/* -*- 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 "TConnection.hxx" #include #include "resource/common_res.hrc" #include "resource/sharedresources.hxx" using namespace connectivity::sdbcx; using namespace connectivity; using namespace comphelper; using namespace ::cppu; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::sdbc; using namespace ::com::sun::star::container; using namespace ::com::sun::star::util; namespace { template < typename T> class OHardRefMap : public connectivity::sdbcx::IObjectCollection { typedef ::std::multimap< OUString, T , ::comphelper::UStringMixLess> ObjectMap; typedef typename ObjectMap::iterator ObjectIter; typedef typename ObjectMap::value_type ObjectEntry; // private: // this combination of map and vector is used to have a fast name and index access ::std::vector< ObjectIter > m_aElements; // hold the iterators which point to map ObjectMap m_aNameMap; // hold the elements and a name public: OHardRefMap(bool _bCase) : m_aNameMap(_bCase) { } virtual ~OHardRefMap() { } virtual bool exists(const OUString& _sName ) override { return m_aNameMap.find(_sName) != m_aNameMap.end(); } virtual bool empty() override { return m_aNameMap.empty(); } virtual void swapAll() override { ::std::vector< ObjectIter >(m_aElements).swap(m_aElements); ObjectMap(m_aNameMap).swap(m_aNameMap); } virtual void swap() override { ::std::vector< ObjectIter >().swap(m_aElements); OSL_ENSURE( m_aNameMap.empty(), "swap: what did disposeElements do?" ); ObjectMap( m_aNameMap ).swap( m_aNameMap ); // Note that it's /important/ to construct the new ObjectMap from m_aNameMap before // swapping. This way, it's ensured that the compare object held by these maps is preserved // during the swap. If we would not do this, the UStringMixLess instance which is used would be // default constructed (instead of being constructed from the same instance in m_aNameMap), and // it's case-sensitive flag would have an unpredictable value. } virtual void clear() override { m_aElements.clear(); m_aNameMap.clear(); } virtual void insert(const OUString& _sName,const ObjectType& _xObject) override { m_aElements.push_back(m_aNameMap.insert(m_aNameMap.begin(), ObjectEntry(_sName,_xObject))); } virtual void reFill(const TStringVector &_rVector) override { OSL_ENSURE(!m_aNameMap.size(),"OCollection::reFill: collection isn't empty"); m_aElements.reserve(_rVector.size()); for(TStringVector::const_iterator i=_rVector.begin(); i != _rVector.end();++i) m_aElements.push_back(m_aNameMap.insert(m_aNameMap.begin(), ObjectEntry(*i,ObjectType()))); } virtual bool rename(const OUString& _sOldName, const OUString& _sNewName) override { bool bRet = false; ObjectIter aIter = m_aNameMap.find(_sOldName); if ( aIter != m_aNameMap.end() ) { typename ::std::vector< ObjectIter >::iterator aFind = ::std::find(m_aElements.begin(),m_aElements.end(),aIter); if(m_aElements.end() != aFind) { (*aFind) = m_aNameMap.insert(m_aNameMap.begin(), ObjectEntry(_sNewName,(*aFind)->second)); m_aNameMap.erase(aIter); bRet = true; } } return bRet; } virtual sal_Int32 size() override { return static_cast(m_aNameMap.size()); } virtual Sequence< OUString > getElementNames() override { Sequence< OUString > aNameList(m_aElements.size()); OUString* pStringArray = aNameList.getArray(); typename ::std::vector< ObjectIter >::const_iterator aEnd = m_aElements.end(); for(typename ::std::vector< ObjectIter >::const_iterator aIter = m_aElements.begin(); aIter != aEnd;++aIter,++pStringArray) *pStringArray = (*aIter)->first; return aNameList; } virtual OUString getName(sal_Int32 _nIndex) override { return m_aElements[_nIndex]->first; } virtual void disposeAndErase(sal_Int32 _nIndex) override { OSL_ENSURE(_nIndex >= 0 && _nIndex < static_cast(m_aElements.size()),"Illegal argument!"); Reference xComp(m_aElements[_nIndex]->second.get(),UNO_QUERY); ::comphelper::disposeComponent(xComp); m_aElements[_nIndex]->second = T(); OUString sName = m_aElements[_nIndex]->first; m_aElements.erase(m_aElements.begin()+_nIndex); m_aNameMap.erase(sName); } virtual void disposeElements() override { for( ObjectIter aIter = m_aNameMap.begin(); aIter != m_aNameMap.end(); ++aIter) { Reference xComp(aIter->second.get(),UNO_QUERY); if ( xComp.is() ) { ::comphelper::disposeComponent(xComp); (*aIter).second = T(); } } m_aElements.clear(); m_aNameMap.clear(); } virtual sal_Int32 findColumn( const OUString& columnName ) override { ObjectIter aIter = m_aNameMap.find(columnName); OSL_ENSURE(aIter != m_aNameMap.end(),"findColumn:: Illegal name!"); return m_aElements.size() - (m_aElements.end() - ::std::find(m_aElements.begin(),m_aElements.end(),aIter)); } virtual ObjectType getObject(sal_Int32 _nIndex) override { OSL_ENSURE(_nIndex >= 0 && _nIndex < static_cast(m_aElements.size()),"Illegal argument!"); return m_aElements[_nIndex]->second; } virtual ObjectType getObject(const OUString& columnName) override { return m_aNameMap.find(columnName)->second; } virtual void setObject(sal_Int32 _nIndex,const ObjectType& _xObject) override { OSL_ENSURE(_nIndex >= 0 && _nIndex < static_cast(m_aElements.size()),"Illegal argument!"); m_aElements[_nIndex]->second = _xObject; } bool isCaseSensitive() const override { return m_aNameMap.key_comp().isCaseSensitive(); } }; } IObjectCollection::~IObjectCollection() {} IMPLEMENT_SERVICE_INFO(OCollection,"com.sun.star.sdbcx.VContainer" , "com.sun.star.sdbcx.Container") OCollection::OCollection(::cppu::OWeakObject& _rParent , bool _bCase , ::osl::Mutex& _rMutex , const TStringVector &_rVector , bool _bUseIndexOnly , bool _bUseHardRef) :m_aContainerListeners(_rMutex) ,m_aRefreshListeners(_rMutex) ,m_rParent(_rParent) ,m_rMutex(_rMutex) ,m_bUseIndexOnly(_bUseIndexOnly) { if ( _bUseHardRef ) { m_pElements.reset(new OHardRefMap< ObjectType >(_bCase)); } else { m_pElements.reset(new OHardRefMap< WeakReference< XPropertySet> >(_bCase)); } m_pElements->reFill(_rVector); } OCollection::~OCollection() { } Any SAL_CALL OCollection::queryInterface( const Type & rType ) throw (RuntimeException, std::exception) { if ( m_bUseIndexOnly && rType == cppu::UnoType::get() ) { return Any(); } return OCollectionBase::queryInterface( rType ); } Sequence< Type > SAL_CALL OCollection::getTypes() throw (RuntimeException, std::exception) { if ( m_bUseIndexOnly ) { Sequence< Type > aTypes(OCollectionBase::getTypes()); Type* pBegin = aTypes.getArray(); Type* pEnd = pBegin + aTypes.getLength(); ::std::vector aOwnTypes; aOwnTypes.reserve(aTypes.getLength()); Type aType = cppu::UnoType::get(); for(;pBegin != pEnd; ++pBegin) { if ( *pBegin != aType ) aOwnTypes.push_back(*pBegin); } return Sequence< Type >(aOwnTypes.data(), aOwnTypes.size()); } return OCollectionBase::getTypes( ); } void OCollection::clear_NoDispose() { ::osl::MutexGuard aGuard(m_rMutex); m_pElements->clear(); m_pElements->swapAll(); } void OCollection::disposing() { m_aContainerListeners.disposeAndClear(EventObject(static_cast(this))); m_aRefreshListeners.disposeAndClear(EventObject(static_cast(this))); ::osl::MutexGuard aGuard(m_rMutex); disposeElements(); m_pElements->swap(); } Any SAL_CALL OCollection::getByIndex( sal_Int32 Index ) throw(IndexOutOfBoundsException, WrappedTargetException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); if (Index < 0 || Index >= m_pElements->size() ) throw IndexOutOfBoundsException(OUString::number(Index),static_cast(this)); return makeAny(getObject(Index)); } Any SAL_CALL OCollection::getByName( const OUString& aName ) throw(NoSuchElementException, WrappedTargetException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); if ( !m_pElements->exists(aName) ) { ::connectivity::SharedResources aResources; const OUString sError( aResources.getResourceStringWithSubstitution( STR_NO_ELEMENT_NAME, "$name$", aName ) ); throw NoSuchElementException( sError, static_cast< XTypeProvider* >( this ) ); } return makeAny(getObject(m_pElements->findColumn(aName))); } Sequence< OUString > SAL_CALL OCollection::getElementNames( ) throw(RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); return m_pElements->getElementNames(); } void SAL_CALL OCollection::refresh( ) throw(RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); disposeElements(); impl_refresh(); EventObject aEvt(static_cast(this)); m_aRefreshListeners.notifyEach( &XRefreshListener::refreshed, aEvt ); } void OCollection::reFill(const TStringVector &_rVector) { m_pElements->reFill(_rVector); } // XDataDescriptorFactory Reference< XPropertySet > SAL_CALL OCollection::createDataDescriptor( ) throw(RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); return createDescriptor(); } OUString OCollection::getNameForObject(const ObjectType& _xObject) { OSL_ENSURE(_xObject.is(),"OCollection::getNameForObject: Object is NULL!"); OUString sName; _xObject->getPropertyValue(OMetaConnection::getPropMap().getNameByIndex(PROPERTY_ID_NAME)) >>= sName; return sName; } // XAppend void SAL_CALL OCollection::appendByDescriptor( const Reference< XPropertySet >& descriptor ) throw(SQLException, ElementExistException, RuntimeException, std::exception) { ::osl::ClearableMutexGuard aGuard(m_rMutex); OUString sName = getNameForObject( descriptor ); if ( m_pElements->exists(sName) ) throw ElementExistException(sName,static_cast(this)); ObjectType xNewlyCreated = appendObject( sName, descriptor ); if ( !xNewlyCreated.is() ) throw RuntimeException(); ODescriptor* pDescriptor = ODescriptor::getImplementation( xNewlyCreated ); if ( pDescriptor ) pDescriptor->setNew( false ); sName = getNameForObject( xNewlyCreated ); if ( !m_pElements->exists( sName ) ) // this may happen when the derived class included it itself m_pElements->insert( sName, xNewlyCreated ); // notify our container listeners ContainerEvent aEvent(static_cast(this), makeAny(sName), makeAny(xNewlyCreated), Any()); aGuard.clear(); m_aContainerListeners.notifyEach( &XContainerListener::elementInserted, aEvent ); } // XDrop void SAL_CALL OCollection::dropByName( const OUString& elementName ) throw(SQLException, NoSuchElementException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); if ( !m_pElements->exists(elementName) ) throw NoSuchElementException(elementName,static_cast(this)); dropImpl(m_pElements->findColumn(elementName)); } void SAL_CALL OCollection::dropByIndex( sal_Int32 index ) throw(SQLException, IndexOutOfBoundsException, RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); if(index <0 || index >= getCount()) throw IndexOutOfBoundsException(OUString::number(index),static_cast(this)); dropImpl(index); } void OCollection::dropImpl(sal_Int32 _nIndex, bool _bReallyDrop) { OUString elementName = m_pElements->getName(_nIndex); if ( _bReallyDrop ) dropObject(_nIndex,elementName); m_pElements->disposeAndErase(_nIndex); // notify our container listeners notifyElementRemoved(elementName); } void OCollection::notifyElementRemoved(const OUString& _sName) { ContainerEvent aEvent(static_cast(this), makeAny(_sName), Any(), Any()); // note that xExistent may be empty, in case somebody removed the data source while it is not alive at this moment OInterfaceIteratorHelper aListenerLoop(m_aContainerListeners); while (aListenerLoop.hasMoreElements()) static_cast(aListenerLoop.next())->elementRemoved(aEvent); } sal_Int32 SAL_CALL OCollection::findColumn( const OUString& columnName ) throw(SQLException, RuntimeException, std::exception) { if ( !m_pElements->exists(columnName) ) { ::dbtools::throwInvalidColumnException( columnName, static_cast< XIndexAccess*>(this) ); assert(false); } return m_pElements->findColumn(columnName) + 1; // because columns start at one } Reference< XEnumeration > SAL_CALL OCollection::createEnumeration( ) throw(RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); return new OEnumerationByIndex( static_cast< XIndexAccess*>(this)); } void SAL_CALL OCollection::addContainerListener( const Reference< XContainerListener >& _rxListener ) throw(RuntimeException, std::exception) { m_aContainerListeners.addInterface(_rxListener); } void SAL_CALL OCollection::removeContainerListener( const Reference< XContainerListener >& _rxListener ) throw(RuntimeException, std::exception) { m_aContainerListeners.removeInterface(_rxListener); } void SAL_CALL OCollection::acquire() throw() { m_rParent.acquire(); } void SAL_CALL OCollection::release() throw() { m_rParent.release(); } Type SAL_CALL OCollection::getElementType( ) throw(RuntimeException, std::exception) { return cppu::UnoType::get(); } sal_Bool SAL_CALL OCollection::hasElements( ) throw(RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); return !m_pElements->empty(); } sal_Int32 SAL_CALL OCollection::getCount( ) throw(RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); return m_pElements->size(); } sal_Bool SAL_CALL OCollection::hasByName( const OUString& aName ) throw(RuntimeException, std::exception) { ::osl::MutexGuard aGuard(m_rMutex); return m_pElements->exists(aName); } void SAL_CALL OCollection::addRefreshListener( const Reference< XRefreshListener >& l ) throw(RuntimeException, std::exception) { m_aRefreshListeners.addInterface(l); } void SAL_CALL OCollection::removeRefreshListener( const Reference< XRefreshListener >& l ) throw(RuntimeException, std::exception) { m_aRefreshListeners.removeInterface(l); } void OCollection::insertElement(const OUString& _sElementName,const ObjectType& _xElement) { OSL_ENSURE(!m_pElements->exists(_sElementName),"Element already exists"); if ( !m_pElements->exists(_sElementName) ) m_pElements->insert(_sElementName,_xElement); } void OCollection::renameObject(const OUString& _sOldName, const OUString& _sNewName) { OSL_ENSURE(m_pElements->exists(_sOldName),"Element doesn't exist"); OSL_ENSURE(!m_pElements->exists(_sNewName),"Element already exists"); OSL_ENSURE(!_sNewName.isEmpty(),"New name must not be empty!"); OSL_ENSURE(!_sOldName.isEmpty(),"Old name must not be empty!"); if ( m_pElements->rename(_sOldName,_sNewName) ) { ContainerEvent aEvent(static_cast(this), makeAny(_sNewName), makeAny(m_pElements->getObject(_sNewName)),makeAny(_sOldName)); // note that xExistent may be empty, in case somebody removed the data source while it is not alive at this moment OInterfaceIteratorHelper aListenerLoop(m_aContainerListeners); while (aListenerLoop.hasMoreElements()) static_cast(aListenerLoop.next())->elementReplaced(aEvent); } } ObjectType OCollection::getObject(sal_Int32 _nIndex) { ObjectType xName = m_pElements->getObject(_nIndex); if ( !xName.is() ) { try { xName = createObject(m_pElements->getName(_nIndex)); } catch(const SQLException& e) { try { dropImpl(_nIndex,false); } catch(const Exception& ) { } throw WrappedTargetException(e.Message,static_cast(this),makeAny(e)); } m_pElements->setObject(_nIndex,xName); } return xName; } void OCollection::disposeElements() { m_pElements->disposeElements(); } Reference< XPropertySet > OCollection::createDescriptor() { OSL_FAIL("createDescriptor() needs to be overridden when used!"); throw SQLException(); } ObjectType OCollection::cloneDescriptor( const ObjectType& _descriptor ) { ObjectType xNewDescriptor( createDescriptor() ); ::comphelper::copyProperties( _descriptor, xNewDescriptor ); return xNewDescriptor; } ObjectType OCollection::appendObject( const OUString& /*_rForName*/, const Reference< XPropertySet >& descriptor ) { return cloneDescriptor( descriptor ); } void OCollection::dropObject(sal_Int32 /*_nPos*/, const OUString& /*_sElementName*/) { } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */