/* -*- 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 "helpers.hxx" #include #include #include #include #include #include #include #include #include #include "toolbarlayoutmanager.hxx" #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 using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::util; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::container; using namespace ::com::sun::star::ui; using namespace ::com::sun::star::frame; static const char STATUS_BAR_ALIAS[] = "private:resource/statusbar/statusbar"; static const char PROGRESS_BAR_ALIAS[] = "private:resource/progressbar/progressbar"; namespace framework { IMPLEMENT_FORWARD_XTYPEPROVIDER2( LayoutManager, LayoutManager_Base, LayoutManager_PBase ) IMPLEMENT_FORWARD_XINTERFACE2( LayoutManager, LayoutManager_Base, LayoutManager_PBase ) LayoutManager::LayoutManager( const Reference< XComponentContext >& xContext ) : LayoutManager_Base() , ::cppu::OBroadcastHelperVar< ::cppu::OMultiTypeInterfaceContainerHelper, ::cppu::OMultiTypeInterfaceContainerHelper::keyType >(m_aMutex) , LayoutManager_PBase( *(static_cast< ::cppu::OBroadcastHelper* >(this)) ) , m_xContext( xContext ) , m_xURLTransformer( URLTransformer::create(xContext) ) , m_nLockCount( 0 ) , m_bActive( false ) , m_bInplaceMenuSet( false ) , m_bMenuVisible( true ) , m_bComponentAttached( false ) , m_bDoLayout( false ) , m_bVisible( true ) , m_bParentWindowVisible( false ) , m_bMustDoLayout( true ) #if HAVE_FEATURE_DESKTOP , m_bAutomaticToolbars( true ) #else , m_bAutomaticToolbars( false ) #endif , m_bStoreWindowState( false ) , m_bHideCurrentUI( false ) , m_bGlobalSettings( false ) , m_bPreserveContentSize( false ) , m_bMenuBarCloseButton( false ) , m_pInplaceMenuBar( nullptr ) , m_xModuleManager( ModuleManager::create( xContext )) , m_xUIElementFactoryManager( ui::theUIElementFactoryManager::get(xContext) ) , m_xPersistentWindowStateSupplier( ui::theWindowStateConfiguration::get( xContext ) ) , m_pGlobalSettings( nullptr ) , m_aListenerContainer( m_aMutex ) , m_pToolbarManager( nullptr ) , m_xToolbarManager( nullptr ) { // Initialize statusbar member m_aStatusBarElement.m_aType = "statusbar"; m_aStatusBarElement.m_aName = STATUS_BAR_ALIAS; if (!comphelper::LibreOfficeKit::isActive()) { m_pToolbarManager = new ToolbarLayoutManager( xContext, Reference(m_xUIElementFactoryManager, UNO_QUERY_THROW), this ); m_xToolbarManager.set( static_cast< OWeakObject* >( m_pToolbarManager ), uno::UNO_QUERY ); } m_aAsyncLayoutTimer.SetTimeout( 50 ); m_aAsyncLayoutTimer.SetTimeoutHdl( LINK( this, LayoutManager, AsyncLayoutHdl ) ); registerProperty( LAYOUTMANAGER_PROPNAME_ASCII_AUTOMATICTOOLBARS, LAYOUTMANAGER_PROPHANDLE_AUTOMATICTOOLBARS, css::beans::PropertyAttribute::TRANSIENT, &m_bAutomaticToolbars, cppu::UnoType::get() ); registerProperty( LAYOUTMANAGER_PROPNAME_ASCII_HIDECURRENTUI, LAYOUTMANAGER_PROPHANDLE_HIDECURRENTUI, beans::PropertyAttribute::TRANSIENT, &m_bHideCurrentUI, cppu::UnoType::get() ); registerProperty( LAYOUTMANAGER_PROPNAME_ASCII_LOCKCOUNT, LAYOUTMANAGER_PROPHANDLE_LOCKCOUNT, beans::PropertyAttribute::TRANSIENT | beans::PropertyAttribute::READONLY, &m_nLockCount, cppu::UnoType::get() ); registerProperty( LAYOUTMANAGER_PROPNAME_MENUBARCLOSER, LAYOUTMANAGER_PROPHANDLE_MENUBARCLOSER, beans::PropertyAttribute::TRANSIENT, &m_bMenuBarCloseButton, cppu::UnoType::get() ); registerPropertyNoMember( LAYOUTMANAGER_PROPNAME_ASCII_REFRESHVISIBILITY, LAYOUTMANAGER_PROPHANDLE_REFRESHVISIBILITY, beans::PropertyAttribute::TRANSIENT, cppu::UnoType::get(), css::uno::Any(false) ); registerProperty( LAYOUTMANAGER_PROPNAME_ASCII_PRESERVE_CONTENT_SIZE, LAYOUTMANAGER_PROPHANDLE_PRESERVE_CONTENT_SIZE, beans::PropertyAttribute::TRANSIENT, &m_bPreserveContentSize, cppu::UnoType::get() ); } LayoutManager::~LayoutManager() { m_aAsyncLayoutTimer.Stop(); setDockingAreaAcceptor(nullptr); delete m_pGlobalSettings; } // Internal helper function void LayoutManager::impl_clearUpMenuBar() { implts_lock(); // Clear up VCL menu bar to prepare shutdown if ( m_xContainerWindow.is() ) { SolarMutexGuard aGuard; SystemWindow* pSysWindow = getTopSystemWindow( m_xContainerWindow ); if ( pSysWindow ) { MenuBar* pSetMenuBar = nullptr; if ( m_xInplaceMenuBar.is() ) pSetMenuBar = static_cast(m_pInplaceMenuBar->GetMenuBar()); else { Reference< awt::XMenuBar > xMenuBar; Reference< XPropertySet > xPropSet( m_xMenuBar, UNO_QUERY ); if ( xPropSet.is() ) { try { xPropSet->getPropertyValue("XMenuBar") >>= xMenuBar; } catch (const beans::UnknownPropertyException&) { } catch (const lang::WrappedTargetException&) { } } VCLXMenu* pAwtMenuBar = VCLXMenu::GetImplementation( xMenuBar ); if ( pAwtMenuBar ) pSetMenuBar = static_cast(pAwtMenuBar->GetMenu()); } MenuBar* pTopMenuBar = pSysWindow->GetMenuBar(); if ( pSetMenuBar == pTopMenuBar ) pSysWindow->SetMenuBar( nullptr ); } } // reset inplace menubar manager VclPtr pMenuBar; if (m_pInplaceMenuBar) { pMenuBar = m_pInplaceMenuBar->GetMenuBar(); m_pInplaceMenuBar = nullptr; } if ( m_xInplaceMenuBar.is() ) { m_xInplaceMenuBar->dispose(); m_xInplaceMenuBar.clear(); } pMenuBar.disposeAndClear(); Reference< XComponent > xComp( m_xMenuBar, UNO_QUERY ); if ( xComp.is() ) xComp->dispose(); m_xMenuBar.clear(); implts_unlock(); } void LayoutManager::implts_lock() { SolarMutexGuard g; ++m_nLockCount; } bool LayoutManager::implts_unlock() { SolarMutexGuard g; m_nLockCount = std::max( m_nLockCount-1, static_cast(0) ); return ( m_nLockCount == 0 ); } void LayoutManager::implts_reset( bool bAttached ) { /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aReadLock; Reference< XFrame > xFrame = m_xFrame; Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); Reference< XUIConfiguration > xModuleCfgMgr( m_xModuleCfgMgr, UNO_QUERY ); Reference< XUIConfiguration > xDocCfgMgr( m_xDocCfgMgr, UNO_QUERY ); Reference< XNameAccess > xPersistentWindowState( m_xPersistentWindowState ); Reference< XComponentContext > xContext( m_xContext ); Reference< XNameAccess > xPersistentWindowStateSupplier( m_xPersistentWindowStateSupplier ); ToolbarLayoutManager* pToolbarManager( m_pToolbarManager ); OUString aModuleIdentifier( m_aModuleIdentifier ); bool bAutomaticToolbars( m_bAutomaticToolbars ); aReadLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ implts_lock(); Reference< XModel > xModel; if ( xFrame.is() ) { if ( bAttached ) { OUString aOldModuleIdentifier( aModuleIdentifier ); try { aModuleIdentifier = m_xModuleManager->identify( xFrame ); } catch( const Exception& ) {} if ( !aModuleIdentifier.isEmpty() && aOldModuleIdentifier != aModuleIdentifier ) { Reference< XModuleUIConfigurationManagerSupplier > xModuleCfgSupplier; if ( xContext.is() ) xModuleCfgSupplier = theModuleUIConfigurationManagerSupplier::get( xContext ); if ( xModuleCfgMgr.is() ) { try { // Remove listener to old module ui configuration manager xModuleCfgMgr->removeConfigurationListener( Reference< XUIConfigurationListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); } catch (const Exception&) { } } try { // Add listener to new module ui configuration manager xModuleCfgMgr.set( xModuleCfgSupplier->getUIConfigurationManager( aModuleIdentifier ), UNO_QUERY ); if ( xModuleCfgMgr.is() ) xModuleCfgMgr->addConfigurationListener( Reference< XUIConfigurationListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); } catch (const Exception&) { } try { // Retrieve persistent window state reference for our new module if ( xPersistentWindowStateSupplier.is() ) xPersistentWindowStateSupplier->getByName( aModuleIdentifier ) >>= xPersistentWindowState; } catch (const NoSuchElementException&) { } catch (const WrappedTargetException&) { } } xModel = impl_getModelFromFrame( xFrame ); if ( xModel.is() ) { Reference< XUIConfigurationManagerSupplier > xUIConfigurationManagerSupplier( xModel, UNO_QUERY ); if ( xUIConfigurationManagerSupplier.is() ) { if ( xDocCfgMgr.is() ) { try { // Remove listener to old ui configuration manager xDocCfgMgr->removeConfigurationListener( Reference< XUIConfigurationListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); } catch (const Exception&) { } } try { xDocCfgMgr.set( xUIConfigurationManagerSupplier->getUIConfigurationManager(), UNO_QUERY ); if ( xDocCfgMgr.is() ) xDocCfgMgr->addConfigurationListener( Reference< XUIConfigurationListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); } catch (const Exception&) { } } } } else { // Remove configuration listeners before we can release our references if ( xModuleCfgMgr.is() ) { try { xModuleCfgMgr->removeConfigurationListener( Reference< XUIConfigurationListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); } catch (const Exception&) { } } if ( xDocCfgMgr.is() ) { try { xDocCfgMgr->removeConfigurationListener( Reference< XUIConfigurationListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); } catch (const Exception&) { } } // Release references to our configuration managers as we currently don't have // an attached module. xModuleCfgMgr.clear(); xDocCfgMgr.clear(); xPersistentWindowState.clear(); aModuleIdentifier.clear(); } Reference< XUIConfigurationManager > xModCfgMgr( xModuleCfgMgr, UNO_QUERY ); Reference< XUIConfigurationManager > xDokCfgMgr( xDocCfgMgr, UNO_QUERY ); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; m_xModel = xModel; m_aDockingArea = awt::Rectangle(); m_bComponentAttached = bAttached; m_aModuleIdentifier = aModuleIdentifier; m_xModuleCfgMgr = xModCfgMgr; m_xDocCfgMgr = xDokCfgMgr; m_xPersistentWindowState = xPersistentWindowState; m_aStatusBarElement.m_bStateRead = false; // reset state to read data again! aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // reset/notify toolbar layout manager if ( pToolbarManager ) { if ( bAttached ) { pToolbarManager->attach( xFrame, xModCfgMgr, xDokCfgMgr, xPersistentWindowState ); uno::Reference< awt::XWindowPeer > xParent( xContainerWindow, UNO_QUERY ); pToolbarManager->setParentWindow( xParent ); if ( bAutomaticToolbars ) pToolbarManager->createStaticToolbars(); } else { pToolbarManager->reset(); implts_destroyElements(); } } } implts_unlock(); } bool LayoutManager::implts_isEmbeddedLayoutManager() const { SolarMutexClearableGuard aReadLock; Reference< XFrame > xFrame = m_xFrame; Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); aReadLock.clear(); Reference< awt::XWindow > xFrameContainerWindow = xFrame->getContainerWindow(); if ( xFrameContainerWindow == xContainerWindow ) return false; else return true; } void LayoutManager::implts_destroyElements() { SolarMutexResettableGuard aWriteLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aWriteLock.clear(); if ( pToolbarManager ) pToolbarManager->destroyToolbars(); implts_destroyStatusBar(); aWriteLock.reset(); impl_clearUpMenuBar(); aWriteLock.clear(); } void LayoutManager::implts_toggleFloatingUIElementsVisibility( bool bActive ) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) pToolbarManager->setFloatingToolbarsVisibility( bActive ); } uno::Reference< ui::XUIElement > LayoutManager::implts_findElement( const OUString& aName ) { OUString aElementType; OUString aElementName; parseResourceURL( aName, aElementType, aElementName ); if ( aElementType.equalsIgnoreAsciiCase("menubar") && aElementName.equalsIgnoreAsciiCase("menubar") ) return m_xMenuBar; else if (( aElementType.equalsIgnoreAsciiCase("statusbar") && aElementName.equalsIgnoreAsciiCase("statusbar") ) || ( m_aStatusBarElement.m_aName == aName )) return m_aStatusBarElement.m_xUIElement; else if ( aElementType.equalsIgnoreAsciiCase("progressbar") && aElementName.equalsIgnoreAsciiCase("progressbar") ) return m_aProgressBarElement.m_xUIElement; return uno::Reference< ui::XUIElement >(); } bool LayoutManager::implts_readWindowStateData( const OUString& aName, UIElement& rElementData ) { return readWindowStateData( aName, rElementData, m_xPersistentWindowState, m_pGlobalSettings, m_bGlobalSettings, m_xContext ); } bool LayoutManager::readWindowStateData( const OUString& aName, UIElement& rElementData, const Reference< XNameAccess > &rPersistentWindowState, GlobalSettings* &rGlobalSettings, bool &bInGlobalSettings, const Reference< XComponentContext > &rComponentContext ) { if ( rPersistentWindowState.is() ) { bool bGetSettingsState( false ); SolarMutexResettableGuard aWriteLock; bool bGlobalSettings( bInGlobalSettings ); GlobalSettings* pGlobalSettings( nullptr ); if ( rGlobalSettings == nullptr ) { rGlobalSettings = new GlobalSettings( rComponentContext ); bGetSettingsState = true; } pGlobalSettings = rGlobalSettings; aWriteLock.clear(); try { Sequence< PropertyValue > aWindowState; if ( rPersistentWindowState->hasByName( aName ) && (rPersistentWindowState->getByName( aName ) >>= aWindowState) ) { bool bValue( false ); for ( sal_Int32 n = 0; n < aWindowState.getLength(); n++ ) { if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_DOCKED ) { if ( aWindowState[n].Value >>= bValue ) rElementData.m_bFloating = !bValue; } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_VISIBLE ) { if ( aWindowState[n].Value >>= bValue ) rElementData.m_bVisible = bValue; } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_DOCKINGAREA ) { ui::DockingArea eDockingArea; if ( aWindowState[n].Value >>= eDockingArea ) rElementData.m_aDockedData.m_nDockedArea = sal_Int16( eDockingArea ); } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_DOCKPOS ) { awt::Point aPoint; if (aWindowState[n].Value >>= aPoint) { //tdf#90256 repair these broken Docking positions if (aPoint.X < 0) aPoint.X = SAL_MAX_INT32; if (aPoint.Y < 0) aPoint.Y = SAL_MAX_INT32; rElementData.m_aDockedData.m_aPos = aPoint; } } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_POS ) { awt::Point aPoint; if ( aWindowState[n].Value >>= aPoint ) rElementData.m_aFloatingData.m_aPos = aPoint; } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_SIZE ) { awt::Size aSize; if ( aWindowState[n].Value >>= aSize ) rElementData.m_aFloatingData.m_aSize = aSize; } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_UINAME ) aWindowState[n].Value >>= rElementData.m_aUIName; else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_STYLE ) { sal_Int32 nStyle = 0; if ( aWindowState[n].Value >>= nStyle ) rElementData.m_nStyle = static_cast( nStyle ); } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_LOCKED ) { if ( aWindowState[n].Value >>= bValue ) rElementData.m_aDockedData.m_bLocked = bValue; } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_CONTEXT ) { if ( aWindowState[n].Value >>= bValue ) rElementData.m_bContextSensitive = bValue; } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_NOCLOSE ) { if ( aWindowState[n].Value >>= bValue ) rElementData.m_bNoClose = bValue; } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_CONTEXTACTIVE ) { if ( aWindowState[n].Value >>= bValue ) rElementData.m_bContextActive = bValue; } else if ( aWindowState[n].Name == WINDOWSTATE_PROPERTY_SOFTCLOSE ) { if ( aWindowState[n].Value >>= bValue ) rElementData.m_bSoftClose = bValue; } } } // oversteer values with global settings if ( pGlobalSettings && ( bGetSettingsState || bGlobalSettings )) { if ( pGlobalSettings->HasStatesInfo( GlobalSettings::UIELEMENT_TYPE_TOOLBAR )) { SolarMutexClearableGuard aWriteLock2; bInGlobalSettings = true; aWriteLock2.clear(); uno::Any aValue; if ( pGlobalSettings->GetStateInfo( GlobalSettings::UIELEMENT_TYPE_TOOLBAR, GlobalSettings::STATEINFO_LOCKED, aValue )) aValue >>= rElementData.m_aDockedData.m_bLocked; if ( pGlobalSettings->GetStateInfo( GlobalSettings::UIELEMENT_TYPE_TOOLBAR, GlobalSettings::STATEINFO_DOCKED, aValue )) { bool bValue; if ( aValue >>= bValue ) rElementData.m_bFloating = !bValue; } } } return true; } catch (const NoSuchElementException&) { } } return false; } void LayoutManager::implts_writeWindowStateData( const OUString& aName, const UIElement& rElementData ) { SolarMutexResettableGuard aWriteLock; Reference< XNameAccess > xPersistentWindowState( m_xPersistentWindowState ); // set flag to determine that we triggered the notification m_bStoreWindowState = true; aWriteLock.clear(); bool bPersistent( false ); Reference< XPropertySet > xPropSet( rElementData.m_xUIElement, UNO_QUERY ); if ( xPropSet.is() ) { try { // Check persistent flag of the user interface element xPropSet->getPropertyValue("Persistent") >>= bPersistent; } catch (const beans::UnknownPropertyException&) { // Non-configurable elements should at least store their dimension/position bPersistent = true; } catch (const lang::WrappedTargetException&) { } } if ( bPersistent && xPersistentWindowState.is() ) { try { Sequence< PropertyValue > aWindowState( 8 ); aWindowState[0].Name = WINDOWSTATE_PROPERTY_DOCKED; aWindowState[0].Value = makeAny( !rElementData.m_bFloating ); aWindowState[1].Name = WINDOWSTATE_PROPERTY_VISIBLE; aWindowState[1].Value = makeAny( rElementData.m_bVisible ); aWindowState[2].Name = WINDOWSTATE_PROPERTY_DOCKINGAREA; aWindowState[2].Value = makeAny( static_cast< DockingArea >( rElementData.m_aDockedData.m_nDockedArea ) ); aWindowState[3].Name = WINDOWSTATE_PROPERTY_DOCKPOS; aWindowState[3].Value <<= rElementData.m_aDockedData.m_aPos; aWindowState[4].Name = WINDOWSTATE_PROPERTY_POS; aWindowState[4].Value <<= rElementData.m_aFloatingData.m_aPos; aWindowState[5].Name = WINDOWSTATE_PROPERTY_SIZE; aWindowState[5].Value <<= rElementData.m_aFloatingData.m_aSize; aWindowState[6].Name = WINDOWSTATE_PROPERTY_UINAME; aWindowState[6].Value = makeAny( rElementData.m_aUIName ); aWindowState[7].Name = WINDOWSTATE_PROPERTY_LOCKED; aWindowState[7].Value = makeAny( rElementData.m_aDockedData.m_bLocked ); if ( xPersistentWindowState->hasByName( aName )) { Reference< XNameReplace > xReplace( xPersistentWindowState, uno::UNO_QUERY ); xReplace->replaceByName( aName, makeAny( aWindowState )); } else { Reference< XNameContainer > xInsert( xPersistentWindowState, uno::UNO_QUERY ); xInsert->insertByName( aName, makeAny( aWindowState )); } } catch (const Exception&) { } } // Reset flag aWriteLock.reset(); m_bStoreWindowState = false; aWriteLock.clear(); } ::Size LayoutManager::implts_getContainerWindowOutputSize() { ::Size aContainerWinSize; vcl::Window* pContainerWindow( nullptr ); // Retrieve output size from container Window SolarMutexGuard aGuard; pContainerWindow = VCLUnoHelper::GetWindow( m_xContainerWindow ); if ( pContainerWindow ) aContainerWinSize = pContainerWindow->GetOutputSizePixel(); return aContainerWinSize; } Reference< XUIElement > LayoutManager::implts_createElement( const OUString& aName ) { Reference< ui::XUIElement > xUIElement; SolarMutexGuard g; Sequence< PropertyValue > aPropSeq( 2 ); aPropSeq[0].Name = "Frame"; aPropSeq[0].Value <<= m_xFrame; aPropSeq[1].Name = "Persistent"; aPropSeq[1].Value <<= true; try { xUIElement = m_xUIElementFactoryManager->createUIElement( aName, aPropSeq ); } catch (const NoSuchElementException&) { } catch (const IllegalArgumentException&) { } return xUIElement; } void LayoutManager::implts_setVisibleState( bool bShow ) { SolarMutexClearableGuard aWriteLock; m_aStatusBarElement.m_bMasterHide = !bShow; aWriteLock.clear(); implts_updateUIElementsVisibleState( bShow ); } void LayoutManager::implts_updateUIElementsVisibleState( bool bSetVisible ) { // notify listeners uno::Any a; if ( bSetVisible ) implts_notifyListeners( frame::LayoutManagerEvents::VISIBLE, a ); else implts_notifyListeners( frame::LayoutManagerEvents::INVISIBLE, a ); SolarMutexResettableGuard aWriteLock; Reference< XUIElement > xMenuBar( m_xMenuBar, UNO_QUERY ); Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); Reference< XComponent > xInplaceMenuBar( m_xInplaceMenuBar ); MenuBarManager* pInplaceMenuBar( m_pInplaceMenuBar ); aWriteLock.clear(); if (( xMenuBar.is() || xInplaceMenuBar.is() ) && xContainerWindow.is() ) { SolarMutexGuard aGuard; MenuBar* pMenuBar( nullptr ); if ( xInplaceMenuBar.is() ) pMenuBar = static_cast(pInplaceMenuBar->GetMenuBar()); else { MenuBarWrapper* pMenuBarWrapper = (static_cast< MenuBarWrapper* >(xMenuBar.get()) ); pMenuBar = static_cast(pMenuBarWrapper->GetMenuBarManager()->GetMenuBar()); } SystemWindow* pSysWindow = getTopSystemWindow( xContainerWindow ); if ( pSysWindow ) { if ( bSetVisible ) { pSysWindow->SetMenuBar(pMenuBar); } else pSysWindow->SetMenuBar( nullptr ); } } bool bMustDoLayout; // Hide/show the statusbar according to bSetVisible if ( bSetVisible ) bMustDoLayout = !implts_showStatusBar(); else bMustDoLayout = !implts_hideStatusBar(); aWriteLock.reset(); ToolbarLayoutManager* pToolbarManager( m_pToolbarManager ); aWriteLock.clear(); if ( pToolbarManager ) { pToolbarManager->setVisible( bSetVisible ); bMustDoLayout = pToolbarManager->isLayoutDirty(); } if ( bMustDoLayout ) implts_doLayout_notify( false ); } void LayoutManager::implts_setCurrentUIVisibility( bool bShow ) { SolarMutexClearableGuard aWriteLock; if ( !bShow && m_aStatusBarElement.m_bVisible && m_aStatusBarElement.m_xUIElement.is() ) m_aStatusBarElement.m_bMasterHide = true; else if ( bShow && m_aStatusBarElement.m_bVisible ) m_aStatusBarElement.m_bMasterHide = false; aWriteLock.clear(); implts_updateUIElementsVisibleState( bShow ); } void LayoutManager::implts_destroyStatusBar() { Reference< XComponent > xCompStatusBar; SolarMutexClearableGuard aWriteLock; m_aStatusBarElement.m_aName.clear(); xCompStatusBar.set( m_aStatusBarElement.m_xUIElement, UNO_QUERY ); m_aStatusBarElement.m_xUIElement.clear(); aWriteLock.clear(); if ( xCompStatusBar.is() ) xCompStatusBar->dispose(); implts_destroyProgressBar(); } void LayoutManager::implts_createStatusBar( const OUString& aStatusBarName ) { SolarMutexClearableGuard aWriteLock; if ( !m_aStatusBarElement.m_xUIElement.is() ) { implts_readStatusBarState( aStatusBarName ); m_aStatusBarElement.m_aName = aStatusBarName; m_aStatusBarElement.m_xUIElement = implts_createElement( aStatusBarName ); } aWriteLock.clear(); implts_createProgressBar(); } void LayoutManager::implts_readStatusBarState( const OUString& rStatusBarName ) { SolarMutexGuard g; if ( !m_aStatusBarElement.m_bStateRead ) { // Read persistent data for status bar if not yet read! if ( implts_readWindowStateData( rStatusBarName, m_aStatusBarElement )) m_aStatusBarElement.m_bStateRead = true; } } void LayoutManager::implts_createProgressBar() { Reference< XUIElement > xStatusBar; Reference< XUIElement > xProgressBar; Reference< XUIElement > xProgressBarBackup; Reference< awt::XWindow > xContainerWindow; SolarMutexResettableGuard aWriteLock; xStatusBar.set( m_aStatusBarElement.m_xUIElement, UNO_QUERY ); xProgressBar.set( m_aProgressBarElement.m_xUIElement, UNO_QUERY ); xProgressBarBackup = m_xProgressBarBackup; m_xProgressBarBackup.clear(); xContainerWindow = m_xContainerWindow; aWriteLock.clear(); bool bRecycled = xProgressBarBackup.is(); ProgressBarWrapper* pWrapper = nullptr; if ( bRecycled ) pWrapper = static_cast(xProgressBarBackup.get()); else if ( xProgressBar.is() ) pWrapper = static_cast(xProgressBar.get()); else pWrapper = new ProgressBarWrapper(); if ( xStatusBar.is() ) { Reference< awt::XWindow > xWindow( xStatusBar->getRealInterface(), UNO_QUERY ); pWrapper->setStatusBar( xWindow ); } else { Reference< awt::XWindow > xStatusBarWindow = pWrapper->getStatusBar(); SolarMutexGuard aGuard; vcl::Window* pStatusBarWnd = VCLUnoHelper::GetWindow( xStatusBarWindow ); if ( !pStatusBarWnd ) { vcl::Window* pWindow = VCLUnoHelper::GetWindow( xContainerWindow ); if ( pWindow ) { VclPtrInstance pStatusBar( pWindow, WinBits( WB_LEFT | WB_3DLOOK ) ); Reference< awt::XWindow > xStatusBarWindow2( VCLUnoHelper::GetInterface( pStatusBar )); pWrapper->setStatusBar( xStatusBarWindow2, true ); } } } /* SAFE AREA ----------------------------------------------------------------------------------------------- */ aWriteLock.reset(); m_aProgressBarElement.m_xUIElement.set( static_cast< cppu::OWeakObject* >( pWrapper ), UNO_QUERY ); aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( bRecycled ) implts_showProgressBar(); } void LayoutManager::implts_backupProgressBarWrapper() { SolarMutexGuard g; if (m_xProgressBarBackup.is()) return; // safe a backup copy of the current progress! // This copy will be used automatically inside createProgressBar() which is called // implictly from implts_doLayout() .-) m_xProgressBarBackup = m_aProgressBarElement.m_xUIElement; // remove the relation between this old progress bar and our old status bar. // Otherwhise we work on disposed items ... // The internal used ProgressBarWrapper can handle a NULL reference. if ( m_xProgressBarBackup.is() ) { ProgressBarWrapper* pWrapper = static_cast(m_xProgressBarBackup.get()); if ( pWrapper ) pWrapper->setStatusBar( Reference< awt::XWindow >() ); } // prevent us from dispose() the m_aProgressBarElement.m_xUIElement inside implts_reset() m_aProgressBarElement.m_xUIElement.clear(); } void LayoutManager::implts_destroyProgressBar() { // don't remove the progressbar in general // We must reuse it if a new status bar is created later. // Of course there exists one backup only. // And further this backup will be released inside our dtor. implts_backupProgressBarWrapper(); } void LayoutManager::implts_setStatusBarPosSize( const ::Point& rPos, const ::Size& rSize ) { Reference< XUIElement > xStatusBar; Reference< XUIElement > xProgressBar; Reference< awt::XWindow > xContainerWindow; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aReadLock; xStatusBar.set( m_aStatusBarElement.m_xUIElement, UNO_QUERY ); xProgressBar.set( m_aProgressBarElement.m_xUIElement, UNO_QUERY ); xContainerWindow = m_xContainerWindow; Reference< awt::XWindow > xWindow; if ( xStatusBar.is() ) xWindow.set( xStatusBar->getRealInterface(), UNO_QUERY ); else if ( xProgressBar.is() ) { ProgressBarWrapper* pWrapper = static_cast(xProgressBar.get()); if ( pWrapper ) xWindow = pWrapper->getStatusBar(); } aReadLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( xWindow.is() ) { SolarMutexGuard aGuard; vcl::Window* pParentWindow = VCLUnoHelper::GetWindow( xContainerWindow ); vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pParentWindow && ( pWindow && pWindow->GetType() == WINDOW_STATUSBAR )) { vcl::Window* pOldParentWindow = pWindow->GetParent(); if ( pParentWindow != pOldParentWindow ) pWindow->SetParent( pParentWindow ); static_cast(pWindow)->SetPosSizePixel( rPos, rSize ); } } } bool LayoutManager::implts_showProgressBar() { Reference< XUIElement > xStatusBar; Reference< XUIElement > xProgressBar; Reference< awt::XWindow > xWindow; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; xStatusBar.set( m_aStatusBarElement.m_xUIElement, UNO_QUERY ); xProgressBar.set( m_aProgressBarElement.m_xUIElement, UNO_QUERY ); bool bVisible( m_bVisible ); m_aProgressBarElement.m_bVisible = true; if ( bVisible ) { if ( xStatusBar.is() && !m_aStatusBarElement.m_bMasterHide ) { xWindow.set( xStatusBar->getRealInterface(), UNO_QUERY ); } else if ( xProgressBar.is() ) { ProgressBarWrapper* pWrapper = static_cast(xProgressBar.get()); if ( pWrapper ) xWindow = pWrapper->getStatusBar(); } } aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow ) { if ( !pWindow->IsVisible() ) { implts_setOffset( pWindow->GetSizePixel().Height() ); pWindow->Show(); implts_doLayout_notify( false ); } return true; } return false; } bool LayoutManager::implts_hideProgressBar() { Reference< XUIElement > xProgressBar; Reference< awt::XWindow > xWindow; bool bHideStatusBar( false ); SolarMutexGuard g; xProgressBar.set( m_aProgressBarElement.m_xUIElement, UNO_QUERY ); bool bInternalStatusBar( false ); if ( xProgressBar.is() ) { Reference< awt::XWindow > xStatusBar; ProgressBarWrapper* pWrapper = static_cast(xProgressBar.get()); if ( pWrapper ) xWindow = pWrapper->getStatusBar(); Reference< ui::XUIElement > xStatusBarElement = m_aStatusBarElement.m_xUIElement; if ( xStatusBarElement.is() ) xStatusBar.set( xStatusBarElement->getRealInterface(), UNO_QUERY ); bInternalStatusBar = xStatusBar != xWindow; } m_aProgressBarElement.m_bVisible = false; implts_readStatusBarState( STATUS_BAR_ALIAS ); bHideStatusBar = !m_aStatusBarElement.m_bVisible; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->IsVisible() && ( bHideStatusBar || bInternalStatusBar )) { implts_setOffset( 0 ); pWindow->Hide(); implts_doLayout_notify( false ); return true; } return false; } bool LayoutManager::implts_showStatusBar( bool bStoreState ) { SolarMutexClearableGuard aWriteLock; Reference< ui::XUIElement > xStatusBar = m_aStatusBarElement.m_xUIElement; if ( bStoreState ) m_aStatusBarElement.m_bVisible = true; aWriteLock.clear(); if ( xStatusBar.is() ) { Reference< awt::XWindow > xWindow( xStatusBar->getRealInterface(), UNO_QUERY ); SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && !pWindow->IsVisible() ) { implts_setOffset( pWindow->GetSizePixel().Height() ); pWindow->Show(); implts_doLayout_notify( false ); return true; } } return false; } bool LayoutManager::implts_hideStatusBar( bool bStoreState ) { SolarMutexClearableGuard aWriteLock; Reference< ui::XUIElement > xStatusBar = m_aStatusBarElement.m_xUIElement; if ( bStoreState ) m_aStatusBarElement.m_bVisible = false; aWriteLock.clear(); if ( xStatusBar.is() ) { Reference< awt::XWindow > xWindow( xStatusBar->getRealInterface(), UNO_QUERY ); SolarMutexGuard aGuard; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->IsVisible() ) { implts_setOffset( 0 ); pWindow->Hide(); implts_doLayout_notify( false ); return true; } } return false; } void LayoutManager::implts_setOffset( const sal_Int32 nBottomOffset ) { ::Rectangle aOffsetRect; setZeroRectangle( aOffsetRect ); aOffsetRect.setHeight( nBottomOffset ); if ( m_pToolbarManager ) m_pToolbarManager->setDockingAreaOffsets( aOffsetRect ); } void LayoutManager::implts_setInplaceMenuBar( const Reference< XIndexAccess >& xMergedMenuBar ) throw (uno::RuntimeException, std::exception) { /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; if ( !m_bInplaceMenuSet ) { SolarMutexGuard aGuard; // Reset old inplace menubar! VclPtr pOldMenuBar; if (m_pInplaceMenuBar) { pOldMenuBar = m_pInplaceMenuBar->GetMenuBar(); m_pInplaceMenuBar = nullptr; } if (m_xInplaceMenuBar.is()) { m_xInplaceMenuBar->dispose(); m_xInplaceMenuBar.clear(); } pOldMenuBar.disposeAndClear(); m_bInplaceMenuSet = false; if ( m_xFrame.is() && m_xContainerWindow.is() ) { OUString aModuleIdentifier; Reference< XDispatchProvider > xDispatchProvider; VclPtr pMenuBar = VclPtr::Create(); m_pInplaceMenuBar = new MenuBarManager( m_xContext, m_xFrame, m_xURLTransformer, xDispatchProvider, aModuleIdentifier, pMenuBar, true ); m_pInplaceMenuBar->SetItemContainer( xMergedMenuBar ); SystemWindow* pSysWindow = getTopSystemWindow( m_xContainerWindow ); if ( pSysWindow ) pSysWindow->SetMenuBar(pMenuBar); m_bInplaceMenuSet = true; m_xInplaceMenuBar.set( static_cast(m_pInplaceMenuBar), UNO_QUERY ); } aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ implts_updateMenuBarClose(); } } void LayoutManager::implts_resetInplaceMenuBar() throw (uno::RuntimeException) { SolarMutexGuard g; m_bInplaceMenuSet = false; if ( m_xContainerWindow.is() ) { SolarMutexGuard aGuard; MenuBarWrapper* pMenuBarWrapper = (static_cast< MenuBarWrapper* >(m_xMenuBar.get()) ); SystemWindow* pSysWindow = getTopSystemWindow( m_xContainerWindow ); if ( pSysWindow ) { if ( pMenuBarWrapper ) pSysWindow->SetMenuBar(static_cast(pMenuBarWrapper->GetMenuBarManager()->GetMenuBar())); else pSysWindow->SetMenuBar(nullptr); } } // Remove inplace menu bar VclPtr pMenuBar; if (m_pInplaceMenuBar) { pMenuBar = m_pInplaceMenuBar->GetMenuBar(); m_pInplaceMenuBar = nullptr; } if (m_xInplaceMenuBar.is()) { m_xInplaceMenuBar->dispose(); m_xInplaceMenuBar.clear(); } pMenuBar.disposeAndClear(); } void SAL_CALL LayoutManager::attachFrame( const Reference< XFrame >& xFrame ) throw (uno::RuntimeException, std::exception) { SolarMutexGuard g; m_xFrame = xFrame; } void SAL_CALL LayoutManager::reset() throw (RuntimeException, std::exception) { implts_reset( true ); } // XMenuBarMergingAcceptor sal_Bool SAL_CALL LayoutManager::setMergedMenuBar( const Reference< XIndexAccess >& xMergedMenuBar ) throw (uno::RuntimeException, std::exception) { implts_setInplaceMenuBar( xMergedMenuBar ); uno::Any a; implts_notifyListeners( frame::LayoutManagerEvents::MERGEDMENUBAR, a ); return true; } void SAL_CALL LayoutManager::removeMergedMenuBar() throw (uno::RuntimeException, std::exception) { implts_resetInplaceMenuBar(); } awt::Rectangle SAL_CALL LayoutManager::getCurrentDockingArea() throw ( RuntimeException, std::exception ) { SolarMutexGuard g; return m_aDockingArea; } Reference< XDockingAreaAcceptor > SAL_CALL LayoutManager::getDockingAreaAcceptor() throw (uno::RuntimeException, std::exception) { SolarMutexGuard g; return m_xDockingAreaAcceptor; } void SAL_CALL LayoutManager::setDockingAreaAcceptor( const Reference< ui::XDockingAreaAcceptor >& xDockingAreaAcceptor ) throw ( RuntimeException, std::exception ) { /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; if (( m_xDockingAreaAcceptor == xDockingAreaAcceptor ) || !m_xFrame.is() ) return; // IMPORTANT: Be sure to stop layout timer if don't have a docking area acceptor! if ( !xDockingAreaAcceptor.is() ) m_aAsyncLayoutTimer.Stop(); bool bAutomaticToolbars( m_bAutomaticToolbars ); std::vector< Reference< awt::XWindow > > oldDockingAreaWindows; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; if ( !xDockingAreaAcceptor.is() ) m_aAsyncLayoutTimer.Stop(); // Remove listener from old docking area acceptor if ( m_xDockingAreaAcceptor.is() ) { Reference< awt::XWindow > xWindow( m_xDockingAreaAcceptor->getContainerWindow() ); if ( xWindow.is() && ( m_xFrame->getContainerWindow() != m_xContainerWindow || !xDockingAreaAcceptor.is() ) ) xWindow->removeWindowListener( Reference< awt::XWindowListener >( static_cast< OWeakObject * >( this ), UNO_QUERY )); m_aDockingArea = awt::Rectangle(); if ( pToolbarManager ) pToolbarManager->resetDockingArea(); vcl::Window* pContainerWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pContainerWindow ) pContainerWindow->RemoveChildEventListener( LINK( this, LayoutManager, WindowEventListener ) ); } Reference< ui::XDockingAreaAcceptor > xOldDockingAreaAcceptor( m_xDockingAreaAcceptor ); m_xDockingAreaAcceptor = xDockingAreaAcceptor; if ( m_xDockingAreaAcceptor.is() ) { m_aDockingArea = awt::Rectangle(); m_xContainerWindow = m_xDockingAreaAcceptor->getContainerWindow(); m_xContainerTopWindow.set( m_xContainerWindow, UNO_QUERY ); m_xContainerWindow->addWindowListener( Reference< awt::XWindowListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); // we always must keep a connection to the window of our frame for resize events if ( m_xContainerWindow != m_xFrame->getContainerWindow() ) m_xFrame->getContainerWindow()->addWindowListener( Reference< awt::XWindowListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); // #i37884# set initial visibility state - in the plugin case the container window is already shown // and we get no notification anymore { SolarMutexGuard aGuard; vcl::Window* pContainerWindow = VCLUnoHelper::GetWindow( m_xContainerWindow ); if( pContainerWindow ) m_bParentWindowVisible = pContainerWindow->IsVisible(); } uno::Reference< awt::XWindowPeer > xParent( m_xContainerWindow, UNO_QUERY ); } aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( xDockingAreaAcceptor.is() ) { SolarMutexGuard aGuard; // Add layout manager as listener to get notifications about toolbar button activities vcl::Window* pContainerWindow = VCLUnoHelper::GetWindow( m_xContainerWindow ); if ( pContainerWindow ) pContainerWindow->AddChildEventListener( LINK( this, LayoutManager, WindowEventListener ) ); // We have now a new container window, reparent all child windows! implts_reparentChildWindows(); } else implts_destroyElements(); // remove all elements if ( !oldDockingAreaWindows.empty() ) { // Reset docking area size for our old docking area acceptor awt::Rectangle aEmptyRect; xOldDockingAreaAcceptor->setDockingAreaSpace( aEmptyRect ); } if ( pToolbarManager && xDockingAreaAcceptor.is() ) { if ( bAutomaticToolbars ) { lock(); pToolbarManager->createStaticToolbars(); unlock(); } implts_doLayout( true, false ); } } void LayoutManager::implts_reparentChildWindows() { SolarMutexResettableGuard aWriteLock; UIElement aStatusBarElement = m_aStatusBarElement; uno::Reference< awt::XWindow > xContainerWindow = m_xContainerWindow; aWriteLock.clear(); uno::Reference< awt::XWindow > xStatusBarWindow; if ( aStatusBarElement.m_xUIElement.is() ) { try { xStatusBarWindow.set( aStatusBarElement.m_xUIElement->getRealInterface(), UNO_QUERY ); } catch (const RuntimeException&) { throw; } catch (const Exception&) { } } if ( xStatusBarWindow.is() ) { SolarMutexGuard aGuard; vcl::Window* pContainerWindow = VCLUnoHelper::GetWindow( xContainerWindow ); vcl::Window* pWindow = VCLUnoHelper::GetWindow( xStatusBarWindow ); if ( pWindow && pContainerWindow ) pWindow->SetParent( pContainerWindow ); } implts_resetMenuBar(); aWriteLock.reset(); ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; if ( pToolbarManager ) pToolbarManager->setParentWindow( uno::Reference< awt::XWindowPeer >( xContainerWindow, uno::UNO_QUERY )); aWriteLock.clear(); } uno::Reference< ui::XUIElement > LayoutManager::implts_createDockingWindow( const OUString& aElementName ) { Reference< XUIElement > xUIElement = implts_createElement( aElementName ); return xUIElement; } IMPL_LINK( LayoutManager, WindowEventListener, VclWindowEvent&, rEvent, void ) { vcl::Window* pWindow = rEvent.GetWindow(); if ( pWindow && pWindow->GetType() == WINDOW_TOOLBOX ) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager( m_pToolbarManager ); aReadLock.clear(); if ( pToolbarManager ) pToolbarManager->childWindowEvent( &rEvent ); } } void SAL_CALL LayoutManager::createElement( const OUString& aName ) throw (RuntimeException, std::exception) { SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::createElement" ); SolarMutexClearableGuard aReadLock; Reference< XFrame > xFrame = m_xFrame; Reference< XURLTransformer > xURLTransformer = m_xURLTransformer; bool bInPlaceMenu = m_bInplaceMenuSet; aReadLock.clear(); if ( !xFrame.is() ) return; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; bool bMustBeLayouted( false ); bool bNotify( false ); bool bPreviewFrame; if (m_pToolbarManager) // Assumes that we created the ToolbarLayoutManager with our frame, if // not then we're somewhat fouled up ... bPreviewFrame = m_pToolbarManager->isPreviewFrame(); else { Reference< XModel > xModel( impl_getModelFromFrame( xFrame ) ); bPreviewFrame = implts_isPreviewModel( xModel ); } if ( m_xContainerWindow.is() && !bPreviewFrame ) // no UI elements on preview frames { OUString aElementType; OUString aElementName; parseResourceURL( aName, aElementType, aElementName ); if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR ) && m_pToolbarManager != nullptr ) { bNotify = m_pToolbarManager->createToolbar( aName ); bMustBeLayouted = m_pToolbarManager->isLayoutDirty(); } else if ( aElementType.equalsIgnoreAsciiCase("menubar") && aElementName.equalsIgnoreAsciiCase("menubar") ) { // #i38743# don't create a menubar if frame isn't top if ( !bInPlaceMenu && !m_xMenuBar.is() && implts_isFrameOrWindowTop( xFrame )) { m_xMenuBar = implts_createElement( aName ); if ( m_xMenuBar.is() ) { SolarMutexGuard aGuard; SystemWindow* pSysWindow = getTopSystemWindow( m_xContainerWindow ); if ( pSysWindow ) { Reference< awt::XMenuBar > xMenuBar; Reference< XPropertySet > xPropSet( m_xMenuBar, UNO_QUERY ); if ( xPropSet.is() ) { try { xPropSet->getPropertyValue("XMenuBar") >>= xMenuBar; } catch (const beans::UnknownPropertyException&) { } catch (const lang::WrappedTargetException&) { } } if ( xMenuBar.is() ) { VCLXMenu* pAwtMenuBar = VCLXMenu::GetImplementation( xMenuBar ); if ( pAwtMenuBar ) { MenuBar* pMenuBar = static_cast(pAwtMenuBar->GetMenu()); if ( pMenuBar ) { pSysWindow->SetMenuBar(pMenuBar); pMenuBar->SetDisplayable( m_bMenuVisible ); if ( m_bMenuVisible ) bNotify = true; implts_updateMenuBarClose(); } } } } } } aWriteLock.clear(); } else if ( aElementType.equalsIgnoreAsciiCase("statusbar") && ( implts_isFrameOrWindowTop(xFrame) || implts_isEmbeddedLayoutManager() )) { implts_createStatusBar( aName ); bNotify = true; } else if ( aElementType.equalsIgnoreAsciiCase("progressbar") && aElementName.equalsIgnoreAsciiCase("progressbar") && implts_isFrameOrWindowTop(xFrame) ) { implts_createProgressBar(); bNotify = true; } else if ( aElementType.equalsIgnoreAsciiCase("dockingwindow")) { // Add layout manager as listener for docking and other window events uno::Reference< uno::XInterface > xThis( static_cast< OWeakObject* >(this), uno::UNO_QUERY ); uno::Reference< ui::XUIElement > xUIElement( implts_createDockingWindow( aName )); if ( xUIElement.is() ) { impl_addWindowListeners( xThis, xUIElement ); } // The docking window is created by a factory method located in the sfx2 library. // CreateDockingWindow( xFrame, aElementName ); } } if ( bMustBeLayouted ) implts_doLayout_notify( true ); if ( bNotify ) { // UI element is invisible - provide information to listeners implts_notifyListeners( frame::LayoutManagerEvents::UIELEMENT_VISIBLE, uno::makeAny( aName ) ); } } void SAL_CALL LayoutManager::destroyElement( const OUString& aName ) throw (RuntimeException, std::exception) { SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::destroyElement" ); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; bool bMustBeLayouted( false ); bool bNotify( false ); OUString aElementType; OUString aElementName; Reference< XComponent > xComponent; parseResourceURL( aName, aElementType, aElementName ); if ( aElementType.equalsIgnoreAsciiCase("menubar") && aElementName.equalsIgnoreAsciiCase("menubar") ) { if ( !m_bInplaceMenuSet ) { impl_clearUpMenuBar(); m_xMenuBar.clear(); bNotify = true; } } else if (( aElementType.equalsIgnoreAsciiCase("statusbar") && aElementName.equalsIgnoreAsciiCase("statusbar") ) || ( m_aStatusBarElement.m_aName == aName )) { aWriteLock.clear(); implts_destroyStatusBar(); bMustBeLayouted = true; bNotify = true; } else if ( aElementType.equalsIgnoreAsciiCase("progressbar") && aElementName.equalsIgnoreAsciiCase("progressbar") ) { aWriteLock.clear(); implts_createProgressBar(); bMustBeLayouted = true; bNotify = true; } else if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR ) && m_pToolbarManager != nullptr ) { aWriteLock.clear(); bNotify = m_pToolbarManager->destroyToolbar( aName ); bMustBeLayouted = m_pToolbarManager->isLayoutDirty(); } else if ( aElementType.equalsIgnoreAsciiCase("dockingwindow")) { uno::Reference< frame::XFrame > xFrame( m_xFrame ); uno::Reference< XComponentContext > xContext( m_xContext ); aWriteLock.clear(); impl_setDockingWindowVisibility( xContext, xFrame, aElementName, false ); bMustBeLayouted = false; bNotify = false; } aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( bMustBeLayouted ) doLayout(); if ( bNotify ) implts_notifyListeners( frame::LayoutManagerEvents::UIELEMENT_INVISIBLE, uno::makeAny( aName ) ); } sal_Bool SAL_CALL LayoutManager::requestElement( const OUString& rResourceURL ) throw (uno::RuntimeException, std::exception) { bool bResult( false ); bool bNotify( false ); OUString aElementType; OUString aElementName; parseResourceURL( rResourceURL, aElementType, aElementName ); SolarMutexClearableGuard aWriteLock; OString aResName = OUStringToOString( aElementName, RTL_TEXTENCODING_ASCII_US ); SAL_INFO( "fwk", "framework (cd100003) Element " << aResName.getStr() << " requested." ); if (( aElementType.equalsIgnoreAsciiCase("statusbar") && aElementName.equalsIgnoreAsciiCase("statusbar") ) || ( m_aStatusBarElement.m_aName == rResourceURL )) { implts_readStatusBarState( rResourceURL ); if ( m_aStatusBarElement.m_bVisible && !m_aStatusBarElement.m_bMasterHide ) { aWriteLock.clear(); createElement( rResourceURL ); // There are some situation where we are not able to create an element. // Therefore we have to check the reference before further action. // See #i70019# uno::Reference< ui::XUIElement > xUIElement( m_aStatusBarElement.m_xUIElement ); if ( xUIElement.is() ) { // we need VCL here to pass special flags to Show() SolarMutexGuard aGuard; Reference< awt::XWindow > xWindow( xUIElement->getRealInterface(), UNO_QUERY ); vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow ) { pWindow->Show( true, ShowFlags::NoFocusChange | ShowFlags::NoActivate ); bResult = true; bNotify = true; } } } } else if ( aElementType.equalsIgnoreAsciiCase("progressbar") && aElementName.equalsIgnoreAsciiCase("progressbar") ) { aWriteLock.clear(); implts_showProgressBar(); bResult = true; bNotify = true; } else if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR ) && m_bVisible ) { bool bComponentAttached( !m_aModuleIdentifier.isEmpty() ); ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aWriteLock.clear(); if ( pToolbarManager && bComponentAttached ) { bNotify = pToolbarManager->requestToolbar( rResourceURL ); } } else if ( aElementType.equalsIgnoreAsciiCase("dockingwindow")) { uno::Reference< frame::XFrame > xFrame( m_xFrame ); aWriteLock.clear(); CreateDockingWindow( xFrame, aElementName ); } if ( bNotify ) implts_notifyListeners( frame::LayoutManagerEvents::UIELEMENT_VISIBLE, uno::makeAny( rResourceURL ) ); return bResult; } Reference< XUIElement > SAL_CALL LayoutManager::getElement( const OUString& aName ) throw (RuntimeException, std::exception) { Reference< XUIElement > xUIElement = implts_findElement( aName ); if ( !xUIElement.is() ) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager( m_pToolbarManager ); aReadLock.clear(); if ( pToolbarManager ) xUIElement = pToolbarManager->getToolbar( aName ); } return xUIElement; } Sequence< Reference< ui::XUIElement > > SAL_CALL LayoutManager::getElements() throw (uno::RuntimeException, std::exception) { SolarMutexClearableGuard aReadLock; uno::Reference< ui::XUIElement > xMenuBar( m_xMenuBar ); uno::Reference< ui::XUIElement > xStatusBar( m_aStatusBarElement.m_xUIElement ); ToolbarLayoutManager* pToolbarManager( m_pToolbarManager ); aReadLock.clear(); Sequence< Reference< ui::XUIElement > > aSeq; if ( pToolbarManager ) aSeq = pToolbarManager->getToolbars(); sal_Int32 nSize = aSeq.getLength(); sal_Int32 nMenuBarIndex(-1); sal_Int32 nStatusBarIndex(-1); if ( xMenuBar.is() ) { nMenuBarIndex = nSize; ++nSize; } if ( xStatusBar.is() ) { nStatusBarIndex = nSize; ++nSize; } aSeq.realloc(nSize); if ( nMenuBarIndex >= 0 ) aSeq[nMenuBarIndex] = xMenuBar; if ( nStatusBarIndex >= 0 ) aSeq[nStatusBarIndex] = xStatusBar; return aSeq; } sal_Bool SAL_CALL LayoutManager::showElement( const OUString& aName ) throw (RuntimeException, std::exception) { SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::showElement" ); bool bResult( false ); bool bNotify( false ); bool bMustLayout( false ); OUString aElementType; OUString aElementName; parseResourceURL( aName, aElementType, aElementName ); OString aResName = OUStringToOString( aElementName, RTL_TEXTENCODING_ASCII_US ); SAL_INFO( "fwk", "framework (cd100003) Element " << aResName.getStr() ); if ( aElementType.equalsIgnoreAsciiCase("menubar") && aElementName.equalsIgnoreAsciiCase("menubar") ) { SolarMutexClearableGuard aWriteLock; m_bMenuVisible = true; aWriteLock.clear(); bResult = implts_resetMenuBar(); bNotify = bResult; } else if (( aElementType.equalsIgnoreAsciiCase("statusbar") && aElementName.equalsIgnoreAsciiCase("statusbar") ) || ( m_aStatusBarElement.m_aName == aName )) { SolarMutexClearableGuard aWriteLock; if ( m_aStatusBarElement.m_xUIElement.is() && !m_aStatusBarElement.m_bMasterHide && implts_showStatusBar( true )) { aWriteLock.clear(); implts_writeWindowStateData( STATUS_BAR_ALIAS, m_aStatusBarElement ); bMustLayout = true; bResult = true; bNotify = true; } } else if ( aElementType.equalsIgnoreAsciiCase("progressbar") && aElementName.equalsIgnoreAsciiCase("progressbar") ) { bNotify = bResult = implts_showProgressBar(); } else if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) { bNotify = pToolbarManager->showToolbar( aName ); bMustLayout = pToolbarManager->isLayoutDirty(); } } else if ( aElementType.equalsIgnoreAsciiCase("dockingwindow")) { SolarMutexClearableGuard aReadGuard; uno::Reference< frame::XFrame > xFrame( m_xFrame ); uno::Reference< XComponentContext > xContext( m_xContext ); aReadGuard.clear(); impl_setDockingWindowVisibility( xContext, xFrame, aElementName, true ); } if ( bMustLayout ) doLayout(); if ( bNotify ) implts_notifyListeners( frame::LayoutManagerEvents::UIELEMENT_VISIBLE, uno::makeAny( aName ) ); return bResult; } sal_Bool SAL_CALL LayoutManager::hideElement( const OUString& aName ) throw (RuntimeException, std::exception) { SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::hideElement" ); bool bNotify( false ); bool bMustLayout( false ); OUString aElementType; OUString aElementName; parseResourceURL( aName, aElementType, aElementName ); OString aResName = OUStringToOString( aElementName, RTL_TEXTENCODING_ASCII_US ); SAL_INFO( "fwk", "framework (cd100003) Element " << aResName.getStr() ); if ( aElementType.equalsIgnoreAsciiCase("menubar") && aElementName.equalsIgnoreAsciiCase("menubar") ) { SolarMutexGuard g; if ( m_xContainerWindow.is() ) { m_bMenuVisible = false; SolarMutexGuard aGuard; SystemWindow* pSysWindow = getTopSystemWindow( m_xContainerWindow ); if ( pSysWindow ) { MenuBar* pMenuBar = pSysWindow->GetMenuBar(); if ( pMenuBar ) { pMenuBar->SetDisplayable( false ); bNotify = true; } } } } else if (( aElementType.equalsIgnoreAsciiCase("statusbar") && aElementName.equalsIgnoreAsciiCase("statusbar") ) || ( m_aStatusBarElement.m_aName == aName )) { SolarMutexGuard g; if ( m_aStatusBarElement.m_xUIElement.is() && !m_aStatusBarElement.m_bMasterHide && implts_hideStatusBar( true )) { implts_writeWindowStateData( STATUS_BAR_ALIAS, m_aStatusBarElement ); bMustLayout = true; bNotify = true; } } else if ( aElementType.equalsIgnoreAsciiCase("progressbar") && aElementName.equalsIgnoreAsciiCase("progressbar") ) { bNotify = implts_hideProgressBar(); } else if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) { bNotify = pToolbarManager->hideToolbar( aName ); bMustLayout = pToolbarManager->isLayoutDirty(); } } else if ( aElementType.equalsIgnoreAsciiCase("dockingwindow")) { SolarMutexClearableGuard aReadGuard; uno::Reference< frame::XFrame > xFrame( m_xFrame ); uno::Reference< XComponentContext > xContext( m_xContext ); aReadGuard.clear(); impl_setDockingWindowVisibility( xContext, xFrame, aElementName, false ); } if ( bMustLayout ) doLayout(); if ( bNotify ) implts_notifyListeners( frame::LayoutManagerEvents::UIELEMENT_INVISIBLE, uno::makeAny( aName ) ); return false; } sal_Bool SAL_CALL LayoutManager::dockWindow( const OUString& aName, DockingArea DockingArea, const awt::Point& Pos ) throw (RuntimeException, std::exception) { OUString aElementType; OUString aElementName; parseResourceURL( aName, aElementType, aElementName ); if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) { pToolbarManager->dockToolbar( aName, DockingArea, Pos ); if ( pToolbarManager->isLayoutDirty() ) doLayout(); } } return false; } sal_Bool SAL_CALL LayoutManager::dockAllWindows( ::sal_Int16 /*nElementType*/ ) throw (uno::RuntimeException, std::exception) { SolarMutexClearableGuard aReadLock; bool bResult( false ); ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) { bResult = pToolbarManager->dockAllToolbars(); if ( pToolbarManager->isLayoutDirty() ) doLayout(); } return bResult; } sal_Bool SAL_CALL LayoutManager::floatWindow( const OUString& aName ) throw (RuntimeException, std::exception) { bool bResult( false ); if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) { bResult = pToolbarManager->floatToolbar( aName ); if ( pToolbarManager->isLayoutDirty() ) doLayout(); } } return bResult; } sal_Bool SAL_CALL LayoutManager::lockWindow( const OUString& aName ) throw (uno::RuntimeException, std::exception) { bool bResult( false ); if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) { bResult = pToolbarManager->lockToolbar( aName ); if ( pToolbarManager->isLayoutDirty() ) doLayout(); } } return bResult; } sal_Bool SAL_CALL LayoutManager::unlockWindow( const OUString& aName ) throw (uno::RuntimeException, std::exception) { bool bResult( false ); if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) { bResult = pToolbarManager->unlockToolbar( aName ); if ( pToolbarManager->isLayoutDirty() ) doLayout(); } } return bResult; } void SAL_CALL LayoutManager::setElementSize( const OUString& aName, const awt::Size& aSize ) throw (RuntimeException, std::exception) { if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) { pToolbarManager->setToolbarSize( aName, aSize ); if ( pToolbarManager->isLayoutDirty() ) doLayout(); } } } void SAL_CALL LayoutManager::setElementPos( const OUString& aName, const awt::Point& aPos ) throw (RuntimeException, std::exception) { if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager( m_pToolbarManager ); aReadLock.clear(); if ( pToolbarManager ) { pToolbarManager->setToolbarPos( aName, aPos ); if ( pToolbarManager->isLayoutDirty() ) doLayout(); } } } void SAL_CALL LayoutManager::setElementPosSize( const OUString& aName, const awt::Point& aPos, const awt::Size& aSize ) throw (RuntimeException, std::exception) { if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager( m_pToolbarManager ); aReadLock.clear(); if ( pToolbarManager ) { pToolbarManager->setToolbarPosSize( aName, aPos, aSize ); if ( pToolbarManager->isLayoutDirty() ) doLayout(); } } } sal_Bool SAL_CALL LayoutManager::isElementVisible( const OUString& aName ) throw (RuntimeException, std::exception) { OUString aElementType; OUString aElementName; parseResourceURL( aName, aElementType, aElementName ); if ( aElementType.equalsIgnoreAsciiCase("menubar") && aElementName.equalsIgnoreAsciiCase("menubar") ) { SolarMutexResettableGuard aReadLock; if ( m_xContainerWindow.is() ) { aReadLock.clear(); SolarMutexGuard aGuard; SystemWindow* pSysWindow = getTopSystemWindow( m_xContainerWindow ); if ( pSysWindow ) { MenuBar* pMenuBar = pSysWindow->GetMenuBar(); if ( pMenuBar && pMenuBar->IsDisplayable() ) return true; } else { aReadLock.reset(); return m_bMenuVisible; } } } else if (( aElementType.equalsIgnoreAsciiCase("statusbar") && aElementName.equalsIgnoreAsciiCase("statusbar") ) || ( m_aStatusBarElement.m_aName == aName )) { if ( m_aStatusBarElement.m_xUIElement.is() ) { Reference< awt::XWindow > xWindow( m_aStatusBarElement.m_xUIElement->getRealInterface(), UNO_QUERY ); if ( xWindow.is() ) { SolarMutexGuard g; vcl::Window* pWindow = VCLUnoHelper::GetWindow( xWindow ); if ( pWindow && pWindow->IsVisible() ) return true; else return false; } } } else if ( aElementType.equalsIgnoreAsciiCase("progressbar") && aElementName.equalsIgnoreAsciiCase("progressbar") ) { if ( m_aProgressBarElement.m_xUIElement.is() ) return m_aProgressBarElement.m_bVisible; } else if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) return pToolbarManager->isToolbarVisible( aName ); } else if ( aElementType.equalsIgnoreAsciiCase("dockingwindow")) { SolarMutexClearableGuard aReadGuard; uno::Reference< frame::XFrame > xFrame( m_xFrame ); aReadGuard.clear(); return IsDockingWindowVisible( xFrame, aElementName ); } return false; } sal_Bool SAL_CALL LayoutManager::isElementFloating( const OUString& aName ) throw (RuntimeException, std::exception) { if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) return pToolbarManager->isToolbarFloating( aName ); } return false; } sal_Bool SAL_CALL LayoutManager::isElementDocked( const OUString& aName ) throw (RuntimeException, std::exception) { if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) return pToolbarManager->isToolbarDocked( aName ); } return false; } sal_Bool SAL_CALL LayoutManager::isElementLocked( const OUString& aName ) throw (uno::RuntimeException, std::exception) { if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) return pToolbarManager->isToolbarLocked( aName ); } return false; } awt::Size SAL_CALL LayoutManager::getElementSize( const OUString& aName ) throw (RuntimeException, std::exception) { if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) return pToolbarManager->getToolbarSize( aName ); } return awt::Size(); } awt::Point SAL_CALL LayoutManager::getElementPos( const OUString& aName ) throw (RuntimeException, std::exception) { if ( getElementTypeFromResourceURL( aName ).equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( pToolbarManager ) return pToolbarManager->getToolbarPos( aName ); } return awt::Point(); } void SAL_CALL LayoutManager::lock() throw (RuntimeException, std::exception) { implts_lock(); SolarMutexClearableGuard aReadLock; sal_Int32 nLockCount( m_nLockCount ); aReadLock.clear(); SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::lock lockCount=" << nLockCount ); #ifdef DBG_UTIL OStringBuffer aStr("LayoutManager::lock "); aStr.append(reinterpret_cast(this)); aStr.append(" - "); aStr.append(nLockCount); SAL_INFO( "fwk", "" << aStr.getStr()); #endif Any a( nLockCount ); implts_notifyListeners( frame::LayoutManagerEvents::LOCK, a ); } void SAL_CALL LayoutManager::unlock() throw (RuntimeException, std::exception) { bool bDoLayout( implts_unlock() ); SolarMutexClearableGuard aReadLock; sal_Int32 nLockCount( m_nLockCount ); aReadLock.clear(); SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::unlock lockCount=" << nLockCount ); #ifdef DBG_UTIL OStringBuffer aStr("LayoutManager::unlock "); aStr.append(reinterpret_cast(this)); aStr.append(" - "); aStr.append(nLockCount); SAL_INFO( "fwk", "" << aStr.getStr()); #endif // conform to documentation: unlock with lock count == 0 means force a layout SolarMutexClearableGuard aWriteLock; if ( bDoLayout ) m_aAsyncLayoutTimer.Stop(); aWriteLock.clear(); Any a( nLockCount ); implts_notifyListeners( frame::LayoutManagerEvents::UNLOCK, a ); if ( bDoLayout ) implts_doLayout_notify( true ); } void SAL_CALL LayoutManager::doLayout() throw (RuntimeException, std::exception) { implts_doLayout_notify( true ); } // ILayoutNotifications void LayoutManager::requestLayout() { doLayout(); } void LayoutManager::implts_doLayout_notify( bool bOuterResize ) { bool bLayouted = implts_doLayout( false, bOuterResize ); if ( bLayouted ) implts_notifyListeners( frame::LayoutManagerEvents::LAYOUT, Any() ); } bool LayoutManager::implts_doLayout( bool bForceRequestBorderSpace, bool bOuterResize ) { SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::implts_doLayout" ); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aReadLock; if ( !m_xFrame.is() || !m_bParentWindowVisible ) return false; bool bPreserveContentSize( m_bPreserveContentSize ); bool bMustDoLayout( m_bMustDoLayout ); bool bNoLock = ( m_nLockCount == 0 ); awt::Rectangle aCurrBorderSpace( m_aDockingArea ); Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); Reference< awt::XTopWindow2 > xContainerTopWindow( m_xContainerTopWindow ); Reference< awt::XWindow > xComponentWindow; try { xComponentWindow = m_xFrame->getComponentWindow(); } catch (css::lang::DisposedException &) { // There can be a race between one thread calling Frame::dispose // (framework/source/services/frame.cxx) -> Frame::disableLayoutManager // -> LayoutManager::attachFrame(null) setting m_xFrame to null, and // the main thread firing the timer-triggered // LayoutManager::AsyncLayoutHdl -> LayoutManager::implts_doLayout and // calling into the in-dispose m_xFrame here, so silently ignore a // DisposedException here: return false; } Reference< XDockingAreaAcceptor > xDockingAreaAcceptor( m_xDockingAreaAcceptor ); aReadLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ bool bLayouted( false ); if ( bNoLock && xDockingAreaAcceptor.is() && xContainerWindow.is() && xComponentWindow.is() ) { bLayouted = true; SolarMutexResettableGuard aWriteGuard; m_bDoLayout = true; aWriteGuard.clear(); awt::Rectangle aDockSpace( implts_calcDockingAreaSizes() ); awt::Rectangle aBorderSpace( aDockSpace ); bool bGotRequestedBorderSpace( true ); // We have to add the height of a possible status bar aBorderSpace.Height += implts_getStatusBarSize().Height(); if ( !equalRectangles( aBorderSpace, aCurrBorderSpace ) || bForceRequestBorderSpace || bMustDoLayout ) { // we always resize the content window (instead of the complete container window) if we're not set up // to (attempt to) preserve the content window's size if ( bOuterResize && !bPreserveContentSize ) bOuterResize = false; // maximized windows can resized their content window only, not their container window if ( bOuterResize && xContainerTopWindow.is() && xContainerTopWindow->getIsMaximized() ) bOuterResize = false; // if the component window does not have a size (yet), then we can't use it to calc the container // window size awt::Rectangle aComponentRect = xComponentWindow->getPosSize(); if ( bOuterResize && ( aComponentRect.Width == 0 ) && ( aComponentRect.Height == 0 ) ) bOuterResize = false; bGotRequestedBorderSpace = false; if ( bOuterResize ) { Reference< awt::XDevice > xDevice( xContainerWindow, uno::UNO_QUERY ); awt::DeviceInfo aContainerInfo = xDevice->getInfo(); awt::Size aRequestedSize( aComponentRect.Width + aContainerInfo.LeftInset + aContainerInfo.RightInset + aBorderSpace.X + aBorderSpace.Width, aComponentRect.Height + aContainerInfo.TopInset + aContainerInfo.BottomInset + aBorderSpace.Y + aBorderSpace.Height ); awt::Point aComponentPos( aBorderSpace.X, aBorderSpace.Y ); bGotRequestedBorderSpace = implts_resizeContainerWindow( aRequestedSize, aComponentPos ); } // if we did not do an container window resize, or it failed, then use the DockingAcceptor as usual if ( !bGotRequestedBorderSpace ) bGotRequestedBorderSpace = xDockingAreaAcceptor->requestDockingAreaSpace( aBorderSpace ); if ( bGotRequestedBorderSpace ) { aWriteGuard.reset(); m_aDockingArea = aBorderSpace; m_bMustDoLayout = false; aWriteGuard.clear(); } } if ( bGotRequestedBorderSpace ) { ::Size aContainerSize; ::Size aStatusBarSize; // Interim solution to let the layout method within the // toolbar layout manager. implts_setOffset( implts_getStatusBarSize().Height() ); if ( m_pToolbarManager ) m_pToolbarManager->setDockingArea( aDockSpace ); // Subtract status bar size from our container output size. Docking area windows // don't contain the status bar! aStatusBarSize = implts_getStatusBarSize(); aContainerSize = implts_getContainerWindowOutputSize(); aContainerSize.Height() -= aStatusBarSize.Height(); if ( m_pToolbarManager ) m_pToolbarManager->doLayout(aContainerSize); // Position the status bar if ( aStatusBarSize.Height() > 0 ) { implts_setStatusBarPosSize( ::Point( 0, std::max(( aContainerSize.Height() ), long( 0 ))), ::Size( aContainerSize.Width(),aStatusBarSize.Height() )); } xDockingAreaAcceptor->setDockingAreaSpace( aBorderSpace ); aWriteGuard.reset(); m_bDoLayout = false; aWriteGuard.clear(); } } return bLayouted; } bool LayoutManager::implts_resizeContainerWindow( const awt::Size& rContainerSize, const awt::Point& rComponentPos ) { SolarMutexClearableGuard aReadLock; Reference< awt::XWindow > xContainerWindow = m_xContainerWindow; Reference< awt::XTopWindow2 > xContainerTopWindow = m_xContainerTopWindow; Reference< awt::XWindow > xComponentWindow = m_xFrame->getComponentWindow(); aReadLock.clear(); // calculate the maximum size we have for the container window sal_Int32 nDisplay = xContainerTopWindow->getDisplay(); Rectangle aWorkArea = Application::GetScreenPosSizePixel( nDisplay ); if (( aWorkArea.GetWidth() > 0 ) && ( aWorkArea.GetHeight() > 0 )) { if (( rContainerSize.Width > aWorkArea.GetWidth() ) || ( rContainerSize.Height > aWorkArea.GetHeight() )) return false; // Strictly, this is not correct. If we have a multi-screen display (css.awt.DisplayAccess.MultiDisplay == true), // the "effective work area" would be much larger than the work area of a single display, since we could in theory // position the container window across multiple screens. // However, this should suffice as a heuristics here ... (nobody really wants to check whether the different screens are // stacked horizontally or vertically, whether their work areas can really be combined, or are separated by non-work-areas, // and the like ... right?) } // resize our container window xContainerWindow->setPosSize( 0, 0, rContainerSize.Width, rContainerSize.Height, awt::PosSize::SIZE ); // position the component window xComponentWindow->setPosSize( rComponentPos.X, rComponentPos.Y, 0, 0, awt::PosSize::POS ); return true; } void SAL_CALL LayoutManager::setVisible( sal_Bool bVisible ) throw (uno::RuntimeException, std::exception) { SolarMutexClearableGuard aWriteLock; bool bWasVisible( m_bVisible ); m_bVisible = bVisible; aWriteLock.clear(); if ( bWasVisible != bool(bVisible) ) implts_setVisibleState( bVisible ); } sal_Bool SAL_CALL LayoutManager::isVisible() throw (uno::RuntimeException, std::exception) { SolarMutexGuard g; return m_bVisible; } ::Size LayoutManager::implts_getStatusBarSize() { SolarMutexClearableGuard aReadLock; bool bStatusBarVisible( isElementVisible( STATUS_BAR_ALIAS )); bool bProgressBarVisible( isElementVisible( PROGRESS_BAR_ALIAS )); bool bVisible( m_bVisible ); Reference< XUIElement > xStatusBar( m_aStatusBarElement.m_xUIElement ); Reference< XUIElement > xProgressBar( m_aProgressBarElement.m_xUIElement ); Reference< awt::XWindow > xWindow; if ( bStatusBarVisible && bVisible && xStatusBar.is() ) xWindow.set( xStatusBar->getRealInterface(), UNO_QUERY ); else if ( xProgressBar.is() && !xStatusBar.is() && bProgressBarVisible ) { ProgressBarWrapper* pWrapper = static_cast(xProgressBar.get()); if ( pWrapper ) xWindow = pWrapper->getStatusBar(); } aReadLock.clear(); if ( xWindow.is() ) { awt::Rectangle aPosSize = xWindow->getPosSize(); return ::Size( aPosSize.Width, aPosSize.Height ); } else return ::Size(); } awt::Rectangle LayoutManager::implts_calcDockingAreaSizes() { SolarMutexClearableGuard aReadLock; Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); Reference< XDockingAreaAcceptor > xDockingAreaAcceptor( m_xDockingAreaAcceptor ); aReadLock.clear(); awt::Rectangle aBorderSpace; if ( m_pToolbarManager && xDockingAreaAcceptor.is() && xContainerWindow.is() ) aBorderSpace = m_pToolbarManager->getDockingArea(); return aBorderSpace; } void LayoutManager::implts_setDockingAreaWindowSizes( const awt::Rectangle& /*rBorderSpace*/ ) { SolarMutexClearableGuard aReadLock; Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); aReadLock.clear(); uno::Reference< awt::XDevice > xDevice( xContainerWindow, uno::UNO_QUERY ); // Convert relativ size to output size. awt::Rectangle aRectangle = xContainerWindow->getPosSize(); awt::DeviceInfo aInfo = xDevice->getInfo(); awt::Size aContainerClientSize = awt::Size( aRectangle.Width - aInfo.LeftInset - aInfo.RightInset, aRectangle.Height - aInfo.TopInset - aInfo.BottomInset ); ::Size aStatusBarSize = implts_getStatusBarSize(); // Position the status bar if ( aStatusBarSize.Height() > 0 ) { implts_setStatusBarPosSize( ::Point( 0, std::max(( aContainerClientSize.Height - aStatusBarSize.Height() ), long( 0 ))), ::Size( aContainerClientSize.Width, aStatusBarSize.Height() )); } } void LayoutManager::implts_updateMenuBarClose() { SolarMutexClearableGuard aWriteLock; bool bShowCloseButton( m_bMenuBarCloseButton ); Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); aWriteLock.clear(); if ( xContainerWindow.is() ) { SolarMutexGuard aGuard; SystemWindow* pSysWindow = getTopSystemWindow( xContainerWindow ); if ( pSysWindow ) { MenuBar* pMenuBar = pSysWindow->GetMenuBar(); if ( pMenuBar ) { // TODO remove link on sal_False ?! pMenuBar->ShowCloseButton(bShowCloseButton); pMenuBar->SetCloseButtonClickHdl(LINK(this, LayoutManager, MenuBarClose)); } } } } bool LayoutManager::implts_resetMenuBar() { /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; bool bMenuVisible( m_bMenuVisible ); Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); MenuBar* pSetMenuBar = nullptr; if ( m_xInplaceMenuBar.is() ) pSetMenuBar = static_cast(m_pInplaceMenuBar->GetMenuBar()); else { MenuBarWrapper* pMenuBarWrapper = static_cast< MenuBarWrapper* >( m_xMenuBar.get() ); if ( pMenuBarWrapper ) pSetMenuBar = static_cast(pMenuBarWrapper->GetMenuBarManager()->GetMenuBar()); } aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexGuard aGuard; SystemWindow* pSysWindow = getTopSystemWindow( xContainerWindow ); if ( pSysWindow && bMenuVisible && pSetMenuBar ) { pSysWindow->SetMenuBar(pSetMenuBar); pSetMenuBar->SetDisplayable( true ); return true; } return false; } IMPL_LINK_NOARG(LayoutManager, MenuBarClose, void*, void) { SolarMutexClearableGuard aReadLock; uno::Reference< frame::XDispatchProvider > xProvider(m_xFrame, uno::UNO_QUERY); uno::Reference< XComponentContext > xContext( m_xContext ); aReadLock.clear(); if ( !xProvider.is()) return; uno::Reference< frame::XDispatchHelper > xDispatcher = frame::DispatchHelper::create( xContext ); xDispatcher->executeDispatch( xProvider, ".uno:CloseWin", "_self", 0, uno::Sequence< beans::PropertyValue >()); } // XLayoutManagerEventBroadcaster void SAL_CALL LayoutManager::addLayoutManagerEventListener( const uno::Reference< frame::XLayoutManagerListener >& xListener ) throw (uno::RuntimeException, std::exception) { m_aListenerContainer.addInterface( cppu::UnoType::get(), xListener ); } void SAL_CALL LayoutManager::removeLayoutManagerEventListener( const uno::Reference< frame::XLayoutManagerListener >& xListener ) throw (uno::RuntimeException, std::exception) { m_aListenerContainer.removeInterface( cppu::UnoType::get(), xListener ); } void LayoutManager::implts_notifyListeners(short nEvent, const uno::Any& rInfoParam) { lang::EventObject aSource( static_cast< ::cppu::OWeakObject*>(this) ); ::cppu::OInterfaceContainerHelper* pContainer = m_aListenerContainer.getContainer( cppu::UnoType::get()); if (pContainer!=nullptr) { ::cppu::OInterfaceIteratorHelper pIterator(*pContainer); while (pIterator.hasMoreElements()) { try { static_cast(pIterator.next())->layoutEvent(aSource, nEvent, rInfoParam); } catch( const uno::RuntimeException& ) { pIterator.remove(); } } } } // XWindowListener void SAL_CALL LayoutManager::windowResized( const awt::WindowEvent& aEvent ) throw( uno::RuntimeException, std::exception ) { SolarMutexGuard g; Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); Reference< XInterface > xIfac( xContainerWindow, UNO_QUERY ); if ( xIfac == aEvent.Source && m_bVisible ) { // We have to call our resize handler at least once synchronously, as some // application modules need this. So we have to check if this is the first // call after the async layout time expired. m_bMustDoLayout = true; if ( !m_aAsyncLayoutTimer.IsActive() ) { const Link& aLink = m_aAsyncLayoutTimer.GetTimeoutHdl(); aLink.Call( &m_aAsyncLayoutTimer ); } if ( m_nLockCount == 0 ) m_aAsyncLayoutTimer.Start(); } else if ( m_xFrame.is() && aEvent.Source == m_xFrame->getContainerWindow() ) { // the container window of my DockingAreaAcceptor is not the same as of my frame // I still have to resize my frames' window as nobody else will do it Reference< awt::XWindow > xComponentWindow( m_xFrame->getComponentWindow() ); if( xComponentWindow.is() ) { uno::Reference< awt::XDevice > xDevice( m_xFrame->getContainerWindow(), uno::UNO_QUERY ); // Convert relativ size to output size. awt::Rectangle aRectangle = m_xFrame->getContainerWindow()->getPosSize(); awt::DeviceInfo aInfo = xDevice->getInfo(); 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, awt::PosSize::POSSIZE ); } } } void SAL_CALL LayoutManager::windowMoved( const awt::WindowEvent& ) throw( uno::RuntimeException, std::exception ) { } void SAL_CALL LayoutManager::windowShown( const lang::EventObject& aEvent ) throw( uno::RuntimeException, std::exception ) { SolarMutexClearableGuard aReadLock; Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); bool bParentWindowVisible( m_bParentWindowVisible ); aReadLock.clear(); Reference< XInterface > xIfac( xContainerWindow, UNO_QUERY ); if ( xIfac == aEvent.Source ) { SolarMutexClearableGuard aWriteLock; m_bParentWindowVisible = true; bool bSetVisible = ( m_bParentWindowVisible != bParentWindowVisible ); aWriteLock.clear(); if ( bSetVisible ) implts_updateUIElementsVisibleState( true ); } } void SAL_CALL LayoutManager::windowHidden( const lang::EventObject& aEvent ) throw( uno::RuntimeException, std::exception ) { SolarMutexClearableGuard aReadLock; Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); bool bParentWindowVisible( m_bParentWindowVisible ); aReadLock.clear(); Reference< XInterface > xIfac( xContainerWindow, UNO_QUERY ); if ( xIfac == aEvent.Source ) { SolarMutexClearableGuard aWriteLock; m_bParentWindowVisible = false; bool bSetInvisible = ( m_bParentWindowVisible != bParentWindowVisible ); aWriteLock.clear(); if ( bSetInvisible ) implts_updateUIElementsVisibleState( false ); } } IMPL_LINK_NOARG(LayoutManager, AsyncLayoutHdl, Timer *, void) { SolarMutexClearableGuard aReadLock; m_aAsyncLayoutTimer.Stop(); if( !m_xContainerWindow.is() ) return; awt::Rectangle aDockingArea( m_aDockingArea ); ::Size aStatusBarSize( implts_getStatusBarSize() ); // Subtract status bar height aDockingArea.Height -= aStatusBarSize.Height(); aReadLock.clear(); implts_setDockingAreaWindowSizes( aDockingArea ); implts_doLayout( true, false ); } // XFrameActionListener void SAL_CALL LayoutManager::frameAction( const FrameActionEvent& aEvent ) throw ( RuntimeException, std::exception ) { if (( aEvent.Action == FrameAction_COMPONENT_ATTACHED ) || ( aEvent.Action == FrameAction_COMPONENT_REATTACHED )) { SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::frameAction (COMPONENT_ATTACHED|REATTACHED)" ); SolarMutexClearableGuard aWriteLock; m_bComponentAttached = true; m_bMustDoLayout = true; aWriteLock.clear(); implts_reset( true ); implts_doLayout( true, false ); implts_doLayout( true, true ); } else if (( aEvent.Action == FrameAction_FRAME_UI_ACTIVATED ) || ( aEvent.Action == FrameAction_FRAME_UI_DEACTIVATING )) { SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::frameAction (FRAME_UI_ACTIVATED|DEACTIVATING)" ); SolarMutexClearableGuard aWriteLock; m_bActive = ( aEvent.Action == FrameAction_FRAME_UI_ACTIVATED ); aWriteLock.clear(); implts_toggleFloatingUIElementsVisibility( aEvent.Action == FrameAction_FRAME_UI_ACTIVATED ); } else if ( aEvent.Action == FrameAction_COMPONENT_DETACHING ) { SAL_INFO( "fwk", "framework (cd100003) ::LayoutManager::frameAction (COMPONENT_DETACHING)" ); SolarMutexClearableGuard aWriteLock; m_bComponentAttached = false; aWriteLock.clear(); implts_reset( false ); } } void SAL_CALL LayoutManager::disposing( const lang::EventObject& rEvent ) throw( RuntimeException, std::exception ) { bool bDisposeAndClear( false ); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aWriteLock; if ( rEvent.Source == Reference< XInterface >( m_xFrame, UNO_QUERY )) { // Our frame gets disposed, release all our references that depends on a working frame reference. setDockingAreaAcceptor( Reference< ui::XDockingAreaAcceptor >() ); // destroy all elements, it's possible that detaching is NOT called! implts_destroyElements(); impl_clearUpMenuBar(); m_xMenuBar.clear(); VclPtr pMenuBar; if (m_pInplaceMenuBar) { pMenuBar = m_pInplaceMenuBar->GetMenuBar(); m_pInplaceMenuBar = nullptr; } if (m_xInplaceMenuBar.is()) { m_xInplaceMenuBar->dispose(); m_xInplaceMenuBar.clear(); } pMenuBar.disposeAndClear(); m_xContainerWindow.clear(); m_xContainerTopWindow.clear(); // forward disposing call to toolbar manager if ( m_pToolbarManager != nullptr ) m_pToolbarManager->disposing(rEvent); if ( m_xModuleCfgMgr.is() ) { try { Reference< XUIConfiguration > xModuleCfgMgr( m_xModuleCfgMgr, UNO_QUERY ); xModuleCfgMgr->removeConfigurationListener( Reference< XUIConfigurationListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); } catch (const Exception&) { } } if ( m_xDocCfgMgr.is() ) { try { Reference< XUIConfiguration > xDocCfgMgr( m_xDocCfgMgr, UNO_QUERY ); xDocCfgMgr->removeConfigurationListener( Reference< XUIConfigurationListener >( static_cast< OWeakObject* >( this ), UNO_QUERY )); } catch (const Exception&) { } } m_xDocCfgMgr.clear(); m_xModuleCfgMgr.clear(); m_xFrame.clear(); delete m_pGlobalSettings; m_pGlobalSettings = nullptr; bDisposeAndClear = true; } else if ( rEvent.Source == Reference< XInterface >( m_xContainerWindow, UNO_QUERY )) { // Our container window gets disposed. Remove all user interface elements. ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; if ( pToolbarManager ) { uno::Reference< awt::XWindowPeer > aEmptyWindowPeer; pToolbarManager->setParentWindow( aEmptyWindowPeer ); } impl_clearUpMenuBar(); m_xMenuBar.clear(); VclPtr pMenuBar; if (m_pInplaceMenuBar) { pMenuBar = m_pInplaceMenuBar->GetMenuBar(); m_pInplaceMenuBar = nullptr; } if (m_xInplaceMenuBar.is()) { m_xInplaceMenuBar->dispose(); m_xInplaceMenuBar.clear(); } pMenuBar.disposeAndClear(); m_xContainerWindow.clear(); m_xContainerTopWindow.clear(); } else if ( rEvent.Source == Reference< XInterface >( m_xDocCfgMgr, UNO_QUERY )) m_xDocCfgMgr.clear(); else if ( rEvent.Source == Reference< XInterface >( m_xModuleCfgMgr , UNO_QUERY )) m_xModuleCfgMgr.clear(); aWriteLock.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ // Send disposing to our listener when we have lost our frame. if ( bDisposeAndClear ) { // Send message to all listener and forget her references. uno::Reference< frame::XLayoutManager > xThis( static_cast< ::cppu::OWeakObject* >(this), uno::UNO_QUERY ); lang::EventObject aEvent( xThis ); m_aListenerContainer.disposeAndClear( aEvent ); } } void SAL_CALL LayoutManager::elementInserted( const ui::ConfigurationEvent& Event ) throw (uno::RuntimeException, std::exception) { SolarMutexClearableGuard aReadLock; Reference< XFrame > xFrame( m_xFrame ); Reference< ui::XUIConfigurationListener > xUICfgListener( m_xToolbarManager ); ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( xFrame.is() ) { OUString aElementType; OUString aElementName; bool bRefreshLayout(false); parseResourceURL( Event.ResourceURL, aElementType, aElementName ); if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { if ( xUICfgListener.is() ) { xUICfgListener->elementInserted( Event ); bRefreshLayout = pToolbarManager->isLayoutDirty(); } } else if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_MENUBAR )) { Reference< XUIElement > xUIElement = implts_findElement( Event.ResourceURL ); Reference< XUIElementSettings > xElementSettings( xUIElement, UNO_QUERY ); if ( xElementSettings.is() ) { OUString aConfigSourcePropName( "ConfigurationSource" ); uno::Reference< XPropertySet > xPropSet( xElementSettings, uno::UNO_QUERY ); if ( xPropSet.is() ) { if ( Event.Source == uno::Reference< uno::XInterface >( m_xDocCfgMgr, uno::UNO_QUERY )) xPropSet->setPropertyValue( aConfigSourcePropName, makeAny( m_xDocCfgMgr )); } xElementSettings->updateSettings(); } } if ( bRefreshLayout ) doLayout(); } } void SAL_CALL LayoutManager::elementRemoved( const ui::ConfigurationEvent& Event ) throw (uno::RuntimeException, std::exception) { SolarMutexClearableGuard aReadLock; Reference< frame::XFrame > xFrame( m_xFrame ); Reference< ui::XUIConfigurationListener > xToolbarManager( m_xToolbarManager ); Reference< awt::XWindow > xContainerWindow( m_xContainerWindow ); Reference< ui::XUIElement > xMenuBar( m_xMenuBar ); Reference< ui::XUIConfigurationManager > xModuleCfgMgr( m_xModuleCfgMgr ); Reference< ui::XUIConfigurationManager > xDocCfgMgr( m_xDocCfgMgr ); ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( xFrame.is() ) { OUString aElementType; OUString aElementName; bool bRefreshLayout(false); parseResourceURL( Event.ResourceURL, aElementType, aElementName ); if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { if ( xToolbarManager.is() ) { xToolbarManager->elementRemoved( Event ); bRefreshLayout = pToolbarManager->isLayoutDirty(); } } else { Reference< XUIElement > xUIElement = implts_findElement( Event.ResourceURL ); Reference< XUIElementSettings > xElementSettings( xUIElement, UNO_QUERY ); if ( xElementSettings.is() ) { bool bNoSettings( false ); OUString aConfigSourcePropName( "ConfigurationSource" ); Reference< XInterface > xElementCfgMgr; Reference< XPropertySet > xPropSet( xElementSettings, UNO_QUERY ); if ( xPropSet.is() ) xPropSet->getPropertyValue( aConfigSourcePropName ) >>= xElementCfgMgr; if ( !xElementCfgMgr.is() ) return; // Check if the same UI configuration manager has changed => check further if ( Event.Source == xElementCfgMgr ) { // Same UI configuration manager where our element has its settings if ( Event.Source == Reference< XInterface >( xDocCfgMgr, UNO_QUERY )) { // document settings removed if ( xModuleCfgMgr->hasSettings( Event.ResourceURL )) { xPropSet->setPropertyValue( aConfigSourcePropName, makeAny( m_xModuleCfgMgr )); xElementSettings->updateSettings(); return; } } bNoSettings = true; } // No settings anymore, element must be destroyed if ( xContainerWindow.is() && bNoSettings ) { if ( aElementType.equalsIgnoreAsciiCase("menubar") && aElementName.equalsIgnoreAsciiCase("menubar") ) { SystemWindow* pSysWindow = getTopSystemWindow( xContainerWindow ); if ( pSysWindow && !m_bInplaceMenuSet ) pSysWindow->SetMenuBar( nullptr ); Reference< XComponent > xComp( xMenuBar, UNO_QUERY ); if ( xComp.is() ) xComp->dispose(); SolarMutexGuard g; m_xMenuBar.clear(); } } } } if ( bRefreshLayout ) doLayout(); } } void SAL_CALL LayoutManager::elementReplaced( const ui::ConfigurationEvent& Event ) throw (uno::RuntimeException, std::exception) { SolarMutexClearableGuard aReadLock; Reference< XFrame > xFrame( m_xFrame ); Reference< ui::XUIConfigurationListener > xToolbarManager( m_xToolbarManager ); ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; aReadLock.clear(); if ( xFrame.is() ) { OUString aElementType; OUString aElementName; bool bRefreshLayout(false); parseResourceURL( Event.ResourceURL, aElementType, aElementName ); if ( aElementType.equalsIgnoreAsciiCase( UIRESOURCETYPE_TOOLBAR )) { if ( xToolbarManager.is() ) { xToolbarManager->elementReplaced( Event ); bRefreshLayout = pToolbarManager->isLayoutDirty(); } } else { Reference< XUIElement > xUIElement = implts_findElement( Event.ResourceURL ); Reference< XUIElementSettings > xElementSettings( xUIElement, UNO_QUERY ); if ( xElementSettings.is() ) { OUString aConfigSourcePropName( "ConfigurationSource" ); Reference< XInterface > xElementCfgMgr; Reference< XPropertySet > xPropSet( xElementSettings, UNO_QUERY ); if ( xPropSet.is() ) xPropSet->getPropertyValue( aConfigSourcePropName ) >>= xElementCfgMgr; if ( !xElementCfgMgr.is() ) return; // Check if the same UI configuration manager has changed => update settings if ( Event.Source == xElementCfgMgr ) xElementSettings->updateSettings(); } } if ( bRefreshLayout ) doLayout(); } } void SAL_CALL LayoutManager::setFastPropertyValue_NoBroadcast( sal_Int32 nHandle, const uno::Any& aValue ) throw( uno::Exception, std::exception ) { if ( nHandle != LAYOUTMANAGER_PROPHANDLE_REFRESHVISIBILITY ) LayoutManager_PBase::setFastPropertyValue_NoBroadcast( nHandle, aValue ); switch( nHandle ) { case LAYOUTMANAGER_PROPHANDLE_MENUBARCLOSER: implts_updateMenuBarClose(); break; case LAYOUTMANAGER_PROPHANDLE_REFRESHVISIBILITY: { bool bValue(false); if (( aValue >>= bValue ) && bValue ) { SolarMutexClearableGuard aReadLock; ToolbarLayoutManager* pToolbarManager = m_pToolbarManager; bool bAutomaticToolbars( m_bAutomaticToolbars ); aReadLock.clear(); if ( pToolbarManager ) pToolbarManager->refreshToolbarsVisibility( bAutomaticToolbars ); } break; } case LAYOUTMANAGER_PROPHANDLE_HIDECURRENTUI: implts_setCurrentUIVisibility( !m_bHideCurrentUI ); break; default: break; } } namespace detail { class InfoHelperBuilder { private: ::cppu::OPropertyArrayHelper *m_pInfoHelper; public: explicit InfoHelperBuilder(const LayoutManager &rManager) { uno::Sequence< beans::Property > aProperties; rManager.describeProperties(aProperties); m_pInfoHelper = new ::cppu::OPropertyArrayHelper(aProperties, true); } ~InfoHelperBuilder() { delete m_pInfoHelper; } InfoHelperBuilder(const InfoHelperBuilder&) = delete; InfoHelperBuilder& operator=(const InfoHelperBuilder&) = delete; ::cppu::OPropertyArrayHelper& getHelper() { return *m_pInfoHelper; } }; } namespace { struct theInfoHelper : public rtl::StaticWithArg< detail::InfoHelperBuilder, LayoutManager, theInfoHelper > { }; } ::cppu::IPropertyArrayHelper& SAL_CALL LayoutManager::getInfoHelper() { return theInfoHelper::get(*this).getHelper(); } uno::Reference< beans::XPropertySetInfo > SAL_CALL LayoutManager::getPropertySetInfo() throw (uno::RuntimeException, std::exception) { static uno::Reference< beans::XPropertySetInfo >* pInfo = nullptr; if( pInfo == nullptr ) { osl::MutexGuard aGuard( osl::Mutex::getGlobalMutex() ); if( pInfo == nullptr ) { static uno::Reference< beans::XPropertySetInfo > xInfo( createPropertySetInfo( getInfoHelper() ) ); pInfo = &xInfo; } } return (*pInfo); } } // namespace framework extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface * SAL_CALL com_sun_star_comp_framework_LayoutManager_get_implementation( css::uno::XComponentContext *context, css::uno::Sequence const &) { return cppu::acquire(new framework::LayoutManager(context)); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */