mirror of
https://github.com/KhronosGroup/Vulkan-Hpp
synced 2024-11-27 22:30:14 +00:00
commit
15c7d606af
@ -1021,7 +1021,7 @@ void VulkanHppGenerator::appendRAIIDispatcherCommands( std::vector<RequireData>
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instanceMembers += addTitleAndProtection( title, im, imp );
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}
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void VulkanHppGenerator::checkCorrectness()
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void VulkanHppGenerator::checkCorrectness() const
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{
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check( !m_vulkanLicenseHeader.empty(), -1, "missing license header" );
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@ -1374,6 +1374,83 @@ void VulkanHppGenerator::checkCorrectness()
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assert( sTypeValues.empty() );
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}
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void VulkanHppGenerator::checkEnumCorrectness( std::vector<RequireData> const & requireData ) const
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{
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for ( auto const & require : requireData )
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{
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for ( auto const & type : require.types )
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{
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auto typeIt = m_types.find( type );
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assert( typeIt != m_types.end() );
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switch ( typeIt->second.category )
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{
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case TypeCategory::Bitmask:
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{
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// check that reach "require" listed for a bitmask is listed for a feature or an extension
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auto bitmaskIt = m_bitmasks.find( type );
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if ( bitmaskIt != m_bitmasks.end() )
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{
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// not for every bitmask is a "require" listed
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if ( !bitmaskIt->second.requirements.empty() )
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{
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auto requireTypeIt = m_types.find( bitmaskIt->second.requirements );
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assert( requireTypeIt != m_types.end() );
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check( !requireTypeIt->second.referencedIn.empty(),
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bitmaskIt->second.xmlLine,
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"bitmask <" + bitmaskIt->first + "> requires <" + bitmaskIt->second.requirements +
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"> which is not listed for any feature or extension!" );
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}
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}
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else
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{
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// every bitmask not listed in the m_bitmasks, should be an alias of such a thing
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assert( std::find_if( m_bitmasks.begin(),
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m_bitmasks.end(),
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[&type]( std::pair<const std::string, BitmaskData> const & bd )
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{ return bd.second.alias == type; } ) != m_bitmasks.end() );
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}
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}
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break;
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case TypeCategory::Enum:
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{
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auto enumIt = m_enums.find( type );
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if ( enumIt != m_enums.end() )
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{
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if ( enumIt->second.isBitmask )
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{
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// check that any enum of a bitmask is listed as "require" or "bitvalues" for a bitmask
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auto bitmaskIt = std::find_if( m_bitmasks.begin(),
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m_bitmasks.end(),
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[&enumIt]( auto const & bitmask )
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{ return bitmask.second.requirements == enumIt->first; } );
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check( bitmaskIt != m_bitmasks.end(),
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enumIt->second.xmlLine,
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"enum <" + enumIt->first +
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"> 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
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check( ( enumIt->second.bitwidth != "64" ) || ( bitmaskIt->second.type == "VkFlags64" ),
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enumIt->second.xmlLine,
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"enum <" + enumIt->first + "> is marked with bitwidth <64> but corresponding bitmask <" +
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bitmaskIt->first + "> is not of type <VkFlags64>" );
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}
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}
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else
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{
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// every enum not listed in the m_enums, should be an alias of such a thing
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assert( std::find_if( m_enums.begin(),
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m_enums.end(),
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[&type]( std::pair<const std::string, EnumData> const & ed )
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{ return ed.second.alias == type; } ) != m_enums.end() );
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}
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}
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break;
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default: break;
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}
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}
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}
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}
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bool VulkanHppGenerator::checkEquivalentSingularConstructor(
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std::vector<std::map<std::string, CommandData>::const_iterator> const & constructorIts,
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std::map<std::string, CommandData>::const_iterator constructorIt,
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@ -1408,6 +1485,155 @@ bool VulkanHppGenerator::checkEquivalentSingularConstructor(
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return ( singularCommandIt != constructorIts.end() );
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}
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bool VulkanHppGenerator::containsArray( std::string const & type ) const
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{
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// a simple recursive check if a type is or contains an array
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auto structureIt = m_structures.find( type );
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bool found = false;
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if ( structureIt != m_structures.end() )
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{
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for ( auto memberIt = structureIt->second.members.begin(); memberIt != structureIt->second.members.end() && !found;
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++memberIt )
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{
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found = !memberIt->arraySizes.empty() || containsArray( memberIt->type.type );
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}
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}
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return found;
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}
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bool VulkanHppGenerator::containsUnion( std::string const & type ) const
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{
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// a simple recursive check if a type is or contains a union
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auto structureIt = m_structures.find( type );
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bool found = ( structureIt != m_structures.end() );
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if ( found )
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{
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found = structureIt->second.isUnion;
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for ( auto memberIt = structureIt->second.members.begin(); memberIt != structureIt->second.members.end() && !found;
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++memberIt )
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{
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found = memberIt->type.prefix.empty() && memberIt->type.postfix.empty() && containsUnion( memberIt->type.type );
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}
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}
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return found;
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}
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size_t VulkanHppGenerator::determineDefaultStartIndex( std::vector<ParamData> const & params,
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std::set<size_t> const & skippedParams ) const
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{
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// determine the index where the arguments start to have defaults
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size_t defaultStartIndex = INVALID_INDEX;
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for ( int i = static_cast<int>( params.size() ) - 1;
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( 0 <= i ) && ( params[i].optional || ( skippedParams.find( i ) != skippedParams.end() ) );
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--i )
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{
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defaultStartIndex = i;
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}
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return defaultStartIndex;
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}
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size_t VulkanHppGenerator::determineInitialSkipCount( std::string const & command ) const
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{
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// determine the number of arguments to skip for a function
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// -> 0: the command is not bound to an instance or a device (the corresponding handle has no name)
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// -> 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
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auto commandIt = m_commands.find( command );
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assert( commandIt != m_commands.end() );
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auto handleIt = m_handles.find( commandIt->second.handle );
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assert( handleIt != m_handles.end() );
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if ( handleIt->second.commands.find( command ) == handleIt->second.commands.end() )
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{
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assert( 1 < commandIt->second.params.size() );
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handleIt = m_handles.find( commandIt->second.params[1].type.type );
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assert( handleIt != m_handles.end() );
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return 2;
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}
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else
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{
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return handleIt->first.empty() ? 0 : 1;
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}
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}
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std::vector<std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator>
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VulkanHppGenerator::determineRAIIHandleConstructors( std::string const & handleType,
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std::map<std::string, CommandData>::const_iterator destructorIt,
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std::set<std::string> & specialFunctions ) const
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{
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std::vector<std::map<std::string, CommandData>::const_iterator> constructorIts;
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for ( auto commandIt = m_commands.begin(); commandIt != m_commands.end(); )
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{
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// find the commands that get a non-const pointer to the handleType, that is, return a handle type
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commandIt =
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std::find_if( commandIt,
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m_commands.end(),
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[&handleType]( std::pair<std::string, CommandData> const & cd )
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{
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return std::find_if( cd.second.params.begin(),
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cd.second.params.end(),
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[&handleType]( ParamData const & pd ) {
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return ( pd.type.type == handleType ) && pd.type.isNonConstPointer();
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} ) != cd.second.params.end();
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} );
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if ( commandIt != m_commands.end() )
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{
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// only commands that provide all information needed for the destructor can be considered a constructor!
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bool valid = true;
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if ( destructorIt != m_commands.end() )
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{
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// get the destructors parameter to the handleType
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auto desctructorHandleParamIt =
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std::find_if( destructorIt->second.params.begin(),
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destructorIt->second.params.end(),
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[&handleType]( ParamData const & pd ) { return pd.type.type == handleType; } );
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assert( desctructorHandleParamIt != destructorIt->second.params.end() );
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// check that all destructor parameters are part of the constructor command candidate
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// this commandIt is a valid candidate, if the outer find_if runs to the end of the destructor params
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valid =
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( std::find_if( destructorIt->second.params.begin(),
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destructorIt->second.params.end(),
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[&desctructorHandleParamIt, &commandIt, this]( ParamData const & destructorParam )
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{
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// return true if the destructorParam could _not_ be identified in the constructor candidate
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// params, that is, if the destructorParam is not the len in the destructor, and the type
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// can not be found in the constructor candidate argument list (the find_if runs to the end
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// of the constructor candidate params)
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return ( destructorParam.name != desctructorHandleParamIt->len ) &&
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( std::find_if( commandIt->second.params.begin(),
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commandIt->second.params.end(),
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[&destructorParam, this]( ParamData const & pd )
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{
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if ( pd.type.type != destructorParam.type.type )
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{
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auto structureIt = m_structures.find( pd.type.type );
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return ( structureIt != m_structures.end() ) &&
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( std::find_if(
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structureIt->second.members.begin(),
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structureIt->second.members.end(),
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[&destructorParam]( MemberData const & md ) {
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return md.type.type == destructorParam.type.type;
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} ) != structureIt->second.members.end() );
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}
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return true;
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} ) == commandIt->second.params.end() );
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} ) == destructorIt->second.params.end() );
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}
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if ( valid )
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{
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specialFunctions.insert( commandIt->first );
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// filter out alias functions
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if ( commandIt->second.alias.empty() )
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{
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constructorIts.push_back( commandIt );
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}
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}
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++commandIt;
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}
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}
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assert( !constructorIts.empty() );
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return constructorIts;
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}
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//
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// VulkanHppGenerator local functions
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//
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@ -2057,228 +2283,6 @@ void VulkanHppGenerator::EnumData::addEnumValue(
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}
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}
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void VulkanHppGenerator::checkEnumCorrectness( std::vector<RequireData> const & requireData ) const
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{
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for ( auto const & require : requireData )
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{
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for ( auto const & type : require.types )
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{
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auto typeIt = m_types.find( type );
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assert( typeIt != m_types.end() );
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if ( !typeIt->second.referencedIn.empty() )
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{
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switch ( typeIt->second.category )
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{
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case TypeCategory::Bitmask:
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{
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auto bitmaskIt = m_bitmasks.find( type );
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if ( bitmaskIt != m_bitmasks.end() )
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{
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if ( !bitmaskIt->second.requirements.empty() )
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{
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auto requireTypeIt = m_types.find( bitmaskIt->second.requirements );
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assert( requireTypeIt != m_types.end() );
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check( !requireTypeIt->second.referencedIn.empty(),
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bitmaskIt->second.xmlLine,
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"bitmask <" + bitmaskIt->first + ">, listed for <" + typeIt->second.referencedIn +
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">, requires <" + bitmaskIt->second.requirements +
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"> which is not listed for any feature or extension!" );
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}
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}
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else
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{
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assert( std::find_if( m_bitmasks.begin(),
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m_bitmasks.end(),
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[&type]( std::pair<const std::string, BitmaskData> const & bd )
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{ return bd.second.alias == type; } ) != m_bitmasks.end() );
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}
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}
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break;
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case TypeCategory::Enum:
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{
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auto enumIt = m_enums.find( type );
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if ( enumIt == m_enums.end() )
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{
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enumIt = std::find_if( m_enums.begin(),
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m_enums.end(),
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[&type]( std::pair<const std::string, EnumData> const & ed )
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{ return ed.second.alias == type; } );
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}
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assert( enumIt != m_enums.end() );
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if ( enumIt->second.isBitmask )
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{
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auto bitmaskIt = std::find_if( m_bitmasks.begin(),
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m_bitmasks.end(),
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[&enumIt]( auto const & bitmask )
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{ return bitmask.second.requirements == enumIt->first; } );
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check( bitmaskIt != m_bitmasks.end(),
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enumIt->second.xmlLine,
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"enum <" + enumIt->first +
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"> is not listed as an requires or bitvalues for any bitmask in the types section" );
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check( ( enumIt->second.bitwidth != "64" ) || ( bitmaskIt->second.type == "VkFlags64" ),
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enumIt->second.xmlLine,
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"enum <" + enumIt->first + "> is marked with bitwidth <64> but corresponding bitmask <" +
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bitmaskIt->first + "> is not of type <VkFlags64>" );
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}
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}
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break;
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default: break;
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}
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}
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}
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}
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}
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bool VulkanHppGenerator::containsArray( std::string const & type ) const
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{
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// a simple recursive check if a type is or contains an array
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auto structureIt = m_structures.find( type );
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bool found = false;
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if ( structureIt != m_structures.end() )
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{
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for ( auto memberIt = structureIt->second.members.begin(); memberIt != structureIt->second.members.end() && !found;
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++memberIt )
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{
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found = !memberIt->arraySizes.empty() || containsArray( memberIt->type.type );
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}
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}
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return found;
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}
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bool VulkanHppGenerator::containsUnion( std::string const & type ) const
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{
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// a simple recursive check if a type is or contains a union
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auto structureIt = m_structures.find( type );
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bool found = ( structureIt != m_structures.end() );
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if ( found )
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{
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found = structureIt->second.isUnion;
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for ( auto memberIt = structureIt->second.members.begin(); memberIt != structureIt->second.members.end() && !found;
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++memberIt )
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{
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found = memberIt->type.prefix.empty() && memberIt->type.postfix.empty() && containsUnion( memberIt->type.type );
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}
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}
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return found;
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}
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size_t VulkanHppGenerator::determineDefaultStartIndex( std::vector<ParamData> const & params,
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std::set<size_t> const & skippedParams ) const
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{
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size_t defaultStartIndex = INVALID_INDEX;
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for ( int i = static_cast<int>( params.size() ) - 1;
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( 0 <= i ) && ( params[i].optional || ( skippedParams.find( i ) != skippedParams.end() ) );
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--i )
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{
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defaultStartIndex = i;
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}
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return defaultStartIndex;
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}
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std::string VulkanHppGenerator::determineEnhancedReturnType( CommandData const & commandData,
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size_t returnParamIndex,
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bool isStructureChain ) const
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{
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assert( ( returnParamIndex == INVALID_INDEX ) || ( returnParamIndex < commandData.params.size() ) );
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std::string enhancedReturnType;
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assert( returnParamIndex != INVALID_INDEX );
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// if there is a return parameter, we think returnType is always "void" or "VkResult"
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// -> we can return that parameter
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assert( ( commandData.returnType == "void" ) || ( commandData.returnType == "VkResult" ) );
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assert( commandData.successCodes.empty() || ( commandData.successCodes[0] == "VK_SUCCESS" ) );
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return ( commandData.params[returnParamIndex].type.type == "void" )
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? "std::vector<uint8_t,Allocator>" // the return parameter is a vector-type parameter
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: isStructureChain ? "std::vector<StructureChain,Allocator>" // for structureChain returns, it's just
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// a vector of StrutureChains
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: "std::vector<" + stripPrefix( commandData.params[returnParamIndex].type.type, "Vk" ) +
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",Allocator>"; // for the other parameters, we use a vector of the pure type
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}
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size_t VulkanHppGenerator::determineInitialSkipCount( std::string const & command ) const
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{
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auto commandIt = m_commands.find( command );
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assert( commandIt != m_commands.end() );
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auto handleIt = m_handles.find( commandIt->second.handle );
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assert( handleIt != m_handles.end() );
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if ( handleIt->second.commands.find( command ) == handleIt->second.commands.end() )
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{
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assert( 1 < commandIt->second.params.size() );
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handleIt = m_handles.find( commandIt->second.params[1].type.type );
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assert( handleIt != m_handles.end() );
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return 2;
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}
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else
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{
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return handleIt->first.empty() ? 0 : 1;
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}
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}
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std::vector<std::map<std::string, VulkanHppGenerator::CommandData>::const_iterator>
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VulkanHppGenerator::determineRAIIHandleConstructors( std::string const & handleType,
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std::map<std::string, CommandData>::const_iterator destructorIt,
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std::set<std::string> & specialFunctions ) const
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{
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std::vector<std::map<std::string, CommandData>::const_iterator> constructorIts;
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for ( auto commandIt = m_commands.begin(); commandIt != m_commands.end(); )
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||||
{
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commandIt =
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std::find_if( commandIt,
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m_commands.end(),
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[&handleType]( std::pair<std::string, CommandData> const & cd )
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||||
{
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||||
return std::find_if( cd.second.params.begin(),
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cd.second.params.end(),
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||||
[&handleType]( ParamData const & pd ) {
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||||
return ( pd.type.type == handleType ) && pd.type.isNonConstPointer();
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||||
} ) != cd.second.params.end();
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} );
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if ( commandIt != m_commands.end() )
|
||||
{
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||||
// only commands that provide all information needed for the destructor can be considered a constructor!
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||||
bool valid = true;
|
||||
if ( destructorIt != m_commands.end() )
|
||||
{
|
||||
auto paramIt = std::find_if( destructorIt->second.params.begin(),
|
||||
destructorIt->second.params.end(),
|
||||
[&handleType]( ParamData const & pd ) { return pd.type.type == handleType; } );
|
||||
assert( paramIt != destructorIt->second.params.end() );
|
||||
for ( auto pit = destructorIt->second.params.begin(); valid && pit != destructorIt->second.params.end(); ++pit )
|
||||
{
|
||||
valid = ( pit->name == paramIt->len ) || ( std::find_if( commandIt->second.params.begin(),
|
||||
commandIt->second.params.end(),
|
||||
[&pit]( ParamData const & pd ) {
|
||||
return pd.type.type == pit->type.type;
|
||||
} ) != commandIt->second.params.end() );
|
||||
for ( auto cit = commandIt->second.params.begin(); !valid && cit != commandIt->second.params.end(); ++cit )
|
||||
{
|
||||
auto structureIt = m_structures.find( cit->type.type );
|
||||
if ( structureIt != m_structures.end() )
|
||||
{
|
||||
valid = std::find_if( structureIt->second.members.begin(),
|
||||
structureIt->second.members.end(),
|
||||
[&pit]( MemberData const & md )
|
||||
{ return md.type.type == pit->type.type; } ) != structureIt->second.members.end();
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
if ( valid )
|
||||
{
|
||||
specialFunctions.insert( commandIt->first );
|
||||
// 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
|
||||
{
|
||||
@ -3971,7 +3975,7 @@ std::string VulkanHppGenerator::generateCommandResultEnumerateTwoVectorsDeprecat
|
||||
commandData, returnParamIndex, returnParamIndex, vectorParamIndices, !definition, withAllocators );
|
||||
std::string commandName = generateCommandName( name, commandData.params, initialSkipCount, m_tags );
|
||||
std::string nodiscard = generateNoDiscard( 1 < commandData.successCodes.size(), 1 < commandData.errorCodes.size() );
|
||||
std::string returnType = determineEnhancedReturnType( commandData, returnParamIndex, false );
|
||||
std::string returnType = generateEnhancedReturnType( commandData, returnParamIndex, false );
|
||||
std::string templateType = stripPrefix( commandData.params[returnParamIndex].type.type, "Vk" );
|
||||
|
||||
if ( definition )
|
||||
@ -6565,6 +6569,26 @@ std::string VulkanHppGenerator::generateDispatchLoaderStaticCommands( std::vecto
|
||||
return addTitleAndProtection( title, str );
|
||||
}
|
||||
|
||||
std::string VulkanHppGenerator::generateEnhancedReturnType( CommandData const & commandData,
|
||||
size_t returnParamIndex,
|
||||
bool isStructureChain ) const
|
||||
{
|
||||
assert( ( returnParamIndex == INVALID_INDEX ) || ( returnParamIndex < commandData.params.size() ) );
|
||||
|
||||
std::string enhancedReturnType;
|
||||
assert( returnParamIndex != INVALID_INDEX );
|
||||
// if there is a return parameter, we think returnType is always "void" or "VkResult"
|
||||
// -> we can return that parameter
|
||||
assert( ( commandData.returnType == "void" ) || ( commandData.returnType == "VkResult" ) );
|
||||
assert( commandData.successCodes.empty() || ( commandData.successCodes[0] == "VK_SUCCESS" ) );
|
||||
return ( commandData.params[returnParamIndex].type.type == "void" )
|
||||
? "std::vector<uint8_t,Allocator>" // the return parameter is a vector-type parameter
|
||||
: isStructureChain ? "std::vector<StructureChain,Allocator>" // for structureChain returns, it's just
|
||||
// a vector of StrutureChains
|
||||
: "std::vector<" + stripPrefix( commandData.params[returnParamIndex].type.type, "Vk" ) +
|
||||
",Allocator>"; // for the other parameters, we use a vector of the pure type
|
||||
}
|
||||
|
||||
std::string VulkanHppGenerator::generateEnum( std::pair<std::string, EnumData> const & enumData ) const
|
||||
{
|
||||
std::string str = " enum class " + stripPrefix( enumData.first, "Vk" );
|
||||
|
@ -343,25 +343,22 @@ private:
|
||||
std::string & deviceMembers,
|
||||
std::string & instanceAssignments,
|
||||
std::string & instanceMembers ) const;
|
||||
void checkCorrectness();
|
||||
void checkCorrectness() const;
|
||||
void checkEnumCorrectness( std::vector<RequireData> const & requireData ) const;
|
||||
bool 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;
|
||||
|
||||
void checkEnumCorrectness( std::vector<RequireData> const & requireData ) const;
|
||||
bool containsArray( std::string const & type ) const;
|
||||
bool containsUnion( std::string const & type ) const;
|
||||
size_t determineDefaultStartIndex( std::vector<ParamData> const & params,
|
||||
std::set<size_t> const & skippedParams ) const;
|
||||
std::string determineEnhancedReturnType( CommandData const & commandData,
|
||||
size_t returnParamIndex,
|
||||
bool isStructureChain ) const;
|
||||
size_t determineInitialSkipCount( std::string const & command ) const;
|
||||
bool containsArray( std::string const & type ) const;
|
||||
bool containsUnion( std::string const & type ) const;
|
||||
size_t determineDefaultStartIndex( std::vector<ParamData> const & params,
|
||||
std::set<size_t> const & skippedParams ) const;
|
||||
size_t determineInitialSkipCount( std::string const & command ) const;
|
||||
std::vector<std::map<std::string, CommandData>::const_iterator>
|
||||
determineRAIIHandleConstructors( std::string const & handleType,
|
||||
std::map<std::string, CommandData>::const_iterator destructorIt,
|
||||
std::set<std::string> & specialFunctions ) const;
|
||||
|
||||
std::map<std::string, CommandData>::const_iterator
|
||||
determineRAIIHandleDestructor( std::string const & handleType ) const;
|
||||
size_t determineReturnParamIndex( CommandData const & commandData,
|
||||
@ -718,6 +715,8 @@ private:
|
||||
std::string generateDispatchLoaderStaticCommands( std::vector<RequireData> const & requireData,
|
||||
std::set<std::string> & listedCommands,
|
||||
std::string const & title ) const;
|
||||
std::string
|
||||
generateEnhancedReturnType( CommandData const & commandData, size_t returnParamIndex, bool isStructureChain ) const;
|
||||
std::string generateEnum( std::pair<std::string, EnumData> const & enumData ) const;
|
||||
std::string generateEnumInitializer( TypeInfo const & type,
|
||||
std::vector<std::string> const & arraySizes,
|
||||
|
Loading…
Reference in New Issue
Block a user