/* -*- 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 namespace comphelper { using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::beans; namespace { // comparing two property descriptions struct PropertyDescriptionHandleCompare { bool operator() (const PropertyDescription& x, const PropertyDescription& y) const { return x.aProperty.Handle < y.aProperty.Handle; } }; // comparing two property descriptions (by name) struct PropertyDescriptionNameMatch { OUString const m_rCompare; explicit PropertyDescriptionNameMatch( const OUString& _rCompare ) : m_rCompare( _rCompare ) { } bool operator() (const PropertyDescription& x ) const { return x.aProperty.Name == m_rCompare; } }; } OPropertyContainerHelper::OPropertyContainerHelper() { } OPropertyContainerHelper::~OPropertyContainerHelper() { } void OPropertyContainerHelper::registerProperty(const OUString& _rName, sal_Int32 _nHandle, sal_Int32 _nAttributes, void* _pPointerToMember, const Type& _rMemberType) { OSL_ENSURE((_nAttributes & PropertyAttribute::MAYBEVOID) == 0, "OPropertyContainerHelper::registerProperty: don't use this for properties which may be void ! There is a method called \"registerMayBeVoidProperty\" for this !"); OSL_ENSURE(!_rMemberType.equals(cppu::UnoType::get()), "OPropertyContainerHelper::registerProperty: don't give my the type of a uno::Any ! Really can't handle this !"); OSL_ENSURE(_pPointerToMember, "OPropertyContainerHelper::registerProperty: you gave me nonsense : the pointer must be non-NULL"); PropertyDescription aNewProp; aNewProp.aProperty = Property( _rName, _nHandle, _rMemberType, static_cast(_nAttributes) ); aNewProp.eLocated = PropertyDescription::LocationType::DerivedClassRealType; aNewProp.aLocation.pDerivedClassMember = _pPointerToMember; implPushBackProperty(aNewProp); } void OPropertyContainerHelper::revokeProperty( sal_Int32 _nHandle ) { PropertiesIterator aPos = searchHandle( _nHandle ); if ( aPos == m_aProperties.end() ) throw UnknownPropertyException(OUString::number(_nHandle)); m_aProperties.erase( aPos ); } void OPropertyContainerHelper::registerMayBeVoidProperty(const OUString& _rName, sal_Int32 _nHandle, sal_Int32 _nAttributes, Any* _pPointerToMember, const Type& _rExpectedType) { OSL_ENSURE((_nAttributes & PropertyAttribute::MAYBEVOID) != 0, "OPropertyContainerHelper::registerMayBeVoidProperty: why calling this when the attributes say nothing about may-be-void ?"); OSL_ENSURE(!_rExpectedType.equals(cppu::UnoType::get()), "OPropertyContainerHelper::registerMayBeVoidProperty: don't give my the type of a uno::Any ! Really can't handle this !"); OSL_ENSURE(_pPointerToMember, "OPropertyContainerHelper::registerMayBeVoidProperty: you gave me nonsense : the pointer must be non-NULL"); _nAttributes |= PropertyAttribute::MAYBEVOID; PropertyDescription aNewProp; aNewProp.aProperty = Property( _rName, _nHandle, _rExpectedType, static_cast(_nAttributes) ); aNewProp.eLocated = PropertyDescription::LocationType::DerivedClassAnyType; aNewProp.aLocation.pDerivedClassMember = _pPointerToMember; implPushBackProperty(aNewProp); } void OPropertyContainerHelper::registerPropertyNoMember(const OUString& _rName, sal_Int32 _nHandle, sal_Int32 _nAttributes, const Type& _rType, css::uno::Any const & _pInitialValue) { OSL_ENSURE(!_rType.equals(cppu::UnoType::get()), "OPropertyContainerHelper::registerPropertyNoMember : don't give my the type of a uno::Any ! Really can't handle this !"); OSL_ENSURE( (_pInitialValue.isExtractableTo(_rType) || (!_pInitialValue.hasValue() && (_nAttributes & PropertyAttribute::MAYBEVOID) != 0)), "bad initial value"); PropertyDescription aNewProp; aNewProp.aProperty = Property( _rName, _nHandle, _rType, static_cast(_nAttributes) ); aNewProp.eLocated = PropertyDescription::LocationType::HoldMyself; aNewProp.aLocation.nOwnClassVectorIndex = m_aHoldProperties.size(); m_aHoldProperties.push_back(_pInitialValue); implPushBackProperty(aNewProp); } bool OPropertyContainerHelper::isRegisteredProperty( sal_Int32 _nHandle ) const { return const_cast< OPropertyContainerHelper* >( this )->searchHandle( _nHandle ) != m_aProperties.end(); } bool OPropertyContainerHelper::isRegisteredProperty( const OUString& _rName ) const { // TODO: the current structure is from a time where properties were // static, not dynamic. Since we allow that properties are also dynamic, // i.e. registered and revoked even though the XPropertySet has already been // accessed, a vector is not really the best data structure anymore ... return std::any_of( m_aProperties.begin(), m_aProperties.end(), PropertyDescriptionNameMatch( _rName ) ); } namespace { struct ComparePropertyHandles { bool operator()( const PropertyDescription& _rLHS, const PropertyDescription& _nRHS ) const { return _rLHS.aProperty.Handle < _nRHS.aProperty.Handle; } }; } void OPropertyContainerHelper::implPushBackProperty(const PropertyDescription& _rProp) { #ifdef DBG_UTIL for (const auto& checkConflicts : m_aProperties) { OSL_ENSURE(checkConflicts.aProperty.Name != _rProp.aProperty.Name, "OPropertyContainerHelper::implPushBackProperty: name already exists!"); OSL_ENSURE(checkConflicts.aProperty.Handle != _rProp.aProperty.Handle, "OPropertyContainerHelper::implPushBackProperty: handle already exists!"); } #endif PropertiesIterator pos = std::lower_bound( m_aProperties.begin(), m_aProperties.end(), _rProp, ComparePropertyHandles() ); m_aProperties.insert( pos, _rProp ); } namespace { void lcl_throwIllegalPropertyValueTypeException( const PropertyDescription& _rProperty, const Any& _rValue ) { throw IllegalArgumentException( "The given value cannot be converted to the required property type." " (property name \"" + _rProperty.aProperty.Name + "\", found value type \"" + _rValue.getValueType().getTypeName() + "\", required property type \"" + _rProperty.aProperty.Type.getTypeName() + "\")", nullptr, 4 ); } } bool OPropertyContainerHelper::convertFastPropertyValue( Any& _rConvertedValue, Any& _rOldValue, sal_Int32 _nHandle, const Any& _rValue ) { bool bModified = false; // get the property somebody is asking for PropertiesIterator aPos = searchHandle(_nHandle); if (aPos == m_aProperties.end()) { OSL_FAIL( "OPropertyContainerHelper::convertFastPropertyValue: unknown handle!" ); // should not happen if the derived class has built a correct property set info helper to be used by // our base class OPropertySetHelper return bModified; } switch (aPos->eLocated) { // similar handling for the two cases where the value is stored in an any case PropertyDescription::LocationType::HoldMyself: case PropertyDescription::LocationType::DerivedClassAnyType: { bool bMayBeVoid = ((aPos->aProperty.Attributes & PropertyAttribute::MAYBEVOID) != 0); // non modifiable version of the value-to-be-set Any aNewRequestedValue( _rValue ); // normalization // #i29490# if ( !aNewRequestedValue.getValueType().equals( aPos->aProperty.Type ) ) { // the actually given value is not of the same type as the one required Any aProperlyTyped( nullptr, aPos->aProperty.Type.getTypeLibType() ); if ( uno_type_assignData( const_cast< void* >( aProperlyTyped.getValue() ), aProperlyTyped.getValueType().getTypeLibType(), const_cast< void* >( aNewRequestedValue.getValue() ), aNewRequestedValue.getValueType().getTypeLibType(), reinterpret_cast< uno_QueryInterfaceFunc >( cpp_queryInterface ), reinterpret_cast< uno_AcquireFunc >( cpp_acquire ), reinterpret_cast< uno_ReleaseFunc >( cpp_release ) ) ) { // we were able to query the given XInterface-derivee for the interface // which is required for this property aNewRequestedValue = aProperlyTyped; } } // argument check if ( ! ( (bMayBeVoid && !aNewRequestedValue.hasValue()) // void is allowed if the attribute says so || (aNewRequestedValue.getValueType().equals(aPos->aProperty.Type)) // else the types have to be equal ) ) { lcl_throwIllegalPropertyValueTypeException( *aPos, _rValue ); } Any* pPropContainer = nullptr; // the pointer to the any which holds the property value, no matter if located in the derived class // or in out vector if (PropertyDescription::LocationType::HoldMyself == aPos->eLocated) { OSL_ENSURE(aPos->aLocation.nOwnClassVectorIndex < static_cast(m_aHoldProperties.size()), "OPropertyContainerHelper::convertFastPropertyValue: invalid position !"); auto aIter = m_aHoldProperties.begin() + aPos->aLocation.nOwnClassVectorIndex; pPropContainer = &(*aIter); } else pPropContainer = static_cast(aPos->aLocation.pDerivedClassMember); // check if the new value differs from the current one if (!pPropContainer->hasValue() || !aNewRequestedValue.hasValue()) bModified = pPropContainer->hasValue() != aNewRequestedValue.hasValue(); else bModified = !uno_type_equalData( const_cast< void* >( pPropContainer->getValue() ), aPos->aProperty.Type.getTypeLibType(), const_cast< void* >( aNewRequestedValue.getValue() ), aPos->aProperty.Type.getTypeLibType(), reinterpret_cast< uno_QueryInterfaceFunc >( cpp_queryInterface ), reinterpret_cast< uno_ReleaseFunc >( cpp_release ) ); if (bModified) { _rOldValue = *pPropContainer; _rConvertedValue = aNewRequestedValue; } } break; case PropertyDescription::LocationType::DerivedClassRealType: // let the UNO runtime library do any possible conversion // this may include a change of the type - for instance, if a LONG is required, // but a short is given, then this is valid, as it can be converted without any potential // data loss Any aProperlyTyped; const Any* pNewValue = &_rValue; if (!_rValue.getValueType().equals(aPos->aProperty.Type)) { bool bConverted = false; // a temporary any of the correct (required) type aProperlyTyped = Any( nullptr, aPos->aProperty.Type.getTypeLibType() ); // (need this as we do not want to overwrite the derived class member here) if ( uno_type_assignData( const_cast(aProperlyTyped.getValue()), aProperlyTyped.getValueType().getTypeLibType(), const_cast(_rValue.getValue()), _rValue.getValueType().getTypeLibType(), reinterpret_cast< uno_QueryInterfaceFunc >( cpp_queryInterface ), reinterpret_cast< uno_AcquireFunc >( cpp_acquire ), reinterpret_cast< uno_ReleaseFunc >( cpp_release ) ) ) { // could query for the requested interface bConverted = true; pNewValue = &aProperlyTyped; } if ( !bConverted ) lcl_throwIllegalPropertyValueTypeException( *aPos, _rValue ); } // from here on, we should have the proper type OSL_ENSURE( pNewValue->getValueType() == aPos->aProperty.Type, "OPropertyContainerHelper::convertFastPropertyValue: conversion failed!" ); bModified = !uno_type_equalData( aPos->aLocation.pDerivedClassMember, aPos->aProperty.Type.getTypeLibType(), const_cast(pNewValue->getValue()), aPos->aProperty.Type.getTypeLibType(), reinterpret_cast< uno_QueryInterfaceFunc >( cpp_queryInterface ), reinterpret_cast< uno_ReleaseFunc >( cpp_release ) ); if (bModified) { _rOldValue.setValue(aPos->aLocation.pDerivedClassMember, aPos->aProperty.Type); _rConvertedValue = *pNewValue; } break; } return bModified; } void OPropertyContainerHelper::setFastPropertyValue(sal_Int32 _nHandle, const Any& _rValue) { // get the property somebody is asking for PropertiesIterator aPos = searchHandle(_nHandle); if (aPos == m_aProperties.end()) { OSL_FAIL( "OPropertyContainerHelper::setFastPropertyValue: unknown handle!" ); // should not happen if the derived class has built a correct property set info helper to be used by // our base class OPropertySetHelper return; } bool bSuccess = true; switch (aPos->eLocated) { case PropertyDescription::LocationType::HoldMyself: m_aHoldProperties[aPos->aLocation.nOwnClassVectorIndex] = _rValue; break; case PropertyDescription::LocationType::DerivedClassAnyType: *static_cast< Any* >(aPos->aLocation.pDerivedClassMember) = _rValue; break; case PropertyDescription::LocationType::DerivedClassRealType: // copy the data from the to-be-set value bSuccess = uno_type_assignData( aPos->aLocation.pDerivedClassMember, aPos->aProperty.Type.getTypeLibType(), const_cast< void* >( _rValue.getValue() ), _rValue.getValueType().getTypeLibType(), reinterpret_cast< uno_QueryInterfaceFunc >( cpp_queryInterface ), reinterpret_cast< uno_AcquireFunc >( cpp_acquire ), reinterpret_cast< uno_ReleaseFunc >( cpp_release ) ); OSL_ENSURE( bSuccess, "OPropertyContainerHelper::setFastPropertyValue: ooops... the value could not be assigned!"); break; } } void OPropertyContainerHelper::getFastPropertyValue(Any& _rValue, sal_Int32 _nHandle) const { // get the property somebody is asking for PropertiesIterator aPos = const_cast(this)->searchHandle(_nHandle); if (aPos == m_aProperties.end()) { OSL_FAIL( "OPropertyContainerHelper::getFastPropertyValue: unknown handle!" ); // should not happen if the derived class has built a correct property set info helper to be used by // our base class OPropertySetHelper return; } switch (aPos->eLocated) { case PropertyDescription::LocationType::HoldMyself: OSL_ENSURE(aPos->aLocation.nOwnClassVectorIndex < static_cast(m_aHoldProperties.size()), "OPropertyContainerHelper::convertFastPropertyValue: invalid position !"); _rValue = m_aHoldProperties[aPos->aLocation.nOwnClassVectorIndex]; break; case PropertyDescription::LocationType::DerivedClassAnyType: _rValue = *static_cast(aPos->aLocation.pDerivedClassMember); break; case PropertyDescription::LocationType::DerivedClassRealType: _rValue.setValue(aPos->aLocation.pDerivedClassMember, aPos->aProperty.Type); break; } } OPropertyContainerHelper::PropertiesIterator OPropertyContainerHelper::searchHandle(sal_Int32 _nHandle) { PropertyDescription aHandlePropDesc; aHandlePropDesc.aProperty.Handle = _nHandle; // search a lower bound PropertiesIterator aLowerBound = std::lower_bound( m_aProperties.begin(), m_aProperties.end(), aHandlePropDesc, PropertyDescriptionHandleCompare()); // check for identity if ((aLowerBound != m_aProperties.end()) && aLowerBound->aProperty.Handle != _nHandle) aLowerBound = m_aProperties.end(); return aLowerBound; } const Property& OPropertyContainerHelper::getProperty( const OUString& _rName ) const { ConstPropertiesIterator pos = std::find_if( m_aProperties.begin(), m_aProperties.end(), PropertyDescriptionNameMatch( _rName ) ); if ( pos == m_aProperties.end() ) throw UnknownPropertyException( _rName ); return pos->aProperty; } void OPropertyContainerHelper::describeProperties(Sequence< Property >& _rProps) const { Sequence< Property > aOwnProps(m_aProperties.size()); Property* pOwnProps = aOwnProps.getArray(); for (const auto& rProp : m_aProperties) { pOwnProps->Name = rProp.aProperty.Name; pOwnProps->Handle = rProp.aProperty.Handle; pOwnProps->Attributes = rProp.aProperty.Attributes; pOwnProps->Type = rProp.aProperty.Type; ++pOwnProps; } // as our property vector is sorted by handles, not by name, we have to sort aOwnProps std::sort(aOwnProps.begin(), aOwnProps.end(), PropertyCompareByName()); // unfortunately the STL merge function does not allow the output range to overlap one of the input ranges, // so we need an extra sequence Sequence< Property > aOutput; aOutput.realloc(_rProps.getLength() + aOwnProps.getLength()); // do the merge std::merge( _rProps.begin(), _rProps.end(), // input 1 aOwnProps.begin(), aOwnProps.end(), // input 2 aOutput.getArray(), // output PropertyCompareByName() // compare operator ); // copy the output _rProps = aOutput; } } // namespace comphelper /* vim:set shiftwidth=4 softtabstop=4 expandtab: */