/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you 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 . */ #include #include #include #include #include #include #include #include #include namespace comphelper { using ::com::sun::star::uno::Any; using ::com::sun::star::uno::Sequence; using ::com::sun::star::beans::PropertyValue; using ::com::sun::star::beans::NamedValue; using ::com::sun::star::uno::Type; using ::com::sun::star::uno::cpp_acquire; using ::com::sun::star::uno::cpp_release; using ::com::sun::star::uno::cpp_queryInterface; using ::com::sun::star::lang::IllegalArgumentException; using ::com::sun::star::beans::PropertyState_DIRECT_VALUE; typedef std::unordered_map< OUString, Any > NamedValueRepository; struct NamedValueCollection_Impl { NamedValueRepository aValues; }; NamedValueCollection::NamedValueCollection() :m_pImpl( new NamedValueCollection_Impl ) { } NamedValueCollection::NamedValueCollection( const NamedValueCollection& _rCopySource ) :m_pImpl( new NamedValueCollection_Impl ) { *this = _rCopySource; } NamedValueCollection::NamedValueCollection(NamedValueCollection&& _rCopySource) noexcept :m_pImpl( std::move(_rCopySource.m_pImpl) ) { } NamedValueCollection& NamedValueCollection::operator=( const NamedValueCollection& i_rCopySource ) { m_pImpl->aValues = i_rCopySource.m_pImpl->aValues; return *this; } NamedValueCollection& NamedValueCollection::operator=(NamedValueCollection&& i_rCopySource) noexcept { m_pImpl = std::move(i_rCopySource.m_pImpl); return *this; } NamedValueCollection::NamedValueCollection( const Any& _rElements ) :m_pImpl( new NamedValueCollection_Impl ) { impl_assign( _rElements ); } NamedValueCollection::NamedValueCollection( const Sequence< Any >& _rArguments ) :m_pImpl( new NamedValueCollection_Impl ) { impl_assign( _rArguments ); } NamedValueCollection::NamedValueCollection( const Sequence< PropertyValue >& _rArguments ) :m_pImpl( new NamedValueCollection_Impl ) { impl_assign( _rArguments ); } NamedValueCollection::NamedValueCollection( const Sequence< NamedValue >& _rArguments ) :m_pImpl( new NamedValueCollection_Impl ) { impl_assign( _rArguments ); } NamedValueCollection::~NamedValueCollection() { } bool NamedValueCollection::canExtractFrom( css::uno::Any const & i_value ) { Type const & aValueType = i_value.getValueType(); return aValueType.equals( ::cppu::UnoType< PropertyValue >::get() ) || aValueType.equals( ::cppu::UnoType< NamedValue >::get() ) || aValueType.equals( ::cppu::UnoType< Sequence< PropertyValue > >::get() ) || aValueType.equals( ::cppu::UnoType< Sequence< NamedValue > >::get() ); } NamedValueCollection& NamedValueCollection::merge( const NamedValueCollection& _rAdditionalValues, bool _bOverwriteExisting ) { for (auto const& value : _rAdditionalValues.m_pImpl->aValues) { if ( _bOverwriteExisting || !impl_has( value.first ) ) impl_put( value.first, value.second ); } return *this; } size_t NamedValueCollection::size() const { return m_pImpl->aValues.size(); } bool NamedValueCollection::empty() const { return m_pImpl->aValues.empty(); } std::vector< OUString > NamedValueCollection::getNames() const { std::vector< OUString > aNames; for (auto const& value : m_pImpl->aValues) { aNames.push_back( value.first ); } return aNames; } void NamedValueCollection::impl_assign( const Any& i_rWrappedElements ) { Sequence< NamedValue > aNamedValues; Sequence< PropertyValue > aPropertyValues; NamedValue aNamedValue; PropertyValue aPropertyValue; if ( i_rWrappedElements >>= aNamedValues ) impl_assign( aNamedValues ); else if ( i_rWrappedElements >>= aPropertyValues ) impl_assign( aPropertyValues ); else if ( i_rWrappedElements >>= aNamedValue ) impl_assign( Sequence< NamedValue >( &aNamedValue, 1 ) ); else if ( i_rWrappedElements >>= aPropertyValue ) impl_assign( Sequence< PropertyValue >( &aPropertyValue, 1 ) ); else SAL_WARN_IF( i_rWrappedElements.hasValue(), "comphelper", "NamedValueCollection::impl_assign(Any): unsupported type!" ); } void NamedValueCollection::impl_assign( const Sequence< Any >& _rArguments ) { { NamedValueRepository aEmpty; m_pImpl->aValues.swap( aEmpty ); } PropertyValue aPropertyValue; NamedValue aNamedValue; for ( auto const & argument : _rArguments ) { if ( argument >>= aPropertyValue ) m_pImpl->aValues[ aPropertyValue.Name ] = aPropertyValue.Value; else if ( argument >>= aNamedValue ) m_pImpl->aValues[ aNamedValue.Name ] = aNamedValue.Value; else { SAL_WARN_IF( argument.hasValue(), "comphelper", ("NamedValueCollection::impl_assign: encountered a value" " type which I cannot handle: " + argument.getValueTypeName())); } } } void NamedValueCollection::impl_assign( const Sequence< PropertyValue >& _rArguments ) { { NamedValueRepository aEmpty; m_pImpl->aValues.swap( aEmpty ); } for ( auto const & argument : _rArguments ) m_pImpl->aValues[ argument.Name ] = argument.Value; } void NamedValueCollection::impl_assign( const Sequence< NamedValue >& _rArguments ) { { NamedValueRepository aEmpty; m_pImpl->aValues.swap( aEmpty ); } for ( auto const & argument : _rArguments ) m_pImpl->aValues[ argument.Name ] = argument.Value; } bool NamedValueCollection::get_ensureType( const OUString& _rValueName, void* _pValueLocation, const Type& _rExpectedValueType ) const { NamedValueRepository::const_iterator pos = m_pImpl->aValues.find( _rValueName ); if ( pos != m_pImpl->aValues.end() ) { if ( uno_type_assignData( _pValueLocation, _rExpectedValueType.getTypeLibType(), const_cast< void* >( pos->second.getValue() ), pos->second.getValueType().getTypeLibType(), reinterpret_cast< uno_QueryInterfaceFunc >( cpp_queryInterface ), reinterpret_cast< uno_AcquireFunc >( cpp_acquire ), reinterpret_cast< uno_ReleaseFunc >( cpp_release ) ) ) // argument exists, and could be extracted return true; // argument exists, but is of wrong type throw IllegalArgumentException( "Invalid value type for '" + _rValueName + "'.\nExpected: " + _rExpectedValueType.getTypeName() + "\nFound: " + pos->second.getValueType().getTypeName(), nullptr, 0 ); } // argument does not exist return false; } namespace { class theEmptyDefault : public rtl::Static {}; } const Any& NamedValueCollection::impl_get( const OUString& _rValueName ) const { NamedValueRepository::const_iterator pos = m_pImpl->aValues.find( _rValueName ); if ( pos != m_pImpl->aValues.end() ) return pos->second; return theEmptyDefault::get(); } bool NamedValueCollection::impl_has( const OUString& _rValueName ) const { NamedValueRepository::const_iterator pos = m_pImpl->aValues.find( _rValueName ); return ( pos != m_pImpl->aValues.end() ); } bool NamedValueCollection::impl_put( const OUString& _rValueName, const Any& _rValue ) { bool bHas = impl_has( _rValueName ); m_pImpl->aValues[ _rValueName ] = _rValue; return bHas; } bool NamedValueCollection::impl_remove( const OUString& _rValueName ) { NamedValueRepository::iterator pos = m_pImpl->aValues.find( _rValueName ); if ( pos == m_pImpl->aValues.end() ) return false; m_pImpl->aValues.erase( pos ); return true; } sal_Int32 NamedValueCollection::operator >>= ( Sequence< PropertyValue >& _out_rValues ) const { _out_rValues.realloc( m_pImpl->aValues.size() ); std::transform( m_pImpl->aValues.begin(), m_pImpl->aValues.end(), _out_rValues.getArray(), [](const NamedValueRepository::value_type& _rValue) { return PropertyValue( _rValue.first, 0, _rValue.second, PropertyState_DIRECT_VALUE ); } ); return _out_rValues.getLength(); } sal_Int32 NamedValueCollection::operator >>= ( Sequence< NamedValue >& _out_rValues ) const { _out_rValues.realloc( m_pImpl->aValues.size() ); std::transform( m_pImpl->aValues.begin(), m_pImpl->aValues.end(), _out_rValues.getArray(), [](const NamedValueRepository::value_type& _rValue) { return NamedValue( _rValue.first, _rValue.second ); } ); return _out_rValues.getLength(); } } // namespace comphelper /* vim:set shiftwidth=4 softtabstop=4 expandtab: */