/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #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 framework; namespace { // This enum can be used to set different active states of frames enum EActiveState { E_INACTIVE, // I am not a member of active path in tree and i don't have the focus. E_ACTIVE, // I am in the middle of an active path in tree and i don't have the focus. E_FOCUS // I have the focus now. I must a member of an active path! }; /*-************************************************************************************************************ @short implements a normal frame of hierarchy @descr An instance of these class can be a normal node in frame tree. A frame support influencing of his subtree, find of subframes, activate- and deactivate-mechanism as well as set/get of a frame window, component or controller. *//*-*************************************************************************************************************/ class XFrameImpl: private cppu::BaseMutex, public cppu::PartialWeakComponentImplHelper< css::lang::XServiceInfo, css::frame::XFrame2, css::awt::XWindowListener, css::awt::XTopWindowListener, css::awt::XFocusListener, css::document::XActionLockable, css::util::XCloseable, css::frame::XComponentLoader, css::frame::XTitle, css::frame::XTitleChangeBroadcaster, css::beans::XPropertySet, css::beans::XPropertySetInfo> { public: explicit XFrameImpl(css::uno::Reference< css::uno::XComponentContext > xContext); /// Initialization function after having acquire()'d. void initListeners(); virtual OUString SAL_CALL getImplementationName() override { return "com.sun.star.comp.framework.Frame"; } virtual sal_Bool SAL_CALL supportsService(OUString const & ServiceName) override { return cppu::supportsService(this, ServiceName); } virtual css::uno::Sequence SAL_CALL getSupportedServiceNames() override { return {"com.sun.star.frame.Frame"}; } // XComponentLoader virtual css::uno::Reference< css::lang::XComponent > SAL_CALL loadComponentFromURL( const OUString& sURL, const OUString& sTargetFrameName, sal_Int32 nSearchFlags, const css::uno::Sequence< css::beans::PropertyValue >& lArguments ) override; // XFramesSupplier virtual css::uno::Reference < css::frame::XFrames > SAL_CALL getFrames() override; virtual css::uno::Reference < css::frame::XFrame > SAL_CALL getActiveFrame() override; virtual void SAL_CALL setActiveFrame(const css::uno::Reference < css::frame::XFrame > & xFrame) override; // XFrame virtual void SAL_CALL initialize(const css::uno::Reference < css::awt::XWindow > & xWindow) override; virtual css::uno::Reference < css::awt::XWindow > SAL_CALL getContainerWindow() override; virtual void SAL_CALL setCreator(const css::uno::Reference < css::frame::XFramesSupplier > & xCreator) override; virtual css::uno::Reference < css::frame::XFramesSupplier > SAL_CALL getCreator() override; virtual OUString SAL_CALL getName() override; virtual void SAL_CALL setName(const OUString & sName) override; virtual css::uno::Reference < css::frame::XFrame > SAL_CALL findFrame( const OUString & sTargetFrameName, sal_Int32 nSearchFlags) override; virtual sal_Bool SAL_CALL isTop() override; virtual void SAL_CALL activate() override; virtual void SAL_CALL deactivate() override; virtual sal_Bool SAL_CALL isActive() override; virtual void SAL_CALL contextChanged() override; virtual sal_Bool SAL_CALL setComponent( const css::uno::Reference < css::awt::XWindow > & xComponentWindow, const css::uno::Reference < css::frame::XController > & xController) override; virtual css::uno::Reference < css::awt::XWindow > SAL_CALL getComponentWindow() override; virtual css::uno::Reference < css::frame::XController > SAL_CALL getController() override; virtual void SAL_CALL addFrameActionListener(const css::uno::Reference < css::frame::XFrameActionListener > & xListener) override; virtual void SAL_CALL removeFrameActionListener(const css::uno::Reference < css::frame::XFrameActionListener > & xListener) override; // XComponent virtual void SAL_CALL disposing() override; virtual void SAL_CALL addEventListener(const css::uno::Reference < css::lang::XEventListener > & xListener) override; virtual void SAL_CALL removeEventListener(const css::uno::Reference < css::lang::XEventListener > & xListener) override; // XStatusIndicatorFactory virtual css::uno::Reference < css::task::XStatusIndicator > SAL_CALL createStatusIndicator() override; // XDispatchProvider virtual css::uno::Reference < css::frame::XDispatch > SAL_CALL queryDispatch(const css::util::URL & aURL, const OUString & sTargetFrameName, sal_Int32 nSearchFlags) override; virtual css::uno::Sequence < css::uno::Reference < css::frame::XDispatch > > SAL_CALL queryDispatches( const css::uno::Sequence < css::frame::DispatchDescriptor > & lDescriptor) override; // XDispatchProviderInterception virtual void SAL_CALL registerDispatchProviderInterceptor( const css::uno::Reference < css::frame::XDispatchProviderInterceptor > & xInterceptor) override; virtual void SAL_CALL releaseDispatchProviderInterceptor( const css::uno::Reference < css::frame::XDispatchProviderInterceptor > & xInterceptor) override; // XDispatchInformationProvider virtual css::uno::Sequence < sal_Int16 > SAL_CALL getSupportedCommandGroups() override; virtual css::uno::Sequence < css::frame::DispatchInformation > SAL_CALL getConfigurableDispatchInformation(sal_Int16 nCommandGroup) override; // XWindowListener // Attention: windowResized() and windowShown() are implement only! All other are empty! virtual void SAL_CALL windowResized(const css::awt::WindowEvent & aEvent) override; virtual void SAL_CALL windowMoved(const css::awt::WindowEvent & /*aEvent*/ ) override {}; virtual void SAL_CALL windowShown(const css::lang::EventObject & aEvent) override; virtual void SAL_CALL windowHidden(const css::lang::EventObject & aEvent) override; // XFocusListener // Attention: focusLost() not implemented yet! virtual void SAL_CALL focusGained(const css::awt::FocusEvent & aEvent) override; virtual void SAL_CALL focusLost(const css::awt::FocusEvent & /*aEvent*/ ) override {}; // XTopWindowListener // Attention: windowActivated(), windowDeactivated() and windowClosing() are implement only! All other are empty! virtual void SAL_CALL windowActivated(const css::lang::EventObject & aEvent) override; virtual void SAL_CALL windowDeactivated(const css::lang::EventObject & aEvent) override; virtual void SAL_CALL windowOpened(const css::lang::EventObject & /*aEvent*/ ) override {}; virtual void SAL_CALL windowClosing(const css::lang::EventObject & aEvent) override; virtual void SAL_CALL windowClosed(const css::lang::EventObject & /*aEvent*/ ) override {}; virtual void SAL_CALL windowMinimized(const css::lang::EventObject & /*aEvent*/ ) override {}; virtual void SAL_CALL windowNormalized(const css::lang::EventObject & /*aEvent*/ ) override {}; // XEventListener virtual void SAL_CALL disposing(const css::lang::EventObject & aEvent) override; // XActionLockable virtual sal_Bool SAL_CALL isActionLocked() override; virtual void SAL_CALL addActionLock() override; virtual void SAL_CALL removeActionLock() override; virtual void SAL_CALL setActionLocks(sal_Int16 nLock) override; virtual sal_Int16 SAL_CALL resetActionLocks() override; // XCloseable virtual void SAL_CALL close(sal_Bool bDeliverOwnership) override; // XCloseBroadcaster virtual void SAL_CALL addCloseListener(const css::uno::Reference < css::util::XCloseListener > & xListener) override; virtual void SAL_CALL removeCloseListener(const css::uno::Reference < css::util::XCloseListener > & xListener) override; // XTitle virtual OUString SAL_CALL getTitle() override; virtual void SAL_CALL setTitle(const OUString & sTitle) override; // XTitleChangeBroadcaster virtual void SAL_CALL addTitleChangeListener(const css::uno::Reference < css::frame::XTitleChangeListener > & xListener) override; virtual void SAL_CALL removeTitleChangeListener(const css::uno::Reference < css::frame::XTitleChangeListener > & xListenr) override; // XFrame2 attributes virtual css::uno::Reference < css::container::XNameContainer > SAL_CALL getUserDefinedAttributes() override; virtual css::uno::Reference < css::frame::XDispatchRecorderSupplier > SAL_CALL getDispatchRecorderSupplier() override; virtual void SAL_CALL setDispatchRecorderSupplier(const css::uno::Reference < css::frame::XDispatchRecorderSupplier > & ) override; virtual css::uno::Reference < css::uno::XInterface > SAL_CALL getLayoutManager() override; virtual void SAL_CALL setLayoutManager(const css::uno::Reference < css::uno::XInterface > & ) override; // XPropertySet virtual css::uno::Reference < css::beans::XPropertySetInfo > SAL_CALL getPropertySetInfo() override; virtual void SAL_CALL setPropertyValue(const OUString & sProperty, const css::uno::Any & aValue) override; virtual css::uno::Any SAL_CALL getPropertyValue(const OUString & sProperty) override; virtual void SAL_CALL addPropertyChangeListener( const OUString & sProperty, const css::uno::Reference < css::beans::XPropertyChangeListener > & xListener) override; virtual void SAL_CALL removePropertyChangeListener( const OUString & sProperty, const css::uno::Reference < css::beans::XPropertyChangeListener > & xListener) override; virtual void SAL_CALL addVetoableChangeListener( const OUString & sProperty, const css::uno::Reference < css::beans::XVetoableChangeListener > & xListener) override; virtual void SAL_CALL removeVetoableChangeListener( const OUString & sProperty, const css::uno::Reference < css::beans::XVetoableChangeListener > & xListener) override; // XPropertySetInfo virtual css::uno::Sequence < css::beans::Property > SAL_CALL getProperties() override; virtual css::beans::Property SAL_CALL getPropertyByName(const OUString & sName) override; virtual sal_Bool SAL_CALL hasPropertyByName(const OUString & sName) override; private: void impl_setPropertyValue(sal_Int32 nHandle, const css::uno::Any& aValue); css::uno::Any impl_getPropertyValue(sal_Int32 nHandle); /** set a new owner for this helper. * * This owner is used as source for all broadcasted events. * Further we hold it weak, because we don't wish to be disposed() .-) */ void impl_setPropertyChangeBroadcaster(const css::uno::Reference< css::uno::XInterface >& xBroadcaster); /** add a new property info to the set of supported ones. * * @param aProperty * describes the new property. * * @throw [css::beans::PropertyExistException] * if a property with the same name already exists. * * Note: The consistence of the whole set of properties is not checked here. * Means e.g. ... a handle which exists more than once is not detected. * The owner of this class has to be sure, that every new property does * not clash with any existing one. */ void impl_addPropertyInfo(const css::beans::Property& aProperty); /** mark the object as "dead". */ void impl_disablePropertySet(); bool impl_existsVeto(const css::beans::PropertyChangeEvent& aEvent); void impl_notifyChangeListener(const css::beans::PropertyChangeEvent& aEvent); /*-**************************************************************************************************** @short helper methods @descr Follow methods are needed at different points of our code (more than ones!). @attention Threadsafe methods are signed by "implts_..."! *//*-*****************************************************************************************************/ // threadsafe void implts_sendFrameActionEvent ( const css::frame::FrameAction& aAction ); void implts_resizeComponentWindow ( ); void implts_setIconOnWindow ( ); void implts_startWindowListening ( ); void implts_stopWindowListening ( ); void implts_checkSuicide ( ); void implts_forgetSubFrames ( ); // non threadsafe void impl_checkMenuCloser ( ); void impl_setCloser ( const css::uno::Reference< css::frame::XFrame2 >& xFrame , bool bState ); void disableLayoutManager(const css::uno::Reference< css::frame::XLayoutManager2 >& xLayoutManager); void checkDisposed() { osl::MutexGuard g(rBHelper.rMutex); if (rBHelper.bInDispose || rBHelper.bDisposed) { throw css::lang::DisposedException("Frame disposed"); } } // variables // -threadsafe by SolarMutex /// reference to factory, which has create this instance css::uno::Reference< css::uno::XComponentContext > m_xContext; /// reference to factory helper to create status indicator objects css::uno::Reference< css::task::XStatusIndicatorFactory > m_xIndicatorFactoryHelper; /// points to an external set progress, which should be used instead of the internal one. css::uno::WeakReference< css::task::XStatusIndicator > m_xIndicatorInterception; /// helper for XDispatch/Provider and interception interfaces rtl::Reference< InterceptionHelper > m_xDispatchHelper; /// helper for XFrames, XIndexAccess and XElementAccess interfaces css::uno::Reference< css::frame::XFrames > m_xFramesHelper; /// container for ALL Listener comphelper::OMultiTypeInterfaceContainerHelper2 m_aListenerContainer; /// parent of this frame css::uno::Reference< css::frame::XFramesSupplier > m_xParent; /// containerwindow of this frame for embedded components css::uno::Reference< css::awt::XWindow > m_xContainerWindow; /// window of the actual component css::uno::Reference< css::awt::XWindow > m_xComponentWindow; /// controller of the actual frame css::uno::Reference< css::frame::XController > m_xController; /// listen to drag & drop css::uno::Reference< css::datatransfer::dnd::XDropTargetListener > m_xDropTargetListener; /// state, if I am a member of active path in tree or I have the focus or... EActiveState m_eActiveState; /// name of this frame OUString m_sName; /// frame has no parent or the parent is a task or the desktop bool m_bIsFrameTop; /// due to FrameActionEvent bool m_bConnected; sal_Int16 m_nExternalLockCount; /// is used for dispatch recording and will be set/get from outside. Frame provide it only! css::uno::Reference< css::frame::XDispatchRecorderSupplier > m_xDispatchRecorderSupplier; /// ref counted class to support disabling commands defined by configuration file SvtCommandOptions m_aCommandOptions; /// in case of CloseVetoException on method close() was thrown by ourself - we must close ourself later if no internal processes are running bool m_bSelfClose; /// indicates, if this frame is used in hidden mode or not bool m_bIsHidden; /// The container window has WindowExtendedStyle::DocHidden set. bool m_bDocHidden = false; /// is used to layout the child windows of the frame. css::uno::Reference< css::frame::XLayoutManager2 > m_xLayoutManager; css::uno::Reference< css::frame::XDispatchInformationProvider > m_xDispatchInfoHelper; css::uno::Reference< css::frame::XTitle > m_xTitleHelper; std::unique_ptr m_pWindowCommandDispatch; typedef std::unordered_map TPropInfoHash; TPropInfoHash m_lProps; comphelper::OMultiTypeInterfaceContainerHelperVar3 m_lSimpleChangeListener; comphelper::OMultiTypeInterfaceContainerHelperVar3 m_lVetoChangeListener; // hold it weak ... otherwise this helper has to be "killed" explicitly .-) css::uno::WeakReference< css::uno::XInterface > m_xBroadcaster; FrameContainer m_aChildFrameContainer; /// array of child frames /** * URL of the file that is being loaded, when the load already started by we have no controller * yet. */ OUString m_aURL; }; /*-**************************************************************************************************** @short standard constructor to create instance by factory @descr This constructor initialize a new instance of this class by valid factory, and will be set valid values on his member and baseclasses. @attention a) Don't use your own reference during a UNO-Service-ctor! There is no guarantee, that you will get over this. (e.g. using of your reference as parameter to initialize some member) Do such things in DEFINE_INIT_SERVICE() method, which is called automatically after your ctor!!! b) Baseclass OBroadcastHelper is a typedef in namespace cppu! The microsoft compiler has some problems to handle it right BY using namespace explicitly ::cppu::OBroadcastHelper. If we write it without a namespace or expand the typedef to OBroadcastHelperVar<...> -> it will be OK!? I don't know why! (other compiler not tested .. but it works!) @seealso method DEFINE_INIT_SERVICE() @param xContext is the multi service manager, which creates this instance. The value must be different from NULL! @onerror ASSERT in debug version or nothing in release version. *//*-*****************************************************************************************************/ XFrameImpl::XFrameImpl( css::uno::Reference< css::uno::XComponentContext > xContext ) : PartialWeakComponentImplHelper(m_aMutex) // init member , m_xContext (std::move( xContext )) , m_aListenerContainer ( m_aMutex ) , m_eActiveState ( E_INACTIVE ) , m_bIsFrameTop ( true ) // I think we are top without a parent ... and there is no parent yet! , m_bConnected ( false ) // There exist no component inside of use => sal_False, we are not connected! , m_nExternalLockCount ( 0 ) , m_bSelfClose ( false ) // Important! , m_bIsHidden ( true ) , m_lSimpleChangeListener ( m_aMutex ) , m_lVetoChangeListener ( m_aMutex ) { } void XFrameImpl::initListeners() { css::uno::Reference< css::uno::XInterface > xThis(static_cast< ::cppu::OWeakObject* >(this), css::uno::UNO_QUERY_THROW); // Initialize a new dispatchhelper-object to handle dispatches. // We use these helper as slave for our interceptor helper ... not directly! // But he is event listener on THIS instance! rtl::Reference xDispatchProvider = new DispatchProvider( m_xContext, this ); m_xDispatchInfoHelper = new DispatchInformationProvider(m_xContext, this); // Initialize a new interception helper object to handle dispatches and implement an interceptor mechanism. // Set created dispatch provider as slowest slave of it. // Hold interception helper by reference only - not by pointer! // So it's easier to destroy it. m_xDispatchHelper = new InterceptionHelper( this, xDispatchProvider ); // Initialize a new XFrames-helper-object to handle XIndexAccess and XElementAccess. // We hold member as reference ... not as pointer too! // Attention: We share our frame container with this helper. Container is threadsafe himself ... So I think we can do that. // But look on dispose() for right order of deinitialization. m_xFramesHelper = new OFrames( this, &m_aChildFrameContainer ); // Initialize the drop target listener. // We hold member as reference ... not as pointer too! m_xDropTargetListener = new OpenFileDropTargetListener( m_xContext, this ); // Safe impossible cases // We can't work without these helpers! SAL_WARN_IF( !xDispatchProvider.is(), "fwk.frame", "XFrameImpl::XFrameImpl(): Slowest slave for dispatch- and interception helper " "is not valid. XDispatchProvider, XDispatch, XDispatchProviderInterception are not full supported!" ); SAL_WARN_IF( !m_xDispatchHelper.is(), "fwk.frame", "XFrameImpl::XFrameImpl(): Interception helper is not valid. XDispatchProvider, " "XDispatch, XDispatchProviderInterception are not full supported!" ); SAL_WARN_IF( !m_xFramesHelper.is(), "fwk.frame", "XFrameImpl::XFrameImpl(): Frames helper is not valid. XFrames, " "XIndexAccess and XElementAccess are not supported!" ); SAL_WARN_IF( !m_xDropTargetListener.is(), "fwk.frame", "XFrameImpl::XFrameImpl(): DropTarget helper is not valid. " "Drag and drop without functionality!" ); // establish notifies for changing of "disabled commands" configuration during runtime m_aCommandOptions.EstablishFrameCallback(this); // Create an initial layout manager // Create layout manager and connect it to the newly created frame m_xLayoutManager = css::frame::LayoutManager::create(m_xContext); // set information about all supported properties impl_setPropertyChangeBroadcaster(static_cast< css::frame::XFrame* >(this)); impl_addPropertyInfo( css::beans::Property( FRAME_PROPNAME_ASCII_DISPATCHRECORDERSUPPLIER, FRAME_PROPHANDLE_DISPATCHRECORDERSUPPLIER, cppu::UnoType::get(), css::beans::PropertyAttribute::TRANSIENT)); impl_addPropertyInfo( css::beans::Property( FRAME_PROPNAME_ASCII_INDICATORINTERCEPTION, FRAME_PROPHANDLE_INDICATORINTERCEPTION, cppu::UnoType::get(), css::beans::PropertyAttribute::TRANSIENT)); impl_addPropertyInfo( css::beans::Property( FRAME_PROPNAME_ASCII_ISHIDDEN, FRAME_PROPHANDLE_ISHIDDEN, cppu::UnoType::get(), css::beans::PropertyAttribute::TRANSIENT | css::beans::PropertyAttribute::READONLY)); impl_addPropertyInfo( css::beans::Property( FRAME_PROPNAME_ASCII_LAYOUTMANAGER, FRAME_PROPHANDLE_LAYOUTMANAGER, cppu::UnoType::get(), css::beans::PropertyAttribute::TRANSIENT)); impl_addPropertyInfo( css::beans::Property( FRAME_PROPNAME_ASCII_TITLE, FRAME_PROPHANDLE_TITLE, cppu::UnoType::get(), css::beans::PropertyAttribute::TRANSIENT)); impl_addPropertyInfo(css::beans::Property(FRAME_PROPNAME_ASCII_URL, FRAME_PROPHANDLE_URL, cppu::UnoType::get(), css::beans::PropertyAttribute::TRANSIENT)); } /*-************************************************************************************************************ @interface XComponentLoader @short try to load given URL into a task @descr You can give us some information about the content, which you will load into a frame. We search or create this target for you, make a type detection of given URL and try to load it. As result of this operation we return the new created component or nothing, if loading failed. @param "sURL" , URL, which represent the content @param "sTargetFrameName" , name of target frame or special value like "_self", "_blank" ... @param "nSearchFlags" , optional arguments for frame search, if target is not a special one @param "lArguments" , optional arguments for loading @return A valid component reference, if loading was successful. A null reference otherwise. @onerror We return a null reference. @threadsafe yes *//*-*************************************************************************************************************/ css::uno::Reference< css::lang::XComponent > SAL_CALL XFrameImpl::loadComponentFromURL( const OUString& sURL, const OUString& sTargetFrameName, sal_Int32 nSearchFlags, const css::uno::Sequence< css::beans::PropertyValue >& lArguments ) { checkDisposed(); css::uno::Reference< css::frame::XComponentLoader > xThis(this); utl::MediaDescriptor aDescriptor(lArguments); bool bOnMainThread = aDescriptor.getUnpackedValueOrDefault("OnMainThread", false); if (bOnMainThread) { // Make sure that we own the solar mutex, otherwise later // vcl::SolarThreadExecutor::execute() will release the solar mutex, even if it's owned by // another thread, leading to an std::abort() at the end. SolarMutexGuard g; return vcl::solarthread::syncExecute(std::bind(&LoadEnv::loadComponentFromURL, xThis, m_xContext, sURL, sTargetFrameName, nSearchFlags, lArguments)); } else return LoadEnv::loadComponentFromURL(xThis, m_xContext, sURL, sTargetFrameName, nSearchFlags, lArguments); } /*-**************************************************************************************************** @short return access to append or remove children on desktop @descr We don't implement these interface directly. We use a helper class to do this. If you wish to add or delete children to/from the container, call these method to get a reference to the helper. @seealso class OFrames @return A reference to the helper which answer your queries. @onerror A null reference is returned. *//*-*****************************************************************************************************/ css::uno::Reference< css::frame::XFrames > SAL_CALL XFrameImpl::getFrames() { checkDisposed(); SolarMutexGuard g; // Return access to all child frames to caller. // Our childframe container is implemented in helper class OFrames and used as a reference m_xFramesHelper! return m_xFramesHelper; } /*-**************************************************************************************************** @short get the current active child frame @descr It must be a frameto. Direct children of a frame are frames only! No task or desktop is accepted. We don't save this information directly in this class. We use our container-helper to do that. @seealso class OFrameContainer @seealso method setActiveFrame() @return A reference to our current active childframe, if anyone exist. @return A null reference, if nobody is active. @onerror A null reference is returned. *//*-*****************************************************************************************************/ css::uno::Reference< css::frame::XFrame > SAL_CALL XFrameImpl::getActiveFrame() { checkDisposed(); SolarMutexGuard g; // Return current active frame. // This information is available on the container. return m_aChildFrameContainer.getActive(); } /*-**************************************************************************************************** @short set the new active direct child frame @descr It must be a frame to. Direct children of frame are frames only! No task or desktop is accepted. We don't save this information directly in this class. We use our container-helper to do that. @seealso class OFrameContainer @seealso method getActiveFrame() @param "xFrame", reference to new active child. It must be an already existing child! @onerror An assertion is thrown and element is ignored, if given frame isn't already a child of us. *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::setActiveFrame( const css::uno::Reference< css::frame::XFrame >& xFrame ) { checkDisposed(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexResettableGuard aWriteLock; // Copy necessary member for threadsafe access! // m_aChildFrameContainer is threadsafe himself and he live if we live!!! css::uno::Reference< css::frame::XFrame > xActiveChild = m_aChildFrameContainer.getActive(); EActiveState eActiveState = m_eActiveState; aWriteLock.clear(); /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ // Don't work, if "new" active frame isn't different from current one! // (xFrame==NULL is allowed to UNSET it!) if( xActiveChild != xFrame ) { // ... otherwise set new and deactivate old one. m_aChildFrameContainer.setActive( xFrame ); if ( ( eActiveState != E_INACTIVE ) && xActiveChild.is() ) { xActiveChild->deactivate(); } } if( xFrame.is() ) { // If last active frame had focus ... // ... reset state to ACTIVE and send right FrameActionEvent for focus lost. if( eActiveState == E_FOCUS ) { aWriteLock.reset(); eActiveState = E_ACTIVE; m_eActiveState = eActiveState; aWriteLock.clear(); implts_sendFrameActionEvent( css::frame::FrameAction_FRAME_UI_DEACTIVATING ); } // If last active frame was active ... // but new one is not it ... // ... set it as active one. if ( eActiveState == E_ACTIVE && !xFrame->isActive() ) { xFrame->activate(); } } else // If this frame is active and has no active subframe anymore it is UI active too if( eActiveState == E_ACTIVE ) { aWriteLock.reset(); eActiveState = E_FOCUS; m_eActiveState = eActiveState; aWriteLock.clear(); implts_sendFrameActionEvent( css::frame::FrameAction_FRAME_UI_ACTIVATED ); } } /*-**************************************************************************************************** initialize new created layout manager **/ void lcl_enableLayoutManager(const css::uno::Reference< css::frame::XLayoutManager2 >& xLayoutManager, const css::uno::Reference< css::frame::XFrame >& xFrame ) { // Provide container window to our layout manager implementation xLayoutManager->attachFrame(xFrame); xFrame->addFrameActionListener(xLayoutManager); rtl::Reference xDockingAreaAcceptor = new DockingAreaDefaultAcceptor(xFrame); xLayoutManager->setDockingAreaAcceptor(xDockingAreaAcceptor); } /*-**************************************************************************************************** deinitialize layout manager **/ void XFrameImpl::disableLayoutManager(const css::uno::Reference< css::frame::XLayoutManager2 >& xLayoutManager) { removeFrameActionListener(xLayoutManager); xLayoutManager->setDockingAreaAcceptor(css::uno::Reference< css::ui::XDockingAreaAcceptor >()); xLayoutManager->attachFrame(css::uno::Reference< css::frame::XFrame >()); } /*-**************************************************************************************************** @short initialize frame instance @descr A frame needs a window. This method set a new one ... but should called one times only! We use this window to listen for window events and forward it to our set component. It's used as parent of component window too. @seealso method getContainerWindow() @seealso method setComponent() @seealso member m_xContainerWindow @param "xWindow", reference to new container window - must be valid! @onerror We do nothing. *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::initialize( const css::uno::Reference< css::awt::XWindow >& xWindow ) { /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ if (!xWindow.is()) throw css::uno::RuntimeException( "XFrameImpl::initialize() called without a valid container window reference.", static_cast< css::frame::XFrame* >(this)); checkDisposed(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexResettableGuard aWriteLock; // This must be the first call of this method! // We should initialize our object and open it for working. if ( m_xContainerWindow.is() ) throw css::uno::RuntimeException( "XFrameImpl::initialized() is called more than once, which is not useful nor allowed.", static_cast< css::frame::XFrame* >(this)); // Set the new window. m_xContainerWindow = xWindow; // if window is initially visible, we will never get a windowShowing event VclPtr pWindow = VCLUnoHelper::GetWindow(xWindow); if (pWindow) { if (pWindow->IsVisible()) m_bIsHidden = false; m_bDocHidden = static_cast(pWindow->GetExtendedStyle() & WindowExtendedStyle::DocHidden); } css::uno::Reference< css::frame::XLayoutManager2 > xLayoutManager = m_xLayoutManager; // Release lock ... because we call some impl methods, which are threadsafe by himself. // If we hold this lock - we will produce our own deadlock! aWriteLock.clear(); /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ // Avoid enabling the layout manager for hidden frames: it's expensive and // provides little value. if (xLayoutManager.is() && !m_bDocHidden) lcl_enableLayoutManager(xLayoutManager, this); // create progress helper css::uno::Reference< css::frame::XFrame > xThis (this); css::uno::Reference< css::task::XStatusIndicatorFactory > xIndicatorFactory = css::task::StatusIndicatorFactory::createWithFrame(m_xContext, xThis, false/*DisableReschedule*/, true/*AllowParentShow*/ ); // SAFE -> ---------------------------------- aWriteLock.reset(); m_xIndicatorFactoryHelper = xIndicatorFactory; aWriteLock.clear(); // <- SAFE ---------------------------------- // Start listening for events after setting it on helper class ... // So superfluous messages are filtered to NULL :-) implts_startWindowListening(); m_pWindowCommandDispatch.reset(new WindowCommandDispatch(m_xContext, this)); // Initialize title functionality m_xTitleHelper = new TitleHelper( m_xContext, xThis, nullptr ); } /*-**************************************************************************************************** @short returns current set container window @descr The ContainerWindow property is used as a container for the component in this frame. So this object implements a container interface too. The instantiation of the container window is done by the user of this class. The frame is the owner of its container window. @seealso method initialize() @return A reference to current set containerwindow. @onerror A null reference is returned. *//*-*****************************************************************************************************/ css::uno::Reference< css::awt::XWindow > SAL_CALL XFrameImpl::getContainerWindow() { SolarMutexGuard g; return m_xContainerWindow; } /*-**************************************************************************************************** @short set parent frame @descr We need a parent to support some functionality! e.g. findFrame() By the way we use the chance to set an internal information about our top state. So we must not check this information during every isTop() call. We are top, if our parent is the desktop instance or we haven't any parent. @seealso getCreator() @seealso findFrame() @seealso isTop() @seealso m_bIsFrameTop @param xCreator valid reference to our new owner frame, which should implement a supplier interface @threadsafe yes *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::setCreator( const css::uno::Reference< css::frame::XFramesSupplier >& xCreator ) { checkDisposed(); /* SAFE { */ { SolarMutexGuard aWriteLock; m_xParent = xCreator; } /* } SAFE */ css::uno::Reference< css::frame::XDesktop > xIsDesktop( xCreator, css::uno::UNO_QUERY ); m_bIsFrameTop = ( xIsDesktop.is() || ! xCreator.is() ); } /*-**************************************************************************************************** @short returns current parent frame @descr The Creator is the parent frame container. If it is NULL, the frame is the uppermost one. @seealso method setCreator() @return A reference to current set parent frame container. @onerror A null reference is returned. *//*-*****************************************************************************************************/ css::uno::Reference< css::frame::XFramesSupplier > SAL_CALL XFrameImpl::getCreator() { checkDisposed(); SolarMutexGuard g; return m_xParent; } /*-**************************************************************************************************** @short returns current set name of frame @descr This name is used to find target of findFrame() or queryDispatch() calls. @seealso method setName() @return Current set name of frame. @onerror An empty string is returned. *//*-*****************************************************************************************************/ OUString SAL_CALL XFrameImpl::getName() { SolarMutexGuard g; return m_sName; } /*-**************************************************************************************************** @short set new name for frame @descr This name is used to find target of findFrame() or queryDispatch() calls. @attention Special names like "_blank", "_self" aren't allowed... "_beamer" excepts this rule! @seealso method getName() @param "sName", new frame name. @onerror We do nothing. *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::setName( const OUString& sName ) { SolarMutexGuard g; // Set new name... but look for invalid special target names! // They are not allowed to set. if (TargetHelper::isValidNameForFrame(sName)) m_sName = sName; } /*-**************************************************************************************************** @short search for frames @descr This method searches for a frame with the specified name. Frames may contain other frames (e.g. a frameset) and may be contained in other frames. This hierarchy is searched by this method. First some special names are taken into account, i.e. "", "_self", "_top", "_blank" etc. The nSearchFlags are ignored when comparing these names with sTargetFrameName, further steps are controlled by the search flags. If allowed, the name of the frame itself is compared with the desired one, then ( again if allowed ) the method findFrame() is called for all children, for siblings and as last for the parent frame. If no frame with the given name is found until the top frames container, a new top one is created, if this is allowed by a special flag. The new frame also gets the desired name. @param sTargetFrameName special names (_blank, _self) or real name of target frame @param nSearchFlags optional flags which regulate search for non special target frames @return A reference to found or may be new created frame. @threadsafe yes *//*-*****************************************************************************************************/ css::uno::Reference< css::frame::XFrame > SAL_CALL XFrameImpl::findFrame( const OUString& sTargetFrameName, sal_Int32 nSearchFlags ) { css::uno::Reference< css::frame::XFrame > xTarget; // 0) Ignore wrong parameter! // We don't support search for following special targets. // If we reject this requests - we must not check for such names // in following code again and again. If we do not so -wrong // search results can occur! if ( sTargetFrameName == SPECIALTARGET_DEFAULT ) // valid for dispatches - not for findFrame()! { return nullptr; } // I) check for special defined targets first which must be handled exclusive. // force using of "if() else if() ..." // get threadsafe some necessary member which are necessary for following functionality /* SAFE { */ SolarMutexResettableGuard aReadLock; css::uno::Reference< css::frame::XFrame > xParent = m_xParent; bool bIsTopFrame = m_bIsFrameTop; bool bIsTopWindow = WindowHelper::isTopWindow(m_xContainerWindow); aReadLock.clear(); /* } SAFE */ // I.I) "_blank" // Not allowed for a normal frame - but for the desktop. // Use helper class to do so. It use the desktop automatically. if ( sTargetFrameName==SPECIALTARGET_BLANK ) { TaskCreator aCreator(m_xContext); xTarget = aCreator.createTask(sTargetFrameName, utl::MediaDescriptor()); } // I.II) "_parent" // It doesn't matter if we have a valid parent or not. User ask for him and get it. // An empty result is a valid result too. else if ( sTargetFrameName==SPECIALTARGET_PARENT ) { xTarget = xParent; } // I.III) "_top" // If we are not the top frame in this hierarchy, we must forward request to our parent. // Otherwise we must return ourself. else if ( sTargetFrameName==SPECIALTARGET_TOP ) { if (bIsTopFrame) xTarget = this; else if (xParent.is()) // If we are not top - the parent MUST exist. But may it's better to check it again .-) xTarget = xParent->findFrame(SPECIALTARGET_TOP,0); } // I.IV) "_self", "" // This mean this frame in every case. else if ( ( sTargetFrameName==SPECIALTARGET_SELF ) || ( sTargetFrameName.isEmpty() ) ) { xTarget = this; } // I.V) "_beamer" // This is a special sub frame of any task. We must return it if we found it on our direct children // or create it there if it not already exists. // Note: Such beamer exists for task(top) frames only! else if ( sTargetFrameName==SPECIALTARGET_BEAMER ) { // We are a task => search or create the beamer if (bIsTopWindow) { xTarget = m_aChildFrameContainer.searchOnDirectChildrens(SPECIALTARGET_BEAMER); if ( ! xTarget.is() ) { /* TODO Creation not supported yet! Wait for new layout manager service because we can't plug it inside already opened document of this frame... */ } } // We aren't a task => forward request to our parent or ignore it. else if (xParent.is()) xTarget = xParent->findFrame(SPECIALTARGET_BEAMER,0); } else { // II) otherwise use optional given search flags // force using of combinations of such flags. means no "else" part of use if() statements. // But we ust break further searches if target was already found. // Order of using flags is fix: SELF - CHILDREN - SIBLINGS - PARENT // TASK and CREATE are handled special. // get threadsafe some necessary member which are necessary for following functionality /* SAFE { */ aReadLock.reset(); OUString sOwnName = m_sName; aReadLock.clear(); /* } SAFE */ // II.I) SELF // Check for right name. If it's the searched one return ourself - otherwise // ignore this flag. if ( (nSearchFlags & css::frame::FrameSearchFlag::SELF) && (sOwnName == sTargetFrameName ) ) { xTarget = this; } // II.II) CHILDREN // Search on all children for the given target name. // An empty name value can't occur here - because it must be already handled as "_self" // before. Used helper function of container doesn't create any frame. // It makes a deep search only. if ( ( ! xTarget.is() ) && (nSearchFlags & css::frame::FrameSearchFlag::CHILDREN) ) { xTarget = m_aChildFrameContainer.searchOnAllChildrens(sTargetFrameName); } // II.III) TASKS // This is a special flag. It regulate search on this task tree only or allow search on // all other ones (which are sibling trees of us) too. // Upper search must stop at this frame if we are the topest one and the TASK flag is not set // or we can ignore it if we have no valid parent. if ( ( bIsTopFrame && (nSearchFlags & css::frame::FrameSearchFlag::TASKS) ) || ( ! bIsTopFrame ) ) { // II.III.I) SIBLINGS // Search on all our direct siblings - means all children of our parent. // Use this flag in combination with TASK. We must suppress such upper search if // user has not set it and if we are a top frame. // Attention: Don't forward this request to our parent as a findFrame() call. // In such case we must protect us against recursive calls. // Use snapshot of our parent. But don't use queryFrames() of XFrames interface. // Because it's return all siblings and all her children including our children too // if we call it with the CHILDREN flag. We don't need that - we need the direct container // items of our parent only to start searches there. So we must use the container interface // XIndexAccess instead of XFrames. if ( ( ! xTarget.is() ) && (nSearchFlags & css::frame::FrameSearchFlag::SIBLINGS) && ( xParent.is() ) // search on siblings is impossible without a parent ) { css::uno::Reference< css::frame::XFramesSupplier > xSupplier( xParent, css::uno::UNO_QUERY ); if (xSupplier.is()) { css::uno::Reference< css::container::XIndexAccess > xContainer = xSupplier->getFrames(); if (xContainer.is()) { sal_Int32 nCount = xContainer->getCount(); for( sal_Int32 i=0; i xSibling; if ( // control unpacking ( !(xContainer->getByIndex(i)>>=xSibling) ) || // check for valid items ( ! xSibling.is() ) || // ignore ourself! (We are a part of this container too - but search on our children was already done.) ( xSibling==static_cast< ::cppu::OWeakObject* >(this) ) ) { continue; } // Don't allow upper search here! Use right flags to regulate it. // And allow deep search on children only - if it was allowed for us too. sal_Int32 nRightFlags = css::frame::FrameSearchFlag::SELF; if (nSearchFlags & css::frame::FrameSearchFlag::CHILDREN) nRightFlags |= css::frame::FrameSearchFlag::CHILDREN; xTarget = xSibling->findFrame(sTargetFrameName, nRightFlags ); // perform search be breaking further search if a result exist. if (xTarget.is()) break; } } } } // II.III.II) PARENT // Forward search to our parent (if he exists.) // To prevent us against recursive and superfluous calls (which can occur if we allow him // to search on his children too) we must change used search flags. if ( ( ! xTarget.is() ) && (nSearchFlags & css::frame::FrameSearchFlag::PARENT) && ( xParent.is() ) ) { if (xParent->getName() == sTargetFrameName) xTarget = xParent; else { sal_Int32 nRightFlags = nSearchFlags & ~css::frame::FrameSearchFlag::CHILDREN; xTarget = xParent->findFrame(sTargetFrameName, nRightFlags); } } } // II.IV) CREATE // If we haven't found any valid target frame by using normal flags - but user allowed us to create // a new one ... we should do that. Used TaskCreator use Desktop instance automatically as parent! if ( ( ! xTarget.is() ) && (nSearchFlags & css::frame::FrameSearchFlag::CREATE) ) { TaskCreator aCreator(m_xContext); xTarget = aCreator.createTask(sTargetFrameName, utl::MediaDescriptor()); } } return xTarget; } /*-**************************************************************************************************** @descr Returns sal_True, if this frame is a "top frame", otherwise sal_False. The "m_bIsFrameTop" member must be set in the ctor or setCreator() method. A top frame is a member of the top frame container or a member of the task frame container. Both containers can create new frames if the findFrame() method of their css::frame::XFrame interface is called with a frame name not yet known. @seealso ctor @seealso method setCreator() @seealso method findFrame() @return true, if is it a top frame ... false otherwise. @onerror No error should occur! *//*-*****************************************************************************************************/ sal_Bool SAL_CALL XFrameImpl::isTop() { checkDisposed(); SolarMutexGuard g; // This information is set in setCreator(). // We are top, if our parent is a task or the desktop or if no parent exist! return m_bIsFrameTop; } /*-**************************************************************************************************** @short activate frame in hierarchy @descr This feature is used to mark active paths in our frame hierarchy. You can be a listener for this event to react for it ... change some internal states or something else. @seealso method deactivate() @seealso method isActivate() @seealso enum EActiveState @seealso listener mechanism *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::activate() { checkDisposed(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexResettableGuard aWriteLock; // Copy necessary member and free the lock. // It's not necessary for m_aChildFrameContainer ... because // he is threadsafe himself and live if we live. css::uno::Reference< css::frame::XFrame > xActiveChild = m_aChildFrameContainer.getActive(); css::uno::Reference< css::frame::XFramesSupplier > xParent = m_xParent; css::uno::Reference< css::frame::XFrame > xThis(this); EActiveState eState = m_eActiveState; aWriteLock.clear(); /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ // 1) If I am not active before... if( eState == E_INACTIVE ) { // ... do it then. aWriteLock.reset(); eState = E_ACTIVE; m_eActiveState = eState; aWriteLock.clear(); // Deactivate sibling path and forward activation to parent ... if any parent exist! if( xParent.is() ) { // Every time set THIS frame as active child of parent and activate it. // We MUST have a valid path from bottom to top as active path! // But we must deactivate the old active sibling path first. // Attention: Deactivation of an active path, deactivate the whole path ... from bottom to top! // But we wish to deactivate founded sibling-tree only. // [ see deactivate() / step 4) for further information! ] xParent->setActiveFrame( xThis ); // Then we can activate from here to top. // Attention: We are ACTIVE now. And the parent will call activate() at us! // But we do nothing then! We are already activated. xParent->activate(); } // It's necessary to send event NOW - not before. // Activation goes from bottom to top! // That's the reason to activate parent first and send event now. implts_sendFrameActionEvent( css::frame::FrameAction_FRAME_ACTIVATED ); } // 2) I was active before or current activated and there is a path from here to bottom, who CAN be active. // But our direct child of path is not active yet. // (It can be, if activation occur in the middle of a current path!) // In these case we activate path to bottom to set focus on right frame! if ( eState == E_ACTIVE && xActiveChild.is() && !xActiveChild->isActive() ) { xActiveChild->activate(); } // 3) I was active before or current activated. But if I have no active child => I will get the focus! if ( eState == E_ACTIVE && !xActiveChild.is() ) { aWriteLock.reset(); eState = E_FOCUS; m_eActiveState = eState; aWriteLock.clear(); implts_sendFrameActionEvent( css::frame::FrameAction_FRAME_UI_ACTIVATED ); } } /*-**************************************************************************************************** @short deactivate frame in hierarchy @descr This feature is used to deactivate paths in our frame hierarchy. You can be a listener for this event to react for it... change some internal states or something else. @seealso method activate() @seealso method isActivate() @seealso enum EActiveState @seealso listener mechanism *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::deactivate() { checkDisposed(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexResettableGuard aWriteLock; // Copy necessary member and free the lock. css::uno::Reference< css::frame::XFrame > xActiveChild = m_aChildFrameContainer.getActive(); css::uno::Reference< css::frame::XFramesSupplier > xParent = m_xParent; css::uno::Reference< css::frame::XFrame > xThis(this); EActiveState eState = m_eActiveState; aWriteLock.clear(); /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ // Work only, if there something to do! if( eState == E_INACTIVE ) return; // 1) Deactivate all active children. if ( xActiveChild.is() && xActiveChild->isActive() ) { xActiveChild->deactivate(); } // 2) If I have the focus - I will lost it now. if( eState == E_FOCUS ) { // Set new state INACTIVE(!) and send message to all listener. // Don't set ACTIVE as new state. This frame is deactivated for next time - due to activate(). aWriteLock.reset(); eState = E_ACTIVE; m_eActiveState = eState; aWriteLock.clear(); implts_sendFrameActionEvent( css::frame::FrameAction_FRAME_UI_DEACTIVATING ); } // 3) If I am active - I will be deactivated now. if( eState == E_ACTIVE ) { // Set new state and send message to all listener. aWriteLock.reset(); eState = E_INACTIVE; m_eActiveState = eState; aWriteLock.clear(); implts_sendFrameActionEvent( css::frame::FrameAction_FRAME_DEACTIVATING ); } // 4) If there is a path from here to my parent... // ... I am on the top or in the middle of deactivated subtree and action was started here. // I must deactivate all frames from here to top, which are members of current path. // Stop, if THESE frame not the active frame of our parent! if ( xParent.is() && xParent->getActiveFrame() == xThis ) { // We MUST break the path - otherwise we will get the focus - not our parent! ... // Attention: Our parent don't call us again - WE ARE NOT ACTIVE YET! // [ see step 3 and condition "if ( m_eActiveState!=INACTIVE ) ..." in this method! ] xParent->deactivate(); } } /*-**************************************************************************************************** @short returns active state @descr Call it to get information about current active state of this frame. @seealso method activate() @seealso method deactivate() @seealso enum EActiveState @return true if active, false otherwise. @onerror No error should occur. *//*-*****************************************************************************************************/ sal_Bool SAL_CALL XFrameImpl::isActive() { checkDisposed(); SolarMutexGuard g; return m_eActiveState == E_ACTIVE || m_eActiveState == E_FOCUS; } /*-**************************************************************************************************** @short ??? *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::contextChanged() { // Sometimes called during closing object... // Impl-method is threadsafe himself! // Send event to all listener for frame actions. implts_sendFrameActionEvent( css::frame::FrameAction_CONTEXT_CHANGED ); } /*-**************************************************************************************************** @short set new component inside the frame @descr A frame is a container for a component. Use this method to set, change or release it! We accept null references! The xComponentWindow will be a child of our container window and get all window events from us. @attention (a) A current set component can disagree with the suspend() request! We don't set the new one and return with false then. (b) It's possible to set: (b1) a simple component here which supports the window only - no controller; (b2) a full featured component which supports window and controller; (b3) or both to NULL if outside code which to forget this component. @seealso method getComponentWindow() @seealso method getController() @param xComponentWindow valid reference to new component window which will be a child of internal container window May for releasing. @param xController reference to new component controller (may for releasing or setting of a simple component) @return if operation was successful, otherwise. @onerror We return . @threadsafe yes *//*-*****************************************************************************************************/ sal_Bool SAL_CALL XFrameImpl::setComponent(const css::uno::Reference< css::awt::XWindow >& xComponentWindow, const css::uno::Reference< css::frame::XController >& xController ) { // Ignore this HACK of sfx2! // He call us with a valid controller without a valid window... that's not allowed! if ( xController.is() && ! xComponentWindow.is() ) return true; checkDisposed(); // Get threadsafe some copies of used members. /* SAFE { */ SolarMutexClearableGuard aReadLock; css::uno::Reference< css::awt::XWindow > xContainerWindow = m_xContainerWindow; css::uno::Reference< css::awt::XWindow > xOldComponentWindow = m_xComponentWindow; css::uno::Reference< css::frame::XController > xOldController = m_xController; VclPtr pOwnWindow = VCLUnoHelper::GetWindow( xContainerWindow ); bool bHadFocus = pOwnWindow != nullptr && pOwnWindow->HasChildPathFocus(); bool bWasConnected = m_bConnected; aReadLock.clear(); /* } SAFE */ // stop listening on old window // May it produce some trouble. // But don't forget to listen on new window again ... or reactivate listening // if we reject this setComponent() request and leave this method without changing the old window. implts_stopWindowListening(); // Notify all listener, that this component (if current one exist) will be unloaded. if (bWasConnected) implts_sendFrameActionEvent( css::frame::FrameAction_COMPONENT_DETACHING ); // otherwise release old component first // Always release controller before releasing window, // because controller may want to access its window! // But check for real changes - may the new controller is the old one. if ( (xOldController.is() ) && (xOldController != xController) ) { /* ATTENTION Don't suspend the old controller here. Because the outside caller must do that by definition. We have to dispose it here only. */ // Before we dispose this controller we should hide it inside this frame instance. // We hold it alive for next calls by using xOldController! /* SAFE {*/ { SolarMutexGuard aWriteLock; m_xController = nullptr; if (m_xDispatchHelper) { rtl::Reference pDispatchProvider = m_xDispatchHelper->GetSlave(); if (pDispatchProvider) { pDispatchProvider->ClearProtocolHandlers(); } } } /* } SAFE */ if (xOldController.is()) { try { xOldController->dispose(); } catch(const css::lang::DisposedException&) {} } xOldController = nullptr; } // Now it's time to release the component window. // If controller wasn't released successfully - this code line shouldn't be reached. // Because in case of "suspend()==false" we return immediately with false ... // see before // Check for real changes too. if ( (xOldComponentWindow.is() ) && (xOldComponentWindow != xComponentWindow) ) { /* SAFE { */ { SolarMutexGuard aWriteLock; m_xComponentWindow = nullptr; } /* } SAFE */ if (xOldComponentWindow.is()) { try { xOldComponentWindow->dispose(); } catch(const css::lang::DisposedException&) { } } xOldComponentWindow = nullptr; } // Now it's time to set the new component ... // By the way - find out our new "load state" - means if we have a valid component inside. /* SAFE { */ SolarMutexResettableGuard aWriteLock; m_xComponentWindow = xComponentWindow; m_xController = xController; // Clear the URL on the frame itself, now that the controller has it. m_aURL.clear(); m_bConnected = (m_xComponentWindow.is() || m_xController.is()); bool bIsConnected = m_bConnected; aWriteLock.clear(); /* } SAFE */ // notifies all interest listener, that current component was changed or a new one was loaded if (bIsConnected && bWasConnected) implts_sendFrameActionEvent( css::frame::FrameAction_COMPONENT_REATTACHED ); else if (bIsConnected && !bWasConnected) implts_sendFrameActionEvent( css::frame::FrameAction_COMPONENT_ATTACHED ); // A new component window doesn't know anything about current active/focus states. // Set this information on it! if ( bHadFocus && xComponentWindow.is() ) { xComponentWindow->setFocus(); } // If it was a new component window - we must resize it to fill out // our container window. implts_resizeComponentWindow(); // New component should change our current icon ... implts_setIconOnWindow(); // OK - start listening on new window again - or do nothing if it is an empty one. implts_startWindowListening(); /* SAFE { */ aWriteLock.reset(); impl_checkMenuCloser(); aWriteLock.clear(); /* } SAFE */ return true; } /*-**************************************************************************************************** @short returns current set component window @descr Frames are used to display components. The actual displayed component is held by the m_xComponentWindow property. If the component implements only a XComponent interface, the communication between the frame and the component is very restricted. Better integration is achievable through a XController interface. If the component wants other objects to be able to get information about its ResourceDescriptor it has to implement a XModel interface. This frame is the owner of the component window. @seealso method setComponent() @return css::uno::Reference to current set component window. @onerror A null reference is returned. *//*-*****************************************************************************************************/ css::uno::Reference< css::awt::XWindow > SAL_CALL XFrameImpl::getComponentWindow() { checkDisposed(); SolarMutexGuard g; return m_xComponentWindow; } /*-**************************************************************************************************** @short returns current set controller @descr Frames are used to display components. The actual displayed component is held by the m_xComponentWindow property. If the component implements only a XComponent interface, the communication between the frame and the component is very restricted. Better integration is achievable through a XController interface. If the component wants other objects to be able to get information about its ResourceDescriptor it has to implement a XModel interface. This frame is the owner of the component window. @seealso method setComponent() @return css::uno::Reference to current set controller. @onerror A null reference is returned. *//*-*****************************************************************************************************/ css::uno::Reference< css::frame::XController > SAL_CALL XFrameImpl::getController() { SolarMutexGuard g; return m_xController; } /*-**************************************************************************************************** @short add/remove listener for activate/deactivate/contextChanged events @seealso method activate() @seealso method deactivate() @seealso method contextChanged() @param "xListener" reference to your listener object @onerror Listener is ignored. *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::addFrameActionListener( const css::uno::Reference< css::frame::XFrameActionListener >& xListener ) { checkDisposed(); m_aListenerContainer.addInterface( cppu::UnoType::get(), xListener ); } void SAL_CALL XFrameImpl::removeFrameActionListener( const css::uno::Reference< css::frame::XFrameActionListener >& xListener ) { m_aListenerContainer.removeInterface( cppu::UnoType::get(), xListener ); } /*-**************************************************************************************************** @short support two way mechanism to release a frame @descr This method ask internal component (controller) if he accept this close request. In case of nothing will be happen (from point of caller of this close method). In case of a CloseVetoException is thrown. After such exception given parameter bDeliverOwnership regulate which will be the new owner of this instance. @attention It's the replacement for XTask::close() which is marked as obsolete method. @param bDeliverOwnership If parameter is set to the original caller will be the owner after thrown veto exception and must try to close this frame at later time again. Otherwise the source of thrown exception is the right one. May it will be the frame himself. @throws CloseVetoException if any internal things will not be closed @threadsafe yes *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::close( sal_Bool bDeliverOwnership ) { checkDisposed(); // At the end of this method may we must dispose ourself... // and may nobody from outside hold a reference to us... // then it's a good idea to do that by ourself. css::uno::Reference< css::uno::XInterface > xSelfHold( static_cast< ::cppu::OWeakObject* >(this) ); // Check any close listener before we look for currently running internal processes. // Because if a listener disagree with this close() request - we have time to finish this // internal operations too... // Note: container is threadsafe himself. css::lang::EventObject aSource (static_cast< ::cppu::OWeakObject*>(this)); comphelper::OInterfaceContainerHelper2* pContainer = m_aListenerContainer.getContainer( cppu::UnoType::get()); if (pContainer!=nullptr) { comphelper::OInterfaceIteratorHelper2 pIterator(*pContainer); while (pIterator.hasMoreElements()) { try { static_cast(pIterator.next())->queryClosing( aSource, bDeliverOwnership ); } catch( const css::uno::RuntimeException& ) { pIterator.remove(); } } } // Ok - no listener disagreed with this close() request // check if this frame is used for any load process currently if (isActionLocked()) { if (bDeliverOwnership) { SolarMutexGuard g; m_bSelfClose = true; } throw css::util::CloseVetoException("Frame in use for loading document...",static_cast< ::cppu::OWeakObject*>(this)); } if ( ! setComponent(nullptr,nullptr) ) throw css::util::CloseVetoException("Component couldn't be detached...",static_cast< ::cppu::OWeakObject*>(this)); // If closing is allowed... inform all listeners and dispose this frame! pContainer = m_aListenerContainer.getContainer( cppu::UnoType::get()); if (pContainer!=nullptr) { comphelper::OInterfaceIteratorHelper2 pIterator(*pContainer); while (pIterator.hasMoreElements()) { try { static_cast(pIterator.next())->notifyClosing( aSource ); } catch( const css::uno::RuntimeException& ) { pIterator.remove(); } } } /* SAFE { */ { SolarMutexGuard aWriteLock; m_bIsHidden = true; } /* } SAFE */ impl_checkMenuCloser(); dispose(); } /*-**************************************************************************************************** @short be a listener for close events! @descr Adds/remove a CloseListener at this frame instance. If the close() method is called on this object, the such listener are informed and can disagree with that by throwing a CloseVetoException. @seealso XFrameImpl::close() @param xListener reference to your listener object @onerror Listener is ignored. @threadsafe yes *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::addCloseListener( const css::uno::Reference< css::util::XCloseListener >& xListener ) { checkDisposed(); m_aListenerContainer.addInterface( cppu::UnoType::get(), xListener ); } void SAL_CALL XFrameImpl::removeCloseListener( const css::uno::Reference< css::util::XCloseListener >& xListener ) { m_aListenerContainer.removeInterface( cppu::UnoType::get(), xListener ); } OUString SAL_CALL XFrameImpl::getTitle() { checkDisposed(); // SAFE -> SolarMutexClearableGuard aReadLock; css::uno::Reference< css::frame::XTitle > xTitle(m_xTitleHelper, css::uno::UNO_SET_THROW); aReadLock.clear(); // <- SAFE return xTitle->getTitle(); } void SAL_CALL XFrameImpl::setTitle( const OUString& sTitle ) { checkDisposed(); // SAFE -> SolarMutexClearableGuard aReadLock; css::uno::Reference< css::frame::XTitle > xTitle(m_xTitleHelper, css::uno::UNO_SET_THROW); aReadLock.clear(); // <- SAFE xTitle->setTitle(sTitle); } void SAL_CALL XFrameImpl::addTitleChangeListener( const css::uno::Reference< css::frame::XTitleChangeListener >& xListener) { checkDisposed(); // SAFE -> SolarMutexClearableGuard aReadLock; css::uno::Reference< css::frame::XTitleChangeBroadcaster > xTitle(m_xTitleHelper, css::uno::UNO_QUERY_THROW); aReadLock.clear(); // <- SAFE xTitle->addTitleChangeListener(xListener); } void SAL_CALL XFrameImpl::removeTitleChangeListener( const css::uno::Reference< css::frame::XTitleChangeListener >& xListener ) { checkDisposed(); // SAFE -> SolarMutexClearableGuard aReadLock; css::uno::Reference< css::frame::XTitleChangeBroadcaster > xTitle(m_xTitleHelper, css::uno::UNO_QUERY_THROW); aReadLock.clear(); // <- SAFE xTitle->removeTitleChangeListener(xListener); } css::uno::Reference SAL_CALL XFrameImpl::getUserDefinedAttributes() { // optional attribute return nullptr; } css::uno::Reference SAL_CALL XFrameImpl::getDispatchRecorderSupplier() { SolarMutexGuard g; return m_xDispatchRecorderSupplier; } void SAL_CALL XFrameImpl::setDispatchRecorderSupplier(const css::uno::Reference& p) { checkDisposed(); SolarMutexGuard g; m_xDispatchRecorderSupplier.set(p); } css::uno::Reference SAL_CALL XFrameImpl::getLayoutManager() { SolarMutexGuard g; return m_xLayoutManager; } void SAL_CALL XFrameImpl::setLayoutManager(const css::uno::Reference& p1) { checkDisposed(); SolarMutexGuard g; css::uno::Reference xOldLayoutManager = m_xLayoutManager; css::uno::Reference xNewLayoutManager(p1, css::uno::UNO_QUERY); if (xOldLayoutManager != xNewLayoutManager) { m_xLayoutManager = xNewLayoutManager; if (xOldLayoutManager.is()) disableLayoutManager(xOldLayoutManager); if (xNewLayoutManager.is() && !m_bDocHidden) lcl_enableLayoutManager(xNewLayoutManager, this); } } css::uno::Reference< css::beans::XPropertySetInfo > SAL_CALL XFrameImpl::getPropertySetInfo() { checkDisposed(); return css::uno::Reference< css::beans::XPropertySetInfo >(this); } void SAL_CALL XFrameImpl::setPropertyValue(const OUString& sProperty, const css::uno::Any& aValue ) { // TODO look for e.g. readonly props and reject setProp() call! checkDisposed(); // SAFE -> SolarMutexGuard g; TPropInfoHash::const_iterator pIt = m_lProps.find(sProperty); if (pIt == m_lProps.end()) throw css::beans::UnknownPropertyException(sProperty); css::beans::Property aPropInfo = pIt->second; css::uno::Any aCurrentValue = impl_getPropertyValue(aPropInfo.Handle); bool bWillBeChanged = (aCurrentValue != aValue); if (! bWillBeChanged) return; css::beans::PropertyChangeEvent aEvent; aEvent.PropertyName = aPropInfo.Name; aEvent.Further = false; aEvent.PropertyHandle = aPropInfo.Handle; aEvent.OldValue = aCurrentValue; aEvent.NewValue = aValue; aEvent.Source.set(m_xBroadcaster.get(), css::uno::UNO_QUERY); if (impl_existsVeto(aEvent)) throw css::beans::PropertyVetoException(); impl_setPropertyValue(aPropInfo.Handle, aValue); impl_notifyChangeListener(aEvent); } css::uno::Any SAL_CALL XFrameImpl::getPropertyValue(const OUString& sProperty) { checkDisposed(); // SAFE -> SolarMutexGuard aReadLock; TPropInfoHash::const_iterator pIt = m_lProps.find(sProperty); if (pIt == m_lProps.end()) throw css::beans::UnknownPropertyException(sProperty); css::beans::Property aPropInfo = pIt->second; return impl_getPropertyValue(aPropInfo.Handle); } void SAL_CALL XFrameImpl::addPropertyChangeListener( const OUString& sProperty, const css::uno::Reference< css::beans::XPropertyChangeListener >& xListener) { checkDisposed(); // SAFE -> { SolarMutexGuard aReadLock; TPropInfoHash::const_iterator pIt = m_lProps.find(sProperty); if (pIt == m_lProps.end()) throw css::beans::UnknownPropertyException(sProperty); } // <- SAFE m_lSimpleChangeListener.addInterface(sProperty, xListener); } void SAL_CALL XFrameImpl::removePropertyChangeListener( const OUString& sProperty, const css::uno::Reference< css::beans::XPropertyChangeListener >& xListener) { // SAFE -> { SolarMutexGuard aReadLock; TPropInfoHash::const_iterator pIt = m_lProps.find(sProperty); if (pIt == m_lProps.end()) throw css::beans::UnknownPropertyException(sProperty); } // <- SAFE m_lSimpleChangeListener.removeInterface(sProperty, xListener); } void SAL_CALL XFrameImpl::addVetoableChangeListener( const OUString& sProperty, const css::uno::Reference< css::beans::XVetoableChangeListener >& xListener) { checkDisposed(); // SAFE -> { SolarMutexGuard aReadLock; TPropInfoHash::const_iterator pIt = m_lProps.find(sProperty); if (pIt == m_lProps.end()) throw css::beans::UnknownPropertyException(sProperty); } // <- SAFE m_lVetoChangeListener.addInterface(sProperty, xListener); } void SAL_CALL XFrameImpl::removeVetoableChangeListener( const OUString& sProperty, const css::uno::Reference< css::beans::XVetoableChangeListener >& xListener) { // SAFE -> { SolarMutexGuard aReadLock; TPropInfoHash::const_iterator pIt = m_lProps.find(sProperty); if (pIt == m_lProps.end()) throw css::beans::UnknownPropertyException(sProperty); } // <- SAFE m_lVetoChangeListener.removeInterface(sProperty, xListener); } css::uno::Sequence< css::beans::Property > SAL_CALL XFrameImpl::getProperties() { checkDisposed(); SolarMutexGuard g; sal_Int32 c = static_cast(m_lProps.size()); css::uno::Sequence< css::beans::Property > lProps(c); auto lPropsRange = asNonConstRange(lProps); for (auto const& elem : m_lProps) { lPropsRange[--c] = elem.second; } return lProps; } css::beans::Property SAL_CALL XFrameImpl::getPropertyByName(const OUString& sName) { checkDisposed(); SolarMutexGuard g; TPropInfoHash::const_iterator pIt = m_lProps.find(sName); if (pIt == m_lProps.end()) throw css::beans::UnknownPropertyException(sName); return pIt->second; } sal_Bool SAL_CALL XFrameImpl::hasPropertyByName(const OUString& sName) { checkDisposed(); SolarMutexGuard g; TPropInfoHash::iterator pIt = m_lProps.find(sName); bool bExist = (pIt != m_lProps.end()); return bExist; } /*-****************************************************************************************************/ void XFrameImpl::implts_forgetSubFrames() { // SAFE -> SolarMutexClearableGuard aReadLock; css::uno::Reference< css::container::XIndexAccess > xContainer(m_xFramesHelper, css::uno::UNO_QUERY_THROW); aReadLock.clear(); // <- SAFE sal_Int32 c = xContainer->getCount(); sal_Int32 i = 0; for (i=0; i xFrame; xContainer->getByIndex(i) >>= xFrame; if (xFrame.is()) xFrame->setCreator(css::uno::Reference< css::frame::XFramesSupplier >()); } catch(const css::uno::Exception&) { // Ignore errors here. // Nobody can guarantee a stable index in multi threaded environments .-) } } SolarMutexGuard g; m_xFramesHelper.clear(); // clear uno reference m_aChildFrameContainer.clear(); // clear container content } /*-**************************************************************************************************** @short destroy instance @descr The owner of this object calls the dispose method if the object should be destroyed. All other objects and components, that are registered as an EventListener are forced to release their references to this object. Furthermore this frame is removed from its parent frame container to release this reference. The reference attributes are disposed and released also. @attention Look for globale description at beginning of file too! (DisposedException, FairRWLock ..., initialize, dispose) @seealso method initialize() @seealso baseclass FairRWLockBase! *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::disposing() { // We should hold a reference to ourself ... // because our owner dispose us and release our reference ... // May be we will die before we could finish this method ... css::uno::Reference< css::frame::XFrame > xThis(this); SAL_INFO("fwk.frame", "[Frame] " << m_sName << " send dispose event to listener"); // First operation should be... "stop all listening for window events on our container window". // These events are superfluous but can make trouble! // We will die, die and die... implts_stopWindowListening(); css::uno::Reference layoutMgr; { SolarMutexGuard g; layoutMgr = m_xLayoutManager; } if (layoutMgr.is()) { disableLayoutManager(layoutMgr); } std::unique_ptr disp; { SolarMutexGuard g; std::swap(disp, m_pWindowCommandDispatch); } disp.reset(); // Send message to all listener and forget her references. css::lang::EventObject aEvent( xThis ); m_aListenerContainer.disposeAndClear( aEvent ); // set "end of live" for our property set helper impl_disablePropertySet(); // interception/dispatch chain must be destructed explicitly // Otherwise some dispatches and/or interception objects won't die. css::uno::Reference< css::lang::XEventListener > xDispatchHelper; { SolarMutexGuard g; xDispatchHelper = m_xDispatchHelper; } xDispatchHelper->disposing(aEvent); xDispatchHelper.clear(); // Don't show any dialogs, errors or something else any more! // If somewhere called dispose() without close() before - normally no dialogs // should exist. Otherwise it's the problem of the outside caller. // Note: // (a) Do it after stopWindowListening(). May that force some active/deactivate // notifications which we don't need here really. // (b) Don't forget to save the old value of IsDialogCancelEnabled() to // restore it afterwards (to not kill headless mode). DialogCancelMode old = Application::GetDialogCancelMode(); Application::SetDialogCancelMode( DialogCancelMode::Silent ); // We should be alone for ever and further dispose calls are rejected by lines before ... // I hope it :-) // Free references of our frame tree. // Force parent container to forget this frame too ... // ( It's contained in m_xParent and so no css::lang::XEventListener for m_xParent! ) // It's important to do that before we free some other internal structures. // Because if our parent gets an activate and found us as last possible active frame // he try to deactivate us ... and we run into some trouble (DisposedExceptions!). css::uno::Reference parent; { SolarMutexGuard g; std::swap(parent, m_xParent); } if( parent.is() ) { parent->getFrames()->remove( xThis ); } /* } SAFE */ // Forget our internal component and her window first. // So we can release our container window later without problems. // Because this container window is the parent of the component window ... // Note: Dispose it hard - because suspending must be done inside close() call! // But try to dispose the controller first before you destroy the window. // Because the window is used by the controller too ... css::uno::Reference< css::lang::XComponent > xDisposableCtrl; css::uno::Reference< css::lang::XComponent > xDisposableComp; { SolarMutexGuard g; xDisposableCtrl = m_xController; xDisposableComp = m_xComponentWindow; } if (xDisposableCtrl.is()) xDisposableCtrl->dispose(); if (xDisposableComp.is()) xDisposableComp->dispose(); impl_checkMenuCloser(); css::uno::Reference contWin; { SolarMutexGuard g; std::swap(contWin, m_xContainerWindow); } if( contWin.is() ) { contWin->setVisible( false ); // All VclComponents are XComponents; so call dispose before discarding // a css::uno::Reference< XVclComponent >, because this frame is the owner of the window contWin->dispose(); } /*ATTENTION Clear container after successful removing from parent container ... because our parent could be the desktop which stand in dispose too! If we have already cleared our own container we lost our child before this could be remove himself at this instance ... Release m_xFramesHelper after that ... it's the same problem between parent and child! "m_xParent->getFrames()->remove( xThis );" needs this helper ... Otherwise we get a null reference and could finish removing successfully. => You see: Order of calling operations is important!!! */ implts_forgetSubFrames(); { SolarMutexGuard g; // Release some other references. // This calls should be easy ... I hope it :-) m_xDispatchHelper.clear(); m_xDropTargetListener.clear(); m_xDispatchRecorderSupplier.clear(); m_xLayoutManager.clear(); m_xIndicatorFactoryHelper.clear(); // It's important to set default values here! // If may be later somewhere change the disposed-behaviour of this implementation // and doesn't throw any DisposedExceptions we must guarantee best matching default values ... m_eActiveState = E_INACTIVE; m_sName.clear(); m_bIsFrameTop = false; m_bConnected = false; m_nExternalLockCount = 0; m_bSelfClose = false; m_bIsHidden = true; } // Don't forget it restore old value - // otherwise no dialogs can be shown anymore in other frames. Application::SetDialogCancelMode( old ); } /*-**************************************************************************************************** @short Be a listener for dispose events! @descr Adds/remove an EventListener to this object. If the dispose method is called on this object, the disposing method of the listener is called. @param "xListener" reference to your listener object. @onerror Listener is ignored. *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::addEventListener( const css::uno::Reference< css::lang::XEventListener >& xListener ) { checkDisposed(); m_aListenerContainer.addInterface( cppu::UnoType::get(), xListener ); } void SAL_CALL XFrameImpl::removeEventListener( const css::uno::Reference< css::lang::XEventListener >& xListener ) { m_aListenerContainer.removeInterface( cppu::UnoType::get(), xListener ); } /*-**************************************************************************************************** @short create new status indicator @descr Use returned status indicator to show progresses and some text information. All created objects share the same dialog! Only the last one can show his information. @seealso class StatusIndicatorFactory @seealso class StatusIndicator @return A reference to created object. @onerror We return a null reference. *//*-*****************************************************************************************************/ css::uno::Reference< css::task::XStatusIndicator > SAL_CALL XFrameImpl::createStatusIndicator() { checkDisposed(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aReadLock; // Make snapshot of necessary member and define default return value. css::uno::Reference< css::task::XStatusIndicator > xExternal(m_xIndicatorInterception.get(), css::uno::UNO_QUERY); css::uno::Reference< css::task::XStatusIndicatorFactory > xFactory = m_xIndicatorFactoryHelper; aReadLock.clear(); /* UNSAFE AREA ----------------------------------------------------------------------------------------- */ // Was set from outside to intercept any progress activities! if (xExternal.is()) return xExternal; // Or use our own factory as fallback, to create such progress. if (xFactory.is()) return xFactory->createStatusIndicator(); return css::uno::Reference< css::task::XStatusIndicator >(); } /*-**************************************************************************************************** @short search for target to load URL @descr This method searches for a dispatch for the specified DispatchDescriptor. The FrameSearchFlags and the FrameName of the DispatchDescriptor are treated as described for findFrame. @seealso method findFrame() @seealso method queryDispatches() @seealso method set/getName() @seealso class TargetFinder @param "aURL" , URL for loading @param "sTargetFrameName" , name of target frame @param "nSearchFlags" , additional flags to regulate search if sTargetFrameName is not clear @return css::uno::Reference to dispatch handler. @onerror A null reference is returned. *//*-*****************************************************************************************************/ css::uno::Reference< css::frame::XDispatch > SAL_CALL XFrameImpl::queryDispatch( const css::util::URL& aURL, const OUString& sTargetFrameName, sal_Int32 nSearchFlags) { // Don't check incoming parameter here! Our helper do it for us and it is not a good idea to do it more than once! checkDisposed(); // Remove uno and cmd protocol part as we want to support both of them. We store only the command part // in our hash map. All other protocols are stored with the protocol part. OUString aCommand( aURL.Main ); if ( aURL.Protocol.equalsIgnoreAsciiCase(".uno:") ) aCommand = aURL.Path; // Make std::unordered_map lookup if the current URL is in the disabled list if ( m_aCommandOptions.LookupDisabled( aCommand ) ) return css::uno::Reference< css::frame::XDispatch >(); else { // We use a helper to support these interface and an interceptor mechanism. css::uno::Reference disp; { SolarMutexGuard g; disp = m_xDispatchHelper; } if (!disp.is()) { throw css::lang::DisposedException("Frame disposed"); } return disp->queryDispatch( aURL, sTargetFrameName, nSearchFlags ); } } /*-**************************************************************************************************** @short handle more than ones dispatches at same call @descr Returns a sequence of dispatches. For details see the queryDispatch method. For failed dispatches we return empty items in list! @seealso method queryDispatch() @param "lDescriptor" list of dispatch arguments for queryDispatch()! @return List of dispatch references. Some elements can be NULL! @onerror An empty list is returned. *//*-*****************************************************************************************************/ css::uno::Sequence< css::uno::Reference< css::frame::XDispatch > > SAL_CALL XFrameImpl::queryDispatches( const css::uno::Sequence< css::frame::DispatchDescriptor >& lDescriptor ) { // Don't check incoming parameter here! Our helper do it for us and it is not a good idea to do it more than ones! checkDisposed(); // We use a helper to support these interface and an interceptor mechanism. css::uno::Reference disp; { SolarMutexGuard g; disp = m_xDispatchHelper; } if (!disp.is()) { throw css::lang::DisposedException("Frame disposed"); } return disp->queryDispatches( lDescriptor ); } /*-**************************************************************************************************** @short register/unregister interceptor for dispatch calls @descr If you wish to handle some dispatches by himself ... you should be an interceptor for it. Please see class OInterceptionHelper for further information. @seealso class OInterceptionHelper @param "xInterceptor", reference to your interceptor implementation. @onerror Interceptor is ignored. *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::registerDispatchProviderInterceptor( const css::uno::Reference< css::frame::XDispatchProviderInterceptor >& xInterceptor ) { // We use a helper to support these interface and an interceptor mechanism. // This helper is threadsafe himself and check incoming parameter too. // I think we don't need any lock here! checkDisposed(); css::uno::Reference< css::frame::XDispatchProviderInterception > xInterceptionHelper; { SolarMutexGuard g; xInterceptionHelper = m_xDispatchHelper; } if (xInterceptionHelper.is()) { xInterceptionHelper->registerDispatchProviderInterceptor( xInterceptor ); } } void SAL_CALL XFrameImpl::releaseDispatchProviderInterceptor( const css::uno::Reference< css::frame::XDispatchProviderInterceptor >& xInterceptor ) { // We use a helper to support these interface and an interceptor mechanism. // This helper is threadsafe himself and check incoming parameter too. // I think we don't need any lock here! // Sometimes we are called during our dispose() method css::uno::Reference< css::frame::XDispatchProviderInterception > xInterceptionHelper; { SolarMutexGuard g; xInterceptionHelper = m_xDispatchHelper; } if (xInterceptionHelper.is()) { xInterceptionHelper->releaseDispatchProviderInterceptor( xInterceptor ); } } /*-**************************************************************************************************** @short provides information about all possible dispatch functions inside the current frame environment *//*-*****************************************************************************************************/ css::uno::Sequence< sal_Int16 > SAL_CALL XFrameImpl::getSupportedCommandGroups() { return m_xDispatchInfoHelper->getSupportedCommandGroups(); } css::uno::Sequence< css::frame::DispatchInformation > SAL_CALL XFrameImpl::getConfigurableDispatchInformation( sal_Int16 nCommandGroup) { return m_xDispatchInfoHelper->getConfigurableDispatchInformation(nCommandGroup); } /*-**************************************************************************************************** @short notifications for window events @descr We are a listener on our container window to forward it to our component window. @seealso method setComponent() @seealso member m_xContainerWindow @seealso member m_xComponentWindow @param "aEvent" describe source of detected event *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::windowResized( const css::awt::WindowEvent& ) { // Part of dispose-mechanism /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // Impl-method is threadsafe! // If we have a current component window - we must resize it! implts_resizeComponentWindow(); } void SAL_CALL XFrameImpl::focusGained( const css::awt::FocusEvent& ) { // Part of dispose() mechanism /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aReadLock; // Make snapshot of member! css::uno::Reference< css::awt::XWindow > xComponentWindow = m_xComponentWindow; aReadLock.clear(); /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ if( xComponentWindow.is() ) { xComponentWindow->setFocus(); } } /*-**************************************************************************************************** @short notifications for window events @descr We are a listener on our container window to forward it to our component window ... but a XTopWindowListener we are only if we are a top frame! @seealso method setComponent() @seealso member m_xContainerWindow @seealso member m_xComponentWindow @param "aEvent" describe source of detected event *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::windowActivated( const css::lang::EventObject& ) { checkDisposed(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aReadLock; // Make snapshot of member! EActiveState eState = m_eActiveState; aReadLock.clear(); /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ // Activate the new active path from here to top. if( eState == E_INACTIVE ) { setActiveFrame( css::uno::Reference< css::frame::XFrame >() ); activate(); } } void SAL_CALL XFrameImpl::windowDeactivated( const css::lang::EventObject& ) { // Sometimes called during dispose() /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aReadLock; css::uno::Reference< css::frame::XFrame > xParent = m_xParent; css::uno::Reference< css::awt::XWindow > xContainerWindow = m_xContainerWindow; EActiveState eActiveState = m_eActiveState; aReadLock.clear(); if( eActiveState == E_INACTIVE ) return; // Deactivation is always done implicitly by activation of another frame. // Only if no activation is done, deactivations have to be processed if the activated window // is a parent window of the last active Window! SolarMutexClearableGuard aSolarGuard; vcl::Window* pFocusWindow = Application::GetFocusWindow(); if ( !xContainerWindow.is() || !xParent.is() || css::uno::Reference< css::frame::XDesktop >( xParent, css::uno::UNO_QUERY ).is() ) return; css::uno::Reference< css::awt::XWindow > xParentWindow = xParent->getContainerWindow(); VclPtr pParentWindow = VCLUnoHelper::GetWindow( xParentWindow ); //#i70261#: dialogs opened from an OLE object will cause a deactivate on the frame of the OLE object // on Solaris/Linux at that time pFocusWindow is still NULL because the focus handling is different; right after // the deactivation the focus will be set into the dialog! // currently I see no case where a sub frame could get a deactivate with pFocusWindow being NULL permanently // so for now this case is omitted from handled deactivations if( pFocusWindow && pParentWindow->IsChild( pFocusWindow ) ) { css::uno::Reference< css::frame::XFramesSupplier > xSupplier( xParent, css::uno::UNO_QUERY ); if( xSupplier.is() ) { aSolarGuard.clear(); xSupplier->setActiveFrame( css::uno::Reference< css::frame::XFrame >() ); } } } void SAL_CALL XFrameImpl::windowClosing( const css::lang::EventObject& ) { checkDisposed(); // deactivate this frame ... deactivate(); // ... and try to close it // But do it asynchronous inside the main thread. // VCL has no fun to do such things outside his main thread :-( // Note: The used dispatch make it asynchronous for us .-) /*ATTENTION! Don't try to suspend the controller here! Because it's done inside used dispatch(). Otherwise the dialog "would you save your changes?" will be shown more than once ... */ css::util::URL aURL; aURL.Complete = ".uno:CloseFrame"; css::uno::Reference< css::util::XURLTransformer > xParser(css::util::URLTransformer::create(m_xContext)); xParser->parseStrict(aURL); css::uno::Reference< css::frame::XDispatch > xCloser = queryDispatch(aURL, SPECIALTARGET_SELF, 0); if (xCloser.is()) xCloser->dispatch(aURL, css::uno::Sequence< css::beans::PropertyValue >()); // Attention: If this dispatch works synchronous ... and fulfill its job ... // this line of code will never be reached ... // Or if it will be reached it will be for sure that all your member are gone .-) } /*-**************************************************************************************************** @short react for a show event for the internal container window @descr Normally we don't need this information really. But we can use it to implement the special feature "trigger first visible task". Algorithm: - first we have to check if we are a top (task) frame It's not enough to be a top frame! Because we MUST have the desktop as parent. But frames without a parent are top too. So it's not possible to check isTop() here! We have to look for the type of our parent. - if we are a task frame, then we have to check if we are the first one. We use a static variable to do so. They will be reset to afterwards be sure that further calls of this method doesn't do anything then. - Then we have to trigger the right event string on the global job executor. @seealso css::task::JobExecutor @param aEvent describes the source of this event We are not interested on this information. We are interested on the visible state only. @threadsafe yes *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::windowShown( const css::lang::EventObject& ) { static std::mutex aFirstVisibleLock; /* SAFE { */ SolarMutexClearableGuard aReadLock; css::uno::Reference< css::frame::XDesktop > xDesktopCheck( m_xParent, css::uno::UNO_QUERY ); m_bIsHidden = false; aReadLock.clear(); /* } SAFE */ impl_checkMenuCloser(); if (!xDesktopCheck.is()) return; static bool bFirstVisibleTask = true; std::unique_lock aGuard(aFirstVisibleLock); bool bMustBeTriggered = bFirstVisibleTask; bFirstVisibleTask = false; aGuard.unlock(); if (bMustBeTriggered) { css::uno::Reference< css::task::XJobExecutor > xExecutor = css::task::theJobExecutor::get( m_xContext ); xExecutor->trigger( "onFirstVisibleTask" ); } } void SAL_CALL XFrameImpl::windowHidden( const css::lang::EventObject& ) { /* SAFE { */ { SolarMutexGuard aReadLock; m_bIsHidden = true; } /* } SAFE */ impl_checkMenuCloser(); } /*-**************************************************************************************************** @short called by dispose of our windows! @descr This object is forced to release all references to the interfaces given by the parameter source. We are a listener at our container window and should listen for his disposing. @seealso XWindowListener @seealso XTopWindowListener @seealso XFocusListener *//*-*****************************************************************************************************/ void SAL_CALL XFrameImpl::disposing( const css::lang::EventObject& aEvent ) { /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexResettableGuard aWriteLock; if( aEvent.Source == m_xContainerWindow ) { // NECESSARY: Impl-method is threadsafe by himself! aWriteLock.clear(); implts_stopWindowListening(); aWriteLock.reset(); m_xContainerWindow.clear(); } } /*-************************************************************************************************************ @interface com.sun.star.document.XActionLockable @short implement locking of frame/task from outside @descr Sometimes we have problems to decide if closing of task is allowed. Because; frame/task could be used for pending loading jobs. So you can lock this object from outside and prevent instance against closing during using! But - don't do it in a wrong or expensive manner. Otherwise task couldn't die anymore!!! @seealso interface XActionLockable @seealso method BaseDispatcher::implts_loadIt() @seealso method Desktop::loadComponentFromURL() @return true if frame/task is locked false otherwise @threadsafe yes *//*-*************************************************************************************************************/ sal_Bool SAL_CALL XFrameImpl::isActionLocked() { SolarMutexGuard g; return( m_nExternalLockCount!=0); } void SAL_CALL XFrameImpl::addActionLock() { SolarMutexGuard g; ++m_nExternalLockCount; } void SAL_CALL XFrameImpl::removeActionLock() { { SolarMutexGuard g; SAL_WARN_IF( m_nExternalLockCount<=0, "fwk.frame", "XFrameImpl::removeActionLock(): Frame is not locked! " "Possible multithreading problem detected." ); --m_nExternalLockCount; } implts_checkSuicide(); } void SAL_CALL XFrameImpl::setActionLocks( sal_Int16 nLock ) { SolarMutexGuard g; // Attention: If somewhere called resetActionLocks() before and get e.g. 5 locks ... // and tried to set these 5 ones here after his operations ... // we can't ignore set requests during these two calls! // So we must add(!) these 5 locks here. m_nExternalLockCount = m_nExternalLockCount + nLock; } sal_Int16 SAL_CALL XFrameImpl::resetActionLocks() { sal_Int16 nCurrentLocks = 0; { SolarMutexGuard g; nCurrentLocks = m_nExternalLockCount; m_nExternalLockCount = 0; } // Attention: // external lock count is 0 here every time... but if // member m_bSelfClose is set to true too... we call our own close()/dispose(). // See close() for further information implts_checkSuicide(); return nCurrentLocks; } void XFrameImpl::impl_setPropertyValue(sal_Int32 nHandle, const css::uno::Any& aValue) { /* There is no need to lock any mutex here. Because we share the solar mutex with our base class. And we said to our base class: "don't release it on calling us" .-) */ /* Attention: You can use nHandle only, if you are sure that all supported properties has a unique handle. That must be guaranteed inside method initListeners()! */ switch (nHandle) { case FRAME_PROPHANDLE_TITLE : { OUString sExternalTitle; aValue >>= sExternalTitle; setTitle (sExternalTitle); } break; case FRAME_PROPHANDLE_DISPATCHRECORDERSUPPLIER : aValue >>= m_xDispatchRecorderSupplier; break; case FRAME_PROPHANDLE_LAYOUTMANAGER : { css::uno::Reference< css::frame::XLayoutManager2 > xOldLayoutManager = m_xLayoutManager; css::uno::Reference< css::frame::XLayoutManager2 > xNewLayoutManager; aValue >>= xNewLayoutManager; if (xOldLayoutManager != xNewLayoutManager) { m_xLayoutManager = xNewLayoutManager; if (xOldLayoutManager.is()) disableLayoutManager(xOldLayoutManager); if (xNewLayoutManager.is() && !m_bDocHidden) lcl_enableLayoutManager(xNewLayoutManager, this); } } break; case FRAME_PROPHANDLE_INDICATORINTERCEPTION : { css::uno::Reference< css::task::XStatusIndicator > xProgress; aValue >>= xProgress; m_xIndicatorInterception = xProgress; } break; case FRAME_PROPHANDLE_URL: { aValue >>= m_aURL; } break; default : SAL_INFO("fwk.frame", "XFrameImpl::setFastPropertyValue_NoBroadcast(): Invalid handle detected!" ); break; } } css::uno::Any XFrameImpl::impl_getPropertyValue(sal_Int32 nHandle) { /* There is no need to lock any mutex here. Because we share the solar mutex with our base class. And we said to our base class: "don't release it on calling us" .-) */ /* Attention: You can use nHandle only, if you are sure that all supported properties has a unique handle. That must be guaranteed inside method initListeners()! */ css::uno::Any aValue; switch (nHandle) { case FRAME_PROPHANDLE_TITLE : aValue <<= getTitle (); break; case FRAME_PROPHANDLE_DISPATCHRECORDERSUPPLIER : aValue <<= m_xDispatchRecorderSupplier; break; case FRAME_PROPHANDLE_ISHIDDEN : aValue <<= m_bIsHidden; break; case FRAME_PROPHANDLE_LAYOUTMANAGER : aValue <<= m_xLayoutManager; break; case FRAME_PROPHANDLE_INDICATORINTERCEPTION : { css::uno::Reference< css::task::XStatusIndicator > xProgress(m_xIndicatorInterception.get(), css::uno::UNO_QUERY); aValue <<= xProgress; } break; case FRAME_PROPHANDLE_URL: { aValue <<= m_aURL; } break; default : SAL_INFO("fwk.frame", "XFrameImpl::getFastPropertyValue(): Invalid handle detected!" ); break; } return aValue; } void XFrameImpl::impl_setPropertyChangeBroadcaster(const css::uno::Reference< css::uno::XInterface >& xBroadcaster) { SolarMutexGuard g; m_xBroadcaster = xBroadcaster; } void XFrameImpl::impl_addPropertyInfo(const css::beans::Property& aProperty) { SolarMutexGuard g; TPropInfoHash::const_iterator pIt = m_lProps.find(aProperty.Name); if (pIt != m_lProps.end()) throw css::beans::PropertyExistException(); m_lProps[aProperty.Name] = aProperty; } void XFrameImpl::impl_disablePropertySet() { SolarMutexGuard g; css::uno::Reference< css::uno::XInterface > xThis(static_cast< css::beans::XPropertySet* >(this), css::uno::UNO_QUERY); css::lang::EventObject aEvent(xThis); m_lSimpleChangeListener.disposeAndClear(aEvent); m_lVetoChangeListener.disposeAndClear(aEvent); m_lProps.clear(); } bool XFrameImpl::impl_existsVeto(const css::beans::PropertyChangeEvent& aEvent) { /* Don't use the lock here! The used helper is threadsafe and it lives for the whole lifetime of our own object. */ ::comphelper::OInterfaceContainerHelper3* pVetoListener = m_lVetoChangeListener.getContainer(aEvent.PropertyName); if (! pVetoListener) return false; ::comphelper::OInterfaceIteratorHelper3 pListener(*pVetoListener); while (pListener.hasMoreElements()) { try { pListener.next()->vetoableChange(aEvent); } catch(const css::uno::RuntimeException&) { pListener.remove(); } catch(const css::beans::PropertyVetoException&) { return true; } } return false; } void XFrameImpl::impl_notifyChangeListener(const css::beans::PropertyChangeEvent& aEvent) { /* Don't use the lock here! The used helper is threadsafe and it lives for the whole lifetime of our own object. */ ::comphelper::OInterfaceContainerHelper3* pSimpleListener = m_lSimpleChangeListener.getContainer(aEvent.PropertyName); if (! pSimpleListener) return; ::comphelper::OInterfaceIteratorHelper3 pListener(*pSimpleListener); while (pListener.hasMoreElements()) { try { pListener.next()->propertyChange(aEvent); } catch(const css::uno::RuntimeException&) { pListener.remove(); } } } /*-**************************************************************************************************** @short send frame action event to our listener @descr This method is threadsafe AND can be called by our dispose method too! @param "aAction", describe the event for sending *//*-*****************************************************************************************************/ void XFrameImpl::implts_sendFrameActionEvent( const css::frame::FrameAction& aAction ) { // Sometimes used by dispose() // Log information about order of events to file! // (only activated in debug version!) SAL_INFO( "fwk.frame", "[Frame] " << m_sName << " send event " << (aAction == css::frame::FrameAction_COMPONENT_ATTACHED ? OUString("COMPONENT ATTACHED") : (aAction == css::frame::FrameAction_COMPONENT_DETACHING ? OUString("COMPONENT DETACHING") : (aAction == css::frame::FrameAction_COMPONENT_REATTACHED ? OUString("COMPONENT REATTACHED") : (aAction == css::frame::FrameAction_FRAME_ACTIVATED ? OUString("FRAME ACTIVATED") : (aAction == css::frame::FrameAction_FRAME_DEACTIVATING ? OUString("FRAME DEACTIVATING") : (aAction == css::frame::FrameAction_CONTEXT_CHANGED ? OUString("CONTEXT CHANGED") : (aAction == css::frame::FrameAction_FRAME_UI_ACTIVATED ? OUString("FRAME UI ACTIVATED") : (aAction == css::frame::FrameAction_FRAME_UI_DEACTIVATING ? OUString("FRAME UI DEACTIVATING") : (aAction == css::frame::FrameAction::FrameAction_MAKE_FIXED_SIZE ? OUString("MAKE_FIXED_SIZE") : OUString("*invalid*"))))))))))); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // Send css::frame::FrameAction event to all listener. // Get container for right listener. // FOLLOW LINES ARE THREADSAFE!!! // ( OInterfaceContainerHelper2 is synchronized with m_aListenerContainer! ) comphelper::OInterfaceContainerHelper2* pContainer = m_aListenerContainer.getContainer( cppu::UnoType::get()); if( pContainer == nullptr ) return; // Build action event. css::frame::FrameActionEvent aFrameActionEvent( static_cast< ::cppu::OWeakObject* >(this), this, aAction ); // Get iterator for access to listener. comphelper::OInterfaceIteratorHelper2 aIterator( *pContainer ); // Send message to all listener. while( aIterator.hasMoreElements() ) { try { static_cast(aIterator.next())->frameAction( aFrameActionEvent ); } catch( const css::uno::RuntimeException& ) { aIterator.remove(); } } } /*-**************************************************************************************************** @short helper to resize our component window @descr A frame contains 2 windows - a container ~ and a component window. This method resize inner component window to full size of outer container window. This method is threadsafe AND can be called by our dispose method too! *//*-*****************************************************************************************************/ void XFrameImpl::implts_resizeComponentWindow() { // usually the LayoutManager does the resizing // in case there is no LayoutManager resizing has to be done here if ( m_xLayoutManager.is() ) return; css::uno::Reference< css::awt::XWindow > xComponentWindow( getComponentWindow() ); if( !xComponentWindow.is() ) return; css::uno::Reference< css::awt::XDevice > xDevice( getContainerWindow(), css::uno::UNO_QUERY ); // Convert relative size to output size. css::awt::Rectangle aRectangle = getContainerWindow()->getPosSize(); css::awt::DeviceInfo aInfo = xDevice->getInfo(); css::awt::Size aSize( aRectangle.Width - aInfo.LeftInset - aInfo.RightInset, aRectangle.Height - aInfo.TopInset - aInfo.BottomInset ); // Resize our component window. xComponentWindow->setPosSize( 0, 0, aSize.Width, aSize.Height, css::awt::PosSize::POSSIZE ); } /*-**************************************************************************************************** @short helper to set icon on our container window (if it is a system window!) @descr We use our internal set controller (if it exist) to specify which factory he represented. This information can be used to find right icon. But our controller can say it us directly too ... we should ask his optional property set first ... @seealso method Window::SetIcon() @onerror We do nothing. *//*-*****************************************************************************************************/ void XFrameImpl::implts_setIconOnWindow() { checkDisposed(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // Make snapshot of necessary members and release lock. SolarMutexClearableGuard aReadLock; css::uno::Reference< css::awt::XWindow > xContainerWindow = m_xContainerWindow; css::uno::Reference< css::frame::XController > xController = m_xController; aReadLock.clear(); /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ if( !(xContainerWindow.is() && xController.is()) ) return; // a) set default value to an invalid one. So we can start further searches for right icon id, if // first steps failed! // We must reset it to any fallback value - if no search step returns a valid result. sal_Int32 nIcon = -1; // b) try to find information on controller propertyset directly // Don't forget to catch possible exceptions - because these property is an optional one! css::uno::Reference< css::beans::XPropertySet > xSet( xController, css::uno::UNO_QUERY ); if( xSet.is() ) { try { css::uno::Reference< css::beans::XPropertySetInfo > const xPSI( xSet->getPropertySetInfo(), css::uno::UNO_SET_THROW ); if ( xPSI->hasPropertyByName( "IconId" ) ) xSet->getPropertyValue( "IconId" ) >>= nIcon; } catch( css::uno::Exception& ) { DBG_UNHANDLED_EXCEPTION("fwk"); } } // c) if b) failed... analyze argument list of currently loaded document inside the frame to find the filter. // He can be used to detect right factory - and these can be used to match factory to icon... if( nIcon == -1 ) { css::uno::Reference< css::frame::XModel > xModel = xController->getModel(); if( xModel.is() ) { SvtModuleOptions::EFactory eFactory = SvtModuleOptions::ClassifyFactoryByModel(xModel); if (eFactory != SvtModuleOptions::EFactory::UNKNOWN_FACTORY) nIcon = SvtModuleOptions().GetFactoryIcon( eFactory ); } } // d) if all steps failed - use fallback! if( nIcon == -1 ) { nIcon = 0; } // e) set icon on container window now // Don't forget SolarMutex! We use vcl directly :-( // Check window pointer for right WorkWindow class too!!! /* SAFE AREA ----------------------------------------------------------------------------------------------- */ { SolarMutexGuard aSolarGuard; VclPtr pWindow = VCLUnoHelper::GetWindow( xContainerWindow ); if( ( pWindow != nullptr ) && ( pWindow->GetType() == WindowType::WORKWINDOW ) ) { WorkWindow* pWorkWindow = static_cast(pWindow.get()); pWorkWindow->SetIcon( static_cast(nIcon) ); } } /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ } /*-************************************************************************************************************ @short helper to start/stop listening for window events on container window @descr If we get a new container window, we must set it on internal member ... and stop listening at old one ... and start listening on new one! But sometimes (in dispose() call!) it's necessary to stop listening without starting on new connections. So we split this functionality to make it easier at use. @seealso method initialize() @seealso method dispose() @onerror We do nothing! @threadsafe yes *//*-*************************************************************************************************************/ void XFrameImpl::implts_startWindowListening() { checkDisposed(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // Make snapshot of necessary member! SolarMutexClearableGuard aReadLock; css::uno::Reference< css::awt::XWindow > xContainerWindow = m_xContainerWindow; css::uno::Reference< css::datatransfer::dnd::XDropTargetListener > xDragDropListener = m_xDropTargetListener; css::uno::Reference< css::awt::XWindowListener > xWindowListener(this); css::uno::Reference< css::awt::XFocusListener > xFocusListener(this); css::uno::Reference< css::awt::XTopWindowListener > xTopWindowListener(this); aReadLock.clear(); /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ if( !xContainerWindow.is() ) return; xContainerWindow->addWindowListener( xWindowListener); xContainerWindow->addFocusListener ( xFocusListener ); css::uno::Reference< css::awt::XTopWindow > xTopWindow( xContainerWindow, css::uno::UNO_QUERY ); if( xTopWindow.is() ) { xTopWindow->addTopWindowListener( xTopWindowListener ); css::uno::Reference< css::awt::XToolkit2 > xToolkit = css::awt::Toolkit::create( m_xContext ); css::uno::Reference< css::datatransfer::dnd::XDropTarget > xDropTarget = xToolkit->getDropTarget( xContainerWindow ); if( xDropTarget.is() ) { xDropTarget->addDropTargetListener( xDragDropListener ); xDropTarget->setActive( true ); } } } void XFrameImpl::implts_stopWindowListening() { // Sometimes used by dispose() /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // Make snapshot of necessary member! SolarMutexClearableGuard aReadLock; css::uno::Reference< css::awt::XWindow > xContainerWindow = m_xContainerWindow; css::uno::Reference< css::datatransfer::dnd::XDropTargetListener > xDragDropListener = m_xDropTargetListener; css::uno::Reference< css::awt::XWindowListener > xWindowListener(this); css::uno::Reference< css::awt::XFocusListener > xFocusListener(this); css::uno::Reference< css::awt::XTopWindowListener > xTopWindowListener(this); aReadLock.clear(); /* UNSAFE AREA --------------------------------------------------------------------------------------------- */ if( !xContainerWindow.is() ) return; xContainerWindow->removeWindowListener( xWindowListener); xContainerWindow->removeFocusListener ( xFocusListener ); css::uno::Reference< css::awt::XTopWindow > xTopWindow( xContainerWindow, css::uno::UNO_QUERY ); if( !xTopWindow.is() ) return; xTopWindow->removeTopWindowListener( xTopWindowListener ); css::uno::Reference< css::awt::XToolkit2 > xToolkit = css::awt::Toolkit::create( m_xContext ); css::uno::Reference< css::datatransfer::dnd::XDropTarget > xDropTarget = xToolkit->getDropTarget( xContainerWindow ); if( xDropTarget.is() ) { xDropTarget->removeDropTargetListener( xDragDropListener ); xDropTarget->setActive( false ); } } /*-**************************************************************************************************** @short helper to force broken close() request again @descr If we self disagree with a close() request, and detect that all external locks are gone ... then we must try to close this frame again. @seealso XCloseable::close() @seealso XFrameImpl::close() @seealso XFrameImpl::removeActionLock() @seealso XFrameImpl::resetActionLock() @seealso m_bSelfClose @seealso m_nExternalLockCount @threadsafe yes *//*-*****************************************************************************************************/ void XFrameImpl::implts_checkSuicide() { /* SAFE */ SolarMutexClearableGuard aReadLock; // in case of lock==0 and safed state of previous close() request m_bSelfClose // we must force close() again. Because we had disagreed with that before. bool bSuicide = (m_nExternalLockCount==0 && m_bSelfClose); m_bSelfClose = false; aReadLock.clear(); /* } SAFE */ // force close and deliver ownership to source of possible thrown veto exception // Attention: Because this method is not designed to throw such exception we must suppress // it for outside code! try { if (bSuicide) close(true); } catch(const css::util::CloseVetoException&) {} catch(const css::lang::DisposedException&) {} } /** little helper to enable/disable the menu closer at the menubar of the given frame. @param xFrame we use its layout manager to set/reset a special callback. Its existence regulate visibility of this closer item. @param bState enable; disable this state */ void XFrameImpl::impl_setCloser( /*IN*/ const css::uno::Reference< css::frame::XFrame2 >& xFrame , /*IN*/ bool bState ) { // Note: If start module is not installed - no closer has to be shown! if (!SvtModuleOptions().IsModuleInstalled(SvtModuleOptions::EModule::STARTMODULE)) return; try { css::uno::Reference< css::beans::XPropertySet > xFrameProps(xFrame, css::uno::UNO_QUERY_THROW); css::uno::Reference< css::frame::XLayoutManager > xLayoutManager; xFrameProps->getPropertyValue(FRAME_PROPNAME_ASCII_LAYOUTMANAGER) >>= xLayoutManager; css::uno::Reference< css::beans::XPropertySet > xLayoutProps(xLayoutManager, css::uno::UNO_QUERY_THROW); xLayoutProps->setPropertyValue(LAYOUTMANAGER_PROPNAME_MENUBARCLOSER, css::uno::Any(bState)); } catch(const css::uno::RuntimeException&) { throw; } catch(const css::uno::Exception&) {} } /** it checks, which of the top level task frames must have the special menu closer for switching to the backing window mode. It analyze the current list of visible top level frames. Only the last real document frame can have this symbol. Not the help frame nor the backing task itself. Here we do anything related to this closer. We remove it from the old frame and set it for the new one. */ void XFrameImpl::impl_checkMenuCloser() { /* SAFE { */ SolarMutexClearableGuard aReadLock; // only top frames, which are part of our desktop hierarchy, can // do so! By the way - we need the desktop instance to have access // to all other top level frames too. css::uno::Reference< css::frame::XDesktop > xDesktop (m_xParent, css::uno::UNO_QUERY); css::uno::Reference< css::frame::XFramesSupplier > xTaskSupplier(xDesktop , css::uno::UNO_QUERY); if ( !xDesktop.is() || !xTaskSupplier.is() ) return; aReadLock.clear(); /* } SAFE */ // analyze the list of current open tasks // Suppress search for other views to the same model ... // It's not needed here and can be very expensive. FrameListAnalyzer aAnalyzer( xTaskSupplier, this, FrameAnalyzerFlags::Hidden | FrameAnalyzerFlags::Help | FrameAnalyzerFlags::BackingComponent); // specify the new frame, which must have this special state... css::uno::Reference< css::frame::XFrame2 > xNewCloserFrame; // a) // If there exist at least one other frame - there are two frames currently open. // But we can enable this closer only, if one of these two tasks includes the help module. // The "other frame" couldn't be the help. Because then it wouldn't be part of this "other list". // In such case it will be separated to the reference aAnalyzer.m_xHelp! // But we must check, if we include ourself the help... // Check aAnalyzer.m_bReferenceIsHelp! if ( (aAnalyzer.m_lOtherVisibleFrames.size()==1) && ( (aAnalyzer.m_bReferenceIsHelp ) || (aAnalyzer.m_bReferenceIsHidden) ) ) { // others[0] can't be the backing component! // Because it's set at the special member aAnalyzer.m_xBackingComponent ... :-) xNewCloserFrame.set( aAnalyzer.m_lOtherVisibleFrames[0], css::uno::UNO_QUERY_THROW ); } // b) // There is no other frame... means no other document frame. The help module // will be handled separately and must(!) be ignored here... excepting if we include ourself the help. else if ( (aAnalyzer.m_lOtherVisibleFrames.empty()) && (!aAnalyzer.m_bReferenceIsHelp) && (!aAnalyzer.m_bReferenceIsHidden) && (!aAnalyzer.m_bReferenceIsBacking) ) { xNewCloserFrame = this; } // Look for necessary actions ... // Only if the closer state must be moved from one frame to another one // or must be enabled/disabled at all. SolarMutexGuard aGuard; // Holds the only frame, which must show the special closer menu item (can be NULL!) static css::uno::WeakReference< css::frame::XFrame2 > s_xCloserFrame; css::uno::Reference< css::frame::XFrame2 > xCloserFrame (s_xCloserFrame.get(), css::uno::UNO_QUERY); if (xCloserFrame!=xNewCloserFrame) { if (xCloserFrame.is()) impl_setCloser(xCloserFrame, false); if (xNewCloserFrame.is()) impl_setCloser(xNewCloserFrame, true); s_xCloserFrame = xNewCloserFrame; } } } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface * com_sun_star_comp_framework_Frame_get_implementation( css::uno::XComponentContext *context, css::uno::Sequence const &) { rtl::Reference inst = new XFrameImpl(context); css::uno::XInterface *acquired_inst = cppu::acquire(inst.get()); inst->initListeners(); return acquired_inst; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */