/* -*- 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 "sb.hxx" #include #include "sbjsmod.hxx" #include "sbintern.hxx" #include "image.hxx" #include "opcodes.hxx" #include "runtime.hxx" #include "token.hxx" #include "sbunoobj.hxx" #include #include #include #include "sbobjmod.hxx" #include #include #include #include #include #include #include #include #include #include #include #ifdef UNX #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sbxmod.hxx" #include "parser.hxx" #include using namespace com::sun::star; using namespace com::sun::star::lang; using namespace com::sun::star::reflection; using namespace com::sun::star::beans; using namespace com::sun::star::script; using namespace com::sun::star::uno; typedef ::cppu::WeakImplHelper< XInvocation > DocObjectWrapper_BASE; typedef ::std::map< sal_Int16, Any, ::std::less< sal_Int16 > > OutParamMap; class DocObjectWrapper : public DocObjectWrapper_BASE { Reference< XAggregation > m_xAggProxy; Reference< XInvocation > m_xAggInv; Reference< XTypeProvider > m_xAggregateTypeProv; Sequence< Type > m_Types; SbModule* m_pMod; SbMethodRef getMethod( const OUString& aName ) throw (RuntimeException, std::exception); SbPropertyRef getProperty( const OUString& aName ) throw (RuntimeException, std::exception); OUString mName; // for debugging public: explicit DocObjectWrapper( SbModule* pMod ); virtual ~DocObjectWrapper(); virtual void SAL_CALL acquire() throw() override; virtual void SAL_CALL release() throw() override; virtual Sequence< sal_Int8 > SAL_CALL getImplementationId() throw (RuntimeException, std::exception) override { return css::uno::Sequence(); } virtual Reference< XIntrospectionAccess > SAL_CALL getIntrospection( ) throw (RuntimeException, std::exception) override; virtual Any SAL_CALL invoke( const OUString& aFunctionName, const Sequence< Any >& aParams, Sequence< ::sal_Int16 >& aOutParamIndex, Sequence< Any >& aOutParam ) throw (IllegalArgumentException, CannotConvertException, InvocationTargetException, RuntimeException, std::exception) override; virtual void SAL_CALL setValue( const OUString& aPropertyName, const Any& aValue ) throw (UnknownPropertyException, CannotConvertException, InvocationTargetException, RuntimeException, std::exception) override; virtual Any SAL_CALL getValue( const OUString& aPropertyName ) throw (UnknownPropertyException, RuntimeException, std::exception) override; virtual sal_Bool SAL_CALL hasMethod( const OUString& aName ) throw (RuntimeException, std::exception) override; virtual sal_Bool SAL_CALL hasProperty( const OUString& aName ) throw (RuntimeException, std::exception) override; virtual Any SAL_CALL queryInterface( const Type& aType ) throw ( RuntimeException, std::exception ) override; virtual Sequence< Type > SAL_CALL getTypes() throw ( RuntimeException, std::exception ) override; }; DocObjectWrapper::DocObjectWrapper( SbModule* pVar ) : m_pMod( pVar ), mName( pVar->GetName() ) { SbObjModule* pMod = dynamic_cast( pVar ); if ( pMod ) { if ( pMod->GetModuleType() == ModuleType::DOCUMENT ) { // Use proxy factory service to create aggregatable proxy. SbUnoObject* pUnoObj = dynamic_cast( pMod->GetObject() ); Reference< XInterface > xIf; if ( pUnoObj ) { Any aObj = pUnoObj->getUnoAny(); aObj >>= xIf; if ( xIf.is() ) { m_xAggregateTypeProv.set( xIf, UNO_QUERY ); m_xAggInv.set( xIf, UNO_QUERY ); } } if ( xIf.is() ) { try { Reference< XProxyFactory > xProxyFac = ProxyFactory::create( comphelper::getProcessComponentContext() ); m_xAggProxy = xProxyFac->createProxy( xIf ); } catch(const Exception& ) { SAL_WARN( "basic", "DocObjectWrapper::DocObjectWrapper: Caught exception!" ); } } if ( m_xAggProxy.is() ) { osl_atomic_increment( &m_refCount ); /* i35609 - Fix crash on Solaris. The setDelegator call needs to be in its own block to ensure that all temporary Reference instances that are acquired during the call are released before m_refCount is decremented again */ { m_xAggProxy->setDelegator( static_cast< cppu::OWeakObject * >( this ) ); } osl_atomic_decrement( &m_refCount ); } } } } void SAL_CALL DocObjectWrapper::acquire() throw () { osl_atomic_increment( &m_refCount ); SAL_INFO("basic","DocObjectWrapper::acquire("<< OUStringToOString( mName, RTL_TEXTENCODING_UTF8 ).getStr() << ") 0x" << this << " refcount is now " << m_refCount ); } void SAL_CALL DocObjectWrapper::release() throw () { if ( osl_atomic_decrement( &m_refCount ) == 0 ) { SAL_INFO("basic","DocObjectWrapper::release("<< OUStringToOString( mName, RTL_TEXTENCODING_UTF8 ).getStr() << ") 0x" << this << " refcount is now " << m_refCount ); delete this; } else { SAL_INFO("basic","DocObjectWrapper::release("<< OUStringToOString( mName, RTL_TEXTENCODING_UTF8 ).getStr() << ") 0x" << this << " refcount is now " << m_refCount ); } } DocObjectWrapper::~DocObjectWrapper() { } Sequence< Type > SAL_CALL DocObjectWrapper::getTypes() throw ( RuntimeException, std::exception ) { if ( m_Types.getLength() == 0 ) { Sequence< Type > sTypes; if ( m_xAggregateTypeProv.is() ) { sTypes = m_xAggregateTypeProv->getTypes(); } m_Types.realloc( sTypes.getLength() + 1 ); Type* pPtr = m_Types.getArray(); for ( int i=0; i::get(); } else { *pPtr = sTypes[ i - 1 ]; } } } return m_Types; } Reference< XIntrospectionAccess > SAL_CALL DocObjectWrapper::getIntrospection( ) throw (RuntimeException, std::exception) { return nullptr; } Any SAL_CALL DocObjectWrapper::invoke( const OUString& aFunctionName, const Sequence< Any >& aParams, Sequence< ::sal_Int16 >& aOutParamIndex, Sequence< Any >& aOutParam ) throw (IllegalArgumentException, CannotConvertException, InvocationTargetException, RuntimeException, std::exception) { if ( m_xAggInv.is() && m_xAggInv->hasMethod( aFunctionName ) ) return m_xAggInv->invoke( aFunctionName, aParams, aOutParamIndex, aOutParam ); SbMethodRef pMethod = getMethod( aFunctionName ); if ( !pMethod ) throw RuntimeException(); // check number of parameters sal_Int32 nParamsCount = aParams.getLength(); SbxInfo* pInfo = pMethod->GetInfo(); if ( pInfo ) { sal_Int32 nSbxOptional = 0; sal_uInt16 n = 1; for ( const SbxParamInfo* pParamInfo = pInfo->GetParam( n ); pParamInfo; pParamInfo = pInfo->GetParam( ++n ) ) { if ( pParamInfo->nFlags & SbxFlagBits::Optional ) ++nSbxOptional; else nSbxOptional = 0; } sal_Int32 nSbxCount = n - 1; if ( nParamsCount < nSbxCount - nSbxOptional ) { throw RuntimeException( "wrong number of parameters!" ); } } // set parameters SbxArrayRef xSbxParams; if ( nParamsCount > 0 ) { xSbxParams = new SbxArray; const Any* pParams = aParams.getConstArray(); for ( sal_Int32 i = 0; i < nParamsCount; ++i ) { SbxVariableRef xSbxVar = new SbxVariable( SbxVARIANT ); unoToSbxValue( static_cast< SbxVariable* >( xSbxVar ), pParams[i] ); xSbxParams->Put( xSbxVar, static_cast< sal_uInt16 >( i ) + 1 ); // Enable passing by ref if ( xSbxVar->GetType() != SbxVARIANT ) xSbxVar->SetFlag( SbxFlagBits::Fixed ); } } if ( xSbxParams.Is() ) pMethod->SetParameters( xSbxParams ); // call method SbxVariableRef xReturn = new SbxVariable; pMethod->Call( xReturn ); Any aReturn; // get output parameters if ( xSbxParams.Is() ) { SbxInfo* pInfo_ = pMethod->GetInfo(); if ( pInfo_ ) { OutParamMap aOutParamMap; for ( sal_uInt16 n = 1, nCount = xSbxParams->Count(); n < nCount; ++n ) { const SbxParamInfo* pParamInfo = pInfo_->GetParam( n ); if ( pParamInfo && ( pParamInfo->eType & SbxBYREF ) != 0 ) { SbxVariable* pVar = xSbxParams->Get( n ); if ( pVar ) { SbxVariableRef xVar = pVar; aOutParamMap.insert( OutParamMap::value_type( n - 1, sbxToUnoValue( xVar ) ) ); } } } sal_Int32 nOutParamCount = aOutParamMap.size(); aOutParamIndex.realloc( nOutParamCount ); aOutParam.realloc( nOutParamCount ); sal_Int16* pOutParamIndex = aOutParamIndex.getArray(); Any* pOutParam = aOutParam.getArray(); for ( OutParamMap::iterator aIt = aOutParamMap.begin(); aIt != aOutParamMap.end(); ++aIt, ++pOutParamIndex, ++pOutParam ) { *pOutParamIndex = aIt->first; *pOutParam = aIt->second; } } } // get return value aReturn = sbxToUnoValue( xReturn ); pMethod->SetParameters( nullptr ); return aReturn; } void SAL_CALL DocObjectWrapper::setValue( const OUString& aPropertyName, const Any& aValue ) throw (UnknownPropertyException, CannotConvertException, InvocationTargetException, RuntimeException, std::exception) { if ( m_xAggInv.is() && m_xAggInv->hasProperty( aPropertyName ) ) return m_xAggInv->setValue( aPropertyName, aValue ); SbPropertyRef pProperty = getProperty( aPropertyName ); if ( !pProperty.Is() ) throw UnknownPropertyException(); unoToSbxValue( static_cast(pProperty), aValue ); } Any SAL_CALL DocObjectWrapper::getValue( const OUString& aPropertyName ) throw (UnknownPropertyException, RuntimeException, std::exception) { if ( m_xAggInv.is() && m_xAggInv->hasProperty( aPropertyName ) ) return m_xAggInv->getValue( aPropertyName ); SbPropertyRef pProperty = getProperty( aPropertyName ); if ( !pProperty.Is() ) throw UnknownPropertyException(); SbxVariable* pProp = static_cast(pProperty); if ( pProp->GetType() == SbxEMPTY ) pProperty->Broadcast( SBX_HINT_DATAWANTED ); Any aRet = sbxToUnoValue( pProp ); return aRet; } sal_Bool SAL_CALL DocObjectWrapper::hasMethod( const OUString& aName ) throw (RuntimeException, std::exception) { if ( m_xAggInv.is() && m_xAggInv->hasMethod( aName ) ) return sal_True; return getMethod( aName ).Is(); } sal_Bool SAL_CALL DocObjectWrapper::hasProperty( const OUString& aName ) throw (RuntimeException, std::exception) { bool bRes = false; if ( m_xAggInv.is() && m_xAggInv->hasProperty( aName ) ) bRes = true; else bRes = getProperty( aName ).Is(); return bRes; } Any SAL_CALL DocObjectWrapper::queryInterface( const Type& aType ) throw ( RuntimeException, std::exception ) { Any aRet = DocObjectWrapper_BASE::queryInterface( aType ); if ( aRet.hasValue() ) return aRet; else if ( m_xAggProxy.is() ) aRet = m_xAggProxy->queryAggregation( aType ); return aRet; } SbMethodRef DocObjectWrapper::getMethod( const OUString& aName ) throw (RuntimeException, std::exception) { SbMethodRef pMethod = nullptr; if ( m_pMod ) { SbxFlagBits nSaveFlgs = m_pMod->GetFlags(); // Limit search to this module m_pMod->ResetFlag( SbxFlagBits::GlobalSearch ); pMethod = dynamic_cast(m_pMod->SbModule::Find(aName, SbxCLASS_METHOD)); m_pMod->SetFlags( nSaveFlgs ); } return pMethod; } SbPropertyRef DocObjectWrapper::getProperty( const OUString& aName ) throw (RuntimeException, std::exception) { SbPropertyRef pProperty = nullptr; if ( m_pMod ) { SbxFlagBits nSaveFlgs = m_pMod->GetFlags(); // Limit search to this module. m_pMod->ResetFlag( SbxFlagBits::GlobalSearch ); pProperty = dynamic_cast(m_pMod->SbModule::Find(aName, SbxCLASS_PROPERTY)); m_pMod->SetFlag( nSaveFlgs ); } return pProperty; } uno::Reference< frame::XModel > getDocumentModel( StarBASIC* pb ) { uno::Reference< frame::XModel > xModel; if( pb && pb->IsDocBasic() ) { uno::Any aDoc; if( pb->GetUNOConstant( "ThisComponent", aDoc ) ) xModel.set( aDoc, uno::UNO_QUERY ); } return xModel; } uno::Reference< vba::XVBACompatibility > getVBACompatibility( const uno::Reference< frame::XModel >& rxModel ) { uno::Reference< vba::XVBACompatibility > xVBACompat; try { uno::Reference< beans::XPropertySet > xModelProps( rxModel, uno::UNO_QUERY_THROW ); xVBACompat.set( xModelProps->getPropertyValue( "BasicLibraries" ), uno::UNO_QUERY ); } catch(const uno::Exception& ) { } return xVBACompat; } bool getDefaultVBAMode( StarBASIC* pb ) { uno::Reference< vba::XVBACompatibility > xVBACompat = getVBACompatibility( getDocumentModel( pb ) ); return xVBACompat.is() && xVBACompat->getVBACompatibilityMode(); } class AsyncQuitHandler: private boost::noncopyable { AsyncQuitHandler() {} public: static AsyncQuitHandler& instance() { static AsyncQuitHandler dInst; return dInst; } static void QuitApplication() { uno::Reference< frame::XDesktop2 > xDeskTop = frame::Desktop::create( comphelper::getProcessComponentContext() ); xDeskTop->terminate(); } DECL_STATIC_LINK_TYPED( AsyncQuitHandler, OnAsyncQuit, void*, void ); }; IMPL_STATIC_LINK_NOARG_TYPED( AsyncQuitHandler, OnAsyncQuit, void*, void ) { QuitApplication(); } // A Basic module has set EXTSEARCH, so that the elements, that the modul contains, // could be found from other module. SbModule::SbModule( const OUString& rName, bool bVBACompat ) : SbxObject( "StarBASICModule" ), pImage( nullptr ), pBreaks( nullptr ), pClassData( nullptr ), mbVBACompat( bVBACompat ), pDocObject( nullptr ), bIsProxyModule( false ) { SetName( rName ); SetFlag( SbxFlagBits::ExtSearch | SbxFlagBits::GlobalSearch ); SetModuleType( script::ModuleType::NORMAL ); // #i92642: Set name property to intitial name SbxVariable* pNameProp = pProps->Find( "Name", SbxCLASS_PROPERTY ); if( pNameProp != nullptr ) { pNameProp->PutString( GetName() ); } } SbModule::~SbModule() { SAL_INFO("basic","Module named " << OUStringToOString( GetName(), RTL_TEXTENCODING_UTF8 ).getStr() << " is destructing"); delete pImage; delete pBreaks; delete pClassData; mxWrapper = nullptr; } uno::Reference< script::XInvocation > SbModule::GetUnoModule() { if ( !mxWrapper.is() ) mxWrapper = new DocObjectWrapper( this ); SAL_INFO("basic","Module named " << OUStringToOString( GetName(), RTL_TEXTENCODING_UTF8 ).getStr() << " returning wrapper mxWrapper (0x" << mxWrapper.get() <<")" ); return mxWrapper; } bool SbModule::IsCompiled() const { return pImage != nullptr; } const SbxObject* SbModule::FindType( const OUString& aTypeName ) const { return pImage ? pImage->FindType( aTypeName ) : nullptr; } // From the code generator: deletion of images and the opposite of validation for entries void SbModule::StartDefinitions() { delete pImage; pImage = nullptr; if( pClassData ) pClassData->clear(); // methods and properties persist, but they are invalid; // at least are the information under certain conditions clogged sal_uInt16 i; for( i = 0; i < pMethods->Count(); i++ ) { SbMethod* p = dynamic_cast( pMethods->Get( i ) ); if( p ) p->bInvalid = true; } for( i = 0; i < pProps->Count(); ) { SbProperty* p = dynamic_cast( pProps->Get( i ) ); if( p ) pProps->Remove( i ); else i++; } } // request/create method SbMethod* SbModule::GetMethod( const OUString& rName, SbxDataType t ) { SbxVariable* p = pMethods->Find( rName, SbxCLASS_METHOD ); SbMethod* pMeth = p ? dynamic_cast( p ) : nullptr; if( p && !pMeth ) { pMethods->Remove( p ); } if( !pMeth ) { pMeth = new SbMethod( rName, t, this ); pMeth->SetParent( this ); pMeth->SetFlags( SbxFlagBits::Read ); pMethods->Put( pMeth, pMethods->Count() ); StartListening( pMeth->GetBroadcaster(), true ); } // The method is per default valid, because it could be // created from the compiler (code generator) as well. pMeth->bInvalid = false; pMeth->ResetFlag( SbxFlagBits::Fixed ); pMeth->SetFlag( SbxFlagBits::Write ); pMeth->SetType( t ); pMeth->ResetFlag( SbxFlagBits::Write ); if( t != SbxVARIANT ) { pMeth->SetFlag( SbxFlagBits::Fixed ); } return pMeth; } // request/create property SbProperty* SbModule::GetProperty( const OUString& rName, SbxDataType t ) { SbxVariable* p = pProps->Find( rName, SbxCLASS_PROPERTY ); SbProperty* pProp = p ? dynamic_cast( p ) : nullptr; if( p && !pProp ) { pProps->Remove( p ); } if( !pProp ) { pProp = new SbProperty( rName, t, this ); pProp->SetFlag( SbxFlagBits::ReadWrite ); pProp->SetParent( this ); pProps->Put( pProp, pProps->Count() ); StartListening( pProp->GetBroadcaster(), true ); } return pProp; } SbProcedureProperty* SbModule::GetProcedureProperty( const OUString& rName, SbxDataType t ) { SbxVariable* p = pProps->Find( rName, SbxCLASS_PROPERTY ); SbProcedureProperty* pProp = p ? dynamic_cast( p ) : nullptr; if( p && !pProp ) { pProps->Remove( p ); } if( !pProp ) { pProp = new SbProcedureProperty( rName, t ); pProp->SetFlag( SbxFlagBits::ReadWrite ); pProp->SetParent( this ); pProps->Put( pProp, pProps->Count() ); StartListening( pProp->GetBroadcaster(), true ); } return pProp; } SbIfaceMapperMethod* SbModule::GetIfaceMapperMethod( const OUString& rName, SbMethod* pImplMeth ) { SbxVariable* p = pMethods->Find( rName, SbxCLASS_METHOD ); SbIfaceMapperMethod* pMapperMethod = p ? dynamic_cast( p ) : nullptr; if( p && !pMapperMethod ) { pMethods->Remove( p ); } if( !pMapperMethod ) { pMapperMethod = new SbIfaceMapperMethod( rName, pImplMeth ); pMapperMethod->SetParent( this ); pMapperMethod->SetFlags( SbxFlagBits::Read ); pMethods->Put( pMapperMethod, pMethods->Count() ); } pMapperMethod->bInvalid = false; return pMapperMethod; } SbIfaceMapperMethod::~SbIfaceMapperMethod() { } // From the code generator: remove invalid entries void SbModule::EndDefinitions( bool bNewState ) { for( sal_uInt16 i = 0; i < pMethods->Count(); ) { SbMethod* p = dynamic_cast( pMethods->Get( i ) ); if( p ) { if( p->bInvalid ) { pMethods->Remove( p ); } else { p->bInvalid = bNewState; i++; } } else i++; } SetModified( true ); } void SbModule::Clear() { delete pImage; pImage = nullptr; if( pClassData ) pClassData->clear(); SbxObject::Clear(); } SbxVariable* SbModule::Find( const OUString& rName, SbxClassType t ) { // make sure a search in an uninstatiated class module will fail SbxVariable* pRes = SbxObject::Find( rName, t ); if ( bIsProxyModule && !GetSbData()->bRunInit ) { return nullptr; } if( !pRes && pImage ) { SbiInstance* pInst = GetSbData()->pInst; if( pInst && pInst->IsCompatibility() ) { // Put enum types as objects into module, // allows MyEnum.First notation SbxArrayRef xArray = pImage->GetEnums(); if( xArray.Is() ) { SbxVariable* pEnumVar = xArray->Find( rName, SbxCLASS_DONTCARE ); SbxObject* pEnumObject = dynamic_cast( pEnumVar ); if( pEnumObject ) { bool bPrivate = pEnumObject->IsSet( SbxFlagBits::Private ); OUString aEnumName = pEnumObject->GetName(); pRes = new SbxVariable( SbxOBJECT ); pRes->SetName( aEnumName ); pRes->SetParent( this ); pRes->SetFlag( SbxFlagBits::Read ); if( bPrivate ) { pRes->SetFlag( SbxFlagBits::Private ); } pRes->PutObject( pEnumObject ); } } } } return pRes; } const OUString& SbModule::GetSource() const { return aOUSource; } // Parent and BASIC are one! void SbModule::SetParent( SbxObject* p ) { pParent = p; } void SbModule::Notify( SfxBroadcaster& rBC, const SfxHint& rHint ) { const SbxHint* pHint = dynamic_cast(&rHint); if( pHint ) { SbxVariable* pVar = pHint->GetVar(); SbProperty* pProp = dynamic_cast( pVar ); SbMethod* pMeth = dynamic_cast( pVar ); SbProcedureProperty* pProcProperty = dynamic_cast( pVar ); if( pProcProperty ) { if( pHint->GetId() == SBX_HINT_DATAWANTED ) { OUString aProcName("Property Get "); aProcName += pProcProperty->GetName(); SbxVariable* pMethVar = Find( aProcName, SbxCLASS_METHOD ); if( pMethVar ) { SbxValues aVals; aVals.eType = SbxVARIANT; SbxArray* pArg = pVar->GetParameters(); sal_uInt16 nVarParCount = (pArg != nullptr) ? pArg->Count() : 0; if( nVarParCount > 1 ) { SbxArrayRef xMethParameters = new SbxArray; xMethParameters->Put( pMethVar, 0 ); // Method as parameter 0 for( sal_uInt16 i = 1 ; i < nVarParCount ; ++i ) { SbxVariable* pPar = pArg->Get( i ); xMethParameters->Put( pPar, i ); } pMethVar->SetParameters( xMethParameters ); pMethVar->Get( aVals ); pMethVar->SetParameters( nullptr ); } else { pMethVar->Get( aVals ); } pVar->Put( aVals ); } } else if( pHint->GetId() == SBX_HINT_DATACHANGED ) { SbxVariable* pMethVar = nullptr; bool bSet = pProcProperty->isSet(); if( bSet ) { pProcProperty->setSet( false ); OUString aProcName("Property Set "); aProcName += pProcProperty->GetName(); pMethVar = Find( aProcName, SbxCLASS_METHOD ); } if( !pMethVar ) // Let { OUString aProcName("Property Let " ); aProcName += pProcProperty->GetName(); pMethVar = Find( aProcName, SbxCLASS_METHOD ); } if( pMethVar ) { // Setup parameters SbxArrayRef xArray = new SbxArray; xArray->Put( pMethVar, 0 ); // Method as parameter 0 xArray->Put( pVar, 1 ); pMethVar->SetParameters( xArray ); SbxValues aVals; pMethVar->Get( aVals ); pMethVar->SetParameters( nullptr ); } } } if( pProp ) { if( pProp->GetModule() != this ) SetError( ERRCODE_SBX_BAD_ACTION ); } else if( pMeth ) { if( pHint->GetId() == SBX_HINT_DATAWANTED ) { if( pMeth->bInvalid && !Compile() ) { // auto compile has not worked! StarBASIC::Error( ERRCODE_BASIC_BAD_PROP_VALUE ); } else { // Call of a subprogram SbModule* pOld = GetSbData()->pMod; GetSbData()->pMod = this; Run( static_cast(pVar) ); GetSbData()->pMod = pOld; } } } else { // #i92642: Special handling for name property to avoid // side effects when using name as variable implicitly bool bForwardToSbxObject = true; const sal_uInt32 nId = pHint->GetId(); if( (nId == SBX_HINT_DATAWANTED || nId == SBX_HINT_DATACHANGED) && pVar->GetName().equalsIgnoreAsciiCase( "name" ) ) { bForwardToSbxObject = false; } if( bForwardToSbxObject ) { SbxObject::Notify( rBC, rHint ); } } } } // The setting of the source makes the image invalid // and scans the method definitions newly in void SbModule::SetSource32( const OUString& r ) { // Default basic mode to library container mode, but.. allow Option VBASupport 0/1 override SetVBACompat( getDefaultVBAMode( static_cast< StarBASIC*>( GetParent() ) ) ); aOUSource = r; StartDefinitions(); SbiTokenizer aTok( r ); aTok.SetCompatible( IsVBACompat() ); while( !aTok.IsEof() ) { SbiToken eEndTok = NIL; // Searching for SUB or FUNCTION SbiToken eLastTok = NIL; while( !aTok.IsEof() ) { // #32385: not by declare SbiToken eCurTok = aTok.Next(); if( eLastTok != DECLARE ) { if( eCurTok == SUB ) { eEndTok = ENDSUB; break; } if( eCurTok == FUNCTION ) { eEndTok = ENDFUNC; break; } if( eCurTok == PROPERTY ) { eEndTok = ENDPROPERTY; break; } if( eCurTok == OPTION ) { eCurTok = aTok.Next(); if( eCurTok == COMPATIBLE ) { aTok.SetCompatible( true ); } else if ( ( eCurTok == VBASUPPORT ) && ( aTok.Next() == NUMBER ) ) { bool bIsVBA = ( aTok.GetDbl()== 1 ); SetVBACompat( bIsVBA ); aTok.SetCompatible( bIsVBA ); } } } eLastTok = eCurTok; } // Definition of the method SbMethod* pMeth = nullptr; if( eEndTok != NIL ) { sal_uInt16 nLine1 = aTok.GetLine(); if( aTok.Next() == SYMBOL ) { OUString aName_( aTok.GetSym() ); SbxDataType t = aTok.GetType(); if( t == SbxVARIANT && eEndTok == ENDSUB ) { t = SbxVOID; } pMeth = GetMethod( aName_, t ); pMeth->nLine1 = pMeth->nLine2 = nLine1; // The method is for a start VALID pMeth->bInvalid = false; } else { eEndTok = NIL; } } // Skip up to END SUB/END FUNCTION if( eEndTok != NIL ) { while( !aTok.IsEof() ) { if( aTok.Next() == eEndTok ) { pMeth->nLine2 = aTok.GetLine(); break; } } if( aTok.IsEof() ) { pMeth->nLine2 = aTok.GetLine(); } } } EndDefinitions( true ); } // Broadcast of a hint to all Basics static void _SendHint( SbxObject* pObj, sal_uInt32 nId, SbMethod* p ) { // Self a BASIC? if( dynamic_cast(pObj) != nullptr && pObj->IsBroadcaster() ) pObj->GetBroadcaster().Broadcast( SbxHint( nId, p ) ); // Then ask for the subobjects SbxArray* pObjs = pObj->GetObjects(); for( sal_uInt16 i = 0; i < pObjs->Count(); i++ ) { SbxVariable* pVar = pObjs->Get( i ); if( dynamic_cast(pVar) != nullptr ) _SendHint( dynamic_cast( pVar), nId, p ); } } static void SendHint( SbxObject* pObj, sal_uInt32 nId, SbMethod* p ) { while( pObj->GetParent() ) pObj = pObj->GetParent(); _SendHint( pObj, nId, p ); } // #57841 Clear Uno-Objects, which were helt in RTL functions, // at the end of the program, so that nothing were helt. void ClearUnoObjectsInRTL_Impl_Rek( StarBASIC* pBasic ) { // delete the return value of CreateUnoService SbxVariable* pVar = pBasic->GetRtl()->Find( "CreateUnoService", SbxCLASS_METHOD ); if( pVar ) { pVar->SbxValue::Clear(); } // delete the return value of CreateUnoDialog pVar = pBasic->GetRtl()->Find( "CreateUnoDialog", SbxCLASS_METHOD ); if( pVar ) { pVar->SbxValue::Clear(); } // delete the return value of CDec pVar = pBasic->GetRtl()->Find( "CDec", SbxCLASS_METHOD ); if( pVar ) { pVar->SbxValue::Clear(); } // delete return value of CreateObject pVar = pBasic->GetRtl()->Find( "CreateObject", SbxCLASS_METHOD ); if( pVar ) { pVar->SbxValue::Clear(); } // Go over all Sub-Basics SbxArray* pObjs = pBasic->GetObjects(); sal_uInt16 nCount = pObjs->Count(); for( sal_uInt16 i = 0 ; i < nCount ; i++ ) { SbxVariable* pObjVar = pObjs->Get( i ); StarBASIC* pSubBasic = dynamic_cast( pObjVar ); if( pSubBasic ) { ClearUnoObjectsInRTL_Impl_Rek( pSubBasic ); } } } void ClearUnoObjectsInRTL_Impl( StarBASIC* pBasic ) { // #67781 Delete return values of the Uno-methods clearUnoMethods(); clearUnoServiceCtors(); ClearUnoObjectsInRTL_Impl_Rek( pBasic ); // Search for the topmost Basic SbxObject* p = pBasic; while( p->GetParent() ) p = p->GetParent(); if( static_cast(p) != pBasic ) ClearUnoObjectsInRTL_Impl_Rek( static_cast(p) ); } void SbModule::SetVBACompat( bool bCompat ) { if( mbVBACompat != bCompat ) { mbVBACompat = bCompat; // initialize VBA document API if( mbVBACompat ) try { StarBASIC* pBasic = static_cast< StarBASIC* >( GetParent() ); uno::Reference< lang::XMultiServiceFactory > xFactory( getDocumentModel( pBasic ), uno::UNO_QUERY_THROW ); xFactory->createInstance( "ooo.vba.VBAGlobals" ); } catch( Exception& ) { } } } // Run a Basic-subprogram void SbModule::Run( SbMethod* pMeth ) { SAL_INFO("basic","About to run " << OUStringToOString( pMeth->GetName(), RTL_TEXTENCODING_UTF8 ).getStr() << ", vba compatmode is " << mbVBACompat ); static sal_uInt16 nMaxCallLevel = 0; bool bDelInst = ( GetSbData()->pInst == nullptr ); bool bQuit = false; StarBASICRef xBasic; uno::Reference< frame::XModel > xModel; uno::Reference< script::vba::XVBACompatibility > xVBACompat; if( bDelInst ) { // #32779: Hold Basic during the execution xBasic = static_cast( GetParent() ); GetSbData()->pInst = new SbiInstance( static_cast(GetParent()) ); /* If a VBA script in a document is started, get the VBA compatibility interface from the document Basic library container, and notify all VBA script listeners about the started script. */ if( mbVBACompat ) { StarBASIC* pBasic = static_cast< StarBASIC* >( GetParent() ); if( pBasic && pBasic->IsDocBasic() ) try { xModel.set( getDocumentModel( pBasic ), uno::UNO_SET_THROW ); xVBACompat.set( getVBACompatibility( xModel ), uno::UNO_SET_THROW ); xVBACompat->broadcastVBAScriptEvent( script::vba::VBAScriptEventId::SCRIPT_STARTED, GetName() ); } catch(const uno::Exception& ) { } } // Launcher problem // i80726 The Find below will generate an error in Testtool so we reset it unless there was one before already bool bWasError = SbxBase::GetError() != 0; SbxVariable* pMSOMacroRuntimeLibVar = Find( "Launcher", SbxCLASS_OBJECT ); if ( !bWasError && (SbxBase::GetError() == ERRCODE_SBX_PROC_UNDEFINED) ) SbxBase::ResetError(); if( pMSOMacroRuntimeLibVar ) { StarBASIC* pMSOMacroRuntimeLib = dynamic_cast( pMSOMacroRuntimeLibVar ); if( pMSOMacroRuntimeLib ) { SbxFlagBits nGblFlag = pMSOMacroRuntimeLib->GetFlags() & SbxFlagBits::GlobalSearch; pMSOMacroRuntimeLib->ResetFlag( SbxFlagBits::GlobalSearch ); SbxVariable* pAppSymbol = pMSOMacroRuntimeLib->Find( "Application", SbxCLASS_METHOD ); pMSOMacroRuntimeLib->SetFlag( nGblFlag ); if( pAppSymbol ) { pMSOMacroRuntimeLib->SetFlag( SbxFlagBits::ExtSearch ); // Could have been disabled before GetSbData()->pMSOMacroRuntimLib = pMSOMacroRuntimeLib; } } } if( nMaxCallLevel == 0 ) { #ifdef UNX struct rlimit rl; getrlimit ( RLIMIT_STACK, &rl ); #endif #if defined LINUX // Empiric value, 900 = needed bytes/Basic call level // for Linux including 10% safety margin nMaxCallLevel = rl.rlim_cur / 900; #elif defined SOLARIS // Empiric value, 1650 = needed bytes/Basic call level // for Solaris including 10% safety margin nMaxCallLevel = rl.rlim_cur / 1650; #elif defined WIN32 nMaxCallLevel = 5800; #else nMaxCallLevel = MAXRECURSION; #endif } } // Recursion to deep? if( ++GetSbData()->pInst->nCallLvl <= nMaxCallLevel ) { // Define a globale variable in all Mods GlobalRunInit( /* bBasicStart = */ bDelInst ); // Appeared a compiler error? Then we don't launch if( !GetSbData()->bGlobalInitErr ) { if( bDelInst ) { SendHint( GetParent(), SBX_HINT_BASICSTART, pMeth ); // 1996-10-16: #31460 New concept for StepInto/Over/Out // For an explanation see runtime.cxx at SbiInstance::CalcBreakCallLevel() // Identify the BreakCallLevel GetSbData()->pInst->CalcBreakCallLevel( pMeth->GetDebugFlags() ); } SbModule* pOldMod = GetSbData()->pMod; GetSbData()->pMod = this; SbiRuntime* pRt = new SbiRuntime( this, pMeth, pMeth->nStart ); pRt->pNext = GetSbData()->pInst->pRun; if( pRt->pNext ) pRt->pNext->block(); GetSbData()->pInst->pRun = pRt; if ( mbVBACompat ) { GetSbData()->pInst->EnableCompatibility( true ); } while( pRt->Step() ) {} if( pRt->pNext ) pRt->pNext->unblock(); // #63710 It can happen by an another thread handling at events, // that the show call returns to an dialog (by closing the // dialog per UI), before a by an event triggered further call returned, // which stands in Basic more top in the stack and that had been run on // a Basic-Breakpoint. Then would the instance below destroyed. And if the Basic, // that stand still in the call, further runs, there is a GPF. // Thus here had to be wait until the other call comes back. if( bDelInst ) { // Compare here with 1 instead of 0, because before nCallLvl-- while( GetSbData()->pInst->nCallLvl != 1 ) Application::Yield(); } GetSbData()->pInst->pRun = pRt->pNext; GetSbData()->pInst->nCallLvl--; // Call-Level down again // Exist an higher-ranking runtime instance? // Then take over SbDEBUG_BREAK, if set SbiRuntime* pRtNext = pRt->pNext; if( pRtNext && (pRt->GetDebugFlags() & SbDEBUG_BREAK) ) pRtNext->SetDebugFlags( SbDEBUG_BREAK ); delete pRt; GetSbData()->pMod = pOldMod; if( bDelInst ) { // #57841 Clear Uno-Objects, which were helt in RTL functions, // at the end of the program, so that nothing were helt. ClearUnoObjectsInRTL_Impl( xBasic ); clearNativeObjectWrapperVector(); SAL_WARN_IF(GetSbData()->pInst->nCallLvl != 0,"basic","BASIC-Call-Level > 0"); delete GetSbData()->pInst, GetSbData()->pInst = nullptr, bDelInst = false; // #i30690 SolarMutexGuard aSolarGuard; SendHint( GetParent(), SBX_HINT_BASICSTOP, pMeth ); GlobalRunDeInit(); if( xVBACompat.is() ) { // notify all VBA script listeners about the stopped script try { xVBACompat->broadcastVBAScriptEvent( script::vba::VBAScriptEventId::SCRIPT_STOPPED, GetName() ); } catch(const uno::Exception& ) { } // VBA always ensures screenupdating is enabled after completing ::basic::vba::lockControllersOfAllDocuments( xModel, false ); ::basic::vba::enableContainerWindowsOfAllDocuments( xModel, true ); } } } else GetSbData()->pInst->nCallLvl--; // Call-Level down again } else { GetSbData()->pInst->nCallLvl--; // Call-Level down again StarBASIC::FatalError( ERRCODE_BASIC_STACK_OVERFLOW ); } StarBASIC* pBasic = dynamic_cast( GetParent() ); if( bDelInst ) { // #57841 Clear Uno-Objects, which were helt in RTL functions, // the end of the program, so that nothing were helt. ClearUnoObjectsInRTL_Impl( xBasic ); delete GetSbData()->pInst; GetSbData()->pInst = nullptr; } if ( pBasic && pBasic->IsDocBasic() && pBasic->IsQuitApplication() && !GetSbData()->pInst ) bQuit = true; if ( bQuit ) { Application::PostUserEvent( LINK( &AsyncQuitHandler::instance(), AsyncQuitHandler, OnAsyncQuit ) ); } } // Execute of the init method of a module after the loading // or the compilation void SbModule::RunInit() { if( pImage && !pImage->bInit && pImage->IsFlag( SbiImageFlags::INITCODE ) ) { // Set flag, so that RunInit get activ (Testtool) GetSbData()->bRunInit = true; SbModule* pOldMod = GetSbData()->pMod; GetSbData()->pMod = this; // The init code starts always here SbiRuntime* pRt = new SbiRuntime( this, nullptr, 0 ); pRt->pNext = GetSbData()->pInst->pRun; GetSbData()->pInst->pRun = pRt; while( pRt->Step() ) {} GetSbData()->pInst->pRun = pRt->pNext; delete pRt; GetSbData()->pMod = pOldMod; pImage->bInit = true; pImage->bFirstInit = false; // RunInit is not activ anymore GetSbData()->bRunInit = false; } } // Delete with private/dim declared variables void SbModule::AddVarName( const OUString& aName ) { // see if the name is added already for ( const auto& rModuleVariableName: mModuleVariableNames ) { if ( aName == rModuleVariableName ) return; } mModuleVariableNames.push_back( aName ); } void SbModule::RemoveVars() { for ( const auto& rModuleVariableName: mModuleVariableNames ) { // We don't want a Find being called in a derived class ( e.g. // SbUserform because it could trigger say an initialise event // which would cause basic to be re-run in the middle of the init ( and remember RemoveVars is called from compile and we don't want code to run as part of the compile ) SbxVariableRef p = SbModule::Find( rModuleVariableName, SbxCLASS_PROPERTY ); if( p.Is() ) Remove (p); } } void SbModule::ClearPrivateVars() { for( sal_uInt16 i = 0 ; i < pProps->Count() ; i++ ) { SbProperty* p = dynamic_cast( pProps->Get( i ) ); if( p ) { // Delete not the arrays, only their content if( p->GetType() & SbxARRAY ) { SbxArray* pArray = dynamic_cast( p->GetObject() ); if( pArray ) { for( sal_uInt16 j = 0 ; j < pArray->Count() ; j++ ) { SbxVariable* pj = dynamic_cast( pArray->Get( j ) ); pj->SbxValue::Clear(); } } } else { p->SbxValue::Clear(); } } } } void SbModule::implClearIfVarDependsOnDeletedBasic( SbxVariable* pVar, StarBASIC* pDeletedBasic ) { if( pVar->SbxValue::GetType() != SbxOBJECT || nullptr != dynamic_cast( pVar) ) return; SbxObject* pObj = dynamic_cast( pVar->GetObject() ); if( pObj != nullptr ) { SbxObject* p = pObj; SbModule* pMod = dynamic_cast( p ); if( pMod != nullptr ) pMod->ClearVarsDependingOnDeletedBasic( pDeletedBasic ); while( (p = p->GetParent()) != nullptr ) { StarBASIC* pBasic = dynamic_cast( p ); if( pBasic != nullptr && pBasic == pDeletedBasic ) { pVar->SbxValue::Clear(); break; } } } } void SbModule::ClearVarsDependingOnDeletedBasic( StarBASIC* pDeletedBasic ) { (void)pDeletedBasic; for( sal_uInt16 i = 0 ; i < pProps->Count() ; i++ ) { SbProperty* p = dynamic_cast( pProps->Get( i ) ); if( p ) { if( p->GetType() & SbxARRAY ) { SbxArray* pArray = dynamic_cast( p->GetObject() ); if( pArray ) { for( sal_uInt16 j = 0 ; j < pArray->Count() ; j++ ) { SbxVariable* pVar = dynamic_cast( pArray->Get( j ) ); implClearIfVarDependsOnDeletedBasic( pVar, pDeletedBasic ); } } } else { implClearIfVarDependsOnDeletedBasic( p, pDeletedBasic ); } } } } void StarBASIC::ClearAllModuleVars() { // Initialise the own module for (const auto& rModule: pModules) { // Initialise only, if the startcode was already executed if( rModule->pImage && rModule->pImage->bInit && !rModule->isProxyModule() && nullptr == dynamic_cast( rModule.get()) ) rModule->ClearPrivateVars(); } } // Execution of the init-code of all module void SbModule::GlobalRunInit( bool bBasicStart ) { // If no Basic-Start, only initialise, if the module is not initialised if( !bBasicStart ) if( !(pImage && !pImage->bInit) ) return; // Initialise GlobalInitErr-Flag for Compiler-Error // With the help of this flags could be located in SbModule::Run() after the call of // GlobalRunInit, if at the initialising of the module // an error occurred. Then it will not be launched. GetSbData()->bGlobalInitErr = false; // Parent of the module is a Basic StarBASIC *pBasic = dynamic_cast( GetParent() ); if( pBasic ) { pBasic->InitAllModules(); SbxObject* pParent_ = pBasic->GetParent(); if( pParent_ ) { StarBASIC * pParentBasic = dynamic_cast( pParent_ ); if( pParentBasic ) { pParentBasic->InitAllModules( pBasic ); // #109018 Parent can also have a parent (library in doc) SbxObject* pParentParent = pParentBasic->GetParent(); if( pParentParent ) { StarBASIC * pParentParentBasic = dynamic_cast( pParentParent ); if( pParentParentBasic ) pParentParentBasic->InitAllModules( pParentBasic ); } } } } } void SbModule::GlobalRunDeInit() { StarBASIC *pBasic = dynamic_cast( GetParent() ); if( pBasic ) { pBasic->DeInitAllModules(); SbxObject* pParent_ = pBasic->GetParent(); if( pParent_ ) pBasic = dynamic_cast( pParent_ ); if( pBasic ) pBasic->DeInitAllModules(); } } // Search for the next STMNT-Command in the code. This was used from the STMNT- // Opcode to set the endcolumn. const sal_uInt8* SbModule::FindNextStmnt( const sal_uInt8* p, sal_uInt16& nLine, sal_uInt16& nCol ) const { return FindNextStmnt( p, nLine, nCol, false ); } const sal_uInt8* SbModule::FindNextStmnt( const sal_uInt8* p, sal_uInt16& nLine, sal_uInt16& nCol, bool bFollowJumps, const SbiImage* pImg ) const { sal_uInt32 nPC = (sal_uInt32) ( p - reinterpret_cast(pImage->GetCode()) ); while( nPC < pImage->GetCodeSize() ) { SbiOpcode eOp = (SbiOpcode ) ( *p++ ); nPC++; if( bFollowJumps && eOp == _JUMP && pImg ) { SAL_WARN_IF( !pImg, "basic", "FindNextStmnt: pImg==NULL with FollowJumps option" ); sal_uInt32 nOp1 = *p++; nOp1 |= *p++ << 8; nOp1 |= *p++ << 16; nOp1 |= *p++ << 24; p = reinterpret_cast(pImg->GetCode()) + nOp1; } else if( eOp >= SbOP1_START && eOp <= SbOP1_END ) p += 4, nPC += 4; else if( eOp == _STMNT ) { sal_uInt32 nl, nc; nl = *p++; nl |= *p++ << 8; nl |= *p++ << 16 ; nl |= *p++ << 24; nc = *p++; nc |= *p++ << 8; nc |= *p++ << 16 ; nc |= *p++ << 24; nLine = (sal_uInt16)nl; nCol = (sal_uInt16)nc; return p; } else if( eOp >= SbOP2_START && eOp <= SbOP2_END ) p += 8, nPC += 8; else if( !( eOp >= SbOP0_START && eOp <= SbOP0_END ) ) { StarBASIC::FatalError( ERRCODE_BASIC_INTERNAL_ERROR ); break; } } return nullptr; } // Test, if a line contains STMNT-Opcodes bool SbModule::IsBreakable( sal_uInt16 nLine ) const { if( !pImage ) return false; const sal_uInt8* p = reinterpret_cast(pImage->GetCode()); sal_uInt16 nl, nc; while( ( p = FindNextStmnt( p, nl, nc ) ) != nullptr ) if( nl == nLine ) return true; return false; } bool SbModule::IsBP( sal_uInt16 nLine ) const { if( pBreaks ) { for( size_t i = 0; i < pBreaks->size(); i++ ) { sal_uInt16 b = pBreaks->operator[]( i ); if( b == nLine ) return true; if( b < nLine ) break; } } return false; } bool SbModule::SetBP( sal_uInt16 nLine ) { if( !IsBreakable( nLine ) ) return false; if( !pBreaks ) pBreaks = new SbiBreakpoints; size_t i; for( i = 0; i < pBreaks->size(); i++ ) { sal_uInt16 b = pBreaks->operator[]( i ); if( b == nLine ) return true; if( b < nLine ) break; } pBreaks->insert( pBreaks->begin() + i, nLine ); // #38568: Set during runtime as well here SbDEBUG_BREAK if( GetSbData()->pInst && GetSbData()->pInst->pRun ) GetSbData()->pInst->pRun->SetDebugFlags( SbDEBUG_BREAK ); return IsBreakable( nLine ); } bool SbModule::ClearBP( sal_uInt16 nLine ) { bool bRes = false; if( pBreaks ) { for( size_t i = 0; i < pBreaks->size(); i++ ) { sal_uInt16 b = pBreaks->operator[]( i ); if( b == nLine ) { pBreaks->erase( pBreaks->begin() + i ); bRes = true; break; } if( b < nLine ) break; } if( pBreaks->empty() ) delete pBreaks, pBreaks = nullptr; } return bRes; } void SbModule::ClearAllBP() { delete pBreaks; pBreaks = nullptr; } void SbModule::fixUpMethodStart( bool bCvtToLegacy, SbiImage* pImg ) const { if ( !pImg ) pImg = pImage; for( sal_uInt32 i = 0; i < pMethods->Count(); i++ ) { SbMethod* pMeth = dynamic_cast( pMethods->Get( (sal_uInt16)i ) ); if( pMeth ) { //fixup method start positions if ( bCvtToLegacy ) pMeth->nStart = pImg->CalcLegacyOffset( pMeth->nStart ); else pMeth->nStart = pImg->CalcNewOffset( (sal_uInt16)pMeth->nStart ); } } } bool SbModule::LoadData( SvStream& rStrm, sal_uInt16 nVer ) { Clear(); if( !SbxObject::LoadData( rStrm, 1 ) ) return false; // As a precaution... SetFlag( SbxFlagBits::ExtSearch | SbxFlagBits::GlobalSearch ); sal_uInt8 bImage; rStrm.ReadUChar( bImage ); if( bImage ) { SbiImage* p = new SbiImage; sal_uInt32 nImgVer = 0; if( !p->Load( rStrm, nImgVer ) ) { delete p; return false; } // If the image is in old format, we fix up the method start offsets if ( nImgVer < B_EXT_IMG_VERSION ) { fixUpMethodStart( false, p ); p->ReleaseLegacyBuffer(); } aComment = p->aComment; SetName( p->aName ); if( p->GetCodeSize() ) { aOUSource = p->aOUSource; // Old version: image away if( nVer == 1 ) { SetSource32( p->aOUSource ); delete p; } else pImage = p; } else { SetSource32( p->aOUSource ); delete p; } } return true; } bool SbModule::StoreData( SvStream& rStrm ) const { bool bFixup = ( pImage && !pImage->ExceedsLegacyLimits() ); if ( bFixup ) fixUpMethodStart( true ); bool bRet = SbxObject::StoreData( rStrm ); if ( !bRet ) return false; if( pImage ) { pImage->aOUSource = aOUSource; pImage->aComment = aComment; pImage->aName = GetName(); rStrm.WriteUChar( 1 ); // # PCode is saved only for legacy formats only // It should be noted that it probably isn't necessary // It would be better not to store the image ( more flexible with // formats ) bool bRes = pImage->Save( rStrm, B_LEGACYVERSION ); if ( bFixup ) fixUpMethodStart( false ); // restore method starts return bRes; } else { SbiImage aImg; aImg.aOUSource = aOUSource; aImg.aComment = aComment; aImg.aName = GetName(); rStrm.WriteUChar( 1 ); return aImg.Save( rStrm ); } } bool SbModule::ExceedsLegacyModuleSize() { if ( !IsCompiled() ) Compile(); if ( pImage && pImage->ExceedsLegacyLimits() ) return true; return false; } class ErrorHdlResetter { Link mErrHandler; bool mbError; public: ErrorHdlResetter() : mbError( false ) { // save error handler mErrHandler = StarBASIC::GetGlobalErrorHdl(); // set new error handler StarBASIC::SetGlobalErrorHdl( LINK( this, ErrorHdlResetter, BasicErrorHdl ) ); } ~ErrorHdlResetter() { // restore error handler StarBASIC::SetGlobalErrorHdl(mErrHandler); } DECL_LINK_TYPED( BasicErrorHdl, StarBASIC *, bool ); bool HasError() { return mbError; } }; IMPL_LINK_TYPED( ErrorHdlResetter, BasicErrorHdl, StarBASIC *, /*pBasic*/, bool) { mbError = true; return false; } void SbModule::GetCodeCompleteDataFromParse(CodeCompleteDataCache& aCache) { ErrorHdlResetter aErrHdl; SbxBase::ResetError(); std::unique_ptr pParser(new SbiParser( static_cast(GetParent()), this )); pParser->SetCodeCompleting(true); while( pParser->Parse() ) {} SbiSymPool* pPool = pParser->pPool; aCache.Clear(); for( sal_uInt16 i = 0; i < pPool->GetSize(); ++i ) { SbiSymDef* pSymDef = pPool->Get(i); //std::cerr << "i: " << i << ", type: " << pSymDef->GetType() << "; name:" << pSymDef->GetName() << std::endl; if( (pSymDef->GetType() != SbxEMPTY) && (pSymDef->GetType() != SbxNULL) ) aCache.InsertGlobalVar( pSymDef->GetName(), pParser->aGblStrings.Find(pSymDef->GetTypeId()) ); SbiSymPool& pChildPool = pSymDef->GetPool(); for(sal_uInt16 j = 0; j < pChildPool.GetSize(); ++j ) { SbiSymDef* pChildSymDef = pChildPool.Get(j); //std::cerr << "j: " << j << ", type: " << pChildSymDef->GetType() << "; name:" << pChildSymDef->GetName() << std::endl; if( (pChildSymDef->GetType() != SbxEMPTY) && (pChildSymDef->GetType() != SbxNULL) ) aCache.InsertLocalVar( pSymDef->GetName(), pChildSymDef->GetName(), pParser->aGblStrings.Find(pChildSymDef->GetTypeId()) ); } } } OUString SbModule::GetKeywordCase( const OUString& sKeyword ) { return SbiParser::GetKeywordCase( sKeyword ); } bool SbModule::HasExeCode() { // And empty Image always has the Global Chain set up static const unsigned char pEmptyImage[] = { 0x45, 0x0 , 0x0, 0x0, 0x0 }; // lets be stricter for the moment than VBA if (!IsCompiled()) { ErrorHdlResetter aGblErrHdl; Compile(); if (aGblErrHdl.HasError()) //assume unsafe on compile error return true; } bool bRes = false; if (pImage && !(pImage->GetCodeSize() == 5 && (memcmp(pImage->GetCode(), pEmptyImage, pImage->GetCodeSize()) == 0 ))) bRes = true; return bRes; } // Store only image, no source bool SbModule::StoreBinaryData( SvStream& rStrm, sal_uInt16 nVer ) { bool bRet = Compile(); if( bRet ) { bool bFixup = ( !nVer && !pImage->ExceedsLegacyLimits() );// save in old image format, fix up method starts if ( bFixup ) // save in old image format, fix up method starts fixUpMethodStart( true ); bRet = SbxObject::StoreData( rStrm ); if( bRet ) { (pImage->aOUSource).clear(); pImage->aComment = aComment; pImage->aName = GetName(); rStrm.WriteUChar( 1 ); if ( nVer ) bRet = pImage->Save( rStrm ); else bRet = pImage->Save( rStrm, B_LEGACYVERSION ); if ( bFixup ) fixUpMethodStart( false ); // restore method starts pImage->aOUSource = aOUSource; } } return bRet; } // Called for >= OO 1.0 passwd protected libraries only bool SbModule::LoadBinaryData( SvStream& rStrm ) { OUString aKeepSource = aOUSource; bool bRet = LoadData( rStrm, 2 ); LoadCompleted(); aOUSource = aKeepSource; return bRet; } bool SbModule::LoadCompleted() { SbxArray* p = GetMethods(); sal_uInt16 i; for( i = 0; i < p->Count(); i++ ) { SbMethod* q = dynamic_cast( p->Get( i ) ); if( q ) q->pMod = this; } p = GetProperties(); for( i = 0; i < p->Count(); i++ ) { SbProperty* q = dynamic_cast( p->Get( i ) ); if( q ) q->pMod = this; } return true; } void SbModule::handleProcedureProperties( SfxBroadcaster& rBC, const SfxHint& rHint ) { bool bDone = false; const SbxHint* pHint = dynamic_cast(&rHint); if( pHint ) { SbxVariable* pVar = pHint->GetVar(); SbProcedureProperty* pProcProperty = dynamic_cast( pVar ); if( pProcProperty ) { bDone = true; if( pHint->GetId() == SBX_HINT_DATAWANTED ) { OUString aProcName("Property Get "); aProcName += pProcProperty->GetName(); SbxVariable* pMeth = Find( aProcName, SbxCLASS_METHOD ); if( pMeth ) { SbxValues aVals; aVals.eType = SbxVARIANT; SbxArray* pArg = pVar->GetParameters(); sal_uInt16 nVarParCount = (pArg != nullptr) ? pArg->Count() : 0; if( nVarParCount > 1 ) { SbxArrayRef xMethParameters = new SbxArray; xMethParameters->Put( pMeth, 0 ); // Method as parameter 0 for( sal_uInt16 i = 1 ; i < nVarParCount ; ++i ) { SbxVariable* pPar = pArg->Get( i ); xMethParameters->Put( pPar, i ); } pMeth->SetParameters( xMethParameters ); pMeth->Get( aVals ); pMeth->SetParameters( nullptr ); } else { pMeth->Get( aVals ); } pVar->Put( aVals ); } } else if( pHint->GetId() == SBX_HINT_DATACHANGED ) { SbxVariable* pMeth = nullptr; bool bSet = pProcProperty->isSet(); if( bSet ) { pProcProperty->setSet( false ); OUString aProcName("Property Set " ); aProcName += pProcProperty->GetName(); pMeth = Find( aProcName, SbxCLASS_METHOD ); } if( !pMeth ) // Let { OUString aProcName("Property Let " ); aProcName += pProcProperty->GetName(); pMeth = Find( aProcName, SbxCLASS_METHOD ); } if( pMeth ) { // Setup parameters SbxArrayRef xArray = new SbxArray; xArray->Put( pMeth, 0 ); // Method as parameter 0 xArray->Put( pVar, 1 ); pMeth->SetParameters( xArray ); SbxValues aVals; pMeth->Get( aVals ); pMeth->SetParameters( nullptr ); } } } } if( !bDone ) SbModule::Notify( rBC, rHint ); } // Implementation SbJScriptModule (Basic module for JavaScript source code) SbJScriptModule::SbJScriptModule( const OUString& rName ) :SbModule( rName ) { } bool SbJScriptModule::LoadData( SvStream& rStrm, sal_uInt16 nVer ) { (void)nVer; Clear(); if( !SbxObject::LoadData( rStrm, 1 ) ) return false; // Get the source string aOUSource = rStrm.ReadUniOrByteString( osl_getThreadTextEncoding() ); return true; } bool SbJScriptModule::StoreData( SvStream& rStrm ) const { if( !SbxObject::StoreData( rStrm ) ) return false; // Write the source string OUString aTmp = aOUSource; rStrm.WriteUniOrByteString( aTmp, osl_getThreadTextEncoding() ); return true; } SbMethod::SbMethod( const OUString& r, SbxDataType t, SbModule* p ) : SbxMethod( r, t ), pMod( p ) { bInvalid = true; nStart = nDebugFlags = nLine1 = nLine2 = 0; refStatics = new SbxArray; mCaller = nullptr; // HACK due to 'Referenz could not be saved' SetFlag( SbxFlagBits::NoModify ); } SbMethod::SbMethod( const SbMethod& r ) : SvRefBase( r ), SbxMethod( r ) { pMod = r.pMod; bInvalid = r.bInvalid; nStart = r.nStart; nDebugFlags = r.nDebugFlags; nLine1 = r.nLine1; nLine2 = r.nLine2; refStatics = r.refStatics; mCaller = r.mCaller; SetFlag( SbxFlagBits::NoModify ); } SbMethod::~SbMethod() { } void SbMethod::ClearStatics() { refStatics = new SbxArray; } SbxArray* SbMethod::GetStatics() { return refStatics; } bool SbMethod::LoadData( SvStream& rStrm, sal_uInt16 nVer ) { if( !SbxMethod::LoadData( rStrm, 1 ) ) return false; sal_uInt16 nFlag; rStrm.ReadUInt16( nFlag ); sal_Int16 nTempStart = (sal_Int16)nStart; if( nVer == 2 ) { rStrm.ReadUInt16( nLine1 ).ReadUInt16( nLine2 ).ReadInt16( nTempStart ).ReadCharAsBool( bInvalid ); //tdf#94617 if (nFlag & 0x8000) { sal_uInt16 nMult = nFlag & 0x7FFF; sal_Int16 nMax = std::numeric_limits::max(); nStart = nMult * nMax + nTempStart; } else { nStart = nTempStart; } } else { nStart = nTempStart; } // HACK ue to 'Referenz could not be saved' SetFlag( SbxFlagBits::NoModify ); return true; } bool SbMethod::StoreData( SvStream& rStrm ) const { if( !SbxMethod::StoreData( rStrm ) ) return false; //tdf#94617 sal_Int16 nMax = std::numeric_limits::max(); sal_Int16 nStartTemp = nStart % nMax; sal_uInt16 nDebugFlagsTemp = nStart / nMax; nDebugFlagsTemp |= 0x8000; rStrm.WriteUInt16( nDebugFlagsTemp ) .WriteInt16( nLine1 ) .WriteInt16( nLine2 ) .WriteInt16( nStartTemp ) .WriteBool( bInvalid ); return true; } void SbMethod::GetLineRange( sal_uInt16& l1, sal_uInt16& l2 ) { l1 = nLine1; l2 = nLine2; } // Could later be deleted SbxInfo* SbMethod::GetInfo() { return pInfo; } // Interface to execute a method of the applications // With special RefCounting, so that the Basic was not fired of by CloseDocument() // The return value will be delivered as string. ErrCode SbMethod::Call( SbxValue* pRet, SbxVariable* pCaller ) { if ( pCaller ) { SAL_INFO("basic", "SbMethod::Call Have been passed a caller 0x" << pCaller ); mCaller = pCaller; } // RefCount vom Modul hochzaehlen SbModule* pMod_ = static_cast(GetParent()); pMod_->AddFirstRef(); // Increment the RefCount of the Basic StarBASIC* pBasic = static_cast(pMod_->GetParent()); pBasic->AddFirstRef(); // Establish the values to get the return value SbxValues aVals; aVals.eType = SbxVARIANT; // #104083: Compile BEFORE get if( bInvalid && !pMod_->Compile() ) StarBASIC::Error( ERRCODE_BASIC_BAD_PROP_VALUE ); Get( aVals ); if ( pRet ) pRet->Put( aVals ); // Was there an error ErrCode nErr = SbxBase::GetError(); SbxBase::ResetError(); // Release objects pMod_->ReleaseRef(); pBasic->ReleaseRef(); mCaller = nullptr; return nErr; } // #100883 Own Broadcast for SbMethod void SbMethod::Broadcast( sal_uInt32 nHintId ) { if( pCst && !IsSet( SbxFlagBits::NoBroadcast ) ) { // Because the method could be called from outside, test here once again // the authorisation if( nHintId & SBX_HINT_DATAWANTED ) if( !CanRead() ) return; if( nHintId & SBX_HINT_DATACHANGED ) if( !CanWrite() ) return; if( pMod && !pMod->IsCompiled() ) pMod->Compile(); // Block broadcasts while creating new method SfxBroadcaster* pSave = pCst; pCst = nullptr; SbMethod* pThisCopy = new SbMethod( *this ); SbMethodRef xHolder = pThisCopy; if( mpPar.Is() ) { // Enregister this as element 0, but don't reset the parent! if( GetType() != SbxVOID ) { mpPar->PutDirect( pThisCopy, 0 ); } SetParameters( nullptr ); } pCst = pSave; pSave->Broadcast( SbxHint( nHintId, pThisCopy ) ); SbxFlagBits nSaveFlags = GetFlags(); SetFlag( SbxFlagBits::ReadWrite ); pCst = nullptr; Put( pThisCopy->GetValues_Impl() ); pCst = pSave; SetFlags( nSaveFlags ); } } // Implementation of SbJScriptMethod (method class as a wrapper for JavaScript-functions) SbJScriptMethod::SbJScriptMethod( const OUString& r, SbxDataType t, SbModule* p ) : SbMethod( r, t, p ) { } SbJScriptMethod::~SbJScriptMethod() {} SbObjModule::SbObjModule( const OUString& rName, const css::script::ModuleInfo& mInfo, bool bIsVbaCompatible ) : SbModule( rName, bIsVbaCompatible ) { SetModuleType( mInfo.ModuleType ); if ( mInfo.ModuleType == script::ModuleType::FORM ) { SetClassName( "Form" ); } else if ( mInfo.ModuleObject.is() ) { SetUnoObject( uno::makeAny( mInfo.ModuleObject ) ); } } SbObjModule::~SbObjModule() { } void SbObjModule::SetUnoObject( const uno::Any& aObj ) throw ( uno::RuntimeException, std::exception ) { SbUnoObject* pUnoObj = dynamic_cast( static_cast(pDocObject) ); if ( pUnoObj && pUnoObj->getUnoAny() == aObj ) // object is equal, nothing to do return; pDocObject = new SbUnoObject( GetName(), aObj ); css::uno::Reference< css::lang::XServiceInfo > xServiceInfo( aObj, css::uno::UNO_QUERY_THROW ); if( xServiceInfo->supportsService( "ooo.vba.excel.Worksheet" ) ) { SetClassName( "Worksheet" ); } else if( xServiceInfo->supportsService( "ooo.vba.excel.Workbook" ) ) { SetClassName( "Workbook" ); } } SbxVariable* SbObjModule::GetObject() { return pDocObject; } SbxVariable* SbObjModule::Find( const OUString& rName, SbxClassType t ) { SbxVariable* pVar = nullptr; if ( pDocObject) pVar = pDocObject->Find( rName, t ); if ( !pVar ) pVar = SbModule::Find( rName, t ); return pVar; } void SbObjModule::Notify( SfxBroadcaster& rBC, const SfxHint& rHint ) { SbModule::handleProcedureProperties( rBC, rHint ); } typedef ::cppu::WeakImplHelper< awt::XTopWindowListener, awt::XWindowListener, document::XDocumentEventListener > FormObjEventListener_BASE; class FormObjEventListenerImpl: public FormObjEventListener_BASE, private boost::noncopyable { SbUserFormModule* mpUserForm; uno::Reference< lang::XComponent > mxComponent; uno::Reference< frame::XModel > mxModel; bool mbDisposed; bool mbOpened; bool mbActivated; bool mbShowing; public: FormObjEventListenerImpl( SbUserFormModule* pUserForm, const uno::Reference< lang::XComponent >& xComponent, const uno::Reference< frame::XModel >& xModel ) : mpUserForm( pUserForm ), mxComponent( xComponent), mxModel( xModel ), mbDisposed( false ), mbOpened( false ), mbActivated( false ), mbShowing( false ) { if ( mxComponent.is() ) { SAL_INFO("basic", "*********** Registering the listeners"); try { uno::Reference< awt::XTopWindow >( mxComponent, uno::UNO_QUERY_THROW )->addTopWindowListener( this ); } catch(const uno::Exception& ) {} try { uno::Reference< awt::XWindow >( mxComponent, uno::UNO_QUERY_THROW )->addWindowListener( this ); } catch(const uno::Exception& ) {} } if ( mxModel.is() ) { try { uno::Reference< document::XDocumentEventBroadcaster >( mxModel, uno::UNO_QUERY_THROW )->addDocumentEventListener( this ); } catch(const uno::Exception& ) {} } } virtual ~FormObjEventListenerImpl() { removeListener(); } bool isShowing() const { return mbShowing; } void removeListener() { if ( mxComponent.is() && !mbDisposed ) { SAL_INFO("basic", "*********** Removing the listeners"); try { uno::Reference< awt::XTopWindow >( mxComponent, uno::UNO_QUERY_THROW )->removeTopWindowListener( this ); } catch(const uno::Exception& ) {} try { uno::Reference< awt::XWindow >( mxComponent, uno::UNO_QUERY_THROW )->removeWindowListener( this ); } catch(const uno::Exception& ) {} } mxComponent.clear(); if ( mxModel.is() && !mbDisposed ) { try { uno::Reference< document::XDocumentEventBroadcaster >( mxModel, uno::UNO_QUERY_THROW )->removeDocumentEventListener( this ); } catch(const uno::Exception& ) {} } mxModel.clear(); } virtual void SAL_CALL windowOpened( const lang::EventObject& /*e*/ ) throw (uno::RuntimeException, std::exception) override { if ( mpUserForm ) { mbOpened = true; mbShowing = true; if ( mbActivated ) { mbOpened = mbActivated = false; mpUserForm->triggerActivateEvent(); } } } virtual void SAL_CALL windowClosing( const lang::EventObject& /*e*/ ) throw (uno::RuntimeException, std::exception) override { #ifdef IN_THE_FUTURE uno::Reference< awt::XDialog > xDialog( e.Source, uno::UNO_QUERY ); if ( xDialog.is() ) { uno::Reference< awt::XControl > xControl( xDialog, uno::UNO_QUERY ); if ( xControl->getPeer().is() ) { uno::Reference< document::XVbaMethodParameter > xVbaMethodParameter( xControl->getPeer(), uno::UNO_QUERY ); if ( xVbaMethodParameter.is() ) { sal_Int8 nCancel = 0; sal_Int8 nCloseMode = ::ooo::vba::VbQueryClose::vbFormControlMenu; Sequence< Any > aParams; aParams.realloc(2); aParams[0] <<= nCancel; aParams[1] <<= nCloseMode; mpUserForm->triggerMethod( "Userform_QueryClose", aParams); return; } } } mpUserForm->triggerMethod( "Userform_QueryClose" ); #endif } virtual void SAL_CALL windowClosed( const lang::EventObject& /*e*/ ) throw (uno::RuntimeException, std::exception) override { mbOpened = false; mbShowing = false; } virtual void SAL_CALL windowMinimized( const lang::EventObject& /*e*/ ) throw (uno::RuntimeException, std::exception) override { } virtual void SAL_CALL windowNormalized( const lang::EventObject& /*e*/ ) throw (uno::RuntimeException, std::exception) override { } virtual void SAL_CALL windowActivated( const lang::EventObject& /*e*/ ) throw (uno::RuntimeException, std::exception) override { if ( mpUserForm ) { mbActivated = true; if ( mbOpened ) { mbOpened = mbActivated = false; mpUserForm->triggerActivateEvent(); } } } virtual void SAL_CALL windowDeactivated( const lang::EventObject& /*e*/ ) throw (uno::RuntimeException, std::exception) override { if ( mpUserForm ) mpUserForm->triggerDeactivateEvent(); } virtual void SAL_CALL windowResized( const awt::WindowEvent& /*e*/ ) throw (uno::RuntimeException, std::exception) override { if ( mpUserForm ) { mpUserForm->triggerResizeEvent(); mpUserForm->triggerLayoutEvent(); } } virtual void SAL_CALL windowMoved( const awt::WindowEvent& /*e*/ ) throw (uno::RuntimeException, std::exception) override { if ( mpUserForm ) mpUserForm->triggerLayoutEvent(); } virtual void SAL_CALL windowShown( const lang::EventObject& /*e*/ ) throw (uno::RuntimeException, std::exception) override { } virtual void SAL_CALL windowHidden( const lang::EventObject& /*e*/ ) throw (uno::RuntimeException, std::exception) override { } virtual void SAL_CALL documentEventOccured( const document::DocumentEvent& rEvent ) throw (uno::RuntimeException, std::exception) override { // early disposing on document event "OnUnload", to be sure Basic still exists when calling VBA "UserForm_Terminate" if( rEvent.EventName == GlobalEventConfig::GetEventName( GlobalEventId::CLOSEDOC ) ) { removeListener(); mbDisposed = true; if ( mpUserForm ) mpUserForm->ResetApiObj(); // will trigger "UserForm_Terminate" } } virtual void SAL_CALL disposing( const lang::EventObject& /*Source*/ ) throw (uno::RuntimeException, std::exception) override { SAL_INFO("basic", "** Userform/Dialog disposing"); removeListener(); mbDisposed = true; if ( mpUserForm ) mpUserForm->ResetApiObj( false ); // pass false (too late to trigger VBA events here) } }; SbUserFormModule::SbUserFormModule( const OUString& rName, const css::script::ModuleInfo& mInfo, bool bIsCompat ) : SbObjModule( rName, mInfo, bIsCompat ) , m_mInfo( mInfo ) , mbInit( false ) { m_xModel.set( mInfo.ModuleObject, uno::UNO_QUERY_THROW ); } SbUserFormModule::~SbUserFormModule() { } void SbUserFormModule::ResetApiObj( bool bTriggerTerminateEvent ) { SAL_INFO("basic", " SbUserFormModule::ResetApiObj( " << (bTriggerTerminateEvent ? "true )" : "false )") ); if ( bTriggerTerminateEvent && m_xDialog.is() ) // probably someone close the dialog window { triggerTerminateEvent(); } pDocObject = nullptr; m_xDialog = nullptr; } void SbUserFormModule::triggerMethod( const OUString& aMethodToRun ) { Sequence< Any > aArguments; triggerMethod( aMethodToRun, aArguments ); } void SbUserFormModule::triggerMethod( const OUString& aMethodToRun, Sequence< Any >& aArguments ) { SAL_INFO("basic", "*** trigger " << OUStringToOString( aMethodToRun, RTL_TEXTENCODING_UTF8 ).getStr() << " ***"); // Search method SbxVariable* pMeth = SbObjModule::Find( aMethodToRun, SbxCLASS_METHOD ); if( pMeth ) { if ( aArguments.getLength() > 0 ) // Setup parameters { SbxArrayRef xArray = new SbxArray; xArray->Put( pMeth, 0 ); // Method as parameter 0 for ( sal_Int32 i = 0; i < aArguments.getLength(); ++i ) { SbxVariableRef xSbxVar = new SbxVariable( SbxVARIANT ); unoToSbxValue( static_cast< SbxVariable* >( xSbxVar ), aArguments[i] ); xArray->Put( xSbxVar, static_cast< sal_uInt16 >( i ) + 1 ); // Enable passing by ref if ( xSbxVar->GetType() != SbxVARIANT ) xSbxVar->SetFlag( SbxFlagBits::Fixed ); } pMeth->SetParameters( xArray ); SbxValues aVals; pMeth->Get( aVals ); for ( sal_Int32 i = 0; i < aArguments.getLength(); ++i ) { aArguments[i] = sbxToUnoValue( xArray->Get( static_cast< sal_uInt16 >(i) + 1) ); } pMeth->SetParameters( nullptr ); } else { SbxValues aVals; pMeth->Get( aVals ); } } } void SbUserFormModule::triggerActivateEvent() { SAL_INFO("basic", "**** entering SbUserFormModule::triggerActivate"); triggerMethod( "UserForm_Activate" ); SAL_INFO("basic", "**** leaving SbUserFormModule::triggerActivate"); } void SbUserFormModule::triggerDeactivateEvent() { SAL_INFO("basic", "**** SbUserFormModule::triggerDeactivate"); triggerMethod( "Userform_Deactivate" ); } void SbUserFormModule::triggerInitializeEvent() { if ( mbInit ) return; SAL_INFO("basic", "**** SbUserFormModule::triggerInitializeEvent"); triggerMethod("Userform_Initialize"); mbInit = true; } void SbUserFormModule::triggerTerminateEvent() { SAL_INFO("basic", "**** SbUserFormModule::triggerTerminateEvent"); triggerMethod("Userform_Terminate"); mbInit=false; } void SbUserFormModule::triggerLayoutEvent() { triggerMethod("Userform_Layout"); } void SbUserFormModule::triggerResizeEvent() { triggerMethod("Userform_Resize"); } SbUserFormModuleInstance* SbUserFormModule::CreateInstance() { SbUserFormModuleInstance* pInstance = new SbUserFormModuleInstance( this, GetName(), m_mInfo, IsVBACompat() ); return pInstance; } SbUserFormModuleInstance::SbUserFormModuleInstance( SbUserFormModule* pParentModule, const OUString& rName, const css::script::ModuleInfo& mInfo, bool bIsVBACompat ) : SbUserFormModule( rName, mInfo, bIsVBACompat ) , m_pParentModule( pParentModule ) { } bool SbUserFormModuleInstance::IsClass( const OUString& rName ) const { bool bParentNameMatches = m_pParentModule->GetName().equalsIgnoreAsciiCase( rName ); bool bRet = bParentNameMatches || SbxObject::IsClass( rName ); return bRet; } SbxVariable* SbUserFormModuleInstance::Find( const OUString& rName, SbxClassType t ) { SbxVariable* pVar = m_pParentModule->Find( rName, t ); return pVar; } void SbUserFormModule::Load() { SAL_INFO("basic", "** load() "); // forces a load if ( !pDocObject ) InitObject(); } void SbUserFormModule::Unload() { SAL_INFO("basic", "** Unload() "); sal_Int8 nCancel = 0; sal_Int8 nCloseMode = ::ooo::vba::VbQueryClose::vbFormCode; Sequence< Any > aParams; aParams.realloc(2); aParams[0] <<= nCancel; aParams[1] <<= nCloseMode; triggerMethod( "Userform_QueryClose", aParams); aParams[0] >>= nCancel; // basic boolean ( and what the user might use ) can be ambiguous ( e.g. basic true = -1 ) // test against 0 ( false ) and assume anything else is true // ( Note: ) this used to work ( something changes somewhere ) if (nCancel != 0) { return; } if ( m_xDialog.is() ) { triggerTerminateEvent(); } // Search method SbxVariable* pMeth = SbObjModule::Find( "UnloadObject", SbxCLASS_METHOD ); if( pMeth ) { SAL_INFO("basic", "Attempting too run the UnloadObjectMethod"); m_xDialog.clear(); //release ref to the uno object SbxValues aVals; bool bWaitForDispose = true; // assume dialog is showing if ( m_DialogListener.get() ) { bWaitForDispose = m_DialogListener->isShowing(); SAL_INFO("basic", "Showing " << bWaitForDispose ); } pMeth->Get( aVals); if ( !bWaitForDispose ) { // we've either already got a dispose or we'er never going to get one ResetApiObj(); } // else wait for dispose SAL_INFO("basic", "UnloadObject completed ( we hope )"); } } void SbUserFormModule::InitObject() { try { OUString aHook("VBAGlobals"); SbUnoObject* pGlobs = static_cast(GetParent()->Find( aHook, SbxCLASS_DONTCARE )); if ( m_xModel.is() && pGlobs ) { // broadcast INITIALIZE_USERFORM script event before the dialog is created Reference< script::vba::XVBACompatibility > xVBACompat( getVBACompatibility( m_xModel ), uno::UNO_SET_THROW ); xVBACompat->broadcastVBAScriptEvent( script::vba::VBAScriptEventId::INITIALIZE_USERFORM, GetName() ); uno::Reference< lang::XMultiServiceFactory > xVBAFactory( pGlobs->getUnoAny(), uno::UNO_QUERY_THROW ); uno::Reference< uno::XComponentContext > xContext = comphelper::getProcessComponentContext(); OUString sDialogUrl( "vnd.sun.star.script:" ); OUString sProjectName( "Standard" ); try { Reference< beans::XPropertySet > xProps( m_xModel, UNO_QUERY_THROW ); uno::Reference< script::vba::XVBACompatibility > xVBAMode( xProps->getPropertyValue( "BasicLibraries" ), uno::UNO_QUERY_THROW ); sProjectName = xVBAMode->getProjectName(); } catch(const Exception& ) {} sDialogUrl = sDialogUrl + sProjectName + "." + GetName() + "?location=document"; uno::Reference< awt::XDialogProvider > xProvider = awt::DialogProvider::createWithModel( xContext, m_xModel ); m_xDialog = xProvider->createDialog( sDialogUrl ); // create vba api object uno::Sequence< uno::Any > aArgs(4); aArgs[ 0 ] = uno::Any(); aArgs[ 1 ] <<= m_xDialog; aArgs[ 2 ] <<= m_xModel; aArgs[ 3 ] <<= OUString( GetParent()->GetName() ); pDocObject = new SbUnoObject( GetName(), uno::makeAny( xVBAFactory->createInstanceWithArguments( "ooo.vba.msforms.UserForm", aArgs ) ) ); uno::Reference< lang::XComponent > xComponent( m_xDialog, uno::UNO_QUERY_THROW ); // the dialog must be disposed at the end! StarBASIC* pParentBasic = nullptr; SbxObject* pCurObject = this; do { SbxObject* pObjParent = pCurObject->GetParent(); pParentBasic = dynamic_cast( pObjParent ); pCurObject = pObjParent; } while( pParentBasic == nullptr && pCurObject != nullptr ); SAL_WARN_IF( pParentBasic == nullptr, "basic", "pParentBasic == NULL" ); registerComponentToBeDisposedForBasic( xComponent, pParentBasic ); // if old listener object exists, remove it from dialog and document model if( m_DialogListener.is() ) m_DialogListener->removeListener(); m_DialogListener.set( new FormObjEventListenerImpl( this, xComponent, m_xModel ) ); triggerInitializeEvent(); } } catch(const uno::Exception& ) { } } SbxVariable* SbUserFormModule::Find( const OUString& rName, SbxClassType t ) { if ( !pDocObject && !GetSbData()->bRunInit && GetSbData()->pInst ) InitObject(); return SbObjModule::Find( rName, t ); } SbProperty::SbProperty( const OUString& r, SbxDataType t, SbModule* p ) : SbxProperty( r, t ), pMod( p ) { bInvalid = false; } SbProperty::~SbProperty() {} SbProcedureProperty::~SbProcedureProperty() {} /* vim:set shiftwidth=4 softtabstop=4 expandtab: */