/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace frm { using namespace ::com::sun::star::frame; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::document; using namespace ::com::sun::star::container; using namespace ::com::sun::star::script; using namespace ::com::sun::star::io; using namespace ::com::sun::star::form; using namespace ::com::sun::star::util; namespace { void lcl_throwIllegalArgumentException() { throw IllegalArgumentException(); } } static bool lcl_hasVbaEvents( const Sequence< ScriptEventDescriptor >& sEvents ) { for ( auto const& rDesc : sEvents ) { if ( rDesc.ScriptType == "VBAInterop" ) return true; } return false; } static Sequence< ScriptEventDescriptor > lcl_stripVbaEvents( const Sequence< ScriptEventDescriptor >& sEvents ) { Sequence< ScriptEventDescriptor > sStripped( sEvents.getLength() ); ScriptEventDescriptor* pStripped = sStripped.getArray(); sal_Int32 nCopied = 0; for ( auto const& rDesc : sEvents ) { if ( rDesc.ScriptType != "VBAInterop" ) { pStripped[ nCopied++ ] = rDesc; } } sStripped.realloc( nCopied ); return sStripped; } void OInterfaceContainer::impl_addVbEvents_nolck_nothrow( const sal_Int32 i_nIndex ) { // we are dealing with form controls try { do { Reference< XModel > xDoc( getXModel( static_cast< XContainer *> ( this ) ) ); if ( !xDoc.is() ) break; Reference< XMultiServiceFactory > xDocFac( xDoc, UNO_QUERY_THROW ); Reference< XCodeNameQuery > xNameQuery( xDocFac->createInstance("ooo.vba.VBACodeNameProvider"), UNO_QUERY ); if ( !xNameQuery.is() ) break; ::osl::MutexGuard aGuard( m_rMutex ); bool hasVBABindings = lcl_hasVbaEvents( m_xEventAttacher->getScriptEvents( i_nIndex ) ); if ( hasVBABindings ) break; Reference< XInterface > xElement( getByIndex( i_nIndex ) , UNO_QUERY_THROW ); Reference< XForm > xElementAsForm( xElement, UNO_QUERY ); if ( xElementAsForm.is() ) break; // Try getting the code name from the container first (faster), // then from the element if that fails (slower). Reference xThis = static_cast(this); OUString sCodeName = xNameQuery->getCodeNameForContainer(xThis); if (sCodeName.isEmpty()) sCodeName = xNameQuery->getCodeNameForObject(xElement); Reference< XPropertySet > xProps( xElement, UNO_QUERY_THROW ); OUString sServiceName; xProps->getPropertyValue("DefaultControl") >>= sServiceName; Reference< ooo::vba::XVBAToOOEventDescGen > xDescSupplier( m_xContext->getServiceManager()->createInstanceWithContext("ooo.vba.VBAToOOEventDesc", m_xContext), UNO_QUERY_THROW ); Sequence< ScriptEventDescriptor > vbaEvents = xDescSupplier->getEventDescriptions( sServiceName , sCodeName ); // register the vba script events m_xEventAttacher->registerScriptEvents( i_nIndex, vbaEvents ); } while ( false ); } catch ( const ServiceNotRegisteredException& ) { // silence this, not all document types support the ooo.vba.VBACodeNameProvider service } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("forms.misc"); } } ElementDescription::ElementDescription( ) { } OInterfaceContainer::OInterfaceContainer( const Reference& _rxContext, ::osl::Mutex& _rMutex, const Type& _rElementType) :OInterfaceContainer_BASE() ,m_rMutex(_rMutex) ,m_aContainerListeners(_rMutex) ,m_aElementType(_rElementType) ,m_xContext(_rxContext) { impl_createEventAttacher_nothrow(); } OInterfaceContainer::OInterfaceContainer( ::osl::Mutex& _rMutex, const OInterfaceContainer& _cloneSource ) :OInterfaceContainer_BASE() ,m_rMutex( _rMutex ) ,m_aContainerListeners( _rMutex ) ,m_aElementType( _cloneSource.m_aElementType ) ,m_xContext( _cloneSource.m_xContext ) { impl_createEventAttacher_nothrow(); } void OInterfaceContainer::clonedFrom(const OInterfaceContainer& _cloneSource) { try { const Reference< XIndexAccess > xSourceHierarchy( const_cast< OInterfaceContainer* >( &_cloneSource ) ); const sal_Int32 nCount = xSourceHierarchy->getCount(); for ( sal_Int32 i=0; i xCloneable( xSourceHierarchy->getByIndex( i ), UNO_QUERY_THROW ); Reference< XInterface > xClone( xCloneable->createClone() ); insertByIndex( i, makeAny( xClone ) ); } } catch (const RuntimeException&) { throw; } catch (const Exception&) { throw WrappedTargetRuntimeException( "Could not clone the given interface hierarchy.", static_cast< XIndexContainer* >( const_cast< OInterfaceContainer* >( &_cloneSource ) ), ::cppu::getCaughtException() ); } } void OInterfaceContainer::impl_createEventAttacher_nothrow() { try { m_xEventAttacher.set( ::comphelper::createEventAttacherManager( m_xContext ), UNO_SET_THROW ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("forms.misc"); } } OInterfaceContainer::~OInterfaceContainer() { } void OInterfaceContainer::disposing() { // dispose all elements for (sal_Int32 i = m_aItems.size(); i > 0; --i) { Reference xSet(m_aItems[i - 1], UNO_QUERY); if (xSet.is()) xSet->removePropertyChangeListener(PROPERTY_NAME, this); // revoke event knittings if ( m_xEventAttacher.is() ) { m_xEventAttacher->detach( i - 1, Reference(xSet, UNO_QUERY) ); m_xEventAttacher->removeEntry( i - 1 ); } Reference xComponent(xSet, UNO_QUERY); if (xComponent.is()) xComponent->dispose(); } m_aMap.clear(); m_aItems.clear(); css::lang::EventObject aEvt(static_cast(this)); m_aContainerListeners.disposeAndClear(aEvt); } // XPersistObject namespace { void lcl_saveEvents( ::std::vector< Sequence< ScriptEventDescriptor > >& _rSave, const Reference< XEventAttacherManager >& _rxManager, const sal_Int32 _nItemCount ) { OSL_ENSURE( _rxManager.is(), "lcl_saveEvents: invalid event attacher manager!" ); if ( !_rxManager.is() ) return; // reserve the space needed _rSave.reserve( _nItemCount ); // copy the events for (sal_Int32 i=0; i<_nItemCount; ++i) _rSave.push_back(_rxManager->getScriptEvents( i )); } void lcl_restoreEvents( const ::std::vector< Sequence< ScriptEventDescriptor > >& _rSave, const Reference< XEventAttacherManager >& _rxManager ) { OSL_ENSURE( _rxManager.is(), "lcl_restoreEvents: invalid event attacher manager!" ); if ( !_rxManager.is() ) return; sal_Int32 i=0; for (auto const& elem : _rSave) { _rxManager->revokeScriptEvents( i ); _rxManager->registerScriptEvents(i, elem); ++i; } } } void SAL_CALL OInterfaceContainer::writeEvents(const Reference& _rxOutStream) { // We're writing a document in SO 5.2 format (or even from earlier versions) // -> convert the events from the new runtime format to the format of the 5.2 files // but before, remember the current script events set for our children ::std::vector< Sequence< ScriptEventDescriptor > > aSave; if ( m_xEventAttacher.is() ) lcl_saveEvents( aSave, m_xEventAttacher, m_aItems.size() ); transformEvents(); try { Reference xMark(_rxOutStream, UNO_QUERY); sal_Int32 nMark = xMark->createMark(); sal_Int32 nObjLen = 0; _rxOutStream->writeLong(nObjLen); Reference xScripts(m_xEventAttacher, UNO_QUERY); if (xScripts.is()) xScripts->write(_rxOutStream); // Determine length nObjLen = xMark->offsetToMark(nMark) - 4; xMark->jumpToMark(nMark); _rxOutStream->writeLong(nObjLen); xMark->jumpToFurthest(); xMark->deleteMark(nMark); } catch( const Exception& ) { // restore the events if ( m_xEventAttacher.is() ) lcl_restoreEvents( aSave, m_xEventAttacher ); throw; } // restore the events if ( m_xEventAttacher.is() ) lcl_restoreEvents( aSave, m_xEventAttacher ); } namespace { struct TransformEventTo52Format { void operator()( ScriptEventDescriptor& _rDescriptor ) { if ( _rDescriptor.ScriptType != "StarBasic" ) return; // it's a starbasic macro sal_Int32 nPrefixLength = _rDescriptor.ScriptCode.indexOf( ':' ); if ( 0 <= nPrefixLength ) { // the macro name does not already contain a : #ifdef DBG_UTIL const OUString sPrefix = _rDescriptor.ScriptCode.copy( 0, nPrefixLength ); DBG_ASSERT( sPrefix == "document" || sPrefix == "application", "TransformEventTo52Format: invalid (unknown) prefix!" ); #endif // cut the prefix _rDescriptor.ScriptCode = _rDescriptor.ScriptCode.copy( nPrefixLength + 1 ); } } }; } void OInterfaceContainer::transformEvents() { OSL_ENSURE( m_xEventAttacher.is(), "OInterfaceContainer::transformEvents: no event attacher manager!" ); if ( !m_xEventAttacher.is() ) return; try { // loop through all our children sal_Int32 nItems = m_aItems.size(); Sequence< ScriptEventDescriptor > aChildEvents; for (sal_Int32 i=0; igetScriptEvents( i ); if ( aChildEvents.hasElements() ) { // do the transformation ::std::for_each( aChildEvents.begin(), aChildEvents.end(), TransformEventTo52Format() ); // revoke the script events m_xEventAttacher->revokeScriptEvents( i ); // and re-register them m_xEventAttacher->registerScriptEvents( i, aChildEvents ); } } } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("forms.misc"); } } void SAL_CALL OInterfaceContainer::readEvents(const Reference& _rxInStream) { ::osl::MutexGuard aGuard( m_rMutex ); // Read scripting info Reference xMark(_rxInStream, UNO_QUERY); sal_Int32 nObjLen = _rxInStream->readLong(); if (nObjLen) { sal_Int32 nMark = xMark->createMark(); Reference xObj(m_xEventAttacher, UNO_QUERY); if (xObj.is()) xObj->read(_rxInStream); xMark->jumpToMark(nMark); _rxInStream->skipBytes(nObjLen); xMark->deleteMark(nMark); } // Read Attachment if ( m_xEventAttacher.is() ) { sal_Int32 i=0; for (auto const& item : m_aItems) { Reference< XInterface > xAsIFace( item, UNO_QUERY ); // important to normalize this... Reference< XPropertySet > xAsSet( xAsIFace, UNO_QUERY ); m_xEventAttacher->attach( i++, xAsIFace, makeAny( xAsSet ) ); } } } void SAL_CALL OInterfaceContainer::write( const Reference< XObjectOutputStream >& _rxOutStream ) { ::osl::MutexGuard aGuard( m_rMutex ); sal_Int32 nLen = m_aItems.size(); // Write length _rxOutStream->writeLong(nLen); if (!nLen) return; // 1. Version _rxOutStream->writeShort(0x0001); // 2. Objects for (sal_Int32 i = 0; i < nLen; i++) { Reference xObj(m_aItems[i], UNO_QUERY); if (xObj.is()) _rxOutStream->writeObject(xObj); else { // Error } } // 3. Scripts writeEvents(_rxOutStream); } namespace { Reference< XPersistObject > lcl_createPlaceHolder( const Reference< XComponentContext >& _rxORB ) { Reference< XPersistObject > xObject( _rxORB->getServiceManager()->createInstanceWithContext(FRM_COMPONENT_HIDDENCONTROL, _rxORB), UNO_QUERY ); DBG_ASSERT( xObject.is(), "lcl_createPlaceHolder: could not create a substitute for the unknown object!" ); if ( xObject.is() ) { // set some properties describing what we did Reference< XPropertySet > xObjProps( xObject, UNO_QUERY ); if ( xObject.is() ) { try { xObjProps->setPropertyValue( PROPERTY_NAME, makeAny( FRM_RES_STRING( RID_STR_CONTROL_SUBSTITUTED_NAME ) ) ); xObjProps->setPropertyValue( PROPERTY_TAG, makeAny( FRM_RES_STRING( RID_STR_CONTROL_SUBSTITUTED_EPXPLAIN ) ) ); } catch(const Exception&) { } } } return xObject; } } void SAL_CALL OInterfaceContainer::read( const Reference< XObjectInputStream >& _rxInStream ) { ::osl::MutexGuard aGuard( m_rMutex ); // after ::read the object is expected to be in the state it was when ::write was called, so we have // to empty ourself here while (getCount()) removeByIndex(0); // Only writes depending on the length sal_Int32 nLen = _rxInStream->readLong(); if (nLen) { // 1. Version _rxInStream->readShort(); // 2. Objects for (sal_Int32 i = 0; i < nLen; i++) { Reference xObj; try { xObj = _rxInStream->readObject(); } catch(const WrongFormatException&) { // the object could not be read // create an object (so the readEvents below will assign the events to the right controls) xObj = lcl_createPlaceHolder( m_xContext ); if ( !xObj.is() ) // couldn't handle it throw; } catch(const Exception&) { // Clear the map while (!m_aItems.empty()) removeElementsNoEvents(); // Rethrow the exception throw; } if ( xObj.is() ) { Reference< XPropertySet > xElement( xObj, UNO_QUERY ); try { implInsert( m_aItems.size(), // position xElement, // element to insert false, // no event attacher manager handling nullptr, // not yet approved - let implInsert do it true // fire the event ); } catch( const Exception& ) { SAL_WARN("forms.misc", "OInterfaceContainerHelper2::read: reading succeeded, but not inserting!" ); // create a placeholder xElement.set(lcl_createPlaceHolder( m_xContext ), css::uno::UNO_QUERY); if ( !xElement.is() ) // couldn't handle it throw; // insert the placeholder implInsert( m_aItems.size(), xElement, false, nullptr, true ); } } } readEvents(_rxInStream); } else { try { m_xEventAttacher = ::comphelper::createEventAttacherManager( m_xContext ); OSL_ENSURE( m_xEventAttacher.is(), "OInterfaceContainer::read: could not create an event attacher manager!" ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("forms.misc"); } } } // XContainer void SAL_CALL OInterfaceContainer::addContainerListener(const Reference& _rxListener) { m_aContainerListeners.addInterface(_rxListener); } void SAL_CALL OInterfaceContainer::removeContainerListener(const Reference& _rxListener) { m_aContainerListeners.removeInterface(_rxListener); } // XEventListener void SAL_CALL OInterfaceContainer::disposing(const css::lang::EventObject& _rSource) { ::osl::MutexGuard aGuard( m_rMutex ); Reference< XInterface > xSource( _rSource.Source, UNO_QUERY ); // normalized source OInterfaceArray::iterator j; for ( j = m_aItems.begin(); j != m_aItems.end(); ++j ) { DBG_ASSERT( j->get() == Reference< XInterface >( *j, UNO_QUERY ).get(), "OInterfaceContainer::disposing: vector element not normalized!" ); if ( xSource.get() == j->get() ) // found the element break; } if ( m_aItems.end() == j ) return; m_aItems.erase(j); // look up in, and erase from, m_aMap, too OInterfaceMap::iterator i = m_aMap.begin(); while ( i != m_aMap.end() ) { DBG_ASSERT( i->second.get() == Reference< XInterface >( i->second, UNO_QUERY ).get(), "OInterfaceContainer::disposing: map element not normalized!" ); if ( i->second.get() == xSource.get() ) { // found it m_aMap.erase(i); break; } ++i; DBG_ASSERT( i != m_aMap.end(), "OInterfaceContainer::disposing: inconsistency: the element was in m_aItems, but not in m_aMap!" ); } } // XPropertyChangeListener void OInterfaceContainer::propertyChange(const PropertyChangeEvent& evt) { if (evt.PropertyName != PROPERTY_NAME) return; ::osl::MutexGuard aGuard( m_rMutex ); auto range = m_aMap.equal_range(::comphelper::getString(evt.OldValue)); for (auto it = range.first; it != range.second; ++it) if (it->second == evt.Source) { css::uno::Reference xCorrectType(it->second); m_aMap.erase(it); m_aMap.insert(::std::pair >(::comphelper::getString(evt.NewValue),xCorrectType)); break; } } // XElementAccess sal_Bool SAL_CALL OInterfaceContainer::hasElements() { return !m_aMap.empty(); } Type SAL_CALL OInterfaceContainer::getElementType() { return m_aElementType; } // XEnumerationAccess Reference SAL_CALL OInterfaceContainer::createEnumeration() { ::osl::MutexGuard aGuard( m_rMutex ); return new ::comphelper::OEnumerationByIndex(static_cast(this)); } // XNameAccess Any SAL_CALL OInterfaceContainer::getByName( const OUString& _rName ) { ::std::pair aPair = m_aMap.equal_range(_rName); if (aPair.first == aPair.second) throw NoSuchElementException(); return (*aPair.first).second->queryInterface( m_aElementType ); } css::uno::Sequence SAL_CALL OInterfaceContainer::getElementNames() { return comphelper::mapKeysToSequence(m_aMap); } sal_Bool SAL_CALL OInterfaceContainer::hasByName( const OUString& _rName ) { ::std::pair aPair = m_aMap.equal_range(_rName); return aPair.first != aPair.second; } // XIndexAccess sal_Int32 OInterfaceContainer::getCount() { return m_aItems.size(); } Any OInterfaceContainer::getByIndex(sal_Int32 _nIndex) { if (_nIndex < 0 || (_nIndex >= static_cast(m_aItems.size()))) throw IndexOutOfBoundsException(); return m_aItems[_nIndex]->queryInterface( m_aElementType ); } void OInterfaceContainer::approveNewElement( const Reference< XPropertySet >& _rxObject, ElementDescription* _pElement ) { // it has to be non-NULL if ( !_rxObject.is() ) throw IllegalArgumentException(FRM_RES_STRING(RID_STR_NEED_NON_NULL_OBJECT), static_cast(this), 1); // it has to support our element type interface Any aCorrectType = _rxObject->queryInterface( m_aElementType ); if ( !aCorrectType.hasValue() ) lcl_throwIllegalArgumentException(); // it has to have a "Name" property if ( !hasProperty( PROPERTY_NAME, _rxObject ) ) lcl_throwIllegalArgumentException(); // it has to be a child, and it must not have a parent already Reference< XChild > xChild( _rxObject, UNO_QUERY ); if ( !xChild.is() || xChild->getParent().is() ) { lcl_throwIllegalArgumentException(); } // passed all tests. cache the information we have so far DBG_ASSERT( _pElement, "OInterfaceContainer::approveNewElement: invalid event descriptor!" ); if ( _pElement ) { _pElement->xPropertySet = _rxObject; _pElement->xChild = xChild; _pElement->aElementTypeInterface = aCorrectType; _pElement->xInterface = Reference< XInterface >( _rxObject, UNO_QUERY ); // normalized XInterface } } void OInterfaceContainer::implInsert(sal_Int32 _nIndex, const Reference< XPropertySet >& _rxElement, bool _bEvents, ElementDescription* _pApprovalResult, bool _bFire ) { const bool bHandleEvents = _bEvents && m_xEventAttacher.is(); // SYNCHRONIZED -----> ::osl::ClearableMutexGuard aGuard( m_rMutex ); std::unique_ptr< ElementDescription > aAutoDeleteMetaData; ElementDescription* pElementMetaData = _pApprovalResult; if ( !pElementMetaData ) { // not yet approved by the caller -> do ourself pElementMetaData = createElementMetaData(); DBG_ASSERT( pElementMetaData, "OInterfaceContainer::implInsert: createElementMetaData returned nonsense!" ); // ensure that the meta data structure will be deleted later on aAutoDeleteMetaData.reset( pElementMetaData ); // will throw an exception if necessary approveNewElement( _rxElement, pElementMetaData ); } // approveNewElement (no matter if called here or outside) has ensure that all relevant interfaces // exist // set the name, and add as change listener for the name OUString sName; _rxElement->getPropertyValue(PROPERTY_NAME) >>= sName; _rxElement->addPropertyChangeListener(PROPERTY_NAME, this); // insert the object into our internal structures if (_nIndex > static_cast(m_aItems.size())) // Calculate the actual index { _nIndex = m_aItems.size(); m_aItems.push_back( pElementMetaData->xInterface ); } else m_aItems.insert( m_aItems.begin() + _nIndex, pElementMetaData->xInterface ); m_aMap.insert( ::std::pair< const OUString, css::uno::Reference >( sName, pElementMetaData->xInterface ) ); // announce ourself as parent to the new element pElementMetaData->xChild->setParent(static_cast(this)); // handle the events if ( bHandleEvents ) { m_xEventAttacher->insertEntry(_nIndex); m_xEventAttacher->attach( _nIndex, pElementMetaData->xInterface, makeAny( _rxElement ) ); } // notify derived classes implInserted( pElementMetaData ); aGuard.clear(); // <----- SYNCHRONIZED // insert faked VBA events? bool bHandleVbaEvents = false; try { _rxElement->getPropertyValue("GenerateVbaEvents") >>= bHandleVbaEvents; } catch( const Exception& ) { } if ( bHandleVbaEvents ) { Reference< XEventAttacherManager > xMgr ( pElementMetaData->xInterface, UNO_QUERY ); OInterfaceContainer* pIfcMgr = xMgr.is() ? dynamic_cast(xMgr.get()) : nullptr; if (pIfcMgr) { sal_Int32 nLen = pIfcMgr->getCount(); for (sal_Int32 i = 0; i < nLen; ++i) { // add fake events to the control at index i pIfcMgr->impl_addVbEvents_nolck_nothrow( i ); } } else { // add fake events to the control at index i impl_addVbEvents_nolck_nothrow( _nIndex ); } } // fire the notification about the change if ( _bFire ) { // notify listeners ContainerEvent aEvt; aEvt.Source = static_cast(this); aEvt.Accessor <<= _nIndex; aEvt.Element = pElementMetaData->aElementTypeInterface; m_aContainerListeners.notifyEach( &XContainerListener::elementInserted, aEvt ); } } void OInterfaceContainer::removeElementsNoEvents() { OInterfaceArray::iterator i = m_aItems.begin(); css::uno::Reference xElement(*i); OInterfaceMap::iterator j = std::find_if(m_aMap.begin(), m_aMap.end(), [&xElement](const OInterfaceMap::value_type& rEntry) { return rEntry.second == xElement; }); m_aItems.erase(i); m_aMap.erase(j); Reference xSet(xElement, UNO_QUERY); if (xSet.is()) xSet->removePropertyChangeListener(PROPERTY_NAME, this); Reference xChild(xElement, UNO_QUERY); if (xChild.is()) xChild->setParent(css::uno::Reference ()); } void OInterfaceContainer::implInserted( const ElementDescription* /*_pElement*/ ) { // not interested in } void OInterfaceContainer::implRemoved( const css::uno::Reference& /*_rxObject*/ ) { // not interested in } void OInterfaceContainer::impl_replacedElement( const ContainerEvent& _rEvent, ::osl::ClearableMutexGuard& _rInstanceLock ) { _rInstanceLock.clear(); m_aContainerListeners.notifyEach( &XContainerListener::elementReplaced, _rEvent ); } // XIndexContainer void SAL_CALL OInterfaceContainer::insertByIndex( sal_Int32 _nIndex, const Any& _rElement ) { Reference< XPropertySet > xElement; _rElement >>= xElement; implInsert( _nIndex, xElement, true /* event handling */ , nullptr /* not yet approved */ , true /* notification */ ); } void OInterfaceContainer::implReplaceByIndex( const sal_Int32 _nIndex, const Any& _rNewElement, ::osl::ClearableMutexGuard& _rClearBeforeNotify ) { OSL_PRECOND( ( _nIndex >= 0 ) && ( _nIndex < static_cast(m_aItems.size()) ), "OInterfaceContainer::implReplaceByIndex: precondition not met (index)!" ); // approve the new object std::unique_ptr< ElementDescription > aElementMetaData( createElementMetaData() ); DBG_ASSERT(aElementMetaData, "OInterfaceContainer::implReplaceByIndex: createElementMetaData returned nonsense!"); { Reference< XPropertySet > xElementProps; _rNewElement >>= xElementProps; approveNewElement( xElementProps, aElementMetaData.get() ); } // get the old element css::uno::Reference xOldElement( m_aItems[ _nIndex ] ); DBG_ASSERT( xOldElement.get() == Reference< XInterface >( xOldElement, UNO_QUERY ).get(), "OInterfaceContainer::implReplaceByIndex: elements should be held normalized!" ); // locate the old element in the map OInterfaceMap::iterator j = std::find_if(m_aMap.begin(), m_aMap.end(), [&xOldElement](const OInterfaceMap::value_type& rEntry) { return rEntry.second.get() == xOldElement.get(); }); // remove event knittings if ( m_xEventAttacher.is() ) { css::uno::Reference xNormalized( xOldElement, UNO_QUERY ); m_xEventAttacher->detach( _nIndex, xNormalized ); m_xEventAttacher->removeEntry( _nIndex ); } // don't listen for property changes anymore Reference xSet( xOldElement, UNO_QUERY ); if (xSet.is()) xSet->removePropertyChangeListener(PROPERTY_NAME, this); // give the old element a new (void) parent Reference xChild(xOldElement, UNO_QUERY); if (xChild.is()) xChild->setParent(css::uno::Reference ()); // remove the old one m_aMap.erase(j); // examine the new element OUString sName; DBG_ASSERT(aElementMetaData->xPropertySet.is(), "OInterfaceContainer::implReplaceByIndex: what did approveNewElement do?"); aElementMetaData->xPropertySet->getPropertyValue(PROPERTY_NAME) >>= sName; aElementMetaData->xPropertySet->addPropertyChangeListener(PROPERTY_NAME, this); // insert the new one m_aMap.insert(::std::pair>( sName, aElementMetaData->xInterface)); m_aItems[_nIndex] = aElementMetaData->xInterface; aElementMetaData->xChild->setParent(static_cast(this)); if ( m_xEventAttacher.is() ) { m_xEventAttacher->insertEntry( _nIndex ); m_xEventAttacher->attach(_nIndex, aElementMetaData->xInterface, makeAny(aElementMetaData->xPropertySet)); } ContainerEvent aReplaceEvent; aReplaceEvent.Source = static_cast< XContainer* >( this ); aReplaceEvent.Accessor <<= _nIndex; aReplaceEvent.Element = aElementMetaData->xInterface->queryInterface(m_aElementType); aReplaceEvent.ReplacedElement = xOldElement->queryInterface( m_aElementType ); impl_replacedElement( aReplaceEvent, _rClearBeforeNotify ); } void OInterfaceContainer::implCheckIndex( const sal_Int32 _nIndex ) { if (_nIndex < 0 || _nIndex >= static_cast(m_aItems.size())) throw IndexOutOfBoundsException(); } void SAL_CALL OInterfaceContainer::replaceByIndex(sal_Int32 _nIndex, const Any& Element) { ::osl::ClearableMutexGuard aGuard( m_rMutex ); // check the index implCheckIndex( _nIndex ); // do the replace implReplaceByIndex( _nIndex, Element, aGuard ); } void OInterfaceContainer::implRemoveByIndex( const sal_Int32 _nIndex, ::osl::ClearableMutexGuard& _rClearBeforeNotify ) { OSL_PRECOND( ( _nIndex >= 0 ) && ( _nIndex < static_cast(m_aItems.size()) ), "OInterfaceContainer::implRemoveByIndex: precondition not met (index)!" ); OInterfaceArray::iterator i = m_aItems.begin() + _nIndex; css::uno::Reference xElement(*i); OInterfaceMap::iterator j = std::find_if(m_aMap.begin(), m_aMap.end(), [&xElement](const OInterfaceMap::value_type& rEntry) { return rEntry.second == xElement; }); m_aItems.erase(i); m_aMap.erase(j); // remove event knittings if ( m_xEventAttacher.is() ) { css::uno::Reference xNormalized( xElement, UNO_QUERY ); m_xEventAttacher->detach( _nIndex, xNormalized ); m_xEventAttacher->removeEntry( _nIndex ); } Reference xSet(xElement, UNO_QUERY); if (xSet.is()) xSet->removePropertyChangeListener(PROPERTY_NAME, this); Reference xChild(xElement, UNO_QUERY); if (xChild.is()) xChild->setParent(css::uno::Reference ()); // notify derived classes implRemoved(xElement); // notify listeners ContainerEvent aEvt; aEvt.Source = static_cast(this); aEvt.Element = xElement->queryInterface( m_aElementType ); aEvt.Accessor <<= _nIndex; _rClearBeforeNotify.clear(); m_aContainerListeners.notifyEach( &XContainerListener::elementRemoved, aEvt ); } void SAL_CALL OInterfaceContainer::removeByIndex(sal_Int32 _nIndex) { ::osl::ClearableMutexGuard aGuard( m_rMutex ); // check the index implCheckIndex( _nIndex ); // do the removal implRemoveByIndex( _nIndex, aGuard ); } ElementDescription* OInterfaceContainer::createElementMetaData( ) { return new ElementDescription; } void SAL_CALL OInterfaceContainer::insertByName(const OUString& _rName, const Any& _rElement) { Reference< XPropertySet > xElementProps; std::unique_ptr< ElementDescription > aElementMetaData( createElementMetaData() ); DBG_ASSERT(aElementMetaData, "OInterfaceContainer::insertByName: createElementMetaData returned nonsense!"); // ensure the correct name of the element try { _rElement >>= xElementProps; approveNewElement( xElementProps, aElementMetaData.get() ); xElementProps->setPropertyValue( PROPERTY_NAME, makeAny( _rName ) ); } catch( const IllegalArgumentException& ) { throw; // allowed to leave } catch( const ElementExistException& ) { throw; // allowed to leave } catch( const Exception& ) { TOOLS_WARN_EXCEPTION("forms.misc", "OInterfaceContainer::insertByName" ); } implInsert( m_aItems.size(), xElementProps, true, aElementMetaData.get(), true ); } void SAL_CALL OInterfaceContainer::replaceByName(const OUString& Name, const Any& Element) { ::osl::ClearableMutexGuard aGuard( m_rMutex ); ::std::pair aPair = m_aMap.equal_range(Name); if (aPair.first == aPair.second) throw NoSuchElementException(); if (Element.getValueType().getTypeClass() != TypeClass_INTERFACE) lcl_throwIllegalArgumentException(); Reference xSet; Element >>= xSet; if (xSet.is()) { if (!hasProperty(PROPERTY_NAME, xSet)) lcl_throwIllegalArgumentException(); xSet->setPropertyValue(PROPERTY_NAME, makeAny(Name)); } // determine the element pos sal_Int32 nPos = ::std::find(m_aItems.begin(), m_aItems.end(), (*aPair.first).second) - m_aItems.begin(); implReplaceByIndex( nPos, Element, aGuard ); } void SAL_CALL OInterfaceContainer::removeByName(const OUString& Name) { ::osl::MutexGuard aGuard( m_rMutex ); ::std::pair aPair = m_aMap.equal_range(Name); if (aPair.first == aPair.second) throw NoSuchElementException(); sal_Int32 nPos = ::std::find(m_aItems.begin(), m_aItems.end(), (*aPair.first).second) - m_aItems.begin(); removeByIndex(nPos); } // XEventAttacherManager void SAL_CALL OInterfaceContainer::registerScriptEvent( sal_Int32 nIndex, const ScriptEventDescriptor& aScriptEvent ) { ::osl::ClearableMutexGuard aGuard( m_rMutex ); if ( m_xEventAttacher.is() ) { m_xEventAttacher->registerScriptEvent( nIndex, aScriptEvent ); aGuard.clear(); impl_addVbEvents_nolck_nothrow( nIndex ); // add fake vba events } } void SAL_CALL OInterfaceContainer::registerScriptEvents( sal_Int32 nIndex, const Sequence< ScriptEventDescriptor >& aScriptEvents ) { ::osl::ClearableMutexGuard aGuard( m_rMutex ); if ( m_xEventAttacher.is() ) { m_xEventAttacher->registerScriptEvents( nIndex, aScriptEvents ); aGuard.clear(); impl_addVbEvents_nolck_nothrow( nIndex ); // add fake vba events } } void SAL_CALL OInterfaceContainer::revokeScriptEvent( sal_Int32 nIndex, const OUString& aListenerType, const OUString& aEventMethod, const OUString& aRemoveListenerParam ) { if ( m_xEventAttacher.is() ) m_xEventAttacher->revokeScriptEvent( nIndex, aListenerType, aEventMethod, aRemoveListenerParam ); } void SAL_CALL OInterfaceContainer::revokeScriptEvents( sal_Int32 nIndex ) { if ( m_xEventAttacher.is() ) m_xEventAttacher->revokeScriptEvents( nIndex ); } void SAL_CALL OInterfaceContainer::insertEntry( sal_Int32 nIndex ) { if ( m_xEventAttacher.is() ) m_xEventAttacher->insertEntry( nIndex ); } void SAL_CALL OInterfaceContainer::removeEntry( sal_Int32 nIndex ) { if ( m_xEventAttacher.is() ) m_xEventAttacher->removeEntry( nIndex ); } Sequence< ScriptEventDescriptor > SAL_CALL OInterfaceContainer::getScriptEvents( sal_Int32 nIndex ) { Sequence< ScriptEventDescriptor > aReturn; if ( m_xEventAttacher.is() ) { aReturn = m_xEventAttacher->getScriptEvents( nIndex ); if ( lcl_hasVbaEvents( aReturn ) ) { aReturn = lcl_stripVbaEvents( aReturn ); } } return aReturn; } void SAL_CALL OInterfaceContainer::attach( sal_Int32 nIndex, const Reference< XInterface >& xObject, const Any& aHelper ) { if ( m_xEventAttacher.is() ) m_xEventAttacher->attach( nIndex, xObject, aHelper ); } void SAL_CALL OInterfaceContainer::detach( sal_Int32 nIndex, const Reference< XInterface >& xObject ) { if ( m_xEventAttacher.is() ) m_xEventAttacher->detach( nIndex, xObject ); } void SAL_CALL OInterfaceContainer::addScriptListener( const Reference< XScriptListener >& xListener ) { if ( m_xEventAttacher.is() ) m_xEventAttacher->addScriptListener( xListener ); } void SAL_CALL OInterfaceContainer::removeScriptListener( const Reference< XScriptListener >& xListener ) { if ( m_xEventAttacher.is() ) m_xEventAttacher->removeScriptListener( xListener ); } //= OFormComponents Any SAL_CALL OFormComponents::queryAggregation(const Type& _rType) { Any aReturn = OFormComponents_BASE::queryInterface(_rType); if (!aReturn.hasValue()) { aReturn = OInterfaceContainer::queryInterface(_rType); if (!aReturn.hasValue()) aReturn = ::cppu::OComponentHelper::queryAggregation(_rType); } return aReturn; } Sequence SAL_CALL OFormComponents::getTypes() { return ::comphelper::concatSequences(OInterfaceContainer::getTypes(), ::cppu::OComponentHelper::getTypes(), OFormComponents_BASE::getTypes()); } OFormComponents::OFormComponents(const Reference& _rxFactory) : ::cppu::OComponentHelper( m_aMutex ) ,OInterfaceContainer( _rxFactory, m_aMutex, cppu::UnoType::get() ) ,OFormComponents_BASE() { } OFormComponents::OFormComponents( const OFormComponents& _cloneSource ) : ::cppu::OComponentHelper( m_aMutex ) ,OInterfaceContainer( m_aMutex, _cloneSource ) ,OFormComponents_BASE() { } OFormComponents::~OFormComponents() { if (! ::cppu::OComponentHelper::rBHelper.bDisposed) { acquire(); dispose(); } } // OComponentHelper void OFormComponents::disposing() { OInterfaceContainer::disposing(); ::cppu::OComponentHelper::disposing(); m_xParent = nullptr; } //XChild void OFormComponents::setParent(const css::uno::Reference& Parent) { ::osl::MutexGuard aGuard( m_aMutex ); m_xParent = Parent; } css::uno::Reference OFormComponents::getParent() { return m_xParent; } } // namespace frm /* vim:set shiftwidth=4 softtabstop=4 expandtab: */