/* -*- 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 "componenttools.hxx" #include "FormComponent.hxx" #include "frm_resource.hrc" #include "frm_resource.hxx" #include "property.hrc" #include "services.hxx" #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::uno; using namespace ::com::sun::star::sdb; using namespace ::com::sun::star::sdbc; using namespace ::com::sun::star::sdbcx; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::container; using namespace ::com::sun::star::form; using namespace ::com::sun::star::awt; using namespace ::com::sun::star::io; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::util; using namespace ::com::sun::star::form::binding; using namespace ::com::sun::star::form::validation; using namespace ::dbtools; using namespace ::comphelper; // FieldChangeNotifier void ControlModelLock::impl_notifyAll_nothrow() { m_rModel.firePropertyChanges( m_aHandles, m_aOldValues, m_aNewValues, OControlModel::LockAccess() ); } void ControlModelLock::addPropertyNotification( const sal_Int32 _nHandle, const Any& _rOldValue, const Any& _rNewValue ) { sal_Int32 nOldLength = m_aHandles.getLength(); if ( ( nOldLength != m_aOldValues.getLength() ) || ( nOldLength != m_aNewValues.getLength() ) ) throw RuntimeException( OUString(), m_rModel ); m_aHandles.realloc( nOldLength + 1 ); m_aHandles[ nOldLength ] = _nHandle; m_aOldValues.realloc( nOldLength + 1 ); m_aOldValues[ nOldLength ] = _rOldValue; m_aNewValues.realloc( nOldLength + 1 ); m_aNewValues[ nOldLength ] = _rNewValue; } class FieldChangeNotifier { public: FieldChangeNotifier( ControlModelLock& _rLock ) :m_rLock( _rLock ) ,m_rModel( dynamic_cast< OBoundControlModel& >( _rLock.getModel() ) ) { m_xOldField = m_rModel.getField(); } ~FieldChangeNotifier() { Reference< XPropertySet > xNewField( m_rModel.getField() ); if ( m_xOldField != xNewField ) m_rLock.addPropertyNotification( PROPERTY_ID_BOUNDFIELD, makeAny( m_xOldField ), makeAny( xNewField ) ); } private: ControlModelLock& m_rLock; OBoundControlModel& m_rModel; Reference< XPropertySet > m_xOldField; }; // base class for form layer controls OControl::OControl( const Reference< XComponentContext >& _rxContext, const OUString& _rAggregateService, const sal_Bool _bSetDelegator ) :OComponentHelper(m_aMutex) ,m_xContext( _rxContext ) { // aggregate VCL-Control // bei Aggregation den Refcount um eins erhoehen da im setDelegator // das Aggregat selbst den Refcount erhoeht increment( m_refCount ); { m_xAggregate = m_xAggregate.query( _rxContext->getServiceManager()->createInstanceWithContext(_rAggregateService, _rxContext) ); m_xControl = m_xControl.query( m_xAggregate ); } decrement( m_refCount ); if ( _bSetDelegator ) doSetDelegator(); } OControl::~OControl() { doResetDelegator(); } void OControl::doResetDelegator() { if ( m_xAggregate.is() ) m_xAggregate->setDelegator( NULL ); } void OControl::doSetDelegator() { increment( m_refCount ); if ( m_xAggregate.is() ) { // those brackets are important for some compilers, don't remove! // (they ensure that the temporary object created in the line below // is destroyed *before* the refcount-decrement) m_xAggregate->setDelegator( static_cast< XWeak* >( this ) ); } decrement( m_refCount ); } // UNO Anbindung Any SAL_CALL OControl::queryAggregation( const Type& _rType ) throw(RuntimeException, std::exception) { // ask the base class Any aReturn( OComponentHelper::queryAggregation(_rType) ); // ask our own interfaces if (!aReturn.hasValue()) { aReturn = OControl_BASE::queryInterface(_rType); // ask our aggregate if (!aReturn.hasValue() && m_xAggregate.is()) aReturn = m_xAggregate->queryAggregation(_rType); } return aReturn; } Sequence SAL_CALL OControl::getImplementationId() throw(RuntimeException, std::exception) { return css::uno::Sequence(); } Sequence SAL_CALL OControl::getTypes() throw(RuntimeException, std::exception) { TypeBag aTypes( _getTypes() ); Reference< XTypeProvider > xProv; if ( query_aggregation( m_xAggregate, xProv ) ) aTypes.addTypes( xProv->getTypes() ); return aTypes.getTypes(); } Sequence OControl::_getTypes() { return TypeBag( OComponentHelper::getTypes(), OControl_BASE::getTypes() ).getTypes(); } void OControl::initFormControlPeer( const Reference< XWindowPeer >& /*_rxPeer*/ ) { // nothing to do here } // OComponentHelper void OControl::disposing() { OComponentHelper::disposing(); m_aWindowStateGuard.attach( NULL, NULL ); Reference< XComponent > xComp; if (query_aggregation(m_xAggregate, xComp)) xComp->dispose(); } // XServiceInfo sal_Bool SAL_CALL OControl::supportsService(const OUString& _rsServiceName) throw ( RuntimeException, std::exception) { return cppu::supportsService(this, _rsServiceName); } Sequence< OUString > OControl::getAggregateServiceNames() { Sequence< OUString > aAggServices; Reference< XServiceInfo > xInfo; if ( query_aggregation( m_xAggregate, xInfo ) ) aAggServices = xInfo->getSupportedServiceNames(); return aAggServices; } Sequence SAL_CALL OControl::getSupportedServiceNames() throw(RuntimeException, std::exception) { return ::comphelper::concatSequences( getAggregateServiceNames(), getSupportedServiceNames_Static() ); } Sequence< OUString > SAL_CALL OControl::getSupportedServiceNames_Static() throw( RuntimeException ) { // no own supported service names return Sequence< OUString >(); } // XEventListener void SAL_CALL OControl::disposing(const com::sun::star::lang::EventObject& _rEvent) throw (RuntimeException, std::exception) { Reference< XInterface > xAggAsIface; query_aggregation(m_xAggregate, xAggAsIface); // does the disposing come from the aggregate? if (xAggAsIface != Reference< XInterface >(_rEvent.Source, UNO_QUERY)) { // no -> forward it Reference xListener; if (query_aggregation(m_xAggregate, xListener)) xListener->disposing(_rEvent); } } // XControl void SAL_CALL OControl::setContext(const Reference< XInterface >& Context) throw (RuntimeException, std::exception) { if (m_xControl.is()) m_xControl->setContext(Context); } Reference< XInterface > SAL_CALL OControl::getContext() throw (RuntimeException, std::exception) { return m_xControl.is() ? m_xControl->getContext() : Reference< XInterface >(); } void OControl::impl_resetStateGuard_nothrow() { Reference< XWindow2 > xWindow; Reference< XControlModel > xModel; try { xWindow.set( getPeer(), UNO_QUERY ); xModel.set( getModel(), UNO_QUERY ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } m_aWindowStateGuard.attach( xWindow, xModel ); } void SAL_CALL OControl::createPeer(const Reference& _rxToolkit, const Reference& _rxParent) throw (RuntimeException, std::exception) { if ( m_xControl.is() ) { m_xControl->createPeer( _rxToolkit, _rxParent ); initFormControlPeer( getPeer() ); impl_resetStateGuard_nothrow(); } } Reference SAL_CALL OControl::getPeer() throw ( RuntimeException, std::exception) { return m_xControl.is() ? m_xControl->getPeer() : Reference(); } sal_Bool SAL_CALL OControl::setModel(const Reference& Model) throw ( RuntimeException, std::exception) { if ( !m_xControl.is() ) return sal_False; sal_Bool bSuccess = m_xControl->setModel( Model ); impl_resetStateGuard_nothrow(); return bSuccess; } Reference SAL_CALL OControl::getModel() throw ( RuntimeException, std::exception) { return m_xControl.is() ? m_xControl->getModel() : Reference(); } Reference SAL_CALL OControl::getView() throw ( RuntimeException, std::exception) { return m_xControl.is() ? m_xControl->getView() : Reference(); } void SAL_CALL OControl::setDesignMode(sal_Bool bOn) throw ( RuntimeException, std::exception) { if (m_xControl.is()) m_xControl->setDesignMode(bOn); } sal_Bool SAL_CALL OControl::isDesignMode() throw ( RuntimeException, std::exception) { return m_xControl.is() ? m_xControl->isDesignMode() : sal_True; } sal_Bool SAL_CALL OControl::isTransparent() throw ( RuntimeException, std::exception) { return m_xControl.is() ? m_xControl->isTransparent() : sal_True; } // OBoundControl OBoundControl::OBoundControl( const Reference< XComponentContext >& _rxContext, const OUString& _rAggregateService, const sal_Bool _bSetDelegator ) :OControl( _rxContext, _rAggregateService, _bSetDelegator ) ,m_bLocked(sal_False) ,m_aOriginalFont( EmptyFontDescriptor() ) ,m_nOriginalTextLineColor( 0 ) { } OBoundControl::~OBoundControl() { } Sequence< Type> OBoundControl::_getTypes() { return TypeBag( OControl::_getTypes(), OBoundControl_BASE::getTypes() ).getTypes(); } Any SAL_CALL OBoundControl::queryAggregation(const Type& _rType) throw(RuntimeException, std::exception) { Any aReturn; // XTypeProvider first - don't ask the OBoundControl_BASE, it would deliver incomplete types if ( _rType.equals( ::getCppuType( static_cast< Reference< XTypeProvider >* >( NULL ) ) ) ) aReturn = OControl::queryAggregation( _rType ); // ask our own interfaces // (do this first (except XTypeProvider ) - we want to "overwrite" XPropertiesChangeListener) if ( !aReturn.hasValue() ) aReturn = OBoundControl_BASE::queryInterface( _rType ); // ask the base class if ( !aReturn.hasValue() ) aReturn = OControl::queryAggregation( _rType ); return aReturn; } sal_Bool SAL_CALL OBoundControl::getLock() throw(RuntimeException, std::exception) { return m_bLocked; } void SAL_CALL OBoundControl::setLock(sal_Bool _bLock) throw(RuntimeException, std::exception) { if (m_bLocked == _bLock) return; osl::MutexGuard aGuard(m_aMutex); _setLock(_bLock); m_bLocked = _bLock; } void OBoundControl::_setLock(sal_Bool _bLock) { // try to set the text component to readonly Reference< XWindowPeer > xPeer = getPeer(); Reference< XTextComponent > xText( xPeer, UNO_QUERY ); if ( xText.is() ) xText->setEditable( !_bLock ); else { // disable the window Reference< XWindow > xComp( xPeer, UNO_QUERY ); if ( xComp.is() ) xComp->setEnable( !_bLock ); } } sal_Bool SAL_CALL OBoundControl::setModel( const Reference< XControlModel >& _rxModel ) throw (RuntimeException, std::exception) { return OControl::setModel( _rxModel ); } void SAL_CALL OBoundControl::disposing(const EventObject& Source) throw (RuntimeException, std::exception) { // just disambiguate OControl::disposing(Source); } void OBoundControl::disposing() { OControl::disposing(); } // OControlModel Sequence SAL_CALL OControlModel::getImplementationId() throw(RuntimeException, std::exception) { return css::uno::Sequence(); } Sequence SAL_CALL OControlModel::getTypes() throw(RuntimeException, std::exception) { TypeBag aTypes( _getTypes() ); Reference< XTypeProvider > xProv; if ( query_aggregation( m_xAggregate, xProv ) ) aTypes.addTypes( xProv->getTypes() ); return aTypes.getTypes(); } Sequence OControlModel::_getTypes() { return TypeBag( OComponentHelper::getTypes(), OPropertySetAggregationHelper::getTypes(), OControlModel_BASE::getTypes() ).getTypes(); } Any SAL_CALL OControlModel::queryAggregation(const Type& _rType) throw (RuntimeException, std::exception) { // base class 1 Any aReturn(OComponentHelper::queryAggregation(_rType)); // base class 2 if (!aReturn.hasValue()) { aReturn = OControlModel_BASE::queryInterface(_rType); // our own interfaces if (!aReturn.hasValue()) { aReturn = OPropertySetAggregationHelper::queryInterface(_rType); // our aggregate if (!aReturn.hasValue() && m_xAggregate.is() && !_rType.equals(::getCppuType(static_cast< Reference< XCloneable>* >(NULL)))) aReturn = m_xAggregate->queryAggregation(_rType); } } return aReturn; } void OControlModel::readHelpTextCompatibly(const staruno::Reference< stario::XObjectInputStream >& _rxInStream) { OUString sHelpText; ::comphelper::operator>>( _rxInStream, sHelpText); try { if (m_xAggregateSet.is()) m_xAggregateSet->setPropertyValue(PROPERTY_HELPTEXT, makeAny(sHelpText)); } catch(const Exception&) { SAL_WARN("forms.component", "OControlModel::readHelpTextCompatibly: could not forward the property value to the aggregate!"); DBG_UNHANDLED_EXCEPTION(); } } void OControlModel::writeHelpTextCompatibly(const staruno::Reference< stario::XObjectOutputStream >& _rxOutStream) { OUString sHelpText; try { if (m_xAggregateSet.is()) m_xAggregateSet->getPropertyValue(PROPERTY_HELPTEXT) >>= sHelpText; } catch(const Exception&) { SAL_WARN("forms.component", "OControlModel::writeHelpTextCompatibly: could not retrieve the property value from the aggregate!"); DBG_UNHANDLED_EXCEPTION(); } ::comphelper::operator<<( _rxOutStream, sHelpText); } OControlModel::OControlModel( const Reference& _rxContext, const OUString& _rUnoControlModelTypeName, const OUString& rDefault, const sal_Bool _bSetDelegator) :OComponentHelper(m_aMutex) ,OPropertySetAggregationHelper(OComponentHelper::rBHelper) ,m_xContext( _rxContext ) ,m_lockCount( 0 ) ,m_aPropertyBagHelper( *this ) ,m_nTabIndex(FRM_DEFAULT_TABINDEX) ,m_nClassId(FormComponentType::CONTROL) ,m_bNativeLook( sal_False ) ,m_bGenerateVbEvents( sal_False ) ,m_nControlTypeinMSO(0) // 0 : default value is create from AOO ,m_nObjIDinMSO(INVALID_OBJ_ID_IN_MSO) // form controls are usually embedded into documents, not dialogs, and in documents // the native look is ugly... // #i37342# { if (!_rUnoControlModelTypeName.isEmpty()) // the is a model we have to aggregate { increment(m_refCount); { m_xAggregate = Reference(m_xContext->getServiceManager()->createInstanceWithContext(_rUnoControlModelTypeName, m_xContext), UNO_QUERY); setAggregation(m_xAggregate); if ( m_xAggregateSet.is() ) { try { if ( !rDefault.isEmpty() ) m_xAggregateSet->setPropertyValue( PROPERTY_DEFAULTCONTROL, makeAny( rDefault ) ); } catch( const Exception& ) { SAL_WARN("forms.component", "OControlModel::OControlModel: caught an exception!"); DBG_UNHANDLED_EXCEPTION(); } } } if (_bSetDelegator) doSetDelegator(); // Refcount is at NULL again decrement(m_refCount); } } OControlModel::OControlModel( const OControlModel* _pOriginal, const Reference< XComponentContext>& _rxFactory, const sal_Bool _bCloneAggregate, const sal_Bool _bSetDelegator ) :OComponentHelper( m_aMutex ) ,OPropertySetAggregationHelper( OComponentHelper::rBHelper ) ,m_xContext( _rxFactory ) ,m_lockCount( 0 ) ,m_aPropertyBagHelper( *this ) ,m_nTabIndex( FRM_DEFAULT_TABINDEX ) ,m_nClassId( FormComponentType::CONTROL ) { DBG_ASSERT( _pOriginal, "OControlModel::OControlModel: invalid original!" ); // copy members m_aName = _pOriginal->m_aName; m_aTag = _pOriginal->m_aTag; m_nTabIndex = _pOriginal->m_nTabIndex; m_nClassId = _pOriginal->m_nClassId; m_bNativeLook = _pOriginal->m_bNativeLook; m_bGenerateVbEvents = _pOriginal->m_bGenerateVbEvents; m_nControlTypeinMSO = _pOriginal->m_nControlTypeinMSO; m_nObjIDinMSO = _pOriginal->m_nObjIDinMSO; if ( _bCloneAggregate ) { // temporarily increment refcount because of temporary references to ourself in the following increment( m_refCount ); { // transfer the (only, at the very moment!) ref count m_xAggregate = createAggregateClone( _pOriginal ); // set aggregation (retrieve other direct interfaces of the aggregate) setAggregation( m_xAggregate ); } // set the delegator, if allowed by our derived class if ( _bSetDelegator ) doSetDelegator(); // decrement ref count decrement( m_refCount ); } } OControlModel::~OControlModel() { // release the aggregate doResetDelegator( ); } void OControlModel::clonedFrom( const OControlModel* /*_pOriginal*/ ) { // nothing to do in this base class } void OControlModel::doResetDelegator() { if (m_xAggregate.is()) m_xAggregate->setDelegator(NULL); } void OControlModel::doSetDelegator() { increment(m_refCount); if (m_xAggregate.is()) { m_xAggregate->setDelegator(static_cast(this)); } decrement(m_refCount); } // XChild Reference< XInterface > SAL_CALL OControlModel::getParent() throw(RuntimeException, std::exception) { return m_xParent; } void SAL_CALL OControlModel::setParent(const Reference< XInterface >& _rxParent) throw(com::sun::star::lang::NoSupportException, RuntimeException, std::exception) { osl::MutexGuard aGuard(m_aMutex); Reference xComp(m_xParent, UNO_QUERY); if (xComp.is()) xComp->removeEventListener(static_cast(this)); m_xParent = _rxParent; xComp = xComp.query( m_xParent ); if ( xComp.is() ) xComp->addEventListener(static_cast(this)); } // XNamed OUString SAL_CALL OControlModel::getName() throw(RuntimeException, std::exception) { OUString aReturn; OPropertySetHelper::getFastPropertyValue(PROPERTY_ID_NAME) >>= aReturn; return aReturn; } void SAL_CALL OControlModel::setName(const OUString& _rName) throw(RuntimeException, std::exception) { setFastPropertyValue(PROPERTY_ID_NAME, makeAny(_rName)); } // XServiceInfo sal_Bool SAL_CALL OControlModel::supportsService(const OUString& _rServiceName) throw ( RuntimeException, std::exception) { return cppu::supportsService(this, _rServiceName); } Sequence< OUString > OControlModel::getAggregateServiceNames() { Sequence< OUString > aAggServices; Reference< XServiceInfo > xInfo; if ( query_aggregation( m_xAggregate, xInfo ) ) aAggServices = xInfo->getSupportedServiceNames(); return aAggServices; } Sequence SAL_CALL OControlModel::getSupportedServiceNames() throw(RuntimeException, std::exception) { return ::comphelper::concatSequences( getAggregateServiceNames(), getSupportedServiceNames_Static() ); } Sequence< OUString > SAL_CALL OControlModel::getSupportedServiceNames_Static() throw( RuntimeException ) { Sequence< OUString > aServiceNames( 2 ); aServiceNames[ 0 ] = FRM_SUN_FORMCOMPONENT; aServiceNames[ 1 ] = "com.sun.star.form.FormControlModel"; return aServiceNames; } // XEventListener void SAL_CALL OControlModel::disposing(const com::sun::star::lang::EventObject& _rSource) throw (RuntimeException, std::exception) { // release the parent if (_rSource.Source == m_xParent) { osl::MutexGuard aGuard(m_aMutex); m_xParent = NULL; } else { Reference xEvtLst; if (query_aggregation(m_xAggregate, xEvtLst)) { osl::MutexGuard aGuard(m_aMutex); xEvtLst->disposing(_rSource); } } } // OComponentHelper void OControlModel::disposing() { OPropertySetAggregationHelper::disposing(); Reference xComp; if (query_aggregation(m_xAggregate, xComp)) xComp->dispose(); setParent(Reference()); m_aPropertyBagHelper.dispose(); } void OControlModel::writeAggregate( const Reference< XObjectOutputStream >& _rxOutStream ) const { Reference< XPersistObject > xPersist; if ( query_aggregation( m_xAggregate, xPersist ) ) xPersist->write( _rxOutStream ); } void OControlModel::readAggregate( const Reference< XObjectInputStream >& _rxInStream ) { Reference< XPersistObject > xPersist; if ( query_aggregation( m_xAggregate, xPersist ) ) xPersist->read( _rxInStream ); } void SAL_CALL OControlModel::write(const Reference& _rxOutStream) throw(stario::IOException, RuntimeException, std::exception) { osl::MutexGuard aGuard(m_aMutex); // 1. writing the UnoControls Reference xMark(_rxOutStream, UNO_QUERY); if ( !xMark.is() ) { throw IOException( FRM_RES_STRING( RID_STR_INVALIDSTREAM ), static_cast< ::cppu::OWeakObject* >( this ) ); } sal_Int32 nMark = xMark->createMark(); sal_Int32 nLen = 0; _rxOutStream->writeLong(nLen); writeAggregate( _rxOutStream ); // determining the length nLen = xMark->offsetToMark(nMark) - 4; xMark->jumpToMark(nMark); _rxOutStream->writeLong(nLen); xMark->jumpToFurthest(); xMark->deleteMark(nMark); // 2. wrting a version number _rxOutStream->writeShort(0x0003); // 3. Schreiben der allgemeinen Properties ::comphelper::operator<<( _rxOutStream, m_aName); _rxOutStream->writeShort(m_nTabIndex); ::comphelper::operator<<( _rxOutStream, m_aTag); // 3. version // IMPORTANT NOTE! // don't write any new members here : this wouldn't be compatible with older versions, as OControlModel // is a base class which is called in derived classes "read" method. So if you increment the version // and write new stuff, older office versions will read this in the _derived_ classes, which may result // in anything from data loss to crash. // EOIN! } void OControlModel::read(const Reference& InStream) throw (::com::sun::star::io::IOException, RuntimeException, std::exception) { osl::MutexGuard aGuard(m_aMutex); Reference xMark(InStream, UNO_QUERY); if ( !xMark.is() ) { throw IOException( FRM_RES_STRING( RID_STR_INVALIDSTREAM ), static_cast< ::cppu::OWeakObject* >( this ) ); } // 1. reading the UnoControls sal_Int32 nLen = InStream->readLong(); if (nLen) { sal_Int32 nMark = xMark->createMark(); try { readAggregate( InStream ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } xMark->jumpToMark(nMark); InStream->skipBytes(nLen); xMark->deleteMark(nMark); } // 2. reading the version number sal_uInt16 nVersion = InStream->readShort(); // 3. reading the general properties ::comphelper::operator>>( InStream, m_aName); m_nTabIndex = InStream->readShort(); if (nVersion > 0x0002) ::comphelper::operator>>( InStream, m_aTag); // we had a version where we wrote the help text if (nVersion == 0x0004) readHelpTextCompatibly(InStream); DBG_ASSERT(nVersion < 5, "OControlModel::read : suspicious version number !"); // 4 was the version where we wrote the help text // later versions shouldn't exist (see write for a detailed comment) } PropertyState OControlModel::getPropertyStateByHandle( sal_Int32 _nHandle ) { // simply compare the current and the default value Any aCurrentValue = getPropertyDefaultByHandle( _nHandle ); Any aDefaultValue; getFastPropertyValue( aDefaultValue, _nHandle ); sal_Bool bEqual = uno_type_equalData( const_cast< void* >( aCurrentValue.getValue() ), aCurrentValue.getValueType().getTypeLibType(), const_cast< void* >( aDefaultValue.getValue() ), aDefaultValue.getValueType().getTypeLibType(), reinterpret_cast< uno_QueryInterfaceFunc >(cpp_queryInterface), reinterpret_cast< uno_ReleaseFunc >(cpp_release) ); return bEqual ? PropertyState_DEFAULT_VALUE : PropertyState_DIRECT_VALUE; } void OControlModel::setPropertyToDefaultByHandle( sal_Int32 _nHandle) { Any aDefault = getPropertyDefaultByHandle( _nHandle ); Any aConvertedValue, aOldValue; if ( convertFastPropertyValue( aConvertedValue, aOldValue, _nHandle, aDefault ) ) { setFastPropertyValue_NoBroadcast( _nHandle, aConvertedValue ); // TODO: fire the property change } } Any OControlModel::getPropertyDefaultByHandle( sal_Int32 _nHandle ) const { Any aReturn; switch ( _nHandle ) { case PROPERTY_ID_NAME: case PROPERTY_ID_TAG: aReturn <<= OUString(); break; case PROPERTY_ID_CLASSID: aReturn <<= (sal_Int16)FormComponentType::CONTROL; break; case PROPERTY_ID_TABINDEX: aReturn <<= (sal_Int16)FRM_DEFAULT_TABINDEX; break; case PROPERTY_ID_NATIVE_LOOK: aReturn <<= (sal_Bool)sal_True; break; case PROPERTY_ID_GENERATEVBAEVENTS: aReturn <<= (sal_Bool)sal_False; break; // added for exporting OCX control case PROPERTY_ID_CONTROL_TYPE_IN_MSO: aReturn <<= (sal_Int16)0; break; case PROPERTY_ID_OBJ_ID_IN_MSO: aReturn <<= (sal_uInt16)INVALID_OBJ_ID_IN_MSO; break; default: if ( m_aPropertyBagHelper.hasDynamicPropertyByHandle( _nHandle ) ) m_aPropertyBagHelper.getDynamicPropertyDefaultByHandle( _nHandle, aReturn ); else SAL_WARN("forms.component", "OControlModel::convertFastPropertyValue: unknown handle " << _nHandle); } return aReturn; } void OControlModel::getFastPropertyValue( Any& _rValue, sal_Int32 _nHandle ) const { switch ( _nHandle ) { case PROPERTY_ID_NAME: _rValue <<= m_aName; break; case PROPERTY_ID_TAG: _rValue <<= m_aTag; break; case PROPERTY_ID_CLASSID: _rValue <<= m_nClassId; break; case PROPERTY_ID_TABINDEX: _rValue <<= m_nTabIndex; break; case PROPERTY_ID_NATIVE_LOOK: _rValue <<= (sal_Bool)m_bNativeLook; break; case PROPERTY_ID_GENERATEVBAEVENTS: _rValue <<= (sal_Bool)m_bGenerateVbEvents; // added for exporting OCX control case PROPERTY_ID_CONTROL_TYPE_IN_MSO: _rValue <<= (sal_Int16)m_nControlTypeinMSO; break; case PROPERTY_ID_OBJ_ID_IN_MSO: _rValue <<= (sal_uInt16)m_nObjIDinMSO; break; default: if ( m_aPropertyBagHelper.hasDynamicPropertyByHandle( _nHandle ) ) m_aPropertyBagHelper.getDynamicFastPropertyValue( _nHandle, _rValue ); else OPropertySetAggregationHelper::getFastPropertyValue( _rValue, _nHandle ); break; } } sal_Bool OControlModel::convertFastPropertyValue( Any& _rConvertedValue, Any& _rOldValue, sal_Int32 _nHandle, const Any& _rValue) throw (com::sun::star::lang::IllegalArgumentException) { sal_Bool bModified(sal_False); switch (_nHandle) { case PROPERTY_ID_NAME: bModified = tryPropertyValue(_rConvertedValue, _rOldValue, _rValue, m_aName); break; case PROPERTY_ID_TAG: bModified = tryPropertyValue(_rConvertedValue, _rOldValue, _rValue, m_aTag); break; case PROPERTY_ID_TABINDEX: bModified = tryPropertyValue(_rConvertedValue, _rOldValue, _rValue, m_nTabIndex); break; case PROPERTY_ID_NATIVE_LOOK: bModified = tryPropertyValue(_rConvertedValue, _rOldValue, _rValue, m_bNativeLook); break; case PROPERTY_ID_GENERATEVBAEVENTS: bModified = tryPropertyValue(_rConvertedValue, _rOldValue, _rValue, m_bGenerateVbEvents); break; // added for exporting OCX control case PROPERTY_ID_CONTROL_TYPE_IN_MSO: bModified = tryPropertyValue(_rConvertedValue, _rOldValue, _rValue, m_nControlTypeinMSO); break; case PROPERTY_ID_OBJ_ID_IN_MSO: bModified = tryPropertyValue(_rConvertedValue, _rOldValue, _rValue, m_nObjIDinMSO); break; default: if ( m_aPropertyBagHelper.hasDynamicPropertyByHandle( _nHandle ) ) bModified = m_aPropertyBagHelper.convertDynamicFastPropertyValue( _nHandle, _rValue, _rConvertedValue, _rOldValue ); else SAL_WARN("forms.component", "OControlModel::convertFastPropertyValue: unknown handle " << _nHandle); break; } return bModified; } void OControlModel::setFastPropertyValue_NoBroadcast(sal_Int32 _nHandle, const Any& _rValue) throw (Exception, std::exception) { switch (_nHandle) { case PROPERTY_ID_NAME: DBG_ASSERT(_rValue.getValueType() == getCppuType((const OUString*)NULL), "OControlModel::setFastPropertyValue_NoBroadcast : invalid type" ); _rValue >>= m_aName; break; case PROPERTY_ID_TAG: DBG_ASSERT(_rValue.getValueType() == getCppuType((const OUString*)NULL), "OControlModel::setFastPropertyValue_NoBroadcast : invalid type" ); _rValue >>= m_aTag; break; case PROPERTY_ID_TABINDEX: DBG_ASSERT(_rValue.getValueType() == getCppuType((const sal_Int16*)NULL), "OControlModel::setFastPropertyValue_NoBroadcast : invalid type" ); _rValue >>= m_nTabIndex; break; case PROPERTY_ID_NATIVE_LOOK: OSL_VERIFY( _rValue >>= m_bNativeLook ); break; case PROPERTY_ID_GENERATEVBAEVENTS: OSL_VERIFY( _rValue >>= m_bGenerateVbEvents ); break; // added for exporting OCX control case PROPERTY_ID_CONTROL_TYPE_IN_MSO: OSL_VERIFY( _rValue >>= m_nControlTypeinMSO ); break; case PROPERTY_ID_OBJ_ID_IN_MSO: OSL_VERIFY( _rValue >>= m_nObjIDinMSO ); break; default: if ( m_aPropertyBagHelper.hasDynamicPropertyByHandle( _nHandle ) ) m_aPropertyBagHelper.setDynamicFastPropertyValue( _nHandle, _rValue ); else SAL_WARN("forms.component", "OControlModel::setFastPropertyValue_NoBroadcast: unknown handle " << _nHandle ); break; } } void OControlModel::describeFixedProperties( Sequence< Property >& _rProps ) const { BEGIN_DESCRIBE_BASE_PROPERTIES( 7 ) DECL_PROP2 (CLASSID, sal_Int16, READONLY, TRANSIENT); DECL_PROP1 (NAME, OUString, BOUND); DECL_BOOL_PROP2 (NATIVE_LOOK, BOUND, TRANSIENT); DECL_PROP1 (TAG, OUString, BOUND); DECL_PROP1 (GENERATEVBAEVENTS, sal_Bool, TRANSIENT); DECL_PROP1 (CONTROL_TYPE_IN_MSO,sal_Int16, BOUND); DECL_PROP1 (OBJ_ID_IN_MSO,sal_uInt16, BOUND); END_DESCRIBE_PROPERTIES() } void OControlModel::describeAggregateProperties( Sequence< Property >& /* [out] */ _rAggregateProps ) const { if ( m_xAggregateSet.is() ) { Reference< XPropertySetInfo > xPSI( m_xAggregateSet->getPropertySetInfo() ); if ( xPSI.is() ) _rAggregateProps = xPSI->getProperties(); } } ::osl::Mutex& OControlModel::getMutex() { return m_aMutex; } void OControlModel::describeFixedAndAggregateProperties( Sequence< Property >& _out_rFixedProperties, Sequence< Property >& _out_rAggregateProperties ) const { describeFixedProperties( _out_rFixedProperties ); describeAggregateProperties( _out_rAggregateProperties ); } Reference< XMultiPropertySet > OControlModel::getPropertiesInterface() { return Reference< XMultiPropertySet >( *this, UNO_QUERY ); } Reference< XPropertySetInfo> SAL_CALL OControlModel::getPropertySetInfo() throw( RuntimeException, std::exception) { return createPropertySetInfo( getInfoHelper() ); } ::cppu::IPropertyArrayHelper& OControlModel::getInfoHelper() { return m_aPropertyBagHelper.getInfoHelper(); } void SAL_CALL OControlModel::addProperty( const OUString& _rName, ::sal_Int16 _nAttributes, const Any& _rInitialValue ) throw (PropertyExistException, IllegalTypeException, IllegalArgumentException, RuntimeException, std::exception) { m_aPropertyBagHelper.addProperty( _rName, _nAttributes, _rInitialValue ); } void SAL_CALL OControlModel::removeProperty( const OUString& _rName ) throw (UnknownPropertyException, NotRemoveableException, RuntimeException, std::exception) { m_aPropertyBagHelper.removeProperty( _rName ); } Sequence< PropertyValue > SAL_CALL OControlModel::getPropertyValues() throw (RuntimeException, std::exception) { return m_aPropertyBagHelper.getPropertyValues(); } void SAL_CALL OControlModel::setPropertyValues( const Sequence< PropertyValue >& _rProps ) throw (UnknownPropertyException, PropertyVetoException, IllegalArgumentException, WrappedTargetException, RuntimeException, std::exception) { m_aPropertyBagHelper.setPropertyValues( _rProps ); } void OControlModel::lockInstance( LockAccess ) { m_aMutex.acquire(); osl_atomic_increment( &m_lockCount ); } oslInterlockedCount OControlModel::unlockInstance( LockAccess ) { OSL_ENSURE( m_lockCount > 0, "OControlModel::unlockInstance: not locked!" ); oslInterlockedCount lockCount = osl_atomic_decrement( &m_lockCount ); m_aMutex.release(); return lockCount; } void OControlModel::firePropertyChanges( const Sequence< sal_Int32 >& _rHandles, const Sequence< Any >& _rOldValues, const Sequence< Any >& _rNewValues, LockAccess ) { OPropertySetHelper::fire( const_cast< Sequence< sal_Int32 >& >( _rHandles ).getArray(), _rNewValues.getConstArray(), _rOldValues.getConstArray(), _rHandles.getLength(), sal_False ); } // OBoundControlModel Any SAL_CALL OBoundControlModel::queryAggregation( const Type& _rType ) throw (RuntimeException, std::exception) { Any aReturn( OControlModel::queryAggregation(_rType) ); if (!aReturn.hasValue()) { aReturn = OBoundControlModel_BASE1::queryInterface(_rType); if ( !aReturn.hasValue() && m_bCommitable ) aReturn = OBoundControlModel_COMMITTING::queryInterface( _rType ); if ( !aReturn.hasValue() && m_bSupportsExternalBinding ) aReturn = OBoundControlModel_BINDING::queryInterface( _rType ); if ( !aReturn.hasValue() && m_bSupportsValidation ) aReturn = OBoundControlModel_VALIDATION::queryInterface( _rType ); } return aReturn; } OBoundControlModel::OBoundControlModel( const Reference< XComponentContext>& _rxFactory, const OUString& _rUnoControlModelTypeName, const OUString& _rDefault, const sal_Bool _bCommitable, const sal_Bool _bSupportExternalBinding, const sal_Bool _bSupportsValidation ) :OControlModel( _rxFactory, _rUnoControlModelTypeName, _rDefault, sal_False ) ,OPropertyChangeListener( m_aMutex ) ,m_xField() ,m_xAmbientForm() ,m_nValuePropertyAggregateHandle( -1 ) ,m_nFieldType( DataType::OTHER ) ,m_bValuePropertyMayBeVoid( false ) ,m_aResetHelper( *this, m_aMutex ) ,m_aUpdateListeners(m_aMutex) ,m_aFormComponentListeners( m_aMutex ) ,m_bInputRequired( sal_True ) ,m_pAggPropMultiplexer( NULL ) ,m_bFormListening( false ) ,m_bLoaded(sal_False) ,m_bRequired(sal_False) ,m_bCommitable(_bCommitable) ,m_bSupportsExternalBinding( _bSupportExternalBinding ) ,m_bSupportsValidation( _bSupportsValidation ) ,m_bForwardValueChanges(sal_True) ,m_bTransferingValue( sal_False ) ,m_bIsCurrentValueValid( sal_True ) ,m_bBindingControlsRO( sal_False ) ,m_bBindingControlsEnable( sal_False ) ,m_eControlValueChangeInstigator( eOther ) ,m_aLabelServiceName(FRM_SUN_COMPONENT_FIXEDTEXT) { // start property listening at the aggregate implInitAggMultiplexer( ); } OBoundControlModel::OBoundControlModel( const OBoundControlModel* _pOriginal, const Reference< XComponentContext>& _rxFactory ) :OControlModel( _pOriginal, _rxFactory, sal_True, sal_False ) ,OPropertyChangeListener( m_aMutex ) ,m_xField() ,m_xAmbientForm() ,m_nValuePropertyAggregateHandle( _pOriginal->m_nValuePropertyAggregateHandle ) ,m_nFieldType( DataType::OTHER ) ,m_bValuePropertyMayBeVoid( _pOriginal->m_bValuePropertyMayBeVoid ) ,m_aResetHelper( *this, m_aMutex ) ,m_aUpdateListeners( m_aMutex ) ,m_aFormComponentListeners( m_aMutex ) ,m_xValidator( _pOriginal->m_xValidator ) ,m_bInputRequired( sal_True ) ,m_pAggPropMultiplexer( NULL ) ,m_bFormListening( false ) ,m_bLoaded( sal_False ) ,m_bRequired( sal_False ) ,m_bCommitable( _pOriginal->m_bCommitable ) ,m_bSupportsExternalBinding( _pOriginal->m_bSupportsExternalBinding ) ,m_bSupportsValidation( _pOriginal->m_bSupportsValidation ) ,m_bForwardValueChanges( sal_True ) ,m_bTransferingValue( sal_False ) ,m_bIsCurrentValueValid( _pOriginal->m_bIsCurrentValueValid ) ,m_bBindingControlsRO( sal_False ) ,m_bBindingControlsEnable( sal_False ) ,m_eControlValueChangeInstigator( eOther ) { // start property listening at the aggregate implInitAggMultiplexer( ); m_aLabelServiceName = _pOriginal->m_aLabelServiceName; m_sValuePropertyName = _pOriginal->m_sValuePropertyName; m_nValuePropertyAggregateHandle = _pOriginal->m_nValuePropertyAggregateHandle; m_bValuePropertyMayBeVoid = _pOriginal->m_bValuePropertyMayBeVoid; m_aValuePropertyType = _pOriginal->m_aValuePropertyType; m_aControlSource = _pOriginal->m_aControlSource; m_bInputRequired = _pOriginal->m_bInputRequired; // m_xLabelControl, though being a property, is not to be cloned, not even the reference will be transferred. // (the former should be clear - a clone of the object we're only referencing does not make sense) // (the second would violate the restriction for label controls that they're part of the // same form component hierarchy - we ourself are no part, yet, so we can't have a label control) // start listening for changes at the value property implInitValuePropertyListening( ); } OBoundControlModel::~OBoundControlModel() { if ( !OComponentHelper::rBHelper.bDisposed ) { acquire(); dispose(); } doResetDelegator( ); OSL_ENSURE( m_pAggPropMultiplexer, "OBoundControlModel::~OBoundControlModel: what about my property multiplexer?" ); if ( m_pAggPropMultiplexer ) { m_pAggPropMultiplexer->dispose(); m_pAggPropMultiplexer->release(); m_pAggPropMultiplexer = NULL; } } void OBoundControlModel::clonedFrom( const OControlModel* _pOriginal ) { const OBoundControlModel* pBoundOriginal = static_cast< const OBoundControlModel* >( _pOriginal ); // the value binding can be handled as if somebody called setValueBinding here // By definition, bindings can be share between bindables if ( pBoundOriginal && pBoundOriginal->m_xExternalBinding.is() ) { try { setValueBinding( pBoundOriginal->m_xExternalBinding ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } } } void OBoundControlModel::implInitAggMultiplexer( ) { increment( m_refCount ); if ( m_xAggregateSet.is() ) { m_pAggPropMultiplexer = new OPropertyChangeMultiplexer( this, m_xAggregateSet, false ); m_pAggPropMultiplexer->acquire(); } decrement( m_refCount ); doSetDelegator(); } void OBoundControlModel::implInitValuePropertyListening( ) const { // start listening for changes at the value property // There are three pre-requisites for this to be done: // 1. We support external value bindings. In this case, the changes in the control value need to // be propagated to the external binding immediately when they happen // 2. We support external validation. In this case, we need to listen for changes in the value // property, since we need to revalidate then. // 3. We are not committable. In this case, changes in the control value need to be propagated // to the database column immediately when they happen. if ( m_bSupportsExternalBinding || m_bSupportsValidation || !m_bCommitable ) { OSL_ENSURE( m_pAggPropMultiplexer, "OBoundControlModel::implInitValuePropertyListening: no multiplexer!" ); if ( m_pAggPropMultiplexer && !m_sValuePropertyName.isEmpty() ) m_pAggPropMultiplexer->addProperty( m_sValuePropertyName ); } } void OBoundControlModel::initOwnValueProperty( const OUString& i_rValuePropertyName ) { OSL_PRECOND( m_sValuePropertyName.isEmpty() && -1 == m_nValuePropertyAggregateHandle, "OBoundControlModel::initOwnValueProperty: value property is already initialized!" ); OSL_ENSURE( !i_rValuePropertyName.isEmpty(), "OBoundControlModel::initOwnValueProperty: invalid property name!" ); m_sValuePropertyName = i_rValuePropertyName; } void OBoundControlModel::initValueProperty( const OUString& _rValuePropertyName, sal_Int32 _nValuePropertyExternalHandle ) { OSL_PRECOND( m_sValuePropertyName.isEmpty() && -1 == m_nValuePropertyAggregateHandle, "OBoundControlModel::initValueProperty: value property is already initialized!" ); OSL_ENSURE( !_rValuePropertyName.isEmpty(), "OBoundControlModel::initValueProperty: invalid property name!" ); OSL_ENSURE( _nValuePropertyExternalHandle != -1, "OBoundControlModel::initValueProperty: invalid property handle!" ); m_sValuePropertyName = _rValuePropertyName; m_nValuePropertyAggregateHandle = getOriginalHandle( _nValuePropertyExternalHandle ); OSL_ENSURE( m_nValuePropertyAggregateHandle != -1, "OBoundControlModel::initValueProperty: unable to find the original handle!" ); if ( m_nValuePropertyAggregateHandle != -1 ) { Reference< XPropertySetInfo > xPropInfo( m_xAggregateSet->getPropertySetInfo(), UNO_SET_THROW ); Property aValuePropDesc = xPropInfo->getPropertyByName( m_sValuePropertyName ); m_aValuePropertyType = aValuePropDesc.Type; m_bValuePropertyMayBeVoid = ( aValuePropDesc.Attributes & PropertyAttribute::MAYBEVOID ) != 0; } // start listening for changes at the value property implInitValuePropertyListening( ); } void OBoundControlModel::suspendValueListening( ) { OSL_PRECOND( !m_sValuePropertyName.isEmpty(), "OBoundControlModel::suspendValueListening: don't have a value property!" ); OSL_PRECOND( m_pAggPropMultiplexer, "OBoundControlModel::suspendValueListening: I *am* not listening!" ); if ( m_pAggPropMultiplexer ) m_pAggPropMultiplexer->lock(); } void OBoundControlModel::resumeValueListening( ) { OSL_PRECOND( !m_sValuePropertyName.isEmpty(), "OBoundControlModel::resumeValueListening: don't have a value property!" ); OSL_PRECOND( m_pAggPropMultiplexer, "OBoundControlModel::resumeValueListening: I *am* not listening at all!" ); OSL_PRECOND( !m_pAggPropMultiplexer || m_pAggPropMultiplexer->locked(), "OBoundControlModel::resumeValueListening: listening not suspended currently!" ); if ( m_pAggPropMultiplexer ) m_pAggPropMultiplexer->unlock(); } Sequence< Type > OBoundControlModel::_getTypes() { TypeBag aTypes( OControlModel::_getTypes(), OBoundControlModel_BASE1::getTypes() ); if ( m_bCommitable ) aTypes.addTypes( OBoundControlModel_COMMITTING::getTypes() ); if ( m_bSupportsExternalBinding ) aTypes.addTypes( OBoundControlModel_BINDING::getTypes() ); if ( m_bSupportsValidation ) aTypes.addTypes( OBoundControlModel_VALIDATION::getTypes() ); return aTypes.getTypes(); } // OComponentHelper void OBoundControlModel::disposing() { OControlModel::disposing(); ::osl::ClearableMutexGuard aGuard(m_aMutex); if ( m_pAggPropMultiplexer ) m_pAggPropMultiplexer->dispose(); // notify all our listeners com::sun::star::lang::EventObject aEvt( static_cast< XWeak* >( this ) ); m_aUpdateListeners.disposeAndClear( aEvt ); m_aResetHelper.disposing(); // disconnect from our database column // TODO: could we replace the following 5 lines with a call to impl_disconnectDatabaseColumn_noNotify? // The only more thing which it does is calling onDisconnectedDbColumn - could this // cause trouble? At least when we continue to call OControlModel::disposing before, it *may*. if ( hasField() ) { getField()->removePropertyChangeListener( PROPERTY_VALUE, this ); resetField(); } m_xCursor = NULL; Reference< XComponent > xComp( m_xLabelControl, UNO_QUERY ); if ( xComp.is() ) xComp->removeEventListener(static_cast< XEventListener* >( static_cast< XPropertyChangeListener* >( this ) ) ); // disconnect from our external value binding if ( hasExternalValueBinding() ) disconnectExternalValueBinding(); // dito for the validator if ( hasValidator() ) disconnectValidator( ); } void OBoundControlModel::onValuePropertyChange( ControlModelLock& i_rControLock ) { if ( hasExternalValueBinding() ) { // the control value changed, while we have an external value binding // -> forward the value to it if ( m_eControlValueChangeInstigator != eExternalBinding ) transferControlValueToExternal( i_rControLock ); } else if ( !m_bCommitable && m_xColumnUpdate.is() ) { // the control value changed, while we are bound to a database column, // but not committable (which means changes in the control have to be reflected to // the underlying database column immediately) // -> forward the value to the database column if ( m_eControlValueChangeInstigator != eDbColumnBinding ) commitControlValueToDbColumn( false ); } // validate the new value if ( m_bSupportsValidation ) recheckValidity( true ); } void OBoundControlModel::_propertyChanged( const PropertyChangeEvent& _rEvt ) throw ( RuntimeException ) { ControlModelLock aLock( *this ); OSL_ENSURE( _rEvt.PropertyName == m_sValuePropertyName, "OBoundControlModel::_propertyChanged: where did this come from (1)?" ); OSL_ENSURE( m_pAggPropMultiplexer && !m_pAggPropMultiplexer->locked(), "OBoundControlModel::_propertyChanged: where did this come from (2)?" ); if ( _rEvt.PropertyName == m_sValuePropertyName ) { onValuePropertyChange( aLock ); } } void OBoundControlModel::startAggregatePropertyListening( const OUString& _rPropertyName ) { OSL_PRECOND( m_pAggPropMultiplexer, "OBoundControlModel::startAggregatePropertyListening: no multiplexer!" ); OSL_ENSURE( !_rPropertyName.isEmpty(), "OBoundControlModel::startAggregatePropertyListening: invalid property name!" ); if ( m_pAggPropMultiplexer && !_rPropertyName.isEmpty() ) { m_pAggPropMultiplexer->addProperty( _rPropertyName ); } } void OBoundControlModel::doFormListening( const bool _bStart ) { OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::doFormListening: external value binding should overrule the database binding!" ); if ( isFormListening() == _bStart ) return; if ( m_xAmbientForm.is() ) _bStart ? m_xAmbientForm->addLoadListener( this ) : m_xAmbientForm->removeLoadListener( this ); Reference< XLoadable > xParentLoadable( getParent(), UNO_QUERY ); if ( getParent().is() && !xParentLoadable.is() ) { // if our parent does not directly support the XLoadable interface, then it might support the // XRowSetSupplier/XRowSetChangeBroadcaster interfaces. In this case we have to listen for changes // broadcasted by the latter. Reference< XRowSetChangeBroadcaster > xRowSetBroadcaster( getParent(), UNO_QUERY ); if ( xRowSetBroadcaster.is() ) _bStart ? xRowSetBroadcaster->addRowSetChangeListener( this ) : xRowSetBroadcaster->removeRowSetChangeListener( this ); } m_bFormListening = _bStart && m_xAmbientForm.is(); } // XChild void SAL_CALL OBoundControlModel::setParent(const Reference& _rxParent) throw(com::sun::star::lang::NoSupportException, RuntimeException, std::exception) { ControlModelLock aLock( *this ); FieldChangeNotifier aBoundFieldNotifier( aLock ); if ( getParent() == _rxParent ) return; // disconnect from database column (which is controlled by parent, directly or indirectly) if ( hasField() ) impl_disconnectDatabaseColumn_noNotify(); // log off old listeners if ( isFormListening() ) doFormListening( false ); // actually set the new parent OControlModel::setParent( _rxParent ); // a new parent means a new ambient form impl_determineAmbientForm_nothrow(); if ( !hasExternalValueBinding() ) { // log on new listeners doFormListening( true ); // re-connect to database column of the new parent if ( m_xAmbientForm.is() && m_xAmbientForm->isLoaded() ) impl_connectDatabaseColumn_noNotify( false ); } } // XEventListener void SAL_CALL OBoundControlModel::disposing(const com::sun::star::lang::EventObject& _rEvent) throw (RuntimeException, std::exception) { ControlModelLock aLock( *this ); if ( _rEvent.Source == getField() ) { resetField(); } else if ( _rEvent.Source == m_xLabelControl ) { Reference xOldValue = m_xLabelControl; m_xLabelControl = NULL; // fire a propertyChanged (when we leave aLock's scope) aLock.addPropertyNotification( PROPERTY_ID_CONTROLLABEL, makeAny( xOldValue ), makeAny( m_xLabelControl ) ); } else if ( _rEvent.Source == m_xExternalBinding ) { // *first* check for the external binding disconnectExternalValueBinding( ); } else if ( _rEvent.Source == m_xValidator ) { // *then* check for the validator. Reason is that bindings may also act as validator at the same // time, in this case, the validator is automatically revoked when the binding is revoked disconnectValidator( ); } else OControlModel::disposing(_rEvent); } // XServiceInfo StringSequence SAL_CALL OBoundControlModel::getSupportedServiceNames() throw(RuntimeException, std::exception) { return ::comphelper::concatSequences( getAggregateServiceNames(), getSupportedServiceNames_Static() ); } Sequence< OUString > SAL_CALL OBoundControlModel::getSupportedServiceNames_Static() throw( RuntimeException ) { Sequence< OUString > aOwnServiceNames( 1 ); aOwnServiceNames[ 0 ] = "com.sun.star.form.DataAwareControlModel"; return ::comphelper::concatSequences( OControlModel::getSupportedServiceNames_Static(), aOwnServiceNames ); } // XPersist void SAL_CALL OBoundControlModel::write( const Reference& _rxOutStream ) throw(stario::IOException, RuntimeException, std::exception) { OControlModel::write(_rxOutStream); osl::MutexGuard aGuard(m_aMutex); // Version _rxOutStream->writeShort(0x0002); // Controlsource ::comphelper::operator<<( _rxOutStream, m_aControlSource); // !!! IMPORTANT NOTE !!! // don't write any new members here : this wouldn't be compatible with older versions, as OBoundControlModel // is a base class which is called in derived classes "read" method. So if you increment the version // and write new stuff, older office versions will read this in the _derived_ classes, which may result // in anything from data loss to crash. // (use writeCommonProperties instead, this is called in derived classes write-method) // !!! EOIN !!! } void OBoundControlModel::defaultCommonProperties() { Reference xComp(m_xLabelControl, UNO_QUERY); if (xComp.is()) xComp->removeEventListener(static_cast(static_cast(this))); m_xLabelControl = NULL; } void OBoundControlModel::readCommonProperties(const Reference& _rxInStream) { sal_Int32 nLen = _rxInStream->readLong(); Reference xMark(_rxInStream, UNO_QUERY); DBG_ASSERT(xMark.is(), "OBoundControlModel::readCommonProperties : can only work with markable streams !"); sal_Int32 nMark = xMark->createMark(); // read the reference to the label control Reference xPersist; sal_Int32 nUsedFlag; nUsedFlag = _rxInStream->readLong(); if (nUsedFlag) xPersist = _rxInStream->readObject(); m_xLabelControl = m_xLabelControl.query( xPersist ); Reference< XComponent > xComp( m_xLabelControl, UNO_QUERY ); if (xComp.is()) xComp->addEventListener(static_cast(static_cast(this))); // read any other new common properties here // skip the remaining bytes xMark->jumpToMark(nMark); _rxInStream->skipBytes(nLen); xMark->deleteMark(nMark); } void OBoundControlModel::writeCommonProperties(const Reference& _rxOutStream) { Reference xMark(_rxOutStream, UNO_QUERY); DBG_ASSERT(xMark.is(), "OBoundControlModel::writeCommonProperties : can only work with markable streams !"); sal_Int32 nMark = xMark->createMark(); // a placeholder where we will write the overall length (later in this method) sal_Int32 nLen = 0; _rxOutStream->writeLong(nLen); // write the reference to the label control Reference xPersist(m_xLabelControl, UNO_QUERY); sal_Int32 nUsedFlag = 0; if (xPersist.is()) nUsedFlag = 1; _rxOutStream->writeLong(nUsedFlag); if (xPersist.is()) _rxOutStream->writeObject(xPersist); // write any other new common properties here // write the correct length at the beginning of the block nLen = xMark->offsetToMark(nMark) - sizeof(nLen); xMark->jumpToMark(nMark); _rxOutStream->writeLong(nLen); xMark->jumpToFurthest(); xMark->deleteMark(nMark); } void SAL_CALL OBoundControlModel::read( const Reference< stario::XObjectInputStream >& _rxInStream ) throw(stario::IOException, RuntimeException, std::exception) { OControlModel::read(_rxInStream); osl::MutexGuard aGuard(m_aMutex); sal_uInt16 nVersion = _rxInStream->readShort(); (void)nVersion; ::comphelper::operator>>( _rxInStream, m_aControlSource); } void OBoundControlModel::getFastPropertyValue(Any& rValue, sal_Int32 nHandle) const { switch (nHandle) { case PROPERTY_ID_INPUT_REQUIRED: rValue <<= m_bInputRequired; break; case PROPERTY_ID_CONTROLSOURCEPROPERTY: rValue <<= m_sValuePropertyName; break; case PROPERTY_ID_CONTROLSOURCE: rValue <<= m_aControlSource; break; case PROPERTY_ID_BOUNDFIELD: rValue <<= getField(); break; case PROPERTY_ID_CONTROLLABEL: if (!m_xLabelControl.is()) rValue.clear(); else rValue <<= m_xLabelControl; break; default: OControlModel::getFastPropertyValue(rValue, nHandle); } } sal_Bool OBoundControlModel::convertFastPropertyValue( Any& _rConvertedValue, Any& _rOldValue, sal_Int32 _nHandle, const Any& _rValue) throw (com::sun::star::lang::IllegalArgumentException) { sal_Bool bModified(sal_False); switch (_nHandle) { case PROPERTY_ID_INPUT_REQUIRED: bModified = tryPropertyValue( _rConvertedValue, _rOldValue, _rValue, m_bInputRequired ); break; case PROPERTY_ID_CONTROLSOURCE: bModified = tryPropertyValue(_rConvertedValue, _rOldValue, _rValue, m_aControlSource); break; case PROPERTY_ID_BOUNDFIELD: SAL_WARN("forms.component", "OBoundControlModel::convertFastPropertyValue: BoundField should be a read-only property !" ); throw com::sun::star::lang::IllegalArgumentException(); case PROPERTY_ID_CONTROLLABEL: if (!_rValue.hasValue()) { // property set to void _rConvertedValue = Any(); getFastPropertyValue(_rOldValue, _nHandle); bModified = m_xLabelControl.is(); } else { bModified = tryPropertyValue(_rConvertedValue, _rOldValue, _rValue, m_xLabelControl); if (!m_xLabelControl.is()) // an empty interface is interpreted as VOID _rOldValue.clear(); } break; default: bModified = OControlModel::convertFastPropertyValue(_rConvertedValue, _rOldValue, _nHandle, _rValue); } return bModified; } Any OBoundControlModel::getPropertyDefaultByHandle( sal_Int32 _nHandle ) const { Any aDefault; switch ( _nHandle ) { case PROPERTY_ID_INPUT_REQUIRED: aDefault <<= sal_Bool( sal_True ); break; case PROPERTY_ID_CONTROLSOURCE: aDefault <<= OUString(); break; case PROPERTY_ID_CONTROLLABEL: aDefault <<= Reference< XPropertySet >(); break; } return aDefault; } void OBoundControlModel::setFastPropertyValue_NoBroadcast( sal_Int32 nHandle, const Any& rValue ) throw (Exception, std::exception) { switch (nHandle) { case PROPERTY_ID_INPUT_REQUIRED: OSL_VERIFY( rValue >>= m_bInputRequired ); break; case PROPERTY_ID_CONTROLSOURCE: OSL_VERIFY( rValue >>= m_aControlSource ); break; case PROPERTY_ID_BOUNDFIELD: SAL_WARN("forms.component", "OBoundControlModel::setFastPropertyValue_NoBroadcast : BoundField should be a read-only property !"); throw com::sun::star::lang::IllegalArgumentException(); case PROPERTY_ID_CONTROLLABEL: { if ( rValue.hasValue() && ( rValue.getValueTypeClass() != TypeClass_INTERFACE ) ) throw com::sun::star::lang::IllegalArgumentException(); Reference< XInterface > xNewValue( rValue, UNO_QUERY ); if ( !xNewValue.is() ) { // set property to "void" Reference< XComponent > xComp( m_xLabelControl, UNO_QUERY ); if ( xComp.is() ) xComp->removeEventListener( static_cast< XPropertyChangeListener* >( this ) ); m_xLabelControl = NULL; break; } Reference< XControlModel > xAsModel ( xNewValue, UNO_QUERY ); Reference< XServiceInfo > xAsServiceInfo ( xAsModel, UNO_QUERY ); Reference< XPropertySet > xAsPropSet ( xAsServiceInfo, UNO_QUERY ); Reference< XChild > xAsChild ( xAsPropSet, UNO_QUERY ); if ( !xAsChild.is() || !xAsServiceInfo->supportsService( m_aLabelServiceName ) ) { throw com::sun::star::lang::IllegalArgumentException(); } // check if weself and the given model have a common anchestor (up to the forms collection) Reference xCont; query_interface(static_cast(this), xCont); Reference< XInterface > xMyTopLevel = xCont->getParent(); while (xMyTopLevel.is()) { Reference xAsForm(xMyTopLevel, UNO_QUERY); if (!xAsForm.is()) // found my root break; Reference xLoopAsChild(xMyTopLevel, UNO_QUERY); xMyTopLevel = xLoopAsChild.is() ? xLoopAsChild->getParent() : Reference< XInterface >(); } Reference< XInterface > xNewTopLevel = xAsChild->getParent(); while (xNewTopLevel.is()) { Reference xAsForm(xNewTopLevel, UNO_QUERY); if (!xAsForm.is()) break; Reference xLoopAsChild(xNewTopLevel, UNO_QUERY); xNewTopLevel = xLoopAsChild.is() ? xLoopAsChild->getParent() : Reference< XInterface >(); } if (xNewTopLevel != xMyTopLevel) { // the both objects don't belong to the same forms collection -> not acceptable throw com::sun::star::lang::IllegalArgumentException(); } m_xLabelControl = xAsPropSet; Reference xComp(m_xLabelControl, UNO_QUERY); if (xComp.is()) xComp->addEventListener(static_cast(static_cast(this))); } break; default: OControlModel::setFastPropertyValue_NoBroadcast(nHandle, rValue ); } } // XPropertyChangeListener void SAL_CALL OBoundControlModel::propertyChange( const PropertyChangeEvent& evt ) throw(RuntimeException, std::exception) { // if the DBColumn value changed, transfer it to the control if ( evt.PropertyName.equals( PROPERTY_VALUE ) ) { OSL_ENSURE( evt.Source == getField(), "OBoundControlModel::propertyChange: value changes from components other than our database column?" ); osl::MutexGuard aGuard(m_aMutex); if ( m_bForwardValueChanges && m_xColumn.is() ) transferDbValueToControl(); } else { OSL_ENSURE( evt.Source == m_xExternalBinding, "OBoundControlModel::propertyChange: where did this come from?" ); // our binding has properties which can control properties of ourself OUString sBindingControlledProperty; bool bForwardToLabelControl = false; if ( evt.PropertyName.equals( PROPERTY_READONLY ) ) { sBindingControlledProperty = PROPERTY_READONLY; } else if ( evt.PropertyName.equals( PROPERTY_RELEVANT ) ) { sBindingControlledProperty = PROPERTY_ENABLED; bForwardToLabelControl = true; } else return; try { setPropertyValue( sBindingControlledProperty, evt.NewValue ); if ( bForwardToLabelControl && m_xLabelControl.is() ) m_xLabelControl->setPropertyValue( sBindingControlledProperty, evt.NewValue ); } catch( const Exception& ) { SAL_WARN("forms.component", "OBoundControlModel::propertyChange: could not adjust my binding-controlled property!"); DBG_UNHANDLED_EXCEPTION(); } } } void SAL_CALL OBoundControlModel::onRowSetChanged( const EventObject& /*i_Event*/ ) throw (RuntimeException, std::exception) { ControlModelLock aLock( *this ); FieldChangeNotifier aBoundFieldNotifier( aLock ); // disconnect from database column (which is controlled by parent, directly or indirectly) if ( hasField() ) impl_disconnectDatabaseColumn_noNotify(); // log off old listeners if ( isFormListening() ) doFormListening( false ); // determine the new ambient form impl_determineAmbientForm_nothrow(); // log on new listeners doFormListening( true ); // re-connect to database column if needed and possible if ( m_xAmbientForm.is() && m_xAmbientForm->isLoaded() ) impl_connectDatabaseColumn_noNotify( false ); } // XBoundComponent void SAL_CALL OBoundControlModel::addUpdateListener(const Reference& _rxListener) throw(RuntimeException, std::exception) { m_aUpdateListeners.addInterface(_rxListener); } void SAL_CALL OBoundControlModel::removeUpdateListener(const Reference< XUpdateListener>& _rxListener) throw(RuntimeException, std::exception) { m_aUpdateListeners.removeInterface(_rxListener); } sal_Bool SAL_CALL OBoundControlModel::commit() throw(RuntimeException, std::exception) { ControlModelLock aLock( *this ); OSL_PRECOND( m_bCommitable, "OBoundControlModel::commit: invalid call (I'm not commitable !) " ); if ( hasExternalValueBinding() ) { // in most cases, no action is required: For most derivees, we know the value property of // our control (see initValueProperty), and when an external binding is active, we // instantly forward all changes in this property to the external binding. if ( m_sValuePropertyName.isEmpty() ) // but for those derivees which did not use this feature, we need an // explicit transfer transferControlValueToExternal( aLock ); return sal_True; } OSL_ENSURE( !hasExternalValueBinding(), "OBoundControlModel::commit: control flow broken!" ); // we reach this only if we're not working with an external binding if ( !hasField() ) return sal_True; ::cppu::OInterfaceIteratorHelper aIter( m_aUpdateListeners ); EventObject aEvent; aEvent.Source = static_cast< XWeak* >( this ); sal_Bool bSuccess = sal_True; aLock.release(); // UNSAFE > while (aIter.hasMoreElements() && bSuccess) bSuccess = static_cast< XUpdateListener* >( aIter.next() )->approveUpdate( aEvent ); // < UNSAFE aLock.acquire(); if ( bSuccess ) { try { if ( m_xColumnUpdate.is() ) bSuccess = commitControlValueToDbColumn( false ); } catch(const Exception&) { bSuccess = sal_False; } } if ( bSuccess ) { aLock.release(); m_aUpdateListeners.notifyEach( &XUpdateListener::updated, aEvent ); } return bSuccess; } void OBoundControlModel::resetField() { m_xColumnUpdate.clear(); m_xColumn.clear(); m_xField.clear(); m_nFieldType = DataType::OTHER; } sal_Bool OBoundControlModel::connectToField(const Reference& rForm) { OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::connectToField: invalid call (have an external binding)!" ); // if there's a connection to the database if (rForm.is() && getConnection(rForm).is()) { // determine field and PropertyChangeListener m_xCursor = rForm; Reference xFieldCandidate; if (m_xCursor.is()) { Reference xColumnsSupplier(m_xCursor, UNO_QUERY); DBG_ASSERT(xColumnsSupplier.is(), "OBoundControlModel::connectToField : the row set should support the com::sun::star::sdb::ResultSet service !"); if (xColumnsSupplier.is()) { Reference xColumns(xColumnsSupplier->getColumns(), UNO_QUERY); if (xColumns.is() && xColumns->hasByName(m_aControlSource)) { OSL_VERIFY( xColumns->getByName(m_aControlSource) >>= xFieldCandidate ); } } } try { sal_Int32 nFieldType = DataType::OTHER; if ( xFieldCandidate.is() ) { xFieldCandidate->getPropertyValue( PROPERTY_FIELDTYPE ) >>= nFieldType; if ( approveDbColumnType( nFieldType ) ) impl_setField_noNotify( xFieldCandidate ); } else impl_setField_noNotify( NULL ); if ( m_xField.is() ) { if ( m_xField->getPropertySetInfo()->hasPropertyByName( PROPERTY_VALUE ) ) { m_nFieldType = nFieldType; // listen to changing values m_xField->addPropertyChangeListener( PROPERTY_VALUE, this ); m_xColumnUpdate = Reference< XColumnUpdate >( m_xField, UNO_QUERY ); m_xColumn = Reference< XColumn >( m_xField, UNO_QUERY ); sal_Int32 nNullableFlag = ColumnValue::NO_NULLS; m_xField->getPropertyValue(PROPERTY_ISNULLABLE) >>= nNullableFlag; m_bRequired = (ColumnValue::NO_NULLS == nNullableFlag); // we're optimistic: in case of ColumnValue_NULLABLE_UNKNOWN we assume nullability... } else { SAL_WARN("forms.component", "OBoundControlModel::connectToField: property " << PROPERTY_VALUE << " not supported!"); impl_setField_noNotify( NULL ); } } } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); resetField(); } } return hasField(); } void OBoundControlModel::initFromField( const Reference< XRowSet >& _rxRowSet ) { // but only if the rowset if posisitioned on a valid record if ( hasField() && _rxRowSet.is() ) { if ( !_rxRowSet->isBeforeFirst() && !_rxRowSet->isAfterLast() ) transferDbValueToControl(); else // reset the field if the row set is empty // #i30661# resetNoBroadcast(); } } sal_Bool OBoundControlModel::approveDbColumnType(sal_Int32 _nColumnType) { OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::approveDbColumnType: invalid call (have an external binding)!" ); if ((_nColumnType == DataType::BINARY) || (_nColumnType == DataType::VARBINARY) || (_nColumnType == DataType::LONGVARBINARY) || (_nColumnType == DataType::OTHER) || (_nColumnType == DataType::OBJECT) || (_nColumnType == DataType::DISTINCT) || (_nColumnType == DataType::STRUCT) || (_nColumnType == DataType::ARRAY) || (_nColumnType == DataType::BLOB) /*|| (_nColumnType == DataType::CLOB)*/ || (_nColumnType == DataType::REF) || (_nColumnType == DataType::SQLNULL)) return sal_False; return sal_True; } void OBoundControlModel::impl_determineAmbientForm_nothrow() { Reference< XInterface > xParent( const_cast< OBoundControlModel* >( this )->getParent() ); m_xAmbientForm.set( xParent, UNO_QUERY ); if ( !m_xAmbientForm.is() ) { Reference< XRowSetSupplier > xSupRowSet( xParent, UNO_QUERY ); if ( xSupRowSet.is() ) m_xAmbientForm.set( xSupRowSet->getRowSet(), UNO_QUERY ); } } void OBoundControlModel::impl_connectDatabaseColumn_noNotify( bool _bFromReload ) { OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::impl_connectDatabaseColumn_noNotify: not to be called with an external value binding!" ); // consistency checks DBG_ASSERT( !( hasField() && !_bFromReload ), "OBoundControlModel::impl_connectDatabaseColumn_noNotify: the form is just *loaded*, but we already have a field!" ); (void)_bFromReload; Reference< XRowSet > xRowSet( m_xAmbientForm, UNO_QUERY ); OSL_ENSURE( xRowSet.is(), "OBoundControlModel::impl_connectDatabaseColumn_noNotify: no row set!" ); if ( !xRowSet.is() ) return; if ( !hasField() ) { // connect to the column connectToField( xRowSet ); } // now that we're connected (more or less, even if we did not find a column), // we definitely want to forward any potentially occuring value changes m_bForwardValueChanges = sal_True; // let derived classes react on this new connection m_bLoaded = sal_True; onConnectedDbColumn( xRowSet ); // initially transfer the db column value to the control, if we successfully connected to a database column if ( hasField() ) initFromField( xRowSet ); } void OBoundControlModel::impl_disconnectDatabaseColumn_noNotify() { OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::impl_disconnectDatabaseColumn_noNotify: not to be called with an external value binding!" ); // let derived classes react on this onDisconnectedDbColumn(); if ( hasField() ) { getField()->removePropertyChangeListener( PROPERTY_VALUE, this ); resetField(); } m_xCursor = NULL; m_bLoaded = sal_False; } // XLoadListener void SAL_CALL OBoundControlModel::loaded( const EventObject& _rEvent ) throw(RuntimeException, std::exception) { ControlModelLock aLock( *this ); FieldChangeNotifier aBoundFieldNotifier( aLock ); OSL_ENSURE( _rEvent.Source == m_xAmbientForm, "OBoundControlModel::loaded: where does this come from?" ); (void)_rEvent; OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::loaded: we should never reach this with an external value binding!" ); if ( hasExternalValueBinding() ) return; impl_connectDatabaseColumn_noNotify( false ); } void SAL_CALL OBoundControlModel::unloaded( const com::sun::star::lang::EventObject& /*aEvent*/ ) throw(RuntimeException, std::exception) { OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::unloaded: we should never reach this with an external value binding!" ); } void SAL_CALL OBoundControlModel::reloading( const com::sun::star::lang::EventObject& /*aEvent*/ ) throw(RuntimeException, std::exception) { OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::reloading: we should never reach this with an external value binding!" ); if ( hasExternalValueBinding() ) return; osl::MutexGuard aGuard(m_aMutex); m_bForwardValueChanges = sal_False; } void SAL_CALL OBoundControlModel::unloading(const com::sun::star::lang::EventObject& /*aEvent*/) throw(RuntimeException, std::exception) { ControlModelLock aLock( *this ); FieldChangeNotifier aBoundFieldNotifier( aLock ); OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::unloading: we should never reach this with an external value binding!" ); if ( hasExternalValueBinding() ) return; impl_disconnectDatabaseColumn_noNotify(); } void SAL_CALL OBoundControlModel::reloaded( const EventObject& _rEvent ) throw(RuntimeException, std::exception) { ControlModelLock aLock( *this ); FieldChangeNotifier aBoundFieldNotifier( aLock ); OSL_ENSURE( _rEvent.Source == m_xAmbientForm, "OBoundControlModel::reloaded: where does this come from?" ); (void)_rEvent; OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::reloaded: we should never reach this with an external value binding!" ); if ( hasExternalValueBinding() ) return; impl_connectDatabaseColumn_noNotify( true ); } void OBoundControlModel::setControlValue( const Any& _rValue, ValueChangeInstigator _eInstigator ) { m_eControlValueChangeInstigator = _eInstigator; doSetControlValue( _rValue ); m_eControlValueChangeInstigator = eOther; } void OBoundControlModel::doSetControlValue( const Any& _rValue ) { OSL_PRECOND( m_xAggregateFastSet.is() && m_xAggregateSet.is(), "OBoundControlModel::doSetControlValue: invalid aggregate !" ); OSL_PRECOND( !m_sValuePropertyName.isEmpty() || ( m_nValuePropertyAggregateHandle != -1 ), "OBoundControlModel::doSetControlValue: please override if you have own value property handling!" ); try { // release our mutex once (it's acquired in one of the calling methods), as setting aggregate properties // may cause any uno controls belonging to us to lock the solar mutex, which is potentially dangerous with // our own mutex locked MutexRelease aRelease( m_aMutex ); if ( ( m_nValuePropertyAggregateHandle != -1 ) && m_xAggregateFastSet.is() ) { m_xAggregateFastSet->setFastPropertyValue( m_nValuePropertyAggregateHandle, _rValue ); } else if ( !m_sValuePropertyName.isEmpty() && m_xAggregateSet.is() ) { m_xAggregateSet->setPropertyValue( m_sValuePropertyName, _rValue ); } } catch( const Exception& ) { SAL_WARN("forms.component", "OBoundControlModel::doSetControlValue: caught an exception!"); DBG_UNHANDLED_EXCEPTION(); } } void OBoundControlModel::onConnectedValidator( ) { try { // if we have an external validator, we do not want the control to force invalid // inputs to the default value. Instead, invalid inputs should be translated // to NaN (not a number) Reference< XPropertySetInfo > xAggregatePropertyInfo; if ( m_xAggregateSet.is() ) xAggregatePropertyInfo = m_xAggregateSet->getPropertySetInfo(); if ( xAggregatePropertyInfo.is() && xAggregatePropertyInfo->hasPropertyByName( PROPERTY_ENFORCE_FORMAT ) ) m_xAggregateSet->setPropertyValue( PROPERTY_ENFORCE_FORMAT, makeAny( (sal_Bool)sal_False ) ); } catch( const Exception& ) { SAL_WARN("forms.component", "OBoundControlModel::onConnectedValidator: caught an exception!"); DBG_UNHANDLED_EXCEPTION(); } recheckValidity( false ); } void OBoundControlModel::onDisconnectedValidator( ) { try { Reference< XPropertySetInfo > xAggregatePropertyInfo; if ( m_xAggregateSet.is() ) xAggregatePropertyInfo = m_xAggregateSet->getPropertySetInfo(); if ( xAggregatePropertyInfo.is() && xAggregatePropertyInfo->hasPropertyByName( PROPERTY_ENFORCE_FORMAT ) ) m_xAggregateSet->setPropertyValue( PROPERTY_ENFORCE_FORMAT, makeAny( (sal_Bool)sal_True ) ); } catch( const Exception& ) { SAL_WARN("forms.component", "OBoundControlModel::onDisconnectedValidator: caught an exception!"); DBG_UNHANDLED_EXCEPTION(); } recheckValidity( false ); } void OBoundControlModel::onConnectedExternalValue( ) { calculateExternalValueType(); } void OBoundControlModel::onDisconnectedExternalValue( ) { } void OBoundControlModel::onConnectedDbColumn( const Reference< XInterface >& /*_rxForm*/ ) { OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::onConnectedDbColumn: how this? There's an external value binding!" ); } void OBoundControlModel::onDisconnectedDbColumn() { OSL_PRECOND( !hasExternalValueBinding(), "OBoundControlModel::onDisconnectedDbColumn: how this? There's an external value binding!" ); } // XReset Any OBoundControlModel::getDefaultForReset() const { return Any(); } void OBoundControlModel::resetNoBroadcast() { setControlValue( getDefaultForReset(), eOther ); } void OBoundControlModel::addResetListener(const Reference& l) throw (RuntimeException, std::exception) { m_aResetHelper.addResetListener( l ); } void OBoundControlModel::removeResetListener(const Reference& l) throw (RuntimeException, std::exception) { m_aResetHelper.removeResetListener( l ); } void OBoundControlModel::reset() throw (RuntimeException, std::exception) { if ( !m_aResetHelper.approveReset() ) return; ControlModelLock aLock( *this ); // on a new record? sal_Bool bIsNewRecord = sal_False; Reference xSet( m_xCursor, UNO_QUERY ); if ( xSet.is() ) { try { xSet->getPropertyValue( PROPERTY_ISNEW ) >>= bIsNewRecord; } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } } // cursor on an invalid row? sal_Bool bInvalidCursorPosition = sal_True; try { bInvalidCursorPosition = m_xCursor.is() && ( m_xCursor->isAfterLast() || m_xCursor->isBeforeFirst() ) && !bIsNewRecord; } catch( const SQLException& ) { SAL_WARN("forms.component", "OBoundControlModel::reset: caught an SQL exception!" ); DBG_UNHANDLED_EXCEPTION(); } // #i24495# - don't count the insert row as "invalid" sal_Bool bSimpleReset = ( !m_xColumn.is() // no connection to a database column || ( m_xCursor.is() // OR we have an improperly positioned cursor && bInvalidCursorPosition ) || hasExternalValueBinding() // OR we have an external value binding ); if ( !bSimpleReset ) { // The default values will be set if and only if the current value of the field which we're bound // to is NULL. // Else, the current field value should be refreshed // This behaviour is not completely ... "matured": What should happen if the field as well as the // control have a default value? sal_Bool bIsNull = sal_True; // we have to access the field content at least once to get a reliable result by XColumn::wasNull try { // normally, we'd do a getString here. However, this is extremely expensive in the case // of binary fields. Unfortunately, getString is the only method which is guaranteed // to *always* succeed, all other getXXX methods may fail if the column is asked for a // non-convertible type sal_Int32 nFieldType = DataType::OBJECT; getField()->getPropertyValue( PROPERTY_FIELDTYPE ) >>= nFieldType; if ( ( nFieldType == DataType::BINARY ) || ( nFieldType == DataType::VARBINARY ) || ( nFieldType == DataType::LONGVARBINARY ) || ( nFieldType == DataType::OBJECT ) /*|| ( nFieldType == DataType::CLOB )*/ ) m_xColumn->getBinaryStream(); else if ( nFieldType == DataType::BLOB ) m_xColumn->getBlob(); else m_xColumn->getString(); bIsNull = m_xColumn->wasNull(); } catch(const Exception&) { SAL_WARN("forms.component", "OBoundControlModel::reset: this should have succeeded in all cases!"); DBG_UNHANDLED_EXCEPTION(); } sal_Bool bNeedValueTransfer = sal_True; if ( bIsNull ) { if ( bIsNewRecord ) { // reset the control to it's default resetNoBroadcast(); // and immediately commit the changes to the DB column, to keep consistency commitControlValueToDbColumn( true ); bNeedValueTransfer = sal_False; } } if ( bNeedValueTransfer ) transferDbValueToControl(); } else { resetNoBroadcast(); // transfer to the external binding, if necessary if ( hasExternalValueBinding() ) transferControlValueToExternal( aLock ); } // revalidate, if necessary if ( hasValidator() ) recheckValidity( true ); aLock.release(); m_aResetHelper.notifyResetted(); } void OBoundControlModel::impl_setField_noNotify( const Reference< XPropertySet>& _rxField ) { DBG_ASSERT( !hasExternalValueBinding(), "OBoundControlModel::impl_setField_noNotify: We have an external value binding!" ); m_xField = _rxField; } sal_Bool OBoundControlModel::impl_approveValueBinding_nolock( const Reference< XValueBinding >& _rxBinding ) { if ( !_rxBinding.is() ) return sal_False; Sequence< Type > aTypeCandidates; { // SYNCHRONIZED > ::osl::MutexGuard aGuard( m_aMutex ); aTypeCandidates = getSupportedBindingTypes(); // < SYNCHRONIZED } for ( const Type* pType = aTypeCandidates.getConstArray(); pType != aTypeCandidates.getConstArray() + aTypeCandidates.getLength(); ++pType ) { if ( _rxBinding->supportsType( *pType ) ) return sal_True; } return sal_False; } void OBoundControlModel::connectExternalValueBinding( const Reference< XValueBinding >& _rxBinding, ControlModelLock& _rInstanceLock ) { OSL_PRECOND( _rxBinding.is(), "OBoundControlModel::connectExternalValueBinding: invalid binding instance!" ); OSL_PRECOND( !hasExternalValueBinding( ), "OBoundControlModel::connectExternalValueBinding: precond not met (currently have a binding)!" ); // if we're connected to a database column, suspend this if ( hasField() ) impl_disconnectDatabaseColumn_noNotify(); // suspend listening for load-related events at out ambient form. // This is because an external value binding overrules a possible database binding. if ( isFormListening() ) doFormListening( false ); // remember this new binding m_xExternalBinding = _rxBinding; // tell the derivee onConnectedExternalValue(); try { // add as value listener so we get notified when the value changes Reference< XModifyBroadcaster > xModifiable( m_xExternalBinding, UNO_QUERY ); if ( xModifiable.is() ) xModifiable->addModifyListener( this ); // add as property change listener for some (possibly present) properties we're // interested in Reference< XPropertySet > xBindingProps( m_xExternalBinding, UNO_QUERY ); Reference< XPropertySetInfo > xBindingPropsInfo( xBindingProps.is() ? xBindingProps->getPropertySetInfo() : Reference< XPropertySetInfo >() ); if ( xBindingPropsInfo.is() ) { if ( xBindingPropsInfo->hasPropertyByName( PROPERTY_READONLY ) ) { xBindingProps->addPropertyChangeListener( PROPERTY_READONLY, this ); m_bBindingControlsRO = sal_True; } if ( xBindingPropsInfo->hasPropertyByName( PROPERTY_RELEVANT ) ) { xBindingProps->addPropertyChangeListener( PROPERTY_RELEVANT, this ); m_bBindingControlsEnable = sal_True; } } } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } // propagate our new value transferExternalValueToControl( _rInstanceLock ); // if the binding is also a validator, use it, too. This is a constraint of the // com.sun.star.form.binding.ValidatableBindableFormComponent service if ( m_bSupportsValidation ) { try { Reference< XValidator > xAsValidator( _rxBinding, UNO_QUERY ); if ( xAsValidator.is() ) setValidator( xAsValidator ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } } } void OBoundControlModel::disconnectExternalValueBinding( ) { try { // not listening at the binding anymore Reference< XModifyBroadcaster > xModifiable( m_xExternalBinding, UNO_QUERY ); if ( xModifiable.is() ) xModifiable->removeModifyListener( this ); // remove as property change listener Reference< XPropertySet > xBindingProps( m_xExternalBinding, UNO_QUERY ); if ( m_bBindingControlsRO ) xBindingProps->removePropertyChangeListener( PROPERTY_READONLY, this ); if ( m_bBindingControlsEnable ) xBindingProps->removePropertyChangeListener( PROPERTY_RELEVANT, this ); } catch( const Exception& ) { SAL_WARN("forms.component", "OBoundControlModel::disconnectExternalValueBinding: caught an exception!"); DBG_UNHANDLED_EXCEPTION(); } // if the binding also acts as our validator, disconnect the validator, too if ( ( m_xExternalBinding == m_xValidator ) && m_xValidator.is() ) disconnectValidator( ); // no binding anymore m_xExternalBinding.clear(); // be a load listener at our form, again. This was suspended while we had // an external value binding in place. doFormListening( true ); // re-connect to database column of the new parent if ( m_xAmbientForm.is() && m_xAmbientForm->isLoaded() ) impl_connectDatabaseColumn_noNotify( false ); // tell the derivee onDisconnectedExternalValue(); } void SAL_CALL OBoundControlModel::setValueBinding( const Reference< XValueBinding >& _rxBinding ) throw (IncompatibleTypesException, RuntimeException, std::exception) { OSL_PRECOND( m_bSupportsExternalBinding, "OBoundControlModel::setValueBinding: How did you reach this method?" ); // the interface for this method should not have been exposed if we do not // support binding to external data // allow reset if ( _rxBinding.is() && !impl_approveValueBinding_nolock( _rxBinding ) ) { throw IncompatibleTypesException( FRM_RES_STRING( RID_STR_INCOMPATIBLE_TYPES ), *this ); } ControlModelLock aLock( *this ); // since a ValueBinding overrules any potentially active database binding, the change in a ValueBinding // might trigger a change in our BoundField. FieldChangeNotifier aBoundFieldNotifier( aLock ); // disconnect from the old binding if ( hasExternalValueBinding() ) disconnectExternalValueBinding( ); // connect to the new binding if ( _rxBinding.is() ) connectExternalValueBinding( _rxBinding, aLock ); } Reference< XValueBinding > SAL_CALL OBoundControlModel::getValueBinding( ) throw (RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); OSL_PRECOND( m_bSupportsExternalBinding, "OBoundControlModel::getValueBinding: How did you reach this method?" ); // the interface for this method should not have been exposed if we do not // support binding to external data return m_xExternalBinding; } void SAL_CALL OBoundControlModel::modified( const EventObject& _rEvent ) throw ( RuntimeException, std::exception ) { ControlModelLock aLock( *this ); OSL_PRECOND( hasExternalValueBinding(), "OBoundControlModel::modified: Where did this come from?" ); if ( !m_bTransferingValue && ( m_xExternalBinding == _rEvent.Source ) && m_xExternalBinding.is() ) { transferExternalValueToControl( aLock ); } } void OBoundControlModel::transferDbValueToControl( ) { try { setControlValue( translateDbColumnToControlValue(), eDbColumnBinding ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } } void OBoundControlModel::transferExternalValueToControl( ControlModelLock& _rInstanceLock ) { Reference< XValueBinding > xExternalBinding( m_xExternalBinding ); Type aValueExchangeType( getExternalValueType() ); _rInstanceLock.release(); // UNSAFE > Any aExternalValue; try { aExternalValue = xExternalBinding->getValue( aValueExchangeType ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } // < UNSAFE _rInstanceLock.acquire(); setControlValue( translateExternalValueToControlValue( aExternalValue ), eExternalBinding ); } void OBoundControlModel::transferControlValueToExternal( ControlModelLock& _rInstanceLock ) { OSL_PRECOND( m_bSupportsExternalBinding && hasExternalValueBinding(), "OBoundControlModel::transferControlValueToExternal: precondition not met!" ); if ( m_xExternalBinding.is() ) { Any aExternalValue( translateControlValueToExternalValue() ); m_bTransferingValue = sal_True; _rInstanceLock.release(); // UNSAFE > try { m_xExternalBinding->setValue( aExternalValue ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } // < UNSAFE _rInstanceLock.acquire(); m_bTransferingValue = sal_False; } } Sequence< Type > OBoundControlModel::getSupportedBindingTypes() { return Sequence< Type >( &m_aValuePropertyType, 1 ); } void OBoundControlModel::calculateExternalValueType() { m_aExternalValueType = Type(); if ( !m_xExternalBinding.is() ) return; Sequence< Type > aTypeCandidates( getSupportedBindingTypes() ); for ( const Type* pTypeCandidate = aTypeCandidates.getConstArray(); pTypeCandidate != aTypeCandidates.getConstArray() + aTypeCandidates.getLength(); ++pTypeCandidate ) { if ( m_xExternalBinding->supportsType( *pTypeCandidate ) ) { m_aExternalValueType = *pTypeCandidate; break; } } } Any OBoundControlModel::translateExternalValueToControlValue( const Any& _rExternalValue ) const { OSL_PRECOND( m_bSupportsExternalBinding && hasExternalValueBinding(), "OBoundControlModel::translateExternalValueToControlValue: precondition not met!" ); Any aControlValue( _rExternalValue ); // if the external value is VOID, and our value property is not allowed to be VOID, // then default-construct a value if ( !aControlValue.hasValue() && !m_bValuePropertyMayBeVoid ) aControlValue.setValue( NULL, m_aValuePropertyType ); // out of here return aControlValue; } Any OBoundControlModel::translateControlValueToExternalValue( ) const { return getControlValue( ); } Any OBoundControlModel::translateControlValueToValidatableValue( ) const { OSL_PRECOND( m_xValidator.is(), "OBoundControlModel::translateControlValueToValidatableValue: no validator, so why should I?" ); if ( ( m_xValidator == m_xExternalBinding ) && m_xValidator.is() ) return translateControlValueToExternalValue(); return getControlValue(); } Any OBoundControlModel::getControlValue( ) const { OSL_PRECOND( m_xAggregateFastSet.is() && m_xAggregateSet.is(), "OBoundControlModel::getControlValue: invalid aggregate !" ); OSL_PRECOND( !m_sValuePropertyName.isEmpty() || ( m_nValuePropertyAggregateHandle != -1 ), "OBoundControlModel::getControlValue: please override if you have own value property handling!" ); // determine the current control value Any aControlValue; if ( ( m_nValuePropertyAggregateHandle != -1 ) && m_xAggregateFastSet.is() ) { aControlValue = m_xAggregateFastSet->getFastPropertyValue( m_nValuePropertyAggregateHandle ); } else if ( !m_sValuePropertyName.isEmpty() && m_xAggregateSet.is() ) { aControlValue = m_xAggregateSet->getPropertyValue( m_sValuePropertyName ); } return aControlValue; } void OBoundControlModel::connectValidator( const Reference< XValidator >& _rxValidator ) { OSL_PRECOND( _rxValidator.is(), "OBoundControlModel::connectValidator: invalid validator instance!" ); OSL_PRECOND( !hasValidator( ), "OBoundControlModel::connectValidator: precond not met (have a validator currently)!" ); m_xValidator = _rxValidator; // add as value listener so we get notified when the value changes if ( m_xValidator.is() ) { try { m_xValidator->addValidityConstraintListener( this ); } catch( const RuntimeException& ) { } } onConnectedValidator( ); } void OBoundControlModel::disconnectValidator( ) { OSL_PRECOND( hasValidator( ), "OBoundControlModel::connectValidator: precond not met (don't have a validator currently)!" ); // add as value listener so we get notified when the value changes if ( m_xValidator.is() ) { try { m_xValidator->removeValidityConstraintListener( this ); } catch( const RuntimeException& ) { } } m_xValidator.clear(); onDisconnectedValidator( ); } void SAL_CALL OBoundControlModel::setValidator( const Reference< XValidator >& _rxValidator ) throw (VetoException,RuntimeException, std::exception) { ::osl::ClearableMutexGuard aGuard( m_aMutex ); OSL_PRECOND( m_bSupportsValidation, "OBoundControlModel::setValidator: How did you reach this method?" ); // the interface for this method should not have been exposed if we do not // support validation // early out if the validator does not change if ( _rxValidator == m_xValidator ) return; if ( m_xValidator.is() && ( m_xValidator == m_xExternalBinding ) ) throw VetoException( FRM_RES_STRING( RID_STR_INVALID_VALIDATOR ), *this ); // disconnect from the old validator if ( hasValidator() ) disconnectValidator( ); // connect to the new validator if ( _rxValidator.is() ) connectValidator( _rxValidator ); } Reference< XValidator > SAL_CALL OBoundControlModel::getValidator( ) throw (RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); OSL_PRECOND( m_bSupportsValidation, "OBoundControlModel::getValidator: How did you reach this method?" ); // the interface for this method should not have been exposed if we do not // support validation return m_xValidator; } void SAL_CALL OBoundControlModel::validityConstraintChanged( const EventObject& /*Source*/ ) throw (RuntimeException, std::exception) { ::osl::ClearableMutexGuard aGuard( m_aMutex ); OSL_PRECOND( m_bSupportsValidation, "OBoundControlModel::validityConstraintChanged: How did you reach this method?" ); // the interface for this method should not have been exposed if we do not // support validation recheckValidity( false ); } sal_Bool SAL_CALL OBoundControlModel::isValid( ) throw (RuntimeException, std::exception) { return m_bIsCurrentValueValid; } ::com::sun::star::uno::Any OBoundControlModel::getCurrentFormComponentValue() const { if ( hasValidator() ) return translateControlValueToValidatableValue(); return getControlValue(); } Any SAL_CALL OBoundControlModel::getCurrentValue( ) throw (RuntimeException, std::exception) { ::osl::MutexGuard aGuard( m_aMutex ); return getCurrentFormComponentValue(); } void SAL_CALL OBoundControlModel::addFormComponentValidityListener( const Reference< validation::XFormComponentValidityListener >& Listener ) throw (NullPointerException, RuntimeException, std::exception) { if ( Listener.is() ) m_aFormComponentListeners.addInterface( Listener ); } void SAL_CALL OBoundControlModel::removeFormComponentValidityListener( const Reference< validation::XFormComponentValidityListener >& Listener ) throw (NullPointerException, RuntimeException, std::exception) { if ( Listener.is() ) m_aFormComponentListeners.removeInterface( Listener ); } void OBoundControlModel::recheckValidity( bool _bForceNotification ) { try { sal_Bool bIsCurrentlyValid = sal_True; if ( hasValidator() ) bIsCurrentlyValid = m_xValidator->isValid( translateControlValueToValidatableValue() ); if ( ( bIsCurrentlyValid != m_bIsCurrentValueValid ) || _bForceNotification ) { m_bIsCurrentValueValid = bIsCurrentlyValid; // release our mutex for the notifications MutexRelease aRelease( m_aMutex ); m_aFormComponentListeners.notifyEach( &validation::XFormComponentValidityListener::componentValidityChanged, EventObject( *this ) ); } } catch( const Exception& ) { SAL_WARN("forms.component", "OBoundControlModel::recheckValidity: caught an exception!"); DBG_UNHANDLED_EXCEPTION(); } } void OBoundControlModel::describeFixedProperties( Sequence< Property >& _rProps ) const { BEGIN_DESCRIBE_PROPERTIES( 5, OControlModel ) DECL_PROP1 ( CONTROLSOURCE, OUString, BOUND ); DECL_IFACE_PROP3( BOUNDFIELD, XPropertySet, BOUND, READONLY, TRANSIENT ); DECL_IFACE_PROP2( CONTROLLABEL, XPropertySet, BOUND, MAYBEVOID ); DECL_PROP2 ( CONTROLSOURCEPROPERTY, OUString, READONLY, TRANSIENT ); DECL_BOOL_PROP1 ( INPUT_REQUIRED, BOUND ); END_DESCRIBE_PROPERTIES() } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */