueName] = value.name;
previousEnter = enter;
previousLeave = leave;
}
enumValues += previousLeave;
for ( auto const & alias : enumData.second.aliases )
{
std::string aliasName =
generateEnumValueName( enumData.second.alias.empty() ? enumData.first : enumData.second.alias, alias.first, enumData.second.isBitmask, m_tags );
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// make sure to only list alias values that differ from all previous values
auto valueToNameIt = valueToNameMap.find( aliasName );
if ( valueToNameIt == valueToNameMap.end() )
{
#if !defined( NDEBUG )
auto enumIt = std::find_if(
enumData.second.values.begin(), enumData.second.values.end(), [&alias]( EnumValueData const & evd ) { return alias.second.name == evd.name; } );
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if ( enumIt == enumData.second.values.end() )
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{
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auto aliasIt = enumData.second.aliases.find( alias.second.name );
assert( aliasIt != enumData.second.aliases.end() );
auto nextAliasIt = enumData.second.aliases.find( aliasIt->second.name );
while ( nextAliasIt != enumData.second.aliases.end() )
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{
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aliasIt = nextAliasIt;
nextAliasIt = enumData.second.aliases.find( aliasIt->second.name );
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}
enumIt = std::find_if(
enumData.second.values.begin(), enumData.second.values.end(), [&aliasIt]( EnumValueData const & evd ) { return aliasIt->second.name == evd.name; } );
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}
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assert( enumIt != enumData.second.values.end() );
assert( enumIt->extension.empty() || generateProtection( enumIt->extension, enumIt->protect ).first.empty() );
#endif
enumValues += " " + aliasName + " = " + alias.first + ",\n";
// map the aliasName to the name of the base
std::string baseName = findBaseName( alias.second.name, enumData.second.aliases );
assert( std::find_if( enumData.second.values.begin(),
enumData.second.values.end(),
[&baseName]( EnumValueData const & evd ) { return evd.name == baseName; } ) != enumData.second.values.end() );
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valueToNameMap[aliasName] = baseName;
}
#if !defined( NDEBUG )
else
{
// verify, that the identical value represents the identical name
std::string baseName = findBaseName( alias.second.name, enumData.second.aliases );
assert( std::find_if( enumData.second.values.begin(),
enumData.second.values.end(),
[&baseName]( EnumValueData const & evd ) { return evd.name == baseName; } ) != enumData.second.values.end() );
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assert( baseName == valueToNameIt->second );
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}
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#endif
}
if ( !enumValues.empty() )
{
size_t pos = enumValues.rfind( ',' );
assert( pos != std::string::npos );
enumValues.erase( pos, 1 );
enumValues = "\n" + enumValues + " ";
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}
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std::string enumUsing;
if ( !enumData.second.alias.empty() )
{
enumUsing += " using " + stripPrefix( enumData.second.alias, "Vk" ) + " = " + stripPrefix( enumData.first, "Vk" ) + ";\n";
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}
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const std::string enumTemplate = R"( enum class ${enumName}${bitmask}
{${enumValues}};
${enumUsing})";
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return replaceWithMap(
enumTemplate, { { "bitmask", bitmask }, { "enumName", stripPrefix( enumData.first, "Vk" ) }, { "enumUsing", enumUsing }, { "enumValues", enumValues } } );
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}
std::string
VulkanHppGenerator::generateEnums( std::vector<RequireData> const & requireData, std::set<std::string> & listedEnums, std::string const & title ) const
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{
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std::string str;
for ( auto const & require : requireData )
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{
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for ( auto const & type : require.types )
{
auto enumIt = m_enums.find( type );
if ( ( enumIt != m_enums.end() ) && ( listedEnums.find( type ) == listedEnums.end() ) )
{
listedEnums.insert( type );
str += "\n";
str += generateEnum( *enumIt );
}
}
}
return addTitleAndProtection( title, str );
}
std::string VulkanHppGenerator::generateEnumsToString( std::vector<RequireData> const & requireData,
std::set<std::string> & listedEnums,
std::string const & title ) const
{
std::string str;
for ( auto const & require : requireData )
{
for ( auto const & type : require.types )
{
auto enumIt = m_enums.find( type );
if ( ( enumIt != m_enums.end() ) && ( listedEnums.find( type ) == listedEnums.end() ) )
{
listedEnums.insert( type );
str += "\n";
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str += generateEnumToString( *enumIt );
}
}
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}
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return addTitleAndProtection( title, str );
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}
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std::string VulkanHppGenerator::generateEnumInitializer( TypeInfo const & type,
std::vector<std::string> const & arraySizes,
std::vector<EnumValueData> const & values,
bool bitmask ) const
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{
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// enum arguments might need special initialization
assert( type.prefix.empty() && !values.empty() );
std::string valueName = generateEnumValueName( type.type, values.front().name, bitmask, m_tags );
std::string value = "VULKAN_HPP_NAMESPACE::" + stripPrefix( type.type, "Vk" ) + "::" + valueName;
std::string str;
if ( arraySizes.empty() )
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{
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str += value;
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}
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else
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{
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assert( arraySizes.size() == 1 );
auto constIt = m_constants.find( arraySizes[0] );
int count = std::stoi( ( constIt == m_constants.end() ) ? arraySizes[0] : constIt->second );
assert( 1 < count );
str += "{ { " + value;
for ( int i = 1; i < count; i++ )
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{
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str += ", " + value;
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}
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str += " } }";
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}
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return str;
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}
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std::string VulkanHppGenerator::generateEnumToString( std::pair<std::string, EnumData> const & enumData ) const
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{
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std::string enumName = stripPrefix( enumData.first, "Vk" );
std::string functionBody;
if ( enumData.second.values.empty() )
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{
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functionBody = R"x( return "(void)";)x";
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}
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else
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{
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std::string cases, previousEnter, previousLeave;
for ( auto const & value : enumData.second.values )
{
auto [enter, leave] = generateProtection( value.extension, value.protect );
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if ( previousEnter != enter )
{
cases += previousLeave + enter;
}
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const std::string caseTemplate = R"( case ${enumName}::e${valueName} : return "${valueName}";
)";
cases += replaceWithMap(
caseTemplate,
{ { "enumName", enumName }, { "valueName", generateEnumValueName( enumData.first, value.name, enumData.second.isBitmask, m_tags ).substr( 1 ) } } );
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previousEnter = enter;
previousLeave = leave;
}
cases += previousLeave;
const std::string functionBodyTemplate =
R"x( switch ( value )
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{
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${cases} default: return "invalid ( " + VULKAN_HPP_NAMESPACE::toHexString( static_cast<uint32_t>( value ) ) + " )";
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}
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)x";
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functionBody = replaceWithMap( functionBodyTemplate, { { "cases", cases } } );
}
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const std::string enumToStringTemplate = R"(
VULKAN_HPP_INLINE std::string to_string( ${enumName}${argument} )
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{
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${functionBody}
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}
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)";
return replaceWithMap( enumToStringTemplate,
{ { "argument", enumData.second.values.empty() ? "" : " value" }, { "enumName", enumName }, { "functionBody", functionBody } } );
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}
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std::string VulkanHppGenerator::generateFailureCheck( std::vector<std::string> const & successCodes ) const
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{
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assert( !successCodes.empty() );
std::string failureCheck = "result != " + generateSuccessCode( successCodes[0], m_tags );
if ( 1 < successCodes.size() )
{
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failureCheck = "( " + failureCheck + " )";
for ( size_t i = 1; i < successCodes.size(); ++i )
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{
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failureCheck += "&& ( result != " + generateSuccessCode( successCodes[i], m_tags ) + " )";
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}
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}
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return failureCheck;
}
std::string VulkanHppGenerator::generateFunctionPointerCheck( std::string const & function, std::string const & referencedIn ) const
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{
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std::string functionPointerCheck;
if ( m_extensions.find( referencedIn ) != m_extensions.end() )
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{
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std::string message = "Function <" + function + "> needs extension <" + referencedIn + "> enabled!";
functionPointerCheck = "VULKAN_HPP_ASSERT( getDispatcher()->" + function + " && \"" + message + "\" );";
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}
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return functionPointerCheck;
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}
std::string VulkanHppGenerator::generateHandle( std::pair<std::string, HandleData> const & handleData, std::set<std::string> & listedHandles ) const
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{
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assert( listedHandles.find( handleData.first ) == listedHandles.end() );
// first check for any handle that needs to be listed before this one
std::string str = generateHandleDependencies( handleData, listedHandles );
// list the commands of this handle
if ( handleData.first.empty() )
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{
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// the free functions, not bound to any handle
str += generateHandleEmpty( handleData.second );
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}
else
{
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// append any forward declaration of Deleters used by this handle
if ( !handleData.second.childrenHandles.empty() )
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{
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str += generateUniqueTypes( handleData.first, handleData.second.childrenHandles );
}
else if ( handleData.first == "VkPhysicalDevice" )
{
// special handling for class Device, as it's created from PhysicalDevice, but destroys itself
str += generateUniqueTypes( "", { "VkDevice" } );
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}
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// list all the commands that are mapped to members of this class
std::string commands = generateHandleCommandDeclarations( handleData.second.commands );
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// create CPPType template specialization and the debugReportObjectType
std::string valueName = handleData.second.objTypeEnum;
valueName = valueName.replace( 3, 0, "DEBUG_REPORT_" ) + "_EXT";
auto enumIt = m_enums.find( "VkDebugReportObjectTypeEXT" );
assert( enumIt != m_enums.end() );
auto valueIt =
std::find_if( enumIt->second.values.begin(), enumIt->second.values.end(), [&valueName]( EnumValueData const & evd ) { return valueName == evd.name; } );
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std::string className = stripPrefix( handleData.first, "Vk" );
std::string cppType, debugReportObjectType;
if ( valueIt == enumIt->second.values.end() )
{
debugReportObjectType = "eUnknown";
}
else
{
static const std::string cppTypeFromDebugReportObjectTypeEXTTemplate = R"(
template <>
struct CppType<VULKAN_HPP_NAMESPACE::DebugReportObjectTypeEXT, VULKAN_HPP_NAMESPACE::DebugReportObjectTypeEXT::e${className}>
{
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using Type = VULKAN_HPP_NAMESPACE::${className};
};
)";
cppType = replaceWithMap( cppTypeFromDebugReportObjectTypeEXTTemplate, { { "className", className } } );
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debugReportObjectType = generateEnumValueName( enumIt->first, valueIt->name, false, m_tags );
}
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auto [enter, leave] = generateProtection( handleData.first, !handleData.second.alias.empty() );
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assert( !handleData.second.objTypeEnum.empty() );
enumIt = m_enums.find( "VkObjectType" );
assert( enumIt != m_enums.end() );
valueIt = std::find_if( enumIt->second.values.begin(),
enumIt->second.values.end(),
[&handleData]( EnumValueData const & evd ) { return evd.name == handleData.second.objTypeEnum; } );
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assert( valueIt != enumIt->second.values.end() );
std::string usingAlias;
if ( !handleData.second.alias.empty() )
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{
usingAlias += " using " + stripPrefix( handleData.second.alias, "Vk" ) + " = " + stripPrefix( handleData.first, "Vk" ) + ";\n";
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}
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const std::string typesafeExplicitKeyword = handleData.second.isDispatchable ? "" : "VULKAN_HPP_TYPESAFE_EXPLICIT ";
const std::string typesafeConversionConditional = handleData.second.isDispatchable ? "" : "#if defined(VULKAN_HPP_TYPESAFE_CONVERSION)\n";
const std::string typesafeConversionConditionalEnd = handleData.second.isDispatchable ? "" : "#endif\n";
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static const std::string templateString = R"(
${enter} class ${className}
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{
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public:
using CType = Vk${className};
using NativeType = Vk${className};
static VULKAN_HPP_CONST_OR_CONSTEXPR VULKAN_HPP_NAMESPACE::ObjectType objectType = VULKAN_HPP_NAMESPACE::ObjectType::${objTypeEnum};
static VULKAN_HPP_CONST_OR_CONSTEXPR VULKAN_HPP_NAMESPACE::DebugReportObjectTypeEXT debugReportObjectType = VULKAN_HPP_NAMESPACE::DebugReportObjectTypeEXT::${debugReportObjectType};
public:
VULKAN_HPP_CONSTEXPR ${className}() = default;
VULKAN_HPP_CONSTEXPR ${className}( std::nullptr_t ) VULKAN_HPP_NOEXCEPT
{}
${typesafeExplicitKeyword}${className}( Vk${className} ${memberName} ) VULKAN_HPP_NOEXCEPT
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: m_${memberName}( ${memberName} )
{}
${typesafeConversionConditional} ${className} & operator=(Vk${className} ${memberName}) VULKAN_HPP_NOEXCEPT
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{
m_${memberName} = ${memberName};
return *this;
}
${typesafeConversionConditionalEnd}
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${className} & operator=( std::nullptr_t ) VULKAN_HPP_NOEXCEPT
{
m_${memberName} = {};
return *this;
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}
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#if defined(VULKAN_HPP_HAS_SPACESHIP_OPERATOR)
auto operator<=>( ${className} const & ) const = default;
#else
bool operator==( ${className} const & rhs ) const VULKAN_HPP_NOEXCEPT
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{
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return m_${memberName} == rhs.m_${memberName};
}
bool operator!=(${className} const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return m_${memberName} != rhs.m_${memberName};
}
bool operator<(${className} const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return m_${memberName} < rhs.m_${memberName};
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}
#endif
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${commands}
${typesafeExplicitKeyword}operator Vk${className}() const VULKAN_HPP_NOEXCEPT
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{
return m_${memberName};
}
explicit operator bool() const VULKAN_HPP_NOEXCEPT
{
return m_${memberName} != VK_NULL_HANDLE;
}
bool operator!() const VULKAN_HPP_NOEXCEPT
{
return m_${memberName} == VK_NULL_HANDLE;
}
private:
Vk${className} m_${memberName} = {};
};
VULKAN_HPP_STATIC_ASSERT( sizeof( VULKAN_HPP_NAMESPACE::${className} ) == sizeof( Vk${className} ), "handle and wrapper have different size!" );
VULKAN_HPP_STATIC_ASSERT( std::is_nothrow_move_constructible<VULKAN_HPP_NAMESPACE::${className}>::value, "${className} is not nothrow_move_constructible!" );
template <>
struct CppType<VULKAN_HPP_NAMESPACE::ObjectType, VULKAN_HPP_NAMESPACE::ObjectType::${objTypeEnum}>
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{
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using Type = VULKAN_HPP_NAMESPACE::${className};
};
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${CppType}
template <>
struct isVulkanHandleType<VULKAN_HPP_NAMESPACE::${className}>
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{
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static VULKAN_HPP_CONST_OR_CONSTEXPR bool value = true;
};
${usingAlias}${leave})";
str += replaceWithMap( templateString,
{ { "className", className },
{ "commands", commands },
{ "CppType", cppType },
{ "debugReportObjectType", debugReportObjectType },
{ "enter", enter },
{ "leave", leave },
{ "memberName", startLowerCase( stripPrefix( handleData.first, "Vk" ) ) },
{ "objTypeEnum", generateEnumValueName( enumIt->first, valueIt->name, false, m_tags ) },
{ "usingAlias", usingAlias },
{ "typesafeExplicitKeyword", typesafeExplicitKeyword },
{ "typesafeConversionConditional", typesafeConversionConditional },
{ "typesafeConversionConditionalEnd", typesafeConversionConditionalEnd } } );
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}
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listedHandles.insert( handleData.first );
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return str;
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}
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std::string VulkanHppGenerator::generateHandleCommandDeclarations( std::set<std::string> const & commands ) const
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{
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std::string str;
std::set<std::string> listedCommands; // some commands are listed with more than one extension!
for ( auto const & feature : m_features )
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{
std::vector<std::string> commandNames = selectCommandsByHandle( feature.second.requireData, commands, listedCommands );
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if ( !commandNames.empty() )
{
str += "\n //=== " + feature.first + " ===\n";
for ( auto const & command : commandNames )
{
auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
str += "\n";
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str += generateCommand( commandIt->first, commandIt->second, 1, false );
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str += generateDestroyCommand( commandIt->first, commandIt->second );
}
}
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}
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for ( auto const & extIt : m_extensionsByNumber )
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{
std::vector<std::string> commandNames = selectCommandsByHandle( extIt.second->second.requireData, commands, listedCommands );
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if ( !commandNames.empty() )
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{
auto [enter, leave] = generateProtection( extIt.second->first, std::string() );
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str += "\n" + enter + " //=== " + extIt.second->first + " ===\n";
for ( auto const & command : commandNames )
{
auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
std::string commandString;
std::string commandName = generateCommandName( commandIt->first, commandIt->second.params, 1, m_tags, false, false );
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str += "\n";
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str += generateCommand( commandIt->first, commandIt->second, 1, false );
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str += generateDestroyCommand( commandIt->first, commandIt->second );
}
str += leave;
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}
}
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return str;
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}
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std::string VulkanHppGenerator::generateHandleDependencies( std::pair<std::string, HandleData> const & handleData, std::set<std::string> & listedHandles ) const
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{
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std::string str;
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for ( auto const & command : handleData.second.commands )
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{
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auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
for ( auto const & parameter : commandIt->second.params )
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{
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auto handleIt = m_handles.find( parameter.type.type );
if ( ( handleIt != m_handles.end() ) && ( parameter.type.type != handleData.first ) &&
( listedHandles.find( parameter.type.type ) == listedHandles.end() ) )
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{
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str += generateHandle( *handleIt, listedHandles );
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}
}
}
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return str;
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}
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std::string VulkanHppGenerator::generateHandleEmpty( HandleData const & handleData ) const
{
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std::string str;
std::set<std::string> listedCommands; // some commands are listed with more than one extension !
for ( auto const & feature : m_features )
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{
std::vector<std::string> commands = selectCommandsByHandle( feature.second.requireData, handleData.commands, listedCommands );
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if ( !commands.empty() )
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{
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str += "\n //=== " + feature.first + " ===\n";
for ( auto const & command : commands )
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{
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auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
if ( commandIt->first == "vkCreateInstance" )
{
// special handling for createInstance, as we need to explicitly place the forward declarations and the
// deleter classes here
#if !defined( NDEBUG )
auto handleIt = m_handles.find( "" );
assert( ( handleIt != m_handles.end() ) && ( handleIt->second.childrenHandles.size() == 2 ) );
assert( handleIt->second.childrenHandles.find( "VkInstance" ) != handleIt->second.childrenHandles.end() );
#endif
str += generateUniqueTypes( "", { "VkInstance" } );
}
str += "\n";
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str += generateCommand( commandIt->first, commandIt->second, 0, false );
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}
}
}
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#if !defined( NDEBUG )
for ( auto const & extIt : m_extensionsByNumber )
{
assert( selectCommandsByHandle( extIt.second->second.requireData, handleData.commands, listedCommands ).empty() );
}
#endif
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return str;
}
std::string VulkanHppGenerator::generateHandleHashStructures( std::vector<RequireData> const & requireData, std::string const & title ) const
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{
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const std::string hashTemplate = R"(
template <> struct hash<VULKAN_HPP_NAMESPACE::${type}>
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{
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std::size_t operator()(VULKAN_HPP_NAMESPACE::${type} const & ${name}) const VULKAN_HPP_NOEXCEPT
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{
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return std::hash<Vk${type}>{}(static_cast<Vk${type}>(${name}));
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}
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};
)";
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std::string str;
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for ( auto const & require : requireData )
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{
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for ( auto const & type : require.types )
{
auto handleIt = m_handles.find( type );
if ( handleIt != m_handles.end() )
{
std::string handleType = stripPrefix( handleIt->first, "Vk" );
std::string handleName = startLowerCase( handleType );
str += replaceWithMap( hashTemplate, { { "name", handleName }, { "type", handleType } } );
}
}
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}
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return addTitleAndProtection( title, str );
}
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std::string VulkanHppGenerator::generateLenInitializer(
std::vector<MemberData>::const_iterator mit,
std::map<std::vector<MemberData>::const_iterator, std::vector<std::vector<MemberData>::const_iterator>>::const_iterator litit,
bool mutualExclusiveLens ) const
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{
std::string initializer;
if ( mutualExclusiveLens )
{
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// there are multiple mutually exclusive arrays related to this len
for ( size_t i = 0; i + 1 < litit->second.size(); i++ )
{
auto arrayIt = litit->second[i];
std::string argumentName = startLowerCase( stripPrefix( arrayIt->name, "p" ) ) + "_";
initializer += "!" + argumentName + ".empty() ? " + argumentName + ".size() : ";
}
auto arrayIt = litit->second.back();
std::string argumentName = startLowerCase( stripPrefix( arrayIt->name, "p" ) ) + "_";
initializer += argumentName + ".size()";
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}
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else
{
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auto arrayIt = litit->second.front();
assert( ( arrayIt->len.front() == litit->first->name ) || ( ( arrayIt->len.front() == "codeSize / 4" ) && ( litit->first->name == "codeSize" ) ) );
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assert( beginsWith( arrayIt->name, "p" ) );
std::string argumentName = startLowerCase( stripPrefix( arrayIt->name, "p" ) ) + "_";
assert( mit->type.prefix.empty() && mit->type.postfix.empty() );
initializer = argumentName + ".size()";
if ( arrayIt->len.front() == "codeSize / 4" )
{
initializer += " * 4";
}
if ( ( arrayIt->type.type == "void" ) &&
( std::count_if( arrayIt->type.postfix.begin(), arrayIt->type.postfix.end(), []( char c ) { return c == '*'; } ) < 2 ) )
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{
initializer += " * sizeof(T)";
}
}
if ( mit->type.type != "size_t" )
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{
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initializer = "static_cast<" + mit->type.type + ">( " + initializer + " )";
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}
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return initializer;
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}
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std::string VulkanHppGenerator::generateName( TypeInfo const & typeInfo ) const
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{
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std::string name = stripPrefix( typeInfo.type, "Vk" );
assert( typeInfo.prefix.find( '*' ) == std::string::npos );
if ( typeInfo.postfix.find( '*' ) != std::string::npos )
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{
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assert( typeInfo.postfix.find_first_of( '*' ) == typeInfo.postfix.find_last_of( '*' ) );
name = "p" + name;
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}
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else
{
name = startLowerCase( name );
}
return name;
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}
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std::string VulkanHppGenerator::generateObjectDeleter( std::string const & commandName,
CommandData const & commandData,
size_t initialSkipCount,
size_t returnParam ) const
{
std::string objectDeleter, allocator;
if ( ( commandName.find( "Acquire" ) != std::string::npos ) || ( commandName.find( "Get" ) != std::string::npos ) )
{
if ( ( commandName == "vkAcquirePerformanceConfigurationINTEL" ) || ( commandName == "vkGetRandROutputDisplayEXT" ) ||
( commandName == "vkGetWinrtDisplayNV" ) || ( commandName == "vkGetDrmDisplayEXT" ) )
{
objectDeleter = "ObjectRelease";
}
else
{
throw std::runtime_error( "Found " + commandName + " which requires special handling for the object deleter" );
}
}
else if ( commandName.find( "Allocate" ) != std::string::npos )
{
objectDeleter = "ObjectFree";
allocator = "allocator, ";
}
else
{
assert( ( commandName.find( "Create" ) != std::string::npos ) || ( commandName.find( "Register" ) != std::string::npos ) );
objectDeleter = "ObjectDestroy";
allocator = "allocator, ";
}
std::string className = initialSkipCount ? stripPrefix( commandData.params[initialSkipCount - 1].type.type, "Vk" ) : "";
std::string parentName = ( className.empty() || ( commandData.params[returnParam].type.type == "VkDevice" ) ) ? "NoParent" : className;
return objectDeleter + "<" + parentName + ", Dispatch>( " + ( ( parentName == "NoParent" ) ? "" : "*this, " ) + allocator + "d )";
}
std::pair<std::string, std::string> VulkanHppGenerator::generateProtection( std::string const & referencedIn, std::string const & protect ) const
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{
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if ( !referencedIn.empty() )
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{
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if ( m_features.find( referencedIn ) == m_features.end() )
{
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auto extensionIt = m_extensions.find( referencedIn );
assert( extensionIt != m_extensions.end() );
if ( !extensionIt->second.platform.empty() )
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{
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auto platformIt = m_platforms.find( extensionIt->second.platform );
assert( platformIt != m_platforms.end() );
if ( !platformIt->second.protect.empty() )
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{
return std::make_pair( "#if defined( " + platformIt->second.protect + " )\n", "#endif /*" + platformIt->second.protect + "*/\n" );
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}
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}
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}
}
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else if ( !protect.empty() )
{
return std::make_pair( "#if defined( " + protect + " )\n", "#endif /*" + protect + "*/\n" );
}
return std::make_pair( "", "" );
}
std::pair<std::string, std::string> VulkanHppGenerator::generateProtection( std::string const & type, bool isAliased ) const
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{
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if ( isAliased )
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{
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return std::make_pair( "", "" );
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}
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else
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{
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auto typeIt = m_types.find( type );
assert( typeIt != m_types.end() );
return generateProtection( typeIt->second.referencedIn, std::string() );
}
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}
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std::string VulkanHppGenerator::generateRAIICommandDefinitions( std::vector<RequireData> const & requireData,
std::set<std::string> & listedCommands,
std::string const & title ) const
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{
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std::string str;
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for ( auto const & require : requireData )
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{
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for ( auto const & command : require.commands )
{
if ( listedCommands.insert( command ).second )
{
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str += generateRAIIHandleCommand( command, determineInitialSkipCount( command ), true );
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}
}
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}
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return addTitleAndProtection( title, str );
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}
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std::string VulkanHppGenerator::generateRAIIHandle( std::pair<std::string, HandleData> const & handle,
std::set<std::string> & listedHandles,
std::set<std::string> const & specialFunctions ) const
{
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std::string str;
if ( listedHandles.find( handle.first ) == listedHandles.end() )
{
rescheduleRAIIHandle( str, handle, listedHandles, specialFunctions );
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auto [enter, leave] = generateProtection( handle.first, !handle.second.alias.empty() );
std::string handleType = stripPrefix( handle.first, "Vk" );
std::string handleName = generateRAIIHandleConstructorParamName( handle.first, handle.second.destructorIt );
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auto [singularConstructors, arrayConstructors] = generateRAIIHandleConstructors( handle );
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auto [clearMembers, getConstructorSuccessCode, memberVariables, moveConstructorInitializerList, moveAssignmentInstructions, swapMembers] =
generateRAIIHandleDetails( handle );
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std::string declarations = generateRAIIHandleCommandDeclarations( handle, specialFunctions );
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assert( !handle.second.objTypeEnum.empty() );
auto enumIt = m_enums.find( "VkObjectType" );
assert( enumIt != m_enums.end() );
auto valueIt = std::find_if(
enumIt->second.values.begin(), enumIt->second.values.end(), [&handle]( EnumValueData const & evd ) { return evd.name == handle.second.objTypeEnum; } );
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assert( valueIt != enumIt->second.values.end() );
std::string objTypeEnum = generateEnumValueName( enumIt->first, valueIt->name, false, m_tags );
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enumIt = m_enums.find( "VkDebugReportObjectTypeEXT" );
assert( enumIt != m_enums.end() );
std::string valueName = handle.second.objTypeEnum;
valueName = valueName.replace( 3, 0, "DEBUG_REPORT_" ) + "_EXT";
valueIt =
std::find_if( enumIt->second.values.begin(), enumIt->second.values.end(), [&valueName]( EnumValueData const & evd ) { return valueName == evd.name; } );
std::string debugReportObjectType =
( valueIt != enumIt->second.values.end() ) ? generateEnumValueName( enumIt->first, valueIt->name, false, m_tags ) : "eUnknown";
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std::string dispatcherType = ( ( handle.first == "VkDevice" ) || ( handle.second.constructorIts.front()->second.params.front().type.type == "VkDevice" ) )
2022-03-09 10:20:05 +00:00
? "VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::DeviceDispatcher"
: "VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::InstanceDispatcher";
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std::string getParent;
if ( ( handle.first != "VkInstance" ) && ( handle.first != "VkDevice" ) && ( handle.second.destructorIt != m_commands.end() ) )
{
assert( !handle.second.destructorIt->second.params.empty() );
std::string parentType = stripPrefix( handle.second.destructorIt->second.params.front().type.type, "Vk" );
getParent = " VULKAN_HPP_NAMESPACE::" + parentType + " get" + parentType + "() const\n";
getParent += " {\n";
getParent += " return m_" + handle.second.destructorIt->second.params.front().name + ";\n";
getParent += " }\n";
}
std::string assignmentOperator, copyConstructor;
if ( handle.second.destructorIt == m_commands.end() )
{
// allow copy constructor and assignment operator for classes without destructor
std::string const copyConstructorTemplate =
R"( ${handleType}( ${handleType} const & rhs ) : m_${handleName}( rhs.m_${handleName} ), m_dispatcher( rhs.m_dispatcher ) {})";
copyConstructor += replaceWithMap( copyConstructorTemplate, { { "handleName", handleName }, { "handleType", handleType } } );
std::string assignmentOperatorTemplate = R"( ${handleType} & operator=( ${handleType} const & rhs )
{
m_${handleName} = rhs.m_${handleName};
m_dispatcher = rhs.m_dispatcher;
return *this;
})";
assignmentOperator += replaceWithMap( assignmentOperatorTemplate, { { "handleName", handleName }, { "handleType", handleType } } );
}
else
{
std::string const copyConstructorTemplate = R"( ${handleType}( ${handleType} const & ) = delete;)";
copyConstructor += replaceWithMap( copyConstructorTemplate, { { "handleType", handleType } } );
std::string const assignmentOperatorTemplate = R"( ${handleType} & operator=( ${handleType} const & ) = delete;)";
assignmentOperator += replaceWithMap( assignmentOperatorTemplate, { { "handleType", handleType } } );
}
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const std::string handleTemplate = R"(
${enter} class ${handleType}
{
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public:
using CType = Vk${handleType};
static VULKAN_HPP_CONST_OR_CONSTEXPR VULKAN_HPP_NAMESPACE::ObjectType objectType = VULKAN_HPP_NAMESPACE::ObjectType::${objTypeEnum};
static VULKAN_HPP_CONST_OR_CONSTEXPR VULKAN_HPP_NAMESPACE::DebugReportObjectTypeEXT debugReportObjectType = VULKAN_HPP_NAMESPACE::DebugReportObjectTypeEXT::${debugReportObjectType};
public:
${singularConstructors}
${handleType}( std::nullptr_t ) {}
~${handleType}()
{
clear();
}
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${handleType}() = delete;
${copyConstructor}
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${handleType}( ${handleType} && rhs ) VULKAN_HPP_NOEXCEPT
: ${moveConstructorInitializerList}
{}
${assignmentOperator}
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${handleType} & operator=( ${handleType} && rhs ) VULKAN_HPP_NOEXCEPT
{
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if ( this != &rhs )
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{
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${moveAssignmentInstructions}
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}
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return *this;
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}
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VULKAN_HPP_NAMESPACE::${handleType} const & operator*() const VULKAN_HPP_NOEXCEPT
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{
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return m_${handleName};
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}
void clear() VULKAN_HPP_NOEXCEPT
{
${clearMembers}
}
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${getConstructorSuccessCode}
${getParent}
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${dispatcherType} const * getDispatcher() const
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{
VULKAN_HPP_ASSERT( m_dispatcher->getVkHeaderVersion() == VK_HEADER_VERSION );
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return ${getDispatcherReturn}m_dispatcher;
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}
void swap( VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::${handleType} & rhs ) VULKAN_HPP_NOEXCEPT
{
${swapMembers}
}
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${memberFunctionsDeclarations}
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private:
${memberVariables}
};
${leave})";
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str += replaceWithMap( handleTemplate,
{ { "assignmentOperator", assignmentOperator },
{ "clearMembers", clearMembers },
{ "copyConstructor", copyConstructor },
{ "debugReportObjectType", debugReportObjectType },
{ "dispatcherType", dispatcherType },
{ "enter", enter },
{ "getConstructorSuccessCode", getConstructorSuccessCode },
{ "getDispatcherReturn", ( handleType == "Device" ) || ( handleType == "Instance" ) ? "&*" : "" },
{ "getParent", getParent },
{ "handleName", handleName },
{ "handleType", handleType },
{ "leave", leave },
{ "memberFunctionsDeclarations", declarations },
{ "memberVariables", memberVariables },
{ "moveAssignmentInstructions", moveAssignmentInstructions },
{ "moveConstructorInitializerList", moveConstructorInitializerList },
{ "objTypeEnum", objTypeEnum },
{ "singularConstructors", singularConstructors },
{ "swapMembers", swapMembers } } );
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if ( !arrayConstructors.empty() )
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{
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// it's a handle class with a friendly handles class
const std::string handlesTemplate = R"(
${enter} class ${handleType}s : public std::vector<VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::${handleType}>
{
public:
${arrayConstructors}
${handleType}s( std::nullptr_t ) {}
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${handleType}s() = delete;
${handleType}s( ${handleType}s const & ) = delete;
${handleType}s( ${handleType}s && rhs ) = default;
${handleType}s & operator=( ${handleType}s const & ) = delete;
${handleType}s & operator=( ${handleType}s && rhs ) = default;
};
${leave}
)";
str +=
replaceWithMap( handlesTemplate, { { "arrayConstructors", arrayConstructors }, { "enter", enter }, { "handleType", handleType }, { "leave", leave } } );
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}
}
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return str;
}
std::string VulkanHppGenerator::generateRAIIHandleCommand( std::string const & command, size_t initialSkipCount, bool definition ) const
{
std::string str;
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if ( m_RAIISpecialFunctions.find( command ) == m_RAIISpecialFunctions.end() )
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{
auto commandIt = m_commands.find( command );
assert( commandIt != m_commands.end() );
if ( commandIt->second.returnType == "VkResult" )
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{
str = generateRAIIHandleCommandResult( commandIt, initialSkipCount, definition );
}
else if ( commandIt->second.returnType == "void" )
{
str = generateRAIIHandleCommandVoid( commandIt, initialSkipCount, definition );
}
else
{
str = generateRAIIHandleCommandValue( commandIt, initialSkipCount, definition );
}
if ( str.empty() )
{
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throw std::runtime_error( "Never encountered a command like <" + commandIt->first + "> !" );
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}
}
return str;
}
std::string VulkanHppGenerator::generateRAIIHandleCommandDeclarations( std::pair<std::string, HandleData> const & handle,
std::set<std::string> const & specialFunctions ) const
{
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std::string functionDeclarations;
std::set<std::string> listedCommands; // some commands are listed with more than one extension !
for ( auto const & feature : m_features )
{
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std::vector<std::string> firstLevelCommands, secondLevelCommands;
for ( auto const & require : feature.second.requireData )
{
for ( auto const & command : require.commands )
{
if ( specialFunctions.find( command ) == specialFunctions.end() )
{
if ( handle.second.commands.find( command ) != handle.second.commands.end() )
{
assert( listedCommands.find( command ) == listedCommands.end() );
listedCommands.insert( command );
firstLevelCommands.push_back( command );
}
else if ( handle.second.secondLevelCommands.find( command ) != handle.second.secondLevelCommands.end() )
{
assert( listedCommands.find( command ) == listedCommands.end() );
listedCommands.insert( command );
assert( !handle.first.empty() );
secondLevelCommands.push_back( command );
}
}
}
}
if ( !firstLevelCommands.empty() || !secondLevelCommands.empty() )
{
functionDeclarations += "\n //=== " + feature.first + " ===\n";
for ( auto const & command : firstLevelCommands )
{
functionDeclarations += generateRAIIHandleCommand( command, handle.first.empty() ? 0 : 1, false );
}
for ( auto const & command : secondLevelCommands )
{
assert( !handle.first.empty() );
functionDeclarations += generateRAIIHandleCommand( command, 2, false );
}
}
}
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for ( auto const & extIt : m_extensionsByNumber )
{
std::vector<std::string> firstLevelCommands, secondLevelCommands;
for ( auto & req : extIt.second->second.requireData )
{
for ( auto const & command : req.commands )
{
if ( ( specialFunctions.find( command ) == specialFunctions.end() ) && ( listedCommands.find( command ) == listedCommands.end() ) )
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{
if ( handle.second.commands.find( command ) != handle.second.commands.end() )
{
listedCommands.insert( command );
firstLevelCommands.push_back( command );
}
else if ( handle.second.secondLevelCommands.find( command ) != handle.second.secondLevelCommands.end() )
{
listedCommands.insert( command );
secondLevelCommands.push_back( command );
}
}
}
}
if ( !firstLevelCommands.empty() || !secondLevelCommands.empty() )
{
std::string enter, leave;
if ( extIt.second->first != m_types.find( handle.first )->second.referencedIn )
{
std::tie( enter, leave ) = generateProtection( extIt.second->first, std::string() );
}
functionDeclarations += "\n" + enter + " //=== " + extIt.second->first + " ===\n";
for ( auto const & command : firstLevelCommands )
{
functionDeclarations += generateRAIIHandleCommand( command, handle.first.empty() ? 0 : 1, false );
}
for ( auto const & command : secondLevelCommands )
{
assert( !handle.first.empty() );
functionDeclarations += generateRAIIHandleCommand( command, 2, false );
}
functionDeclarations += leave;
}
}
return functionDeclarations;
}
std::string VulkanHppGenerator::generateRAIIHandleCommandEnhanced( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
bool definition,
bool chained,
bool singular ) const
{
std::set<size_t> skippedParams = determineSkippedParams( commandIt->second.params, initialSkipCount, vectorParams, returnParams, singular );
std::set<size_t> singularParams = singular ? determineSingularParams( returnParams[0], vectorParams ) : std::set<size_t>();
// special handling for vkGetMemoryHostPointerPropertiesEXT: here, we really need to stick with the const void * parameter !
std::set<size_t> templatedParams =
( commandIt->first == "vkGetMemoryHostPointerPropertiesEXT" ) ? std::set<size_t>() : determineVoidPointerParams( commandIt->second.params );
bool enumerating = determineEnumeration( vectorParams, returnParams );
std::vector<std::string> dataTypes = determineDataTypes( commandIt->second.params, vectorParams, returnParams, templatedParams, true );
std::string dataType = combineDataTypes( vectorParams, returnParams, singular, enumerating, dataTypes, false, true );
std::string argumentTemplates = generateArgumentTemplates( commandIt->second.params, returnParams, vectorParams, templatedParams, chained, true );
std::string argumentList = generateArgumentListEnhanced(
commandIt->second.params, returnParams, vectorParams, skippedParams, singularParams, templatedParams, definition, false, false, false );
std::string commandName = generateCommandName( commandIt->first, commandIt->second.params, initialSkipCount, m_tags, singular, false );
std::string nodiscard =
generateNoDiscard( !returnParams.empty() || ( ( commandIt->second.returnType != "VkResult" ) && ( commandIt->second.returnType != "void" ) ),
1 < commandIt->second.successCodes.size(),
false );
std::pair<bool, std::map<size_t, std::vector<size_t>>> vectorSizeCheck =
needsVectorSizeCheck( commandIt->second.params, vectorParams, returnParams, singularParams );
std::string noexceptString = generateNoExcept( commandIt->second.errorCodes, returnParams, vectorParams, singular, vectorSizeCheck.first, true );
std::string returnType = generateReturnType( commandIt->second, returnParams, false, chained, true, dataType );
if ( definition )
{
std::string const definitionTemplate =
R"(
${argumentTemplates}
${nodiscard} VULKAN_HPP_INLINE ${returnType} ${className}::${commandName}( ${argumentList} ) const ${noexcept}
{
${functionPointerCheck}
${vectorSizeCheck}
${dataSizeChecks}
${dataDeclarations}
${callSequence}
${resultCheck}
${dataPreparation}
${returnStatement}
}
)";
std::string callSequence =
generateCallSequence( commandIt->first, commandIt->second, returnParams, vectorParams, initialSkipCount, singularParams, templatedParams, chained, true );
std::string className = initialSkipCount ? stripPrefix( commandIt->second.params[initialSkipCount - 1].type.type, "Vk" ) : "Context";
std::string returnVariable = generateReturnVariable( commandIt->second, returnParams, vectorParams, chained, singular );
std::string dataDeclarations = generateDataDeclarations(
commandIt->second, returnParams, vectorParams, templatedParams, singular, false, chained, false, true, dataTypes, dataType, returnType, returnVariable );
std::string dataPreparation =
generateDataPreparation( commandIt->second, initialSkipCount, returnParams, vectorParams, templatedParams, singular, false, false, chained, enumerating );
std::string dataSizeChecks = generateDataSizeChecks( commandIt->second, returnParams, dataTypes, vectorParams, templatedParams, singular );
std::string resultCheck = generateResultCheck( commandIt->second, className, "::", commandName, enumerating );
std::string returnStatement = generateReturnStatement( commandIt->first,
commandIt->second,
returnVariable,
returnType,
dataType,
initialSkipCount,
returnParams.empty() ? INVALID_INDEX : returnParams[0],
false,
enumerating,
true );
std::string vectorSizeCheckString =
vectorSizeCheck.first ? generateRAIIHandleVectorSizeCheck( commandIt->first, commandIt->second, initialSkipCount, vectorSizeCheck.second, skippedParams )
: "";
return replaceWithMap( definitionTemplate,
{ { "argumentList", argumentList },
{ "argumentTemplates", argumentTemplates },
{ "callSequence", callSequence },
{ "className", className },
{ "commandName", commandName },
{ "dataDeclarations", dataDeclarations },
{ "dataPreparation", dataPreparation },
{ "dataSizeChecks", dataSizeChecks },
{ "functionPointerCheck", generateFunctionPointerCheck( commandIt->first, commandIt->second.referencedIn ) },
{ "nodiscard", nodiscard },
{ "noexcept", noexceptString },
{ "resultCheck", resultCheck },
{ "returnStatement", returnStatement },
{ "returnType", returnType },
{ "vectorSizeCheck", vectorSizeCheckString } } );
}
else
{
std::string const declarationTemplate =
R"(
${argumentTemplates}
${nodiscard} ${returnType} ${commandName}( ${argumentList} ) const ${noexcept};
)";
return replaceWithMap( declarationTemplate,
{ { "argumentList", argumentList },
{ "argumentTemplates", argumentTemplates },
{ "commandName", commandName },
{ "nodiscard", nodiscard },
{ "noexcept", noexceptString },
{ "returnType", returnType } } );
}
}
std::string VulkanHppGenerator::generateRAIIHandleCommandFactory( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
bool definition,
bool singular ) const
{
assert( isHandleType( commandIt->second.params[returnParams.back()].type.type ) );
assert( ( returnParams.size() == 1 ) || ( ( returnParams.size() == 2 ) && ( vectorParams.size() == 1 ) &&
( returnParams[0] == vectorParams.begin()->second ) && ( returnParams[1] == vectorParams.begin()->first ) ) );
std::set<size_t> skippedParams = determineSkippedParams( commandIt->second.params, initialSkipCount, vectorParams, returnParams, singular );
std::set<size_t> singularParams = singular ? determineSingularParams( returnParams.back(), vectorParams ) : std::set<size_t>();
std::string argumentList = generateRAIIHandleCommandFactoryArgumentList( commandIt->second.params, skippedParams, definition, singular );
std::string commandName = generateCommandName( commandIt->first, commandIt->second.params, initialSkipCount, m_tags, singular, false );
std::string handleType = stripPostfix( commandIt->second.params[returnParams.back()].type.compose( "VULKAN_HPP_RAII_NAMESPACE" ), " *" );
std::string returnType = handleType;
if ( ( vectorParams.find( returnParams.back() ) != vectorParams.end() ) && !singular )
{
returnType = "std::vector<" + handleType + ">";
handleType += "s";
}
if ( definition )
{
std::string callArguments = generateCallArgumentsRAIIFactory( commandIt->second.params, initialSkipCount, skippedParams, singularParams );
std::string className = initialSkipCount ? stripPrefix( commandIt->second.params[initialSkipCount - 1].type.type, "Vk" ) : "Context";
std::string const definitionTemplate =
R"(
VULKAN_HPP_NODISCARD VULKAN_HPP_INLINE ${returnType} ${className}::${commandName}( ${argumentList} ) const
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{
return ${handleType}( ${callArguments} );
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}
)";
return replaceWithMap( definitionTemplate,
{ { "argumentList", argumentList },
{ "callArguments", callArguments },
{ "className", className },
{ "commandName", commandName },
{ "handleType", handleType },
{ "returnType", returnType } } );
}
else
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{
std::string const declarationTemplate =
R"(
VULKAN_HPP_NODISCARD ${returnType} ${commandName}( ${argumentList} ) const;
)";
return replaceWithMap( declarationTemplate, { { "argumentList", argumentList }, { "commandName", commandName }, { "returnType", returnType } } );
}
}
std::string VulkanHppGenerator::generateRAIIHandleCommandFactoryArgumentList( std::vector<ParamData> const & params,
std::set<size_t> const & skippedParams,
bool definition,
bool singular ) const
{
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std::string arguments;
bool encounteredArgument = false;
for ( size_t i = 0; i < params.size(); ++i )
{
if ( skippedParams.find( i ) == skippedParams.end() )
{
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if ( encounteredArgument )
{
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arguments += ", ";
}
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arguments += generateRAIIHandleConstructorArgument( params[i], definition, singular, false );
encounteredArgument = true;
}
}
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return arguments;
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}
std::string VulkanHppGenerator::generateRAIIHandleCommandResult( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition ) const
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{
assert( !commandIt->second.successCodes.empty() );
if ( commandIt->second.successCodes.size() == 1 )
{
if ( commandIt->second.errorCodes.empty() )
{
return generateRAIIHandleCommandResultSingleSuccessNoErrors( commandIt, initialSkipCount, definition );
}
else
{
return generateRAIIHandleCommandResultSingleSuccessWithErrors( commandIt, initialSkipCount, definition );
}
}
else
{
if ( commandIt->second.errorCodes.empty() )
{
return generateRAIIHandleCommandResultMultiSuccessNoErrors( commandIt, initialSkipCount, definition );
}
else
{
return generateRAIIHandleCommandResultMultiSuccessWithErrors( commandIt, initialSkipCount, definition );
}
}
}
std::string VulkanHppGenerator::generateRAIIHandleCommandResultMultiSuccessNoErrors( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition ) const
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{
std::vector<size_t> returnParams = determineReturnParams( commandIt->second.params );
switch ( returnParams.size() )
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{
case 0:
return generateRAIIHandleCommandEnhanced(
commandIt, initialSkipCount, returnParams, determineVectorParams( commandIt->second.params ), definition, false, false );
case 2: return generateRAIIHandleCommandResultMultiSuccessNoErrors2Return( commandIt, initialSkipCount, definition, returnParams );
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}
return "";
}
std::string VulkanHppGenerator::generateRAIIHandleCommandResultMultiSuccessNoErrors2Return( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition,
std::vector<size_t> const & returnParams ) const
{
if ( ( commandIt->second.successCodes.size() == 2 ) && ( commandIt->second.successCodes[0] == "VK_SUCCESS" ) &&
( commandIt->second.successCodes[1] == "VK_INCOMPLETE" ) )
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
if ( vectorParams.size() == 1 )
{
if ( returnParams[0] == vectorParams.begin()->second )
{
if ( returnParams[1] == vectorParams.begin()->first )
{
if ( ( commandIt->second.params[returnParams[0]].type.type == "uint32_t" ) || ( commandIt->second.params[returnParams[0]].type.type == "size_t" ) )
{
if ( ( commandIt->second.params[returnParams[1]].type.type != "void" ) && !isHandleType( commandIt->second.params[returnParams[1]].type.type ) &&
!isStructureChainAnchor( commandIt->second.params[returnParams[1]].type.type ) )
{
return generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false );
}
}
}
}
}
}
return "";
}
std::string VulkanHppGenerator::generateRAIIHandleCommandResultMultiSuccessWithErrors( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition ) const
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{
std::vector<size_t> returnParams = determineReturnParams( commandIt->second.params );
switch ( returnParams.size() )
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{
case 0:
return generateRAIIHandleCommandEnhanced(
commandIt, initialSkipCount, returnParams, determineVectorParams( commandIt->second.params ), definition, false, false );
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break;
case 1: return generateRAIIHandleCommandResultMultiSuccessWithErrors1Return( commandIt, initialSkipCount, definition, returnParams[0] ); break;
case 2: return generateRAIIHandleCommandResultMultiSuccessWithErrors2Return( commandIt, initialSkipCount, definition, returnParams ); break;
case 3: return generateRAIIHandleCommandResultMultiSuccessWithErrors3Return( commandIt, initialSkipCount, definition, returnParams ); break;
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}
return "";
}
std::string VulkanHppGenerator::generateRAIIHandleCommandResultMultiSuccessWithErrors1Return( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition,
size_t returnParam ) const
{
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std::string str;
if ( commandIt->second.params[returnParam].type.type == "void" )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
if ( vectorParams.size() == 1 )
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{
if ( returnParam == vectorParams.begin()->first )
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{
if ( commandIt->second.params[vectorParams.begin()->second].type.type == "size_t" )
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{
str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false, false );
str +=
generateRAIIHandleCommandResultMultiSuccessWithErrors1ReturnVoidSingular( commandIt, initialSkipCount, vectorParams, { returnParam }, definition );
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}
}
}
}
else if ( isHandleType( commandIt->second.params[returnParam].type.type ) )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
if ( vectorParams.size() == 2 )
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{
if ( returnParam == std::next( vectorParams.begin() )->first )
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{
if ( commandIt->second.params[vectorParams.begin()->second].type.type == "uint32_t" )
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{
if ( isStructureChainAnchor( commandIt->second.params[vectorParams.begin()->first].type.type ) )
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{
str = generateRAIIHandleCommandFactory( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false );
str += generateRAIIHandleCommandFactory( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, true );
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}
}
}
}
}
else if ( !isStructureChainAnchor( commandIt->second.params[returnParam].type.type ) )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
if ( vectorParams.empty() )
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{
str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false, false );
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}
}
return str;
}
std::string
VulkanHppGenerator::generateRAIIHandleCommandResultMultiSuccessWithErrors1ReturnVoidSingular( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
std::map<size_t, size_t> const & vectorParams,
std::vector<size_t> const & returnParams,
bool definition ) const
2021-11-10 07:29:15 +00:00
{
assert( returnParams.size() == 1 );
std::set<size_t> skippedParams = determineSkippedParams( commandIt->second.params, initialSkipCount, vectorParams, returnParams, true );
std::set<size_t> singularParams = determineSingularParams( returnParams[0], vectorParams );
std::set<size_t> templatedParams = determineVoidPointerParams( commandIt->second.params );
assert( templatedParams.size() == 1 );
std::string argumentList = generateArgumentListEnhanced(
commandIt->second.params, returnParams, vectorParams, skippedParams, singularParams, templatedParams, definition, false, false, false );
std::string argumentTemplates = generateArgumentTemplates( commandIt->second.params, returnParams, vectorParams, templatedParams, false, true );
std::string commandName = generateCommandName( commandIt->first, commandIt->second.params, initialSkipCount, m_tags, true, false );
std::string dataType = stripPrefix( commandIt->second.params[*templatedParams.begin()].name, "p" ) + "Type";
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if ( definition )
{
std::string const singularDefinitionTemplate =
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R"(
${argumentTemplates}
VULKAN_HPP_NODISCARD std::pair<VULKAN_HPP_NAMESPACE::Result, ${dataType}> ${className}::${commandName}( ${argumentList} ) const
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{
${dataType} ${dataName};
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Result result = static_cast<Result>( getDispatcher()->${vkCommand}( ${callArguments} ) );
if ( ${failureCheck} )
{
throwResultException( result, VULKAN_HPP_NAMESPACE_STRING"::${className}::${commandName}" );
}
return std::make_pair( result, ${dataName} );
}
)";
std::string callArguments = generateCallArgumentsEnhanced( commandIt->second, initialSkipCount, false, singularParams, {}, true );
std::string dataName = startLowerCase( stripPrefix( commandIt->second.params[returnParams[0]].name, "p" ) );
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return replaceWithMap( singularDefinitionTemplate,
{ { "argumentList", argumentList },
{ "argumentTemplates", argumentTemplates },
{ "callArguments", callArguments },
{ "className", stripPrefix( commandIt->second.params[initialSkipCount - 1].type.type, "Vk" ) },
{ "commandName", commandName },
{ "dataName", dataName },
{ "dataType", dataType },
{ "failureCheck", generateFailureCheck( commandIt->second.successCodes ) },
{ "vkCommand", commandIt->first } } );
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}
else
{
std::string const singularDeclarationTemplate =
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R"(
${argumentTemplates}
VULKAN_HPP_NODISCARD std::pair<VULKAN_HPP_NAMESPACE::Result, ${dataType}> ${commandName}( ${argumentList} ) const;
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)";
return replaceWithMap(
singularDeclarationTemplate,
{ { "argumentList", argumentList }, { "argumentTemplates", argumentTemplates }, { "commandName", commandName }, { "dataType", dataType } } );
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}
}
std::string VulkanHppGenerator::generateRAIIHandleCommandResultMultiSuccessWithErrors2Return( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition,
std::vector<size_t> const & returnParams ) const
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{
if ( ( commandIt->second.successCodes.size() == 2 ) && ( commandIt->second.successCodes[0] == "VK_SUCCESS" ) &&
( commandIt->second.successCodes[1] == "VK_INCOMPLETE" ) )
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
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if ( vectorParams.size() == 1 )
{
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if ( returnParams[0] == vectorParams.begin()->second )
{
if ( returnParams[1] == vectorParams.begin()->first )
{
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if ( ( commandIt->second.params[returnParams[0]].type.type == "uint32_t" ) || ( commandIt->second.params[returnParams[0]].type.type == "size_t" ) )
{
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// needs some very special handling of "vkGetSwapchainImagesKHR" !!
if ( isHandleType( commandIt->second.params[returnParams[1]].type.type ) && ( commandIt->first != "vkGetSwapchainImagesKHR" ) )
{
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return generateRAIIHandleCommandFactory( commandIt, initialSkipCount, returnParams, vectorParams, definition, false );
}
else
{
std::string str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false );
if ( isStructureChainAnchor( commandIt->second.params[returnParams[1]].type.type ) )
{
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str += generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, true, false );
}
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return str;
}
}
}
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}
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}
}
return "";
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}
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std::string VulkanHppGenerator::generateRAIIHandleCommandResultMultiSuccessWithErrors3Return( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition,
std::vector<size_t> const & returnParams ) const
{
if ( commandIt->second.params[returnParams[0]].type.type == "uint32_t" )
{
if ( ( commandIt->second.params[returnParams[1]].type.type != "void" ) && !isHandleType( commandIt->second.params[returnParams[1]].type.type ) &&
!isStructureChainAnchor( commandIt->second.params[returnParams[1]].type.type ) )
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{
if ( ( commandIt->second.params[returnParams[2]].type.type != "void" ) && !isHandleType( commandIt->second.params[returnParams[2]].type.type ) &&
!isStructureChainAnchor( commandIt->second.params[returnParams[2]].type.type ) )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
if ( vectorParams.size() == 2 )
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{
if ( returnParams[0] == vectorParams.begin()->second )
{
if ( returnParams[1] == vectorParams.begin()->first )
{
if ( returnParams[2] == std::next( vectorParams.begin() )->first )
{
if ( vectorParams.begin()->second == std::next( vectorParams.begin() )->second )
{
if ( ( commandIt->second.successCodes.size() == 2 ) && ( commandIt->second.successCodes[0] == "VK_SUCCESS" ) &&
( commandIt->second.successCodes[1] == "VK_INCOMPLETE" ) )
{
return generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false );
}
}
}
}
}
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}
}
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}
}
return "";
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}
std::string VulkanHppGenerator::generateRAIIHandleCommandResultSingleSuccessNoErrors( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition ) const
{
std::vector<size_t> returnParams = determineReturnParams( commandIt->second.params );
if ( returnParams.size() < 2 )
{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
return generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false );
}
return "";
}
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std::string VulkanHppGenerator::generateRAIIHandleCommandResultSingleSuccessWithErrors( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition ) const
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{
std::vector<size_t> returnParams = determineReturnParams( commandIt->second.params );
switch ( returnParams.size() )
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{
case 0:
return generateRAIIHandleCommandEnhanced(
commandIt, initialSkipCount, returnParams, determineVectorParams( commandIt->second.params ), definition, false, false );
break;
case 1: return generateRAIIHandleCommandResultSingleSuccessWithErrors1Return( commandIt, initialSkipCount, definition, returnParams[0] ); break;
case 2: return generateRAIIHandleCommandResultSingleSuccessWithErrors2Return( commandIt, initialSkipCount, definition, returnParams ); break;
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}
return "";
}
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std::string VulkanHppGenerator::generateRAIIHandleCommandResultSingleSuccessWithErrors1Return( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition,
size_t returnParam ) const
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{
std::string str;
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
if ( commandIt->second.params[returnParam].type.type == "void" )
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{
switch ( vectorParams.size() )
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{
case 0: str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false, false ); break;
case 1:
if ( returnParam == vectorParams.begin()->first )
{
if ( commandIt->second.params[vectorParams.begin()->second].type.type == "size_t" )
{
str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false, false );
str +=
generateRAIIHandleCommandResultSingleSuccessWithErrors1ReturnVoidSingular( commandIt, initialSkipCount, vectorParams, returnParam, definition );
}
}
break;
case 2:
if ( returnParam == std::next( vectorParams.begin() )->first )
{
if ( commandIt->second.params[vectorParams.begin()->second].type.type == "uint32_t" )
{
if ( isHandleType( commandIt->second.params[vectorParams.begin()->first].type.type ) )
{
if ( commandIt->second.params[std::next( vectorParams.begin() )->second].type.type == "size_t" )
{
str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false, false );
str += generateRAIIHandleCommandResultSingleSuccessWithErrors1ReturnVoidSingular(
commandIt, initialSkipCount, vectorParams, returnParam, definition );
}
}
}
}
break;
}
}
else if ( isHandleType( commandIt->second.params[returnParam].type.type ) )
{
switch ( vectorParams.size() )
{
case 0: str = generateRAIIHandleCommandFactory( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false ); break;
case 1:
if ( returnParam == vectorParams.begin()->first )
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{
if ( m_structures.find( commandIt->second.params[vectorParams.begin()->second].type.type ) != m_structures.end() )
{
str = generateRAIIHandleCommandFactory( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false );
}
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}
break;
case 2:
if ( returnParam == std::next( vectorParams.begin() )->first )
{
if ( vectorParams.begin()->second == std::next( vectorParams.begin() )->second )
{
if ( commandIt->second.params[vectorParams.begin()->second].type.type == "uint32_t" )
{
if ( isStructureChainAnchor( commandIt->second.params[vectorParams.begin()->first].type.type ) )
{
str = generateRAIIHandleCommandFactory( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false );
str += generateRAIIHandleCommandFactory( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, true );
}
}
}
}
break;
}
}
else if ( isStructureChainAnchor( commandIt->second.params[returnParam].type.type ) )
{
if ( vectorParams.empty() )
{
str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false, false );
str += generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, true, false );
}
}
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else if ( vectorParams.empty() )
{
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str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, { returnParam }, vectorParams, definition, false, false );
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}
return str;
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}
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std::string
VulkanHppGenerator::generateRAIIHandleCommandResultSingleSuccessWithErrors1ReturnVoidSingular( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
std::map<size_t, size_t> const & vectorParams,
size_t returnParam,
bool definition ) const
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{
std::set<size_t> skippedParams = determineSkippedParams( commandIt->second.params, initialSkipCount, vectorParams, { returnParam }, true );
std::set<size_t> singularParams = determineSingularParams( returnParam, vectorParams );
std::string argumentList = generateArgumentListEnhanced(
commandIt->second.params, { returnParam }, vectorParams, skippedParams, singularParams, { returnParam }, definition, false, false, false );
std::string commandName = generateCommandName( commandIt->first, commandIt->second.params, initialSkipCount, m_tags, true, false );
std::string argumentTemplates = generateArgumentTemplates( commandIt->second.params, { returnParam }, vectorParams, { returnParam }, false, true );
std::string dataType = stripPrefix( commandIt->second.params[returnParam].name, "p" ) + "Type";
if ( definition )
{
std::string const singularDefinitionTemplate =
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R"(
${argumentTemplates}
VULKAN_HPP_NODISCARD ${dataType} ${className}::${commandName}( ${argumentList} ) const
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{
${dataType} ${dataName};
Result result = static_cast<Result>( getDispatcher()->${vkCommand}( ${callArguments} ) );
if ( ${failureCheck} )
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{
throwResultException( result, VULKAN_HPP_NAMESPACE_STRING"::${className}::${commandName}" );
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}
return ${dataName};
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}
)";
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std::string callArguments = generateCallArgumentsEnhanced( commandIt->second, initialSkipCount, false, singularParams, {}, true );
std::string dataName = startLowerCase( stripPrefix( commandIt->second.params[returnParam].name, "p" ) );
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return replaceWithMap( singularDefinitionTemplate,
{ { "argumentList", argumentList },
{ "argumentTemplates", argumentTemplates },
{ "callArguments", callArguments },
{ "className", stripPrefix( commandIt->second.params[initialSkipCount - 1].type.type, "Vk" ) },
{ "commandName", commandName },
{ "dataName", dataName },
{ "dataType", dataType },
{ "failureCheck", generateFailureCheck( commandIt->second.successCodes ) },
{ "vkCommand", commandIt->first } } );
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}
else
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{
std::string const singularDeclarationTemplate =
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R"(
${argumentTemplates}
VULKAN_HPP_NODISCARD ${dataType} ${commandName}( ${argumentList} ) const;
)";
return replaceWithMap( singularDeclarationTemplate,
{
{ "argumentList", argumentList },
{ "argumentTemplates", argumentTemplates },
{ "commandName", commandName },
{ "dataType", dataType },
} );
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}
}
std::string VulkanHppGenerator::generateRAIIHandleCommandResultSingleSuccessWithErrors2Return( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition,
std::vector<size_t> const & returnParams ) const
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{
std::string str;
if ( commandIt->second.params[returnParams[0]].type.type == "uint64_t" )
{
if ( commandIt->second.params[returnParams[1]].type.type == "uint64_t" )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
if ( vectorParams.size() == 2 )
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{
if ( returnParams[0] == std::next( vectorParams.begin() )->first )
{
assert( returnParams[1] != std::next( vectorParams.begin() )->second );
if ( returnParams[1] != vectorParams.begin()->first )
{
assert( returnParams[1] != vectorParams.begin()->second );
if ( vectorParams.begin()->second == std::next( vectorParams.begin() )->second )
{
if ( commandIt->second.params[vectorParams.begin()->second].type.type == "uint32_t" )
{
if ( ( commandIt->second.params[vectorParams.begin()->first].type.type != "void" ) &&
!isHandleType( commandIt->second.params[vectorParams.begin()->first].type.type ) &&
!isStructureChainAnchor( commandIt->second.params[vectorParams.begin()->first].type.type ) )
{
// two returns and two vectors! But one input vector, one output vector of the same size,
// and one output value
str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false );
str += generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, true );
}
}
}
}
}
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}
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}
}
return str;
}
std::string VulkanHppGenerator::generateRAIIHandleCommandValue( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition ) const
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{
std::vector<size_t> returnParams = determineReturnParams( commandIt->second.params );
if ( returnParams.empty() )
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
if ( vectorParams.empty() )
{
return generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false );
}
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}
return "";
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}
std::string VulkanHppGenerator::generateRAIIHandleCommandVoid( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
bool definition ) const
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{
std::string str;
std::vector<size_t> returnParams = determineReturnParams( commandIt->second.params );
std::map<size_t, size_t> vectorParams = determineVectorParams( commandIt->second.params );
switch ( returnParams.size() )
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{
case 0: str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false ); break;
case 1:
if ( commandIt->second.params[returnParams[0]].type.postfix == "**" )
{
// get a pointer to something
if ( commandIt->second.params[returnParams[0]].type.type == "void" )
{
if ( vectorParams.empty() )
{
str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false );
}
}
}
else if ( isHandleType( commandIt->second.params[returnParams[0]].type.type ) )
{
if ( vectorParams.empty() )
{
str = generateRAIIHandleCommandFactory( commandIt, initialSkipCount, returnParams, vectorParams, definition, false );
}
}
else if ( commandIt->second.params[returnParams[0]].type.type == "void" )
{
if ( vectorParams.size() == 1 )
{
if ( returnParams[0] == vectorParams.begin()->first )
{
if ( commandIt->first == stripPluralS( commandIt->first ) )
{
str = generateRAIIHandleCommandVoid1ReturnVoidVectorSingular( commandIt, initialSkipCount, vectorParams, returnParams[0], definition );
}
}
}
}
else
{
auto returnVectorParamIt = vectorParams.find( returnParams[0] );
if ( returnVectorParamIt == vectorParams.end() )
{
str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false );
if ( isStructureChainAnchor( commandIt->second.params[returnParams[0]].type.type ) )
{
str += generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, true, false );
}
}
}
break;
case 2:
if ( commandIt->second.params[returnParams[0]].type.type == "uint32_t" )
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{
if ( vectorParams.size() == 1 )
{
if ( returnParams[0] == vectorParams.begin()->second )
{
if ( returnParams[1] == vectorParams.begin()->first )
{
str = generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, false, false );
if ( isStructureChainAnchor( commandIt->second.params[returnParams[1]].type.type ) )
{
str += generateRAIIHandleCommandEnhanced( commandIt, initialSkipCount, returnParams, vectorParams, definition, true, false );
}
}
}
}
}
break;
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}
return str;
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}
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std::string VulkanHppGenerator::generateRAIIHandleCommandVoid1ReturnVoidVectorSingular( std::map<std::string, CommandData>::const_iterator commandIt,
size_t initialSkipCount,
std::map<size_t, size_t> const & vectorParams,
size_t returnParam,
bool definition ) const
{
std::set<size_t> skippedParams = determineSkippedParams( commandIt->second.params, initialSkipCount, vectorParams, { returnParam }, true );
std::set<size_t> singularParams = determineSingularParams( returnParam, vectorParams );
std::string argumentList = generateArgumentListEnhanced(
commandIt->second.params, { returnParam }, vectorParams, skippedParams, singularParams, { returnParam }, definition, false, false, false );
std::string commandName = generateCommandName( commandIt->first, commandIt->second.params, initialSkipCount, m_tags, true, false );
std::string argumentTemplates = generateArgumentTemplates( commandIt->second.params, { returnParam }, vectorParams, { returnParam }, false, true );
std::string dataType = stripPrefix( commandIt->second.params[returnParam].name, "p" ) + "Type";
if ( definition )
{
std::string const singularDefinitionTemplate =
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R"(
${argumentTemplates}
VULKAN_HPP_NODISCARD ${dataType} ${className}::${commandName}( ${argumentList} ) const
{
${dataType} ${dataName};
getDispatcher()->${vkCommand}( ${callArguments} );
return ${dataName};
}
)";
std::string callArguments = generateCallArgumentsEnhanced( commandIt->second, initialSkipCount, false, singularParams, {}, true );
std::string dataName = startLowerCase( stripPrefix( commandIt->second.params[returnParam].name, "p" ) );
return replaceWithMap( singularDefinitionTemplate,
{ { "argumentList", argumentList },
{ "argumentTemplates", argumentTemplates },
{ "callArguments", callArguments },
{ "className", stripPrefix( commandIt->second.params[initialSkipCount - 1].type.type, "Vk" ) },
{ "commandName", commandName },
{ "dataName", dataName },
{ "dataType", dataType },
{ "vkCommand", commandIt->first } } );
}
else
{
std::string const singularDeclarationTemplate =
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R"(
${argumentTemplates}
VULKAN_HPP_NODISCARD ${dataType} ${commandName}( ${argumentList} ) const;
)";
return replaceWithMap( singularDeclarationTemplate,
{
{ "argumentList", argumentList },
{ "argumentTemplates", argumentTemplates },
{ "commandName", commandName },
{ "dataType", dataType },
} );
}
}
std::pair<std::string, std::string>
VulkanHppGenerator::generateRAIIHandleConstructor( std::pair<std::string, HandleData> const & handle,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator constructorIt,
std::string const & enter,
std::string const & leave ) const
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{
std::string singularConstructor, arrayConstructor;
if ( constructorIt->second.returnType == "VkResult" )
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{
std::tie( singularConstructor, arrayConstructor ) = generateRAIIHandleConstructorResult( handle, constructorIt, enter, leave );
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}
else if ( constructorIt->second.returnType == "void" )
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{
std::tie( singularConstructor, arrayConstructor ) = generateRAIIHandleConstructorVoid( handle, constructorIt, enter, leave );
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}
if ( singularConstructor.empty() && arrayConstructor.empty() )
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{
throw std::runtime_error( "Never encountered a function like <" + constructorIt->first + "> !" );
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}
return std::make_pair( singularConstructor, arrayConstructor );
}
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std::pair<std::string, std::string>
VulkanHppGenerator::generateRAIIHandleConstructor1Return2Vector( std::pair<std::string, HandleData> const & handle,
std::map<std::string, CommandData>::const_iterator constructorIt,
std::string const & enter,
std::string const & leave,
size_t returnParam,
std::map<size_t, size_t> const & vectorParams ) const
{
if ( returnParam == std::next( vectorParams.begin() )->first )
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{
if ( vectorParams.begin()->second == std::next( vectorParams.begin() )->second )
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{
if ( constructorIt->second.params[vectorParams.begin()->second].type.type == "uint32_t" )
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{
if ( isStructureChainAnchor( constructorIt->second.params[vectorParams.begin()->first].type.type ) )
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{
std::string singularConstructor;
auto lenParamIt = constructorIt->second.params.begin() + vectorParams.begin()->second;
auto handleParamIt = constructorIt->second.params.begin() + std::next( vectorParams.begin() )->first;
if ( !checkEquivalentSingularConstructor( handle.second.constructorIts, constructorIt, lenParamIt ) )
{
singularConstructor = generateRAIIHandleConstructorVectorSingular( handle, constructorIt, handleParamIt, enter, leave );
}
return std::make_pair( singularConstructor, generateRAIIHandleConstructorVector( handle, constructorIt, handleParamIt, enter, leave ) );
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}
}
}
}
return std::make_pair( "", "" );
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}
std::pair<std::string, std::string> VulkanHppGenerator::generateRAIIHandleConstructors( std::pair<std::string, HandleData> const & handle ) const
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{
auto [enter, leave] = generateProtection( handle.first, !handle.second.alias.empty() );
std::string singularConstructors, arrayConstructors;
for ( auto constructorIt : handle.second.constructorIts )
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{
// there is a non-const parameter with handle type : the to-be-constructed handle
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// check for additional enter/leave guards for the constructors
auto [constructorEnter, constructorLeave] = generateProtection( constructorIt->second.referencedIn, std::string() );
if ( constructorEnter == enter )
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{
constructorEnter.clear();
constructorLeave.clear();
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}
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auto [singularConstructor, arrayConstructor] = generateRAIIHandleConstructor( handle, constructorIt, constructorEnter, constructorLeave );
arrayConstructors += arrayConstructor;
singularConstructors += singularConstructor;
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}
singularConstructors += generateRAIIHandleConstructorTakeOwnership( handle );
return std::make_pair( singularConstructors, arrayConstructors );
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}
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std::string VulkanHppGenerator::generateRAIIHandleConstructorArgument( ParamData const & param, bool definition, bool singular, bool takesOwnership ) const
{
std::string argument;
if ( param.type.isConstPointer() )
{
assert( beginsWith( param.type.type, "Vk" ) );
assert( beginsWith( param.name, "p" ) );
std::string argumentName = startLowerCase( stripPrefix( param.name, "p" ) );
std::string argumentType = "VULKAN_HPP_NAMESPACE::" + stripPrefix( param.type.type, "Vk" );
if ( param.optional )
{
assert( param.len.empty() );
argument = "VULKAN_HPP_NAMESPACE::Optional<const " + argumentType + "> " + argumentName + ( definition ? "" : " = nullptr" );
}
else if ( param.len.empty() )
{
argument = argumentType + " const & " + argumentName;
}
else if ( singular )
{
argument = argumentType + " const & " + stripPluralS( argumentName );
}
else
{
argument = "VULKAN_HPP_NAMESPACE::ArrayProxy<" + argumentType + "> const & " + argumentName;
}
}
else if ( specialPointerTypes.find( param.type.type ) != specialPointerTypes.end() )
{
assert( !param.optional );
assert( param.type.isNonConstPointer() );
argument = param.type.type + " & " + param.name;
}
else if ( ( param.type.isValue() ) && isHandleType( param.type.type ) )
{
if ( takesOwnership )
{
assert( !param.optional );
argument = param.type.type + " " + param.name;
}
else
{
argument = "VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::" + stripPrefix( param.type.type, "Vk" );
if ( param.optional )
{
argument = "VULKAN_HPP_NAMESPACE::Optional<const " + argument + ">";
}
argument += " const & " + param.name;
}
}
else
{
assert( !param.optional );
argument = param.type.compose( "VULKAN_HPP_NAMESPACE" ) + " " + param.name;
}
return argument;
}
std::string VulkanHppGenerator::generateRAIIHandleConstructorArguments( std::pair<std::string, HandleData> const & handle,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator constructorIt,
bool singular,
bool takesOwnership ) const
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{
auto [parentType, parentName] = getParentTypeAndName( handle );
std::string arguments = "VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::" + parentType + " const & " + parentName;
if ( takesOwnership )
{
arguments += ", " + handle.first + " " + generateRAIIHandleConstructorParamName( handle.first, handle.second.destructorIt );
}
if ( constructorIt != m_commands.end() )
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{
parentType = "Vk" + parentType;
bool skip = skipLeadingGrandParent( handle );
for ( size_t i = skip ? 1 : 0; i < constructorIt->second.params.size(); i++ )
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{
ParamData const & param = constructorIt->second.params[i];
// filter parent and handle type
if ( ( param.type.type != parentType ) && ( param.type.type != handle.first ) )
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{
// the specialPointerTypes are considered const-pointers!
if ( param.type.isNonConstPointer() && ( specialPointerTypes.find( param.type.type ) == specialPointerTypes.end() ) )
{
// this is supposed to be the returned size on an enumeration function!
#if !defined( NDEBUG )
assert( param.type.type == "uint32_t" );
auto typeIt = std::find_if( constructorIt->second.params.begin(),
constructorIt->second.params.end(),
[&handle]( ParamData const & pd ) { return pd.type.type == handle.first; } );
assert( typeIt != constructorIt->second.params.end() );
assert( typeIt->len == param.name );
#endif
continue;
}
else if ( std::find_if( constructorIt->second.params.begin(),
constructorIt->second.params.end(),
[&param]( ParamData const & pd ) { return pd.len == param.name; } ) != constructorIt->second.params.end() )
{
// this is the len of an other parameter, which will be mapped to an ArrayProxy
assert( param.type.isValue() && ( param.type.type == "uint32_t" ) );
assert( param.arraySizes.empty() && param.len.empty() && !param.optional );
continue;
}
arguments += ", " + generateRAIIHandleConstructorArgument( param, false, singular, takesOwnership );
}
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}
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}
return arguments;
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}
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std::string
VulkanHppGenerator::generateRAIIHandleConstructorCallArguments( std::pair<std::string, HandleData> const & handle,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator constructorIt,
bool nonConstPointerAsNullptr,
std::set<size_t> const & singularParams,
bool allocatorIsMemberVariable ) const
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{
std::string arguments;
bool encounteredArgument = false;
size_t i = 0;
if ( skipLeadingGrandParent( handle ) )
{
assert( ( 1 < constructorIt->second.params.size() ) && ( m_handles.find( constructorIt->second.params[0].type.type ) != m_handles.end() ) &&
( m_handles.find( constructorIt->second.params[1].type.type ) != m_handles.end() ) );
arguments += "static_cast<" + constructorIt->second.params[0].type.type + ">( " + constructorIt->second.params[1].name + ".get" +
stripPrefix( constructorIt->second.params[0].type.type, "Vk" ) + "() )";
encounteredArgument = true;
i = 1;
}
for ( ; i < constructorIt->second.params.size(); ++i )
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{
ParamData const & param = constructorIt->second.params[i];
if ( encounteredArgument )
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{
arguments += ", ";
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}
if ( param.type.type == handle.first )
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{
assert( param.type.isNonConstPointer() && param.arraySizes.empty() );
if ( param.len.empty() || !singularParams.empty() )
{
assert( !param.optional );
assert( singularParams.empty() || ( param.len == constructorIt->second.params[*singularParams.begin()].name ) );
std::string paramName = generateRAIIHandleConstructorParamName( handle.first, handle.second.destructorIt );
arguments += "reinterpret_cast<" + handle.first + "*>( &m_" + paramName + " )";
}
else if ( nonConstPointerAsNullptr )
{
arguments += "nullptr";
}
else
{
arguments += startLowerCase( stripPrefix( param.name, "p" ) ) + ".data()";
}
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}
else if ( param.type.type == "VkAllocationCallbacks" )
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{
assert( param.optional );
if ( allocatorIsMemberVariable )
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{
arguments += "reinterpret_cast<const VkAllocationCallbacks *>( m_allocator )";
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}
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else
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{
arguments += "reinterpret_cast<const VkAllocationCallbacks *>(static_cast<const VULKAN_HPP_NAMESPACE::AllocationCallbacks *>( allocator ) )";
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}
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}
else if ( m_handles.find( param.type.type ) != m_handles.end() )
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{
assert( param.type.isValue() && param.arraySizes.empty() && param.len.empty() );
if ( param.optional )
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{
arguments += param.name + " ? static_cast<" + param.type.type + ">( **" + param.name + " ) : 0";
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}
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else
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{
arguments += "static_cast<" + param.type.type + ">( *" + param.name + " )";
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}
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}
else
{
assert( !param.optional );
arguments += generateCallArgumentEnhanced( constructorIt->second.params, i, nonConstPointerAsNullptr, singularParams, {}, true );
}
encounteredArgument = true;
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}
return arguments;
}
std::string VulkanHppGenerator::generateRAIIHandleConstructorEnumerate( std::pair<std::string, HandleData> const & handle,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator constructorIt,
std::vector<ParamData>::const_iterator handleParamIt,
std::vector<ParamData>::const_iterator lenParamIt,
std::string const & enter,
std::string const & leave ) const
{
std::string handleConstructorArguments = generateRAIIHandleSingularConstructorArguments( handle, constructorIt );
std::string handleType = stripPrefix( handle.first, "Vk" );
std::string dispatcherType = hasParentHandle( handle.first, "VkDevice" ) ? "VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::DeviceDispatcher"
: "VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::InstanceDispatcher";
const std::string constructorTemplate =
R"(
${enter} ${handleType}s( ${constructorArguments} )
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{
${dispatcherType} const * dispatcher = ${parentName}.getDispatcher();
std::vector<${vectorElementType}> ${vectorName};
${counterType} ${counterName};
VULKAN_HPP_NAMESPACE::Result result;
do
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{
result = static_cast<VULKAN_HPP_NAMESPACE::Result>( dispatcher->${constructorCall}( ${firstCallArguments} ) );
if ( ( result == VULKAN_HPP_NAMESPACE::Result::eSuccess ) && ${counterName} )
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{
${vectorName}.resize( ${counterName} );
result = static_cast<VULKAN_HPP_NAMESPACE::Result>( dispatcher->${constructorCall}( ${secondCallArguments} ) );
}
} while ( result == VULKAN_HPP_NAMESPACE::Result::eIncomplete );
if ( result == VULKAN_HPP_NAMESPACE::Result::eSuccess )
{
VULKAN_HPP_ASSERT( ${counterName} <= ${vectorName}.size() );
this->reserve( ${counterName} );
for ( auto const & ${handleName} : ${vectorName} )
{
this->emplace_back( ${parentName}, ${handleConstructorArguments} );
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}
}
else
{
throwResultException( result, "${constructorCall}" );
}
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}
${leave})";
return replaceWithMap( constructorTemplate,
{ { "constructorArguments", generateRAIIHandleConstructorArguments( handle, constructorIt, false, false ) },
{ "constructorCall", constructorIt->first },
{ "counterName", startLowerCase( stripPrefix( lenParamIt->name, "p" ) ) },
{ "counterType", lenParamIt->type.type },
{ "dispatcherType", dispatcherType },
{ "enter", enter },
{ "firstCallArguments", generateRAIIHandleConstructorCallArguments( handle, constructorIt, true, {}, true ) },
{ "handleConstructorArguments", handleConstructorArguments },
{ "handleName", startLowerCase( handleType ) },
{ "handleType", handleType },
{ "leave", leave },
{ "parentName", constructorIt->second.params.front().name },
{ "secondCallArguments", generateRAIIHandleConstructorCallArguments( handle, constructorIt, false, {}, true ) },
{ "vectorElementType", handleParamIt->type.type },
{ "vectorName", startLowerCase( stripPrefix( handleParamIt->name, "p" ) ) } } );
}
std::string
VulkanHppGenerator::generateRAIIHandleConstructorInitializationList( std::pair<std::string, HandleData> const & handle,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator constructorIt,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator destructorIt,
bool takesOwnership ) const
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{
auto [parentType, parentName] = getParentTypeAndName( handle );
std::string handleName = generateRAIIHandleConstructorParamName( handle.first, destructorIt );
std::string initializationList;
if ( destructorIt != m_commands.end() )
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{
for ( auto destructorParam : destructorIt->second.params )
{
if ( destructorParam.type.type == "Vk" + parentType )
{
initializationList += "m_" + parentName + "( *" + parentName + " ), ";
}
else if ( destructorParam.type.type == handle.first )
{
if ( takesOwnership )
{
initializationList += "m_" + handleName + "( " + handleName + " ), ";
}
}
else if ( destructorParam.type.type == "VkAllocationCallbacks" )
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{
assert( destructorParam.type.isConstPointer() && destructorParam.arraySizes.empty() && destructorParam.len.empty() && destructorParam.optional );
initializationList += "m_allocator( static_cast<const VULKAN_HPP_NAMESPACE::AllocationCallbacks *>( allocator ) ), ";
}
else if ( isHandleType( destructorParam.type.type ) )
{
assert( destructorParam.type.isValue() && destructorParam.arraySizes.empty() && destructorParam.len.empty() && !destructorParam.optional );
initializationList += "m_" + destructorParam.name + "( ";
auto constructorParamIt = std::find_if( constructorIt->second.params.begin(),
constructorIt->second.params.end(),
[&destructorParam]( ParamData const & pd ) { return pd.type.type == destructorParam.type.type; } );
if ( constructorParamIt != constructorIt->second.params.end() )
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{
assert( constructorParamIt->type.isValue() && constructorParamIt->arraySizes.empty() && constructorParamIt->len.empty() &&
!constructorParamIt->optional );
if ( constructorParamIt->type.type == "Vk" + parentType )
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{
initializationList += "*";
}
initializationList += constructorParamIt->name;
}
else
{
#if !defined( NDEBUG )
bool found = false;
#endif
for ( auto constructorParam : constructorIt->second.params )
{
auto structureIt = m_structures.find( constructorParam.type.type );
if ( structureIt != m_structures.end() )
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{
auto structureMemberIt = findStructMemberItByType( destructorParam.type.type, structureIt->second.members );
if ( structureMemberIt != structureIt->second.members.end() )
{
assert( constructorParam.type.isConstPointer() && constructorParam.arraySizes.empty() && constructorParam.len.empty() &&
!constructorParam.optional );
initializationList += startLowerCase( stripPrefix( constructorParam.name, "p" ) ) + "." + structureMemberIt->name;
#if !defined( NDEBUG )
found = true;
#endif
break;
}
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}
}
assert( found );
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}
initializationList += " ), ";
}
else
{
// we can ignore all other parameters here !
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}
}
}
else
{
if ( !handle.second.secondLevelCommands.empty() )
{
assert( !handle.second.constructorIts.empty() );
#if !defined( NDEBUG )
auto constructorCommandIt = m_commands.find( handle.second.constructorIts.front()->first );
#endif
assert( ( constructorCommandIt != m_commands.end() ) && ( 1 < constructorCommandIt->second.params.size() ) );
assert( std::next( constructorCommandIt->second.params.begin() )->type.type == "Vk" + parentType );
auto commandIt = m_commands.find( *handle.second.secondLevelCommands.begin() );
assert( ( commandIt != m_commands.end() ) && ( 1 < commandIt->second.params.size() ) );
assert( commandIt->second.params.front().type.type == constructorCommandIt->second.params.front().type.type );
assert( std::next( commandIt->second.params.begin() )->type.type == handle.first );
std::string grandParentType = stripPrefix( commandIt->second.params.front().type.type, "Vk" );
initializationList += "m_" + startLowerCase( grandParentType ) + "( " + parentName + ".get" + grandParentType + "() ), ";
}
if ( takesOwnership )
{
initializationList += "m_" + handleName + "( " + handleName + " ), ";
}
}
return initializationList.empty() ? initializationList : initializationList.substr( 0, initializationList.size() - 2 );
}
std::string VulkanHppGenerator::generateRAIIHandleConstructorParamName( std::string const & type,
std::map<std::string, CommandData>::const_iterator destructorIt ) const
{
if ( destructorIt != m_commands.end() )
{
auto destructorParamIt = std::find_if( destructorIt->second.params.begin(),
destructorIt->second.params.end(),
[&type]( ParamData const & destructorParam ) { return destructorParam.type.type == type; } );
if ( destructorParamIt != destructorIt->second.params.end() )
{
assert( std::find_if( std::next( destructorParamIt ),
destructorIt->second.params.end(),
[&type]( ParamData const & destructorParam ) { return destructorParam.type.type == type; } ) == destructorIt->second.params.end() );
if ( !destructorParamIt->type.isValue() )
{
return startLowerCase( stripPrefix( stripPluralS( destructorParamIt->name ), "p" ) );
}
else
{
return destructorParamIt->name;
}
}
}
return startLowerCase( stripPrefix( type, "Vk" ) );
2018-09-25 09:23:27 +00:00
}
std::pair<std::string, std::string> VulkanHppGenerator::generateRAIIHandleConstructorResult( std::pair<std::string, HandleData> const & handle,
std::map<std::string, CommandData>::const_iterator constructorIt,
std::string const & enter,
std::string const & leave ) const
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{
assert( !constructorIt->second.successCodes.empty() );
assert( constructorIt->second.successCodes[0] == "VK_SUCCESS" );
switch ( constructorIt->second.successCodes.size() )
{
case 1:
if ( !constructorIt->second.errorCodes.empty() )
{
std::vector<size_t> returnParams = determineReturnParams( constructorIt->second.params );
if ( returnParams.size() == 1 )
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{
assert( isHandleType( constructorIt->second.params[returnParams[0]].type.type ) );
std::map<size_t, size_t> vectorParams = determineVectorParams( constructorIt->second.params );
switch ( vectorParams.size() )
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{
case 0:
return std::make_pair( generateRAIIHandleConstructorResultSingleSuccessWithErrors1Return0Vector( handle, constructorIt, enter, leave ), "" );
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case 1:
if ( returnParams[0] == vectorParams.begin()->first )
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{
if ( isLenByStructMember( constructorIt->second.params[vectorParams.begin()->first].len,
constructorIt->second.params[vectorParams.begin()->second] ) )
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{
auto handleParamIt = constructorIt->second.params.begin() + returnParams[0];
return std::make_pair( "", generateRAIIHandleConstructorVector( handle, constructorIt, handleParamIt, enter, leave ) );
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}
}
break;
case 2: return generateRAIIHandleConstructor1Return2Vector( handle, constructorIt, enter, leave, returnParams[0], vectorParams );
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}
}
}
break;
case 2:
if ( !constructorIt->second.errorCodes.empty() )
{
std::vector<size_t> returnParams = determineReturnParams( constructorIt->second.params );
switch ( returnParams.size() )
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{
case 1:
assert( isHandleType( constructorIt->second.params[returnParams[0]].type.type ) );
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{
std::map<size_t, size_t> vectorParams = determineVectorParams( constructorIt->second.params );
if ( vectorParams.size() == 2 )
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{
return generateRAIIHandleConstructor1Return2Vector( handle, constructorIt, enter, leave, returnParams[0], vectorParams );
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}
}
break;
case 2:
if ( constructorIt->second.params[returnParams[0]].type.type == "uint32_t" )
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{
assert( isHandleType( constructorIt->second.params[returnParams[1]].type.type ) );
std::map<size_t, size_t> vectorParams = determineVectorParams( constructorIt->second.params );
if ( vectorParams.size() == 1 )
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{
if ( returnParams[0] == vectorParams.begin()->second )
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{
assert( returnParams[1] == vectorParams.begin()->first );
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assert( constructorIt->second.successCodes[1] == "VK_INCOMPLETE" );
auto lenParamIt = constructorIt->second.params.begin() + returnParams[0];
auto handleParamIt = constructorIt->second.params.begin() + returnParams[1];
return std::make_pair( "", generateRAIIHandleConstructorEnumerate( handle, constructorIt, handleParamIt, lenParamIt, enter, leave ) );
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}
}
}
break;
}
}
break;
case 4:
if ( !constructorIt->second.errorCodes.empty() )
{
std::vector<size_t> returnParams = determineReturnParams( constructorIt->second.params );
if ( returnParams.size() == 1 )
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{
assert( isHandleType( constructorIt->second.params[returnParams[0]].type.type ) );
std::map<size_t, size_t> vectorParams = determineVectorParams( constructorIt->second.params );
if ( vectorParams.size() == 2 )
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{
return generateRAIIHandleConstructor1Return2Vector( handle, constructorIt, enter, leave, returnParams[0], vectorParams );
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}
}
}
break;
}
return std::make_pair( "", "" );
}
std::string VulkanHppGenerator::generateRAIIHandleConstructorResultSingleSuccessWithErrors1Return0Vector(
std::pair<std::string, HandleData> const & handle,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator constructorIt,
std::string const & enter,
std::string const & leave ) const
{
auto [parentType, parentName] = getParentTypeAndName( handle );
std::string getDispatcher = parentName + ".getDispatcher()";
std::string dispatcherInitializer, dispatcherInit;
if ( ( handle.first != "VkInstance" ) && ( handle.first != "VkDevice" ) )
{
dispatcherInitializer = "m_dispatcher( " + getDispatcher + " )";
}
else
{
std::string handleType = stripPrefix( handle.first, "Vk" );
dispatcherInit = "\n m_dispatcher.reset( new VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::" + handleType + "Dispatcher( " + parentName +
".getDispatcher()->vkGet" + handleType + "ProcAddr, static_cast<" + handle.first + ">( m_" + startLowerCase( handleType ) + " ) ) );";
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}
std::string constructorArguments = generateRAIIHandleConstructorArguments( handle, constructorIt, false, false );
std::string callArguments = generateRAIIHandleConstructorCallArguments( handle, constructorIt, false, {}, handle.second.destructorIt != m_commands.end() );
std::string initializationList = generateRAIIHandleConstructorInitializationList( handle, constructorIt, handle.second.destructorIt, false );
if ( !initializationList.empty() && !dispatcherInitializer.empty() )
{
initializationList += ", ";
}
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const std::string constructorTemplate =
R"(
${enter} ${handleType}( ${constructorArguments} )
: ${initializationList}${dispatcherInitializer}
{
VULKAN_HPP_NAMESPACE::Result result = static_cast<VULKAN_HPP_NAMESPACE::Result>( ${getDispatcher}->${constructorCall}( ${callArguments} ) );
if ( ${failureCheck} )
{
throwResultException( result, "${constructorCall}" );
}${dispatcherInit}
}
${leave})";
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return replaceWithMap( constructorTemplate,
{ { "callArguments", callArguments },
{ "constructorArguments", constructorArguments },
{ "constructorCall", constructorIt->first },
{ "dispatcherInitializer", dispatcherInitializer },
{ "dispatcherInit", dispatcherInit },
{ "enter", enter },
{ "failureCheck", generateFailureCheck( constructorIt->second.successCodes ) },
{ "getDispatcher", getDispatcher },
{ "leave", leave },
{ "handleType", stripPrefix( handle.first, "Vk" ) },
{ "initializationList", initializationList } } );
}
std::string VulkanHppGenerator::generateRAIIHandleConstructorTakeOwnership( std::pair<std::string, HandleData> const & handle ) const
{
std::string handleType = stripPrefix( handle.first, "Vk" );
std::string handleName = startLowerCase( handleType );
auto [parentType, parentName] = getParentTypeAndName( handle );
std::string constructorArguments = generateRAIIHandleConstructorArguments( handle, handle.second.destructorIt, false, true );
std::string initializationList = generateRAIIHandleConstructorInitializationList( handle, handle.second.destructorIt, handle.second.destructorIt, true );
assert( !handle.second.constructorIts.empty() );
if ( 1 < handle.second.constructorIts[0]->second.successCodes.size() && ( handle.second.constructorIts[0]->second.successCodes[1] != "VK_INCOMPLETE" ) )
{
#if !defined( NDEBUG )
for ( size_t i = 1; i < handle.second.constructorIts.size(); ++i )
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{
assert( 1 < handle.second.constructorIts[i]->second.successCodes.size() );
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}
#endif
constructorArguments += ", VULKAN_HPP_NAMESPACE::Result successCode = VULKAN_HPP_NAMESPACE::Result::eSuccess";
initializationList += ", m_constructorSuccessCode( successCode )";
}
std::string dispatcherInitializer;
if ( ( handle.first != "VkInstance" ) && ( handle.first != "VkDevice" ) )
{
dispatcherInitializer = "m_dispatcher( " + parentName + ".getDispatcher() )";
}
if ( !initializationList.empty() && !dispatcherInitializer.empty() )
{
initializationList += ", ";
}
std::string dispatcherInit;
if ( ( handle.first == "VkDevice" ) || ( handle.first == "VkInstance" ) )
{
dispatcherInit = "\n m_dispatcher.reset( new VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::" + handleType + "Dispatcher( " + parentName +
".getDispatcher()->vkGet" + handleType + "ProcAddr, static_cast<" + handle.first + ">( m_" + startLowerCase( handleType ) + " ) ) );";
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}
const std::string constructorTemplate =
R"(
${handleType}( ${constructorArguments} )
: ${initializationList}${dispatcherInitializer}
{${dispatcherInit}}
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)";
return replaceWithMap( constructorTemplate,
{ { "constructorArguments", constructorArguments },
{ "dispatcherInitializer", dispatcherInitializer },
{ "dispatcherInit", dispatcherInit },
{ "handleType", handleType },
{ "initializationList", initializationList } } );
}
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std::string VulkanHppGenerator::generateRAIIHandleConstructorVector( std::pair<std::string, HandleData> const & handle,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator constructorIt,
std::vector<ParamData>::const_iterator handleParamIt,
std::string const & enter,
std::string const & leave ) const
{
std::string vectorSize;
auto lenIt = std::find_if( constructorIt->second.params.begin(),
constructorIt->second.params.end(),
[&handleParamIt]( ParamData const & pd ) { return pd.name == handleParamIt->len; } );
if ( lenIt == constructorIt->second.params.end() )
{
std::vector<std::string> lenParts = tokenize( handleParamIt->len, "->" );
assert( lenParts.size() == 2 );
lenIt = std::find_if(
constructorIt->second.params.begin(), constructorIt->second.params.end(), [&lenParts]( ParamData const & pd ) { return pd.name == lenParts[0]; } );
#if !defined( NDEBUG )
assert( lenIt != constructorIt->second.params.end() );
auto structureIt = m_structures.find( lenIt->type.type );
assert( structureIt != m_structures.end() );
assert( isStructMember( lenParts[1], structureIt->second.members ) );
assert( constructorIt->second.successCodes.size() == 1 );
#endif
vectorSize = startLowerCase( stripPrefix( lenParts[0], "p" ) ) + "." + lenParts[1];
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}
else
{
auto arrayIt = std::find_if( constructorIt->second.params.begin(),
constructorIt->second.params.end(),
[&lenIt, &handleParamIt]( ParamData const & pd ) { return ( pd.len == lenIt->name ) && ( pd.name != handleParamIt->name ); } );
assert( arrayIt != constructorIt->second.params.end() );
vectorSize = startLowerCase( stripPrefix( arrayIt->name, "p" ) ) + ".size()";
}
std::string handleConstructorArguments = generateRAIIHandleSingularConstructorArguments( handle, constructorIt );
std::string handleType = stripPrefix( handle.first, "Vk" );
std::string successCodePassToElement = ( 1 < constructorIt->second.successCodes.size() ) ? ", result" : "";
const std::string constructorTemplate =
R"(
${enter} ${handleType}s( ${constructorArguments} )
{
VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::DeviceDispatcher const * dispatcher = ${parentName}.getDispatcher();
std::vector<${vectorElementType}> ${vectorName}( ${vectorSize} );
VULKAN_HPP_NAMESPACE::Result result = static_cast<VULKAN_HPP_NAMESPACE::Result>( dispatcher->${constructorCall}( ${callArguments} ) );
if ( ${successCheck} )
{
this->reserve( ${vectorSize} );
for ( auto const & ${handleName} : ${vectorName} )
{
this->emplace_back( ${parentName}, ${handleConstructorArguments}${successCodePassToElement} );
}
}
else
{
throwResultException( result, "${constructorCall}" );
}
}
${leave})";
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return replaceWithMap( constructorTemplate,
{ { "callArguments", generateRAIIHandleConstructorCallArguments( handle, constructorIt, false, {}, false ) },
{ "constructorArguments", generateRAIIHandleConstructorArguments( handle, constructorIt, false, false ) },
{ "constructorCall", constructorIt->first },
{ "enter", enter },
{ "handleConstructorArguments", handleConstructorArguments },
{ "handleName", startLowerCase( handleType ) },
{ "handleType", handleType },
{ "leave", leave },
{ "parentName", constructorIt->second.params.front().name },
{ "successCheck", generateSuccessCheck( constructorIt->second.successCodes ) },
{ "successCodePassToElement", successCodePassToElement },
{ "vectorElementType", handleParamIt->type.type },
{ "vectorName", startLowerCase( stripPrefix( handleParamIt->name, "p" ) ) },
{ "vectorSize", vectorSize } } );
}
std::string
VulkanHppGenerator::generateRAIIHandleConstructorVectorSingular( std::pair<std::string, HandleData> const & handle,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator constructorIt,
std::vector<ParamData>::const_iterator handleParamIt,
std::string const & enter,
std::string const & leave ) const
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{
size_t returnParam = static_cast<size_t>( std::distance( constructorIt->second.params.begin(), handleParamIt ) );
std::map<size_t, size_t> vectorParams = determineVectorParams( constructorIt->second.params );
std::set<size_t> singularParams = determineSingularParams( returnParam, vectorParams );
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std::string callArguments = generateRAIIHandleConstructorCallArguments( handle, constructorIt, false, singularParams, true );
std::string initializationList = generateRAIIHandleConstructorInitializationList( handle, constructorIt, handle.second.destructorIt, false );
assert( !initializationList.empty() );
std::string failureCheck = generateFailureCheck( constructorIt->second.successCodes );
replaceAll( failureCheck, "result", "m_constructorSuccessCode" );
const std::string singularConstructorTemplate =
R"(
${enter} ${handleType}( ${constructorArguments} )
: ${initializationList}, m_dispatcher( ${firstArgument}.getDispatcher() )
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{
m_constructorSuccessCode = static_cast<VULKAN_HPP_NAMESPACE::Result>( getDispatcher()->${constructorCall}( ${callArguments} ) );
if ( ${failureCheck} )
{
throwResultException( m_constructorSuccessCode, "${constructorCall}" );
}
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}
${leave})";
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return replaceWithMap( singularConstructorTemplate,
{ { "initializationList", initializationList },
{ "callArguments", callArguments },
{ "constructorArguments", generateRAIIHandleConstructorArguments( handle, constructorIt, true, false ) },
{ "constructorCall", constructorIt->first },
{ "enter", enter },
{ "firstArgument", constructorIt->second.params[0].name },
{ "failureCheck", failureCheck },
{ "leave", leave },
{ "handleType", stripPrefix( handle.first, "Vk" ) } } );
}
std::pair<std::string, std::string> VulkanHppGenerator::generateRAIIHandleConstructorVoid( std::pair<std::string, HandleData> const & handle,
std::map<std::string, CommandData>::const_iterator constructorIt,
std::string const & enter,
std::string const & leave ) const
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{
assert( constructorIt->second.successCodes.empty() && constructorIt->second.errorCodes.empty() );
std::vector<size_t> returnParams = determineReturnParams( constructorIt->second.params );
if ( returnParams.size() == 1 )
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{
assert( isHandleType( constructorIt->second.params[returnParams[0]].type.type ) );
std::map<size_t, size_t> vectorParams = determineVectorParams( constructorIt->second.params );
if ( vectorParams.empty() )
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{
return std::make_pair( generateRAIIHandleConstructorVoid1Return0Vector( handle, constructorIt, enter, leave ), "" );
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}
}
return std::make_pair( "", "" );
}
std::string
VulkanHppGenerator::generateRAIIHandleConstructorVoid1Return0Vector( std::pair<std::string, HandleData> const & handle,
std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator constructorIt,
std::string const & enter,
std::string const & leave ) const
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{
std::string callArguments = generateRAIIHandleConstructorCallArguments( handle, constructorIt, false, {}, true );
std::string constructorArguments = generateRAIIHandleConstructorArguments( handle, constructorIt, false, false );
std::string initializationList = generateRAIIHandleConstructorInitializationList( handle, constructorIt, handle.second.destructorIt, false );
if ( !initializationList.empty() )
{
initializationList += ", ";
}
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const std::string constructorTemplate =
R"(
${enter} ${handleType}( ${constructorArguments} )
: ${initializationList}m_dispatcher( ${firstArgument}.getDispatcher() )
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{
getDispatcher()->${constructorCall}( ${callArguments} );
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}
${leave})";
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return replaceWithMap( constructorTemplate,
{ { "callArguments", callArguments },
{ "constructorArguments", constructorArguments },
{ "constructorCall", constructorIt->first },
{ "enter", enter },
{ "firstArgument", constructorIt->second.params[0].name },
{ "leave", leave },
{ "handleType", stripPrefix( handle.first, "Vk" ) },
{ "initializationList", initializationList } } );
}
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std::string VulkanHppGenerator::generateRAIIHandleContext( std::pair<std::string, HandleData> const & handle,
std::set<std::string> const & specialFunctions ) const
{
const std::string contextTemplate = R"(
class Context
{
public:
#if VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL
Context()
: m_dispatcher( new VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::ContextDispatcher(
m_dynamicLoader.getProcAddress<PFN_vkGetInstanceProcAddr>( "vkGetInstanceProcAddr" ) ) )
#else
Context( PFN_vkGetInstanceProcAddr getInstanceProcAddr )
: m_dispatcher( new VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::ContextDispatcher( getInstanceProcAddr ) )
#endif
{}
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~Context() = default;
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Context( Context const & ) = delete;
Context( Context && rhs ) VULKAN_HPP_NOEXCEPT
#if VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL
: m_dynamicLoader( std::move( rhs.m_dynamicLoader ) )
, m_dispatcher( rhs.m_dispatcher.release() )
#else
: m_dispatcher( rhs.m_dispatcher.release() )
#endif
{}
Context & operator=( Context const & ) = delete;
Context & operator=( Context && rhs ) VULKAN_HPP_NOEXCEPT
{
if ( this != &rhs )
{
#if VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL
m_dynamicLoader = std::move( rhs.m_dynamicLoader );
#endif
m_dispatcher.reset( rhs.m_dispatcher.release() );
}
return *this;
}
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VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::ContextDispatcher const * getDispatcher() const
{
VULKAN_HPP_ASSERT( m_dispatcher->getVkHeaderVersion() == VK_HEADER_VERSION );
return &*m_dispatcher;
}
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void swap( VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::Context & rhs )
{
#if VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL
std::swap( m_dynamicLoader, rhs.m_dynamicLoader );
#endif
m_dispatcher.swap( rhs.m_dispatcher );
}
${memberFunctionDeclarations}
private:
#if VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL
VULKAN_HPP_NAMESPACE::DynamicLoader m_dynamicLoader;
#endif
std::unique_ptr<VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::ContextDispatcher> m_dispatcher;
};
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)";
return replaceWithMap( contextTemplate, { { "memberFunctionDeclarations", generateRAIIHandleCommandDeclarations( handle, specialFunctions ) } } );
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}
std::string VulkanHppGenerator::generateRAIIHandleDestructorCallArguments( std::string const & handleType,
std::map<std::string, CommandData>::const_iterator destructorIt ) const
{
std::string arguments;
bool encounteredArgument = false;
for ( auto param : destructorIt->second.params )
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{
if ( encounteredArgument )
{
arguments += ", ";
}
if ( param.type.type == handleType )
{
std::string handleName = param.name;
if ( param.type.isValue() )
{
arguments += "static_cast<" + handleType + ">( m_" + handleName + " )";
}
else
{
arguments += "reinterpret_cast<" + handleType + " const *>( &m_" + stripPluralS( startLowerCase( stripPrefix( handleName, "p" ) ) ) + " )";
}
}
else if ( param.type.type == "VkAllocationCallbacks" )
{
// vk::AllocationCallbacks is stored as a member of the handle class
arguments += "reinterpret_cast<const VkAllocationCallbacks *>( m_allocator )";
}
else if ( isHandleType( param.type.type ) )
{
assert( param.arraySizes.empty() );
std::string argument = "m_" + param.name;
if ( param.type.isValue() )
{
arguments += "static_cast<" + param.type.type + ">( " + argument + " )";
}
else
{
assert( param.type.isConstPointer() );
assert( !param.len.empty() &&
( std::find_if( destructorIt->second.params.begin(),
destructorIt->second.params.end(),
[&param]( ParamData const & pd ) { return pd.name == param.len; } ) != destructorIt->second.params.end() ) );
arguments += "reinterpret_cast<" + param.type.type + " const *>( &" + argument + " )";
}
}
else
{
assert( ( param.type.type == "uint32_t" ) && param.type.isValue() && param.arraySizes.empty() && param.len.empty() && !param.optional );
assert( std::find_if( destructorIt->second.params.begin(),
destructorIt->second.params.end(),
[&param]( ParamData const & pd ) { return pd.len == param.name; } ) != destructorIt->second.params.end() );
arguments += "1";
}
encounteredArgument = true;
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}
return arguments;
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}
std::tuple<std::string, std::string, std::string, std::string, std::string, std::string>
VulkanHppGenerator::generateRAIIHandleDetails( std::pair<std::string, HandleData> const & handle ) const
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{
std::string getConstructorSuccessCode;
bool multiSuccessCodeContructor = isMultiSuccessCodeConstructor( handle.second.constructorIts );
if ( multiSuccessCodeContructor )
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{
getConstructorSuccessCode = R"(
VULKAN_HPP_NAMESPACE::Result getConstructorSuccessCode() const
{
return m_constructorSuccessCode;
}
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)";
}
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auto [parentType, parentName] = getParentTypeAndName( handle );
std::string handleType = stripPrefix( handle.first, "Vk" );
std::string handleName = generateRAIIHandleConstructorParamName( handle.first, handle.second.destructorIt );
std::string clearMembers, moveConstructorInitializerList, moveAssignmentInstructions, memberVariables, swapMembers;
if ( handle.second.destructorIt != m_commands.end() )
{
moveAssignmentInstructions = " clear();";
clearMembers = " if ( m_" + handleName + " )\n";
clearMembers += " {\n";
clearMembers += " getDispatcher()->" + handle.second.destructorIt->first + "( " +
generateRAIIHandleDestructorCallArguments( handle.first, handle.second.destructorIt ) + " );\n";
clearMembers += " }";
for ( auto const & destructorParam : handle.second.destructorIt->second.params )
{
std::string memberName, memberType;
if ( destructorParam.type.type == "Vk" + parentType )
{
memberName = parentName;
memberType = "VULKAN_HPP_NAMESPACE::" + parentType;
}
else if ( destructorParam.type.type == handle.first )
{
memberName = handleName;
memberType = "VULKAN_HPP_NAMESPACE::" + handleType;
}
else if ( std::find_if( handle.second.destructorIt->second.params.begin(),
handle.second.destructorIt->second.params.end(),
[&destructorParam]( ParamData const & pd )
{ return pd.len == destructorParam.name; } ) == handle.second.destructorIt->second.params.end() )
{
std::string name = destructorParam.name;
if ( !destructorParam.type.isValue() )
{
name = startLowerCase( stripPrefix( name, "p" ) );
}
memberName = name;
memberType = destructorParam.type.compose( "VULKAN_HPP_NAMESPACE" );
}
if ( !memberName.empty() )
{
clearMembers += "\n m_" + memberName + " = nullptr;";
moveConstructorInitializerList += "m_" + memberName + "( VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::exchange( rhs.m_" + memberName + ", {} ) ), ";
moveAssignmentInstructions +=
"\n m_" + memberName + " = VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::exchange( rhs.m_" + memberName + ", {} );";
memberVariables += "\n " + memberType + " m_" + memberName + " = {};";
swapMembers += "\n std::swap( m_" + memberName + ", rhs.m_" + memberName + " );";
}
}
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}
else
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{
if ( !handle.second.secondLevelCommands.empty() )
{
assert( !handle.second.constructorIts.empty() );
assert( !handle.second.constructorIts.front()->second.params.empty() );
auto const & frontType = handle.second.constructorIts.front()->second.params.front().type.type;
assert( isHandleType( frontType ) );
#if !defined( NDEBUG )
auto handleIt = m_handles.find( "Vk" + parentType );
#endif
assert( handleIt != m_handles.end() );
assert( handleIt->second.parent == frontType );
std::string frontName = handle.second.constructorIts.front()->second.params.front().name;
clearMembers += "\n m_" + frontName + " = nullptr;";
moveConstructorInitializerList = "m_" + frontName + "( VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::exchange( rhs.m_" + frontName + ", {} ) ), ";
moveAssignmentInstructions =
"\n m_" + frontName + " = VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::exchange( rhs.m_" + frontName + ", {} );";
memberVariables = "\n VULKAN_HPP_NAMESPACE::" + stripPrefix( frontType, "Vk" ) + " m_" + frontName + " = {};";
swapMembers = "\n std::swap( m_" + frontName + ", rhs.m_" + frontName + " );";
}
clearMembers += "\n m_" + handleName + " = nullptr;";
moveConstructorInitializerList += "m_" + handleName + "( VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::exchange( rhs.m_" + handleName + ", {} ) ), ";
moveAssignmentInstructions +=
"\n m_" + handleName + " = VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::exchange( rhs.m_" + handleName + ", {} );";
memberVariables += "\n VULKAN_HPP_NAMESPACE::" + handleType + " m_" + handleName + " = {};";
swapMembers += "\n std::swap( m_" + handleName + ", rhs.m_" + handleName + " );";
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}
if ( multiSuccessCodeContructor )
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{
clearMembers += "\n m_constructorSuccessCode = VULKAN_HPP_NAMESPACE::Result::eErrorUnknown;";
memberVariables += "\n VULKAN_HPP_NAMESPACE::Result m_constructorSuccessCode = VULKAN_HPP_NAMESPACE::Result::eErrorUnknown;";
swapMembers += "\n std::swap( m_constructorSuccessCode, rhs.m_constructorSuccessCode );";
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}
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if ( handle.first == "VkInstance" )
{
memberVariables += "\n std::unique_ptr<VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::InstanceDispatcher> m_dispatcher;";
}
else if ( handle.first == "VkDevice" )
{
memberVariables += "\n std::unique_ptr<VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::DeviceDispatcher> m_dispatcher;";
}
else if ( handle.second.constructorIts.front()->second.params.front().type.type == "VkDevice" )
{
memberVariables += "\n VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::DeviceDispatcher const * m_dispatcher = nullptr;";
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}
else
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{
memberVariables += "\n VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::InstanceDispatcher const * m_dispatcher = nullptr;";
}
clearMembers += "\n m_dispatcher = nullptr;";
swapMembers += "\n std::swap( m_dispatcher, rhs.m_dispatcher );";
if ( ( handle.first == "VkInstance" ) || ( handle.first == "VkDevice" ) )
{
moveConstructorInitializerList += "m_dispatcher( rhs.m_dispatcher.release() )";
moveAssignmentInstructions += "\n m_dispatcher.reset( rhs.m_dispatcher.release() );";
}
else
{
moveConstructorInitializerList += "m_dispatcher( VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::exchange( rhs.m_dispatcher, nullptr ) )";
moveAssignmentInstructions += "\n m_dispatcher = VULKAN_HPP_NAMESPACE::VULKAN_HPP_RAII_NAMESPACE::exchange( rhs.m_dispatcher, nullptr );";
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}
return std::make_tuple( clearMembers, getConstructorSuccessCode, memberVariables, moveConstructorInitializerList, moveAssignmentInstructions, swapMembers );
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}
std::string VulkanHppGenerator::generateRAIIHandleForwardDeclarations( std::vector<RequireData> const & requireData, std::string const & title ) const
{
std::string str;
for ( auto const & require : requireData )
{
for ( auto const & type : require.types )
{
auto handleIt = m_handles.find( type );
if ( handleIt != m_handles.end() )
{
str += " class " + stripPrefix( handleIt->first, "Vk" ) + ";\n";
}
}
}
return addTitleAndProtection( title, str );
}
std::string VulkanHppGenerator::generateRAIIHandleSingularConstructorArguments( std::pair<std::string, HandleData> const & handle,
std::map<std::string, CommandData>::const_iterator constructorIt ) const
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{
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std::string arguments = startLowerCase( stripPrefix( handle.first, "Vk" ) );
if ( handle.second.destructorIt != m_commands.end() )
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{
auto [parentType, parentName] = getParentTypeAndName( handle );
parentType = "Vk" + parentType;
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for ( auto const & destructorParam : handle.second.destructorIt->second.params )
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{
if ( ( destructorParam.type.type != parentType ) && ( destructorParam.type.type != handle.first ) &&
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( std::find_if( handle.second.destructorIt->second.params.begin(),
handle.second.destructorIt->second.params.end(),
[&destructorParam]( ParamData const & pd )
{ return pd.len == destructorParam.name; } ) == handle.second.destructorIt->second.params.end() ) )
{
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if ( std::find_if( constructorIt->second.params.begin(),
constructorIt->second.params.end(),
[&destructorParam]( ParamData const & pd )
{ return pd.type.type == destructorParam.type.type; } ) != constructorIt->second.params.end() )
{
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if ( isHandleType( destructorParam.type.type ) )
{
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assert( destructorParam.type.isValue() );
arguments += ", static_cast<" + destructorParam.type.type + ">( *" + destructorParam.name + " )";
}
else
{
assert( destructorParam.type.type == "VkAllocationCallbacks" );
arguments += ", allocator";
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}
}
else
{
#if !defined( NDEBUG )
bool found = false;
#endif
for ( auto const & constructorParam : constructorIt->second.params )
{
auto structureIt = m_structures.find( constructorParam.type.type );
if ( structureIt != m_structures.end() )
{
auto memberIt = findStructMemberItByType( destructorParam.type.type, structureIt->second.members );
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if ( memberIt != structureIt->second.members.end() )
{
#if !defined( NDEBUG )
found = true;
#endif
assert( !constructorParam.type.isValue() );
std::string argument = startLowerCase( stripPrefix( constructorParam.name, "p" ) ) + "." + memberIt->name;
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if ( isHandleType( memberIt->type.type ) )
{
argument = "static_cast<" + memberIt->type.type + ">( " + argument + " )";
}
arguments += ", " + argument;
break;
}
}
}
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assert( found );
}
}
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}
}
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return arguments;
}
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std::string VulkanHppGenerator::generateRAIIHandleVectorSizeCheck( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
std::map<size_t, std::vector<size_t>> const & countToVectorMap,
std::set<size_t> const & skippedParams ) const
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{
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std::string const throwTemplate =
R"#( if ( ${zeroSizeCheck}${firstVectorName}.size() != ${secondVectorName}.size() )
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{
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throw LogicError( VULKAN_HPP_NAMESPACE_STRING "::${className}::${commandName}: ${firstVectorName}.size() != ${secondVectorName}.size()" );
})#";
std::string const throwTemplateVoid =
R"#( if ( ${zeroSizeCheck}${firstVectorName}.size() * sizeof( ${firstDataType} ) != ${secondVectorName}.size() * sizeof( ${secondDataType} ) )
{
throw LogicError( VULKAN_HPP_NAMESPACE_STRING "::${className}::${commandName}: ${firstVectorName}.size() * sizeof( ${firstDataType} ) != ${secondVectorName}.size() * sizeof( ${secondDataType} )" );
})#";
std::string const throwTemplateByLen = R"#( if ( ${vectorName}.size() != ${sizeValue} )
{
throw LogicError( VULKAN_HPP_NAMESPACE_STRING "::${className}::${commandName}: ${vectorName}.size() != ${sizeValue}" );
})#";
std::string className = stripPrefix( commandData.params[initialSkipCount - 1].type.type, "Vk" );
std::string commandName = generateCommandName( name, commandData.params, initialSkipCount, m_tags, false, false );
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std::string sizeChecks;
for ( auto const & cvm : countToVectorMap )
{
size_t defaultStartIndex = determineDefaultStartIndex( commandData.params, skippedParams );
std::string firstVectorName = startLowerCase( stripPrefix( commandData.params[cvm.second[0]].name, "p" ) );
if ( cvm.second.size() == 1 )
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{
assert( isLenByStructMember( commandData.params[cvm.second[0]].len, commandData.params[cvm.first] ) );
std::vector<std::string> lenParts = tokenize( commandData.params[cvm.second[0]].len, "->" );
assert( lenParts.size() == 2 );
std::string sizeValue = startLowerCase( stripPrefix( lenParts[0], "p" ) ) + "." + lenParts[1];
sizeChecks += replaceWithMap(
throwTemplateByLen, { { "className", className }, { "commandName", commandName }, { "sizeValue", sizeValue }, { "vectorName", firstVectorName } } );
}
else
{
for ( size_t i = 1; i < cvm.second.size(); i++ )
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{
std::string secondVectorName = startLowerCase( stripPrefix( commandData.params[cvm.second[i]].name, "p" ) );
bool withZeroSizeCheck = commandData.params[cvm.second[i]].optional && ( defaultStartIndex <= cvm.second[i] );
if ( commandData.params[cvm.second[0]].type.type == "void" )
{
assert( commandData.params[cvm.second[i]].type.type == "void" );
std::string firstDataType = stripPrefix( commandData.params[cvm.second[0]].name, "p" ) + "Type";
std::string secondDataType = stripPrefix( commandData.params[cvm.second[i]].name, "p" ) + "Type";
sizeChecks += replaceWithMap( throwTemplateVoid,
{ { "firstDataType", firstDataType },
{ "firstVectorName", firstVectorName },
{ "className", className },
{ "commandName", commandName },
{ "secondDataType", secondDataType },
{ "secondVectorName", secondVectorName },
{ "zeroSizeCheck", withZeroSizeCheck ? ( "!" + secondVectorName + ".empty() && " ) : "" } } );
}
else
{
sizeChecks += replaceWithMap( throwTemplate,
{ { "firstVectorName", firstVectorName },
{ "className", className },
{ "commandName", commandName },
{ "secondVectorName", secondVectorName },
{ "zeroSizeCheck", withZeroSizeCheck ? ( "!" + secondVectorName + ".empty() && " ) : "" } } );
}
if ( i + 1 < cvm.second.size() )
{
sizeChecks += "\n";
}
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}
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}
}
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if ( !sizeChecks.empty() )
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{
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sizeChecks += "\n";
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}
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return sizeChecks;
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}
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std::string VulkanHppGenerator::generateResultAssignment( CommandData const & commandData ) const
{
std::string resultAssignment;
if ( ( commandData.returnType != "void" ) &&
!( ( commandData.returnType == "VkResult" ) && ( commandData.successCodes.size() == 1 ) && commandData.errorCodes.empty() ) )
{
resultAssignment = commandData.returnType + " result = ";
}
return resultAssignment;
}
std::string VulkanHppGenerator::generateResultCheck(
CommandData const & commandData, std::string const & className, std::string const & classSeparator, std::string commandName, bool enumerating ) const
{
std::string resultCheck;
if ( !commandData.errorCodes.empty() )
{
std::string successCodeList = generateSuccessCodeList( commandData.successCodes, enumerating );
std::string const resultCheckTemplate =
R"(resultCheck( static_cast<VULKAN_HPP_NAMESPACE::Result>( result ), VULKAN_HPP_NAMESPACE_STRING "::${className}${classSeparator}${commandName}"${successCodeList} );)";
resultCheck = replaceWithMap(
resultCheckTemplate,
{ { "className", className }, { "classSeparator", classSeparator }, { "commandName", commandName }, { "successCodeList", successCodeList } } );
}
return resultCheck;
}
std::string VulkanHppGenerator::generateReturnStatement( std::string const & commandName,
CommandData const & commandData,
std::string const & returnVariable,
std::string const & returnType,
std::string const & dataType,
size_t initialSkipCount,
size_t returnParam,
bool unique,
bool enumerating,
bool raii ) const
{
std::string returnStatement;
if ( beginsWith( commandData.returnType, "Vk" ) )
{
if ( ( commandData.successCodes.size() == 1 ) || enumerating )
{
assert( commandData.successCodes[0] == "VK_SUCCESS" );
if ( raii || commandData.errorCodes.empty() )
{
if ( !returnVariable.empty() )
{
returnStatement = "return " + returnVariable + ";";
}
}
else
{
if ( returnVariable.empty() )
{
assert( !unique );
returnStatement = "return createResultValueType( static_cast<VULKAN_HPP_NAMESPACE::Result>( result ) );";
}
else if ( unique )
{
assert( returnParam != INVALID_INDEX );
returnStatement = "return createResultValueType( static_cast<VULKAN_HPP_NAMESPACE::Result>( result ), ";
if ( beginsWith( dataType, "std::" ) )
{
returnStatement += "std::move( unique" + startUpperCase( returnVariable ) + " )";
}
else
{
returnStatement += "UniqueHandle<" + dataType + ", Dispatch>( " + returnVariable + ", " +
generateObjectDeleter( commandName, commandData, initialSkipCount, returnParam ) + " )";
}
returnStatement += " );";
}
else
{
returnStatement = "return createResultValueType( static_cast<VULKAN_HPP_NAMESPACE::Result>( result ), " + returnVariable + " );";
}
}
}
else
{
if ( returnVariable.empty() )
{
assert( !unique );
returnStatement = "return static_cast<VULKAN_HPP_NAMESPACE::" + stripPrefix( commandData.returnType, "Vk" ) + ">( result );";
}
else if ( unique )
{
assert( returnParam != INVALID_INDEX );
assert( beginsWith( returnType, "ResultValue<" ) && endsWith( returnType, ">" ) );
returnStatement = "return " + returnType + "( static_cast<VULKAN_HPP_NAMESPACE::Result>( result ), ";
if ( beginsWith( dataType, "std::" ) )
{
returnStatement += "std::move( unique" + startUpperCase( returnVariable ) + " )";
}
else
{
returnStatement += "UniqueHandle<" + dataType + ", Dispatch>( " + returnVariable + ", " +
generateObjectDeleter( commandName, commandData, initialSkipCount, returnParam ) + " )";
}
returnStatement += " );";
}
else
{
assert( beginsWith( returnType, raii ? "std::pair<VULKAN_HPP_NAMESPACE::Result, " : "ResultValue<" ) && endsWith( returnType, ">" ) );
returnStatement =
"return " + ( raii ? "std::make_pair" : returnType ) + "( static_cast<VULKAN_HPP_NAMESPACE::Result>( result ), " + returnVariable + " );";
}
}
}
else
{
assert( !unique );
if ( returnVariable.empty() )
{
if ( commandData.returnType != "void" )
{
returnStatement = "return result;";
}
}
else
{
returnStatement = "return " + returnVariable + ";";
}
}
return returnStatement;
}
std::string VulkanHppGenerator::generateReturnType(
CommandData const & commandData, std::vector<size_t> const & returnParams, bool unique, bool chained, bool raii, std::string const & dataType ) const
{
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std::string modifiedDataType = dataType;
if ( chained )
{
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assert( !unique );
modifiedDataType = beginsWith( dataType, "std::vector" )
? ( std::string( "std::vector<StructureChain" ) + ( raii ? "" : ", StructureChainAllocator" ) + "> " )
: " StructureChain<X, Y, Z...> ";
}
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else if ( unique )
{
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assert( !chained );
assert( ( returnParams.size() == 1 ) && isHandleType( commandData.params[returnParams[0]].type.type ) );
if ( beginsWith( dataType, "std::vector" ) )
{
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auto from = dataType.find( '<' ) + 1;
assert( from != std::string::npos );
auto to = dataType.find( '>', from );
assert( to == dataType.length() - 1 );
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std::string type = dataType.substr( from, to - from );
assert( beginsWith( type, "VULKAN_HPP_NAMESPACE::" ) );
modifiedDataType.replace( from, to - from, "UniqueHandle<" + type + ", Dispatch>, " + stripPrefix( type, "VULKAN_HPP_NAMESPACE::" ) + "Allocator" );
}
else
{
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assert( !beginsWith( dataType, "std::" ) );
modifiedDataType = "UniqueHandle<" + dataType + ", Dispatch>";
}
}
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std::string returnType;
if ( ( 1 < commandData.successCodes.size() ) && returnParams.empty() && !chained )
{
assert( ( commandData.returnType == "VkResult" ) && !unique );
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returnType = "VULKAN_HPP_NAMESPACE::Result";
}
else if ( ( commandData.returnType != "VkResult" ) && ( commandData.returnType != "void" ) )
{
assert( returnParams.empty() && !chained && !unique );
if ( beginsWith( commandData.returnType, "Vk" ) )
{
returnType = "VULKAN_HPP_NAMESPACE::" + stripPrefix( commandData.returnType, "Vk" );
}
else
{
returnType = commandData.returnType;
}
}
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else if ( ( commandData.returnType == "void" ) ||
( ( commandData.returnType == "VkResult" ) && ( commandData.successCodes.size() == 1 ) && ( commandData.errorCodes.empty() || raii ) ) ||
( chained && raii ) )
{
assert( !unique );
assert( ( commandData.returnType != "void" ) || ( returnParams.size() <= 2 ) );
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returnType = modifiedDataType;
}
else
{
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assert( commandData.returnType == "VkResult" );
assert( !commandData.successCodes.empty() && ( commandData.successCodes[0] == "VK_SUCCESS" ) );
if ( ( 1 < commandData.successCodes.size() ) && ( returnParams.size() == 1 ) )
{
assert( !commandData.errorCodes.empty() && !chained );
returnType = ( raii ? "std::pair<VULKAN_HPP_NAMESPACE::Result, " : "ResultValue<" ) + modifiedDataType + ">";
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}
else
{
assert(
( ( commandData.successCodes.size() == 1 ) || ( ( commandData.successCodes.size() == 2 ) && ( commandData.successCodes[1] == "VK_INCOMPLETE" ) ) ) &&
( returnParams.size() <= 3 ) );
returnType = raii ? modifiedDataType : ( "typename ResultValueType<" + modifiedDataType + ">::type" );
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}
}
return returnType;
}
std::string VulkanHppGenerator::generateReturnVariable(
CommandData const & commandData, std::vector<size_t> const & returnParams, std::map<size_t, size_t> const & vectorParams, bool chained, bool singular ) const
{
std::string returnVariable;
switch ( returnParams.size() )
{
case 0: break; // no return variable
case 1:
if ( chained )
{
returnVariable = "structureChain";
}
else
{
returnVariable = startLowerCase( stripPrefix( commandData.params[returnParams[0]].name, "p" ) );
if ( singular )
{
returnVariable = stripPluralS( returnVariable );
}
}
break;
case 2:
if ( chained )
{
returnVariable = "structureChains";
}
else
{
auto vectorParamIt = vectorParams.find( returnParams[1] );
if ( vectorParamIt == vectorParams.end() )
{ // the return variable is simply named "data", and holds the multi-return value stuff
returnVariable = "data";
}
else
{
assert( vectorParamIt->second == returnParams[0] );
assert( !singular );
returnVariable = startLowerCase( stripPrefix( commandData.params[returnParams[1]].name, "p" ) );
}
}
break;
case 3:
assert( !chained && !singular );
assert( ( vectorParams.size() == 2 ) && ( vectorParams.begin()->first == returnParams[1] ) && ( vectorParams.begin()->second == returnParams[0] ) &&
( std::next( vectorParams.begin() )->first == returnParams[2] ) && ( std::next( vectorParams.begin() )->second == returnParams[0] ) );
returnVariable = "data";
break;
}
return returnVariable;
}
std::string VulkanHppGenerator::generateSizeCheck( std::vector<std::vector<MemberData>::const_iterator> const & arrayIts,
std::string const & structName,
bool mutualExclusiveLens ) const
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{
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std::string sizeCheck;
if ( 1 < arrayIts.size() )
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{
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static const std::string throwTextTemplate = R"( if ( ${throwCheck} )
{
throw LogicError( VULKAN_HPP_NAMESPACE_STRING"::${structName}::${structName}: ${throwCheck}" );
}
)";
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std::string assertionText, throwText;
if ( mutualExclusiveLens )
{
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// exactly one of the arrays has to be non-empty
std::string sum;
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for ( auto it : arrayIts )
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{
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sum += "!" + startLowerCase( stripPrefix( it->name, "p" ) ) + "_.empty() + ";
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}
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sum.resize( sum.size() - 3 );
assertionText += " VULKAN_HPP_ASSERT( ( " + sum + " ) <= 1);\n";
throwText += replaceWithMap( throwTextTemplate, { { "structName", structName }, { "throwCheck", "1 < ( " + sum + " )" } } );
}
else
{
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for ( size_t first = 0; first + 1 < arrayIts.size(); ++first )
{
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assert( beginsWith( arrayIts[first]->name, "p" ) );
std::string firstName = startLowerCase( stripPrefix( arrayIts[first]->name, "p" ) ) + "_";
for ( auto second = first + 1; second < arrayIts.size(); ++second )
{
assert( beginsWith( arrayIts[second]->name, "p" ) );
std::string secondName = startLowerCase( stripPrefix( arrayIts[second]->name, "p" ) ) + "_";
std::string assertionCheck = firstName + ".size() == " + secondName + ".size()";
std::string throwCheck = firstName + ".size() != " + secondName + ".size()";
if ( ( !arrayIts[first]->optional.empty() && arrayIts[first]->optional.front() ) ||
( !arrayIts[second]->optional.empty() && arrayIts[second]->optional.front() ) )
{
assertionCheck = "( " + assertionCheck + " )";
throwCheck = "( " + throwCheck + " )";
if ( !arrayIts[second]->optional.empty() && arrayIts[second]->optional.front() )
{
assertionCheck = secondName + ".empty() || " + assertionCheck;
throwCheck = "!" + secondName + ".empty() && " + throwCheck;
}
if ( !arrayIts[first]->optional.empty() && arrayIts[first]->optional.front() )
{
assertionCheck = firstName + ".empty() || " + assertionCheck;
throwCheck = "!" + firstName + ".empty() && " + throwCheck;
}
}
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assertionText += " VULKAN_HPP_ASSERT( " + assertionCheck + " );\n";
throwText += replaceWithMap( throwTextTemplate, { { "structName", structName }, { "throwCheck", throwCheck } } );
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}
}
}
sizeCheck += "\n#ifdef VULKAN_HPP_NO_EXCEPTIONS\n" + assertionText + "#else\n" + throwText + "#endif /*VULKAN_HPP_NO_EXCEPTIONS*/\n" + " ";
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}
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return sizeCheck;
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}
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std::string VulkanHppGenerator::generateStruct( std::pair<std::string, StructureData> const & structure, std::set<std::string> & listedStructs ) const
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{
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assert( listedStructs.find( structure.first ) == listedStructs.end() );
std::string str;
for ( auto const & member : structure.second.members )
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{
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auto structIt = m_structures.find( member.type.type );
if ( ( structIt != m_structures.end() ) && ( structure.first != member.type.type ) && ( listedStructs.find( member.type.type ) == listedStructs.end() ) )
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{
str += generateStruct( *structIt, listedStructs );
}
}
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if ( !structure.second.subStruct.empty() )
{
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auto structureIt = m_structures.find( structure.second.subStruct );
if ( ( structureIt != m_structures.end() ) && ( listedStructs.find( structureIt->first ) == listedStructs.end() ) )
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{
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str += generateStruct( *structureIt, listedStructs );
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}
}
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if ( structure.second.isUnion )
{
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str += generateUnion( structure );
}
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else
{
str += generateStructure( structure );
}
listedStructs.insert( structure.first );
return str;
}
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std::string VulkanHppGenerator::generateStructAssignmentOperators( std::pair<std::string, StructureData> const & structData ) const
{
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static const std::string assignmentFromVulkanType = R"(
${structName} & operator=( ${structName} const & rhs ) VULKAN_HPP_NOEXCEPT = default;
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${structName} & operator=( Vk${structName} const & rhs ) VULKAN_HPP_NOEXCEPT
{
*this = *reinterpret_cast<VULKAN_HPP_NAMESPACE::${structName} const *>( &rhs );
return *this;
}
)";
return replaceWithMap( assignmentFromVulkanType, { { "structName", stripPrefix( structData.first, "Vk" ) } } );
}
std::string VulkanHppGenerator::generateStructCompareOperators( std::pair<std::string, StructureData> const & structData ) const
{
static const std::set<std::string> simpleTypes = { "char", "double", "DWORD", "float", "HANDLE", "HINSTANCE", "HMONITOR",
"HWND", "int", "int8_t", "int16_t", "int32_t", "int64_t", "LPCWSTR",
"size_t", "uint8_t", "uint16_t", "uint32_t", "uint64_t" };
// two structs are compared by comparing each of the elements
std::string compareMembers, spaceshipMembers;
std::string intro = "";
bool nonDefaultCompare = false;
std::string spaceshipOrdering = containsFloatingPoints( structData.second.members ) ? "std::partial_ordering" : "std::strong_ordering";
for ( size_t i = 0; i < structData.second.members.size(); i++ )
{
MemberData const & member = structData.second.members[i];
auto typeIt = m_types.find( member.type.type );
assert( typeIt != m_types.end() );
if ( ( typeIt->second.category == TypeCategory::Requires ) && member.type.postfix.empty() && ( simpleTypes.find( member.type.type ) == simpleTypes.end() ) )
{
nonDefaultCompare = true;
// this type might support operator==() or operator<=>()... that is, use memcmp
compareMembers += intro + "( memcmp( &" + member.name + ", &rhs." + member.name + ", sizeof( " + member.type.type + " ) ) == 0 )";
static const std::string spaceshipMemberTemplate =
R"( if ( auto cmp = memcmp( &${name}, &rhs.${name}, sizeof( ${type} ) ); cmp != 0 )
return ( cmp < 0 ) ? ${ordering}::less : ${ordering}::greater;
)";
spaceshipMembers +=
replaceWithMap( spaceshipMemberTemplate, { { "name", member.name }, { "ordering", spaceshipOrdering }, { "type", member.type.type } } );
}
else if ( member.type.type == "char" && !member.len.empty() )
{
// compare null-terminated strings
nonDefaultCompare = true;
assert( member.len.size() < 3 );
if ( member.len.size() == 1 )
{
assert( member.len[0] == "null-terminated" );
compareMembers += intro + "( ( " + member.name + " == rhs." + member.name + " ) || ( strcmp( " + member.name + ", rhs." + member.name + " ) == 0 ) )";
static const std::string spaceshipMemberTemplate =
R"( if ( ${name} != rhs.${name} )
if ( auto cmp = strcmp( ${name}, rhs.${name} ); cmp != 0 )
return ( cmp < 0 ) ? ${ordering}::less : ${ordering}::greater;
)";
spaceshipMembers += replaceWithMap( spaceshipMemberTemplate, { { "name", member.name }, { "ordering", spaceshipOrdering } } );
}
else
{
assert( member.len[1] == "null-terminated" );
static const std::string commpareMemberTemplate = R"( [this, rhs]
{
bool equal = true;
for ( size_t i = 0; equal && ( i < ${count} ); ++i )
{
equal = ( ( ${name}[i] == rhs.${name}[i] ) || ( strcmp( ${name}[i], rhs.${name}[i] ) == 0 ) );
}
return equal;
}())";
compareMembers += intro + replaceWithMap( commpareMemberTemplate, { { "count", member.len[0] }, { "name", member.name } } );
static const std::string spaceshipMemberTemplate = R"( for ( size_t i = 0; i < ${count}; ++i )
{
if ( ${name}[i] != rhs.${name}[i] )
if ( auto cmp = strcmp( ${name}[i], rhs.${name}[i] ); cmp != 0 )
return cmp < 0 ? ${ordering}::less : ${ordering}::greater;
}
)";
spaceshipMembers +=
replaceWithMap( spaceshipMemberTemplate, { { "count", member.len[0] }, { "name", member.name }, { "ordering", spaceshipOrdering } } );
}
}
else
{
// for all others, we use the operator== of that type
compareMembers += intro + "( " + member.name + " == rhs." + member.name + " )";
spaceshipMembers += " if ( auto cmp = " + member.name + " <=> rhs." + member.name + "; cmp != 0 ) return cmp;\n";
}
intro = "\n && ";
}
std::string structName = stripPrefix( structData.first, "Vk" );
std::string compareBody, spaceshipOperator, spaceshipOperatorIf, spaceshipOperatorElse, spaceshipOperatorEndif;
if ( nonDefaultCompare )
{
compareBody = " return " + compareMembers + ";";
if ( !containsFuncPointer( structData.first ) )
{
static const std::string spaceshipOperatorTemplate =
R"( ${ordering} operator<=>( ${name} const & rhs ) const VULKAN_HPP_NOEXCEPT
{
${spaceshipMembers}
return ${ordering}::equivalent;
})";
spaceshipOperatorIf = "#if defined(VULKAN_HPP_HAS_SPACESHIP_OPERATOR)";
spaceshipOperator =
replaceWithMap( spaceshipOperatorTemplate, { { "name", structName }, { "ordering", spaceshipOrdering }, { "spaceshipMembers", spaceshipMembers } } );
spaceshipOperatorElse = "#endif\n";
spaceshipOperatorEndif = "";
}
}
else
{
// use reflection only if VULKAN_HPP_USE_REFLECT is defined
static const std::string compareBodyTemplate = R"(#if defined( VULKAN_HPP_USE_REFLECT )
return this->reflect() == rhs.reflect();
#else
return ${compareMembers};
#endif)";
compareBody = replaceWithMap( compareBodyTemplate, { { "compareMembers", compareMembers } } );
if ( !containsFuncPointer( structData.first ) )
{
spaceshipOperatorIf = "#if defined(VULKAN_HPP_HAS_SPACESHIP_OPERATOR)";
spaceshipOperator = "auto operator<=>( " + structName + " const & ) const = default;";
spaceshipOperatorElse = "#else";
spaceshipOperatorEndif = "#endif\n";
}
}
static const std::string compareTemplate = R"(
${spaceshipOperatorIf}
${spaceshipOperator}
${spaceshipOperatorElse}
bool operator==( ${name} const & rhs ) const VULKAN_HPP_NOEXCEPT
{
${compareBody}
}
bool operator!=( ${name} const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return !operator==( rhs );
}
${spaceshipOperatorEndif})";
return replaceWithMap( compareTemplate,
{ { "name", structName },
{ "compareBody", compareBody },
{ "spaceshipOperator", spaceshipOperator },
{ "spaceshipOperatorElse", spaceshipOperatorElse },
{ "spaceshipOperatorEndif", spaceshipOperatorEndif },
{ "spaceshipOperatorIf", spaceshipOperatorIf } } );
}
std::string VulkanHppGenerator::generateStructConstructors( std::pair<std::string, StructureData> const & structData ) const
{
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// the constructor with all the elements as arguments, with defaults
// and the simple copy constructor from the corresponding vulkan structure
static const std::string constructors = R"(
${constexpr}${structName}(${arguments}) VULKAN_HPP_NOEXCEPT
${initializers}
{}
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${constexpr}${structName}( ${structName} const & rhs ) VULKAN_HPP_NOEXCEPT = default;
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${structName}( Vk${structName} const & rhs ) VULKAN_HPP_NOEXCEPT
: ${structName}( *reinterpret_cast<${structName} const *>( &rhs ) )
{}
)";
std::string arguments, initializers;
bool listedArgument = false;
bool firstArgument = true;
for ( auto const & member : structData.second.members )
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{
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// gather the arguments
std::string argument = generateStructConstructorArgument( listedArgument, member, true );
if ( !argument.empty() )
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{
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listedArgument = true;
arguments += argument;
}
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// gather the initializers; skip members with exactly one legal value
if ( member.value.empty() )
{
initializers += std::string( firstArgument ? ": " : ", " ) + member.name + "( " + member.name + "_ )";
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firstArgument = false;
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}
}
auto pNextIt = std::find_if( structData.second.members.begin(), structData.second.members.end(), []( MemberData const & md ) { return md.name == "pNext"; } );
if ( pNextIt != structData.second.members.end() )
{
// add pNext as a last optional argument to the constructor
arguments += std::string( listedArgument ? ", " : "" ) + pNextIt->type.compose( "VULKAN_HPP_NAMESPACE" ) + " pNext_ = nullptr";
}
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std::string str = replaceWithMap( constructors,
{ { "arguments", arguments },
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{ "constexpr", generateConstexprString( structData.first ) },
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{ "initializers", initializers },
{ "structName", stripPrefix( structData.first, "Vk" ) } } );
str += generateStructConstructorsEnhanced( structData );
return str;
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}
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std::string VulkanHppGenerator::generateStructConstructorsEnhanced( std::pair<std::string, StructureData> const & structData ) const
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{
auto memberIts = findAll( structData.second.members.begin(),
structData.second.members.end(),
[]( MemberData const & md ) {
return !md.len.empty() && !( md.len[0] == "null-terminated" ) &&
( ( altLens.find( md.len[0] ) == altLens.end() ) || ( md.len[0] == "codeSize / 4" ) );
} );
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if ( !memberIts.empty() )
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{
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// map from len-members to all the array members using that len
std::map<std::vector<MemberData>::const_iterator, std::vector<std::vector<MemberData>::const_iterator>> lenIts;
for ( auto const & mit : memberIts )
{
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std::string lenName = ( mit->len.front() == "codeSize / 4" ) ? "codeSize" : mit->len.front();
auto lenIt = findStructMemberIt( lenName, structData.second.members );
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assert( lenIt != mit );
lenIts[lenIt].push_back( mit );
}
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std::string arguments, initializers;
bool listedArgument = false;
bool firstArgument = true;
bool arrayListed = false;
std::string templateHeader, sizeChecks;
for ( auto mit = structData.second.members.begin(); mit != structData.second.members.end(); ++mit )
{
// gather the initializers
if ( mit->name == "pNext" ) // for pNext, we just get the initializer... the argument is added at the end
{
initializers += std::string( firstArgument ? ":" : "," ) + " pNext( pNext_ )";
firstArgument = false;
}
else if ( mit->value.empty() ) // skip constant members
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{
auto litit = lenIts.find( mit );
if ( litit != lenIts.end() )
{
// len arguments just have an initalizer, from the ArrayProxyNoTemporaries size
initializers +=
( firstArgument ? ": " : ", " ) + mit->name + "( " + generateLenInitializer( mit, litit, structData.second.mutualExclusiveLens ) + " )";
sizeChecks += generateSizeCheck( litit->second, stripPrefix( structData.first, "Vk" ), structData.second.mutualExclusiveLens );
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}
else if ( std::find( memberIts.begin(), memberIts.end(), mit ) != memberIts.end() )
{
assert( beginsWith( mit->name, "p" ) );
std::string argumentName = startLowerCase( stripPrefix( mit->name, "p" ) ) + "_";
assert( endsWith( mit->type.postfix, "*" ) );
std::string argumentType = trimEnd( stripPostfix( mit->type.compose( "VULKAN_HPP_NAMESPACE" ), "*" ) );
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if ( ( mit->type.type == "void" ) && ( argumentType.find( '*' ) == std::string::npos ) )
{
// the argument after stripping one pointer is just void
assert( templateHeader.empty() );
templateHeader = " template <typename T>\n";
size_t pos = argumentType.find( "void" );
assert( pos != std::string::npos );
argumentType.replace( pos, strlen( "void" ), "T" );
}
arguments += listedArgument ? ", " : "";
arguments += "VULKAN_HPP_NAMESPACE::ArrayProxyNoTemporaries<" + argumentType + "> const & " + argumentName;
if ( arrayListed )
{
arguments += " = {}";
}
listedArgument = true;
arrayListed = true;
initializers += ( firstArgument ? ": " : ", " ) + mit->name + "( " + argumentName + ".data() )";
}
else
{
std::string argument = generateStructConstructorArgument( listedArgument, *mit, arrayListed );
if ( !argument.empty() )
{
listedArgument = true;
arguments += argument;
}
initializers += ( firstArgument ? ": " : ", " ) + mit->name + "( " + mit->name + "_ )";
}
firstArgument = false;
}
}
auto pNextIt =
std::find_if( structData.second.members.begin(), structData.second.members.end(), []( MemberData const & md ) { return md.name == "pNext"; } );
if ( pNextIt != structData.second.members.end() )
{
// add pNext as a last optional argument to the constructor
arguments += std::string( listedArgument ? ", " : "" ) + pNextIt->type.compose( "VULKAN_HPP_NAMESPACE" ) + " pNext_ = nullptr";
}
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static const std::string constructorTemplate = R"(
#if !defined( VULKAN_HPP_DISABLE_ENHANCED_MODE )
${templateHeader} ${structName}( ${arguments} )
${initializers}
{${sizeChecks}}
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
)";
return replaceWithMap( constructorTemplate,
{ { "arguments", arguments },
{ "initializers", initializers },
{ "sizeChecks", sizeChecks },
{ "structName", stripPrefix( structData.first, "Vk" ) },
{ "templateHeader", templateHeader } } );
}
return "";
}
std::string VulkanHppGenerator::generateStructConstructorArgument( bool listedArgument, MemberData const & memberData, bool withDefault ) const
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{
// skip members 'pNext' and members with a specified value, as they are never explicitly set
std::string str;
if ( ( memberData.name != "pNext" ) && memberData.value.empty() )
{
str += ( listedArgument ? ( ", " ) : "" );
if ( memberData.arraySizes.empty() )
{
str += memberData.type.compose( "VULKAN_HPP_NAMESPACE" ) + " ";
}
else
{
str += generateStandardArray( memberData.type.compose( "VULKAN_HPP_NAMESPACE" ), memberData.arraySizes ) + " const & ";
}
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str += memberData.name + "_";
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if ( withDefault )
{
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str += " = ";
auto enumIt = m_enums.find( memberData.type.type );
if ( enumIt != m_enums.end() && memberData.type.postfix.empty() )
{
str += generateEnumInitializer( memberData.type, memberData.arraySizes, enumIt->second.values, enumIt->second.isBitmask );
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}
else
{
assert( memberData.value.empty() );
// all the rest can be initialized with just {}
str += "{}";
}
}
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}
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return str;
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}
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std::string VulkanHppGenerator::generateStructHashStructure( std::pair<std::string, StructureData> const & structure,
std::set<std::string> & listedStructs ) const
{
assert( listedStructs.find( structure.first ) == listedStructs.end() );
std::string str;
for ( auto const & member : structure.second.members )
{
auto structIt = m_structures.find( member.type.type );
if ( ( structIt != m_structures.end() ) && ( structure.first != member.type.type ) && ( listedStructs.find( member.type.type ) == listedStructs.end() ) )
{
str += generateStructHashStructure( *structIt, listedStructs );
}
}
if ( !containsUnion( structure.first ) )
{
static const std::string hashTemplate = R"(
${enter}template <> struct hash<VULKAN_HPP_NAMESPACE::${structureType}>
{
std::size_t operator()(VULKAN_HPP_NAMESPACE::${structureType} const & ${structureName}) const VULKAN_HPP_NOEXCEPT
{
std::size_t seed = 0;
${hashSum}
return seed;
}
};
${leave})";
auto [enter, leave] = generateProtection( structure.first, m_structureAliasesInverse.find( structure.first ) != m_structureAliasesInverse.end() );
std::string structureType = stripPrefix( structure.first, "Vk" );
std::string structureName = startLowerCase( structureType );
str += replaceWithMap( hashTemplate,
{ { "enter", enter },
{ "hashSum", generateStructHashSum( structureName, structure.second.members ) },
{ "leave", leave },
{ "structureName", structureName },
{ "structureType", structureType } } );
}
listedStructs.insert( structure.first );
return str;
}
std::string VulkanHppGenerator::generateStructHashSum( std::string const & structName, std::vector<MemberData> const & members ) const
{
std::string hashSum;
for ( auto const & member : members )
{
if ( !member.arraySizes.empty() )
{
assert( member.arraySizes.size() < 3 );
hashSum += " for ( size_t i = 0; i < " + member.arraySizes[0] + "; ++i )\n";
hashSum += " {\n";
if ( member.arraySizes.size() == 1 )
{
hashSum += " VULKAN_HPP_HASH_COMBINE( seed, " + structName + "." + member.name + "[i] );\n";
}
else
{
hashSum += " for ( size_t j=0; j < " + member.arraySizes[1] + "; ++j )\n";
hashSum += " {\n";
hashSum += " VULKAN_HPP_HASH_COMBINE( seed, " + structName + "." + member.name + "[i][j] );\n";
hashSum += " }\n";
}
hashSum += " }\n";
}
else if ( member.type.type == "char" && !member.len.empty() )
{
assert( member.len.size() < 3 );
if ( member.len.size() == 1 )
{
assert( member.len[0] == "null-terminated" );
hashSum += " for ( const char* p = " + structName + "." + member.name + "; *p != '\\0'; ++p )\n";
hashSum += " {\n";
hashSum += " VULKAN_HPP_HASH_COMBINE( seed, *p );\n";
hashSum += " }\n";
}
else
{
assert( member.len[1] == "null-terminated" );
hashSum += " for ( size_t i = 0; i < " + structName + "." + member.len[0] + "; ++i )\n";
hashSum += " {\n";
hashSum += " for ( const char* p = " + structName + "." + member.name + "[i]; *p != '\\0'; ++p )\n";
hashSum += " {\n";
hashSum += " VULKAN_HPP_HASH_COMBINE( seed, *p );\n";
hashSum += " }\n";
hashSum += " }\n";
}
}
else
{
hashSum += " VULKAN_HPP_HASH_COMBINE( seed, " + structName + "." + member.name + " );\n";
}
}
assert( !hashSum.empty() );
return hashSum.substr( 0, hashSum.size() - 1 );
}
std::string VulkanHppGenerator::generateStructure( std::pair<std::string, StructureData> const & structure ) const
{
auto [enter, leave] = generateProtection( structure.first, m_structureAliasesInverse.find( structure.first ) != m_structureAliasesInverse.end() );
std::string str = "\n" + enter;
std::string constructorAndSetters;
constructorAndSetters += "#if !defined( VULKAN_HPP_NO_STRUCT_CONSTRUCTORS )";
constructorAndSetters += generateStructConstructors( structure );
constructorAndSetters += generateStructSubConstructor( structure );
constructorAndSetters += "#endif /*VULKAN_HPP_NO_STRUCT_CONSTRUCTORS*/\n";
constructorAndSetters += generateStructAssignmentOperators( structure );
if ( !structure.second.returnedOnly )
{
// only structs that are not returnedOnly get setters!
constructorAndSetters += "\n#if !defined( VULKAN_HPP_NO_STRUCT_SETTERS )";
for ( size_t i = 0; i < structure.second.members.size(); i++ )
{
constructorAndSetters += generateStructSetter( stripPrefix( structure.first, "Vk" ), structure.second.members, i );
}
constructorAndSetters += "#endif /*VULKAN_HPP_NO_STRUCT_SETTERS*/\n";
}
std::string structureType = stripPrefix( structure.first, "Vk" );
// the member variables
std::string members, memberNames, memberTypes, sTypeValue;
std::tie( members, memberNames, memberTypes, sTypeValue ) = generateStructMembers( structure );
// reflect is meaningfull for structs only, filter out unions
std::string reflect;
if ( !structure.second.isUnion )
{
// use reflection only if VULKAN_HPP_USE_REFLECT is defined
static const std::string reflectTemplate = R"(
#if defined( VULKAN_HPP_USE_REFLECT )
#if 14 <= VULKAN_HPP_CPP_VERSION
auto
#else
std::tuple<${memberTypes}>
#endif
reflect() const VULKAN_HPP_NOEXCEPT
{
return std::tie( ${memberNames} );
}
#endif
)";
reflect = replaceWithMap( reflectTemplate, { { "memberNames", memberNames }, { "memberTypes", memberTypes } } );
}
// operator==() and operator!=()
// only structs without a union as a member can have a meaningfull == and != operation; we filter them out
std::string compareOperators;
if ( !containsUnion( structure.first ) )
{
compareOperators += generateStructCompareOperators( structure );
}
static const std::string structureTemplate = R"( struct ${structureType}
{
using NativeType = Vk${structureType};
${allowDuplicate}
${typeValue}
${constructorAndSetters}
operator Vk${structureType} const &() const VULKAN_HPP_NOEXCEPT
{
return *reinterpret_cast<const Vk${structureType}*>( this );
}
operator Vk${structureType} &() VULKAN_HPP_NOEXCEPT
{
return *reinterpret_cast<Vk${structureType}*>( this );
}
${reflect}
${compareOperators}
public:
${members}
};
VULKAN_HPP_STATIC_ASSERT( sizeof( VULKAN_HPP_NAMESPACE::${structureType} ) == sizeof( Vk${structureType} ), "struct and wrapper have different size!" );
VULKAN_HPP_STATIC_ASSERT( std::is_standard_layout<VULKAN_HPP_NAMESPACE::${structureType}>::value, "struct wrapper is not a standard layout!" );
VULKAN_HPP_STATIC_ASSERT( std::is_nothrow_move_constructible<VULKAN_HPP_NAMESPACE::${structureType}>::value, "${structureType} is not nothrow_move_constructible!" );
)";
std::string allowDuplicate, typeValue;
if ( !sTypeValue.empty() )
{
allowDuplicate = std::string( " static const bool allowDuplicate = " ) + ( structure.second.allowDuplicate ? "true;" : "false;" );
typeValue = " static VULKAN_HPP_CONST_OR_CONSTEXPR StructureType structureType = StructureType::" + sTypeValue + ";\n";
}
str += replaceWithMap( structureTemplate,
{ { "allowDuplicate", allowDuplicate },
{ "constructorAndSetters", constructorAndSetters },
{ "compareOperators", compareOperators },
{ "members", members },
{ "reflect", reflect },
{ "structureType", structureType },
{ "typeValue", typeValue } } );
if ( !sTypeValue.empty() )
{
std::string cppTypeTemplate = R"(
template <>
struct CppType<StructureType, StructureType::${sTypeValue}>
{
using Type = ${structureType};
};
)";
str += replaceWithMap( cppTypeTemplate, { { "sTypeValue", sTypeValue }, { "structureType", structureType } } );
}
auto aliasIt = m_structureAliasesInverse.find( structure.first );
if ( aliasIt != m_structureAliasesInverse.end() )
{
for ( std::string const & alias : aliasIt->second )
{
str += " using " + stripPrefix( alias, "Vk" ) + " = " + structureType + ";\n";
}
}
str += leave;
return str;
}
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std::string VulkanHppGenerator::generateStructExtendsStructs( std::vector<RequireData> const & requireData,
std::set<std::string> & listedStructs,
std::string const & title ) const
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{
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std::string str;
for ( auto const & require : requireData )
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{
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for ( auto const & type : require.types )
{
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auto structIt = m_structures.find( type );
if ( structIt != m_structures.end() )
{
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assert( listedStructs.find( type ) == listedStructs.end() );
listedStructs.insert( type );
auto [enter, leave] = generateProtection( title, std::string() );
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// append all allowed structure chains
for ( auto extendName : structIt->second.structExtends )
{
std::map<std::string, StructureData>::const_iterator itExtend = m_structures.find( extendName );
if ( itExtend == m_structures.end() )
{
// look if the extendName acutally is an alias of some other structure
auto aliasIt = m_structureAliases.find( extendName );
if ( aliasIt != m_structureAliases.end() )
{
itExtend = m_structures.find( aliasIt->second.alias );
assert( itExtend != m_structures.end() );
}
}
auto [subEnter, subLeave] =
generateProtection( itExtend->first, m_structureAliasesInverse.find( itExtend->first ) != m_structureAliasesInverse.end() );
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if ( enter != subEnter )
{
str += subEnter;
}
str += " template <> struct StructExtends<" + stripPrefix( structIt->first, "Vk" ) + ", " + stripPrefix( extendName, "Vk" ) +
">{ enum { value = true }; };\n";
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if ( leave != subLeave )
{
str += subLeave;
}
}
}
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}
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}
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return addTitleAndProtection( title, str );
}
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std::string VulkanHppGenerator::generateStructForwardDeclarations( std::vector<RequireData> const & requireData, std::string const & title ) const
{
std::string str;
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for ( auto const & require : requireData )
{
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for ( auto const & type : require.types )
{
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auto structIt = m_structures.find( type );
if ( structIt != m_structures.end() )
{
std::string structureType = stripPrefix( structIt->first, "Vk" );
str += ( structIt->second.isUnion ? " union " : " struct " ) + structureType + ";\n";
auto inverseIt = m_structureAliasesInverse.find( type );
if ( inverseIt != m_structureAliasesInverse.end() )
{
for ( auto alias : inverseIt->second )
{
str += " using " + stripPrefix( alias, "Vk" ) + " = " + structureType + ";\n";
}
}
}
}
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}
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return addTitleAndProtection( title, str );
}
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std::tuple<std::string, std::string, std::string, std::string>
VulkanHppGenerator::generateStructMembers( std::pair<std::string, StructureData> const & structData ) const
{
std::string members, memberNames, memberTypes, sTypeValue;
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for ( auto const & member : structData.second.members )
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{
members += " ";
std::string type;
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if ( !member.bitCount.empty() && beginsWith( member.type.type, "Vk" ) )
{
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assert( member.type.prefix.empty() && member.type.postfix.empty() ); // never encounterd a different case
type = member.type.type;
}
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else if ( member.arraySizes.empty() )
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{
type = member.type.compose( "VULKAN_HPP_NAMESPACE" );
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}
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else
{
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assert( member.type.prefix.empty() && member.type.postfix.empty() );
type = generateStandardArrayWrapper( member.type.compose( "VULKAN_HPP_NAMESPACE" ), member.arraySizes );
}
members += type + " " + member.name;
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if ( !member.value.empty() )
{
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// special handling for members with legal value: use it as the default
members += " = ";
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if ( member.type.type == "uint32_t" )
{
members += member.value;
}
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else
{
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auto enumIt = m_enums.find( member.type.type );
assert( enumIt != m_enums.end() );
std::string enumValue = member.value;
auto valueIt = std::find_if(
enumIt->second.values.begin(), enumIt->second.values.end(), [&enumValue]( EnumValueData const & evd ) { return enumValue == evd.name; } );
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assert( valueIt != enumIt->second.values.end() );
std::string valueName = generateEnumValueName( enumIt->first, valueIt->name, enumIt->second.isBitmask, m_tags );
members += stripPrefix( member.type.type, "Vk" ) + "::" + valueName;
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if ( member.name == "sType" )
{
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sTypeValue = valueName;
}
}
}
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else
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{
// as we don't have any meaningful default initialization values, everything can be initialized by just '{}'
// !
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assert( member.arraySizes.empty() || member.bitCount.empty() );
if ( !member.bitCount.empty() )
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{
members += " : " + member.bitCount; // except for bitfield members, where no default member initializatin
// is supported (up to C++20)
}
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else
{
members += " = ";
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auto enumIt = m_enums.find( member.type.type );
if ( member.arraySizes.empty() && ( enumIt != m_enums.end() ) && member.type.postfix.empty() )
{
members += generateEnumInitializer( member.type, member.arraySizes, enumIt->second.values, enumIt->second.isBitmask );
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}
else
{
members += "{}";
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}
}
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}
members += ";\n";
memberNames += member.name + ", ";
memberTypes += type + " const &, ";
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}
return std::make_tuple( members, stripPostfix( memberNames, ", " ), stripPostfix( memberTypes, ", " ), sTypeValue );
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}
std::string VulkanHppGenerator::generateStructSetter( std::string const & structureName, std::vector<MemberData> const & memberData, size_t index ) const
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{
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std::string str;
MemberData const & member = memberData[index];
if ( member.type.type != "VkStructureType" ) // filter out StructureType, which is supposed to be immutable !
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{
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static const std::string templateString = R"(
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${constexpr}${structureName} & set${MemberName}( ${memberType} ${reference}${memberName}_ ) VULKAN_HPP_NOEXCEPT
{
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${assignment};
return *this;
}
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)";
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std::string memberType = member.arraySizes.empty() ? member.type.compose( "VULKAN_HPP_NAMESPACE" )
: generateStandardArray( member.type.compose( "VULKAN_HPP_NAMESPACE" ), member.arraySizes );
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bool isReinterpretation = !member.bitCount.empty() && beginsWith( member.type.type, "Vk" );
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std::string assignment;
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if ( isReinterpretation )
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{
assignment = member.name + " = " + "*reinterpret_cast<" + member.type.type + "*>(&" + member.name + "_)";
}
else
{
assignment = member.name + " = " + member.name + "_";
}
str +=
replaceWithMap( templateString,
{ { "assignment", assignment },
{ "constexpr", isReinterpretation ? "" : "VULKAN_HPP_CONSTEXPR_14 " },
{ "memberName", member.name },
{ "MemberName", startUpperCase( member.name ) },
{ "memberType", memberType },
{ "reference", ( member.type.postfix.empty() && ( m_structures.find( member.type.type ) != m_structures.end() ) ) ? "const & " : "" },
{ "structureName", structureName } } );
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if ( !member.len.empty() && ( member.len[0] != "null-terminated" ) &&
( ( altLens.find( member.len[0] ) == altLens.end() ) || ( member.len[0] == "codeSize / 4" ) ) )
{
assert( member.name.front() == 'p' );
std::string arrayName = startLowerCase( stripPrefix( member.name, "p" ) );
std::string lenName, lenValue;
if ( member.len[0] == "codeSize / 4" )
{
lenName = "codeSize";
lenValue = arrayName + "_.size() * 4";
}
else
{
lenName = member.len[0];
lenValue = arrayName + "_.size()";
}
assert( memberType.back() == '*' );
memberType = trimEnd( stripPostfix( memberType, "*" ) );
std::string templateHeader;
if ( ( member.type.type == "void" ) && ( memberType.find( '*' ) == std::string::npos ) )
{
assert( templateHeader.empty() );
templateHeader = "template <typename T>\n ";
size_t pos = memberType.find( "void" );
assert( pos != std::string::npos );
memberType.replace( pos, strlen( "void" ), "T" );
lenValue += " * sizeof(T)";
}
auto lenMember = findStructMemberIt( lenName, memberData );
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assert( lenMember != memberData.end() && lenMember->type.prefix.empty() && lenMember->type.postfix.empty() );
if ( lenMember->type.type != "size_t" )
{
lenValue = "static_cast<" + lenMember->type.type + ">( " + lenValue + " )";
}
static const std::string setArrayTemplate = R"(
#if !defined( VULKAN_HPP_DISABLE_ENHANCED_MODE )
${templateHeader}${structureName} & set${ArrayName}( VULKAN_HPP_NAMESPACE::ArrayProxyNoTemporaries<${memberType}> const & ${arrayName}_ ) VULKAN_HPP_NOEXCEPT
{
${lenName} = ${lenValue};
${memberName} = ${arrayName}_.data();
return *this;
}
#endif /*VULKAN_HPP_DISABLE_ENHANCED_MODE*/
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)";
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str += replaceWithMap( setArrayTemplate,
{ { "arrayName", arrayName },
{ "ArrayName", startUpperCase( arrayName ) },
{ "lenName", lenName },
{ "lenValue", lenValue },
{ "memberName", member.name },
{ "memberType", memberType },
{ "structureName", structureName },
{ "templateHeader", templateHeader } } );
}
}
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return str;
}
std::string VulkanHppGenerator::generateStructSubConstructor( std::pair<std::string, StructureData> const & structData ) const
{
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if ( !structData.second.subStruct.empty() )
{
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auto const & subStruct = m_structures.find( structData.second.subStruct );
assert( subStruct != m_structures.end() );
std::string subStructArgumentName = startLowerCase( stripPrefix( subStruct->first, "Vk" ) );
std::string subCopies;
bool firstArgument = true;
for ( size_t i = 0; i < subStruct->second.members.size(); i++ )
{
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assert( structData.second.members[i].arraySizes.empty() );
static const std::string subCopiesTemplate =
R"( ${separator} ${structMemberName}( ${subStructArgumentName}.${subStructMemberName} )
)";
subCopies += replaceWithMap( subCopiesTemplate,
{ { "separator", firstArgument ? ":" : "," },
{ "structMemberName", structData.second.members[i].name },
{ "subStructMemberName", subStruct->second.members[i].name },
{ "subStructArgumentName", subStructArgumentName } } );
firstArgument = false;
}
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std::string subArguments;
bool listedArgument = true;
for ( size_t i = subStruct->second.members.size(); i < structData.second.members.size(); i++ )
{
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std::string argument = generateStructConstructorArgument( listedArgument, structData.second.members[i], true );
if ( !argument.empty() )
{
listedArgument = true;
subArguments += argument;
}
assert( structData.second.members[i].arraySizes.empty() );
static const std::string subCopiesTemplate = R"( , ${memberName}( ${memberName}_ )
)";
subCopies += replaceWithMap( subCopiesTemplate, { { "memberName", structData.second.members[i].name } } );
}
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static const std::string subStructConstructorTemplate = R"(
explicit ${structName}( ${subStructName} const & ${subStructArgumentName}${subArguments} )
${subCopies} {}
)";
return replaceWithMap( subStructConstructorTemplate,
{ { "structName", stripPrefix( structData.first, "Vk" ) },
{ "subArguments", subArguments },
{ "subCopies", subCopies },
{ "subStructArgumentName", subStructArgumentName },
{ "subStructName", stripPrefix( subStruct->first, "Vk" ) } } );
}
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return "";
}
std::string VulkanHppGenerator::generateSuccessCheck( std::vector<std::string> const & successCodes ) const
{
assert( !successCodes.empty() );
std::string successCheck = "result == " + generateSuccessCode( successCodes[0], m_tags );
if ( 1 < successCodes.size() )
{
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successCheck = "( " + successCheck + " )";
for ( size_t i = 1; i < successCodes.size(); ++i )
{
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successCheck += "|| ( result == " + generateSuccessCode( successCodes[i], m_tags ) + " )";
}
}
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return successCheck;
}
std::string VulkanHppGenerator::generateSuccessCodeList( std::vector<std::string> const & successCodes, bool enumerating ) const
{
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std::string successCodeList;
if ( ( 1 < successCodes.size() ) && !enumerating )
{
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successCodeList = ", { " + generateSuccessCode( successCodes[0], m_tags );
for ( size_t i = 1; i < successCodes.size(); ++i )
{
successCodeList += ", " + generateSuccessCode( successCodes[i], m_tags );
}
successCodeList += " }";
}
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return successCodeList;
}
std::string VulkanHppGenerator::generateTypenameCheck( std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
bool definition,
std::vector<std::string> const & dataTypes,
bool singular,
bool withAllocator,
bool unique,
bool chained ) const
{
std::string typenameCheck, enableIf;
if ( !singular && withAllocator )
{
for ( size_t i = 0; i < returnParams.size(); ++i )
{
if ( vectorParams.find( returnParams[i] ) != vectorParams.end() )
{
std::string elementType = chained ? "StructureChain" : stripPrefix( dataTypes[i], "VULKAN_HPP_NAMESPACE::" );
std::string extendedElementType = elementType;
if ( unique )
{
extendedElementType = "UniqueHandle<" + elementType + ", Dispatch>";
}
std::string index = std::to_string( i );
if ( definition )
{
typenameCheck += ", typename B" + index;
}
else
{
typenameCheck += ", typename B" + index + " = " + startUpperCase( elementType ) + "Allocator";
}
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enableIf += enableIf.empty() ? ", typename std::enable_if<" : " && ";
enableIf += "std::is_same<typename B" + index + "::value_type, " + extendedElementType + ">::value";
}
}
assert( !typenameCheck.empty() );
if ( !typenameCheck.empty() )
{
typenameCheck += enableIf + ", int>::type";
if ( !definition )
{
typenameCheck += " = 0";
}
}
}
return typenameCheck;
}
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std::string VulkanHppGenerator::generateUnion( std::pair<std::string, StructureData> const & structure ) const
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{
auto [enter, leave] = generateProtection( structure.first, m_structureAliasesInverse.find( structure.first ) != m_structureAliasesInverse.end() );
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std::string unionName = stripPrefix( structure.first, "Vk" );
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bool firstMember = true;
std::set<TypeInfo> listedTypes; // create just one constructor per different type !
std::string constructors;
for ( auto memberIt = structure.second.members.begin(); memberIt != structure.second.members.end(); ++memberIt )
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{
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if ( listedTypes.insert( memberIt->type ).second )
{
// VkBool32 is aliased to uint32_t. Don't create a VkBool32 constructor if the union also contains a
// uint32_t constructor.
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if ( memberIt->type.type == "VkBool32" )
{
if ( findStructMemberItByType( "uint32_t", structure.second.members ) != structure.second.members.end() )
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{
continue;
}
}
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bool multipleType =
( std::find_if( std::next( memberIt ),
structure.second.members.end(),
[memberIt]( MemberData const & member ) { return member.type == memberIt->type; } ) != structure.second.members.end() );
std::string memberType = ( memberIt->arraySizes.empty() )
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? memberIt->type.compose( "VULKAN_HPP_NAMESPACE" )
: ( "const " + generateStandardArray( memberIt->type.compose( "VULKAN_HPP_NAMESPACE" ), memberIt->arraySizes ) + "&" );
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// In a majority of cases this can be constexpr in C++11 as well, however, determining when exactly
// that is the case is a lot more involved and probably not worth it.
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static const std::string constructorTemplate = R"(
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VULKAN_HPP_CONSTEXPR_14 ${unionName}( ${memberType} ${argumentName}_${defaultAssignment} )
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: ${memberName}( ${argumentName}_ )
{})";
constructors += ( firstMember ? "" : "\n" ) + replaceWithMap( constructorTemplate,
{ { "argumentName", multipleType ? generateName( memberIt->type ) : memberIt->name },
{ "defaultAssignment", firstMember ? " = {}" : "" },
{ "memberName", memberIt->name },
{ "memberType", memberType },
{ "unionName", stripPrefix( structure.first, "Vk" ) } } );
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firstMember = false;
}
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}
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// one setter per union element
std::string setters;
for ( size_t i = 0; i < structure.second.members.size(); i++ )
{
setters += generateStructSetter( stripPrefix( structure.first, "Vk" ), structure.second.members, i );
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}
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// filter out leading and trailing newline
setters = setters.substr( 1, setters.length() - 2 );
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// the union member variables
std::string members;
// if there's at least one Vk... type in this union, check for unrestricted unions support
bool needsUnrestrictedUnions =
( std::find_if( structure.second.members.begin(),
structure.second.members.end(),
[]( MemberData const & member ) { return beginsWith( member.type.type, "Vk" ); } ) != structure.second.members.end() );
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if ( needsUnrestrictedUnions )
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{
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members += "#ifdef VULKAN_HPP_HAS_UNRESTRICTED_UNIONS\n";
}
for ( auto const & member : structure.second.members )
{
static const std::string memberTemplate = R"( ${memberType} ${memberName};
)";
members +=
replaceWithMap( memberTemplate,
{ { "memberName", member.name },
{ "memberType",
member.arraySizes.empty() ? member.type.compose( "VULKAN_HPP_NAMESPACE" )
: generateStandardArrayWrapper( member.type.compose( "VULKAN_HPP_NAMESPACE" ), member.arraySizes ) } } );
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}
if ( needsUnrestrictedUnions )
{
members += "#else\n";
for ( auto const & member : structure.second.members )
{
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static const std::string memberTemplate = R"( ${memberType} ${memberName}${arraySizes};
)";
members += replaceWithMap(
memberTemplate,
{ { "arraySizes", generateCArraySizes( member.arraySizes ) }, { "memberName", member.name }, { "memberType", member.type.compose( "" ) } } );
}
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members += "#endif /*VULKAN_HPP_HAS_UNRESTRICTED_UNIONS*/\n";
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}
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static const std::string unionTemplate = R"(
${enter} union ${unionName}
{
using NativeType = Vk${unionName};
#if !defined( VULKAN_HPP_NO_UNION_CONSTRUCTORS )
${constructors}
#endif /*VULKAN_HPP_NO_UNION_CONSTRUCTORS*/
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#if !defined( VULKAN_HPP_NO_UNION_SETTERS )
${setters}
#endif /*VULKAN_HPP_NO_UNION_SETTERS*/
operator Vk${unionName} const &() const
{
return *reinterpret_cast<const Vk${unionName}*>( this );
}
operator Vk${unionName} &()
{
return *reinterpret_cast<Vk${unionName}*>( this );
}
${members}
};
${leave})";
return replaceWithMap(
unionTemplate,
{ { "constructors", constructors }, { "enter", enter }, { "leave", leave }, { "members", members }, { "setters", setters }, { "unionName", unionName } } );
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}
std::string VulkanHppGenerator::generateUniqueTypes( std::string const & parentType, std::set<std::string> const & childrenTypes ) const
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{
std::string childrenTraits;
for ( auto const & childType : childrenTypes )
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{
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auto handleIt = m_handles.find( childType );
assert( handleIt != m_handles.end() );
std::string type = stripPrefix( childType, "Vk" );
auto [enter, leave] = generateProtection( handleIt->first, !handleIt->second.alias.empty() );
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std::string aliasHandle;
if ( !handleIt->second.alias.empty() )
{
static const std::string aliasHandleTemplate =
R"( using Unique${aliasType} = UniqueHandle<${type}, VULKAN_HPP_DEFAULT_DISPATCHER_TYPE>;
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)";
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aliasHandle += replaceWithMap( aliasHandleTemplate, { { "aliasType", stripPrefix( handleIt->second.alias, "Vk" ) }, { "type", type } } );
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}
static const std::string traitsTemplate = R"(${enter} template <typename Dispatch>
class UniqueHandleTraits<${type}, Dispatch>
{
public:
using deleter = ${deleterType}${deleterAction}<${deleterParent}${deleterPool}, Dispatch>;
};
using Unique${type} = UniqueHandle<${type}, VULKAN_HPP_DEFAULT_DISPATCHER_TYPE>;
${aliasHandle}${leave})";
childrenTraits += replaceWithMap( traitsTemplate,
{ { "aliasHandle", aliasHandle },
{ "deleterAction", ( handleIt->second.deleteCommand.substr( 2, 4 ) == "Free" ) ? "Free" : "Destroy" },
{ "deleterParent", parentType.empty() ? "NoParent" : stripPrefix( parentType, "Vk" ) },
{ "deleterPool", handleIt->second.deletePool.empty() ? "" : ", " + stripPrefix( handleIt->second.deletePool, "Vk" ) },
{ "deleterType", handleIt->second.deletePool.empty() ? "Object" : "Pool" },
{ "enter", enter },
{ "leave", leave },
{ "type", type } } );
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}
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static const std::string uniqueTypeTemplate = R"(
#ifndef VULKAN_HPP_NO_SMART_HANDLE
${parentClass}${childrenTraits}#endif /*VULKAN_HPP_NO_SMART_HANDLE*/
)";
return replaceWithMap(
uniqueTypeTemplate,
{ { "childrenTraits", childrenTraits }, { "parentClass", parentType.empty() ? "" : ( " class " + stripPrefix( parentType, "Vk" ) + ";\n" ) } } );
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}
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std::string VulkanHppGenerator::generateVectorSizeCheck( std::string const & name,
CommandData const & commandData,
size_t initialSkipCount,
std::map<size_t, std::vector<size_t>> const & countToVectorMap,
std::set<size_t> const & skippedParams,
bool onlyThrows ) const
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{
std::string const assertTemplate = " VULKAN_HPP_ASSERT( ${zeroSizeCheck}${firstVectorName}.size() == ${secondVectorName}.size() );";
std::string const assertTemplateVoid =
" VULKAN_HPP_ASSERT( ${zeroSizeCheck}${firstVectorName}.size() * sizeof( ${firstDataType} ) == ${secondVectorName}.size() * sizeof( ${secondDataType} ) );";
std::string const assertTemplateByLen = " VULKAN_HPP_ASSERT( ${vectorName}.size() == ${sizeValue} );";
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std::string const throwTemplate =
R"#( if ( ${zeroSizeCheck}${firstVectorName}.size() != ${secondVectorName}.size() )
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{
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throw LogicError( VULKAN_HPP_NAMESPACE_STRING "::${className}::${commandName}: ${firstVectorName}.size() != ${secondVectorName}.size()" );
})#";
std::string const throwTemplateVoid =
R"#( if ( ${zeroSizeCheck}${firstVectorName}.size() * sizeof( ${firstDataType} ) != ${secondVectorName}.size() * sizeof( ${secondDataType} ) )
{
throw LogicError( VULKAN_HPP_NAMESPACE_STRING "::${className}::${commandName}: ${firstVectorName}.size() * sizeof( ${firstDataType} ) != ${secondVectorName}.size() * sizeof( ${secondDataType} )" );
})#";
std::string const throwTemplateByLen = R"#( if ( ${vectorName}.size() != ${sizeValue} )
{
throw LogicError( VULKAN_HPP_NAMESPACE_STRING "::${className}::${commandName}: ${vectorName}.size() != ${sizeValue}" );
})#";
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std::string className = stripPrefix( commandData.params[initialSkipCount - 1].type.type, "Vk" );
std::string commandName = generateCommandName( name, commandData.params, initialSkipCount, m_tags, false, false );
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std::string assertions, throws;
for ( auto const & cvm : countToVectorMap )
{
size_t defaultStartIndex = determineDefaultStartIndex( commandData.params, skippedParams );
std::string firstVectorName = startLowerCase( stripPrefix( commandData.params[cvm.second[0]].name, "p" ) );
if ( cvm.second.size() == 1 )
{
assert( isLenByStructMember( commandData.params[cvm.second[0]].len, commandData.params[cvm.first] ) );
std::vector<std::string> lenParts = tokenize( commandData.params[cvm.second[0]].len, "->" );
assert( lenParts.size() == 2 );
std::string sizeValue = startLowerCase( stripPrefix( lenParts[0], "p" ) ) + "." + lenParts[1];
assertions += replaceWithMap( assertTemplateByLen, { { "sizeValue", sizeValue }, { "vectorName", firstVectorName } } );
throws += replaceWithMap( throwTemplateByLen,
{ { "className", className }, { "commandName", commandName }, { "sizeValue", sizeValue }, { "vectorName", firstVectorName } } );
}
else
{
for ( size_t i = 1; i < cvm.second.size(); i++ )
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{
std::string secondVectorName = startLowerCase( stripPrefix( commandData.params[cvm.second[i]].name, "p" ) );
bool withZeroSizeCheck = commandData.params[cvm.second[i]].optional && ( defaultStartIndex <= cvm.second[i] );
if ( commandData.params[cvm.second[0]].type.type == "void" )
{
assert( commandData.params[cvm.second[i]].type.type == "void" );
std::string firstDataType = stripPrefix( commandData.params[cvm.second[0]].name, "p" ) + "Type";
std::string secondDataType = stripPrefix( commandData.params[cvm.second[i]].name, "p" ) + "Type";
assertions += replaceWithMap( assertTemplateVoid,
{ { "firstDataType", firstDataType },
{ "firstVectorName", firstVectorName },
{ "secondDataType", secondDataType },
{ "secondVectorName", secondVectorName },
{ "zeroSizeCheck", withZeroSizeCheck ? ( secondVectorName + ".empty() || " ) : "" } } );
throws += replaceWithMap( throwTemplateVoid,
{ { "firstDataType", firstDataType },
{ "firstVectorName", firstVectorName },
{ "className", className },
{ "commandName", commandName },
{ "secondDataType", secondDataType },
{ "secondVectorName", secondVectorName },
{ "zeroSizeCheck", withZeroSizeCheck ? ( "!" + secondVectorName + ".empty() && " ) : "" } } );
}
else
{
assertions += replaceWithMap( assertTemplate,
{ { "firstVectorName", firstVectorName },
{ "secondVectorName", secondVectorName },
{ "zeroSizeCheck", withZeroSizeCheck ? ( secondVectorName + ".empty() || " ) : "" } } );
throws += replaceWithMap( throwTemplate,
{ { "firstVectorName", firstVectorName },
{ "className", className },
{ "commandName", commandName },
{ "secondVectorName", secondVectorName },
{ "zeroSizeCheck", withZeroSizeCheck ? ( "!" + secondVectorName + ".empty() && " ) : "" } } );
}
if ( i + 1 < cvm.second.size() )
{
assertions += "\n";
throws += "\n";
}
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}
}
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}
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std::string const sizeCheckTemplate =
R"(#ifdef VULKAN_HPP_NO_EXCEPTIONS
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${assertions}
#else
${throws}
#endif /*VULKAN_HPP_NO_EXCEPTIONS*/)";
return onlyThrows ? throws : replaceWithMap( sizeCheckTemplate, { { "assertions", assertions }, { "throws", throws } } );
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}
std::pair<std::string, std::string> VulkanHppGenerator::getParentTypeAndName( std::pair<std::string, HandleData> const & handle ) const
{
std::string parentType, parentName;
if ( handle.first == "VkInstance" )
{
parentType = "Context";
parentName = "context";
}
else
{
bool skip = skipLeadingGrandParent( handle );
assert( !handle.second.constructorIts.empty() && ( ( skip ? 1u : 0u ) < handle.second.constructorIts.front()->second.params.size() ) );
auto const & param = handle.second.constructorIts.front()->second.params[skip ? 1 : 0];
assert( isHandleType( param.type.type ) && param.type.isValue() );
parentType = stripPrefix( param.type.type, "Vk" );
parentName = param.name;
}
return std::make_pair( parentType, parentName );
}
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std::string VulkanHppGenerator::getPlatform( std::string const & title ) const
{
if ( m_features.find( title ) == m_features.end() )
{
auto extensionIt = m_extensions.find( title );
assert( extensionIt != m_extensions.end() );
return extensionIt->second.platform;
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}
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return "";
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}
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std::pair<std::string, std::string> VulkanHppGenerator::getPoolTypeAndName( std::string const & type ) const
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{
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auto structIt = m_structures.find( type );
assert( structIt != m_structures.end() );
auto memberIt = std::find_if(
structIt->second.members.begin(), structIt->second.members.end(), []( MemberData const & md ) { return md.name.find( "Pool" ) != std::string::npos; } );
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assert( memberIt != structIt->second.members.end() );
assert( std::find_if( std::next( memberIt ),
structIt->second.members.end(),
[]( MemberData const & md ) { return md.name.find( "Pool" ) != std::string::npos; } ) == structIt->second.members.end() );
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return std::make_pair( memberIt->type.type, memberIt->name );
}
std::string VulkanHppGenerator::getVectorSize( std::vector<ParamData> const & params,
std::map<size_t, size_t> const & vectorParams,
size_t returnParam,
std::string const & returnParamType,
std::set<size_t> const & templatedParams ) const
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{
std::string vectorSize;
std::vector<std::string> lenParts = tokenize( params[returnParam].len, "->" );
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switch ( lenParts.size() )
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{
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case 1:
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{
std::string const & len = lenParts[0];
size_t lenIdx =
std::distance( params.begin(), std::find_if( params.begin(), params.end(), [&len]( ParamData const & pd ) { return pd.name == len; } ) );
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assert( lenIdx < params.size() );
// look for the len, not being the len of the return param, but of an other vector param
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auto lenVectorParamIt =
std::find_if( vectorParams.begin(),
vectorParams.end(),
[&lenIdx, &returnParam]( std::pair<size_t, size_t> const & vpi ) { return ( vpi.first != returnParam ) && ( vpi.second == lenIdx ); } );
if ( lenVectorParamIt == vectorParams.end() )
{
vectorSize = lenParts[0];
if ( templatedParams.find( returnParam ) != templatedParams.end() )
{
vectorSize += " / sizeof( " + returnParamType + " )";
}
}
else
{
assert( templatedParams.find( returnParam ) == templatedParams.end() );
vectorSize = startLowerCase( stripPrefix( params[lenVectorParamIt->first].name, "p" ) ) + ".size()";
}
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}
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break;
case 2:
assert( vectorParams.find( returnParam ) != vectorParams.end() );
vectorSize = startLowerCase( stripPrefix( lenParts[0], "p" ) ) + "." + lenParts[1];
break;
default: assert( false ); break;
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}
assert( !vectorSize.empty() );
return vectorSize;
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}
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bool VulkanHppGenerator::hasParentHandle( std::string const & handle, std::string const & parent ) const
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{
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std::string candidate = handle;
while ( !candidate.empty() )
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{
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auto const & handleIt = m_handles.find( candidate );
assert( handleIt != m_handles.end() );
if ( handleIt->second.parent == parent )
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{
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return true;
}
else
{
candidate = handleIt->second.parent;
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}
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}
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return false;
}
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bool VulkanHppGenerator::isDeviceCommand( CommandData const & commandData ) const
{
return !commandData.handle.empty() && !commandData.params.empty() && ( m_handles.find( commandData.params[0].type.type ) != m_handles.end() ) &&
( commandData.params[0].type.type != "VkInstance" ) && ( commandData.params[0].type.type != "VkPhysicalDevice" );
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}
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bool VulkanHppGenerator::isHandleType( std::string const & type ) const
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{
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if ( beginsWith( type, "Vk" ) )
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{
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auto it = m_handles.find( type );
if ( it == m_handles.end() )
{
it = std::find_if( m_handles.begin(), m_handles.end(), [&type]( std::pair<std::string, HandleData> const & hd ) { return hd.second.alias == type; } );
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}
return ( it != m_handles.end() );
}
return false;
}
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bool VulkanHppGenerator::isLenByStructMember( std::string const & name, std::vector<ParamData> const & params ) const
{
// check if name specifies a member of a struct
std::vector<std::string> nameParts = tokenize( name, "->" );
if ( nameParts.size() == 1 )
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{
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// older versions of vk.xml used the notation parameter::member
nameParts = tokenize( name, "::" );
}
if ( nameParts.size() == 2 )
{
auto paramIt = std::find_if( params.begin(), params.end(), [&n = nameParts[0]]( ParamData const & pd ) { return pd.name == n; } );
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if ( paramIt != params.end() )
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{
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#if !defined( NDEBUG )
auto structureIt = m_structures.find( paramIt->type.type );
assert( structureIt != m_structures.end() );
assert( isStructMember( nameParts[1], structureIt->second.members ) );
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#endif
return true;
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}
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}
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return false;
}
bool VulkanHppGenerator::isLenByStructMember( std::string const & name, ParamData const & param ) const
{
// check if name specifies a member of a struct
std::vector<std::string> nameParts = tokenize( name, "->" );
if ( nameParts.size() == 1 )
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{
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// older versions of vk.xml used the notation parameter::member
nameParts = tokenize( name, "::" );
}
if ( ( nameParts.size() == 2 ) && ( nameParts[0] == param.name ) )
{
#if !defined( NDEBUG )
auto structureIt = m_structures.find( param.type.type );
assert( structureIt != m_structures.end() );
assert( isStructMember( nameParts[1], structureIt->second.members ) );
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#endif
return true;
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}
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return false;
}
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bool VulkanHppGenerator::isMultiSuccessCodeConstructor( std::vector<std::map<std::string, CommandData>::const_iterator> const & constructorIts ) const
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{
bool ok = !constructorIts.empty();
if ( ok )
{
auto constructorIt = constructorIts.begin();
ok = ( 2 < ( *constructorIt )->second.successCodes.size() ) ||
( ( ( *constructorIt )->second.successCodes.size() == 2 ) && ( ( *constructorIt )->second.successCodes[1] != "VK_INCOMPLETE" ) );
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#if !defined( NDEBUG )
for ( constructorIt = std::next( constructorIt ); constructorIt != constructorIts.end(); ++constructorIt )
{
assert( ok == ( 2 < ( *constructorIt )->second.successCodes.size() ) ||
( ( ( *constructorIt )->second.successCodes.size() == 2 ) && ( ( *constructorIt )->second.successCodes[1] != "VK_INCOMPLETE" ) ) );
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}
#endif
}
return ok;
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}
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bool VulkanHppGenerator::isParam( std::string const & name, std::vector<ParamData> const & params ) const
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{
return std::find_if( params.begin(), params.end(), [&name]( ParamData const & pd ) { return pd.name == name; } ) != params.end();
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}
bool VulkanHppGenerator::isStructMember( std::string const & name, std::vector<MemberData> const & memberData ) const
{
return findStructMemberIt( name, memberData ) != memberData.end();
}
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bool VulkanHppGenerator::isStructureChainAnchor( std::string const & type ) const
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{
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if ( beginsWith( type, "Vk" ) )
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{
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auto it = m_structures.find( type );
if ( it == m_structures.end() )
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{
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auto aliasIt = m_structureAliases.find( type );
if ( aliasIt != m_structureAliases.end() )
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{
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it = m_structures.find( aliasIt->second.alias );
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}
}
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if ( it != m_structures.end() )
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{
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return m_extendedStructs.find( it->first ) != m_extendedStructs.end();
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}
}
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return false;
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}
std::pair<bool, std::map<size_t, std::vector<size_t>>> VulkanHppGenerator::needsVectorSizeCheck( std::vector<ParamData> const & params,
std::map<size_t, size_t> const & vectorParams,
std::vector<size_t> const & returnParams,
std::set<size_t> const & singularParams ) const
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{
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std::map<size_t, std::vector<size_t>> countToVectorMap;
for ( auto const & vpi : vectorParams )
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{
if ( ( vpi.second != INVALID_INDEX ) && ( std::find( returnParams.begin(), returnParams.end(), vpi.first ) == returnParams.end() ) &&
( ( singularParams.find( vpi.second ) == singularParams.end() ) || isLenByStructMember( params[vpi.first].len, params[vpi.second] ) ) )
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{
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countToVectorMap[vpi.second].push_back( vpi.first );
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}
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}
return std::make_pair( std::find_if( countToVectorMap.begin(),
countToVectorMap.end(),
[this, &params]( auto const & cvm ) {
return ( 1 < cvm.second.size() ) || isLenByStructMember( params[cvm.second[0]].len, params[cvm.first] );
} ) != countToVectorMap.end(),
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countToVectorMap );
}
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void VulkanHppGenerator::readCommands( tinyxml2::XMLElement const * element )
{
int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), {}, { { "comment", {} } } );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "command", false } } );
for ( auto child : children )
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{
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assert( child->Value() == std::string( "command" ) );
readCommandsCommand( child );
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}
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}
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void VulkanHppGenerator::readCommandsCommand( tinyxml2::XMLElement const * element )
{
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int line = element->GetLineNum();
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std::map<std::string, std::string> attributes = getAttributes( element );
if ( attributes.find( "alias" ) != attributes.end() )
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{
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// for command aliases, create a copy of the aliased command
checkAttributes( line,
attributes,
{},
{
{ "alias", {} },
{ "name", {} },
} );
checkElements( line, getChildElements( element ), {} );
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std::string alias, name;
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "alias" )
{
alias = attribute.second;
}
else if ( attribute.first == "name" )
{
name = attribute.second;
check( beginsWith( name, "vk" ), line, "name <" + name + "> should begin with <vk>" );
}
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}
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auto commandIt = m_commands.find( alias );
check( commandIt != m_commands.end(), line, "missing command <" + alias + ">" );
CommandData commandData = commandIt->second;
commandData.alias = alias;
commandData.xmlLine = line;
addCommand( name, commandData );
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}
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else
{
checkAttributes( line,
attributes,
{},
{ { "cmdbufferlevel", { "primary", "secondary" } },
{ "comment", {} },
{ "errorcodes", {} },
{ "queues", { "compute", "decode", "encode", "graphics", "sparse_binding", "transfer" } },
{ "renderpass", { "both", "inside", "outside" } },
{ "successcodes", {} } } );
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std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "param", false }, { "proto", true } }, { "implicitexternsyncparams" } );
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CommandData commandData( line );
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "errorcodes" )
{
commandData.errorCodes = tokenize( attribute.second, "," );
// errorCodes are checked in checkCorrectness after complete reading
}
else if ( attribute.first == "successcodes" )
{
commandData.successCodes = tokenize( attribute.second, "," );
// successCodes are checked in checkCorrectness after complete reading
}
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}
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std::string name;
for ( auto child : children )
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{
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std::string value = child->Value();
if ( value == "param" )
{
commandData.params.push_back( readCommandsCommandParam( child, commandData.params ) );
}
else if ( value == "proto" )
{
std::tie( name, commandData.returnType ) = readCommandsCommandProto( child );
}
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}
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assert( !name.empty() );
check( ( commandData.returnType == "VkResult" ) || commandData.errorCodes.empty(),
line,
"command <" + name + "> does not return a VkResult but specifies errorcodes" );
check( ( commandData.returnType == "VkResult" ) || commandData.successCodes.empty(),
line,
"command <" + name + "> does not return a VkResult but specifies successcodes" );
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registerDeleter( name, std::make_pair( name, commandData ) );
addCommand( name, commandData );
}
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}
VulkanHppGenerator::ParamData VulkanHppGenerator::readCommandsCommandParam( tinyxml2::XMLElement const * element, std::vector<ParamData> const & params )
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{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line,
attributes,
{},
{ { "altlen", {} },
{ "externsync", {} },
{ "len", {} },
{ "noautovalidity", { "true" } },
{ "objecttype", { "objectType" } },
{ "optional", { "false", "true" } },
{ "validstructs", {} } } );
checkValidStructs( line, attributes );
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ParamData paramData( line );
for ( auto attribute : attributes )
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{
if ( attribute.first == "altlen" )
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{
assert( paramData.len.empty() );
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paramData.len = attribute.second;
check( altLens.find( paramData.len ) != altLens.end(), line, "member attribute <altlen> holds unknown value <" + paramData.len + ">" );
}
else if ( attribute.first == "len" )
{
if ( paramData.len.empty() )
{
paramData.len = attribute.second;
check( ( paramData.len == "null-terminated" ) || isParam( paramData.len, params ) || isLenByStructMember( paramData.len, params ),
line,
"command param len <" + paramData.len + "> is not recognized as a valid len value" );
}
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}
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else if ( attribute.first == "optional" )
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{
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paramData.optional = ( attribute.second == "true" );
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}
}
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NameData nameData;
std::tie( nameData, paramData.type ) = readNameAndType( element );
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check( m_types.find( paramData.type.type ) != m_types.end(), line, "unknown type <" + paramData.type.type + ">" );
check( paramData.type.prefix.empty() || ( paramData.type.prefix == "const" ) || ( paramData.type.prefix == "const struct" ) ||
( paramData.type.prefix == "struct" ),
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line,
"unexpected type prefix <" + paramData.type.prefix + ">" );
check( paramData.type.postfix.empty() || ( paramData.type.postfix == "*" ) || ( paramData.type.postfix == "**" ) || ( paramData.type.postfix == "* const *" ),
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line,
"unexpected type postfix <" + paramData.type.postfix + ">" );
check( std::find_if( params.begin(), params.end(), [&name = nameData.name]( ParamData const & pd ) { return pd.name == name; } ) == params.end(),
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line,
"command param <" + nameData.name + "> already used" );
paramData.name = nameData.name;
paramData.arraySizes = nameData.arraySizes;
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return paramData;
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}
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std::pair<std::string, std::string> VulkanHppGenerator::readCommandsCommandProto( tinyxml2::XMLElement const * element )
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{
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int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), {}, {} );
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auto [nameData, typeInfo] = readNameAndType( element );
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check( beginsWith( nameData.name, "vk" ), line, "name <" + nameData.name + "> does not begin with <vk>" );
check( nameData.arraySizes.empty(), line, "name <" + nameData.name + "> with unsupported arraySizes" );
check( m_types.find( typeInfo.type ) != m_types.end(), line, "unknown type <" + typeInfo.type + ">" );
check( typeInfo.prefix.empty(), line, "unexpected type prefix <" + typeInfo.prefix + ">" );
check( typeInfo.postfix.empty(), line, "unexpected type postfix <" + typeInfo.postfix + ">" );
check( m_commands.find( nameData.name ) == m_commands.end(), line, "command <" + nameData.name + "> already specified" );
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return std::make_pair( nameData.name, typeInfo.type );
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}
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void VulkanHppGenerator::readEnums( tinyxml2::XMLElement const * element )
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{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "name", {} } }, { { "bitwidth", { "64" } }, { "comment", {} }, { "type", { "bitmask", "enum" } } } );
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std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
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std::string bitwidth, name, type;
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "bitwidth" )
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{
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bitwidth = attribute.second;
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}
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else if ( attribute.first == "name" )
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{
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name = attribute.second;
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}
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else if ( attribute.first == "type" )
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{
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type = attribute.second;
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}
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}
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assert( !name.empty() );
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if ( name == "API Constants" )
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{
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checkElements( line, children, { { "enum", false } }, {} );
for ( auto const & child : children )
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{
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readEnumsConstant( child );
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}
}
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else
{
checkElements( line, children, {}, { "comment", "enum", "unused" } );
check( !type.empty(), line, "enum without type" );
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// get the EnumData entry in enum map
std::map<std::string, EnumData>::iterator enumIt = m_enums.find( name );
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if ( enumIt == m_enums.end() )
{
enumIt =
std::find_if( m_enums.begin(), m_enums.end(), [&name]( std::pair<std::string, EnumData> const & enumData ) { return enumData.second.alias == name; } );
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}
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check( enumIt != m_enums.end(), line, "enum <" + name + "> is not listed as enum in the types section" );
check( enumIt->second.values.empty(), line, "enum <" + name + "> already holds values" );
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// mark it as a bitmask, if it is one
bool bitmask = ( type == "bitmask" );
if ( bitmask )
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{
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check( name.find( "FlagBits" ) != std::string::npos, line, "bitmask <" + name + "> does not contain <FlagBits>" );
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}
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enumIt->second.isBitmask = bitmask;
enumIt->second.bitwidth = bitwidth;
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// read the names of the enum values
for ( auto child : children )
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{
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std::string value = child->Value();
if ( value == "comment" )
{
readComment( child );
}
else if ( value == "enum" )
{
readEnumsEnum( child, enumIt );
}
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}
}
}
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void VulkanHppGenerator::readEnumsConstant( tinyxml2::XMLElement const * element )
{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "name", {} } }, { { "alias", {} }, { "comment", {} }, { "type", {} }, { "value", {} } } );
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checkElements( line, getChildElements( element ), {} );
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std::string alias, name, value;
for ( auto const & attribute : attributes )
{
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if ( attribute.first == "alias" )
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{
check( m_constants.find( attribute.second ) != m_constants.end(), line, "unknown enum constant alias <" + attribute.second + ">" );
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alias = attribute.second;
}
else if ( attribute.first == "name" )
{
check( m_constants.find( attribute.second ) == m_constants.end(), line, "already specified enum constant <" + attribute.second + ">" );
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name = attribute.second;
}
else if ( attribute.first == "value" )
{
check( !attribute.second.empty(), line, "value of enum constant is empty" );
value = attribute.second;
}
}
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check( alias.empty() != value.empty(), line, "for enum <" + name + "> either alias or value need to be specified" );
m_constants[name] = alias.empty() ? value : m_constants[alias];
}
void VulkanHppGenerator::readEnumsEnum( tinyxml2::XMLElement const * element, std::map<std::string, EnumData>::iterator enumIt )
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{
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int line = element->GetLineNum();
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std::map<std::string, std::string> attributes = getAttributes( element );
if ( attributes.find( "alias" ) != attributes.end() )
{
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checkAttributes( line, attributes, { { "alias", {} }, { "name", {} } }, { { "comment", {} } } );
checkElements( line, getChildElements( element ), {} );
std::string alias, bitpos, name, value;
for ( auto const & attribute : attributes )
{
if ( attribute.first == "alias" )
{
alias = attribute.second;
}
else if ( attribute.first == "name" )
{
name = attribute.second;
}
}
assert( !name.empty() );
enumIt->second.addEnumAlias( line, name, alias );
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}
else
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{
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checkAttributes(
line, attributes, { { "name", {} } }, { { "bitpos", {} }, { "comment", {} }, { "protect", { "VK_ENABLE_BETA_EXTENSIONS" } }, { "value", {} } } );
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checkElements( line, getChildElements( element ), {} );
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std::string alias, bitpos, name, protect, value;
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "bitpos" )
{
bitpos = attribute.second;
}
else if ( attribute.first == "name" )
{
name = attribute.second;
}
else if ( attribute.first == "protect" )
{
protect = attribute.second;
}
else if ( attribute.first == "value" )
{
value = attribute.second;
}
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}
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std::string prefix = generateEnumSuffixes( enumIt->first, enumIt->second.isBitmask, m_tags ).first;
check( beginsWith( name, prefix ), line, "encountered enum value <" + name + "> that does not begin with expected prefix <" + prefix + ">" );
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check( bitpos.empty() ^ value.empty(), line, "invalid set of attributes for enum <" + name + ">" );
enumIt->second.addEnumValue( line, name, protect, !bitpos.empty(), "" );
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}
}
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std::string VulkanHppGenerator::readComment( tinyxml2::XMLElement const * element )
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{
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int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), {}, {} );
checkElements( line, getChildElements( element ), {} );
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return element->GetText();
}
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void VulkanHppGenerator::readExtensions( tinyxml2::XMLElement const * element )
{
int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), { { "comment", {} } }, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "extension", false } } );
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for ( auto child : children )
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{
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assert( child->Value() == std::string( "extension" ) );
readExtensionsExtension( child );
}
}
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void VulkanHppGenerator::readExtensionsExtension( tinyxml2::XMLElement const * element )
{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
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auto it = attributes.find( "supported" );
check( it != attributes.end(), line, "Missing attribute <supported> for extension!" );
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if ( it->second == "disabled" )
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{
checkElements( line, children, {}, { "require" } );
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// kick out all the disabled stuff we've read before !!
for ( auto const & child : children )
{
assert( child->Value() == std::string( "require" ) );
readExtensionsExtensionDisabledRequire( child );
}
}
else
{
checkAttributes( line,
attributes,
{ { "name", {} }, { "number", {} }, { "supported", { "disabled", "enabled", "vulkan" } } },
{ { "author", {} },
{ "comment", {} },
{ "contact", {} },
{ "deprecatedby", {} },
{ "obsoletedby", {} },
{ "platform", {} },
{ "promotedto", {} },
{ "provisional", { "true" } },
{ "requires", {} },
{ "requiresCore", {} },
{ "sortorder", { "1" } },
{ "specialuse", { "cadsupport", "d3demulation", "debugging", "devtools", "glemulation" } },
{ "type", { "device", "instance" } } } );
checkElements( line, children, { { "require", false } } );
std::string deprecatedBy, name, number, obsoletedBy, platform, promotedTo, supported;
std::vector<std::string> requirements;
for ( auto const & attribute : attributes )
{
if ( attribute.first == "deprecatedby" )
{
deprecatedBy = attribute.second;
}
else if ( attribute.first == "name" )
{
name = attribute.second;
}
else if ( attribute.first == "number" )
{
number = attribute.second;
}
else if ( attribute.first == "obsoletedby" )
{
obsoletedBy = attribute.second;
}
else if ( attribute.first == "platform" )
{
platform = attribute.second;
check( m_platforms.find( platform ) != m_platforms.end(), line, "unknown platform <" + platform + ">" );
}
else if ( attribute.first == "promotedto" )
{
promotedTo = attribute.second;
}
else if ( attribute.first == "provisional" )
{
if ( platform.empty() )
{
// for now, having the attribute provisional="true" implies attribute platform="provisional" to get
// stuff protected by VK_ENABLE_BETA_EXTENSIONS
platform = "provisional";
}
check( platform == "provisional",
line,
"while attribute <provisional> is set to \"true\", attribute <platform> is not set to \"provisional\" but to \"" + platform + "\"" );
}
else if ( attribute.first == "requires" )
{
requirements = tokenize( attribute.second, "," );
}
else if ( attribute.first == "requiresCore" )
{
std::string const & requiresCore = attribute.second;
check( std::find_if( m_features.begin(),
m_features.end(),
[&requiresCore]( std::pair<std::string, FeatureData> const & feature )
{ return feature.second.number == requiresCore; } ) != m_features.end(),
line,
"unknown feature number <" + attribute.second + ">" );
}
else if ( attribute.first == "supported" )
{
supported = attribute.second;
assert( supported != "disabled" );
}
}
auto pitb = m_extensions.insert( std::make_pair( name, ExtensionData( line, deprecatedBy, number, obsoletedBy, platform, promotedTo ) ) );
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check( pitb.second, line, "already encountered extension <" + name + ">" );
for ( auto const & r : requirements )
{
check( pitb.first->second.requiresAttribute.insert( r ).second, line, "required extension <" + r + "> already listed" );
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}
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// extract the tag from the name, which is supposed to look like VK_<tag>_<other>
size_t tagStart = name.find( '_' );
check( tagStart != std::string::npos, line, "name <" + name + "> is missing an underscore '_'" );
size_t tagEnd = name.find( '_', tagStart + 1 );
check( tagEnd != std::string::npos, line, "name <" + name + "> is missing an underscore '_'" );
std::string tag = name.substr( tagStart + 1, tagEnd - tagStart - 1 );
check( m_tags.find( tag ) != m_tags.end(), line, "name <" + name + "> is using an unknown tag <" + tag + ">" );
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for ( auto child : children )
{
assert( child->Value() == std::string( "require" ) );
readExtensionsExtensionRequire( child, pitb.first );
}
}
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}
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void VulkanHppGenerator::readExtensionsExtensionDisabledRequire( tinyxml2::XMLElement const * element )
{
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int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), {}, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "enum", false } }, { "command", "comment", "type" } );
for ( auto child : children )
{
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std::string value = child->Value();
if ( value == "command" )
{
readExtensionsExtensionDisabledRequireCommand( child );
}
else if ( value == "comment" )
{
readComment( child );
}
else if ( value == "enum" )
{
// just skip enums of disabled extensions
}
else
{
assert( value == "type" );
readExtensionsExtensionDisabledRequireType( child );
}
}
}
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void VulkanHppGenerator::readExtensionsExtensionDisabledRequireCommand( tinyxml2::XMLElement const * element )
{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "name", {} } }, {} );
checkElements( line, getChildElements( element ), {} );
std::string name = attributes.find( "name" )->second;
// first unlink the command from its class
auto commandIt = m_commands.find( name );
if ( commandIt != m_commands.end() )
{
auto handleIt = m_handles.find( commandIt->second.handle );
check( handleIt != m_handles.end(), line, "cannot find handle corresponding to command <" + name + ">" );
handleIt->second.commands.erase( commandIt->first );
// then erase the command from the command list
m_commands.erase( commandIt );
}
}
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void VulkanHppGenerator::readExtensionsExtensionDisabledRequireType( tinyxml2::XMLElement const * element )
{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "name", {} } }, {} );
checkElements( line, getChildElements( element ), {} );
std::string name = attributes.find( "name" )->second;
auto typeIt = m_types.find( name );
if ( typeIt != m_types.end() )
{
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switch ( typeIt->second.category )
{
case TypeCategory::Bitmask:
{
auto bitmasksIt = m_bitmasks.find( name );
check( bitmasksIt != m_bitmasks.end(), line, "trying to remove unknown bitmask <" + name + ">" );
check(
bitmasksIt->second.alias.empty(), line, "trying to remove disabled bitmask <" + name + "> which has alias <" + bitmasksIt->second.alias + ">" );
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m_bitmasks.erase( bitmasksIt );
}
break;
case TypeCategory::Enum:
{
auto enumIt = m_enums.find( name );
check( enumIt != m_enums.end(), line, "trying to remove unknown enum <" + name + ">" );
check( enumIt->second.alias.empty(), line, "trying to remove disabled enum <" + name + "> which has alias <" + enumIt->second.alias + ">" );
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m_enums.erase( enumIt );
}
break;
case TypeCategory::Struct:
{
auto structIt = m_structures.find( name );
check( structIt != m_structures.end(), line, "trying to remove unknown struct <" + name + ">" );
auto inverseAliasIt = m_structureAliasesInverse.find( name );
if ( inverseAliasIt != m_structureAliasesInverse.end() )
{
check( false, line, "trying to remove disabled structure <" + name + "> which has " + std::to_string( inverseAliasIt->second.size() ) + "aliases" );
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}
m_structures.erase( structIt );
}
break;
default: check( false, line, "trying to remove <" + name + "> of unhandled type <" + toString( typeIt->second.category ) + ">" ); break;
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}
}
}
void VulkanHppGenerator::readExtensionsExtensionRequire( tinyxml2::XMLElement const * element, std::map<std::string, ExtensionData>::iterator extensionIt )
{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, {}, { { "extension", {} }, { "feature", {} } } );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, {}, { "command", "comment", "enum", "type" } );
std::string requireTitle;
for ( auto const & attribute : attributes )
{
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if ( attribute.first == "extension" )
{
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assert( requireTitle.empty() );
requireTitle = attribute.second;
check( std::find_if( extensionIt->second.requireData.begin(),
extensionIt->second.requireData.end(),
[&requireTitle]( RequireData const & rd ) {
return std::find( rd.titles.begin(), rd.titles.end(), requireTitle ) != rd.titles.end();
} ) == extensionIt->second.requireData.end(),
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line,
"required extension <" + requireTitle + "> already listed" );
}
else
{
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assert( attribute.first == "feature" );
check( m_features.find( attribute.second ) != m_features.end(), line, "unknown feature <" + attribute.second + ">" );
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assert( requireTitle.empty() );
requireTitle = attribute.second;
}
}
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RequireData requireData( line, requireTitle );
bool requireDataEmpty = true;
for ( auto child : children )
{
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std::string value = child->Value();
if ( value == "command" )
{
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readExtensionsExtensionRequireCommand( child, extensionIt->first, requireData );
requireDataEmpty = false;
}
else if ( value == "comment" )
{
readComment( child );
}
else if ( value == "enum" )
{
readRequireEnum( child, extensionIt->first );
}
else if ( value == "type" )
{
readExtensionsExtensionRequireType( child, extensionIt->first, requireData );
requireDataEmpty = false;
}
}
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if ( !requireDataEmpty )
{
extensionIt->second.requireData.push_back( requireData );
}
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}
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void VulkanHppGenerator::readExtensionsExtensionRequireCommand( tinyxml2::XMLElement const * element,
std::string const & extensionName,
RequireData & requireData )
{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "name", {} } }, { { "comment", {} } } );
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checkElements( line, getChildElements( element ), {} );
std::string name;
for ( auto const & attribute : attributes )
{
if ( attribute.first == "name" )
{
name = attribute.second;
}
}
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assert( !name.empty() );
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// mark this command be part of this extension
auto commandIt = m_commands.find( name );
check(
commandIt != m_commands.end(), line, "command <" + name + "> marked as required in extension <" + extensionName + "> was not listed before as a command!" );
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if ( commandIt->second.referencedIn.empty() )
{
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commandIt->second.referencedIn = extensionName;
}
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else
{
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check( getPlatform( commandIt->second.referencedIn ) == getPlatform( extensionName ),
line,
"command <" + name + "> is referenced in extensions <" + commandIt->second.referencedIn + "> and <" + extensionName +
"> and thus protected by different platforms <" + getPlatform( commandIt->second.referencedIn ) + "> and <" + getPlatform( extensionName ) +
">!" );
}
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assert( std::find( requireData.commands.begin(), requireData.commands.end(), name ) == requireData.commands.end() );
requireData.commands.push_back( name );
}
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void VulkanHppGenerator::readExtensionsExtensionRequireType( tinyxml2::XMLElement const * element,
std::string const & extensionName,
RequireData & requireData )
{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "name", {} } }, { { "comment", {} } } );
checkElements( line, getChildElements( element ), {} );
std::string name;
for ( auto const & attribute : attributes )
{
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if ( attribute.first == "name" )
{
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name = attribute.second;
}
}
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assert( !name.empty() );
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auto typeIt = m_types.find( name );
check( typeIt != m_types.end(), line, "failed to find required type <" + name + ">" );
if ( typeIt->second.referencedIn.empty() )
{
typeIt->second.referencedIn = extensionName;
assert( std::find( requireData.types.begin(), requireData.types.end(), name ) == requireData.types.end() );
requireData.types.push_back( name );
}
else
{
check( getPlatform( typeIt->second.referencedIn ) == getPlatform( extensionName ),
line,
"type <" + name + "> is referenced in extensions <" + typeIt->second.referencedIn + "> and <" + extensionName +
"> and thus protected by different platforms <" + getPlatform( typeIt->second.referencedIn ) + "> and <" + getPlatform( extensionName ) + ">!" );
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}
}
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void VulkanHppGenerator::readFeature( tinyxml2::XMLElement const * element )
{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "api", { "vulkan" } }, { "comment", {} }, { "name", {} }, { "number", {} } }, {} );
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std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "require", false } } );
std::string name, number, modifiedNumber;
for ( auto const & attribute : attributes )
{
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if ( attribute.first == "name" )
{
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name = attribute.second;
}
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else if ( attribute.first == "number" )
{
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number = attribute.second;
modifiedNumber = number;
std::replace( modifiedNumber.begin(), modifiedNumber.end(), '.', '_' );
}
}
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assert( !name.empty() && !number.empty() );
check( name == "VK_VERSION_" + modifiedNumber, line, "unexpected formatting of name <" + name + ">" );
check( m_features.find( name ) == m_features.end(), line, "already specified feature <" + name + ">" );
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auto featureIt = m_features.insert( std::make_pair( name, number ) ).first;
for ( auto child : children )
{
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assert( child->Value() == std::string( "require" ) );
readFeatureRequire( child, featureIt );
}
}
void VulkanHppGenerator::readFeatureRequire( tinyxml2::XMLElement const * element, std::map<std::string, FeatureData>::iterator featureIt )
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{
int line = element->GetLineNum();
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checkAttributes( line, getAttributes( element ), {}, { { "comment", {} } } );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, {}, { "command", "comment", "enum", "type" } );
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RequireData requireData( line, "" );
bool requireDataEmpty = true;
for ( auto child : children )
{
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std::string value = child->Value();
if ( value == "command" )
{
readFeatureRequireCommand( child, featureIt, requireData );
requireDataEmpty = false;
}
else if ( value == "comment" )
{
readComment( child );
}
else if ( value == "enum" )
{
readRequireEnum( child, "" );
}
else if ( value == "type" )
{
readFeatureRequireType( child, featureIt, requireData );
requireDataEmpty = false;
}
}
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if ( !requireDataEmpty )
{
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featureIt->second.requireData.push_back( requireData );
}
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}
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void VulkanHppGenerator::readFeatureRequireCommand( tinyxml2::XMLElement const * element,
std::map<std::string, FeatureData>::iterator featureIt,
RequireData & requireData )
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{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, {}, { { "name", {} } } );
std::string name = attributes.find( "name" )->second;
auto commandIt = m_commands.find( name );
check( commandIt != m_commands.end(), line, "feature requires unknown command <" + name + ">" );
check( commandIt->second.referencedIn.empty(), line, "command <" + name + "> already listed with feature <" + commandIt->second.referencedIn + ">" );
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commandIt->second.referencedIn = featureIt->first;
assert( std::find( requireData.commands.begin(), requireData.commands.end(), name ) == requireData.commands.end() );
requireData.commands.push_back( name );
}
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void VulkanHppGenerator::readFeatureRequireType( tinyxml2::XMLElement const * element,
std::map<std::string, FeatureData>::iterator featureIt,
RequireData & requireData )
{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, {}, { { "comment", {} }, { "name", {} } } );
checkElements( line, getChildElements( element ), {} );
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std::string name = attributes.find( "name" )->second;
auto requireTypeIt = std::find_if( requireData.types.begin(), requireData.types.end(), [&name]( std::string const & type ) { return type == name; } );
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check( requireTypeIt == requireData.types.end(), line, "type <" + name + "> already listed for this feature!" );
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// some types are in fact includes (like vk_platform) or defines (like VK_API_VERSION)
if ( ( m_defines.find( name ) == m_defines.end() ) && ( m_includes.find( name ) == m_includes.end() ) )
{
auto typeIt = m_types.find( name );
check( typeIt != m_types.end(), line, "feature requires unknown type <" + name + ">" );
check( typeIt->second.referencedIn.empty() || ( typeIt->second.referencedIn == featureIt->first ),
line,
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"type <" + name + "> already listed on feature <" + typeIt->second.referencedIn + ">" );
typeIt->second.referencedIn = featureIt->first;
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requireData.types.push_back( name );
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}
}
void VulkanHppGenerator::readFormats( tinyxml2::XMLElement const * element )
{
int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), {}, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "format", false } } );
for ( auto child : children )
{
readFormatsFormat( child );
}
}
void VulkanHppGenerator::readFormatsFormat( tinyxml2::XMLElement const * element )
{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line,
attributes,
{ { "blockSize", { "1", "2", "3", "4", "5", "6", "8", "12", "16", "24", "32" } },
{ "class", {} },
{ "name", {} },
{ "texelsPerBlock", { "1", "16", "20", "25", "30", "36", "40", "48", "50", "60", "64", "80", "100", "120", "144" } } },
{ { "blockExtent", { "1", "2", "4", "5", "6", "8", "10", "12" } },
{ "chroma", { "420", "422", "444" } },
{ "compressed", { "ASTC HDR", "ASTC LDR", "BC", "EAC", "ETC", "ETC2", "PVRTC" } },
{ "packed", { "8", "16", "32" } } } );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "component", false } }, { "plane", "spirvimageformat" } );
FormatData format( line );
std::string name;
for ( auto const & attribute : attributes )
{
if ( attribute.first == "blockExtent" )
{
check( tokenize( attribute.second, "," ).size() == 3, line, "unexpected number of elements in attribute <blockExtent>" );
format.blockExtent = attribute.second;
}
if ( attribute.first == "blockSize" )
{
format.blockSize = attribute.second;
}
else if ( attribute.first == "chroma" )
{
format.chroma = attribute.second;
}
else if ( attribute.first == "class" )
{
format.classAttribute = attribute.second;
}
else if ( attribute.first == "compressed" )
{
format.compressed = attribute.second;
}
else if ( attribute.first == "name" )
{
name = attribute.second;
}
else if ( attribute.first == "packed" )
{
format.packed = attribute.second;
}
else if ( attribute.first == "texelsPerBlock" )
{
format.texelsPerBlock = attribute.second;
}
}
auto formatIt = m_enums.find( "VkFormat" );
assert( formatIt != m_enums.end() );
check( std::find_if( formatIt->second.values.begin(), formatIt->second.values.end(), [&name]( EnumValueData const & evd ) { return evd.name == name; } ) !=
formatIt->second.values.end() ||
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( formatIt->second.aliases.find( name ) != formatIt->second.aliases.end() ),
line,
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"encountered unknown format <" + name + ">" );
auto [it, inserted] = m_formats.insert( std::make_pair( name, format ) );
check( inserted, line, "format <" + name + "> already specified on line " + std::to_string( it->second.xmlLine ) );
for ( auto child : children )
{
std::string value = child->Value();
if ( value == "component" )
{
readFormatsFormatComponent( child, it->second );
}
else if ( value == "plane" )
{
readFormatsFormatPlane( child, it->second );
}
else if ( value == "spirvimageformat" )
{
readFormatsFormatSPIRVImageFormat( child, it->second );
}
}
if ( it->second.components.front().bits == "compressed" )
{
for ( auto componentIt = std::next( it->second.components.begin() ); componentIt != it->second.components.end(); ++componentIt )
{
check( componentIt->bits == "compressed", line, "component is expected to be marked as compressed in attribute <bits>" );
}
}
if ( !it->second.components.front().planeIndex.empty() )
{
for ( auto componentIt = std::next( it->second.components.begin() ); componentIt != it->second.components.end(); ++componentIt )
{
check( !componentIt->planeIndex.empty(), line, "component is expected to have a planeIndex" );
}
size_t planeCount = 1 + std::stoi( it->second.components.back().planeIndex );
check( it->second.planes.size() == planeCount, line, "number of planes does not fit to largest planeIndex of the components" );
}
}
void VulkanHppGenerator::readFormatsFormatComponent( tinyxml2::XMLElement const * element, FormatData & formatData )
{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line,
attributes,
{ { "bits", { "1", "2", "4", "5", "6", "8", "9", "10", "11", "12", "16", "24", "32", "64", "compressed" } },
{ "name", {} },
{ "numericFormat", { "SFLOAT", "SINT", "SNORM", "SRGB", "SSCALED", "UFLOAT", "UINT", "UNORM", "USCALED" } } },
{ { "planeIndex", { "0", "1", "2" } } } );
checkElements( line, getChildElements( element ), {} );
formatData.components.emplace_back( line );
ComponentData & component = formatData.components.back();
for ( auto const & attribute : attributes )
{
if ( attribute.first == "bits" )
{
check( ( attribute.second != "compressed" ) || !formatData.compressed.empty(), line, "component of a not compressed format is marked as compressed" );
component.bits = attribute.second;
}
else if ( attribute.first == "name" )
{
component.name = attribute.second;
}
else if ( attribute.first == "numericFormat" )
{
component.numericFormat = attribute.second;
}
else if ( attribute.first == "planeIndex" )
{
component.planeIndex = attribute.second;
}
}
}
void VulkanHppGenerator::readFormatsFormatPlane( tinyxml2::XMLElement const * element, FormatData & formatData )
{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes(
line, attributes, { { "compatible", {} }, { "index", { "0", "1", "2" } }, { "heightDivisor", { "1", "2" } }, { "widthDivisor", { "1", "2" } } }, {} );
checkElements( line, getChildElements( element ), {} );
formatData.planes.emplace_back( line );
PlaneData & plane = formatData.planes.back();
for ( auto const & attribute : attributes )
{
if ( attribute.first == "compatible" )
{
plane.compatible = attribute.second;
auto formatIt = m_enums.find( "VkFormat" );
assert( formatIt != m_enums.end() );
check( std::find_if( formatIt->second.values.begin(),
formatIt->second.values.end(),
[&plane]( EnumValueData const & evd ) { return evd.name == plane.compatible; } ) != formatIt->second.values.end(),
line,
"encountered unknown format <" + plane.compatible + ">" );
}
else if ( attribute.first == "index" )
{
size_t index = std::stoi( attribute.second );
check( index + 1 == formatData.planes.size(), line, "unexpected index <" + attribute.second + ">" );
}
else if ( attribute.first == "heightDivisor" )
{
plane.heightDivisor = attribute.second;
}
else if ( attribute.first == "widthDivisor" )
{
plane.widthDivisor = attribute.second;
}
}
}
void VulkanHppGenerator::readFormatsFormatSPIRVImageFormat( tinyxml2::XMLElement const * element, FormatData & formatData )
{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "name", {} } }, {} );
checkElements( line, getChildElements( element ), {} );
for ( auto const & attribute : attributes )
{
assert( attribute.first == "name" );
check( formatData.spirvImageFormat.empty(), line, "spirvimageformat <" + attribute.second + "> already specified" );
formatData.spirvImageFormat = attribute.second;
}
}
std::pair<VulkanHppGenerator::NameData, VulkanHppGenerator::TypeInfo> VulkanHppGenerator::readNameAndType( tinyxml2::XMLElement const * element )
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{
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int line = element->GetLineNum();
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "name", true } }, { { "type" } } );
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NameData nameData;
TypeInfo typeInfo;
for ( auto child : children )
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{
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line = child->GetLineNum();
checkAttributes( line, getAttributes( child ), {}, {} );
checkElements( line, getChildElements( child ), {} );
std::string value = child->Value();
if ( value == "name" )
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{
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nameData.name = child->GetText();
std::string bitCount;
std::tie( nameData.arraySizes, bitCount ) = readModifiers( child->NextSibling() );
check( bitCount.empty(), line, "name <" + nameData.name + "> with unsupported bitCount <" + bitCount + ">" );
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}
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else if ( value == "type" )
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{
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typeInfo = readTypeInfo( child );
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}
}
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return std::make_pair( nameData, typeInfo );
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}
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void VulkanHppGenerator::readPlatforms( tinyxml2::XMLElement const * element )
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{
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int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), { { "comment", {} } }, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "platform", false } } );
for ( auto child : children )
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{
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readPlatformsPlatform( child );
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}
}
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void VulkanHppGenerator::readPlatformsPlatform( tinyxml2::XMLElement const * element )
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{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "comment", {} }, { "name", {} }, { "protect", {} } }, {} );
checkElements( line, getChildElements( element ), {} );
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std::string name, protect;
for ( auto const & attribute : attributes )
{
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if ( attribute.first == "name" )
{
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name = attribute.second;
check( !name.empty(), line, "attribute <name> is empty" );
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}
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else if ( attribute.first == "protect" )
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{
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protect = attribute.second;
check( !protect.empty(), line, "attribute <protect> is empty" );
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}
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}
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assert( !name.empty() && !protect.empty() );
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check( std::find_if( m_platforms.begin(),
m_platforms.end(),
[&protect]( std::pair<std::string, PlatformData> const & p ) { return p.second.protect == protect; } ) == m_platforms.end(),
line,
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"platform protect <" + protect + "> already specified" );
check( m_platforms.insert( std::make_pair( name, PlatformData( protect ) ) ).second, line, "platform name <" + name + "> already specified" );
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}
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void VulkanHppGenerator::readRegistry( tinyxml2::XMLElement const * element )
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{
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int line = element->GetLineNum();
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checkAttributes( line, getAttributes( element ), {}, {} );
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std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line,
children,
{ { "commands", true },
{ "comment", false },
{ "enums", false },
{ "extensions", true },
{ "feature", false },
{ "platforms", true },
{ "spirvcapabilities", true },
{ "spirvextensions", true },
{ "tags", true },
{ "types", true } },
{ "formats" } );
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for ( auto child : children )
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{
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const std::string value = child->Value();
if ( value == "commands" )
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{
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readCommands( child );
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}
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else if ( value == "comment" )
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{
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std::string comment = readComment( child );
if ( comment.find( "\nCopyright" ) == 0 )
{
setVulkanLicenseHeader( child->GetLineNum(), comment );
}
}
else if ( value == "enums" )
{
readEnums( child );
}
else if ( value == "extensions" )
{
readExtensions( child );
}
else if ( value == "feature" )
{
readFeature( child );
}
else if ( value == "formats" )
{
readFormats( child );
}
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else if ( value == "platforms" )
{
readPlatforms( child );
}
else if ( value == "spirvcapabilities" )
{
readSPIRVCapabilities( child );
}
else if ( value == "spirvextensions" )
{
readSPIRVExtensions( child );
}
else if ( value == "tags" )
{
readTags( child );
}
else if ( value == "types" )
{
readTypes( child );
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}
}
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}
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void VulkanHppGenerator::readRequireEnum( tinyxml2::XMLElement const * element, std::string const & extensionName )
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{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
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if ( attributes.find( "alias" ) != attributes.end() )
{
checkAttributes( line, attributes, { { "alias", {} }, { "name", {} } }, { { "comment", {} }, { "extends", {} } } );
checkElements( line, getChildElements( element ), {} );
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std::string alias, bitpos, name, extends, extnumber, offset, value;
for ( auto const & attribute : attributes )
{
if ( attribute.first == "alias" )
{
alias = attribute.second;
}
else if ( attribute.first == "extends" )
{
extends = attribute.second;
}
else if ( attribute.first == "name" )
{
name = attribute.second;
}
}
if ( !extends.empty() )
{
auto enumIt = m_enums.find( extends );
check( enumIt != m_enums.end(), line, "feature extends unknown enum <" + extends + ">" );
// add this enum name to the list of aliases
enumIt->second.addEnumAlias( line, name, alias );
}
}
else
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{
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checkAttributes( line,
attributes,
{ { "name", {} } },
{ { "bitpos", {} },
{ "comment", {} },
{ "extends", {} },
{ "dir", { "-" } },
{ "extnumber", {} },
{ "offset", {} },
{ "protect", { "VK_ENABLE_BETA_EXTENSIONS" } },
{ "value", {} } } );
checkElements( line, getChildElements( element ), {} );
std::string bitpos, name, extends, extnumber, offset, protect, value;
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "bitpos" )
{
bitpos = attribute.second;
}
else if ( attribute.first == "extends" )
{
extends = attribute.second;
}
else if ( attribute.first == "name" )
{
name = attribute.second;
}
else if ( attribute.first == "offset" )
{
offset = attribute.second;
}
else if ( attribute.first == "protect" )
{
protect = attribute.second;
}
else if ( attribute.first == "value" )
{
value = attribute.second;
}
}
if ( !extends.empty() )
{
auto enumIt = m_enums.find( extends );
check( enumIt != m_enums.end(), line, "feature extends unknown enum <" + extends + ">" );
// add this enum name to the list of values
check( bitpos.empty() + offset.empty() + value.empty() == 2,
line,
"exactly one out of bitpos = <" + bitpos + ">, offset = <" + offset + ">, and value = <" + value + "> are supposed to be empty" );
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enumIt->second.addEnumValue( element->GetLineNum(), name, protect, !bitpos.empty(), extensionName );
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}
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else if ( value.empty() )
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{
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check( m_constants.find( name ) != m_constants.end(), line, "unknown required enum <" + name + ">" );
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}
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}
}
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void VulkanHppGenerator::readSPIRVCapabilities( tinyxml2::XMLElement const * element )
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{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "comment", {} } }, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, {}, { "spirvcapability" } );
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for ( auto child : children )
{
assert( child->Value() == std::string( "spirvcapability" ) );
readSPIRVCapabilitiesSPIRVCapability( child );
}
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}
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void VulkanHppGenerator::readSPIRVCapabilitiesSPIRVCapability( tinyxml2::XMLElement const * element )
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{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "name", {} } }, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
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checkElements( line, children, {}, { "enable" } );
for ( auto child : children )
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{
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assert( child->Value() == std::string( "enable" ) );
readSPIRVCapabilitiesSPIRVCapabilityEnable( child );
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}
}
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void VulkanHppGenerator::readSPIRVCapabilitiesSPIRVCapabilityEnable( tinyxml2::XMLElement const * element )
{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkElements( line, getChildElements( element ), {}, {} );
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if ( attributes.find( "extension" ) != attributes.end() )
{
readSPIRVCapabilitiesSPIRVCapabilityEnableExtension( line, attributes );
}
else if ( attributes.find( "property" ) != attributes.end() )
{
readSPIRVCapabilitiesSPIRVCapabilityEnableProperty( line, attributes );
}
else if ( attributes.find( "struct" ) != attributes.end() )
{
readSPIRVCapabilitiesSPIRVCapabilityEnableStruct( line, attributes );
}
else if ( attributes.find( "version" ) != attributes.end() )
{
readSPIRVCapabilitiesSPIRVCapabilityEnableVersion( line, attributes );
}
else
{
check( false, line, "unknown set of attributes specified for SPIR-V capability" );
}
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}
void VulkanHppGenerator::readSPIRVCapabilitiesSPIRVCapabilityEnableExtension( int xmlLine, std::map<std::string, std::string> const & attributes )
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{
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checkAttributes( xmlLine, attributes, { { "extension", {} } }, {} );
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check( attributes.size() == 1, xmlLine, "unexpected attributes in addition to <extension> specified for SPIR-V capability" );
for ( auto const & attribute : attributes )
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{
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assert( attribute.first == "extension" );
check(
m_extensions.find( attribute.second ) != m_extensions.end(), xmlLine, "unknown extension <" + attribute.second + "> specified for SPIR-V capability" );
}
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}
void VulkanHppGenerator::readSPIRVCapabilitiesSPIRVCapabilityEnableProperty( int xmlLine, std::map<std::string, std::string> const & attributes )
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{
checkAttributes( xmlLine, attributes, { { "member", {} }, { "property", {} }, { "requires", {} }, { "value", {} } }, {} );
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std::string member, property, value;
for ( auto const & attribute : attributes )
{
if ( attribute.first == "member" )
{
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member = attribute.second;
}
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else if ( attribute.first == "property" )
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{
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property = attribute.second;
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}
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if ( attribute.first == "requires" )
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{
std::vector<std::string> requiresAttribute = tokenize( attribute.second, "," );
for ( auto const & r : requiresAttribute )
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{
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check( ( m_features.find( r ) != m_features.end() ) || ( m_extensions.find( r ) != m_extensions.end() ),
xmlLine,
"unknown requires <" + r + "> specified for SPIR-V capability" );
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}
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}
else if ( attribute.first == "value" )
{
value = attribute.second;
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}
}
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assert( !member.empty() && !property.empty() && !value.empty() );
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auto propertyIt = m_structures.find( property );
check( propertyIt != m_structures.end(), xmlLine, "unknown property <" + property + "> specified for SPIR-V capability" );
auto memberIt = findStructMemberIt( member, propertyIt->second.members );
check( memberIt != propertyIt->second.members.end(), xmlLine, "unknown member <" + member + "> specified for SPIR-V capability" );
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if ( memberIt->type.type == "VkBool32" )
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{
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check( ( value == "VK_FALSE" ) || ( value == "VK_TRUE" ),
xmlLine,
"unknown value <" + value + "> for boolean member <" + member + "> specified for SPIR-V capability" );
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}
else
{
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auto bitmaskIt = m_bitmasks.find( memberIt->type.type );
check( bitmaskIt != m_bitmasks.end(), xmlLine, "attribute member = <" + member + "> specified for SPIR-V capability is not a bitmask" );
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assert( !bitmaskIt->second.requirements.empty() );
auto enumIt = m_enums.find( bitmaskIt->second.requirements );
check( enumIt != m_enums.end(),
xmlLine,
"attribute member = <" + member + "> specified for SPIR-V capability requires an unknown enum <" + bitmaskIt->second.requirements + ">" );
auto valueIt =
std::find_if( enumIt->second.values.begin(), enumIt->second.values.end(), [&value]( EnumValueData const & evd ) { return evd.name == value; } );
check( valueIt != enumIt->second.values.end(), xmlLine, "unknown attribute value = <" + value + "> specified for SPIR-V capability" );
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}
}
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void VulkanHppGenerator::readSPIRVCapabilitiesSPIRVCapabilityEnableStruct( int xmlLine, std::map<std::string, std::string> const & attributes )
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{
checkAttributes( xmlLine, attributes, { { "feature", {} }, { "struct", {} } }, { { "alias", {} }, { "requires", {} } } );
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for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "requires" )
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{
std::vector<std::string> requiresAttribute = tokenize( attribute.second, "," );
for ( auto const & r : requiresAttribute )
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{
check( ( m_features.find( r ) != m_features.end() ) || ( m_extensions.find( r ) != m_extensions.end() ),
xmlLine,
"unknown requires <" + r + "> specified for SPIR-V capability" );
}
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}
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else if ( attribute.first == "struct" )
{
check( ( m_structures.find( attribute.second ) != m_structures.end() ) || ( m_structureAliases.find( attribute.second ) != m_structureAliases.end() ),
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xmlLine,
"unknown structure <" + attribute.second + "> specified for SPIR-V capability" );
check( attributes.find( "feature" ) != attributes.end(),
xmlLine,
"missing feature attribute for SPIR-V capability specified with struct <" + attribute.second + ">" );
}
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else
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{
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assert( ( attribute.first == "alias" ) || ( attribute.first == "feature" ) );
}
}
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}
void VulkanHppGenerator::readSPIRVCapabilitiesSPIRVCapabilityEnableVersion( int xmlLine, std::map<std::string, std::string> const & attributes )
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{
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checkAttributes( xmlLine, attributes, { { "version", {} } }, {} );
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check( attributes.size() == 1, xmlLine, "unexpected attributes in addition to <version> specified for SPIR-V capability" );
for ( auto const & attribute : attributes )
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{
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assert( attribute.first == "version" );
std::string feature = attribute.second;
if ( beginsWith( feature, "VK_API_" ) )
{
feature.erase( 3, 4 ); // remove "API_" from the version -> VK_VERSION_x_y
}
check( beginsWith( feature, "VK_VERSION_" ), xmlLine, "unknown version <" + attribute.second + "> specified for SPIR-V capability" );
check( m_features.find( feature ) != m_features.end(), xmlLine, "unknown version <" + attribute.second + "> specified for SPIR-V capability" );
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}
}
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void VulkanHppGenerator::readSPIRVExtensions( tinyxml2::XMLElement const * element )
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{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
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checkAttributes( line, attributes, { { "comment", {} } }, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, {}, { "spirvextension" } );
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for ( auto child : children )
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{
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assert( child->Value() == std::string( "spirvextension" ) );
readSPIRVExtensionsExtension( child );
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}
}
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void VulkanHppGenerator::readSPIRVExtensionsExtension( tinyxml2::XMLElement const * element )
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{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
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checkAttributes( line, attributes, { { "name", {} } }, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
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checkElements( line, children, {}, { "enable" } );
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for ( auto child : children )
{
assert( child->Value() == std::string( "enable" ) );
readSPIRVExtensionsExtensionEnable( child );
}
}
void VulkanHppGenerator::readSPIRVExtensionsExtensionEnable( tinyxml2::XMLElement const * element )
{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, {}, { { "extension", {} }, { "version", {} } } );
checkElements( line, getChildElements( element ), {}, {} );
check( !attributes.empty(), line, "no version or extension specified for SPIR-V extension" );
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "extension" )
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{
check( m_extensions.find( attribute.second ) != m_extensions.end(), line, "unknown extension <" + attribute.second + "> specified for SPIR-V extension" );
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}
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else
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{
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assert( attribute.first == "version" );
std::string feature = attribute.second;
if ( beginsWith( feature, "VK_API_" ) )
{
feature.erase( 3, 4 ); // remove "API_" from the version -> VK_VERSION_x_y
}
check( beginsWith( feature, "VK_VERSION_" ), line, "unknown version <" + attribute.second + "> specified for SPIR-V extension" );
check( m_features.find( feature ) != m_features.end(), line, "unknown version <" + attribute.second + "> specified for SPIR-V extension" );
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}
}
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}
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void VulkanHppGenerator::readTags( tinyxml2::XMLElement const * element )
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{
int line = element->GetLineNum();
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checkAttributes( line, getAttributes( element ), { { "comment", {} } }, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "tag", false } } );
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for ( auto child : children )
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{
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readTagsTag( child );
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}
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}
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void VulkanHppGenerator::readTagsTag( tinyxml2::XMLElement const * element )
{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line, attributes, { { "author", {} }, { "contact", {} }, { "name", {} } }, {} );
checkElements( line, getChildElements( element ), {} );
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for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "name" )
{
check( m_tags.find( attribute.second ) == m_tags.end(), line, "tag named <" + attribute.second + "> has already been specified" );
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m_tags.insert( attribute.second );
}
else
{
check( ( attribute.first == "author" ) || ( attribute.first == "contact" ), line, "unknown attribute <" + attribute.first + ">" );
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}
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}
}
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void VulkanHppGenerator::readTypes( tinyxml2::XMLElement const * element )
{
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int line = element->GetLineNum();
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checkAttributes( line, getAttributes( element ), { { "comment", {} } }, {} );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "comment", false }, { "type", false } } );
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for ( auto child : children )
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{
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std::string value = child->Value();
if ( value == "comment" )
{
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readComment( child );
}
else
{
assert( value == "type" );
readTypesType( child );
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}
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}
}
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void VulkanHppGenerator::readTypesType( tinyxml2::XMLElement const * element )
{
int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
auto categoryIt = attributes.find( "category" );
if ( categoryIt != attributes.end() )
{
if ( categoryIt->second == "basetype" )
{
readTypesTypeBasetype( element, attributes );
}
else if ( categoryIt->second == "bitmask" )
{
readTypesTypeBitmask( element, attributes );
}
else if ( categoryIt->second == "define" )
{
readTypesTypeDefine( element, attributes );
}
else if ( categoryIt->second == "enum" )
{
readTypesTypeEnum( element, attributes );
}
else if ( categoryIt->second == "funcpointer" )
{
readTypesTypeFuncpointer( element, attributes );
}
else if ( categoryIt->second == "handle" )
{
readTypesTypeHandle( element, attributes );
}
else if ( categoryIt->second == "include" )
{
readTypesTypeInclude( element, attributes );
}
else if ( categoryIt->second == "struct" )
{
readTypesTypeStruct( element, false, attributes );
}
else
{
check( categoryIt->second == "union", element->GetLineNum(), "unknown type category <" + categoryIt->second + ">" );
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readTypesTypeStruct( element, true, attributes );
}
}
else
{
auto requiresIt = attributes.find( "requires" );
if ( requiresIt != attributes.end() )
{
readTypesTypeRequires( element, attributes );
}
else
{
check( ( attributes.size() == 1 ) && ( attributes.begin()->first == "name" ) && ( attributes.begin()->second == "int" ), line, "unknown type" );
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check( m_types.insert( std::make_pair( attributes.begin()->second, TypeCategory::Unknown ) ).second,
line,
"type <" + attributes.begin()->second + "> already specified" );
}
}
}
void VulkanHppGenerator::readTypesTypeBasetype( tinyxml2::XMLElement const * element, std::map<std::string, std::string> const & attributes )
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{
int line = element->GetLineNum();
checkAttributes( line, attributes, { { "category", { "basetype" } } }, {} );
NameData nameData;
TypeInfo typeInfo;
std::tie( nameData, typeInfo ) = readNameAndType( element );
if ( typeInfo.prefix == "typedef" )
{
// remove redundant typeInfo.prefix "typedef"
typeInfo.prefix.clear();
}
check( nameData.arraySizes.empty(), line, "name <" + nameData.name + "> with unsupported arraySizes" );
check( typeInfo.prefix.empty(), line, "unexpected type prefix <" + typeInfo.prefix + ">" );
check( typeInfo.postfix.empty() || ( typeInfo.postfix == "*" ), line, "unexpected type postfix <" + typeInfo.postfix + ">" );
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if ( !typeInfo.type.empty() )
{
check( m_baseTypes.insert( std::make_pair( nameData.name, BaseTypeData( typeInfo, line ) ) ).second,
line,
"basetype <" + nameData.name + "> already specified" );
}
check(
m_types.insert( std::make_pair( nameData.name, TypeCategory::BaseType ) ).second, line, "basetype <" + nameData.name + "> already specified as a type" );
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}
void VulkanHppGenerator::readTypesTypeBitmask( tinyxml2::XMLElement const * element, std::map<std::string, std::string> const & attributes )
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{
int line = element->GetLineNum();
auto aliasIt = attributes.find( "alias" );
if ( aliasIt != attributes.end() )
{
checkAttributes( line, attributes, { { "alias", {} }, { "category", { "bitmask" } }, { "name", {} } }, {} );
checkElements( line, getChildElements( element ), {} );
std::string alias, name;
for ( auto const & attribute : attributes )
{
if ( attribute.first == "alias" )
{
alias = attribute.second;
}
else if ( attribute.first == "name" )
{
name = attribute.second;
}
}
auto bitmasksIt = m_bitmasks.find( alias );
check( bitmasksIt != m_bitmasks.end(), line, "missing alias <" + alias + ">." );
check( bitmasksIt->second.alias.empty(), line, "alias for bitmask <" + bitmasksIt->first + "> already specified as <" + bitmasksIt->second.alias + ">" );
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bitmasksIt->second.alias = name;
check( m_types.insert( std::make_pair( name, TypeCategory::Bitmask ) ).second, line, "aliased bitmask <" + name + "> already specified as a type" );
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}
else
{
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checkAttributes( line, attributes, { { "category", { "bitmask" } } }, { { "bitvalues", {} }, { "requires", {} } } );
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std::string bitvalues, requirements;
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "bitvalues" )
{
bitvalues = attribute.second;
}
else if ( attribute.first == "requires" )
{
requirements = attribute.second;
}
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}
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NameData nameData;
TypeInfo typeInfo;
std::tie( nameData, typeInfo ) = readNameAndType( element );
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check( beginsWith( nameData.name, "Vk" ), line, "name <" + nameData.name + "> does not begin with <Vk>" );
check( nameData.arraySizes.empty(), line, "name <" + nameData.name + "> with unsupported arraySizes" );
warn( ( typeInfo.type == "VkFlags" ) || ( typeInfo.type == "VkFlags64" ), line, "unexpected bitmask type <" + typeInfo.type + ">" );
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check( typeInfo.prefix == "typedef", line, "unexpected type prefix <" + typeInfo.prefix + ">" );
check( typeInfo.postfix.empty(), line, "unexpected type postfix <" + typeInfo.postfix + ">" );
check( bitvalues.empty() || requirements.empty(), line, "attributes <bitvalues> and <requires> are both specified" );
check( ( typeInfo.type != "VkFlags64" ) || !bitvalues.empty(), line, "bitmask of type <VkFlags64> needs attribute bitvalues to be set" );
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if ( !bitvalues.empty() )
{
requirements = bitvalues;
}
m_bitmasks.insert( std::make_pair( nameData.name, BitmaskData( requirements, typeInfo.type, line ) ) );
check(
m_types.insert( std::make_pair( nameData.name, TypeCategory::Bitmask ) ).second, line, "bitmask <" + nameData.name + "> already specified as a type" );
}
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}
void VulkanHppGenerator::readTypesTypeDefine( tinyxml2::XMLElement const * element, std::map<std::string, std::string> const & attributes )
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{
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int line = element->GetLineNum();
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checkAttributes( line, attributes, { { "category", { "define" } } }, { { "name", {} }, { "requires", {} } } );
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std::string name;
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "name" )
{
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name = attribute.second;
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}
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else if ( attribute.first == "requires" )
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{
check( m_defines.find( attribute.second ) != m_defines.end(), line, "using undefined requires <" + attribute.second + ">" );
}
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}
if ( !name.empty() )
{
check( !element->FirstChildElement(), line, "unknown formatting of type category=define name <" + name + ">" );
check( element->LastChild() && element->LastChild()->ToText() && element->LastChild()->ToText()->Value(),
line,
"unknown formatting of type category=define named <" + name + ">" );
// filter out the check for the different types of VK_DEFINE_NON_DISPATCHABLE_HANDLE
if ( name == "VK_USE_64_BIT_PTR_DEFINES" )
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{
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m_typesafeCheck = "#if ( VK_USE_64_BIT_PTR_DEFINES == 1 )";
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}
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else if ( ( name == "VK_DEFINE_NON_DISPATCHABLE_HANDLE" ) && ( m_typesafeCheck.empty() ) )
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{
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std::string text = element->LastChild()->ToText()->Value();
size_t start = text.find( "#if defined(__LP64__)" );
check( start != std::string::npos, line, "unexpected text in type category=define named <" + name + ">" );
size_t end = text.find_first_of( "\r\n", start + 1 );
check( end != std::string::npos, line, "unexpected text in type category=define named <" + name + ">" );
m_typesafeCheck = text.substr( start, end - start );
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}
}
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else if ( element->GetText() )
{
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std::string text = element->GetText();
if ( ( text.find( "class" ) != std::string::npos ) || ( text.find( "struct" ) != std::string::npos ) )
{
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// here are a couple of structs as defines, which really are types!
tinyxml2::XMLElement const * child = element->FirstChildElement();
check( child && ( strcmp( child->Value(), "name" ) == 0 ) && child->GetText(), line, "unexpected formatting of type category=define" );
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name = child->GetText();
check( m_types.insert( std::make_pair( name, TypeCategory::Define ) ).second, line, "type <" + name + "> has already been speficied" );
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}
else
{
tinyxml2::XMLElement const * child = element->FirstChildElement();
check( child && !child->FirstAttribute() && ( strcmp( child->Value(), "name" ) == 0 ) && child->GetText(),
line,
"unknown formatting of type category define" );
name = trim( child->GetText() );
if ( name == "VK_HEADER_VERSION" )
{
m_version = trimEnd( element->LastChild()->ToText()->Value() );
}
// ignore all the other defines
warn( !child->NextSiblingElement() ||
( child->NextSiblingElement() && !child->NextSiblingElement()->FirstAttribute() &&
( strcmp( child->NextSiblingElement()->Value(), "type" ) == 0 ) && !child->NextSiblingElement()->NextSiblingElement() ),
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line,
"unknown formatting of type category define" );
}
}
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assert( !name.empty() );
check( m_defines.insert( name ).second, line, "define <" + name + "> has already been specified" );
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}
void VulkanHppGenerator::readTypesTypeEnum( tinyxml2::XMLElement const * element, std::map<std::string, std::string> const & attributes )
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{
int line = element->GetLineNum();
checkAttributes( line, attributes, { { "category", { "enum" } }, { "name", {} } }, { { "alias", {} } } );
checkElements( line, getChildElements( element ), {} );
std::string alias, name;
for ( auto const & attribute : attributes )
{
if ( attribute.first == "alias" )
{
alias = attribute.second;
check( !alias.empty(), line, "enum with empty alias" );
}
else if ( attribute.first == "name" )
{
name = attribute.second;
check( !name.empty(), line, "enum with empty name" );
check( m_enums.find( name ) == m_enums.end(), line, "enum <" + name + "> already specified" );
}
}
assert( !name.empty() );
if ( alias.empty() )
{
check( m_enums.insert( std::make_pair( name, EnumData( line ) ) ).second, line, "enum <" + name + "> already specified" );
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}
else
{
auto enumIt = m_enums.find( alias );
check( enumIt != m_enums.end(), line, "enum with unknown alias <" + alias + ">" );
check( enumIt->second.alias.empty(), line, "enum <" + enumIt->first + "> already has an alias <" + enumIt->second.alias + ">" );
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enumIt->second.alias = name;
}
check( m_types.insert( std::make_pair( name, TypeCategory::Enum ) ).second, line, "enum <" + name + "> already specified as a type" );
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}
void VulkanHppGenerator::readTypesTypeFuncpointer( tinyxml2::XMLElement const * element, std::map<std::string, std::string> const & attributes )
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{
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int line = element->GetLineNum();
checkAttributes( line, attributes, { { "category", { "funcpointer" } } }, { { "requires", {} } } );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
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checkElements( line, children, { { "name", true } }, { "type" } );
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std::string requirements;
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "requires" )
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{
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requirements = attribute.second;
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}
}
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auto funcPointerIt = m_funcPointers.end();
std::set<std::string> argumentNames;
for ( auto const & child : children )
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{
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std::string value = child->Value();
int childLine = child->GetLineNum();
if ( value == "name" )
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{
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std::string name = child->GetText();
check( !name.empty(), childLine, "funcpointer with empty name" );
check( m_funcPointers.find( name ) == m_funcPointers.end(), childLine, "funcpointer <" + name + "> already specified" );
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funcPointerIt = m_funcPointers.insert( std::make_pair( name, FuncPointerData( requirements, line ) ) ).first;
check( m_types.insert( std::make_pair( name, TypeCategory::FuncPointer ) ).second, childLine, "funcpointer <" + name + "> already specified as a type" );
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}
else if ( value == "type" )
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{
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assert( funcPointerIt != m_funcPointers.end() );
std::string type = child->GetText();
funcPointerIt->second.arguments.push_back( { type, childLine } );
auto sibling = child->NextSibling();
char const * siblingValue = sibling->Value();
assert( siblingValue != nullptr );
std::string argumentName = siblingValue;
argumentName = argumentName.substr( argumentName.find_first_not_of( "* " ) );
argumentName = argumentName.substr( 0, argumentName.find_first_of( ",)" ) );
check( argumentNames.insert( argumentName ).second,
childLine,
"funcpointer <" + funcPointerIt->first + "> already has an argument named <" + argumentName + ">" );
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}
}
}
void VulkanHppGenerator::readTypesTypeHandle( tinyxml2::XMLElement const * element, std::map<std::string, std::string> const & attributes )
{
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int line = element->GetLineNum();
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auto aliasIt = attributes.find( "alias" );
if ( aliasIt != attributes.end() )
{
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checkAttributes( line, attributes, { { "alias", {} }, { "category", { "handle" } }, { "name", {} } }, {} );
checkElements( line, getChildElements( element ), {} );
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auto handlesIt = m_handles.find( aliasIt->second );
check( handlesIt != m_handles.end(), line, "using unspecified alias <" + aliasIt->second + ">." );
check( handlesIt->second.alias.empty(), line, "handle <" + handlesIt->first + "> already has an alias <" + handlesIt->second.alias + ">" );
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handlesIt->second.alias = attributes.find( "name" )->second;
check( m_types.insert( std::make_pair( handlesIt->second.alias, TypeCategory::Handle ) ).second,
line,
"handle alias <" + handlesIt->second.alias + "> already specified as a type" );
}
else
{
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checkAttributes( line, attributes, { { "category", { "handle" } } }, { { "objtypeenum", {} }, { "parent", {} } } );
std::string objTypeEnum, parent;
for ( auto const & attribute : attributes )
{
if ( attribute.first == "objtypeenum" )
{
objTypeEnum = attribute.second;
}
else if ( attribute.first == "parent" )
{
parent = attribute.second;
}
}
NameData nameData;
TypeInfo typeInfo;
std::tie( nameData, typeInfo ) = readNameAndType( element );
const bool isDispatchable = typeInfo.type == "VK_DEFINE_HANDLE";
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check( beginsWith( nameData.name, "Vk" ), line, "name <" + nameData.name + "> does not begin with <Vk>" );
check( nameData.arraySizes.empty(), line, "name <" + nameData.name + "> with unsupported arraySizes" );
check( ( typeInfo.type == "VK_DEFINE_HANDLE" ) || ( typeInfo.type == "VK_DEFINE_NON_DISPATCHABLE_HANDLE" ),
line,
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"handle with invalid type <" + typeInfo.type + ">" );
check( typeInfo.prefix.empty(), line, "unexpected type prefix <" + typeInfo.prefix + ">" );
check( typeInfo.postfix == "(", line, "unexpected type postfix <" + typeInfo.postfix + ">" );
check( !objTypeEnum.empty(), line, "handle <" + nameData.name + "> does not specify attribute \"objtypeenum\"" );
check( parent.find( ',' ) == std::string::npos, line, "mulitple parents specified for handle <" + nameData.name + ">" );
check( m_handles.insert( std::make_pair( nameData.name, HandleData( parent, objTypeEnum, isDispatchable, line ) ) ).second,
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line,
"handle <" + nameData.name + "> already specified" );
check( m_types.insert( std::make_pair( nameData.name, TypeCategory::Handle ) ).second, line, "handle <" + nameData.name + "> already specified as a type" );
}
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}
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void VulkanHppGenerator::readTypesTypeInclude( tinyxml2::XMLElement const * element, std::map<std::string, std::string> const & attributes )
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{
int line = element->GetLineNum();
checkAttributes( line, attributes, { { "category", { "include" } }, { "name", {} } }, {} );
checkElements( line, getChildElements( element ), {} );
std::string name = attributes.find( "name" )->second;
check( m_includes.insert( name ).second, element->GetLineNum(), "include named <" + name + "> already specified" );
}
void VulkanHppGenerator::readTypesTypeRequires( tinyxml2::XMLElement const * element, std::map<std::string, std::string> const & attributes )
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{
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int line = element->GetLineNum();
checkAttributes( line, attributes, { { "name", {} }, { "requires", {} } }, {} );
checkElements( line, getChildElements( element ), {} );
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for ( auto attribute : attributes )
{
if ( attribute.first == "name" )
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{
check(
m_types.insert( std::make_pair( attribute.second, TypeCategory::Requires ) ).second, line, "type named <" + attribute.second + "> already specified" );
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}
else
{
assert( attribute.first == "requires" );
check( m_includes.find( attribute.second ) != m_includes.end(), line, "type requires unknown include <" + attribute.second + ">" );
}
}
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}
void VulkanHppGenerator::readTypesTypeStruct( tinyxml2::XMLElement const * element, bool isUnion, std::map<std::string, std::string> const & attributes )
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{
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int line = element->GetLineNum();
if ( attributes.find( "alias" ) != attributes.end() )
{
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checkAttributes( line, attributes, { { "alias", {} }, { "category", { "struct" } }, { "name", {} } }, {} );
checkElements( line, getChildElements( element ), {}, {} );
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std::string alias, name;
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "alias" )
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{
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alias = attribute.second;
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}
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else if ( attribute.first == "name" )
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{
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name = attribute.second;
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}
}
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check( m_structureAliases.insert( std::make_pair( name, StructureAliasData( alias, line ) ) ).second, line, "structure alias <" + name + "> already used" );
check( m_structureAliasesInverse[alias].insert( name ).second, line, "structure alias <" + name + "> already used with structure <" + alias + ">" );
check( m_types.insert( std::make_pair( name, TypeCategory::Struct ) ).second, line, "struct <" + name + "> already specified as a type" );
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}
else
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{
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checkAttributes( line,
attributes,
{ { "category", { isUnion ? "union" : "struct" } }, { "name", {} } },
{ { "allowduplicate", { "false", "true" } }, { "comment", {} }, { "returnedonly", { "true" } }, { "structextends", {} } } );
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std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, {}, { "member", "comment" } );
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std::string category, name;
std::vector<std::string> structExtends;
bool allowDuplicate = false;
bool returnedOnly = false;
for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "allowduplicate" )
{
allowDuplicate = ( attribute.second == "true" );
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}
else if ( attribute.first == "category" )
{
category = attribute.second;
}
else if ( attribute.first == "name" )
{
name = attribute.second;
}
else if ( attribute.first == "returnedonly" )
{
check( attribute.second == "true", line, "unknown value for attribute returnedonly: <" + attribute.second + ">" );
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returnedOnly = true;
}
else if ( attribute.first == "structextends" )
{
structExtends = tokenize( attribute.second, "," );
}
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}
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assert( !name.empty() );
// make this warn a check, as soon as vk.xml has been fixed on attribute "allowduplicate" !
warn( !allowDuplicate || !structExtends.empty(), line, "attribute <allowduplicate> is true, but no structures are listed in <structextends>" );
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check( m_structures.find( name ) == m_structures.end(), line, "struct <" + name + "> already specfied" );
std::map<std::string, StructureData>::iterator it = m_structures.insert( std::make_pair( name, StructureData( structExtends, line ) ) ).first;
it->second.allowDuplicate = allowDuplicate;
it->second.isUnion = isUnion;
it->second.returnedOnly = returnedOnly;
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for ( auto child : children )
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{
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std::string value = child->Value();
if ( value == "comment" )
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{
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readComment( child );
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}
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else if ( value == "member" )
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{
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readTypesTypeStructMember( child, it->second.members, isUnion );
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}
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}
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it->second.subStruct = determineSubStruct( *it );
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// check if multiple structure members use the very same (not empty) len attribute
// Note: even though the arrays are not marked as optional, they still might be mutually exclusive (like in
// VkWriteDescriptorSet)! That is, there's not enough information available in vk.xml to decide on that, so we
// need this external knowledge!
static std::set<std::string> mutualExclusiveStructs = { "VkAccelerationStructureBuildGeometryInfoKHR", "VkWriteDescriptorSet" };
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static std::set<std::string> multipleLenStructs = { "VkImageConstraintsInfoFUCHSIA",
"VkIndirectCommandsLayoutTokenNV",
"VkPresentInfoKHR",
"VkSemaphoreWaitInfo",
"VkSubmitInfo",
"VkSubpassDescription",
"VkSubpassDescription2",
"VkWin32KeyedMutexAcquireReleaseInfoKHR",
"VkWin32KeyedMutexAcquireReleaseInfoNV" };
bool warned = false;
for ( auto m0It = it->second.members.begin(); !warned && ( m0It != it->second.members.end() ); ++m0It )
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{
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if ( !m0It->len.empty() && ( m0It->len.front() != "null-terminated" ) )
{
for ( auto m1It = std::next( m0It ); !warned && ( m1It != it->second.members.end() ); ++m1It )
{
if ( !m1It->len.empty() && ( m0It->len.front() == m1It->len.front() ) )
{
if ( mutualExclusiveStructs.find( it->first ) != mutualExclusiveStructs.end() )
{
it->second.mutualExclusiveLens = true;
}
else
{
warn( multipleLenStructs.find( it->first ) != multipleLenStructs.end(),
line,
"Encountered structure <" + it->first +
"> with multiple members referencing the same member for len. Need to be checked if they are supposed to be mutually exclusive." );
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warned = true;
}
}
}
}
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}
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m_extendedStructs.insert( structExtends.begin(), structExtends.end() );
check( m_types.insert( std::make_pair( name, ( category == "struct" ) ? TypeCategory::Struct : TypeCategory::Union ) ).second,
line,
"struct <" + name + "> already specified as a type" ); // log type and alias in m_types
}
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}
void VulkanHppGenerator::readTypesTypeStructMember( tinyxml2::XMLElement const * element, std::vector<MemberData> & members, bool isUnion )
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{
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int line = element->GetLineNum();
std::map<std::string, std::string> attributes = getAttributes( element );
checkAttributes( line,
attributes,
{},
{ { "altlen", {} },
{ "externsync", { "true" } },
{ "len", {} },
{ "limittype", { "bitmask", "bits", "exact", "max", "min", "mul", "noauto", "pot", "range", "struct" } },
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{ "noautovalidity", { "true" } },
{ "objecttype", { "objectType" } },
{ "optional", { "false", "true" } },
{ "selection", {} },
{ "selector", {} },
{ "values", {} } } );
std::vector<tinyxml2::XMLElement const *> children = getChildElements( element );
checkElements( line, children, { { "name", true }, { "type", true } }, { "comment", "enum" } );
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MemberData memberData( line );
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for ( auto child : children )
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{
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std::string value = child->Value();
if ( value == "enum" )
{
readTypesTypeStructMemberEnum( child, memberData );
}
else if ( value == "name" )
{
readTypesTypeStructMemberName( child, memberData, members );
}
else if ( value == "type" )
{
readTypesTypeStructMemberType( child, memberData );
}
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}
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for ( auto const & attribute : attributes )
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{
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if ( attribute.first == "altlen" )
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{
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assert( memberData.len.empty() );
memberData.len = tokenize( attribute.second, "," );
check( memberData.len.size() == 1, line, "member attribute <altlen> holds unknown number of data: " + std::to_string( memberData.len.size() ) );
check( altLens.find( memberData.len[0] ) != altLens.end(), line, "member attribute <altlen> holds unknown value <" + memberData.len[0] + ">" );
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}
else if ( attribute.first == "len" )
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{
if ( memberData.len.empty() )
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{
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memberData.len = tokenize( attribute.second, "," );
check( !memberData.len.empty() && ( memberData.len.size() <= 2 ),
line,
"member attribute <len> holds unknown number of data: " + std::to_string( memberData.len.size() ) );
auto lenMember = findStructMemberIt( memberData.len[0], members );
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check( lenMember != members.end() || ( memberData.len[0] == "null-terminated" ),
line,
"member attribute <len> holds unknown value <" + memberData.len[0] + ">" );
if ( lenMember != members.end() )
{
check( lenMember->type.prefix.empty() && lenMember->type.postfix.empty(),
line,
"member attribute <len> references a member of unexpected type <" + lenMember->type.compose( "VULKAN_HPP_NAMESPACE" ) + ">" );
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}
if ( 1 < memberData.len.size() )
{
check( ( memberData.len[1] == "1" ) || ( memberData.len[1] == "null-terminated" ),
line,
"member attribute <len> holds unknown second value <" + memberData.len[1] + ">" );
}
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}
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}
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else if ( attribute.first == "noautovalidity" )
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{
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memberData.noAutoValidity = ( attribute.second == "true" );
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}
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else if ( attribute.first == "optional" )
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{
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std::vector<std::string> optional = tokenize( attribute.second, "," );
memberData.optional.reserve( optional.size() );
for ( auto const & o : optional )
{
memberData.optional.push_back( o == "true" );
}
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}
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else if ( attribute.first == "selection" )
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{
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check( isUnion, line, "attribute <selection> is used with a non-union structure." );
memberData.selection = attribute.second;
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}
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else if ( attribute.first == "selector" )
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{
memberData.selector = attribute.second;
auto selectorIt = findStructMemberIt( memberData.selector, members );
check( selectorIt != members.end(), line, "member attribute <selector> holds unknown value <" + memberData.selector + ">" );
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check( m_enums.find( selectorIt->type.type ) != m_enums.end(),
line,
"member attribute <selector> references unknown enum type <" + selectorIt->type.type + ">" );
}
else if ( attribute.first == "values" )
{
std::vector<std::string> values = tokenize( attribute.second, "," );
check( values.size() == 1, line, "attribute \"values\" holds multiple values <" + attribute.first + ">, but it's expected to hold just one" );
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memberData.value = values[0];
}
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}
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members.push_back( memberData );
}
void VulkanHppGenerator::readTypesTypeStructMemberEnum( tinyxml2::XMLElement const * element, MemberData & memberData )
{
int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), {}, {} );
checkElements( line, getChildElements( element ), {}, {} );
std::string enumString = element->GetText();
check( element->PreviousSibling() && ( strcmp( element->PreviousSibling()->Value(), "[" ) == 0 ) && element->NextSibling() &&
( strcmp( element->NextSibling()->Value(), "]" ) == 0 ),
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line,
std::string( "structure member array specifiation is ill-formatted: <" ) + enumString + ">" );
memberData.arraySizes.push_back( enumString );
check( memberData.usedConstant.empty(), line, "struct already holds a constant <" + memberData.usedConstant + ">" );
memberData.usedConstant = enumString;
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}
void VulkanHppGenerator::readTypesTypeStructMemberName( tinyxml2::XMLElement const * element, MemberData & memberData, std::vector<MemberData> const & members )
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{
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int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), {}, {} );
checkElements( line, getChildElements( element ), {}, {} );
std::string name = element->GetText();
check( !isStructMember( name, members ), line, "structure member name <" + name + "> already used" );
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memberData.name = name;
std::tie( memberData.arraySizes, memberData.bitCount ) = readModifiers( element->NextSibling() );
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}
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void VulkanHppGenerator::readTypesTypeStructMemberType( tinyxml2::XMLElement const * element, MemberData & memberData )
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{
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int line = element->GetLineNum();
checkAttributes( line, getAttributes( element ), {}, {} );
checkElements( line, getChildElements( element ), {}, {} );
memberData.type = readTypeInfo( element );
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}
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VulkanHppGenerator::TypeInfo VulkanHppGenerator::readTypeInfo( tinyxml2::XMLElement const * element ) const
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{
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TypeInfo typeInfo;
tinyxml2::XMLNode const * previousSibling = element->PreviousSibling();
if ( previousSibling && previousSibling->ToText() )
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{
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typeInfo.prefix = trim( previousSibling->Value() );
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}
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typeInfo.type = element->GetText();
tinyxml2::XMLNode const * nextSibling = element->NextSibling();
if ( nextSibling && nextSibling->ToText() )
{
typeInfo.postfix = trimStars( trimEnd( nextSibling->Value() ) );
}
return typeInfo;
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}
void VulkanHppGenerator::registerDeleter( std::string const & name, std::pair<std::string, CommandData> const & commandData )
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{
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if ( ( commandData.first.substr( 2, 7 ) == "Destroy" ) || ( commandData.first.substr( 2, 4 ) == "Free" ) )
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{
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std::string key;
size_t valueIndex;
switch ( commandData.second.params.size() )
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{
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case 2:
case 3:
assert( commandData.second.params.back().type.type == "VkAllocationCallbacks" );
key = ( commandData.second.params.size() == 2 ) ? "" : commandData.second.params[0].type.type;
valueIndex = commandData.second.params.size() - 2;
break;
case 4:
key = commandData.second.params[0].type.type;
valueIndex = 3;
assert( m_handles.find( commandData.second.params[valueIndex].type.type ) != m_handles.end() );
m_handles.find( commandData.second.params[valueIndex].type.type )->second.deletePool = commandData.second.params[1].type.type;
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break;
default: assert( false ); valueIndex = 0;
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}
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auto keyHandleIt = m_handles.find( key );
assert( ( keyHandleIt != m_handles.end() ) &&
( keyHandleIt->second.childrenHandles.find( commandData.second.params[valueIndex].type.type ) == keyHandleIt->second.childrenHandles.end() ) );
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keyHandleIt->second.childrenHandles.insert( commandData.second.params[valueIndex].type.type );
auto handleIt = m_handles.find( commandData.second.params[valueIndex].type.type );
assert( handleIt != m_handles.end() );
handleIt->second.deleteCommand = name;
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}
}
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void VulkanHppGenerator::rescheduleRAIIHandle( std::string & str,
std::pair<std::string, HandleData> const & handle,
std::set<std::string> & listedHandles,
std::set<std::string> const & specialFunctions ) const
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{
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listedHandles.insert( handle.first );
if ( !handle.second.parent.empty() && ( listedHandles.find( handle.second.parent ) == listedHandles.end() ) )
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{
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auto parentIt = m_handles.find( handle.second.parent );
assert( parentIt != m_handles.end() );
str += generateRAIIHandle( *parentIt, listedHandles, specialFunctions );
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}
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for ( auto constructorIt : handle.second.constructorIts )
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{
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for ( auto const & param : constructorIt->second.params )
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{
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auto handleIt = m_handles.find( param.type.type );
if ( handleIt != m_handles.end() && ( listedHandles.find( param.type.type ) == listedHandles.end() ) )
{
str += generateRAIIHandle( *handleIt, listedHandles, specialFunctions );
}
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}
}
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}
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std::vector<std::string> VulkanHppGenerator::selectCommandsByHandle( std::vector<RequireData> const & requireData,
std::set<std::string> const & handleCommands,
std::set<std::string> & listedCommands ) const
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{
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std::vector<std::string> selectedCommands;
for ( auto const & require : requireData )
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{
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for ( auto const & command : require.commands )
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{
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if ( ( handleCommands.find( command ) != handleCommands.end() ) && listedCommands.insert( command ).second )
{
selectedCommands.push_back( command );
}
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}
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}
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return selectedCommands;
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}
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void VulkanHppGenerator::setVulkanLicenseHeader( int line, std::string const & comment )
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{
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check( m_vulkanLicenseHeader.empty(), line, "second encounter of a Copyright comment" );
m_vulkanLicenseHeader = comment;
// replace any '\n' with "\n// "
for ( size_t pos = m_vulkanLicenseHeader.find( '\n' ); pos != std::string::npos; pos = m_vulkanLicenseHeader.find( '\n', pos + 1 ) )
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{
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m_vulkanLicenseHeader.replace( pos, 1, "\n// " );
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}
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// replace any " \n" with "\n"
for ( size_t pos = m_vulkanLicenseHeader.find( " \n" ); pos != std::string::npos; pos = m_vulkanLicenseHeader.find( " \n", pos ) )
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{
m_vulkanLicenseHeader.replace( pos, 2, "\n" );
}
// remove any trailing spaces
m_vulkanLicenseHeader = trimEnd( m_vulkanLicenseHeader );
// and add a little message on our own
m_vulkanLicenseHeader += "\n\n// This header is generated from the Khronos Vulkan XML API Registry.";
m_vulkanLicenseHeader = trim( m_vulkanLicenseHeader ) + "\n";
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}
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bool VulkanHppGenerator::skipLeadingGrandParent( std::pair<std::string, HandleData> const & handle ) const
{
bool skip = false;
assert( !handle.second.constructorIts.empty() );
auto constructorIt = handle.second.constructorIts.begin();
if ( ( 1 < ( *constructorIt )->second.params.size() ) && isHandleType( ( *constructorIt )->second.params[0].type.type ) &&
( ( *constructorIt )->second.params[1].type.type == handle.second.parent ) )
{
auto parentIt = m_handles.find( handle.second.parent );
assert( parentIt != m_handles.end() );
skip = ( ( *constructorIt )->second.params[0].type.type == parentIt->second.parent );
#if !defined( NDEBUG )
for ( auto it = std::next( constructorIt ); it != handle.second.constructorIts.end(); ++it )
{
assert( ( *it )->second.params[0].type.type == ( *constructorIt )->second.params[0].type.type );
assert( !skip || ( ( *it )->second.params[1].type.type == ( *constructorIt )->second.params[1].type.type ) );
}
#endif
}
return skip;
}
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std::string VulkanHppGenerator::toString( TypeCategory category )
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{
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switch ( category )
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{
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case TypeCategory::Bitmask: return "bitmask";
case TypeCategory::BaseType: return "basetype";
case TypeCategory::Define: return "define";
case TypeCategory::Enum: return "enum";
case TypeCategory::FuncPointer: return "funcpointer";
case TypeCategory::Handle: return "handle";
case TypeCategory::Requires: return "requires";
case TypeCategory::Struct: return "struct";
case TypeCategory::Union: return "union";
case TypeCategory::Unknown: return "unkown";
default: assert( false ); return "";
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}
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}
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void VulkanHppGenerator::EnumData::addEnumAlias( int line, std::string const & name, std::string const & aliasName )
{
auto aliasIt = aliases.find( name );
check( ( aliasIt == aliases.end() ) || ( aliasIt->second.name == aliasName ), line, "enum alias <" + name + "> already listed for a different enum value" );
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aliases.insert( std::make_pair( name, EnumAliasData( aliasName, line ) ) );
}
void VulkanHppGenerator::EnumData::addEnumValue(
int line, std::string const & valueName, std::string const & protect, bool bitpos, std::string const & extension )
{
auto valueIt = std::find_if( values.begin(), values.end(), [&valueName]( EnumValueData const & evd ) { return evd.name == valueName; } );
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if ( valueIt == values.end() )
{
values.emplace_back( line, valueName, protect, extension, bitpos );
}
}
std::string VulkanHppGenerator::TypeInfo::compose( std::string const & nameSpace ) const
{
return prefix + ( prefix.empty() ? "" : " " ) +
( nameSpace.empty() ? type : ( ( ( type.substr( 0, 2 ) == "Vk" ) ? ( nameSpace + "::" ) : "" ) + stripPrefix( type, "Vk" ) ) ) +
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( postfix.empty() ? "" : " " ) + postfix;
}
VulkanHppGenerator::RequireData::RequireData( int line, std::string const & titles_ ) : titles( tokenize( titles_, "," ) ), xmlLine( line ) {}
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//
// VulkanHppGenerator local functions
//
bool areDisjoint( std::set<size_t> const & first, std::set<size_t> const & second )
{
auto first1 = first.begin();
auto last1 = first.end();
auto first2 = second.begin();
auto last2 = second.end();
while ( first1 != last1 && first2 != last2 )
{
if ( *first1 < *first2 )
{
++first1;
}
else
{
if ( !( *first2 < *first1 ) )
{
return false;
}
++first2;
}
}
return true;
}
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bool beginsWith( std::string const & text, std::string const & prefix )
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{
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return prefix.empty() || text.substr( 0, prefix.length() ) == prefix;
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}
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bool endsWith( std::string const & text, std::string const & postfix )
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{
return postfix.empty() || ( ( postfix.length() <= text.length() ) && ( text.substr( text.length() - postfix.length() ) == postfix ) );
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}
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void check( bool condition, int line, std::string const & message )
{
if ( !condition )
{
throw std::runtime_error( "VulkanHppGenerator: Spec error on line " + std::to_string( line ) + ": " + message );
}
}
// check the validity of an attributes map
// line : the line in the xml file where the attributes are listed
// attributes : the map of name/value pairs of the encountered attributes
// required : the required attributes, with a set of allowed values per attribute
// optional : the optional attributes, with a set of allowed values per attribute
void checkAttributes( int line,
std::map<std::string, std::string> const & attributes,
std::map<std::string, std::set<std::string>> const & required,
std::map<std::string, std::set<std::string>> const & optional )
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{
// check if all required attributes are included and if there is a set of allowed values, check if the actual
// value is part of that set
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for ( auto const & r : required )
{
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auto attributesIt = attributes.find( r.first );
check( attributesIt != attributes.end(), line, "missing attribute <" + r.first + ">" );
check( r.second.empty() || ( r.second.find( attributesIt->second ) != r.second.end() ),
line,
"unexpected attribute value <" + attributesIt->second + "> in attribute <" + r.first + ">" );
}
// check if all not required attributes or optional, and if there is a set of allowed values, check if the
// actual value is part of that set
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for ( auto const & a : attributes )
{
if ( required.find( a.first ) == required.end() )
{
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auto optionalIt = optional.find( a.first );
if ( optionalIt == optional.end() )
{
warn( false, line, "unknown attribute <" + a.first + ">" );
continue;
}
if ( !optionalIt->second.empty() )
{
std::vector<std::string> values = tokenize( a.second, "," );
for ( auto const & v : values )
{
warn( optionalIt->second.find( v ) != optionalIt->second.end(), line, "unexpected attribute value <" + v + "> in attribute <" + a.first + ">" );
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}
}
}
}
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}
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void checkElements( int line,
std::vector<tinyxml2::XMLElement const *> const & elements,
std::map<std::string, bool> const & required,
std::set<std::string> const & optional )
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{
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std::map<std::string, size_t> encountered;
for ( auto const & e : elements )
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{
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std::string value = e->Value();
encountered[value]++;
warn( ( required.find( value ) != required.end() ) || ( optional.find( value ) != optional.end() ), e->GetLineNum(), "unknown element <" + value + ">" );
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}
for ( auto const & r : required )
{
auto encounteredIt = encountered.find( r.first );
check( encounteredIt != encountered.end(), line, "missing required element <" + r.first + ">" );
// check: r.second (means: required excactly once) => (encouteredIt->second == 1)
check( !r.second || ( encounteredIt->second == 1 ),
line,
"required element <" + r.first + "> is supposed to be listed exactly once, but is listed " + std::to_string( encounteredIt->second ) );
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}
}
std::set<size_t> determineSingularParams( size_t returnParam, std::map<size_t, size_t> const & vectorParams )
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{
auto returnVectorIt = vectorParams.find( returnParam );
assert( returnVectorIt != vectorParams.end() );
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std::set<size_t> singularParams;
singularParams.insert( returnVectorIt->second );
for ( auto const & vpi : vectorParams )
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{
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if ( vpi.second == returnVectorIt->second )
{
singularParams.insert( vpi.first );
}
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}
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return singularParams;
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}
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std::string findTag( std::set<std::string> const & tags, std::string const & name, std::string const & postfix )
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{
auto tagIt = std::find_if( tags.begin(), tags.end(), [&name, &postfix]( std::string const & t ) { return endsWith( name, t + postfix ); } );
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return ( tagIt != tags.end() ) ? *tagIt : "";
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}
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std::string generateCArraySizes( std::vector<std::string> const & sizes )
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{
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std::string arraySizes;
for ( auto const & s : sizes )
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{
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arraySizes += "[" + s + "]";
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}
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return arraySizes;
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}
std::pair<std::string, std::string> generateEnumSuffixes( std::string const & name, bool bitmask, std::set<std::string> const & tags )
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{
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std::string prefix, postfix;
if ( name == "VkResult" )
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{
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prefix = "VK_";
}
else
{
if ( bitmask )
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{
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// for a bitmask enum, start with "VK", cut off the trailing "FlagBits", and convert that name to upper case
// end that with "Bit"
size_t pos = name.find( "FlagBits" );
assert( pos != std::string::npos );
std::string shortenedName = name;
shortenedName.erase( pos, strlen( "FlagBits" ) );
std::string tag = findTag( tags, shortenedName );
prefix = toUpperCase( stripPostfix( shortenedName, tag ) ) + "_";
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}
else
{
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// for a non-bitmask enum, convert the name to upper case
prefix = toUpperCase( name ) + "_";
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}
// if the enum name contains a tag move it from the prefix to the postfix to generate correct enum value
// names.
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for ( auto const & tag : tags )
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{
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if ( endsWith( prefix, tag + "_" ) )
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{
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prefix.erase( prefix.length() - tag.length() - 1 );
postfix = "_" + tag;
break;
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}
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else if ( endsWith( name, tag ) )
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{
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postfix = "_" + tag;
break;
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}
}
}
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return std::make_pair( prefix, postfix );
}
std::string generateEnumValueName( std::string const & enumName, std::string const & valueName, bool bitmask, std::set<std::string> const & tags )
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{
std::string prefix, postfix;
std::tie( prefix, postfix ) = generateEnumSuffixes( enumName, bitmask, tags );
std::string tag = findTag( tags, valueName, "" );
if ( postfix == "_" + tag )
{
tag = findTag( tags, valueName, postfix );
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}
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std::string result = "e" + toCamelCase( stripPostfix( stripPrefix( valueName, prefix ), postfix ) );
if ( bitmask )
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{
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size_t pos = result.find( "Bit" );
if ( pos != std::string::npos )
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{
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result.erase( pos, 3 );
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}
}
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if ( !tag.empty() && ( result.substr( result.length() - tag.length() ) == toCamelCase( tag ) ) )
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{
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result = result.substr( 0, result.length() - tag.length() ) + tag;
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}
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return result;
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}
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std::string generateNamespacedType( std::string const & type )
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{
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return beginsWith( type, "Vk" ) ? ( "VULKAN_HPP_NAMESPACE::" + stripPrefix( type, "Vk" ) ) : type;
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}
std::string generateNoDiscard( bool returnsSomething, bool multiSuccessCodes, bool multiErrorCodes )
2020-11-02 14:15:35 +00:00
{
return ( returnsSomething || multiSuccessCodes ) ? "VULKAN_HPP_NODISCARD " : ( multiErrorCodes ? "VULKAN_HPP_NODISCARD_WHEN_NO_EXCEPTIONS " : "" );
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}
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std::string generateNoExcept( std::vector<std::string> const & errorCodes,
std::vector<size_t> const & returnParams,
std::map<size_t, size_t> const & vectorParams,
bool singular,
bool vectorSizeCheck,
bool raii )
{
// noexcept is only possible with no error codes, and the return param (if any) is not a vector param (unless it's the singular version)
return ( errorCodes.empty() &&
( singular || returnParams.empty() ||
( std::find_if( returnParams.begin(),
returnParams.end(),
[&vectorParams]( size_t rp ) { return vectorParams.find( rp ) != vectorParams.end(); } ) == returnParams.end() ) ) )
? ( vectorSizeCheck ? ( raii ? "" : " VULKAN_HPP_NOEXCEPT_WHEN_NO_EXCEPTIONS" ) : " VULKAN_HPP_NOEXCEPT" )
: "";
}
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std::string generateStandardArray( std::string const & type, std::vector<std::string> const & sizes )
{
std::string arrayString = "std::array<" + type + "," + sizes.back() + ">";
for ( size_t i = sizes.size() - 2; i < sizes.size(); i-- )
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{
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arrayString = "std::array<" + arrayString + "," + sizes[i] + ">";
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}
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return arrayString;
}
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std::string generateStandardArrayWrapper( std::string const & type, std::vector<std::string> const & sizes )
{
std::string arrayString = "VULKAN_HPP_NAMESPACE::ArrayWrapper" + std::to_string( sizes.size() ) + "D<" + type;
for ( auto const & size : sizes )
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{
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arrayString += ", " + size;
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}
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arrayString += ">";
return arrayString;
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}
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std::string generateSuccessCode( std::string const & code, std::set<std::string> const & tags )
2020-02-11 13:37:22 +00:00
{
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std::string tag = findTag( tags, code );
// on each success code: prepend 'VULKAN_HPP_NAMESPACE::Result::e', strip "VK_" and a tag, convert it to camel
// case, and add the tag again
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return "VULKAN_HPP_NAMESPACE::Result::e" + toCamelCase( stripPostfix( stripPrefix( code, "VK_" ), tag ) ) + tag;
}
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std::map<std::string, std::string> getAttributes( tinyxml2::XMLElement const * element )
{
std::map<std::string, std::string> attributes;
for ( auto attribute = element->FirstAttribute(); attribute; attribute = attribute->Next() )
2019-08-27 07:02:49 +00:00
{
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assert( attributes.find( attribute->Name() ) == attributes.end() );
attributes[attribute->Name()] = attribute->Value();
}
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return attributes;
}
2021-10-04 10:10:04 +00:00
template <typename ElementContainer>
std::vector<tinyxml2::XMLElement const *> getChildElements( ElementContainer const * element )
{
std::vector<tinyxml2::XMLElement const *> childElements;
for ( tinyxml2::XMLElement const * childElement = element->FirstChildElement(); childElement; childElement = childElement->NextSiblingElement() )
2021-10-04 10:10:04 +00:00
{
childElements.push_back( childElement );
}
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return childElements;
2019-08-27 07:02:49 +00:00
}
2021-10-04 10:10:04 +00:00
std::pair<std::vector<std::string>, std::string> readModifiers( tinyxml2::XMLNode const * node )
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{
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std::vector<std::string> arraySizes;
std::string bitCount;
if ( node && node->ToText() )
2020-02-11 13:37:22 +00:00
{
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// following the name there might be some array size
std::string value = node->Value();
assert( !value.empty() );
if ( value[0] == '[' )
2020-02-11 13:37:22 +00:00
{
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std::string::size_type endPos = 0;
while ( endPos + 1 != value.length() )
{
std::string::size_type startPos = value.find( '[', endPos );
check( startPos != std::string::npos, node->GetLineNum(), "could not find '[' in <" + value + ">" );
endPos = value.find( ']', startPos );
check( endPos != std::string::npos, node->GetLineNum(), "could not find ']' in <" + value + ">" );
check( startPos + 2 <= endPos, node->GetLineNum(), "missing content between '[' and ']' in <" + value + ">" );
arraySizes.push_back( value.substr( startPos + 1, endPos - startPos - 1 ) );
}
2020-02-11 13:37:22 +00:00
}
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else if ( value[0] == ':' )
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{
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bitCount = value.substr( 1 );
}
else
{
check( ( value[0] == ';' ) || ( value[0] == ')' ), node->GetLineNum(), "unknown modifier <" + value + ">" );
2020-02-11 13:37:22 +00:00
}
}
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return std::make_pair( arraySizes, bitCount );
}
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void replaceAll( std::string & str, std::string const & from, std::string const & to )
{
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size_t pos = 0;
while ( ( pos = str.find( from, pos ) ) != std::string::npos )
{
str.replace( pos, from.length(), to );
pos += to.length(); // Handles case where 'to' is a substring of 'from'
}
}
2021-10-04 10:10:04 +00:00
std::string replaceWithMap( std::string const & input, std::map<std::string, std::string> replacements )
{
// This will match ${someVariable} and contain someVariable in match group 1
std::regex re( R"(\$\{([^\}]+)\})" );
auto it = std::sregex_iterator( input.begin(), input.end(), re );
auto end = std::sregex_iterator();
2019-08-27 07:02:49 +00:00
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// No match, just return the original string
if ( it == end )
{
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assert( replacements.empty() );
return input;
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}
2021-10-04 10:10:04 +00:00
#if !defined( NDEBUG )
std::set<std::string> matchedReplacements;
#endif
std::string result = "";
while ( it != end )
{
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std::smatch match = *it;
auto itReplacement = replacements.find( match[1].str() );
assert( itReplacement != replacements.end() );
#if !defined( NDEBUG )
matchedReplacements.insert( match[1].str() );
#endif
result += match.prefix().str() + ( ( itReplacement != replacements.end() ) ? itReplacement->second : match[0].str() );
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++it;
// we've passed the last match. Append the rest of the orignal string
if ( it == end )
{
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result += match.suffix().str();
}
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}
#if !defined( NDEBUG )
std::set<std::string> missedReplacements;
for ( auto r : replacements )
{
if ( matchedReplacements.find( r.first ) == matchedReplacements.end() )
{
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missedReplacements.insert( r.first );
}
}
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assert( missedReplacements.empty() );
#endif
return result;
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}
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std::string startLowerCase( std::string const & input )
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{
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return input.empty() ? "" : static_cast<char>( tolower( input[0] ) ) + input.substr( 1 );
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}
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std::string startUpperCase( std::string const & input )
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{
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return input.empty() ? "" : static_cast<char>( toupper( input[0] ) ) + input.substr( 1 );
}
2018-09-25 09:23:27 +00:00
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std::string stripPostfix( std::string const & value, std::string const & postfix )
{
2021-10-04 10:10:04 +00:00
std::string strippedValue = value;
if ( endsWith( strippedValue, postfix ) )
{
strippedValue.erase( strippedValue.length() - postfix.length() );
}
return strippedValue;
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}
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std::string stripPluralS( std::string const & name )
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{
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std::string strippedName( name );
size_t pos = strippedName.rfind( 's' );
if ( pos != std::string::npos )
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{
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if ( ( 2 <= pos ) && ( strippedName.substr( pos - 2, 3 ) == "ies" ) )
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{
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strippedName.replace( pos - 2, 3, "y" );
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}
else
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{
strippedName.erase( pos, 1 );
}
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}
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return strippedName;
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}
2021-10-04 10:10:04 +00:00
std::string stripPrefix( std::string const & value, std::string const & prefix )
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{
2021-10-04 10:10:04 +00:00
std::string strippedValue = value;
if ( beginsWith( strippedValue, prefix ) )
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{
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strippedValue.erase( 0, prefix.length() );
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}
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return strippedValue;
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}
2021-10-04 10:10:04 +00:00
std::string toCamelCase( std::string const & value )
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{
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assert( !value.empty() && ( isupper( value[0] ) || isdigit( value[0] ) ) );
std::string result;
result.reserve( value.size() );
bool keepUpper = true;
for ( auto c : value )
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{
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if ( c == '_' )
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{
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keepUpper = true;
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}
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else if ( isdigit( c ) )
{
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keepUpper = true;
result.push_back( c );
}
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else if ( keepUpper )
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{
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result.push_back( c );
keepUpper = false;
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}
else
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{
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result.push_back( static_cast<char>( tolower( c ) ) );
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}
}
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return result;
}
std::string toUpperCase( std::string const & name )
{
std::string convertedName;
bool previousIsLowerCase = false;
bool previousIsDigit = false;
for ( auto c : name )
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{
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if ( ( isupper( c ) && ( previousIsLowerCase || previousIsDigit ) ) || ( isdigit( c ) && previousIsLowerCase ) )
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{
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convertedName.push_back( '_' );
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}
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convertedName.push_back( static_cast<char>( toupper( c ) ) );
previousIsLowerCase = !!islower( c );
previousIsDigit = !!isdigit( c );
}
return convertedName;
}
std::vector<std::string> tokenize( std::string const & tokenString, std::string const & separator )
{
std::vector<std::string> tokens;
if ( !tokenString.empty() )
{
size_t start = 0, end;
do
{
2021-10-04 10:10:04 +00:00
end = tokenString.find( separator, start );
if ( start != end )
{
tokens.push_back( trim( tokenString.substr( start, end - start ) ) );
}
start = end + separator.length();
} while ( end != std::string::npos );
}
return tokens;
}
template <typename StringContainer>
std::string toString( StringContainer const & strings )
{
std::string str;
bool encounteredMember = false;
for ( auto s : strings )
{
if ( encounteredMember )
{
str += ", ";
}
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str += s;
encounteredMember = true;
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}
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return str;
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}
2021-10-04 10:10:04 +00:00
std::string trim( std::string const & input )
{
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std::string result = input;
result.erase( result.begin(), std::find_if( result.begin(), result.end(), []( char c ) { return !std::isspace( c ); } ) );
result.erase( std::find_if( result.rbegin(), result.rend(), []( char c ) { return !std::isspace( c ); } ).base(), result.end() );
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return result;
}
2021-10-04 10:10:04 +00:00
std::string trimEnd( std::string const & input )
{
std::string result = input;
result.erase( std::find_if( result.rbegin(), result.rend(), []( char c ) { return !std::isspace( c ); } ).base(), result.end() );
2021-10-04 10:10:04 +00:00
return result;
}
std::string trimStars( std::string const & input )
{
std::string result = input;
size_t pos = result.find( '*' );
while ( pos != std::string::npos )
2020-02-11 13:37:22 +00:00
{
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if ( ( 0 < pos ) && ( result[pos - 1] != ' ' ) && ( result[pos - 1] != '*' ) )
2020-02-11 13:37:22 +00:00
{
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result.insert( pos, 1, ' ' );
++pos;
2020-02-11 13:37:22 +00:00
}
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else if ( ( pos < result.length() - 1 ) && ( result[pos + 1] != ' ' ) && ( result[pos + 1] != '*' ) )
2020-02-11 13:37:22 +00:00
{
2021-10-04 10:10:04 +00:00
result.insert( pos + 1, 1, ' ' );
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}
2021-10-04 10:10:04 +00:00
pos = result.find( '*', pos + 1 );
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}
2021-10-04 10:10:04 +00:00
return result;
}
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void warn( bool condition, int line, std::string const & message )
{
if ( !condition )
{
std::cerr << "VulkanHppGenerator: Spec warning on line " << std::to_string( line ) << ": " << message << "!" << std::endl;
}
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}
void writeToFile( std::string const & str, std::string const & fileName )
{
std::ofstream ofs( fileName );
assert( !ofs.fail() );
ofs << str;
ofs.close();
#if defined( CLANG_FORMAT_EXECUTABLE )
std::cout << "VulkanHppGenerator: Formatting " << fileName << " ..." << std::endl;
std::string commandString = "\"" CLANG_FORMAT_EXECUTABLE "\" -i --style=file " + fileName;
int ret = std::system( commandString.c_str() );
if ( ret != 0 )
{
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std::cout << "VulkanHppGenerator: failed to format file " << fileName << " with error <" << ret << ">\n";
}
2021-10-04 10:10:04 +00:00
#endif
}
2021-10-04 10:10:04 +00:00
std::string toString( tinyxml2::XMLError error )
{
switch ( error )
{
case tinyxml2::XML_SUCCESS: return "XML_SUCCESS";
case tinyxml2::XML_NO_ATTRIBUTE: return "XML_NO_ATTRIBUTE";
case tinyxml2::XML_WRONG_ATTRIBUTE_TYPE: return "XML_WRONG_ATTRIBUTE_TYPE";
case tinyxml2::XML_ERROR_FILE_NOT_FOUND: return "XML_ERROR_FILE_NOT_FOUND";
case tinyxml2::XML_ERROR_FILE_COULD_NOT_BE_OPENED: return "XML_ERROR_FILE_COULD_NOT_BE_OPENED";
case tinyxml2::XML_ERROR_FILE_READ_ERROR: return "XML_ERROR_FILE_READ_ERROR";
case tinyxml2::XML_ERROR_PARSING_ELEMENT: return "XML_ERROR_PARSING_ELEMENT";
case tinyxml2::XML_ERROR_PARSING_ATTRIBUTE: return "XML_ERROR_PARSING_ATTRIBUTE";
case tinyxml2::XML_ERROR_PARSING_TEXT: return "XML_ERROR_PARSING_TEXT";
case tinyxml2::XML_ERROR_PARSING_CDATA: return "XML_ERROR_PARSING_CDATA";
case tinyxml2::XML_ERROR_PARSING_COMMENT: return "XML_ERROR_PARSING_COMMENT";
case tinyxml2::XML_ERROR_PARSING_DECLARATION: return "XML_ERROR_PARSING_DECLARATION";
case tinyxml2::XML_ERROR_PARSING_UNKNOWN: return "XML_ERROR_PARSING_UNKNOWN";
case tinyxml2::XML_ERROR_EMPTY_DOCUMENT: return "XML_ERROR_EMPTY_DOCUMENT";
case tinyxml2::XML_ERROR_MISMATCHED_ELEMENT: return "XML_ERROR_MISMATCHED_ELEMENT";
case tinyxml2::XML_ERROR_PARSING: return "XML_ERROR_PARSING";
case tinyxml2::XML_CAN_NOT_CONVERT_TEXT: return "XML_CAN_NOT_CONVERT_TEXT";
case tinyxml2::XML_NO_TEXT_NODE: return "XML_NO_TEXT_NODE";
default: return "unknown error code <" + std::to_string( error ) + ">";
}
}
int main( int argc, char ** argv )
2018-09-25 09:23:27 +00:00
{
static const std::string classArrayProxy = R"(
template <typename T>
class ArrayProxy
2018-09-25 09:23:27 +00:00
{
public:
2020-04-09 15:01:24 +00:00
VULKAN_HPP_CONSTEXPR ArrayProxy() VULKAN_HPP_NOEXCEPT
: m_count( 0 )
, m_ptr( nullptr )
2020-04-09 15:01:24 +00:00
{}
VULKAN_HPP_CONSTEXPR ArrayProxy( std::nullptr_t ) VULKAN_HPP_NOEXCEPT
: m_count( 0 )
, m_ptr( nullptr )
{}
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ArrayProxy( T & value ) VULKAN_HPP_NOEXCEPT
: m_count( 1 )
, m_ptr( &value )
2020-04-09 15:01:24 +00:00
{}
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxy( typename std::remove_const<T>::type & value ) VULKAN_HPP_NOEXCEPT
: m_count( 1 )
, m_ptr( &value )
{}
2018-09-25 09:23:27 +00:00
ArrayProxy( uint32_t count, T * ptr ) VULKAN_HPP_NOEXCEPT
: m_count( count )
, m_ptr( ptr )
{}
2018-09-25 09:23:27 +00:00
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxy( uint32_t count, typename std::remove_const<T>::type * ptr ) VULKAN_HPP_NOEXCEPT
: m_count( count )
, m_ptr( ptr )
2020-04-09 15:01:24 +00:00
{}
template <std::size_t C>
ArrayProxy( T (& ptr)[C] ) VULKAN_HPP_NOEXCEPT
: m_count( C )
, m_ptr( ptr )
{}
template <std::size_t C, typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxy( typename std::remove_const<T>::type (& ptr)[C] ) VULKAN_HPP_NOEXCEPT
: m_count( C )
, m_ptr( ptr )
{}
2021-03-23 09:52:56 +00:00
# if __GNUC__ >= 9
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Winit-list-lifetime"
# endif
ArrayProxy( std::initializer_list<T> const & list ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( list.size() ) )
, m_ptr( list.begin() )
2020-04-09 15:01:24 +00:00
{}
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxy( std::initializer_list<typename std::remove_const<T>::type> const & list ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( list.size() ) )
, m_ptr( list.begin() )
{}
2018-09-25 09:23:27 +00:00
ArrayProxy( std::initializer_list<T> & list ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( list.size() ) )
, m_ptr( list.begin() )
{}
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxy( std::initializer_list<typename std::remove_const<T>::type> & list ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( list.size() ) )
, m_ptr( list.begin() )
{}
2021-03-23 09:52:56 +00:00
# if __GNUC__ >= 9
# pragma GCC diagnostic pop
# endif
// Any type with a .data() return type implicitly convertible to T*, and a .size() return type implicitly
// convertible to size_t. The const version can capture temporaries, with lifetime ending at end of statement.
template <typename V,
typename std::enable_if<
std::is_convertible<decltype( std::declval<V>().data() ), T *>::value &&
std::is_convertible<decltype( std::declval<V>().size() ), std::size_t>::value>::type * = nullptr>
ArrayProxy( V const & v ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( v.size() ) )
, m_ptr( v.data() )
{}
template <typename V,
typename std::enable_if<
std::is_convertible<decltype( std::declval<V>().data() ), T *>::value &&
std::is_convertible<decltype( std::declval<V>().size() ), std::size_t>::value>::type * = nullptr>
ArrayProxy( V & v ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( v.size() ) )
, m_ptr( v.data() )
{}
const T * begin() const VULKAN_HPP_NOEXCEPT
{
return m_ptr;
}
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const T * end() const VULKAN_HPP_NOEXCEPT
{
return m_ptr + m_count;
}
2018-09-25 09:23:27 +00:00
const T & front() const VULKAN_HPP_NOEXCEPT
2018-09-25 09:23:27 +00:00
{
VULKAN_HPP_ASSERT( m_count && m_ptr );
return *m_ptr;
}
const T & back() const VULKAN_HPP_NOEXCEPT
{
VULKAN_HPP_ASSERT( m_count && m_ptr );
return *( m_ptr + m_count - 1 );
}
bool empty() const VULKAN_HPP_NOEXCEPT
{
return ( m_count == 0 );
}
uint32_t size() const VULKAN_HPP_NOEXCEPT
{
return m_count;
}
T * data() const VULKAN_HPP_NOEXCEPT
{
return m_ptr;
}
private:
uint32_t m_count;
T * m_ptr;
};
template <typename T>
class ArrayProxyNoTemporaries
{
public:
VULKAN_HPP_CONSTEXPR ArrayProxyNoTemporaries() VULKAN_HPP_NOEXCEPT
: m_count( 0 )
, m_ptr( nullptr )
{}
VULKAN_HPP_CONSTEXPR ArrayProxyNoTemporaries( std::nullptr_t ) VULKAN_HPP_NOEXCEPT
: m_count( 0 )
, m_ptr( nullptr )
{}
ArrayProxyNoTemporaries( T & value ) VULKAN_HPP_NOEXCEPT
: m_count( 1 )
, m_ptr( &value )
{}
template <typename V>
ArrayProxyNoTemporaries( V && value ) = delete;
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxyNoTemporaries( typename std::remove_const<T>::type & value ) VULKAN_HPP_NOEXCEPT
: m_count( 1 )
, m_ptr( &value )
{}
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxyNoTemporaries( typename std::remove_const<T>::type && value ) = delete;
ArrayProxyNoTemporaries( uint32_t count, T * ptr ) VULKAN_HPP_NOEXCEPT
: m_count( count )
, m_ptr( ptr )
{}
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxyNoTemporaries( uint32_t count, typename std::remove_const<T>::type * ptr ) VULKAN_HPP_NOEXCEPT
: m_count( count )
, m_ptr( ptr )
{}
template <std::size_t C>
ArrayProxyNoTemporaries( T (& ptr)[C] ) VULKAN_HPP_NOEXCEPT
: m_count( C )
, m_ptr( ptr )
{}
template <std::size_t C>
ArrayProxyNoTemporaries( T (&& ptr)[C] ) = delete;
template <std::size_t C, typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxyNoTemporaries( typename std::remove_const<T>::type (& ptr)[C] ) VULKAN_HPP_NOEXCEPT
: m_count( C )
, m_ptr( ptr )
{}
template <std::size_t C, typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxyNoTemporaries( typename std::remove_const<T>::type (&& ptr)[C] ) = delete;
ArrayProxyNoTemporaries( std::initializer_list<T> const & list ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( list.size() ) )
, m_ptr( list.begin() )
{}
ArrayProxyNoTemporaries( std::initializer_list<T> const && list ) = delete;
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxyNoTemporaries( std::initializer_list<typename std::remove_const<T>::type> const & list )
VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( list.size() ) )
, m_ptr( list.begin() )
{}
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxyNoTemporaries( std::initializer_list<typename std::remove_const<T>::type> const && list ) = delete;
ArrayProxyNoTemporaries( std::initializer_list<T> & list ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( list.size() ) )
, m_ptr( list.begin() )
{}
ArrayProxyNoTemporaries( std::initializer_list<T> && list ) = delete;
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxyNoTemporaries( std::initializer_list<typename std::remove_const<T>::type> & list ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( list.size() ) )
, m_ptr( list.begin() )
{}
template <typename B = T, typename std::enable_if<std::is_const<B>::value, int>::type = 0>
ArrayProxyNoTemporaries( std::initializer_list<typename std::remove_const<T>::type> && list ) = delete;
// Any type with a .data() return type implicitly convertible to T*, and a // .size() return type implicitly
// convertible to size_t.
template <typename V,
typename std::enable_if<
std::is_convertible<decltype( std::declval<V>().data() ), T *>::value &&
std::is_convertible<decltype( std::declval<V>().size() ), std::size_t>::value>::type * = nullptr>
ArrayProxyNoTemporaries( V & v ) VULKAN_HPP_NOEXCEPT
: m_count( static_cast<uint32_t>( v.size() ) )
, m_ptr( v.data() )
{}
const T * begin() const VULKAN_HPP_NOEXCEPT
{
return m_ptr;
}
const T * end() const VULKAN_HPP_NOEXCEPT
{
return m_ptr + m_count;
}
const T & front() const VULKAN_HPP_NOEXCEPT
{
VULKAN_HPP_ASSERT( m_count && m_ptr );
return *m_ptr;
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}
const T & back() const VULKAN_HPP_NOEXCEPT
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{
VULKAN_HPP_ASSERT( m_count && m_ptr );
return *( m_ptr + m_count - 1 );
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}
bool empty() const VULKAN_HPP_NOEXCEPT
{
return ( m_count == 0 );
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}
uint32_t size() const VULKAN_HPP_NOEXCEPT
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{
return m_count;
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}
T * data() const VULKAN_HPP_NOEXCEPT
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{
return m_ptr;
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}
private:
uint32_t m_count;
T * m_ptr;
};
)";
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static const std::string classArrayWrapper = R"(
template <typename T, size_t N>
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class ArrayWrapper1D : public std::array<T, N>
{
public:
VULKAN_HPP_CONSTEXPR ArrayWrapper1D() VULKAN_HPP_NOEXCEPT
: std::array<T, N>()
{}
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VULKAN_HPP_CONSTEXPR ArrayWrapper1D( std::array<T, N> const & data ) VULKAN_HPP_NOEXCEPT
: std::array<T, N>( data )
{}
#if ( VK_USE_64_BIT_PTR_DEFINES == 0 )
// on 32 bit compiles, needs overloads on index type int to resolve ambiguities
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VULKAN_HPP_CONSTEXPR T const & operator[]( int index ) const VULKAN_HPP_NOEXCEPT
{
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return std::array<T, N>::operator[]( index );
}
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T & operator[]( int index ) VULKAN_HPP_NOEXCEPT
{
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return std::array<T, N>::operator[]( index );
}
#endif
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operator T const * () const VULKAN_HPP_NOEXCEPT
{
return this->data();
}
operator T * () VULKAN_HPP_NOEXCEPT
{
return this->data();
}
template <typename B = T, typename std::enable_if<std::is_same<B, char>::value, int>::type = 0>
operator std::string() const
{
return std::string( this->data() );
}
#if 17 <= VULKAN_HPP_CPP_VERSION
template <typename B = T, typename std::enable_if<std::is_same<B, char>::value, int>::type = 0>
operator std::string_view() const
{
return std::string_view( this->data() );
}
#endif
#if defined( VULKAN_HPP_HAS_SPACESHIP_OPERATOR )
template <typename B = T, typename std::enable_if<std::is_same<B, char>::value, int>::type = 0>
std::strong_ordering operator<=>( ArrayWrapper1D<char, N> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return *static_cast<std::array<char, N> const *>( this ) <=> *static_cast<std::array<char, N> const *>( &rhs );
}
#else
template <typename B = T, typename std::enable_if<std::is_same<B, char>::value, int>::type = 0>
bool operator<( ArrayWrapper1D<char, N> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return *static_cast<std::array<char, N> const *>( this ) < *static_cast<std::array<char, N> const *>( &rhs );
}
template <typename B = T, typename std::enable_if<std::is_same<B, char>::value, int>::type = 0>
bool operator<=( ArrayWrapper1D<char, N> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return *static_cast<std::array<char, N> const *>( this ) <= *static_cast<std::array<char, N> const *>( &rhs );
}
template <typename B = T, typename std::enable_if<std::is_same<B, char>::value, int>::type = 0>
bool operator>( ArrayWrapper1D<char, N> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return *static_cast<std::array<char, N> const *>( this ) > *static_cast<std::array<char, N> const *>( &rhs );
}
template <typename B = T, typename std::enable_if<std::is_same<B, char>::value, int>::type = 0>
bool operator>=( ArrayWrapper1D<char, N> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return *static_cast<std::array<char, N> const *>( this ) >= *static_cast<std::array<char, N> const *>( &rhs );
}
#endif
template <typename B = T, typename std::enable_if<std::is_same<B, char>::value, int>::type = 0>
bool operator==( ArrayWrapper1D<char, N> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return *static_cast<std::array<char, N> const *>( this ) == *static_cast<std::array<char, N> const *>( &rhs );
}
template <typename B = T, typename std::enable_if<std::is_same<B, char>::value, int>::type = 0>
bool operator!=( ArrayWrapper1D<char, N> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return *static_cast<std::array<char, N> const *>( this ) != *static_cast<std::array<char, N> const *>( &rhs );
}
};
// specialization of relational operators between std::string and arrays of chars
template <size_t N>
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bool operator<( std::string const & lhs, ArrayWrapper1D<char, N> const & rhs ) VULKAN_HPP_NOEXCEPT
{
return lhs < rhs.data();
}
template <size_t N>
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bool operator<=( std::string const & lhs, ArrayWrapper1D<char, N> const & rhs ) VULKAN_HPP_NOEXCEPT
{
return lhs <= rhs.data();
}
template <size_t N>
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bool operator>( std::string const & lhs, ArrayWrapper1D<char, N> const & rhs ) VULKAN_HPP_NOEXCEPT
{
return lhs > rhs.data();
}
template <size_t N>
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bool operator>=( std::string const & lhs, ArrayWrapper1D<char, N> const & rhs ) VULKAN_HPP_NOEXCEPT
{
return lhs >= rhs.data();
}
template <size_t N>
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bool operator==( std::string const & lhs, ArrayWrapper1D<char, N> const & rhs ) VULKAN_HPP_NOEXCEPT
{
return lhs == rhs.data();
}
template <size_t N>
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bool operator!=( std::string const & lhs, ArrayWrapper1D<char, N> const & rhs ) VULKAN_HPP_NOEXCEPT
{
return lhs != rhs.data();
}
template <typename T, size_t N, size_t M>
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class ArrayWrapper2D : public std::array<ArrayWrapper1D<T, M>, N>
{
public:
VULKAN_HPP_CONSTEXPR ArrayWrapper2D() VULKAN_HPP_NOEXCEPT
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: std::array<ArrayWrapper1D<T, M>, N>()
{}
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VULKAN_HPP_CONSTEXPR ArrayWrapper2D( std::array<std::array<T, M>, N> const & data ) VULKAN_HPP_NOEXCEPT
: std::array<ArrayWrapper1D<T, M>, N>( *reinterpret_cast<std::array<ArrayWrapper1D<T, M>, N> const *>( &data ) )
{}
};
)";
static const std::string classFlags = R"(
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template <typename FlagBitsType>
struct FlagTraits
{};
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template <typename BitType>
class Flags
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{
public:
using MaskType = typename std::underlying_type<BitType>::type;
// constructors
VULKAN_HPP_CONSTEXPR Flags() VULKAN_HPP_NOEXCEPT
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: m_mask( 0 )
{}
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VULKAN_HPP_CONSTEXPR Flags( BitType bit ) VULKAN_HPP_NOEXCEPT
: m_mask( static_cast<MaskType>( bit ) )
{}
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VULKAN_HPP_CONSTEXPR Flags( Flags<BitType> const & rhs ) VULKAN_HPP_NOEXCEPT = default;
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VULKAN_HPP_CONSTEXPR explicit Flags( MaskType flags ) VULKAN_HPP_NOEXCEPT
: m_mask( flags )
{}
// relational operators
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#if defined( VULKAN_HPP_HAS_SPACESHIP_OPERATOR )
auto operator<=>( Flags<BitType> const & ) const = default;
#else
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VULKAN_HPP_CONSTEXPR bool operator<( Flags<BitType> const & rhs ) const VULKAN_HPP_NOEXCEPT
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{
return m_mask < rhs.m_mask;
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}
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VULKAN_HPP_CONSTEXPR bool operator<=( Flags<BitType> const & rhs ) const VULKAN_HPP_NOEXCEPT
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{
return m_mask <= rhs.m_mask;
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}
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VULKAN_HPP_CONSTEXPR bool operator>( Flags<BitType> const & rhs ) const VULKAN_HPP_NOEXCEPT
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{
return m_mask > rhs.m_mask;
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}
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VULKAN_HPP_CONSTEXPR bool operator>=( Flags<BitType> const & rhs ) const VULKAN_HPP_NOEXCEPT
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{
return m_mask >= rhs.m_mask;
}
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VULKAN_HPP_CONSTEXPR bool operator==( Flags<BitType> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return m_mask == rhs.m_mask;
}
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VULKAN_HPP_CONSTEXPR bool operator!=( Flags<BitType> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
return m_mask != rhs.m_mask;
}
#endif
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// logical operator
VULKAN_HPP_CONSTEXPR bool operator!() const VULKAN_HPP_NOEXCEPT
{
return !m_mask;
}
// bitwise operators
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VULKAN_HPP_CONSTEXPR Flags<BitType> operator&( Flags<BitType> const & rhs ) const VULKAN_HPP_NOEXCEPT
{
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return Flags<BitType>( m_mask & rhs.m_mask );
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}
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VULKAN_HPP_CONSTEXPR Flags<BitType> operator|( Flags<BitType> const & rhs ) const VULKAN_HPP_NOEXCEPT
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{
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return Flags<BitType>( m_mask | rhs.m_mask );
}
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VULKAN_HPP_CONSTEXPR Flags<BitType> operator^( Flags<BitType> const & rhs ) const VULKAN_HPP_NOEXCEPT
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{
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return Flags<BitType>( m_mask ^ rhs.m_mask );
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}
VULKAN_HPP_CONSTEXPR Flags<BitType> operator~() const VULKAN_HPP_NOEXCEPT
{
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return Flags<BitType>( m_mask ^ FlagTraits<BitType>::allFlags );
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}
// assignment operators
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VULKAN_HPP_CONSTEXPR_14 Flags<BitType> & operator=( Flags<BitType> const & rhs ) VULKAN_HPP_NOEXCEPT = default;
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VULKAN_HPP_CONSTEXPR_14 Flags<BitType> & operator|=( Flags<BitType> const & rhs ) VULKAN_HPP_NOEXCEPT
{
m_mask |= rhs.m_mask;
return *this;
}
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VULKAN_HPP_CONSTEXPR_14 Flags<BitType> & operator&=( Flags<BitType> const & rhs ) VULKAN_HPP_NOEXCEPT
{
m_mask &= rhs.m_mask;
return *this;
}
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VULKAN_HPP_CONSTEXPR_14 Flags<BitType> & operator^=( Flags<BitType> const & rhs ) VULKAN_HPP_NOEXCEPT
{
m_mask ^= rhs.m_mask;
return *this;
}
// cast operators
explicit VULKAN_HPP_CONSTEXPR operator bool() const VULKAN_HPP_NOEXCEPT
{
return !!m_mask;
}
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explicit VULKAN_HPP_CONSTEXPR operator MaskType() const VULKAN_HPP_NOEXCEPT
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{
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return m_mask;
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}
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#if defined( VULKAN_HPP_FLAGS_MASK_TYPE_AS_PUBLIC )
public:
#else
private:
#endif
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MaskType m_mask;
};
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#if !defined( VULKAN_HPP_HAS_SPACESHIP_OPERATOR )
// relational operators only needed for pre C++20
template <typename BitType>
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VULKAN_HPP_CONSTEXPR bool operator<( BitType bit, Flags<BitType> const & flags ) VULKAN_HPP_NOEXCEPT
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{
return flags.operator>( bit );
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}
template <typename BitType>
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VULKAN_HPP_CONSTEXPR bool operator<=( BitType bit, Flags<BitType> const & flags ) VULKAN_HPP_NOEXCEPT
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{
return flags.operator>=( bit );
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}
template <typename BitType>
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VULKAN_HPP_CONSTEXPR bool operator>( BitType bit, Flags<BitType> const & flags ) VULKAN_HPP_NOEXCEPT
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{
return flags.operator<( bit );
}
template <typename BitType>
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VULKAN_HPP_CONSTEXPR bool operator>=( BitType bit, Flags<BitType> const & flags ) VULKAN_HPP_NOEXCEPT
{
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return flags.operator<=( bit );
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}
template <typename BitType>
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VULKAN_HPP_CONSTEXPR bool operator==( BitType bit, Flags<BitType> const & flags ) VULKAN_HPP_NOEXCEPT
{
return flags.operator==( bit );
}
template <typename BitType>
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VULKAN_HPP_CONSTEXPR bool operator!=( BitType bit, Flags<BitType> const & flags ) VULKAN_HPP_NOEXCEPT
{
return flags.operator!=( bit );
}
#endif
// bitwise operators
template <typename BitType>
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VULKAN_HPP_CONSTEXPR Flags<BitType> operator&( BitType bit, Flags<BitType> const & flags ) VULKAN_HPP_NOEXCEPT
{
return flags.operator&( bit );
}
template <typename BitType>
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VULKAN_HPP_CONSTEXPR Flags<BitType> operator|( BitType bit, Flags<BitType> const & flags ) VULKAN_HPP_NOEXCEPT
{
return flags.operator|( bit );
}
template <typename BitType>
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VULKAN_HPP_CONSTEXPR Flags<BitType> operator^( BitType bit, Flags<BitType> const & flags ) VULKAN_HPP_NOEXCEPT
{
return flags.operator^( bit );
}
)";
static const std::string classObjectDestroy = R"(
struct AllocationCallbacks;
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template <typename OwnerType, typename Dispatch>
class ObjectDestroy
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{
public:
ObjectDestroy() = default;
ObjectDestroy( OwnerType owner,
Optional<const AllocationCallbacks> allocationCallbacks
VULKAN_HPP_DEFAULT_ARGUMENT_NULLPTR_ASSIGNMENT,
Dispatch const & dispatch VULKAN_HPP_DEFAULT_DISPATCHER_ASSIGNMENT ) VULKAN_HPP_NOEXCEPT
: m_owner( owner )
, m_allocationCallbacks( allocationCallbacks )
, m_dispatch( &dispatch )
{}
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OwnerType getOwner() const VULKAN_HPP_NOEXCEPT { return m_owner; }
Optional<const AllocationCallbacks> getAllocator() const VULKAN_HPP_NOEXCEPT { return m_allocationCallbacks; }
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protected:
template <typename T>
void destroy(T t) VULKAN_HPP_NOEXCEPT
{
VULKAN_HPP_ASSERT( m_owner && m_dispatch );
m_owner.destroy( t, m_allocationCallbacks, *m_dispatch );
}
private:
OwnerType m_owner = {};
Optional<const AllocationCallbacks> m_allocationCallbacks = nullptr;
Dispatch const * m_dispatch = nullptr;
};
class NoParent;
template <typename Dispatch>
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class ObjectDestroy<NoParent, Dispatch>
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{
public:
ObjectDestroy() = default;
ObjectDestroy( Optional<const AllocationCallbacks> allocationCallbacks,
Dispatch const & dispatch VULKAN_HPP_DEFAULT_DISPATCHER_ASSIGNMENT ) VULKAN_HPP_NOEXCEPT
: m_allocationCallbacks( allocationCallbacks )
, m_dispatch( &dispatch )
{}
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Optional<const AllocationCallbacks> getAllocator() const VULKAN_HPP_NOEXCEPT { return m_allocationCallbacks; }
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protected:
template <typename T>
void destroy(T t) VULKAN_HPP_NOEXCEPT
{
VULKAN_HPP_ASSERT( m_dispatch );
t.destroy( m_allocationCallbacks, *m_dispatch );
}
private:
Optional<const AllocationCallbacks> m_allocationCallbacks = nullptr;
Dispatch const * m_dispatch = nullptr;
};
)";
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static const std::string classObjectFree = R"(
template <typename OwnerType, typename Dispatch>
class ObjectFree
{
public:
ObjectFree() = default;
ObjectFree( OwnerType owner,
Optional<const AllocationCallbacks> allocationCallbacks VULKAN_HPP_DEFAULT_ARGUMENT_NULLPTR_ASSIGNMENT,
Dispatch const & dispatch VULKAN_HPP_DEFAULT_DISPATCHER_ASSIGNMENT ) VULKAN_HPP_NOEXCEPT
: m_owner( owner )
, m_allocationCallbacks( allocationCallbacks )
, m_dispatch( &dispatch )
{}
OwnerType getOwner() const VULKAN_HPP_NOEXCEPT
{
return m_owner;
}
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Optional<const AllocationCallbacks> getAllocator() const VULKAN_HPP_NOEXCEPT
{
return m_allocationCallbacks;
}
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protected:
template <typename T>
void destroy( T t ) VULKAN_HPP_NOEXCEPT
{
VULKAN_HPP_ASSERT( m_owner && m_dispatch );
( m_owner.free )( t, m_allocationCallbacks, *m_dispatch );
}
private:
OwnerType m_owner = {};
Optional<const AllocationCallbacks> m_allocationCallbacks = nullptr;
Dispatch const * m_dispatch = nullptr;
};
)";
2018-09-25 09:23:27 +00:00
2020-10-07 06:42:59 +00:00
static const std::string classObjectRelease = R"(
template <typename OwnerType, typename Dispatch>
class ObjectRelease
{
public:
ObjectRelease() = default;
ObjectRelease( OwnerType owner,
Dispatch const & dispatch VULKAN_HPP_DEFAULT_DISPATCHER_ASSIGNMENT ) VULKAN_HPP_NOEXCEPT
2020-10-07 06:42:59 +00:00
: m_owner( owner )
, m_dispatch( &dispatch )
{}
OwnerType getOwner() const VULKAN_HPP_NOEXCEPT
{
return m_owner;
}
protected:
template <typename T>
void destroy( T t ) VULKAN_HPP_NOEXCEPT
{
VULKAN_HPP_ASSERT( m_owner && m_dispatch );
m_owner.release( t, *m_dispatch );
}
private:
OwnerType m_owner = {};
Dispatch const * m_dispatch = nullptr;
};
)";
static const std::string classOptional = R"(
template <typename RefType>
class Optional
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{
public:
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Optional( RefType & reference ) VULKAN_HPP_NOEXCEPT
{
m_ptr = &reference;
}
Optional( RefType * ptr ) VULKAN_HPP_NOEXCEPT
{
m_ptr = ptr;
}
Optional( std::nullptr_t ) VULKAN_HPP_NOEXCEPT
{
m_ptr = nullptr;
}
2018-09-25 09:23:27 +00:00
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operator RefType *() const VULKAN_HPP_NOEXCEPT
{
return m_ptr;
}
RefType const * operator->() const VULKAN_HPP_NOEXCEPT
{
return m_ptr;
}
explicit operator bool() const VULKAN_HPP_NOEXCEPT
{
return !!m_ptr;
}
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private:
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RefType * m_ptr;
};
)";
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static const std::string classPoolFree = R"(
template <typename OwnerType, typename PoolType, typename Dispatch>
class PoolFree
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{
public:
PoolFree() = default;
PoolFree( OwnerType owner,
PoolType pool,
Dispatch const & dispatch VULKAN_HPP_DEFAULT_DISPATCHER_ASSIGNMENT ) VULKAN_HPP_NOEXCEPT
: m_owner( owner )
, m_pool( pool )
, m_dispatch( &dispatch )
{}
OwnerType getOwner() const VULKAN_HPP_NOEXCEPT { return m_owner; }
PoolType getPool() const VULKAN_HPP_NOEXCEPT { return m_pool; }
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protected:
template <typename T>
void destroy(T t) VULKAN_HPP_NOEXCEPT
{
( m_owner.free )( m_pool, t, *m_dispatch );
}
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private:
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OwnerType m_owner = OwnerType();
PoolType m_pool = PoolType();
Dispatch const * m_dispatch = nullptr;
};
)";
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static const std::string classStructureChain = R"(
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template <typename X, typename Y>
struct StructExtends
{
enum
{
value = false
};
};
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template <typename Type, class...>
struct IsPartOfStructureChain
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{
static const bool valid = false;
};
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template <typename Type, typename Head, typename... Tail>
struct IsPartOfStructureChain<Type, Head, Tail...>
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{
static const bool valid = std::is_same<Type, Head>::value || IsPartOfStructureChain<Type, Tail...>::valid;
};
template <size_t Index, typename T, typename... ChainElements>
struct StructureChainContains
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{
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static const bool value =
std::is_same<T, typename std::tuple_element<Index, std::tuple<ChainElements...>>::type>::value ||
StructureChainContains<Index - 1, T, ChainElements...>::value;
};
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template <typename T, typename... ChainElements>
struct StructureChainContains<0, T, ChainElements...>
{
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static const bool value =
std::is_same<T, typename std::tuple_element<0, std::tuple<ChainElements...>>::type>::value;
};
template <size_t Index, typename... ChainElements>
struct StructureChainValidation
{
using TestType = typename std::tuple_element<Index, std::tuple<ChainElements...>>::type;
static const bool valid =
StructExtends<TestType, typename std::tuple_element<0, std::tuple<ChainElements...>>::type>::value &&
( TestType::allowDuplicate || !StructureChainContains<Index - 1, TestType, ChainElements...>::value ) &&
StructureChainValidation<Index - 1, ChainElements...>::valid;
};
template <typename... ChainElements>
struct StructureChainValidation<0, ChainElements...>
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{
static const bool valid = true;
};
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template <typename... ChainElements>
class StructureChain : public std::tuple<ChainElements...>
{
public:
StructureChain() VULKAN_HPP_NOEXCEPT
{
static_assert( StructureChainValidation<sizeof...( ChainElements ) - 1, ChainElements...>::valid,
"The structure chain is not valid!" );
link<sizeof...( ChainElements ) - 1>();
}
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StructureChain( StructureChain const & rhs ) VULKAN_HPP_NOEXCEPT : std::tuple<ChainElements...>( rhs )
{
static_assert( StructureChainValidation<sizeof...( ChainElements ) - 1, ChainElements...>::valid,
"The structure chain is not valid!" );
link( &std::get<0>( *this ),
&std::get<0>( rhs ),
reinterpret_cast<VkBaseOutStructure *>( &std::get<0>( *this ) ),
reinterpret_cast<VkBaseInStructure const *>( &std::get<0>( rhs ) ) );
}
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StructureChain( StructureChain && rhs ) VULKAN_HPP_NOEXCEPT
: std::tuple<ChainElements...>( std::forward<std::tuple<ChainElements...>>( rhs ) )
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{
static_assert( StructureChainValidation<sizeof...( ChainElements ) - 1, ChainElements...>::valid,
"The structure chain is not valid!" );
link( &std::get<0>( *this ),
&std::get<0>( rhs ),
reinterpret_cast<VkBaseOutStructure *>( &std::get<0>( *this ) ),
reinterpret_cast<VkBaseInStructure const *>( &std::get<0>( rhs ) ) );
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}
StructureChain( ChainElements const &... elems ) VULKAN_HPP_NOEXCEPT : std::tuple<ChainElements...>( elems... )
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{
static_assert( StructureChainValidation<sizeof...( ChainElements ) - 1, ChainElements...>::valid,
"The structure chain is not valid!" );
link<sizeof...( ChainElements ) - 1>();
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}
StructureChain & operator=( StructureChain const & rhs ) VULKAN_HPP_NOEXCEPT
{
std::tuple<ChainElements...>::operator=( rhs );
link( &std::get<0>( *this ),
&std::get<0>( rhs ),
reinterpret_cast<VkBaseOutStructure *>( &std::get<0>( *this ) ),
reinterpret_cast<VkBaseInStructure const *>( &std::get<0>( rhs ) ) );
return *this;
}
StructureChain & operator=( StructureChain && rhs ) = delete;
template <typename T = typename std::tuple_element<0, std::tuple<ChainElements...>>::type, size_t Which = 0>
T & get() VULKAN_HPP_NOEXCEPT
{
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return std::get<ChainElementIndex<0, T, Which, void, ChainElements...>::value>(
static_cast<std::tuple<ChainElements...> &>( *this ) );
}
template <typename T = typename std::tuple_element<0, std::tuple<ChainElements...>>::type, size_t Which = 0>
T const & get() const VULKAN_HPP_NOEXCEPT
{
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return std::get<ChainElementIndex<0, T, Which, void, ChainElements...>::value>(
static_cast<std::tuple<ChainElements...> const &>( *this ) );
}
template <typename T0, typename T1, typename... Ts>
std::tuple<T0 &, T1 &, Ts &...> get() VULKAN_HPP_NOEXCEPT
{
return std::tie( get<T0>(), get<T1>(), get<Ts>()... );
}
template <typename T0, typename T1, typename... Ts>
std::tuple<T0 const &, T1 const &, Ts const &...> get() const VULKAN_HPP_NOEXCEPT
{
return std::tie( get<T0>(), get<T1>(), get<Ts>()... );
}
template <typename ClassType, size_t Which = 0>
typename std::enable_if<
std::is_same<ClassType, typename std::tuple_element<0, std::tuple<ChainElements...>>::type>::value &&
( Which == 0 ),
bool>::type
isLinked() const VULKAN_HPP_NOEXCEPT
{
return true;
}
template <typename ClassType, size_t Which = 0>
typename std::enable_if<
!std::is_same<ClassType, typename std::tuple_element<0, std::tuple<ChainElements...>>::type>::value ||
( Which != 0 ),
bool>::type
isLinked() const VULKAN_HPP_NOEXCEPT
{
static_assert( IsPartOfStructureChain<ClassType, ChainElements...>::valid,
"Can't unlink Structure that's not part of this StructureChain!" );
return isLinked( reinterpret_cast<VkBaseInStructure const *>( &get<ClassType, Which>() ) );
}
template <typename ClassType, size_t Which = 0>
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typename std::enable_if<
!std::is_same<ClassType, typename std::tuple_element<0, std::tuple<ChainElements...>>::type>::value ||
( Which != 0 ),
void>::type relink() VULKAN_HPP_NOEXCEPT
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{
static_assert( IsPartOfStructureChain<ClassType, ChainElements...>::valid,
"Can't relink Structure that's not part of this StructureChain!" );
auto pNext = reinterpret_cast<VkBaseInStructure *>( &get<ClassType, Which>() );
VULKAN_HPP_ASSERT( !isLinked( pNext ) );
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auto & headElement = std::get<0>( static_cast<std::tuple<ChainElements...> &>( *this ) );
pNext->pNext = reinterpret_cast<VkBaseInStructure const *>( headElement.pNext );
headElement.pNext = pNext;
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}
template <typename ClassType, size_t Which = 0>
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typename std::enable_if<
!std::is_same<ClassType, typename std::tuple_element<0, std::tuple<ChainElements...>>::type>::value ||
( Which != 0 ),
void>::type unlink() VULKAN_HPP_NOEXCEPT
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{
static_assert( IsPartOfStructureChain<ClassType, ChainElements...>::valid,
"Can't unlink Structure that's not part of this StructureChain!" );
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unlink( reinterpret_cast<VkBaseOutStructure const *>( &get<ClassType, Which>() ) );
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}
private:
template <int Index, typename T, int Which, typename, class First, class... Types>
struct ChainElementIndex : ChainElementIndex<Index + 1, T, Which, void, Types...>
{};
template <int Index, typename T, int Which, class First, class... Types>
struct ChainElementIndex<Index,
T,
Which,
typename std::enable_if<!std::is_same<T, First>::value, void>::type,
First,
Types...> : ChainElementIndex<Index + 1, T, Which, void, Types...>
{};
template <int Index, typename T, int Which, class First, class... Types>
struct ChainElementIndex<Index,
T,
Which,
typename std::enable_if<std::is_same<T, First>::value, void>::type,
First,
Types...> : ChainElementIndex<Index + 1, T, Which - 1, void, Types...>
{};
template <int Index, typename T, class First, class... Types>
struct ChainElementIndex<Index,
T,
0,
typename std::enable_if<std::is_same<T, First>::value, void>::type,
First,
Types...> : std::integral_constant<int, Index>
{};
bool isLinked( VkBaseInStructure const * pNext ) const VULKAN_HPP_NOEXCEPT
{
VkBaseInStructure const * elementPtr = reinterpret_cast<VkBaseInStructure const *>(
&std::get<0>( static_cast<std::tuple<ChainElements...> const &>( *this ) ) );
while ( elementPtr )
{
if ( elementPtr->pNext == pNext )
{
return true;
}
elementPtr = elementPtr->pNext;
}
return false;
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}
template <size_t Index>
typename std::enable_if<Index != 0, void>::type link() VULKAN_HPP_NOEXCEPT
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{
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auto & x = std::get<Index - 1>( static_cast<std::tuple<ChainElements...> &>( *this ) );
x.pNext = &std::get<Index>( static_cast<std::tuple<ChainElements...> &>( *this ) );
link<Index - 1>();
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}
template <size_t Index>
typename std::enable_if<Index == 0, void>::type link() VULKAN_HPP_NOEXCEPT
{}
void link( void * dstBase, void const * srcBase, VkBaseOutStructure * dst, VkBaseInStructure const * src )
{
while ( src->pNext )
{
std::ptrdiff_t offset =
reinterpret_cast<char const *>( src->pNext ) - reinterpret_cast<char const *>( srcBase );
dst->pNext = reinterpret_cast<VkBaseOutStructure *>( reinterpret_cast<char *>( dstBase ) + offset );
dst = dst->pNext;
src = src->pNext;
}
dst->pNext = nullptr;
}
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void unlink( VkBaseOutStructure const * pNext ) VULKAN_HPP_NOEXCEPT
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{
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VkBaseOutStructure * elementPtr =
reinterpret_cast<VkBaseOutStructure *>( &std::get<0>( static_cast<std::tuple<ChainElements...> &>( *this ) ) );
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while ( elementPtr && ( elementPtr->pNext != pNext ) )
{
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elementPtr = elementPtr->pNext;
}
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if ( elementPtr )
{
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elementPtr->pNext = pNext->pNext;
}
else
{
VULKAN_HPP_ASSERT( false ); // fires, if the ClassType member has already been unlinked !
}
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}
};
)";
static const std::string classUniqueHandle = R"(
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#if !defined( VULKAN_HPP_NO_SMART_HANDLE )
template <typename Type, typename Dispatch>
class UniqueHandleTraits;
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template <typename Type, typename Dispatch>
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class UniqueHandle : public UniqueHandleTraits<Type, Dispatch>::deleter
{
private:
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using Deleter = typename UniqueHandleTraits<Type, Dispatch>::deleter;
public:
using element_type = Type;
UniqueHandle()
: Deleter()
, m_value()
{}
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explicit UniqueHandle( Type const & value, Deleter const & deleter = Deleter() ) VULKAN_HPP_NOEXCEPT
: Deleter( deleter )
, m_value( value )
{}
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UniqueHandle( UniqueHandle const & ) = delete;
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UniqueHandle( UniqueHandle && other ) VULKAN_HPP_NOEXCEPT
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: Deleter( std::move( static_cast<Deleter &>( other ) ) )
, m_value( other.release() )
{}
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~UniqueHandle() VULKAN_HPP_NOEXCEPT
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{
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if ( m_value )
{
this->destroy( m_value );
}
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}
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UniqueHandle & operator=( UniqueHandle const & ) = delete;
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UniqueHandle & operator=( UniqueHandle && other ) VULKAN_HPP_NOEXCEPT
{
reset( other.release() );
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*static_cast<Deleter *>( this ) = std::move( static_cast<Deleter &>( other ) );
return *this;
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}
explicit operator bool() const VULKAN_HPP_NOEXCEPT
{
return m_value.operator bool();
}
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Type const * operator->() const VULKAN_HPP_NOEXCEPT
{
return &m_value;
}
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Type * operator->() VULKAN_HPP_NOEXCEPT
{
return &m_value;
}
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Type const & operator*() const VULKAN_HPP_NOEXCEPT
{
return m_value;
}
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Type & operator*() VULKAN_HPP_NOEXCEPT
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{
return m_value;
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}
const Type & get() const VULKAN_HPP_NOEXCEPT
{
return m_value;
}
Type & get() VULKAN_HPP_NOEXCEPT
{
return m_value;
}
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void reset( Type const & value = Type() ) VULKAN_HPP_NOEXCEPT
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{
if ( m_value != value )
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{
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if ( m_value )
{
this->destroy( m_value );
}
m_value = value;
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}
}
Type release() VULKAN_HPP_NOEXCEPT
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{
Type value = m_value;
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m_value = nullptr;
return value;
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}
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void swap( UniqueHandle<Type, Dispatch> & rhs ) VULKAN_HPP_NOEXCEPT
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{
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std::swap( m_value, rhs.m_value );
std::swap( static_cast<Deleter &>( *this ), static_cast<Deleter &>( rhs ) );
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}
private:
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Type m_value;
};
template <typename UniqueType>
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VULKAN_HPP_INLINE std::vector<typename UniqueType::element_type>
uniqueToRaw( std::vector<UniqueType> const & handles )
{
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std::vector<typename UniqueType::element_type> newBuffer( handles.size() );
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std::transform( handles.begin(), handles.end(), newBuffer.begin(), []( UniqueType const & handle ) { return handle.get(); } );
return newBuffer;
}
template <typename Type, typename Dispatch>
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VULKAN_HPP_INLINE void swap( UniqueHandle<Type, Dispatch> & lhs,
UniqueHandle<Type, Dispatch> & rhs ) VULKAN_HPP_NOEXCEPT
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{
lhs.swap( rhs );
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}
#endif
)";
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static const std::string defines = R"(
// <tuple> includes <sys/sysmacros.h> through some other header
// this results in major(x) being resolved to gnu_dev_major(x)
// which is an expression in a constructor initializer list.
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#if defined( major )
# undef major
#endif
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#if defined( minor )
# undef minor
#endif
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// Windows defines MemoryBarrier which is deprecated and collides
// with the VULKAN_HPP_NAMESPACE::MemoryBarrier struct.
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#if defined( MemoryBarrier )
# undef MemoryBarrier
#endif
2018-09-25 09:23:27 +00:00
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#if !defined( VULKAN_HPP_HAS_UNRESTRICTED_UNIONS )
# if defined( __clang__ )
# if __has_feature( cxx_unrestricted_unions )
# define VULKAN_HPP_HAS_UNRESTRICTED_UNIONS
# endif
# elif defined( __GNUC__ )
# define GCC_VERSION ( __GNUC__ * 10000 + __GNUC_MINOR__ * 100 + __GNUC_PATCHLEVEL__ )
# if 40600 <= GCC_VERSION
# define VULKAN_HPP_HAS_UNRESTRICTED_UNIONS
# endif
# elif defined( _MSC_VER )
# if 1900 <= _MSC_VER
# define VULKAN_HPP_HAS_UNRESTRICTED_UNIONS
# endif
# endif
#endif
2018-09-25 09:23:27 +00:00
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#if !defined( VULKAN_HPP_INLINE )
# if defined( __clang__ )
# if __has_attribute( always_inline )
# define VULKAN_HPP_INLINE __attribute__( ( always_inline ) ) __inline__
# else
# define VULKAN_HPP_INLINE inline
# endif
# elif defined( __GNUC__ )
# define VULKAN_HPP_INLINE __attribute__( ( always_inline ) ) __inline__
# elif defined( _MSC_VER )
# define VULKAN_HPP_INLINE inline
# else
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# define VULKAN_HPP_INLINE inline
# endif
#endif
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#if defined( VULKAN_HPP_TYPESAFE_CONVERSION )
# define VULKAN_HPP_TYPESAFE_EXPLICIT
#else
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# define VULKAN_HPP_TYPESAFE_EXPLICIT explicit
#endif
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#if defined( __cpp_constexpr )
# define VULKAN_HPP_CONSTEXPR constexpr
# if __cpp_constexpr >= 201304
# define VULKAN_HPP_CONSTEXPR_14 constexpr
# else
# define VULKAN_HPP_CONSTEXPR_14
# endif
# define VULKAN_HPP_CONST_OR_CONSTEXPR constexpr
#else
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# define VULKAN_HPP_CONSTEXPR
# define VULKAN_HPP_CONSTEXPR_14
# define VULKAN_HPP_CONST_OR_CONSTEXPR const
#endif
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#if !defined( VULKAN_HPP_NOEXCEPT )
# if defined( _MSC_VER ) && ( _MSC_VER <= 1800 )
# define VULKAN_HPP_NOEXCEPT
# else
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# define VULKAN_HPP_NOEXCEPT noexcept
# define VULKAN_HPP_HAS_NOEXCEPT 1
# if defined( VULKAN_HPP_NO_EXCEPTIONS )
# define VULKAN_HPP_NOEXCEPT_WHEN_NO_EXCEPTIONS noexcept
# else
# define VULKAN_HPP_NOEXCEPT_WHEN_NO_EXCEPTIONS
# endif
# endif
#endif
#if 14 <= VULKAN_HPP_CPP_VERSION
# define VULKAN_HPP_DEPRECATED( msg ) [[deprecated( msg )]]
#else
# define VULKAN_HPP_DEPRECATED( msg )
#endif
#if ( 17 <= VULKAN_HPP_CPP_VERSION ) && !defined( VULKAN_HPP_NO_NODISCARD_WARNINGS )
# define VULKAN_HPP_NODISCARD [[nodiscard]]
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# if defined( VULKAN_HPP_NO_EXCEPTIONS )
# define VULKAN_HPP_NODISCARD_WHEN_NO_EXCEPTIONS [[nodiscard]]
# else
# define VULKAN_HPP_NODISCARD_WHEN_NO_EXCEPTIONS
# endif
#else
# define VULKAN_HPP_NODISCARD
# define VULKAN_HPP_NODISCARD_WHEN_NO_EXCEPTIONS
#endif
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#if !defined( VULKAN_HPP_NAMESPACE )
# define VULKAN_HPP_NAMESPACE vk
#endif
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#define VULKAN_HPP_STRINGIFY2( text ) #text
#define VULKAN_HPP_STRINGIFY( text ) VULKAN_HPP_STRINGIFY2( text )
#define VULKAN_HPP_NAMESPACE_STRING VULKAN_HPP_STRINGIFY( VULKAN_HPP_NAMESPACE )
2021-06-21 20:35:24 +00:00
)";
static const std::string dispatchLoaderBase = R"(
class DispatchLoaderBase
{
public:
DispatchLoaderBase() = default;
DispatchLoaderBase( std::nullptr_t )
#if !defined( NDEBUG )
: m_valid( false )
#endif
{}
#if !defined( NDEBUG )
size_t getVkHeaderVersion() const
{
VULKAN_HPP_ASSERT( m_valid );
return vkHeaderVersion;
}
private:
size_t vkHeaderVersion = VK_HEADER_VERSION;
bool m_valid = true;
#endif
};
)";
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static const std::string dispatchLoaderDefault = R"(
class DispatchLoaderDynamic;
#if !defined(VULKAN_HPP_DISPATCH_LOADER_DYNAMIC)
# if defined( VK_NO_PROTOTYPES )
# define VULKAN_HPP_DISPATCH_LOADER_DYNAMIC 1
# else
# define VULKAN_HPP_DISPATCH_LOADER_DYNAMIC 0
# endif
#endif
#if !defined( VULKAN_HPP_STORAGE_API )
# if defined( VULKAN_HPP_STORAGE_SHARED )
# if defined( _MSC_VER )
# if defined( VULKAN_HPP_STORAGE_SHARED_EXPORT )
# define VULKAN_HPP_STORAGE_API __declspec( dllexport )
# else
# define VULKAN_HPP_STORAGE_API __declspec( dllimport )
# endif
# elif defined( __clang__ ) || defined( __GNUC__ )
# if defined( VULKAN_HPP_STORAGE_SHARED_EXPORT )
# define VULKAN_HPP_STORAGE_API __attribute__( ( visibility( "default" ) ) )
# else
# define VULKAN_HPP_STORAGE_API
# endif
# else
# define VULKAN_HPP_STORAGE_API
# pragma warning Unknown import / export semantics
# endif
# else
# define VULKAN_HPP_STORAGE_API
# endif
#endif
#if !defined( VULKAN_HPP_DEFAULT_DISPATCHER )
# if VULKAN_HPP_DISPATCH_LOADER_DYNAMIC == 1
# define VULKAN_HPP_DEFAULT_DISPATCHER ::VULKAN_HPP_NAMESPACE::defaultDispatchLoaderDynamic
# define VULKAN_HPP_DEFAULT_DISPATCH_LOADER_DYNAMIC_STORAGE \
namespace VULKAN_HPP_NAMESPACE \
{ \
VULKAN_HPP_STORAGE_API DispatchLoaderDynamic defaultDispatchLoaderDynamic; \
}
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extern VULKAN_HPP_STORAGE_API DispatchLoaderDynamic defaultDispatchLoaderDynamic;
# else
static inline ::VULKAN_HPP_NAMESPACE::DispatchLoaderStatic & getDispatchLoaderStatic()
{
static ::VULKAN_HPP_NAMESPACE::DispatchLoaderStatic dls;
return dls;
}
# define VULKAN_HPP_DEFAULT_DISPATCHER ::VULKAN_HPP_NAMESPACE::getDispatchLoaderStatic()
# define VULKAN_HPP_DEFAULT_DISPATCH_LOADER_DYNAMIC_STORAGE
# endif
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#endif
#if !defined( VULKAN_HPP_DEFAULT_DISPATCHER_TYPE )
# if VULKAN_HPP_DISPATCH_LOADER_DYNAMIC == 1
# define VULKAN_HPP_DEFAULT_DISPATCHER_TYPE ::VULKAN_HPP_NAMESPACE::DispatchLoaderDynamic
# else
# define VULKAN_HPP_DEFAULT_DISPATCHER_TYPE ::VULKAN_HPP_NAMESPACE::DispatchLoaderStatic
# endif
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#endif
#if defined( VULKAN_HPP_NO_DEFAULT_DISPATCHER )
# define VULKAN_HPP_DEFAULT_ARGUMENT_ASSIGNMENT
# define VULKAN_HPP_DEFAULT_ARGUMENT_NULLPTR_ASSIGNMENT
# define VULKAN_HPP_DEFAULT_DISPATCHER_ASSIGNMENT
#else
# define VULKAN_HPP_DEFAULT_ARGUMENT_ASSIGNMENT = {}
# define VULKAN_HPP_DEFAULT_ARGUMENT_NULLPTR_ASSIGNMENT = nullptr
# define VULKAN_HPP_DEFAULT_DISPATCHER_ASSIGNMENT = VULKAN_HPP_DEFAULT_DISPATCHER
#endif
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)";
static const std::string dynamicLoader = R"(
#if VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL
class DynamicLoader
{
public:
# ifdef VULKAN_HPP_NO_EXCEPTIONS
DynamicLoader( std::string const & vulkanLibraryName = {} ) VULKAN_HPP_NOEXCEPT
# else
DynamicLoader( std::string const & vulkanLibraryName = {} )
# endif
{
if ( !vulkanLibraryName.empty() )
{
# if defined( __unix__ ) || defined( __APPLE__ ) || defined( __QNXNTO__ ) || defined(__Fuchsia__)
m_library = dlopen( vulkanLibraryName.c_str(), RTLD_NOW | RTLD_LOCAL );
# elif defined( _WIN32 )
m_library = ::LoadLibraryA( vulkanLibraryName.c_str() );
# else
# error unsupported platform
# endif
}
else
{
# if defined( __unix__ ) || defined( __QNXNTO__ ) || defined(__Fuchsia__)
m_library = dlopen( "libvulkan.so", RTLD_NOW | RTLD_LOCAL );
if ( m_library == nullptr )
{
m_library = dlopen( "libvulkan.so.1", RTLD_NOW | RTLD_LOCAL );
}
# elif defined( __APPLE__ )
m_library = dlopen( "libvulkan.dylib", RTLD_NOW | RTLD_LOCAL );
# elif defined( _WIN32 )
m_library = ::LoadLibraryA( "vulkan-1.dll" );
# else
# error unsupported platform
# endif
}
#ifndef VULKAN_HPP_NO_EXCEPTIONS
if ( m_library == nullptr )
{
// NOTE there should be an InitializationFailedError, but msvc insists on the symbol does not exist within the scope of this function.
throw std::runtime_error( "Failed to load vulkan library!" );
}
#endif
}
DynamicLoader( DynamicLoader const & ) = delete;
DynamicLoader( DynamicLoader && other ) VULKAN_HPP_NOEXCEPT : m_library(other.m_library)
{
other.m_library = nullptr;
}
DynamicLoader &operator=( DynamicLoader const & ) = delete;
DynamicLoader &operator=( DynamicLoader && other ) VULKAN_HPP_NOEXCEPT
{
std::swap(m_library, other.m_library);
return *this;
}
~DynamicLoader() VULKAN_HPP_NOEXCEPT
{
if ( m_library )
{
# if defined( __unix__ ) || defined( __APPLE__ ) || defined( __QNXNTO__ ) || defined(__Fuchsia__)
dlclose( m_library );
# elif defined( _WIN32 )
::FreeLibrary( m_library );
# else
# error unsupported platform
# endif
}
}
template <typename T>
T getProcAddress( const char* function ) const VULKAN_HPP_NOEXCEPT
{
# if defined( __unix__ ) || defined( __APPLE__ ) || defined( __QNXNTO__ ) || defined(__Fuchsia__)
return (T)dlsym( m_library, function );
# elif defined( _WIN32 )
return (T)::GetProcAddress( m_library, function );
# else
# error unsupported platform
# endif
}
bool success() const VULKAN_HPP_NOEXCEPT { return m_library != nullptr; }
private:
# if defined( __unix__ ) || defined( __APPLE__ ) || defined( __QNXNTO__ ) || defined(__Fuchsia__)
void * m_library;
# elif defined( _WIN32 )
::HINSTANCE m_library;
# else
# error unsupported platform
# endif
};
#endif
)";
static const std::string exceptions = R"(
class ErrorCategoryImpl : public std::error_category
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{
public:
virtual const char* name() const VULKAN_HPP_NOEXCEPT override { return VULKAN_HPP_NAMESPACE_STRING"::Result"; }
virtual std::string message(int ev) const override
{
#if defined( VULKAN_HPP_NO_TO_STRING )
return std::to_string( ev );
#else
return VULKAN_HPP_NAMESPACE::to_string(static_cast<VULKAN_HPP_NAMESPACE::Result>(ev));
#endif
}
};
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class Error
{
public:
Error() VULKAN_HPP_NOEXCEPT = default;
Error(const Error&) VULKAN_HPP_NOEXCEPT = default;
virtual ~Error() VULKAN_HPP_NOEXCEPT = default;
virtual const char* what() const VULKAN_HPP_NOEXCEPT = 0;
};
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class LogicError : public Error, public std::logic_error
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{
public:
explicit LogicError( const std::string& what )
: Error(), std::logic_error(what) {}
explicit LogicError( char const * what )
: Error(), std::logic_error(what) {}
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virtual const char* what() const VULKAN_HPP_NOEXCEPT { return std::logic_error::what(); }
};
class SystemError : public Error, public std::system_error
{
public:
SystemError( std::error_code ec )
: Error(), std::system_error(ec) {}
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SystemError( std::error_code ec, std::string const & what )
: Error(), std::system_error(ec, what) {}
SystemError( std::error_code ec, char const * what )
: Error(), std::system_error(ec, what) {}
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SystemError( int ev, std::error_category const & ecat )
: Error(), std::system_error(ev, ecat) {}
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SystemError( int ev, std::error_category const & ecat, std::string const & what)
: Error(), std::system_error(ev, ecat, what) {}
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SystemError( int ev, std::error_category const & ecat, char const * what)
: Error(), std::system_error(ev, ecat, what) {}
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virtual const char* what() const VULKAN_HPP_NOEXCEPT { return std::system_error::what(); }
};
VULKAN_HPP_INLINE const std::error_category& errorCategory() VULKAN_HPP_NOEXCEPT
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{
static ErrorCategoryImpl instance;
return instance;
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}
VULKAN_HPP_INLINE std::error_code make_error_code(Result e) VULKAN_HPP_NOEXCEPT
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{
return std::error_code(static_cast<int>(e), errorCategory());
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}
VULKAN_HPP_INLINE std::error_condition make_error_condition(Result e) VULKAN_HPP_NOEXCEPT
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{
return std::error_condition(static_cast<int>(e), errorCategory());
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}
)";
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static const std::string includes = R"(
#ifndef VULKAN_HPP
#define VULKAN_HPP
#if defined( _MSVC_LANG )
# define VULKAN_HPP_CPLUSPLUS _MSVC_LANG
#else
# define VULKAN_HPP_CPLUSPLUS __cplusplus
#endif
#if 201703L < VULKAN_HPP_CPLUSPLUS
# define VULKAN_HPP_CPP_VERSION 20
#elif 201402L < VULKAN_HPP_CPLUSPLUS
# define VULKAN_HPP_CPP_VERSION 17
#elif 201103L < VULKAN_HPP_CPLUSPLUS
# define VULKAN_HPP_CPP_VERSION 14
#elif 199711L < VULKAN_HPP_CPLUSPLUS
# define VULKAN_HPP_CPP_VERSION 11
#else
# error "vulkan.hpp needs at least c++ standard version 11"
#endif
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#include <array> // ArrayWrapperND
#include <string> // std::string
#include <vulkan/vulkan.h>
#if 17 <= VULKAN_HPP_CPP_VERSION
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# include <string_view> // std::string_view
#endif
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#if defined( VULKAN_HPP_DISABLE_ENHANCED_MODE )
# if !defined( VULKAN_HPP_NO_SMART_HANDLE )
# define VULKAN_HPP_NO_SMART_HANDLE
# endif
#else
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# include <tuple> // std::tie
# include <vector> // std::vector
#endif
#if !defined( VULKAN_HPP_NO_EXCEPTIONS )
# include <system_error> // std::is_error_code_enum
#endif
#if !defined( VULKAN_HPP_NO_SMART_HANDLE )
# include <algorithm> // std::transform
#endif
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#if defined( VULKAN_HPP_NO_CONSTRUCTORS )
# if !defined( VULKAN_HPP_NO_STRUCT_CONSTRUCTORS )
# define VULKAN_HPP_NO_STRUCT_CONSTRUCTORS
# endif
# if !defined( VULKAN_HPP_NO_UNION_CONSTRUCTORS )
# define VULKAN_HPP_NO_UNION_CONSTRUCTORS
# endif
#endif
#if defined( VULKAN_HPP_NO_SETTERS )
# if !defined( VULKAN_HPP_NO_STRUCT_SETTERS )
# define VULKAN_HPP_NO_STRUCT_SETTERS
# endif
# if !defined( VULKAN_HPP_NO_UNION_SETTERS )
# define VULKAN_HPP_NO_UNION_SETTERS
# endif
#endif
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#if !defined( VULKAN_HPP_ASSERT )
# include <cassert>
# define VULKAN_HPP_ASSERT assert
#endif
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#if !defined( VULKAN_HPP_ASSERT_ON_RESULT )
# define VULKAN_HPP_ASSERT_ON_RESULT VULKAN_HPP_ASSERT
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#endif
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#if !defined( VULKAN_HPP_STATIC_ASSERT )
# define VULKAN_HPP_STATIC_ASSERT static_assert
#endif
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#if !defined( VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL )
# define VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL 1
#endif
#if VULKAN_HPP_ENABLE_DYNAMIC_LOADER_TOOL == 1
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# if defined( __unix__ ) || defined( __APPLE__ ) || defined( __QNXNTO__ ) || defined(__Fuchsia__)
# include <dlfcn.h>
# elif defined( _WIN32 )
typedef struct HINSTANCE__ * HINSTANCE;
# if defined( _WIN64 )
typedef int64_t( __stdcall * FARPROC )();
# else
typedef int( __stdcall * FARPROC )();
# endif
extern "C" __declspec( dllimport ) HINSTANCE __stdcall LoadLibraryA( char const * lpLibFileName );
extern "C" __declspec( dllimport ) int __stdcall FreeLibrary( HINSTANCE hLibModule );
extern "C" __declspec( dllimport ) FARPROC __stdcall GetProcAddress( HINSTANCE hModule, const char * lpProcName );
# endif
#endif
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#if !defined( __has_include )
# define __has_include( x ) false
#endif
#if ( 201907 <= __cpp_lib_three_way_comparison ) && __has_include( <compare> ) && !defined( VULKAN_HPP_NO_SPACESHIP_OPERATOR )
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# define VULKAN_HPP_HAS_SPACESHIP_OPERATOR
#endif
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#if defined( VULKAN_HPP_HAS_SPACESHIP_OPERATOR )
# include <compare>
#endif
#if ( 201803 <= __cpp_lib_span )
# define VULKAN_HPP_SUPPORT_SPAN
# include <span>
#endif
)";
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static const std::string structResultValue = R"(
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template <typename T> void ignore(T const &) VULKAN_HPP_NOEXCEPT {}
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template <typename T>
struct ResultValue
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{
#ifdef VULKAN_HPP_HAS_NOEXCEPT
ResultValue( Result r, T & v ) VULKAN_HPP_NOEXCEPT(VULKAN_HPP_NOEXCEPT(T(v)))
#else
ResultValue( Result r, T & v )
#endif
: result( r )
, value( v )
{}
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#ifdef VULKAN_HPP_HAS_NOEXCEPT
ResultValue( Result r, T && v ) VULKAN_HPP_NOEXCEPT(VULKAN_HPP_NOEXCEPT(T(std::move(v))))
#else
ResultValue( Result r, T && v )
#endif
: result( r )
, value( std::move( v ) )
{}
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Result result;
T value;
operator std::tuple<Result&, T&>() VULKAN_HPP_NOEXCEPT { return std::tuple<Result&, T&>(result, value); }
};
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#if !defined( VULKAN_HPP_NO_SMART_HANDLE )
template <typename Type, typename Dispatch>
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struct ResultValue<UniqueHandle<Type, Dispatch>>
{
#ifdef VULKAN_HPP_HAS_NOEXCEPT
ResultValue(Result r, UniqueHandle<Type, Dispatch> && v) VULKAN_HPP_NOEXCEPT
#else
ResultValue(Result r, UniqueHandle<Type, Dispatch> && v)
#endif
: result(r)
, value(std::move(v))
{}
std::tuple<Result, UniqueHandle<Type, Dispatch>> asTuple()
{
return std::make_tuple( result, std::move( value ) );
}
Result result;
UniqueHandle<Type, Dispatch> value;
};
template <typename Type, typename Dispatch>
struct ResultValue<std::vector<UniqueHandle<Type, Dispatch>>>
{
# ifdef VULKAN_HPP_HAS_NOEXCEPT
ResultValue( Result r, std::vector<UniqueHandle<Type, Dispatch>> && v ) VULKAN_HPP_NOEXCEPT
# else
ResultValue( Result r, std::vector<UniqueHandle<Type, Dispatch>> && v )
# endif
: result( r )
, value( std::move( v ) )
{}
std::tuple<Result, std::vector<UniqueHandle<Type, Dispatch>>> asTuple()
{
return std::make_tuple( result, std::move( value ) );
}
Result result;
std::vector<UniqueHandle<Type, Dispatch>> value;
};
#endif
template <typename T>
struct ResultValueType
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{
#ifdef VULKAN_HPP_NO_EXCEPTIONS
typedef ResultValue<T> type;
#else
typedef T type;
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#endif
};
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template <>
struct ResultValueType<void>
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{
#ifdef VULKAN_HPP_NO_EXCEPTIONS
typedef Result type;
#else
typedef void type;
#endif
};
VULKAN_HPP_INLINE typename ResultValueType<void>::type createResultValueType( Result result )
{
#ifdef VULKAN_HPP_NO_EXCEPTIONS
return result;
#else
ignore( result );
#endif
}
template <typename T>
VULKAN_HPP_INLINE typename ResultValueType<T>::type createResultValueType( Result result, T & data )
{
#ifdef VULKAN_HPP_NO_EXCEPTIONS
return ResultValue<T>( result, data );
#else
ignore( result );
return data;
#endif
}
template <typename T>
VULKAN_HPP_INLINE typename ResultValueType<T>::type createResultValueType( Result result, T && data )
{
#ifdef VULKAN_HPP_NO_EXCEPTIONS
return ResultValue<T>( result, std::move( data ) );
#else
ignore( result );
return std::move( data );
#endif
}
)";
static const std::string resultChecks = R"(
VULKAN_HPP_INLINE void resultCheck( Result result, char const * message )
{
#ifdef VULKAN_HPP_NO_EXCEPTIONS
ignore( result ); // just in case VULKAN_HPP_ASSERT_ON_RESULT is empty
ignore( message );
VULKAN_HPP_ASSERT_ON_RESULT( result == Result::eSuccess );
#else
if ( result != Result::eSuccess )
{
throwResultException( result, message );
}
#endif
}
VULKAN_HPP_INLINE void resultCheck( Result result, char const * message, std::initializer_list<Result> successCodes )
{
#ifdef VULKAN_HPP_NO_EXCEPTIONS
ignore( result ); // just in case VULKAN_HPP_ASSERT_ON_RESULT is empty
ignore( message );
ignore( successCodes ); // just in case VULKAN_HPP_ASSERT_ON_RESULT is empty
VULKAN_HPP_ASSERT_ON_RESULT( std::find( successCodes.begin(), successCodes.end(), result ) != successCodes.end() );
#else
if ( std::find( successCodes.begin(), successCodes.end(), result ) == successCodes.end() )
{
throwResultException( result, message );
}
#endif
}
)";
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static const std::string typeTraits = R"(
template <typename EnumType, EnumType value>
struct CppType
{};
template <typename Type>
struct isVulkanHandleType
{
static VULKAN_HPP_CONST_OR_CONSTEXPR bool value = false;
};
)";
try
{
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tinyxml2::XMLDocument doc;
std::string filename = ( argc == 1 ) ? VK_SPEC : argv[1];
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#if defined( CLANG_FORMAT_EXECUTABLE )
std::cout << "VulkanHppGenerator: Found ";
std::string commandString = "\"" CLANG_FORMAT_EXECUTABLE "\" --version ";
int ret = std::system( commandString.c_str() );
if ( ret != 0 )
{
std::cout << "VulkanHppGenerator: failed to determine clang_format version with error <" << ret << ">\n";
}
#endif
std::cout << "VulkanHppGenerator: Loading " << filename << std::endl;
tinyxml2::XMLError error = doc.LoadFile( filename.c_str() );
if ( error != tinyxml2::XML_SUCCESS )
{
std::cout << "VulkanHppGenerator: failed to load file " << filename << " with error <" << toString( error ) << ">" << std::endl;
return -1;
}
std::cout << "VulkanHppGenerator: Parsing " << filename << std::endl;
VulkanHppGenerator generator( doc );
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std::cout << "VulkanHppGenerator: Generating " << VULKAN_ENUMS_HPP_FILE << " ..." << std::endl;
std::string str;
str = generator.getVulkanLicenseHeader();
str += +R"(
#ifndef VULKAN_ENUMS_HPP
# define VULKAN_ENUMS_HPP
namespace VULKAN_HPP_NAMESPACE
{
)";
str += typeTraits;
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str += generator.generateEnums();
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str += generator.generateIndexTypeTraits();
str += generator.generateBitmasks();
str += R"(
} // namespace VULKAN_HPP_NAMESPACE
#endif
)";
writeToFile( str, VULKAN_ENUMS_HPP_FILE );
std::cout << "VulkanHppGenerator: Generating " << VULKAN_FORMAT_TRAITS_HPP_FILE << " ..." << std::endl;
str = generator.getVulkanLicenseHeader();
str += +R"(
#ifndef VULKAN_FORMAT_TRAITS_HPP
# define VULKAN_FORMAT_TRAITS_HPP
#include <vulkan/vulkan.hpp>
namespace VULKAN_HPP_NAMESPACE
{
)";
str += generator.generateFormatTraits();
str += R"(
} // namespace VULKAN_HPP_NAMESPACE
#endif
)";
writeToFile( str, VULKAN_FORMAT_TRAITS_HPP_FILE );
std::cout << "VulkanHppGenerator: Generating " << VULKAN_HANDLES_HPP_FILE << " ..." << std::endl;
str.clear();
str = generator.getVulkanLicenseHeader();
str += +R"(
#ifndef VULKAN_HANDLES_HPP
# define VULKAN_HANDLES_HPP
namespace VULKAN_HPP_NAMESPACE
{
)";
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str += generator.generateStructForwardDeclarations();
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str += generator.generateHandles();
str += R"(
} // namespace VULKAN_HPP_NAMESPACE
#endif
)";
writeToFile( str, VULKAN_HANDLES_HPP_FILE );
std::cout << "VulkanHppGenerator: Generating " << VULKAN_STRUCTS_HPP_FILE << " ..." << std::endl;
str.clear();
str = generator.getVulkanLicenseHeader();
str += +R"(
#ifndef VULKAN_STRUCTS_HPP
# define VULKAN_STRUCTS_HPP
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#include <cstring> // strcmp
namespace VULKAN_HPP_NAMESPACE
{
)";
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str += generator.generateStructs();
str += R"(
} // namespace VULKAN_HPP_NAMESPACE
#endif
)";
writeToFile( str, VULKAN_STRUCTS_HPP_FILE );
std::cout << "VulkanHppGenerator: Generating " << VULKAN_FUNCS_HPP_FILE << " ..." << std::endl;
str.clear();
str = generator.getVulkanLicenseHeader();
str += +R"(
#ifndef VULKAN_FUNCS_HPP
# define VULKAN_FUNCS_HPP
namespace VULKAN_HPP_NAMESPACE
{
)";
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str += generator.generateCommandDefinitions();
str += R"(
} // namespace VULKAN_HPP_NAMESPACE
#endif
)";
writeToFile( str, VULKAN_FUNCS_HPP_FILE );
std::cout << "VulkanHppGenerator: Generating " << VULKAN_HPP_FILE << " ..." << std::endl;
str.clear();
str += generator.getVulkanLicenseHeader() + includes + "\n";
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str += "static_assert( VK_HEADER_VERSION == " + generator.getVersion() +
" , \"Wrong VK_HEADER_VERSION!\" );\n"
"\n";
str +=
"// 32-bit vulkan is not typesafe for non-dispatchable handles, so don't allow copy constructors on this platform by default.\n"
"// To enable this feature on 32-bit platforms please define VULKAN_HPP_TYPESAFE_CONVERSION\n" +
generator.getTypesafeCheck() +
"\n"
"# if !defined( VULKAN_HPP_TYPESAFE_CONVERSION )\n"
"# define VULKAN_HPP_TYPESAFE_CONVERSION\n"
"# endif\n"
"#endif\n";
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str += defines + "\n" + "namespace VULKAN_HPP_NAMESPACE\n" + "{" + classArrayWrapper + classFlags + "#if !defined( VULKAN_HPP_DISABLE_ENHANCED_MODE )\n" +
classArrayProxy + classOptional + classStructureChain + classUniqueHandle + "#endif // VULKAN_HPP_DISABLE_ENHANCED_MODE\n";
str += dispatchLoaderBase;
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str += generator.generateDispatchLoaderStatic();
str += dispatchLoaderDefault;
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str += "#if !defined( VULKAN_HPP_NO_SMART_HANDLE )\n" + classObjectDestroy + classObjectFree + classObjectRelease + classPoolFree + "\n" +
"#endif // !VULKAN_HPP_NO_SMART_HANDLE\n";
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str += generator.generateBaseTypes();
str += R"(} // namespace VULKAN_HPP_NAMESPACE
#include <vulkan/vulkan_enums.hpp>
#if !defined( VULKAN_HPP_NO_TO_STRING )
#include <vulkan/vulkan_to_string.hpp>
#endif
#ifndef VULKAN_HPP_NO_EXCEPTIONS
namespace std
{
template <>
struct is_error_code_enum<VULKAN_HPP_NAMESPACE::Result> : public true_type
{};
}
#endif
namespace VULKAN_HPP_NAMESPACE
{
#ifndef VULKAN_HPP_NO_EXCEPTIONS
)";
str += exceptions;
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str += generator.generateResultExceptions();
str += generator.generateThrowResultException();
str += "#endif\n" + structResultValue + resultChecks;
str += R"(} // namespace VULKAN_HPP_NAMESPACE
// clang-format off
#include <vulkan/vulkan_handles.hpp>
#include <vulkan/vulkan_structs.hpp>
#include <vulkan/vulkan_funcs.hpp>
// clang-format on
namespace VULKAN_HPP_NAMESPACE
{
)";
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str += "#if !defined( VULKAN_HPP_DISABLE_ENHANCED_MODE )\n" + generator.generateStructExtendsStructs() + "#endif // VULKAN_HPP_DISABLE_ENHANCED_MODE\n";
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str += dynamicLoader;
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str += generator.generateDispatchLoaderDynamic();
str +=
"} // namespace VULKAN_HPP_NAMESPACE\n"
"#endif\n";
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writeToFile( str, VULKAN_HPP_FILE );
std::cout << "VulkanHppGenerator: Generating " << VULKAN_HASH_HPP_FILE << "..." << std::endl;
str.clear();
str = generator.getVulkanLicenseHeader();
str += +R"(
#ifndef VULKAN_HASH_HPP
# define VULKAN_HASH_HPP
#include <vulkan/vulkan.hpp>
namespace std
{
//=======================================
//=== HASH structures for Flags types ===
//=======================================
template <typename BitType>
struct hash<VULKAN_HPP_NAMESPACE::Flags<BitType>>
{
std::size_t operator()( VULKAN_HPP_NAMESPACE::Flags<BitType> const & flags ) const VULKAN_HPP_NOEXCEPT
{
return std::hash<typename std::underlying_type<BitType>::type>{}(
static_cast<typename std::underlying_type<BitType>::type>( flags ) );
}
};
)";
str += generator.generateHandleHashStructures();
str += generator.generateStructHashStructures();
str += R"(
} // namespace std
#endif // VULKAN_HASH_HPP
)";
writeToFile( str, VULKAN_HASH_HPP_FILE );
std::cout << "VulkanHppGenerator: Generating " << VULKAN_TO_STRING_HPP_FILE << "..." << std::endl;
str.clear();
str = generator.getVulkanLicenseHeader();
str += +R"(
#ifndef VULKAN_TO_STRING_HPP
# define VULKAN_TO_STRING_HPP
#include <vulkan/vulkan_enums.hpp>
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#if ( ( 20 <= VULKAN_HPP_CPP_VERSION ) && __has_include( <format> ) )
# include <format> // std::format
#else
# include <sstream> // std::stringstream
#endif
namespace VULKAN_HPP_NAMESPACE
{
)";
str += generator.generateBitmasksToString();
str += generator.generateEnumsToString();
str += R"(
} // namespace VULKAN_HPP_NAMESPACE
#endif // VULKAN_TO_STRING_HPP
)";
writeToFile( str, VULKAN_TO_STRING_HPP_FILE );
std::cout << "VulkanHppGenerator: Generating " << VULKAN_RAII_HPP_FILE << " ..." << std::endl;
str.clear();
str = generator.getVulkanLicenseHeader() + R"(
#ifndef VULKAN_RAII_HPP
# define VULKAN_RAII_HPP
#include <vulkan/vulkan.hpp>
#if !defined( VULKAN_HPP_RAII_NAMESPACE )
# define VULKAN_HPP_RAII_NAMESPACE raii
#endif
namespace VULKAN_HPP_NAMESPACE
{
namespace VULKAN_HPP_RAII_NAMESPACE
{
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#if !defined( VULKAN_HPP_DISABLE_ENHANCED_MODE ) && !defined(VULKAN_HPP_NO_EXCEPTIONS)
template <class T, class U = T>
VULKAN_HPP_CONSTEXPR_14 VULKAN_HPP_INLINE T exchange( T & obj, U && newValue )
{
# if ( 14 <= VULKAN_HPP_CPP_VERSION )
return std::exchange<T>( obj, std::forward<U>( newValue ) );
# else
T oldValue = std::move( obj );
obj = std::forward<U>( newValue );
return oldValue;
# endif
}
)";
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generator.prepareRAIIHandles();
str += generator.generateRAIIDispatchers();
str += generator.generateRAIIHandles();
str += generator.generateRAIICommandDefinitions();
str += R"(
#endif
} // namespace VULKAN_HPP_RAII_NAMESPACE
} // namespace VULKAN_HPP_NAMESPACE
#endif
)";
writeToFile( str, VULKAN_RAII_HPP_FILE );
#if !defined( CLANG_FORMAT_EXECUTABLE )
std::cout << "VulkanHppGenerator: could not find clang-format. The generated files will not be formatted accordingly.\n";
#endif
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}
catch ( std::exception const & e )
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{
std::cout << "caught exception: " << e.what() << std::endl;
return -1;
}
catch ( ... )
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{
std::cout << "caught unknown exception" << std::endl;
return -1;
}
}