/* -*- 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 . */ #ifndef INCLUDED_UNOTOOLS_SHAREDUNOCOMPONENT_HXX #define INCLUDED_UNOTOOLS_SHAREDUNOCOMPONENT_HXX #include #include #include #include #include namespace com::sun::star { namespace lang { class XComponent; } } namespace utl { //= DisposableComponent /** is a class which controls lifetime of a UNO component via ->XComponent::dispose You'll usually never use this class directly, but only as parameter for a ->SharedUNOComponent class. */ class UNOTOOLS_DLLPUBLIC DisposableComponent { css::uno::Reference< css::lang::XComponent > m_xComponent; public: /** constructs a ->DisposableComponent instance @param _rxComponent the component whose life time should be controlled by the instance. Must not be . */ DisposableComponent( const css::uno::Reference< css::uno::XInterface >& _rxComponent ); /** disposes the component represented by the instance The component is queried for ->XComponent(which must be supported), and ->XComponent::dispose is invoked. A failure of this invocation (e.g. a thrown exception) is silenced in release builds, and reported in debug builds. */ ~DisposableComponent(); private: DisposableComponent( const DisposableComponent& ) = delete; DisposableComponent& operator=( const DisposableComponent& ) = delete; }; //= CloseableComponent class CloseableComponentImpl; /** is a class which controls lifetime of a UNO component via ->XCloseable::close You'll usually never use this class directly, but only as parameter for a ->SharedUNOComponent class. */ class UNLESS_MERGELIBS_MORE(UNOTOOLS_DLLPUBLIC) CloseableComponent { private: /** Our IMPL class. */ ::rtl::Reference< CloseableComponentImpl > m_pImpl; public: /** constructs a ->CloseableComponent instance @param _rxComponent the component whose life time should be controlled by the instance. Must not be . */ CloseableComponent( const css::uno::Reference< css::uno::XInterface >& _rxComponent ); /** destroys resources associated with this instance, and disposes the component The component is queried for ->XCloseable (which must be supported), and ->XCloseable::close is invoked, with delivering the ownership. If the invocation fails with a ->CloseVetoException, this is ignored, since in this case the vetoing instance took the ownership. Any other failure will be reported in a debug version via assertion mechanisms, and silenced in release builds. */ ~CloseableComponent(); private: CloseableComponent( const CloseableComponent& ) = delete; CloseableComponent& operator=( const CloseableComponent& ) = delete; }; //= SharedUNOComponent /** is a helper class for sharing ownership of a UNO component If you need to share a UNO component, which normally needs a dedicated owner, and is lifetime controlled by an explicit disposal action (not necessarily ->XComponent::dispose, but any explicit method call, after which the object is considered to be disposed), between different classes, ->SharedUNOComponent is what you need. Instead of passing around a Reference< XFoo >, and bothering with ownership and disposal, you just use a SharedUNOComponent< XFoo >. This instance can be passed around, including copying, and in nearly all respects behaves like the original Reference< XFoo >. However, when the last ->SharedUNOComponent referencing a certain Reference< XFoo > dies, it will automatically get rid of the object held by this reference. @param INTERFACE the UNO interface type as which the component should be held @param COMPONENT_HOLDER a class which can be used to represent and dispose a UNO component. The class must support (maybe explicit only) construction from a Reference< INTERFACE >, and destruction. Upon destruction, the class must dispose (by any suitable means) the component instance it was constructed with. */ template < class INTERFACE, class COMPONENT = DisposableComponent > class SharedUNOComponent { private: typedef COMPONENT Component; private: std::shared_ptr m_xComponent; css::uno::Reference< INTERFACE > m_xTypedComponent; public: enum AssignmentMode { TakeOwnership, NoTakeOwnership }; public: SharedUNOComponent() { } explicit SharedUNOComponent( const css::uno::Reference< INTERFACE >& _rxComponent, AssignmentMode eMode = TakeOwnership ) { reset( _rxComponent, eMode ); } SharedUNOComponent( const css::uno::BaseReference & _rRef, css::uno::UnoReference_QueryThrow _queryThrow ) { set( _rRef, _queryThrow ); } // SharedUNOComponent& operator=( const css::uno::Reference< INTERFACE >& _rxComponent ); // This operator is intentionally not implemented. There is no canonic ownership after this operator // would have been applied: Should the SharedUNOComponent have the ownership of the component, // or shouldn't it? Hard to guess, and probably wrong in 50 percent of all cases, anyway. So, // instead of tempting clients of this class to use such a dangerous operator, we do // not offer it at all. If you need to assign a Reference< INTERFACE > to your SharedUNOComponent, // use the ->reset method. /** assigns a new component, and releases the old one */ void reset( const css::uno::Reference< INTERFACE >& _rxComponent, AssignmentMode _eMode = TakeOwnership ); inline bool set( const css::uno::BaseReference& _rRef, css::uno::UnoReference_Query _query ); inline void set( const css::uno::BaseReference & _rRef, css::uno::UnoReference_QueryThrow _queryThrow ); inline void set( const css::uno::Reference< INTERFACE >& _rRef, css::uno::UnoReference_SetThrow _setThrow ); inline void set( const SharedUNOComponent& _rComp, css::uno::UnoReference_SetThrow _setThrow ); INTERFACE* SAL_CALL operator->() const; operator const css::uno::Reference< INTERFACE >&() const { return m_xTypedComponent; } const css::uno::Reference< INTERFACE >& getTyped() const { return m_xTypedComponent; } bool is() const { return m_xTypedComponent.is(); } void clear() { m_xComponent.reset(); m_xTypedComponent.clear(); } }; template < class INTERFACE, class COMPONENT > INTERFACE* SAL_CALL SharedUNOComponent< INTERFACE, COMPONENT >::operator->() const { return m_xTypedComponent.operator->(); } // assignments template < class INTERFACE, class COMPONENT > void SharedUNOComponent< INTERFACE, COMPONENT >::reset( const css::uno::Reference< INTERFACE >& _rxComponent, AssignmentMode _eMode ) { m_xComponent.reset(_eMode == TakeOwnership ? new COMPONENT( _rxComponent ) : nullptr); m_xTypedComponent = _rxComponent; } // comparison operators template < class INTERFACE, class COMPONENT > bool operator==( const SharedUNOComponent< INTERFACE, COMPONENT >& _rLHS, const css::uno::Reference< INTERFACE >& _rRHS ) { return _rLHS.getTyped() == _rRHS; } template < class INTERFACE, class COMPONENT > inline css::uno::Any SAL_CALL makeAny( const SharedUNOComponent< INTERFACE, COMPONENT >& value ) { return css::uno::Any( value.getTyped() ); } template < class INTERFACE, class COMPONENT > void SharedUNOComponent< INTERFACE, COMPONENT >::set( const css::uno::BaseReference & _rRef, css::uno::UnoReference_QueryThrow _queryThrow ) { reset( css::uno::Reference< INTERFACE >( _rRef, _queryThrow ), TakeOwnership ); } template < class INTERFACE, class COMPONENT > void SharedUNOComponent< INTERFACE, COMPONENT >::set( const css::uno::Reference< INTERFACE >& _rRef, css::uno::UnoReference_SetThrow _setThrow ) { reset( css::uno::Reference< INTERFACE >( _rRef, _setThrow ), TakeOwnership ); } template < class INTERFACE, class COMPONENT > void SharedUNOComponent< INTERFACE, COMPONENT >::set( const SharedUNOComponent& _rComp, css::uno::UnoReference_SetThrow _setThrow ) { *this = _rComp; // provoke an exception in case the component is NULL m_xTypedComponent.set( m_xTypedComponent, _setThrow ); } template < class INTERFACE, class COMPONENT > bool SharedUNOComponent< INTERFACE, COMPONENT >::set( const css::uno::BaseReference& _rRef, css::uno::UnoReference_Query _query ) { reset( css::uno::Reference< INTERFACE >( _rRef, _query ) ); return is(); } } // namespace utl #endif // INCLUDED_UNOTOOLS_SHAREDUNOCOMPONENT_HXX /* vim:set shiftwidth=4 softtabstop=4 expandtab: */