From ed5640d8b587fbcfed7dd7967f3de04b37a76f26 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 11:06:44 +0200 Subject: Adding upstream version 4:7.4.7. Signed-off-by: Daniel Baumann --- .../source/invocation_adapterfactory/iafactory.cxx | 882 +++++++++++++++++++++ 1 file changed, 882 insertions(+) create mode 100644 stoc/source/invocation_adapterfactory/iafactory.cxx (limited to 'stoc/source/invocation_adapterfactory/iafactory.cxx') diff --git a/stoc/source/invocation_adapterfactory/iafactory.cxx b/stoc/source/invocation_adapterfactory/iafactory.cxx new file mode 100644 index 000000000..894b00f42 --- /dev/null +++ b/stoc/source/invocation_adapterfactory/iafactory.cxx @@ -0,0 +1,882 @@ +/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ +/* + * This file is part of the LibreOffice project. + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. + * + * This file incorporates work covered by the following license notice: + * + * Licensed to the Apache Software Foundation (ASF) under one or more + * contributor license agreements. See the NOTICE file distributed + * with this work for additional information regarding copyright + * ownership. The ASF licenses this file to you under the Apache + * License, Version 2.0 (the "License"); you may not use this file + * except in compliance with the License. You may obtain a copy of + * the License at http://www.apache.org/licenses/LICENSE-2.0 . + */ + + +#include +#include +#include +#include +#include + +#include +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include +#include + +using namespace ::std; +using namespace ::osl; +using namespace ::com::sun::star; +using namespace css::uno; + +namespace stoc_invadp +{ + + +namespace { + +struct hash_ptr +{ + size_t operator() ( void * p ) const + { return reinterpret_cast(p); } +}; + +} + +typedef o3tl::sorted_vector< void * > t_ptr_set; +typedef std::unordered_map< void *, t_ptr_set, hash_ptr > t_ptr_map; + +namespace { + +class FactoryImpl + : public ::cppu::WeakImplHelper< lang::XServiceInfo, + script::XInvocationAdapterFactory, + script::XInvocationAdapterFactory2 > +{ +public: + Mapping m_aUno2Cpp; + Mapping m_aCpp2Uno; + uno_Interface * m_pConverter; + + typelib_TypeDescription * m_pInvokMethodTD; + typelib_TypeDescription * m_pSetValueTD; + typelib_TypeDescription * m_pGetValueTD; + typelib_TypeDescription * m_pAnySeqTD; + typelib_TypeDescription * m_pShortSeqTD; + typelib_TypeDescription * m_pConvertToTD; + + Mutex m_mutex; + t_ptr_map m_receiver2adapters; + + explicit FactoryImpl( Reference< XComponentContext > const & xContext ); + virtual ~FactoryImpl() override; + + // XServiceInfo + virtual OUString SAL_CALL getImplementationName() override; + virtual sal_Bool SAL_CALL supportsService( const OUString & rServiceName ) override; + virtual Sequence< OUString > SAL_CALL getSupportedServiceNames() override; + + // XInvocationAdapterFactory + virtual Reference< XInterface > SAL_CALL createAdapter( + const Reference< script::XInvocation > & xReceiver, const Type & rType ) override; + // XInvocationAdapterFactory2 + virtual Reference< XInterface > SAL_CALL createAdapter( + const Reference< script::XInvocation > & xReceiver, + const Sequence< Type > & rTypes ) override; +}; +struct AdapterImpl; + +struct InterfaceAdapterImpl : public uno_Interface +{ + AdapterImpl * m_pAdapter; + typelib_InterfaceTypeDescription * m_pTypeDescr; +}; + +struct AdapterImpl +{ + oslInterlockedCount m_nRef; + FactoryImpl * m_pFactory; + void * m_key; // map key + uno_Interface * m_pReceiver; // XInvocation receiver + + std::vector m_vInterfaces; + + // XInvocation calls + void getValue( + const typelib_TypeDescription * pMemberType, + void * pReturn, uno_Any ** ppException ); + void setValue( + const typelib_TypeDescription * pMemberType, + void * pArgs[], uno_Any ** ppException ); + void invoke( + const typelib_TypeDescription * pMemberType, + void * pReturn, void * pArgs[], uno_Any ** ppException ); + + bool coerce_assign( + void * pDest, typelib_TypeDescriptionReference * pType, + uno_Any * pSource, uno_Any * pExc ); + inline bool coerce_construct( + void * pDest, typelib_TypeDescriptionReference * pType, + uno_Any * pSource, uno_Any * pExc ); + + inline void acquire(); + inline void release(); + inline ~AdapterImpl(); + inline AdapterImpl( + void * key, Reference< script::XInvocation > const & xReceiver, + const Sequence< Type > & rTypes, + FactoryImpl * pFactory ); + + // Copy assignment is forbidden and not implemented. + AdapterImpl (const AdapterImpl &) = delete; + AdapterImpl & operator= (const AdapterImpl &) = delete; +}; + +} + +inline AdapterImpl::~AdapterImpl() +{ + for ( size_t nPos = m_vInterfaces.size(); nPos--; ) + { + ::typelib_typedescription_release( + &m_vInterfaces[ nPos ].m_pTypeDescr->aBase ); + } + + (*m_pReceiver->release)( m_pReceiver ); + m_pFactory->release(); +} + +inline void AdapterImpl::acquire() +{ + osl_atomic_increment( &m_nRef ); +} + +inline void AdapterImpl::release() +{ + bool delete_this = false; + { + MutexGuard guard( m_pFactory->m_mutex ); + if (! osl_atomic_decrement( &m_nRef )) + { + t_ptr_map::iterator iFind( + m_pFactory->m_receiver2adapters.find( m_key ) ); + OSL_ASSERT( m_pFactory->m_receiver2adapters.end() != iFind ); + t_ptr_set & adapter_set = iFind->second; + if (adapter_set.erase( this ) != 1) { + OSL_ASSERT( false ); + } + if (adapter_set.empty()) + { + m_pFactory->m_receiver2adapters.erase( iFind ); + } + delete_this = true; + } + } + if (delete_this) + delete this; +} + + +static void constructRuntimeException( + uno_Any * pExc, const OUString & rMsg ) +{ + RuntimeException exc( rMsg ); + // no conversion needed due to binary compatibility + no convertible type + ::uno_type_any_construct( + pExc, &exc, cppu::UnoType::get().getTypeLibType(), nullptr ); +} + + +static bool type_equals( + typelib_TypeDescriptionReference * pType1, + typelib_TypeDescriptionReference * pType2 ) +{ + return (pType1 == pType2 || + (pType1->pTypeName->length == pType2->pTypeName->length && + 0 == ::rtl_ustr_compare( + pType1->pTypeName->buffer, pType2->pTypeName->buffer ))); +} + + +bool AdapterImpl::coerce_assign( + void * pDest, typelib_TypeDescriptionReference * pType, uno_Any * pSource, + uno_Any * pOutExc ) +{ + if (typelib_TypeClass_ANY == pType->eTypeClass) + { + ::uno_type_any_assign( + static_cast(pDest), pSource->pData, pSource->pType, nullptr, nullptr ); + return true; + } + if (::uno_type_assignData( + pDest, pType, pSource->pData, pSource->pType, nullptr, nullptr, nullptr )) + { + return true; + } + else // try type converter + { + uno_Any ret; + void * args[ 2 ]; + args[ 0 ] = pSource; + args[ 1 ] = &pType; + uno_Any exc; + uno_Any * p_exc = &exc; + + // converTo() + (*m_pFactory->m_pConverter->pDispatcher)( + m_pFactory->m_pConverter, + m_pFactory->m_pConvertToTD, &ret, args, &p_exc ); + + if (p_exc) // exception occurred + { + OSL_ASSERT( + p_exc->pType->eTypeClass == typelib_TypeClass_EXCEPTION ); + if (typelib_typedescriptionreference_isAssignableFrom( cppu::UnoType::get().getTypeLibType(), + p_exc->pType )) + { + // is RuntimeException or derived: rethrow + uno_type_any_construct( + pOutExc, p_exc->pData, p_exc->pType, nullptr ); + } + else + { + // set runtime exception + constructRuntimeException( + pOutExc, "type coercion failed: " + + static_cast< Exception const * >( + p_exc->pData )->Message ); + } + ::uno_any_destruct( p_exc, nullptr ); + // pOutExc constructed + return false; + } + else + { + bool succ = ::uno_type_assignData( + pDest, pType, ret.pData, ret.pType, nullptr, nullptr, nullptr ); + ::uno_any_destruct( &ret, nullptr ); + OSL_ENSURE( + succ, "### conversion succeeded, but assignment failed!?" ); + if (! succ) + { + // set runtime exception + constructRuntimeException( + pOutExc, + "type coercion failed: " + "conversion succeeded, but assignment failed?!" ); + } + return succ; + } + } +} + +inline bool AdapterImpl::coerce_construct( + void * pDest, typelib_TypeDescriptionReference * pType, uno_Any * pSource, + uno_Any * pExc ) +{ + if (typelib_TypeClass_ANY == pType->eTypeClass) + { + ::uno_type_copyData( pDest, pSource, pType, nullptr ); + return true; + } + if (type_equals( pType, pSource->pType)) + { + ::uno_type_copyData( pDest, pSource->pData, pType, nullptr ); + return true; + } + ::uno_type_constructData( pDest, pType ); + return coerce_assign( pDest, pType, pSource, pExc ); +} + + +static void handleInvokExc( uno_Any * pDest, uno_Any * pSource ) +{ + OUString const & name = + OUString::unacquired( &pSource->pType->pTypeName ); + + if ( name == "com.sun.star.reflection.InvocationTargetException" ) + { + // unwrap invocation target exception + uno_Any * target_exc = + &static_cast< reflection::InvocationTargetException * >( + pSource->pData )->TargetException; + ::uno_type_any_construct( + pDest, target_exc->pData, target_exc->pType, nullptr ); + } + else // all other exceptions are wrapped to RuntimeException + { + if (typelib_TypeClass_EXCEPTION == pSource->pType->eTypeClass) + { + constructRuntimeException( + pDest, static_cast(pSource->pData)->Message ); + } + else + { + constructRuntimeException( + pDest, "no exception has been thrown via invocation?!" ); + } + } +} + +void AdapterImpl::getValue( + const typelib_TypeDescription * pMemberType, + void * pReturn, uno_Any ** ppException ) +{ + uno_Any aInvokRet; + void * pInvokArgs[1]; + pInvokArgs[0] = const_cast( + &reinterpret_cast(pMemberType)->pMemberName); + uno_Any aInvokExc; + uno_Any * pInvokExc = &aInvokExc; + + // getValue() + (*m_pReceiver->pDispatcher)( + m_pReceiver, m_pFactory->m_pGetValueTD, + &aInvokRet, pInvokArgs, &pInvokExc ); + + if (pInvokExc) // getValue() call exception + { + handleInvokExc( *ppException, pInvokExc ); + ::uno_any_destruct( pInvokExc, nullptr ); // cleanup + } + else // invocation call succeeded + { + if (coerce_construct( + pReturn, + reinterpret_cast( + pMemberType)->pAttributeTypeRef, + &aInvokRet, *ppException )) + { + *ppException = nullptr; // no exceptions be thrown + } + ::uno_any_destruct( &aInvokRet, nullptr ); + } +} + +void AdapterImpl::setValue( + const typelib_TypeDescription * pMemberType, + void * pArgs[], uno_Any ** ppException ) +{ + uno_Any aInvokVal; + ::uno_type_any_construct( + &aInvokVal, pArgs[0], + reinterpret_cast( + pMemberType)->pAttributeTypeRef, nullptr ); + + void * pInvokArgs[2]; + pInvokArgs[0] = const_cast( + &reinterpret_cast(pMemberType)->pMemberName); + pInvokArgs[1] = &aInvokVal; + uno_Any aInvokExc; + uno_Any * pInvokExc = &aInvokExc; + + // setValue() + (*m_pReceiver->pDispatcher)( + m_pReceiver, m_pFactory->m_pSetValueTD, nullptr, pInvokArgs, &pInvokExc ); + + if (pInvokExc) // setValue() call exception + { + handleInvokExc( *ppException, pInvokExc ); + ::uno_any_destruct( pInvokExc, nullptr ); // cleanup + } + else // invocation call succeeded + { + *ppException = nullptr; // no exceptions be thrown + } + + ::uno_any_destruct( &aInvokVal, nullptr ); // cleanup +} + +void AdapterImpl::invoke( + const typelib_TypeDescription * pMemberType, + void * pReturn, void * pArgs[], uno_Any ** ppException ) +{ + sal_Int32 nParams = + reinterpret_cast(pMemberType)->nParams; + typelib_MethodParameter * pFormalParams = + reinterpret_cast(pMemberType)->pParams; + + // in params + uno_Sequence * pInParamsSeq = nullptr; + ::uno_sequence_construct( + &pInParamsSeq, m_pFactory->m_pAnySeqTD, nullptr, nParams, nullptr ); + uno_Any * pInAnys = reinterpret_cast(pInParamsSeq->elements); + sal_Int32 nOutParams = 0; + sal_Int32 nPos; + for ( nPos = nParams; nPos--; ) + { + typelib_MethodParameter const & rParam = pFormalParams[nPos]; + if (rParam.bIn) // is in/inout param + { + ::uno_type_any_assign( + &pInAnys[nPos], pArgs[nPos], rParam.pTypeRef, nullptr, nullptr ); + } + // else: pure out is empty any + + if (rParam.bOut) + ++nOutParams; + } + + // out params, out indices + uno_Sequence * pOutIndices; + uno_Sequence * pOutParams; + // return value + uno_Any aInvokRet; + // perform call + void * pInvokArgs[4]; + pInvokArgs[0] = const_cast( + &reinterpret_cast(pMemberType)->pMemberName); + pInvokArgs[1] = &pInParamsSeq; + pInvokArgs[2] = &pOutIndices; + pInvokArgs[3] = &pOutParams; + uno_Any aInvokExc; + uno_Any * pInvokExc = &aInvokExc; + + // invoke() call + (*m_pReceiver->pDispatcher)( + m_pReceiver, m_pFactory->m_pInvokMethodTD, + &aInvokRet, pInvokArgs, &pInvokExc ); + + if (pInvokExc) + { + handleInvokExc( *ppException, pInvokExc ); + ::uno_any_destruct( pInvokExc, nullptr ); // cleanup + } + else // no invocation exception + { + // write changed out params + OSL_ENSURE( + pOutParams->nElements == nOutParams && + pOutIndices->nElements == nOutParams, + "### out params lens differ!" ); + if (pOutParams->nElements == nOutParams && + pOutIndices->nElements == nOutParams) + { + sal_Int16 * pIndices = reinterpret_cast(pOutIndices->elements); + uno_Any * pOut = reinterpret_cast(pOutParams->elements); + for ( nPos = 0; nPos < nOutParams; ++nPos ) + { + sal_Int32 nIndex = pIndices[nPos]; + OSL_ENSURE( nIndex < nParams, "### illegal index!" ); + typelib_MethodParameter const & rParam = pFormalParams[nIndex]; + bool succ; + if (rParam.bIn) // is in/inout param + { + succ = coerce_assign( + pArgs[nIndex], rParam.pTypeRef, &pOut[nPos], + *ppException ); + } + else // pure out + { + succ = coerce_construct( + pArgs[nIndex], rParam.pTypeRef, &pOut[nPos], + *ppException ); + } + if (! succ) // cleanup of out params + { + for ( sal_Int32 n = 0; n <= nPos; ++n ) + { + sal_Int32 nIndex2 = pIndices[n]; + OSL_ENSURE( nIndex2 < nParams, "### illegal index!" ); + typelib_MethodParameter const & rParam2 = + pFormalParams[nIndex2]; + if (! rParam2.bIn) // is pure out param + { + ::uno_type_destructData( + pArgs[nIndex2], rParam2.pTypeRef, nullptr ); + } + } + } + } + if (nPos == pOutIndices->nElements) + { + // out param copy ok; write return value + if (coerce_construct( + pReturn, + reinterpret_cast( + pMemberType)->pReturnTypeRef, + &aInvokRet, *ppException )) + { + *ppException = nullptr; // no exception + } + } + } + else + { + // set runtime exception + constructRuntimeException( + *ppException, + "out params lengths differ after invocation call!" ); + } + // cleanup invok out params + ::uno_destructData( &pOutIndices, m_pFactory->m_pShortSeqTD, nullptr ); + ::uno_destructData( &pOutParams, m_pFactory->m_pAnySeqTD, nullptr ); + // cleanup invok return value + ::uno_any_destruct( &aInvokRet, nullptr ); + } + // cleanup constructed in params + ::uno_destructData( &pInParamsSeq, m_pFactory->m_pAnySeqTD, nullptr ); +} + +extern "C" +{ + +static void adapter_acquire( uno_Interface * pUnoI ) +{ + static_cast< InterfaceAdapterImpl * >( pUnoI )->m_pAdapter->acquire(); +} + +static void adapter_release( uno_Interface * pUnoI ) +{ + static_cast< InterfaceAdapterImpl * >( pUnoI )->m_pAdapter->release(); +} + +static void adapter_dispatch( + uno_Interface * pUnoI, const typelib_TypeDescription * pMemberType, + void * pReturn, void * pArgs[], uno_Any ** ppException ) +{ + // query to emulated interface + switch (reinterpret_cast(pMemberType)->nPosition) + { + case 0: // queryInterface() + { + AdapterImpl * that = + static_cast< InterfaceAdapterImpl * >( pUnoI )->m_pAdapter; + *ppException = nullptr; // no exc + typelib_TypeDescriptionReference * pDemanded = + *static_cast(pArgs[0]); + // pInterfaces[0] is XInterface + for ( size_t nPos = 0; nPos < that->m_vInterfaces.size(); ++nPos ) + { + typelib_InterfaceTypeDescription * pTD = + that->m_vInterfaces[nPos].m_pTypeDescr; + while (pTD) + { + if (type_equals( pTD->aBase.pWeakRef, pDemanded )) + { + uno_Interface * pUnoI2 = &that->m_vInterfaces[nPos]; + ::uno_any_construct( + static_cast(pReturn), &pUnoI2, + &pTD->aBase, nullptr ); + return; + } + pTD = pTD->pBaseTypeDescription; + } + } + ::uno_any_construct( static_cast(pReturn), nullptr, nullptr, nullptr ); // clear() + break; + } + case 1: // acquire() + *ppException = nullptr; // no exc + adapter_acquire( pUnoI ); + break; + case 2: // release() + *ppException = nullptr; // no exc + adapter_release( pUnoI ); + break; + + default: + { + AdapterImpl * that = + static_cast< InterfaceAdapterImpl * >( pUnoI )->m_pAdapter; + if (pMemberType->eTypeClass == typelib_TypeClass_INTERFACE_METHOD) + { + that->invoke( pMemberType, pReturn, pArgs, ppException ); + } + else // attribute + { + if (pReturn) + that->getValue( pMemberType, pReturn, ppException ); + else + that->setValue( pMemberType, pArgs, ppException ); + } + } + } +} +} + +AdapterImpl::AdapterImpl( + void * key, Reference< script::XInvocation > const & xReceiver, + const Sequence< Type > & rTypes, + FactoryImpl * pFactory ) + : m_nRef( 1 ), + m_pFactory( pFactory ), + m_key( key ), + m_vInterfaces( rTypes.getLength() ) +{ + // init adapters + const Type * pTypes = rTypes.getConstArray(); + for ( sal_Int32 nPos = rTypes.getLength(); nPos--; ) + { + InterfaceAdapterImpl * pInterface = &m_vInterfaces[nPos]; + pInterface->acquire = adapter_acquire; + pInterface->release = adapter_release; + pInterface->pDispatcher = adapter_dispatch; + pInterface->m_pAdapter = this; + pInterface->m_pTypeDescr = nullptr; + pTypes[nPos].getDescription( + reinterpret_cast(&pInterface->m_pTypeDescr) ); + OSL_ASSERT( pInterface->m_pTypeDescr ); + if (! pInterface->m_pTypeDescr) + { + for ( sal_Int32 n = 0; n < nPos; ++n ) + { + ::typelib_typedescription_release( + &m_vInterfaces[ n ].m_pTypeDescr->aBase ); + } + throw RuntimeException( + "cannot retrieve all interface type infos!" ); + } + } + + // map receiver + m_pReceiver = static_cast(m_pFactory->m_aCpp2Uno.mapInterface( + xReceiver.get(), cppu::UnoType::get() )); + OSL_ASSERT( nullptr != m_pReceiver ); + if (! m_pReceiver) + { + throw RuntimeException( "cannot map receiver!" ); + } + + m_pFactory->acquire(); +} + + +FactoryImpl::FactoryImpl( Reference< XComponentContext > const & xContext ) + : m_aUno2Cpp(Mapping( UNO_LB_UNO, CPPU_CURRENT_LANGUAGE_BINDING_NAME )), + m_aCpp2Uno(Mapping( CPPU_CURRENT_LANGUAGE_BINDING_NAME, UNO_LB_UNO)), + m_pInvokMethodTD( nullptr ), + m_pSetValueTD( nullptr ), + m_pGetValueTD( nullptr ), + m_pAnySeqTD( nullptr ), + m_pShortSeqTD( nullptr ), + m_pConvertToTD( nullptr ) +{ + // C++/UNO bridge + OSL_ENSURE( + m_aUno2Cpp.is() && m_aCpp2Uno.is(), "### no uno / C++ mappings!" ); + + // type converter + Reference< script::XTypeConverter > xConverter( + xContext->getServiceManager()->createInstanceWithContext( + "com.sun.star.script.Converter", + xContext ), + UNO_QUERY_THROW ); + m_pConverter = static_cast(m_aCpp2Uno.mapInterface( + xConverter.get(), cppu::UnoType::get() )); + OSL_ASSERT( nullptr != m_pConverter ); + + // some type info: + // sequence< any > + Type const & rAnySeqType = cppu::UnoType>::get(); + rAnySeqType.getDescription( &m_pAnySeqTD ); + // sequence< short > + const Type & rShortSeqType = + cppu::UnoType>::get(); + rShortSeqType.getDescription( &m_pShortSeqTD ); + // script.XInvocation + typelib_TypeDescription * pTD = nullptr; + const Type & rInvType = cppu::UnoType::get(); + TYPELIB_DANGER_GET( &pTD, rInvType.getTypeLibType() ); + typelib_InterfaceTypeDescription * pITD; + pITD = reinterpret_cast(pTD); + if( ! pITD->aBase.bComplete ) + typelib_typedescription_complete( &pTD ); + ::typelib_typedescriptionreference_getDescription( + &m_pInvokMethodTD, pITD->ppMembers[ 1 ] ); // invoke() + ::typelib_typedescriptionreference_getDescription( + &m_pSetValueTD, pITD->ppMembers[ 2 ] ); // setValue() + ::typelib_typedescriptionreference_getDescription( + &m_pGetValueTD, pITD->ppMembers[ 3 ] ); // getValue() + // script.XTypeConverter + const Type & rTCType = + cppu::UnoType::get(); + TYPELIB_DANGER_GET( &pTD, rTCType.getTypeLibType() ); + pITD = reinterpret_cast(pTD); + ::typelib_typedescriptionreference_getDescription( + &m_pConvertToTD, pITD->ppMembers[ 0 ] ); // convertTo() + TYPELIB_DANGER_RELEASE( pTD ); + + if (!m_pInvokMethodTD || !m_pSetValueTD || !m_pGetValueTD || + !m_pConvertToTD || + !m_pAnySeqTD || !m_pShortSeqTD) + { + throw RuntimeException( "missing type descriptions!" ); + } +} + +FactoryImpl::~FactoryImpl() +{ + ::typelib_typedescription_release( m_pInvokMethodTD ); + ::typelib_typedescription_release( m_pSetValueTD ); + ::typelib_typedescription_release( m_pGetValueTD ); + ::typelib_typedescription_release( m_pAnySeqTD ); + ::typelib_typedescription_release( m_pShortSeqTD ); + ::typelib_typedescription_release( m_pConvertToTD ); + + (*m_pConverter->release)( m_pConverter ); + +#if OSL_DEBUG_LEVEL > 0 + assert(m_receiver2adapters.empty() && "still adapters out there!?"); +#endif +} + + +static AdapterImpl * lookup_adapter( + t_ptr_set ** pp_adapter_set, + t_ptr_map & map, void * key, Sequence< Type > const & rTypes ) +{ + t_ptr_set & adapters_set = map[ key ]; + *pp_adapter_set = &adapters_set; + if (adapters_set.empty()) + return nullptr; // shortcut + // find matching adapter + Type const * pTypes = rTypes.getConstArray(); + sal_Int32 nTypes = rTypes.getLength(); + for (const auto& rpAdapter : adapters_set) + { + AdapterImpl * that = static_cast< AdapterImpl * >( rpAdapter ); + // iterate through all types if that is a matching adapter + sal_Int32 nPosTypes; + for ( nPosTypes = nTypes; nPosTypes--; ) + { + Type const & rType = pTypes[ nPosTypes ]; + // find in adapter's type list + sal_Int32 nPos; + for ( nPos = that->m_vInterfaces.size(); nPos--; ) + { + if (::typelib_typedescriptionreference_isAssignableFrom( + rType.getTypeLibType(), + that->m_vInterfaces[ nPos ].m_pTypeDescr->aBase.pWeakRef )) + { + // found + break; + } + } + if (nPos < 0) // type not found => next adapter + break; + } + if (nPosTypes < 0) // all types found + return that; + } + return nullptr; +} + +// XInvocationAdapterFactory2 impl + +Reference< XInterface > FactoryImpl::createAdapter( + const Reference< script::XInvocation > & xReceiver, + const Sequence< Type > & rTypes ) +{ + Reference< XInterface > xRet; + if (xReceiver.is() && rTypes.hasElements()) + { + t_ptr_set * adapter_set; + AdapterImpl * that; + Reference< XInterface > xKey( xReceiver, UNO_QUERY ); + { + ClearableMutexGuard guard( m_mutex ); + that = lookup_adapter( + &adapter_set, m_receiver2adapters, xKey.get(), rTypes ); + if (nullptr == that) // no entry + { + guard.clear(); + // create adapter; already acquired: m_nRef == 1 + AdapterImpl * pNew = + new AdapterImpl( xKey.get(), xReceiver, rTypes, this ); + // lookup again + ClearableMutexGuard guard2( m_mutex ); + that = lookup_adapter( + &adapter_set, m_receiver2adapters, xKey.get(), rTypes ); + if (nullptr == that) // again no entry + { + pair< t_ptr_set::const_iterator, bool > i(adapter_set->insert(pNew)); + SAL_WARN_IF( + !i.second, "stoc", + "set already contains " << *(i.first) << " != " << pNew); + that = pNew; + } + else + { + that->acquire(); + guard2.clear(); + delete pNew; // has never been inserted + } + } + else // found adapter + { + that->acquire(); + } + } + // map one interface to C++ + uno_Interface * pUnoI = that->m_vInterfaces.data(); + m_aUno2Cpp.mapInterface( + reinterpret_cast(&xRet), pUnoI, cppu::UnoType::get() ); + that->release(); + OSL_ASSERT( xRet.is() ); + if (! xRet.is()) + { + throw RuntimeException( "mapping UNO to C++ failed!" ); + } + } + return xRet; +} +// XInvocationAdapterFactory impl + +Reference< XInterface > FactoryImpl::createAdapter( + const Reference< script::XInvocation > & xReceiver, const Type & rType ) +{ + return createAdapter( xReceiver, Sequence< Type >( &rType, 1 ) ); +} + +// XServiceInfo + +OUString FactoryImpl::getImplementationName() +{ + return "com.sun.star.comp.stoc.InvocationAdapterFactory"; +} + +sal_Bool FactoryImpl::supportsService( const OUString & rServiceName ) +{ + return cppu::supportsService(this, rServiceName); +} + +Sequence< OUString > FactoryImpl::getSupportedServiceNames() +{ + return { "com.sun.star.script.InvocationAdapterFactory" }; +} + +} + + +extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* +stoc_invocation_adapter_get_implementation( + css::uno::XComponentContext* context, css::uno::Sequence const&) +{ + return cppu::acquire(new stoc_invadp::FactoryImpl(context)); +} + + + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ -- cgit v1.2.3