/* -*- 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 "imagemanagerimpl.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 using ::com::sun::star::uno::Sequence; using ::com::sun::star::uno::XInterface; using ::com::sun::star::uno::RuntimeException; using ::com::sun::star::uno::UNO_QUERY; using ::com::sun::star::uno::Any; using ::com::sun::star::graphic::XGraphic; using namespace ::com::sun::star; using namespace ::com::sun::star::io; using namespace ::com::sun::star::embed; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::container; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::ui; using namespace ::cppu; const sal_Int16 MAX_IMAGETYPE_VALUE = css::ui::ImageType::SIZE_32; constexpr OUStringLiteral IMAGE_FOLDER = u"images"; constexpr OUStringLiteral BITMAPS_FOLDER = u"Bitmaps"; const o3tl::enumarray IMAGELIST_XML_FILE = { "sc_imagelist.xml", "lc_imagelist.xml", "xc_imagelist.xml" }; const o3tl::enumarray BITMAP_FILE_NAMES = { "sc_userimages.png", "lc_userimages.png", "xc_userimages.png" }; namespace framework { static GlobalImageList* pGlobalImageList = nullptr; static std::mutex& getGlobalImageListMutex() { static std::mutex mutex; return mutex; } static GlobalImageList* getGlobalImageList( const uno::Reference< uno::XComponentContext >& rxContext ) { std::unique_lock guard( getGlobalImageListMutex() ); if ( pGlobalImageList == nullptr ) pGlobalImageList = new GlobalImageList( rxContext ); return pGlobalImageList; } CmdImageList::CmdImageList( uno::Reference< uno::XComponentContext > rxContext, OUString aModuleIdentifier ) : m_bInitialized(false), m_aModuleIdentifier(std::move( aModuleIdentifier )), m_xContext(std::move( rxContext )) { } CmdImageList::~CmdImageList() { } void CmdImageList::initialize() { if (m_bInitialized) return; const OUString aCommandImageList(UICOMMANDDESCRIPTION_NAMEACCESS_COMMANDIMAGELIST); Sequence aCommandImageSeq; uno::Reference xCommandDesc = frame::theUICommandDescription::get(m_xContext); if (!m_aModuleIdentifier.isEmpty()) { // If we have a module identifier - use to retrieve the command image name list from it. // Otherwise we will use the global command image list try { xCommandDesc->getByName(m_aModuleIdentifier) >>= xCommandDesc; if (xCommandDesc.is()) xCommandDesc->getByName(aCommandImageList) >>= aCommandImageSeq; } catch (const NoSuchElementException&) { // Module unknown we will work with an empty command image list! return; } } if (xCommandDesc.is()) { try { xCommandDesc->getByName(aCommandImageList) >>= aCommandImageSeq; } catch (const NoSuchElementException&) { } catch (const WrappedTargetException&) { } } m_aResolver.registerCommands(aCommandImageSeq); m_bInitialized = true; } Image CmdImageList::getImageFromCommandURL(vcl::ImageType nImageType, const OUString& rCommandURL) { initialize(); return m_aResolver.getImageFromCommandURL(nImageType, rCommandURL); } bool CmdImageList::hasImage(vcl::ImageType /*nImageType*/, const OUString& rCommandURL) { initialize(); return m_aResolver.hasImage(rCommandURL); } std::vector& CmdImageList::getImageCommandNames() { return m_aResolver.getCommandNames(); } GlobalImageList::GlobalImageList( const uno::Reference< uno::XComponentContext >& rxContext ) : CmdImageList( rxContext, OUString() ) { } GlobalImageList::~GlobalImageList() { std::unique_lock guard( getGlobalImageListMutex() ); // remove global pointer as we destroy the object now pGlobalImageList = nullptr; } Image GlobalImageList::getImageFromCommandURL( vcl::ImageType nImageType, const OUString& rCommandURL ) { std::unique_lock guard( getGlobalImageListMutex() ); return CmdImageList::getImageFromCommandURL( nImageType, rCommandURL ); } bool GlobalImageList::hasImage( vcl::ImageType nImageType, const OUString& rCommandURL ) { std::unique_lock guard( getGlobalImageListMutex() ); return CmdImageList::hasImage( nImageType, rCommandURL ); } ::std::vector< OUString >& GlobalImageList::getImageCommandNames() { std::unique_lock guard( getGlobalImageListMutex() ); return CmdImageList::getImageCommandNames(); } static bool implts_checkAndScaleGraphic( uno::Reference< XGraphic >& rOutGraphic, const uno::Reference< XGraphic >& rInGraphic, vcl::ImageType nImageType ) { if ( !rInGraphic.is() ) { rOutGraphic = uno::Reference(); return false; } static const o3tl::enumarray BITMAP_SIZE = { Size(16, 16), Size(24, 24), Size(32, 32) }; // Check size and scale it Graphic aImage(rInGraphic); if (BITMAP_SIZE[nImageType] != aImage.GetSizePixel()) { BitmapEx aBitmap = aImage.GetBitmapEx(); aBitmap.Scale(BITMAP_SIZE[nImageType]); aImage = Graphic(aBitmap); rOutGraphic = aImage.GetXGraphic(); } else rOutGraphic = rInGraphic; return true; } static vcl::ImageType implts_convertImageTypeToIndex( sal_Int16 nImageType ) { if (nImageType & css::ui::ImageType::SIZE_LARGE) return vcl::ImageType::Size26; else if (nImageType & css::ui::ImageType::SIZE_32) return vcl::ImageType::Size32; else return vcl::ImageType::Size16; } ImageList* ImageManagerImpl::implts_getUserImageList( vcl::ImageType nImageType ) { SolarMutexGuard g; if ( !m_pUserImageList[nImageType] ) implts_loadUserImages( nImageType, m_xUserImageStorage, m_xUserBitmapsStorage ); return m_pUserImageList[nImageType].get(); } void ImageManagerImpl::implts_initialize() { // Initialize the top-level structures with the storage data if ( !m_xUserConfigStorage.is() ) return; tools::Long nModes = m_bReadOnly ? ElementModes::READ : ElementModes::READWRITE; try { m_xUserImageStorage = m_xUserConfigStorage->openStorageElement( IMAGE_FOLDER, nModes ); if ( m_xUserImageStorage.is() ) { m_xUserBitmapsStorage = m_xUserImageStorage->openStorageElement( BITMAPS_FOLDER, nModes ); } } catch ( const css::container::NoSuchElementException& ) { } catch ( const css::embed::InvalidStorageException& ) { } catch ( const css::lang::IllegalArgumentException& ) { } catch ( const css::io::IOException& ) { } catch ( const css::embed::StorageWrappedTargetException& ) { } } void ImageManagerImpl::implts_loadUserImages( vcl::ImageType nImageType, const uno::Reference< XStorage >& xUserImageStorage, const uno::Reference< XStorage >& xUserBitmapsStorage ) { SolarMutexGuard g; if ( xUserImageStorage.is() && xUserBitmapsStorage.is() ) { try { uno::Reference< XStream > xStream = xUserImageStorage->openStreamElement( OUString::createFromAscii( IMAGELIST_XML_FILE[nImageType] ), ElementModes::READ ); uno::Reference< XInputStream > xInputStream = xStream->getInputStream(); ImageItemDescriptorList aUserImageListInfo; ImagesConfiguration::LoadImages( m_xContext, xInputStream, aUserImageListInfo ); if ( !aUserImageListInfo.empty() ) { sal_Int32 nCount = aUserImageListInfo.size(); std::vector< OUString > aUserImagesVector; aUserImagesVector.reserve(nCount); for ( sal_Int32 i=0; i < nCount; i++ ) { const ImageItemDescriptor& rItem = aUserImageListInfo[i]; aUserImagesVector.push_back( rItem.aCommandURL ); } uno::Reference< XStream > xBitmapStream = xUserBitmapsStorage->openStreamElement( OUString::createFromAscii( BITMAP_FILE_NAMES[nImageType] ), ElementModes::READ ); if ( xBitmapStream.is() ) { BitmapEx aUserBitmap; { std::unique_ptr pSvStream(utl::UcbStreamHelper::CreateStream( xBitmapStream )); vcl::PngImageReader aPngReader( *pSvStream ); aUserBitmap = aPngReader.read(); } // Delete old image list and create a new one from the read bitmap m_pUserImageList[nImageType].reset(new ImageList()); m_pUserImageList[nImageType]->InsertFromHorizontalStrip ( aUserBitmap, aUserImagesVector ); return; } } } catch ( const css::container::NoSuchElementException& ) { } catch ( const css::embed::InvalidStorageException& ) { } catch ( const css::lang::IllegalArgumentException& ) { } catch ( const css::io::IOException& ) { } catch ( const css::embed::StorageWrappedTargetException& ) { } } // Destroy old image list - create a new empty one m_pUserImageList[nImageType].reset(new ImageList); } bool ImageManagerImpl::implts_storeUserImages( vcl::ImageType nImageType, const uno::Reference< XStorage >& xUserImageStorage, const uno::Reference< XStorage >& xUserBitmapsStorage ) { SolarMutexGuard g; if ( !m_bModified ) return false; ImageList* pImageList = implts_getUserImageList( nImageType ); if ( pImageList->GetImageCount() > 0 ) { ImageItemDescriptorList aUserImageListInfo; for ( sal_uInt16 i=0; i < pImageList->GetImageCount(); i++ ) { ImageItemDescriptor aItem; aItem.aCommandURL = pImageList->GetImageName( i ); aUserImageListInfo.push_back( aItem ); } uno::Reference< XTransactedObject > xTransaction; uno::Reference< XOutputStream > xOutputStream; uno::Reference< XStream > xStream = xUserImageStorage->openStreamElement( OUString::createFromAscii( IMAGELIST_XML_FILE[nImageType] ), ElementModes::WRITE|ElementModes::TRUNCATE ); if ( xStream.is() ) { uno::Reference< XStream > xBitmapStream = xUserBitmapsStorage->openStreamElement( OUString::createFromAscii( BITMAP_FILE_NAMES[nImageType] ), ElementModes::WRITE|ElementModes::TRUNCATE ); if ( xBitmapStream.is() ) { { std::unique_ptr pSvStream(utl::UcbStreamHelper::CreateStream( xBitmapStream )); vcl::PNGWriter aPngWriter( pImageList->GetAsHorizontalStrip() ); aPngWriter.Write( *pSvStream ); } // Commit user bitmaps storage xTransaction.set( xUserBitmapsStorage, UNO_QUERY ); if ( xTransaction.is() ) xTransaction->commit(); } xOutputStream = xStream->getOutputStream(); if ( xOutputStream.is() ) ImagesConfiguration::StoreImages( m_xContext, xOutputStream, aUserImageListInfo ); // Commit user image storage xTransaction.set( xUserImageStorage, UNO_QUERY ); if ( xTransaction.is() ) xTransaction->commit(); } return true; } else { // Remove the streams from the storage, if we have no data. We have to catch // the NoSuchElementException as it can be possible that there is no stream at all! try { xUserImageStorage->removeElement( OUString::createFromAscii( IMAGELIST_XML_FILE[nImageType] )); } catch ( const css::container::NoSuchElementException& ) { } try { xUserBitmapsStorage->removeElement( OUString::createFromAscii( BITMAP_FILE_NAMES[nImageType] )); } catch ( const css::container::NoSuchElementException& ) { } uno::Reference< XTransactedObject > xTransaction; // Commit user image storage xTransaction.set( xUserImageStorage, UNO_QUERY ); if ( xTransaction.is() ) xTransaction->commit(); // Commit user bitmaps storage xTransaction.set( xUserBitmapsStorage, UNO_QUERY ); if ( xTransaction.is() ) xTransaction->commit(); return true; } return false; } const rtl::Reference< GlobalImageList >& ImageManagerImpl::implts_getGlobalImageList() { SolarMutexGuard g; if ( !m_pGlobalImageList.is() ) m_pGlobalImageList = getGlobalImageList( m_xContext ); return m_pGlobalImageList; } CmdImageList* ImageManagerImpl::implts_getDefaultImageList() { SolarMutexGuard g; if ( !m_pDefaultImageList ) m_pDefaultImageList.reset(new CmdImageList( m_xContext, m_aModuleIdentifier )); return m_pDefaultImageList.get(); } ImageManagerImpl::ImageManagerImpl( uno::Reference< uno::XComponentContext > xContext, ::cppu::OWeakObject* pOwner, bool _bUseGlobal ) : m_xContext(std::move( xContext )) , m_pOwner(pOwner) , m_aResourceString( "private:resource/images/moduleimages" ) , m_bUseGlobal(_bUseGlobal) , m_bReadOnly( true ) , m_bInitialized( false ) , m_bModified( false ) , m_bDisposed( false ) { for ( vcl::ImageType n : o3tl::enumrange() ) { m_pUserImageList[n] = nullptr; m_bUserImageListModified[n] = false; } } ImageManagerImpl::~ImageManagerImpl() { clear(); } void ImageManagerImpl::dispose() { uno::Reference< uno::XInterface > xOwner(m_pOwner); css::lang::EventObject aEvent( xOwner ); { std::unique_lock aGuard(m_mutex); m_aEventListeners.disposeAndClear( aGuard, aEvent ); } { std::unique_lock aGuard(m_mutex); m_aConfigListeners.disposeAndClear( aGuard, aEvent ); } { SolarMutexGuard g; m_xUserConfigStorage.clear(); m_xUserImageStorage.clear(); m_xUserRootCommit.clear(); m_bModified = false; m_bDisposed = true; // delete user and default image list on dispose for (auto& n : m_pUserImageList) { n.reset(); } m_pDefaultImageList.reset(); } } void ImageManagerImpl::addEventListener( const uno::Reference< XEventListener >& xListener ) { { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); } std::unique_lock aGuard(m_mutex); m_aEventListeners.addInterface( aGuard, xListener ); } void ImageManagerImpl::removeEventListener( const uno::Reference< XEventListener >& xListener ) { /* SAFE AREA ----------------------------------------------------------------------------------------------- */ std::unique_lock aGuard(m_mutex); m_aEventListeners.removeInterface( aGuard, xListener ); } // XInitialization void ImageManagerImpl::initialize( const Sequence< Any >& aArguments ) { SolarMutexGuard g; if ( m_bInitialized ) return; for ( const Any& rArg : aArguments ) { PropertyValue aPropValue; if ( rArg >>= aPropValue ) { if ( aPropValue.Name == "UserConfigStorage" ) { aPropValue.Value >>= m_xUserConfigStorage; } else if ( aPropValue.Name == "ModuleIdentifier" ) { aPropValue.Value >>= m_aModuleIdentifier; } else if ( aPropValue.Name == "UserRootCommit" ) { aPropValue.Value >>= m_xUserRootCommit; } } } if ( m_xUserConfigStorage.is() ) { uno::Reference< XPropertySet > xPropSet( m_xUserConfigStorage, UNO_QUERY ); if ( xPropSet.is() ) { tools::Long nOpenMode = 0; if ( xPropSet->getPropertyValue("OpenMode") >>= nOpenMode ) m_bReadOnly = !( nOpenMode & ElementModes::WRITE ); } } implts_initialize(); m_bInitialized = true; } // XImageManagerImpl void ImageManagerImpl::reset() { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); std::vector< OUString > aUserImageNames; for ( vcl::ImageType i : o3tl::enumrange() ) { aUserImageNames.clear(); ImageList* pImageList = implts_getUserImageList(i); pImageList->GetImageNames( aUserImageNames ); Sequence< OUString > aRemoveList( comphelper::containerToSequence(aUserImageNames) ); // Remove images removeImages( sal_Int16( i ), aRemoveList ); m_bUserImageListModified[i] = true; } m_bModified = true; } Sequence< OUString > ImageManagerImpl::getAllImageNames( ::sal_Int16 nImageType ) { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); ImageNameMap aImageCmdNameMap; vcl::ImageType nIndex = implts_convertImageTypeToIndex( nImageType ); sal_uInt32 i( 0 ); if ( m_bUseGlobal ) { rtl::Reference< GlobalImageList > rGlobalImageList = implts_getGlobalImageList(); const std::vector< OUString >& rGlobalImageNameVector = rGlobalImageList->getImageCommandNames(); const sal_uInt32 nGlobalCount = rGlobalImageNameVector.size(); for ( i = 0; i < nGlobalCount; i++ ) aImageCmdNameMap.emplace( rGlobalImageNameVector[i], true ); const std::vector< OUString >& rModuleImageNameVector = implts_getDefaultImageList()->getImageCommandNames(); const sal_uInt32 nModuleCount = rModuleImageNameVector.size(); for ( i = 0; i < nModuleCount; i++ ) aImageCmdNameMap.emplace( rModuleImageNameVector[i], true ); } ImageList* pImageList = implts_getUserImageList(nIndex); std::vector< OUString > rUserImageNames; pImageList->GetImageNames( rUserImageNames ); const sal_uInt32 nUserCount = rUserImageNames.size(); for ( i = 0; i < nUserCount; i++ ) aImageCmdNameMap.emplace( rUserImageNames[i], true ); return comphelper::mapKeysToSequence( aImageCmdNameMap ); } bool ImageManagerImpl::hasImage( ::sal_Int16 nImageType, const OUString& aCommandURL ) { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); if (( nImageType < 0 ) || ( nImageType > MAX_IMAGETYPE_VALUE )) throw IllegalArgumentException(); vcl::ImageType nIndex = implts_convertImageTypeToIndex( nImageType ); if ( m_bUseGlobal && implts_getGlobalImageList()->hasImage( nIndex, aCommandURL )) return true; else { if ( m_bUseGlobal && implts_getDefaultImageList()->hasImage( nIndex, aCommandURL )) return true; else { // User layer ImageList* pImageList = implts_getUserImageList(nIndex); if ( pImageList ) return ( pImageList->GetImagePos( aCommandURL ) != IMAGELIST_IMAGE_NOTFOUND ); } } return false; } namespace { css::uno::Reference< css::graphic::XGraphic > GetXGraphic(const Image &rImage) { return Graphic(rImage).GetXGraphic(); } } Sequence< uno::Reference< XGraphic > > ImageManagerImpl::getImages( ::sal_Int16 nImageType, const Sequence< OUString >& aCommandURLSequence ) { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); if (( nImageType < 0 ) || ( nImageType > MAX_IMAGETYPE_VALUE )) throw IllegalArgumentException(); Sequence< uno::Reference< XGraphic > > aGraphSeq( aCommandURLSequence.getLength() ); vcl::ImageType nIndex = implts_convertImageTypeToIndex( nImageType ); rtl::Reference< GlobalImageList > rGlobalImageList; CmdImageList* pDefaultImageList = nullptr; if ( m_bUseGlobal ) { rGlobalImageList = implts_getGlobalImageList(); pDefaultImageList = implts_getDefaultImageList(); } ImageList* pUserImageList = implts_getUserImageList(nIndex); // We have to search our image list in the following order: // 1. user image list (read/write) // 2. module image list (read) // 3. global image list (read) auto aGraphSeqRange = asNonConstRange(aGraphSeq); sal_Int32 n = 0; for ( const OUString& rURL : aCommandURLSequence ) { Image aImage = pUserImageList->GetImage( rURL ); if ( !aImage && m_bUseGlobal ) { aImage = pDefaultImageList->getImageFromCommandURL( nIndex, rURL ); if ( !aImage ) aImage = rGlobalImageList->getImageFromCommandURL( nIndex, rURL ); } aGraphSeqRange[n++] = GetXGraphic(aImage); } return aGraphSeq; } void ImageManagerImpl::replaceImages( ::sal_Int16 nImageType, const Sequence< OUString >& aCommandURLSequence, const Sequence< uno::Reference< XGraphic > >& aGraphicsSequence ) { rtl::Reference pInsertedImages; rtl::Reference pReplacedImages; { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); if (( aCommandURLSequence.getLength() != aGraphicsSequence.getLength() ) || (( nImageType < 0 ) || ( nImageType > MAX_IMAGETYPE_VALUE ))) throw IllegalArgumentException(); if ( m_bReadOnly ) throw IllegalAccessException(); vcl::ImageType nIndex = implts_convertImageTypeToIndex( nImageType ); ImageList* pImageList = implts_getUserImageList(nIndex); uno::Reference< XGraphic > xGraphic; for ( sal_Int32 i = 0; i < aCommandURLSequence.getLength(); i++ ) { // Check size and scale. If we don't have any graphics ignore it if ( !implts_checkAndScaleGraphic( xGraphic, aGraphicsSequence[i], nIndex )) continue; sal_uInt16 nPos = pImageList->GetImagePos( aCommandURLSequence[i] ); if ( nPos == IMAGELIST_IMAGE_NOTFOUND ) { pImageList->AddImage(aCommandURLSequence[i], Image(xGraphic)); if ( !pInsertedImages ) pInsertedImages = new GraphicNameAccess(); pInsertedImages->addElement( aCommandURLSequence[i], xGraphic ); } else { pImageList->ReplaceImage(aCommandURLSequence[i], Image(xGraphic)); if ( !pReplacedImages ) pReplacedImages = new GraphicNameAccess(); pReplacedImages->addElement( aCommandURLSequence[i], xGraphic ); } } if (( pInsertedImages != nullptr ) || ( pReplacedImages != nullptr )) { m_bModified = true; m_bUserImageListModified[nIndex] = true; } } uno::Reference< uno::XInterface > xOwner(m_pOwner); // Notify listeners if ( pInsertedImages != nullptr ) { ConfigurationEvent aInsertEvent; aInsertEvent.aInfo <<= nImageType; aInsertEvent.Accessor <<= xOwner; aInsertEvent.Source = xOwner; aInsertEvent.ResourceURL = m_aResourceString; aInsertEvent.Element <<= uno::Reference< XNameAccess >(pInsertedImages); implts_notifyContainerListener( aInsertEvent, NotifyOp_Insert ); } if ( pReplacedImages != nullptr ) { ConfigurationEvent aReplaceEvent; aReplaceEvent.aInfo <<= nImageType; aReplaceEvent.Accessor <<= xOwner; aReplaceEvent.Source = xOwner; aReplaceEvent.ResourceURL = m_aResourceString; aReplaceEvent.ReplacedElement = Any(); aReplaceEvent.Element <<= uno::Reference< XNameAccess >(pReplacedImages); implts_notifyContainerListener( aReplaceEvent, NotifyOp_Replace ); } } void ImageManagerImpl::removeImages( ::sal_Int16 nImageType, const Sequence< OUString >& aCommandURLSequence ) { rtl::Reference pRemovedImages; rtl::Reference pReplacedImages; { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); if (( nImageType < 0 ) || ( nImageType > MAX_IMAGETYPE_VALUE )) throw IllegalArgumentException(); if ( m_bReadOnly ) throw IllegalAccessException(); vcl::ImageType nIndex = implts_convertImageTypeToIndex( nImageType ); rtl::Reference< GlobalImageList > rGlobalImageList; CmdImageList* pDefaultImageList = nullptr; if ( m_bUseGlobal ) { rGlobalImageList = implts_getGlobalImageList(); pDefaultImageList = implts_getDefaultImageList(); } ImageList* pImageList = implts_getUserImageList(nIndex); uno::Reference xEmptyGraphic; for ( const OUString& rURL : aCommandURLSequence ) { sal_uInt16 nPos = pImageList->GetImagePos( rURL ); if ( nPos != IMAGELIST_IMAGE_NOTFOUND ) { sal_uInt16 nId = pImageList->GetImageId( nPos ); pImageList->RemoveImage( nId ); if ( m_bUseGlobal ) { // Check, if we have an image in our module/global image list. If we find one => // this is a replace instead of a remove operation! Image aNewImage = pDefaultImageList->getImageFromCommandURL( nIndex, rURL ); if ( !aNewImage ) aNewImage = rGlobalImageList->getImageFromCommandURL( nIndex, rURL ); if ( !aNewImage ) { if ( !pRemovedImages ) pRemovedImages = new GraphicNameAccess(); pRemovedImages->addElement( rURL, xEmptyGraphic ); } else { if ( !pReplacedImages ) pReplacedImages = new GraphicNameAccess(); pReplacedImages->addElement(rURL, GetXGraphic(aNewImage)); } } // if ( m_bUseGlobal ) else { if ( !pRemovedImages ) pRemovedImages = new GraphicNameAccess(); pRemovedImages->addElement( rURL, xEmptyGraphic ); } } } if (( pReplacedImages != nullptr ) || ( pRemovedImages != nullptr )) { m_bModified = true; m_bUserImageListModified[nIndex] = true; } } // Notify listeners uno::Reference< uno::XInterface > xOwner(m_pOwner); if ( pRemovedImages != nullptr ) { ConfigurationEvent aRemoveEvent; aRemoveEvent.aInfo <<= nImageType; aRemoveEvent.Accessor <<= xOwner; aRemoveEvent.Source = xOwner; aRemoveEvent.ResourceURL = m_aResourceString; aRemoveEvent.Element <<= uno::Reference< XNameAccess >(pRemovedImages); implts_notifyContainerListener( aRemoveEvent, NotifyOp_Remove ); } if ( pReplacedImages != nullptr ) { ConfigurationEvent aReplaceEvent; aReplaceEvent.aInfo <<= nImageType; aReplaceEvent.Accessor <<= xOwner; aReplaceEvent.Source = xOwner; aReplaceEvent.ResourceURL = m_aResourceString; aReplaceEvent.ReplacedElement = Any(); aReplaceEvent.Element <<= uno::Reference< XNameAccess >(pReplacedImages); implts_notifyContainerListener( aReplaceEvent, NotifyOp_Replace ); } } void ImageManagerImpl::insertImages( ::sal_Int16 nImageType, const Sequence< OUString >& aCommandURLSequence, const Sequence< uno::Reference< XGraphic > >& aGraphicSequence ) { replaceImages(nImageType,aCommandURLSequence,aGraphicSequence); } // XUIConfigurationPersistence void ImageManagerImpl::reload() { SolarMutexResettableGuard aGuard; if ( m_bDisposed ) throw DisposedException(); CommandMap aOldUserCmdImageSet; std::vector< OUString > aNewUserCmdImageSet; if ( !m_bModified ) return; for ( vcl::ImageType i : o3tl::enumrange() ) { if ( !m_bDisposed && m_bUserImageListModified[i] ) { std::vector< OUString > aOldUserCmdImageVector; ImageList* pImageList = implts_getUserImageList(i); pImageList->GetImageNames( aOldUserCmdImageVector ); // Fill hash map to speed up search afterwards sal_uInt32 j( 0 ); const sal_uInt32 nOldCount = aOldUserCmdImageVector.size(); for ( j = 0; j < nOldCount; j++ ) aOldUserCmdImageSet.emplace( aOldUserCmdImageVector[j], false ); // Attention: This can make the old image list pointer invalid! implts_loadUserImages( i, m_xUserImageStorage, m_xUserBitmapsStorage ); pImageList = implts_getUserImageList(i); pImageList->GetImageNames( aNewUserCmdImageSet ); rtl::Reference pInsertedImages; rtl::Reference pReplacedImages; rtl::Reference pRemovedImages; for (auto const& newUserCmdImage : aNewUserCmdImageSet) { CommandMap::iterator pIter = aOldUserCmdImageSet.find(newUserCmdImage); if ( pIter != aOldUserCmdImageSet.end() ) { pIter->second = true; // mark entry as replaced if ( !pReplacedImages ) pReplacedImages = new GraphicNameAccess(); pReplacedImages->addElement( newUserCmdImage, GetXGraphic(pImageList->GetImage(newUserCmdImage)) ); } else { if ( !pInsertedImages ) pInsertedImages = new GraphicNameAccess(); pInsertedImages->addElement( newUserCmdImage, GetXGraphic(pImageList->GetImage(newUserCmdImage)) ); } } // Search map for unmarked entries => they have been removed from the user list // through this reload operation. // We have to search the module and global image list! rtl::Reference< GlobalImageList > rGlobalImageList; CmdImageList* pDefaultImageList = nullptr; if ( m_bUseGlobal ) { rGlobalImageList = implts_getGlobalImageList(); pDefaultImageList = implts_getDefaultImageList(); } uno::Reference xEmptyGraphic; for (auto const& oldUserCmdImage : aOldUserCmdImageSet) { if ( !oldUserCmdImage.second ) { if ( m_bUseGlobal ) { Image aImage = pDefaultImageList->getImageFromCommandURL( i, oldUserCmdImage.first ); if ( !aImage ) aImage = rGlobalImageList->getImageFromCommandURL( i, oldUserCmdImage.first ); if ( !aImage ) { // No image in the module/global image list => remove user image if ( !pRemovedImages ) pRemovedImages = new GraphicNameAccess(); pRemovedImages->addElement( oldUserCmdImage.first, xEmptyGraphic ); } else { // Image has been found in the module/global image list => replace user image if ( !pReplacedImages ) pReplacedImages = new GraphicNameAccess(); pReplacedImages->addElement(oldUserCmdImage.first, GetXGraphic(aImage)); } } // if ( m_bUseGlobal ) else { // No image in the user image list => remove user image if ( !pRemovedImages ) pRemovedImages = new GraphicNameAccess(); pRemovedImages->addElement( oldUserCmdImage.first, xEmptyGraphic ); } } } aGuard.clear(); // Now notify our listeners. Unlock mutex to prevent deadlocks uno::Reference< uno::XInterface > xOwner(m_pOwner); if ( pInsertedImages != nullptr ) { ConfigurationEvent aInsertEvent; aInsertEvent.aInfo <<=static_cast(i); aInsertEvent.Accessor <<= xOwner; aInsertEvent.Source = xOwner; aInsertEvent.ResourceURL = m_aResourceString; aInsertEvent.Element <<= uno::Reference< XNameAccess >( pInsertedImages ); implts_notifyContainerListener( aInsertEvent, NotifyOp_Insert ); } if ( pReplacedImages != nullptr ) { ConfigurationEvent aReplaceEvent; aReplaceEvent.aInfo <<= static_cast(i); aReplaceEvent.Accessor <<= xOwner; aReplaceEvent.Source = xOwner; aReplaceEvent.ResourceURL = m_aResourceString; aReplaceEvent.ReplacedElement = Any(); aReplaceEvent.Element <<= uno::Reference< XNameAccess >( pReplacedImages ); implts_notifyContainerListener( aReplaceEvent, NotifyOp_Replace ); } if ( pRemovedImages != nullptr ) { ConfigurationEvent aRemoveEvent; aRemoveEvent.aInfo <<= static_cast(i); aRemoveEvent.Accessor <<= xOwner; aRemoveEvent.Source = xOwner; aRemoveEvent.ResourceURL = m_aResourceString; aRemoveEvent.Element <<= uno::Reference< XNameAccess >( pRemovedImages ); implts_notifyContainerListener( aRemoveEvent, NotifyOp_Remove ); } aGuard.reset(); } } } void ImageManagerImpl::store() { SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); if ( !m_bModified ) return; bool bWritten( false ); for ( vcl::ImageType i : o3tl::enumrange() ) { bool bSuccess = implts_storeUserImages(i, m_xUserImageStorage, m_xUserBitmapsStorage ); if ( bSuccess ) bWritten = true; m_bUserImageListModified[i] = false; } if ( bWritten && m_xUserConfigStorage.is() ) { uno::Reference< XTransactedObject > xUserConfigStorageCommit( m_xUserConfigStorage, UNO_QUERY ); if ( xUserConfigStorageCommit.is() ) xUserConfigStorageCommit->commit(); if ( m_xUserRootCommit.is() ) m_xUserRootCommit->commit(); } m_bModified = false; } void ImageManagerImpl::storeToStorage( const uno::Reference< XStorage >& Storage ) { SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); if ( !(m_bModified && Storage.is()) ) return; tools::Long nModes = ElementModes::READWRITE; uno::Reference< XStorage > xUserImageStorage = Storage->openStorageElement( IMAGE_FOLDER, nModes ); if ( !xUserImageStorage.is() ) return; uno::Reference< XStorage > xUserBitmapsStorage = xUserImageStorage->openStorageElement( BITMAPS_FOLDER, nModes ); for ( vcl::ImageType i : o3tl::enumrange() ) { implts_getUserImageList(i); implts_storeUserImages( i, xUserImageStorage, xUserBitmapsStorage ); } uno::Reference< XTransactedObject > xTransaction( Storage, UNO_QUERY ); if ( xTransaction.is() ) xTransaction->commit(); } bool ImageManagerImpl::isModified() const { SolarMutexGuard g; return m_bModified; } bool ImageManagerImpl::isReadOnly() const { SolarMutexGuard g; return m_bReadOnly; } // XUIConfiguration void ImageManagerImpl::addConfigurationListener( const uno::Reference< css::ui::XUIConfigurationListener >& xListener ) { { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); } std::unique_lock aGuard(m_mutex); m_aConfigListeners.addInterface( aGuard, xListener ); } void ImageManagerImpl::removeConfigurationListener( const uno::Reference< css::ui::XUIConfigurationListener >& xListener ) { /* SAFE AREA ----------------------------------------------------------------------------------------------- */ std::unique_lock aGuard(m_mutex); m_aConfigListeners.removeInterface( aGuard, xListener ); } void ImageManagerImpl::implts_notifyContainerListener( const ConfigurationEvent& aEvent, NotifyOp eOp ) { std::unique_lock aGuard(m_mutex); comphelper::OInterfaceIteratorHelper4 pIterator( aGuard, m_aConfigListeners ); while ( pIterator.hasMoreElements() ) { try { switch ( eOp ) { case NotifyOp_Replace: pIterator.next()->elementReplaced( aEvent ); break; case NotifyOp_Insert: pIterator.next()->elementInserted( aEvent ); break; case NotifyOp_Remove: pIterator.next()->elementRemoved( aEvent ); break; } } catch( const css::uno::RuntimeException& ) { pIterator.remove(aGuard); } } } void ImageManagerImpl::clear() { SolarMutexGuard g; for (auto & n : m_pUserImageList) { n.reset(); } } } // namespace framework /* vim:set shiftwidth=4 softtabstop=4 expandtab: */