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Quelle interfacecontainer4.hxx Sprache: C |
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/* -*- 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 . */ #pragma once #include <sal/config.h> #include <com/sun/star/lang/EventObject.hpp> #include <com/sun/star/lang/DisposedException.hpp> #include <o3tl/cow_wrapper.hxx> #include <cassert> #include <mutex> #include <vector> namespace com::sun::star::uno { class XInterface; } namespace comphelper { template <class ListenerT> class OInterfaceContainerHelper4; /** This is the iterator of an OInterfaceContainerHelper4. Typically one constructs an instance on the stack for one firing session. It is not allowed to assign or copy an instance of this class. @tparam ListenerT UNO event listener type @see OInterfaceContainerHelper4 */ template <class ListenerT> class OInterfaceIteratorHelper4 { public: /** Create an iterator over the elements of the container. The iterator copies the elements of the container. A change to the container during the lifetime of an iterator is allowed and does not affect the iterator-instance. The iterator and the container take cares themself for concurrent access, no additional guarding is necessary. Remark: The copy is on demand. The iterator copy the elements only if the container change the contents... @param rCont the container of the elements. @param rGuard this parameter only here to make that this container is accessed while locked */ OInterfaceIteratorHelper4(std::unique_lock<std::mutex>& rGuard, OInterfaceContainerHelper4<ListenerT>& rCont_) : rCont(rCont_) , maData(rCont.maData) // const_cast so we don't trigger make_unique via o3tl::cow_wrapper::operator-> , nRemain(std::as_const(maData)->size()) { assert(rGuard.owns_lock()); (void)rGuard; } /** Return true, if there are more elements in the iterator. */ bool hasMoreElements() const { return nRemain != 0; } /** Return the next element of the iterator. Calling this method if hasMoreElements() has returned false, is an error. */ css::uno::Reference<ListenerT> const& next(); /** Removes the current element (the last one returned by next()) from the underlying container. Calling this method before next() has been called or calling it twice with no next() in between is an error. @param rGuard this parameter only here to make that this container is accessed while locked */ void remove(::std::unique_lock<::std::mutex>& rGuard); private: OInterfaceContainerHelper4<ListenerT>& rCont; o3tl::cow_wrapper<std::vector<css::uno::Reference<ListenerT>>, o3tl::ThreadSafeRefCountingPolicy> maData; sal_Int32 nRemain; OInterfaceIteratorHelper4(const OInterfaceIteratorHelper4&) = delete; OInterfaceIteratorHelper4& operator=(const OInterfaceIteratorHelper4&) = dele }; template <class ListenerT> const css::uno::Reference<ListenerT>& OInterfaceIteratorHelper4<ListenerT>::next() { nRemain--; return (*std::as_const(maData))[nRemain]; } template <class ListenerT> void OInterfaceIteratorHelper4<ListenerT>::remove(::std::unique_lock<::std::mutex>&&nbs { rCont.removeInterface(rGuard, (*std::as_const(maData))[nRemain]); } /** A container of interfaces. To access the elements use an iterator. This implementation is thread-safe. This is a copy of the code at include/comphelper/interfacecontainer3.hxx, except that it (a) uses std::mutex instead of osl::Mutex and (b) does not store a reference to the mutex, but relies on the calling class to take a lock around using it. @tparam ListenerT UNO event listener type @see OInterfaceIteratorHelper */ template <class ListenerT> class OInterfaceContainerHelper4 { public: OInterfaceContainerHelper4(); /** Return the number of Elements in the container. Only useful if you have acquired the mutex. @param rGuard this parameter only here to make that this container is accessed while locked */ sal_Int32 getLength(std::unique_lock<std::mutex>& rGuard) const; /** Return all interfaces added to this container. @param rGuard this parameter only here to make that this container is accessed while locked **/ std::vector<css::uno::Reference<ListenerT>> getElements(std::unique_lock<std::mutex>& rGuard) const; /** Inserts an element into the container. The position is not specified, thus it is not specified in which order events are fired. @attention If you add the same interface more than once, then it will be added to the elements list more than once and thus if you want to remove that interface from the list, you have to call removeInterface() the same number of times. In the latter case, you will also get events fired more than once (if the interface is a listener interface). @param rxIFace interface to be added; it is allowed to insert the same interface more than once @param rGuard this parameter only here to make that this container is accessed while locked @return the new count of elements in the container */ sal_Int32 addInterface(std::unique_lock<std::mutex>& rGuard, const css::uno::Reference<ListenerT>& rxIFace); /** Removes an element from the container. It uses interface equality to remove the interface. @param rxIFace interface to be removed @param rGuard this parameter only here to make that this container is accessed while locked @return the new count of elements in the container */ sal_Int32 removeInterface(std::unique_lock<std::mutex>& rGuard, const css::uno::Reference<ListenerT>& rxIFace); /** Call disposing on all object in the container that support XEventListener. Then clear the container. The guard is unlock()'ed before calling the listeners. */ void disposeAndClear(::std::unique_lock<::std::mutex>& rGuard, const css::lang::EventObject& rEvt); /** Clears the container without calling disposing(). @param rGuard this parameter only here to make that this container is accessed while locked */ void clear(::std::unique_lock<::std::mutex>& rGuard); /** Executes a functor for each contained listener of specified type, e.g. <code>forEach<awt::XPaintListener>(...</code>. If a css::lang::DisposedException occurs which relates to the called listener, then that listener is removed from the container. @tparam FuncT unary functor type, let your compiler deduce this for you @param func unary functor object expecting an argument of type css::uno::Reference<ListenerT> @param rGuard this parameter only here to make that this container is accessed while locked */ template <typename FuncT> inline void forEach(std::unique_lock<std::mutex>& rGuard, FuncT const& func) cons /** Executes a functor for each contained listener of specified type, e.g. <code>forEach<awt::XPaintListener>(...</code>. If a css::lang::DisposedException occurs which relates to the called listener, then that listener is removed from the container. If any other UNO exception occurs, the exceptionFunc is called. @tparam FuncT unary functor type, let your compiler deduce this for you @tparam ExceptionFuncT nullary functor type, let your compiler deduce this for you @param func unary functor object expecting an argument of type css::uno::Reference<ListenerT> @param exceptionFunc nullary functor object @param rGuard this parameter only here to make that this container is accessed while locked */ template <typename FuncT, typename ExceptionFuncT> inline void forEach(std::unique_lock<std::mutex>& rGuard, FuncT const& func, ExceptionFuncT const& exceptionFunc) const; /** Calls a UNO listener method for each contained listener. The listener method must take a single argument of type EventT, and return <code>void</code>. If a css::lang::DisposedException occurs which relates to the called listener, then that listener is removed from the container. @tparam EventT event type, let your compiler deduce this for you @param NotificationMethod Pointer to a method of a ListenerT interface. @param Event Event to notify to all contained listeners @param rGuard this parameter only here to make that this container is accessed while locked Example: @code awt::PaintEvent aEvent( static_cast< cppu::OWeakObject* >( this ), ... ); listeners.notifyEach( &XPaintListener::windowPaint, aEvent ); @endcode */ template <typename EventT> inline void notifyEach(std::unique_lock<std::mutex>& rGuard, void (SAL_CALL ListenerT::*NotificationMethod)(const EventT&), const EventT& Event) const; /** Calls a UNO listener method for each contained listener. The listener method must take a single argument of type EventT, and return <code>void</code>. If a css::lang::DisposedException occurs which relates to the called listener, then that listener is removed from the container. If any other UNO exception occurs, the exceptionFunc is called. @tparam EventT event type, let your compiler deduce this for you @tparam ExceptionFuncT nullary functor type, let your compiler deduce this for you @param NotificationMethod Pointer to a method of a ListenerT interface. @param Event Event to notify to all contained listeners @param exceptionFunc nullary functor object @param rGuard this parameter only here to make that this container is accessed while locked */ template <typename EventT, typename ExceptionFuncT> inline void notifyEach(std::unique_lock<std::mutex>& rGuard, void (SAL_CALL ListenerT::*NotificationMethod)(const EventT&), const EventT& Event, const ExceptionFuncT& exceptionFunc) const; // this is moveable, but not copyable OInterfaceContainerHelper4(OInterfaceContainerHelper4&&) = default; OInterfaceContainerHelper4& operator=(OInterfaceContainerHelper4&&) = default; private: friend class OInterfaceIteratorHelper4<ListenerT>; o3tl::cow_wrapper<std::vector<css::uno::Reference<ListenerT>>, o3tl::ThreadSafeRefCountingPolicy> maData; OInterfaceContainerHelper4(const OInterfaceContainerHelper4&) = delete; OInterfaceContainerHelper4& operator=(const OInterfaceContainerHelper4&) = de static o3tl::cow_wrapper<std::vector<css::uno::Reference<ListenerT>>, o3tl::ThreadSafeRefCountingPolicy>& DEFAULT() { static o3tl::cow_wrapper<std::vector<css::uno::Reference<ListenerT>>, o3tl::ThreadSafeRefCountingPolicy> SINGLETON; return SINGLETON; } private: template <typename EventT> class NotifySingleListener { private: typedef void (SAL_CALL ListenerT::*NotificationMethod)(const EventT&); NotificationMethod const m_pMethod; const EventT& m_rEvent; public: NotifySingleListener(NotificationMethod method, const EventT& event) : m_pMethod(method) , m_rEvent(event) { assert(m_pMethod); } void operator()(const css::uno::Reference<ListenerT>& listener) const { (listener.get()->*m_pMethod)(m_rEvent); } }; }; template <class T> inline OInterfaceContainerHelper4<T>::OInterfaceContainerHelper4() : maData(OInterfaceContainerHelper4<T>::DEFAULT()) { } template <class T> template <typename FuncT> inline void OInterfaceContainerHelper4<T>::forEach(std::unique_lock<std::mutex>& rG FuncT const& func) const { assert(rGuard.owns_lock()); if (std::as_const(maData)->empty()) { return; } const_cast<OInterfaceContainerHelper4&>(*this) .maData.make_unique(); // so we can iterate over the data without holding the lock OInterfaceIteratorHelper4<T> iter(rGuard, const_cast<OInterfaceContainerHelper4&>(*t rGuard.unlock(); while (iter.hasMoreElements()) { auto xListener = iter.next(); try { func(xListener); } catch (css::lang::DisposedException const& exc) { if (exc.Context == xListener) { rGuard.lock(); iter.remove(rGuard); rGuard.unlock(); } } } rGuard.lock(); } template <class T> template <typename FuncT, typename ExceptionFuncT> inline void OInterfaceContainerHelper4<T>::forEach(std::unique_lock<std::mutex>& rG FuncT const& func, ExceptionFuncT const& exceptionFunc) const { assert(rGuard.owns_lock()); if (std::as_const(maData)->empty()) { return; } const_cast<OInterfaceContainerHelper4&>(*this) .maData.make_unique(); // so we can iterate over the data without holding the lock OInterfaceIteratorHelper4<T> iter(rGuard, const_cast<OInterfaceContainerHelper4&>(*t rGuard.unlock(); while (iter.hasMoreElements()) { auto xListener = iter.next(); try { func(xListener); } catch (css::lang::DisposedException const& exc) { if (exc.Context == xListener) { rGuard.lock(); iter.remove(rGuard); rGuard.unlock(); } } catch (css::uno::Exception) { exceptionFunc(); } } rGuard.lock(); } template <class ListenerT> template <typename EventT> inline void OInterfaceContainerHelper4<ListenerT>::notifyEach( std::unique_lock<std::mutex>& rGuard, void (SAL_CALL ListenerT::*NotificationMethod)(const EventT&), const EventT& Eve { forEach<NotifySingleListener<EventT>>(rGuard, NotifySingleListener<EventT>(NotificationMethod, Event)); } template <class ListenerT> template <typename EventT, typename ExceptionFuncT> inline void OInterfaceContainerHelper4<ListenerT>::notifyEach( std::unique_lock<std::mutex>& rGuard, void (SAL_CALL ListenerT::*NotificationMethod)(const EventT&), const EventT& Eve const ExceptionFuncT& exceptionFunc) const { forEach<NotifySingleListener<EventT>>( rGuard, NotifySingleListener<EventT>(NotificationMethod, Event), exceptionFunc); } template <class ListenerT> sal_Int32 OInterfaceContainerHelper4<ListenerT>::getLength(std::unique_lock<std::mutex>& rG { assert(rGuard.owns_lock()); (void)rGuard; return maData->size(); } template <class ListenerT> std::vector<css::uno::Reference<ListenerT>> OInterfaceContainerHelper4<ListenerT>::getElements(std::unique_lock<std::mutex>& { assert(rGuard.owns_lock()); (void)rGuard; return *maData; } template <class ListenerT> sal_Int32 OInterfaceContainerHelper4<ListenerT>::addInterface(std::unique_lock<std::mutex>& const css::uno::Reference<ListenerT>& rListener) { assert(rGuard.owns_lock()); (void)rGuard; assert(rListener.is()); maData->push_back(rListener); return std::as_const(maData)->size(); } template <class ListenerT> sal_Int32 OInterfaceContainerHelper4<ListenerT>::removeInterface( std::unique_lock<std::mutex>& rGuard, const css::uno::Reference<ListenerT>& rLis { assert(rGuard.owns_lock()); (void)rGuard; assert(rListener.is()); // It is not valid to compare the pointer directly, but it's faster. auto it = std::find_if(maData->begin(), maData->end(), [&rListener](const css::uno::Reference<css::uno::XInterface>& rItem) { return rItem.get() == rListener.get(); }); // interface not found, use the correct compare method if (it == maData->end()) it = std::find(maData->begin(), maData->end(), rListener); if (it != maData->end()) maData->erase(it); return std::as_const(maData)->size(); } template <class ListenerT> void OInterfaceContainerHelper4<ListenerT>::disposeAndClear(std::unique_lock<std::mu const css::lang::EventObject& rEvt) { { OInterfaceIteratorHelper4<ListenerT> aIt(rGuard, *this); maData = DEFAULT(); // cheaper than calling maData->clear() because it doesn't allocate a new vector rGuard.unlock(); // unlock followed by iterating is only safe because we are not going to call remove() on the iter while (aIt.hasMoreElements()) { try { aIt.next()->disposing(rEvt); } catch (css::uno::RuntimeException&) { // be robust, if e.g. a remote bridge has disposed already. // there is no way to delegate the error to the caller :o(. } } } // tdf#152077 need to destruct the OInterfaceIteratorHelper4 before we take the lock again // because there is a vague chance that destructing it will trigger a call back into something // that wants to take the lock. rGuard.lock(); } template <class ListenerT> void OInterfaceContainerHelper4<ListenerT>::clear(::std::unique_lock<::std::mutex>&&nbs { assert(rGuard.owns_lock()); (void)rGuard; maData->clear(); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */ ¤ Dauer der Verarbeitung: 0.14 Sekunden (vorverarbeitet) ¤*© Formatika GbR, Deutschland |
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2026-03-28