/* -*- 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 using namespace com::sun::star::uno; using namespace com::sun::star::lang; using namespace com::sun::star::beans; using namespace com::sun::star::util; using namespace com::sun::star::configuration; using namespace com::sun::star::container; using namespace ::com::sun::star::frame; using namespace ::com::sun::star::ui; using namespace framework; namespace { // Zero based indexes, order must be the same as WindowStateMask && CONFIGURATION_PROPERTIES! const sal_Int16 PROPERTY_LOCKED = 0; const sal_Int16 PROPERTY_DOCKED = 1; const sal_Int16 PROPERTY_VISIBLE = 2; const sal_Int16 PROPERTY_CONTEXT = 3; const sal_Int16 PROPERTY_HIDEFROMMENU = 4; const sal_Int16 PROPERTY_NOCLOSE = 5; const sal_Int16 PROPERTY_SOFTCLOSE = 6; const sal_Int16 PROPERTY_CONTEXTACTIVE = 7; const sal_Int16 PROPERTY_DOCKINGAREA = 8; const sal_Int16 PROPERTY_POS = 9; const sal_Int16 PROPERTY_SIZE = 10; const sal_Int16 PROPERTY_UINAME = 11; const sal_Int16 PROPERTY_INTERNALSTATE = 12; const sal_Int16 PROPERTY_STYLE = 13; const sal_Int16 PROPERTY_DOCKPOS = 14; const sal_Int16 PROPERTY_DOCKSIZE = 15; // Order must be the same as WindowStateMask!! constexpr OUString CONFIGURATION_PROPERTIES[] { WINDOWSTATE_PROPERTY_LOCKED, WINDOWSTATE_PROPERTY_DOCKED, WINDOWSTATE_PROPERTY_VISIBLE, WINDOWSTATE_PROPERTY_CONTEXT, WINDOWSTATE_PROPERTY_HIDEFROMENU, WINDOWSTATE_PROPERTY_NOCLOSE, WINDOWSTATE_PROPERTY_SOFTCLOSE, WINDOWSTATE_PROPERTY_CONTEXTACTIVE, WINDOWSTATE_PROPERTY_DOCKINGAREA, WINDOWSTATE_PROPERTY_POS, WINDOWSTATE_PROPERTY_SIZE, WINDOWSTATE_PROPERTY_UINAME, WINDOWSTATE_PROPERTY_INTERNALSTATE, WINDOWSTATE_PROPERTY_STYLE, WINDOWSTATE_PROPERTY_DOCKPOS, WINDOWSTATE_PROPERTY_DOCKSIZE }; // Configuration access class for WindowState supplier implementation class ConfigurationAccess_WindowState : public ::cppu::WeakImplHelper< XNameContainer, XContainerListener > { public: ConfigurationAccess_WindowState( std::u16string_view aWindowStateConfigFile, const Reference< XComponentContext >& rxContext ); virtual ~ConfigurationAccess_WindowState() override; // XNameAccess virtual css::uno::Any SAL_CALL getByName( const OUString& aName ) override; virtual css::uno::Sequence< OUString > SAL_CALL getElementNames() override; virtual sal_Bool SAL_CALL hasByName( const OUString& aName ) override; // XNameContainer virtual void SAL_CALL removeByName( const OUString& sName ) override; virtual void SAL_CALL insertByName( const OUString& sName, const css::uno::Any& aPropertySet ) override; // XNameReplace virtual void SAL_CALL replaceByName( const OUString& sName, const css::uno::Any& aPropertySet ) override; // XElementAccess virtual css::uno::Type SAL_CALL getElementType() override; virtual sal_Bool SAL_CALL hasElements() override; // container.XContainerListener virtual void SAL_CALL elementInserted( const ContainerEvent& aEvent ) override; virtual void SAL_CALL elementRemoved ( const ContainerEvent& aEvent ) override; virtual void SAL_CALL elementReplaced( const ContainerEvent& aEvent ) override; // lang.XEventListener virtual void SAL_CALL disposing( const EventObject& aEvent ) override; protected: enum // WindowStateMask { WINDOWSTATE_MASK_DOCKINGAREA = 256, WINDOWSTATE_MASK_POS = 512, WINDOWSTATE_MASK_SIZE = 1024, WINDOWSTATE_MASK_UINAME = 2048, WINDOWSTATE_MASK_INTERNALSTATE = 4096, WINDOWSTATE_MASK_STYLE = 8192, WINDOWSTATE_MASK_DOCKPOS = 16384, WINDOWSTATE_MASK_DOCKSIZE = 32768 }; // Cache structure. Valid values are described by the eMask member. All other values should not be // provided to outside code! struct WindowStateInfo { WindowStateInfo() : bLocked(false) , bDocked(false) , bVisible(false) , bContext(false) , bHideFromMenu(false) , bNoClose(false) , bSoftClose(false) , bContextActive(false) , aDockingArea(css::ui::DockingArea_DOCKINGAREA_TOP) , aDockPos(0, 0) , aPos(0, 0) , aSize(0, 0) , nInternalState(0) , nStyle(0) , nMask(0) { } bool bLocked : 1, bDocked : 1, bVisible : 1, bContext : 1, bHideFromMenu : 1, bNoClose : 1, bSoftClose : 1, bContextActive : 1; css::ui::DockingArea aDockingArea; css::awt::Point aDockPos; css::awt::Size aDockSize; css::awt::Point aPos; css::awt::Size aSize; OUString aUIName; sal_uInt32 nInternalState; sal_uInt16 nStyle; sal_uInt32 nMask; // see WindowStateMask }; void impl_putPropertiesFromStruct( const WindowStateInfo& rWinStateInfo, Reference< XPropertySet > const & xPropSet ); Any impl_insertCacheAndReturnSequence( const OUString& rResourceURL, Reference< XNameAccess > const & rNameAccess ); WindowStateInfo& impl_insertCacheAndReturnWinState( const OUString& rResourceURL, Reference< XNameAccess > const & rNameAccess ); Any impl_getSequenceFromStruct( const WindowStateInfo& rWinStateInfo ); void impl_fillStructFromSequence( WindowStateInfo& rWinStateInfo, const Sequence< PropertyValue >& rSeq ); Any impl_getWindowStateFromResourceURL( const OUString& rResourceURL ); void impl_initializeConfigAccess(); private: typedef std::unordered_map< OUString, WindowStateInfo > ResourceURLToInfoCache; std::mutex m_aMutex; OUString m_aConfigWindowAccess; Reference< XMultiServiceFactory > m_xConfigProvider; Reference< XNameAccess > m_xConfigAccess; rtl::Reference< WeakContainerListener > m_xConfigListener; ResourceURLToInfoCache m_aResourceURLToInfoCache; bool m_bConfigAccessInitialized : 1, m_bModified : 1; std::vector< OUString > m_aPropArray; }; ConfigurationAccess_WindowState::ConfigurationAccess_WindowState( std::u16string_view aModuleName, const Reference< XComponentContext >& rxContext ) : // Create configuration hierarchical access name m_aConfigWindowAccess( OUString::Concat("/org.openoffice.Office.UI.") + aModuleName + "/UIElements/States"), m_xConfigProvider(theDefaultProvider::get( rxContext )), m_bConfigAccessInitialized( false ), m_bModified( false ) { // Initialize access array with property names. for (const OUString & s : CONFIGURATION_PROPERTIES ) m_aPropArray.push_back(s); } ConfigurationAccess_WindowState::~ConfigurationAccess_WindowState() { // SAFE std::unique_lock g(m_aMutex); Reference< XContainer > xContainer( m_xConfigAccess, UNO_QUERY ); if ( xContainer.is() ) xContainer->removeContainerListener(m_xConfigListener); } // XNameAccess Any SAL_CALL ConfigurationAccess_WindowState::getByName( const OUString& rResourceURL ) { // SAFE std::unique_lock g(m_aMutex); ResourceURLToInfoCache::const_iterator pIter = m_aResourceURLToInfoCache.find( rResourceURL ); if ( pIter != m_aResourceURLToInfoCache.end() ) return impl_getSequenceFromStruct( pIter->second ); else { Any a( impl_getWindowStateFromResourceURL( rResourceURL ) ); if ( a == Any() ) throw NoSuchElementException(); return a; } } Sequence< OUString > SAL_CALL ConfigurationAccess_WindowState::getElementNames() { // SAFE std::unique_lock g(m_aMutex); if ( !m_bConfigAccessInitialized ) { impl_initializeConfigAccess(); m_bConfigAccessInitialized = true; } if ( m_xConfigAccess.is() ) return m_xConfigAccess->getElementNames(); else return Sequence< OUString > (); } sal_Bool SAL_CALL ConfigurationAccess_WindowState::hasByName( const OUString& rResourceURL ) { // SAFE std::unique_lock g(m_aMutex); ResourceURLToInfoCache::const_iterator pIter = m_aResourceURLToInfoCache.find( rResourceURL ); if ( pIter != m_aResourceURLToInfoCache.end() ) return true; else { Any a( impl_getWindowStateFromResourceURL( rResourceURL ) ); if ( a == Any() ) return false; else return true; } } // XElementAccess Type SAL_CALL ConfigurationAccess_WindowState::getElementType() { return cppu::UnoType>::get(); } sal_Bool SAL_CALL ConfigurationAccess_WindowState::hasElements() { // SAFE std::unique_lock g(m_aMutex); if ( !m_bConfigAccessInitialized ) { impl_initializeConfigAccess(); m_bConfigAccessInitialized = true; } if ( m_xConfigAccess.is() ) return m_xConfigAccess->hasElements(); else return false; } // XNameContainer void SAL_CALL ConfigurationAccess_WindowState::removeByName( const OUString& rResourceURL ) { // SAFE std::unique_lock g(m_aMutex); ResourceURLToInfoCache::iterator pIter = m_aResourceURLToInfoCache.find( rResourceURL ); if ( pIter != m_aResourceURLToInfoCache.end() ) m_aResourceURLToInfoCache.erase( pIter ); if ( !m_bConfigAccessInitialized ) { impl_initializeConfigAccess(); m_bConfigAccessInitialized = true; } try { // Remove must be write-through => remove element from configuration Reference< XNameContainer > xNameContainer( m_xConfigAccess, UNO_QUERY ); if ( xNameContainer.is() ) { g.unlock(); xNameContainer->removeByName( rResourceURL ); Reference< XChangesBatch > xFlush( m_xConfigAccess, UNO_QUERY ); if ( xFlush.is() ) xFlush->commitChanges(); } } catch ( const css::lang::WrappedTargetException& ) { } } void SAL_CALL ConfigurationAccess_WindowState::insertByName( const OUString& rResourceURL, const css::uno::Any& aPropertySet ) { // SAFE std::unique_lock g(m_aMutex); Sequence< PropertyValue > aPropSet; if ( !(aPropertySet >>= aPropSet) ) throw IllegalArgumentException(); ResourceURLToInfoCache::const_iterator pIter = m_aResourceURLToInfoCache.find( rResourceURL ); if ( pIter != m_aResourceURLToInfoCache.end() ) throw ElementExistException(); if ( !m_bConfigAccessInitialized ) { impl_initializeConfigAccess(); m_bConfigAccessInitialized = true; } // Try to ask our configuration access if ( !m_xConfigAccess.is() ) return; if ( m_xConfigAccess->hasByName( rResourceURL ) ) throw ElementExistException(); WindowStateInfo aWinStateInfo; impl_fillStructFromSequence( aWinStateInfo, aPropSet ); m_aResourceURLToInfoCache.emplace( rResourceURL, aWinStateInfo ); // insert must be write-through => insert element into configuration Reference< XNameContainer > xNameContainer( m_xConfigAccess, UNO_QUERY ); if ( !xNameContainer.is() ) return; Reference< XSingleServiceFactory > xFactory( m_xConfigAccess, UNO_QUERY ); g.unlock(); try { Reference< XPropertySet > xPropSet( xFactory->createInstance(), UNO_QUERY ); if ( xPropSet.is() ) { Any a; impl_putPropertiesFromStruct( aWinStateInfo, xPropSet ); a <<= xPropSet; xNameContainer->insertByName( rResourceURL, a ); Reference< XChangesBatch > xFlush( xFactory, UNO_QUERY ); if ( xFlush.is() ) xFlush->commitChanges(); } } catch ( const Exception& ) { } } // XNameReplace void SAL_CALL ConfigurationAccess_WindowState::replaceByName( const OUString& rResourceURL, const css::uno::Any& aPropertySet ) { // SAFE std::unique_lock g(m_aMutex); Sequence< PropertyValue > aPropSet; if ( !(aPropertySet >>= aPropSet) ) throw IllegalArgumentException(); ResourceURLToInfoCache::iterator pIter = m_aResourceURLToInfoCache.find( rResourceURL ); if ( pIter != m_aResourceURLToInfoCache.end() ) { WindowStateInfo& rWinStateInfo = pIter->second; impl_fillStructFromSequence( rWinStateInfo, aPropSet ); m_bModified = true; } else { if ( !m_bConfigAccessInitialized ) { impl_initializeConfigAccess(); m_bConfigAccessInitialized = true; } // Try to ask our configuration access Reference< XNameAccess > xNameAccess; Any a( m_xConfigAccess->getByName( rResourceURL )); if ( !(a >>= xNameAccess) ) throw NoSuchElementException(); WindowStateInfo& rWinStateInfo( impl_insertCacheAndReturnWinState( rResourceURL, xNameAccess )); impl_fillStructFromSequence( rWinStateInfo, aPropSet ); m_bModified = true; pIter = m_aResourceURLToInfoCache.find( rResourceURL ); } if ( !(m_bModified && pIter != m_aResourceURLToInfoCache.end()) ) return; Reference< XNameContainer > xNameContainer( m_xConfigAccess, UNO_QUERY ); if ( !xNameContainer.is() ) return; WindowStateInfo aWinStateInfo( pIter->second ); OUString aResourceURL( pIter->first ); m_bModified = false; g.unlock(); try { Reference< XPropertySet > xPropSet; if ( xNameContainer->getByName( aResourceURL ) >>= xPropSet ) { impl_putPropertiesFromStruct( aWinStateInfo, xPropSet ); Reference< XChangesBatch > xFlush( m_xConfigAccess, UNO_QUERY ); if ( xFlush.is() ) xFlush->commitChanges(); } } catch ( const Exception& ) { } } // container.XContainerListener void SAL_CALL ConfigurationAccess_WindowState::elementInserted( const ContainerEvent& ) { // do nothing - next time someone wants to retrieve this node we will find it in the configuration } void SAL_CALL ConfigurationAccess_WindowState::elementRemoved ( const ContainerEvent& ) { } void SAL_CALL ConfigurationAccess_WindowState::elementReplaced( const ContainerEvent& ) { } // lang.XEventListener void SAL_CALL ConfigurationAccess_WindowState::disposing( const EventObject& aEvent ) { // SAFE // remove our reference to the config access std::unique_lock g(m_aMutex); Reference< XInterface > xIfac1( aEvent.Source, UNO_QUERY ); Reference< XInterface > xIfac2( m_xConfigAccess, UNO_QUERY ); if ( xIfac1 == xIfac2 ) m_xConfigAccess.clear(); } // private helper methods Any ConfigurationAccess_WindowState::impl_getSequenceFromStruct( const WindowStateInfo& rWinStateInfo ) { sal_Int32 i( 0 ); sal_Int32 nCount( m_aPropArray.size() ); std::vector< PropertyValue > aPropVec; for ( i = 0; i < nCount; i++ ) { if ( rWinStateInfo.nMask & ( 1 << i )) { // put value into the return sequence PropertyValue pv; pv.Name = m_aPropArray[i]; switch ( i ) { case PROPERTY_LOCKED: pv.Value <<= rWinStateInfo.bLocked; break; case PROPERTY_DOCKED: pv.Value <<= rWinStateInfo.bDocked; break; case PROPERTY_VISIBLE: pv.Value <<= rWinStateInfo.bVisible; break; case PROPERTY_CONTEXT: pv.Value <<= rWinStateInfo.bContext; break; case PROPERTY_HIDEFROMMENU: pv.Value <<= rWinStateInfo.bHideFromMenu; break; case PROPERTY_NOCLOSE: pv.Value <<= rWinStateInfo.bNoClose; break; case PROPERTY_SOFTCLOSE: pv.Value <<= rWinStateInfo.bSoftClose; break; case PROPERTY_CONTEXTACTIVE: pv.Value <<= rWinStateInfo.bContextActive; break; case PROPERTY_DOCKINGAREA: pv.Value <<= rWinStateInfo.aDockingArea; break; case PROPERTY_POS: pv.Value <<= rWinStateInfo.aPos; break; case PROPERTY_SIZE: pv.Value <<= rWinStateInfo.aSize; break; case PROPERTY_UINAME: pv.Value <<= rWinStateInfo.aUIName; break; case PROPERTY_INTERNALSTATE: pv.Value <<= sal_Int32( rWinStateInfo.nInternalState ); break; case PROPERTY_STYLE: pv.Value <<= sal_Int16( rWinStateInfo.nStyle ); break; case PROPERTY_DOCKPOS: pv.Value <<= rWinStateInfo.aDockPos; break; case PROPERTY_DOCKSIZE: pv.Value <<= rWinStateInfo.aDockSize; break; default: assert( false && "Wrong value for ConfigurationAccess_WindowState. Who has forgotten to add this new property!" ); } aPropVec.push_back(pv); } } return Any( comphelper::containerToSequence(aPropVec) ); } Any ConfigurationAccess_WindowState::impl_insertCacheAndReturnSequence( const OUString& rResourceURL, Reference< XNameAccess > const & xNameAccess ) { sal_Int32 nMask( 0 ); sal_Int32 nCount( m_aPropArray.size() ); sal_Int32 i( 0 ); std::vector< PropertyValue > aPropVec; WindowStateInfo aWindowStateInfo; for ( i = 0; i < nCount; i++ ) { try { bool bAddToSeq( false ); Any a( xNameAccess->getByName( m_aPropArray[i] ) ); switch ( i ) { case PROPERTY_LOCKED: case PROPERTY_DOCKED: case PROPERTY_VISIBLE: case PROPERTY_CONTEXT: case PROPERTY_HIDEFROMMENU: case PROPERTY_NOCLOSE: case PROPERTY_SOFTCLOSE: case PROPERTY_CONTEXTACTIVE: { bool bValue; if ( a >>= bValue ) { sal_Int32 nValue( 1 << i ); nMask |= nValue; bAddToSeq = true; switch ( i ) { case PROPERTY_LOCKED: aWindowStateInfo.bLocked = bValue; break; case PROPERTY_DOCKED: aWindowStateInfo.bDocked = bValue; break; case PROPERTY_VISIBLE: aWindowStateInfo.bVisible = bValue; break; case PROPERTY_CONTEXT: aWindowStateInfo.bContext = bValue; break; case PROPERTY_HIDEFROMMENU: aWindowStateInfo.bHideFromMenu = bValue; break; case PROPERTY_NOCLOSE: aWindowStateInfo.bNoClose = bValue; break; case PROPERTY_SOFTCLOSE: aWindowStateInfo.bSoftClose = bValue; break; case PROPERTY_CONTEXTACTIVE: aWindowStateInfo.bContextActive = bValue; break; } } } break; case PROPERTY_DOCKINGAREA: { sal_Int32 nDockingArea = 0; if ( a >>= nDockingArea ) { if (( nDockingArea >= 0 ) && ( nDockingArea <= sal_Int32( DockingArea_DOCKINGAREA_RIGHT ))) { aWindowStateInfo.aDockingArea = static_cast(nDockingArea); nMask |= WINDOWSTATE_MASK_DOCKINGAREA; a <<= aWindowStateInfo.aDockingArea; bAddToSeq = true; } } } break; case PROPERTY_POS: case PROPERTY_DOCKPOS: { OUString aString; if ( a >>= aString ) { sal_Int32 nToken( 0 ); std::u16string_view aXStr = o3tl::getToken(aString, 0, ',', nToken ); if ( nToken > 0 ) { css::awt::Point aPos; aPos.X = o3tl::toInt32(aXStr); aPos.Y = o3tl::toInt32(o3tl::getToken(aString, 0, ',', nToken )); if ( i == PROPERTY_POS ) { aWindowStateInfo.aPos = aPos; nMask |= WINDOWSTATE_MASK_POS; } else { aWindowStateInfo.aDockPos = aPos; nMask |= WINDOWSTATE_MASK_DOCKPOS; } a <<= aPos; bAddToSeq = true; } } } break; case PROPERTY_SIZE: case PROPERTY_DOCKSIZE: { OUString aString; if ( a >>= aString ) { sal_Int32 nToken( 0 ); std::u16string_view aStr = o3tl::getToken(aString, 0, ',', nToken ); if ( nToken > 0 ) { css::awt::Size aSize; aSize.Width = o3tl::toInt32(aStr); aSize.Height = o3tl::toInt32(o3tl::getToken(aString, 0, ',', nToken )); if ( i == PROPERTY_SIZE ) { aWindowStateInfo.aSize = aSize; nMask |= WINDOWSTATE_MASK_SIZE; } else { aWindowStateInfo.aDockSize = aSize; nMask |= WINDOWSTATE_MASK_DOCKSIZE; } a <<= aSize; bAddToSeq = true; } } } break; case PROPERTY_UINAME: { OUString aValue; if ( a >>= aValue ) { nMask |= WINDOWSTATE_MASK_UINAME; aWindowStateInfo.aUIName = aValue; bAddToSeq = true; } } break; case PROPERTY_INTERNALSTATE: { sal_uInt32 nValue = 0; if ( a >>= nValue ) { nMask |= WINDOWSTATE_MASK_INTERNALSTATE; aWindowStateInfo.nInternalState = nValue; bAddToSeq = true; } } break; case PROPERTY_STYLE: { sal_Int32 nValue = 0; if ( a >>= nValue ) { nMask |= WINDOWSTATE_MASK_STYLE; aWindowStateInfo.nStyle = sal_uInt16( nValue ); bAddToSeq = true; } } break; default: assert( false && "Wrong value for ConfigurationAccess_WindowState. Who has forgotten to add this new property!" ); } if ( bAddToSeq ) { // put value into the return sequence PropertyValue pv; pv.Name = m_aPropArray[i]; pv.Value = a; aPropVec.push_back(pv); } } catch( const css::container::NoSuchElementException& ) { } catch ( const css::lang::WrappedTargetException& ) { } } aWindowStateInfo.nMask = nMask; m_aResourceURLToInfoCache.emplace( rResourceURL, aWindowStateInfo ); return Any( comphelper::containerToSequence(aPropVec) ); } ConfigurationAccess_WindowState::WindowStateInfo& ConfigurationAccess_WindowState::impl_insertCacheAndReturnWinState( const OUString& rResourceURL, Reference< XNameAccess > const & rNameAccess ) { sal_Int32 nMask( 0 ); sal_Int32 nCount( m_aPropArray.size() ); sal_Int32 i( 0 ); WindowStateInfo aWindowStateInfo; for ( i = 0; i < nCount; i++ ) { try { Any a( rNameAccess->getByName( m_aPropArray[i] ) ); switch ( i ) { case PROPERTY_LOCKED: case PROPERTY_DOCKED: case PROPERTY_VISIBLE: case PROPERTY_CONTEXT: case PROPERTY_HIDEFROMMENU: case PROPERTY_NOCLOSE: case PROPERTY_SOFTCLOSE: case PROPERTY_CONTEXTACTIVE: { bool bValue; if ( a >>= bValue ) { sal_Int32 nValue( 1 << i ); nMask |= nValue; switch ( i ) { case PROPERTY_LOCKED: aWindowStateInfo.bLocked = bValue; break; case PROPERTY_DOCKED: aWindowStateInfo.bDocked = bValue; break; case PROPERTY_VISIBLE: aWindowStateInfo.bVisible = bValue; break; case PROPERTY_CONTEXT: aWindowStateInfo.bContext = bValue; break; case PROPERTY_HIDEFROMMENU: aWindowStateInfo.bHideFromMenu = bValue; break; case PROPERTY_NOCLOSE: aWindowStateInfo.bNoClose = bValue; break; case PROPERTY_SOFTCLOSE: aWindowStateInfo.bNoClose = bValue; break; case PROPERTY_CONTEXTACTIVE: aWindowStateInfo.bContextActive = bValue; break; default: SAL_WARN( "fwk.uiconfiguration", "Unknown boolean property in WindowState found!" ); } } } break; case PROPERTY_DOCKINGAREA: { sal_Int32 nDockingArea = 0; if ( a >>= nDockingArea ) { if (( nDockingArea >= 0 ) && ( nDockingArea <= sal_Int32( DockingArea_DOCKINGAREA_RIGHT ))) { aWindowStateInfo.aDockingArea = static_cast(nDockingArea); nMask |= WINDOWSTATE_MASK_DOCKINGAREA; } } } break; case PROPERTY_POS: case PROPERTY_DOCKPOS: { OUString aString; if ( a >>= aString ) { sal_Int32 nToken( 0 ); std::u16string_view aXStr = o3tl::getToken(aString, 0, ',', nToken ); if ( nToken > 0 ) { css::awt::Point aPos; aPos.X = o3tl::toInt32(aXStr); aPos.Y = o3tl::toInt32(o3tl::getToken(aString, 0, ',', nToken )); if ( i == PROPERTY_POS ) { aWindowStateInfo.aPos = aPos; nMask |= WINDOWSTATE_MASK_POS; } else { aWindowStateInfo.aDockPos = aPos; nMask |= WINDOWSTATE_MASK_DOCKPOS; } } } } break; case PROPERTY_SIZE: case PROPERTY_DOCKSIZE: { OUString aString; if ( a >>= aString ) { sal_Int32 nToken( 0 ); std::u16string_view aStr = o3tl::getToken(aString, 0, ',', nToken ); if ( nToken > 0 ) { css::awt::Size aSize; aSize.Width = o3tl::toInt32(aStr); aSize.Height = o3tl::toInt32(o3tl::getToken(aString, 0, ',', nToken )); if ( i == PROPERTY_SIZE ) { aWindowStateInfo.aSize = aSize; nMask |= WINDOWSTATE_MASK_SIZE; } else { aWindowStateInfo.aDockSize = aSize; nMask |= WINDOWSTATE_MASK_DOCKSIZE; } } } } break; case PROPERTY_UINAME: { OUString aValue; if ( a >>= aValue ) { nMask |= WINDOWSTATE_MASK_UINAME; aWindowStateInfo.aUIName = aValue; } } break; case PROPERTY_INTERNALSTATE: { sal_Int32 nValue = 0; if ( a >>= nValue ) { nMask |= WINDOWSTATE_MASK_INTERNALSTATE; aWindowStateInfo.nInternalState = sal_uInt32( nValue ); } } break; case PROPERTY_STYLE: { sal_Int32 nValue = 0; if ( a >>= nValue ) { nMask |= WINDOWSTATE_MASK_STYLE; aWindowStateInfo.nStyle = sal_uInt16( nValue ); } } break; default: assert( false && "Wrong value for ConfigurationAccess_WindowState. Who has forgotten to add this new property!" ); } } catch( const css::container::NoSuchElementException& ) { } catch ( const css::lang::WrappedTargetException& ) { } } aWindowStateInfo.nMask = nMask; ResourceURLToInfoCache::iterator pIter = m_aResourceURLToInfoCache.emplace( rResourceURL, aWindowStateInfo ).first; return pIter->second; } Any ConfigurationAccess_WindowState::impl_getWindowStateFromResourceURL( const OUString& rResourceURL ) { if ( !m_bConfigAccessInitialized ) { impl_initializeConfigAccess(); m_bConfigAccessInitialized = true; } try { // Try to ask our configuration access if ( m_xConfigAccess.is() && m_xConfigAccess->hasByName( rResourceURL ) ) { Reference< XNameAccess > xNameAccess( m_xConfigAccess->getByName( rResourceURL ), UNO_QUERY ); if ( xNameAccess.is() ) return impl_insertCacheAndReturnSequence( rResourceURL, xNameAccess ); } } catch( const css::container::NoSuchElementException& ) { } catch ( const css::lang::WrappedTargetException& ) { } return Any(); } void ConfigurationAccess_WindowState::impl_fillStructFromSequence( WindowStateInfo& rWinStateInfo, const Sequence< PropertyValue >& rSeq ) { sal_Int32 nCompareCount( m_aPropArray.size() ); sal_Int32 nCount( rSeq.getLength() ); sal_Int32 i( 0 ); for ( i = 0; i < nCount; i++ ) { for ( sal_Int32 j = 0; j < nCompareCount; j++ ) { if ( rSeq[i].Name == m_aPropArray[j] ) { switch ( j ) { case PROPERTY_LOCKED: case PROPERTY_DOCKED: case PROPERTY_VISIBLE: case PROPERTY_CONTEXT: case PROPERTY_HIDEFROMMENU: case PROPERTY_NOCLOSE: case PROPERTY_SOFTCLOSE: case PROPERTY_CONTEXTACTIVE: { bool bValue; if ( rSeq[i].Value >>= bValue ) { sal_Int32 nValue( 1 << j ); rWinStateInfo.nMask |= nValue; switch ( j ) { case PROPERTY_LOCKED: rWinStateInfo.bLocked = bValue; break; case PROPERTY_DOCKED: rWinStateInfo.bDocked = bValue; break; case PROPERTY_VISIBLE: rWinStateInfo.bVisible = bValue; break; case PROPERTY_CONTEXT: rWinStateInfo.bContext = bValue; break; case PROPERTY_HIDEFROMMENU: rWinStateInfo.bHideFromMenu = bValue; break; case PROPERTY_NOCLOSE: rWinStateInfo.bNoClose = bValue; break; case PROPERTY_SOFTCLOSE: rWinStateInfo.bSoftClose = bValue; break; case PROPERTY_CONTEXTACTIVE: rWinStateInfo.bContextActive = bValue; break; } } } break; case PROPERTY_DOCKINGAREA: { css::ui::DockingArea eDockingArea; if ( rSeq[i].Value >>= eDockingArea ) { rWinStateInfo.aDockingArea = eDockingArea; rWinStateInfo.nMask |= WINDOWSTATE_MASK_DOCKINGAREA; } } break; case PROPERTY_POS: case PROPERTY_DOCKPOS: { css::awt::Point aPoint; if ( rSeq[i].Value >>= aPoint ) { if ( j == PROPERTY_POS ) { rWinStateInfo.aPos = aPoint; rWinStateInfo.nMask |= WINDOWSTATE_MASK_POS; } else { rWinStateInfo.aDockPos = aPoint; rWinStateInfo.nMask |= WINDOWSTATE_MASK_DOCKPOS; } } } break; case PROPERTY_SIZE: case PROPERTY_DOCKSIZE: { css::awt::Size aSize; if ( rSeq[i].Value >>= aSize ) { if ( j == PROPERTY_SIZE ) { rWinStateInfo.aSize = aSize; rWinStateInfo.nMask |= WINDOWSTATE_MASK_SIZE; } else { rWinStateInfo.aDockSize = aSize; rWinStateInfo.nMask |= WINDOWSTATE_MASK_DOCKSIZE; } } } break; case PROPERTY_UINAME: { OUString aValue; if ( rSeq[i].Value >>= aValue ) { rWinStateInfo.aUIName = aValue; rWinStateInfo.nMask |= WINDOWSTATE_MASK_UINAME; } } break; case PROPERTY_INTERNALSTATE: { sal_Int32 nValue = 0; if ( rSeq[i].Value >>= nValue ) { rWinStateInfo.nInternalState = sal_uInt32( nValue ); rWinStateInfo.nMask |= WINDOWSTATE_MASK_INTERNALSTATE; } } break; case PROPERTY_STYLE: { sal_Int32 nValue = 0; if ( rSeq[i].Value >>= nValue ) { rWinStateInfo.nStyle = sal_uInt16( nValue ); rWinStateInfo.nMask |= WINDOWSTATE_MASK_STYLE; } } break; default: assert( false && "Wrong value for ConfigurationAccess_WindowState. Who has forgotten to add this new property!" ); } break; } } } } void ConfigurationAccess_WindowState::impl_putPropertiesFromStruct( const WindowStateInfo& rWinStateInfo, Reference< XPropertySet > const & xPropSet ) { sal_Int32 i( 0 ); sal_Int32 nCount( m_aPropArray.size() ); OUString aDelim( u","_ustr ); for ( i = 0; i < nCount; i++ ) { if ( rWinStateInfo.nMask & ( 1 << i )) { try { // put values into the property set switch ( i ) { case PROPERTY_LOCKED: xPropSet->setPropertyValue( m_aPropArray[i], Any( rWinStateInfo.bLocked ) ); break; case PROPERTY_DOCKED: xPropSet->setPropertyValue( m_aPropArray[i], Any( rWinStateInfo.bDocked ) ); break; case PROPERTY_VISIBLE: xPropSet->setPropertyValue( m_aPropArray[i], Any( rWinStateInfo.bVisible ) ); break; case PROPERTY_CONTEXT: xPropSet->setPropertyValue( m_aPropArray[i], Any( rWinStateInfo.bContext ) ); break; case PROPERTY_HIDEFROMMENU: xPropSet->setPropertyValue( m_aPropArray[i], Any( rWinStateInfo.bHideFromMenu ) ); break; case PROPERTY_NOCLOSE: xPropSet->setPropertyValue( m_aPropArray[i], Any( rWinStateInfo.bNoClose ) ); break; case PROPERTY_SOFTCLOSE: xPropSet->setPropertyValue( m_aPropArray[i], Any( rWinStateInfo.bSoftClose ) ); break; case PROPERTY_CONTEXTACTIVE: xPropSet->setPropertyValue( m_aPropArray[i], Any( rWinStateInfo.bContextActive ) ); break; case PROPERTY_DOCKINGAREA: xPropSet->setPropertyValue( m_aPropArray[i], Any( sal_Int16( rWinStateInfo.aDockingArea ) ) ); break; case PROPERTY_POS: case PROPERTY_DOCKPOS: { OUString aPosStr; if ( i == PROPERTY_POS ) aPosStr = OUString::number( rWinStateInfo.aPos.X ); else aPosStr = OUString::number( rWinStateInfo.aDockPos.X ); aPosStr += aDelim; if ( i == PROPERTY_POS ) aPosStr += OUString::number( rWinStateInfo.aPos.Y ); else aPosStr += OUString::number( rWinStateInfo.aDockPos.Y ); xPropSet->setPropertyValue( m_aPropArray[i], Any( aPosStr ) ); break; } case PROPERTY_SIZE: case PROPERTY_DOCKSIZE: { OUString aSizeStr; if ( i == PROPERTY_SIZE ) aSizeStr = OUString::number( rWinStateInfo.aSize.Width ); else aSizeStr = OUString::number( rWinStateInfo.aDockSize.Width ); aSizeStr += aDelim; if ( i == PROPERTY_SIZE ) aSizeStr += OUString::number( rWinStateInfo.aSize.Height ); else aSizeStr += OUString::number( rWinStateInfo.aDockSize.Height ); xPropSet->setPropertyValue( m_aPropArray[i], Any( aSizeStr ) ); break; } case PROPERTY_UINAME: xPropSet->setPropertyValue( m_aPropArray[i], Any( rWinStateInfo.aUIName ) ); break; case PROPERTY_INTERNALSTATE: xPropSet->setPropertyValue( m_aPropArray[i], Any( sal_Int32( rWinStateInfo.nInternalState )) ); break; case PROPERTY_STYLE: xPropSet->setPropertyValue( m_aPropArray[i], Any( sal_Int32( rWinStateInfo.nStyle )) ); break; default: assert( false && "Wrong value for ConfigurationAccess_WindowState. Who has forgotten to add this new property!" ); } } catch( const Exception& ) { } } } } void ConfigurationAccess_WindowState::impl_initializeConfigAccess() { try { Sequence aArgs(comphelper::InitAnyPropertySequence( { {"nodepath", Any(m_aConfigWindowAccess)} })); m_xConfigAccess.set( m_xConfigProvider->createInstanceWithArguments( u"com.sun.star.configuration.ConfigurationUpdateAccess"_ustr, aArgs ), UNO_QUERY ); if ( m_xConfigAccess.is() ) { // Add as container listener Reference< XContainer > xContainer( m_xConfigAccess, UNO_QUERY ); if ( xContainer.is() ) { m_xConfigListener = new WeakContainerListener(this); xContainer->addContainerListener(m_xConfigListener); } } } catch ( const WrappedTargetException& ) { } catch ( const Exception& ) { } } typedef comphelper::WeakComponentImplHelper< css::container::XNameAccess, css::lang::XServiceInfo> WindowStateConfiguration_BASE; class WindowStateConfiguration : public WindowStateConfiguration_BASE { public: explicit WindowStateConfiguration( const css::uno::Reference< css::uno::XComponentContext >& rxContext ); virtual ~WindowStateConfiguration() override; virtual OUString SAL_CALL getImplementationName() override { return u"com.sun.star.comp.framework.WindowStateConfiguration"_ustr; } virtual sal_Bool SAL_CALL supportsService(OUString const & ServiceName) override { return cppu::supportsService(this, ServiceName); } virtual css::uno::Sequence SAL_CALL getSupportedServiceNames() override { return {u"com.sun.star.ui.WindowStateConfiguration"_ustr}; } // XNameAccess virtual css::uno::Any SAL_CALL getByName( const OUString& aName ) override; virtual css::uno::Sequence< OUString > SAL_CALL getElementNames() override; virtual sal_Bool SAL_CALL hasByName( const OUString& aName ) override; // XElementAccess virtual css::uno::Type SAL_CALL getElementType() override; virtual sal_Bool SAL_CALL hasElements() override; typedef std::unordered_map< OUString, OUString > ModuleToWindowStateFileMap; typedef std::unordered_map< OUString, css::uno::Reference< css::container::XNameAccess > > ModuleToWindowStateConfigHashMap; private: css::uno::Reference< css::uno::XComponentContext> m_xContext; ModuleToWindowStateFileMap m_aModuleToFileHashMap; ModuleToWindowStateConfigHashMap m_aModuleToWindowStateHashMap; }; WindowStateConfiguration::WindowStateConfiguration( const Reference< XComponentContext >& rxContext ) : m_xContext( rxContext ) { css::uno::Reference< css::frame::XModuleManager2 > xModuleManager = ModuleManager::create( m_xContext ); Reference< XNameAccess > xEmptyNameAccess; Sequence< OUString > aElementNames; try { aElementNames = xModuleManager->getElementNames(); } catch (const css::uno::RuntimeException &) { } Sequence< PropertyValue > aSeq; for (OUString const& aModuleIdentifier : aElementNames) { if ( xModuleManager->getByName( aModuleIdentifier ) >>= aSeq ) { OUString aWindowStateFileStr; for (PropertyValue const& rProp : aSeq) { if ( rProp.Name == "ooSetupFactoryWindowStateConfigRef" ) { rProp.Value >>= aWindowStateFileStr; break; } } if ( !aWindowStateFileStr.isEmpty() ) { // Create first mapping ModuleIdentifier ==> Window state configuration file m_aModuleToFileHashMap.emplace( aModuleIdentifier, aWindowStateFileStr ); // Create second mapping Command File ==> Window state configuration instance ModuleToWindowStateConfigHashMap::iterator pIter = m_aModuleToWindowStateHashMap.find( aWindowStateFileStr ); if ( pIter == m_aModuleToWindowStateHashMap.end() ) m_aModuleToWindowStateHashMap.emplace( aWindowStateFileStr, xEmptyNameAccess ); } } } } WindowStateConfiguration::~WindowStateConfiguration() { std::unique_lock g(m_aMutex); m_aModuleToFileHashMap.clear(); m_aModuleToWindowStateHashMap.clear(); } Any SAL_CALL WindowStateConfiguration::getByName( const OUString& aModuleIdentifier ) { std::unique_lock g(m_aMutex); ModuleToWindowStateFileMap::const_iterator pIter = m_aModuleToFileHashMap.find( aModuleIdentifier ); if ( pIter != m_aModuleToFileHashMap.end() ) { Any a; OUString aWindowStateConfigFile( pIter->second ); ModuleToWindowStateConfigHashMap::iterator pModuleIter = m_aModuleToWindowStateHashMap.find( aWindowStateConfigFile ); if ( pModuleIter != m_aModuleToWindowStateHashMap.end() ) { if ( pModuleIter->second.is() ) a <<= pModuleIter->second; else { Reference< XNameAccess > xResourceURLWindowState = new ConfigurationAccess_WindowState( aWindowStateConfigFile, m_xContext ); pModuleIter->second = xResourceURLWindowState; a <<= xResourceURLWindowState; } return a; } } throw NoSuchElementException(); } Sequence< OUString > SAL_CALL WindowStateConfiguration::getElementNames() { std::unique_lock g(m_aMutex); return comphelper::mapKeysToSequence( m_aModuleToFileHashMap ); } sal_Bool SAL_CALL WindowStateConfiguration::hasByName( const OUString& aName ) { std::unique_lock g(m_aMutex); ModuleToWindowStateFileMap::const_iterator pIter = m_aModuleToFileHashMap.find( aName ); return ( pIter != m_aModuleToFileHashMap.end() ); } // XElementAccess Type SAL_CALL WindowStateConfiguration::getElementType() { return cppu::UnoType::get(); } sal_Bool SAL_CALL WindowStateConfiguration::hasElements() { // We always have at least one module. So it is valid to return true! return true; } } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface * com_sun_star_comp_framework_WindowStateConfiguration_get_implementation( css::uno::XComponentContext *context, css::uno::Sequence const &) { return cppu::acquire(new WindowStateConfiguration(context)); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */