/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ #include "precompiled_sfx2.hxx" #include "ResourceManager.hxx" #include "sfx2/sidebar/Tools.hxx" #include #include #include #include #include #include #include #include #include #include using ::rtl::OUString; using namespace css; using namespace cssu; namespace sfx2 { namespace sidebar { #define gsPrivateResourceToolpanelPrefix "private:resource/toolpanel/" class ResourceManager::Deleter { public: void operator() (ResourceManager* pObject) { delete pObject; } }; ResourceManager& ResourceManager::Instance (void) { static ResourceManager maInstance; return maInstance; } ResourceManager::ResourceManager (void) : maDecks(), maPanels(), maProcessedApplications() { ReadDeckList(); ReadPanelList(); } ResourceManager::~ResourceManager (void) { maPanels.clear(); maDecks.clear(); } const DeckDescriptor* ResourceManager::GetDeckDescriptor ( const ::rtl::OUString& rsDeckId) const { for (DeckContainer::const_iterator iDeck(maDecks.begin()), iEnd(maDecks.end()); iDeck!=iEnd; ++iDeck) { if (iDeck->msId.equals(rsDeckId)) return &*iDeck; } return NULL; } const PanelDescriptor* ResourceManager::GetPanelDescriptor ( const ::rtl::OUString& rsPanelId) const { for (PanelContainer::const_iterator iPanel(maPanels.begin()), iEnd(maPanels.end()); iPanel!=iEnd; ++iPanel) { if (iPanel->msId.equals(rsPanelId)) return &*iPanel; } return NULL; } void ResourceManager::SetIsDeckEnabled ( const ::rtl::OUString& rsDeckId, const bool bIsEnabled) { for (DeckContainer::iterator iDeck(maDecks.begin()), iEnd(maDecks.end()); iDeck!=iEnd; ++iDeck) { if (iDeck->msId.equals(rsDeckId)) { iDeck->mbIsEnabled = bIsEnabled; return; } } } const ResourceManager::DeckContextDescriptorContainer& ResourceManager::GetMatchingDecks ( DeckContextDescriptorContainer& rDecks, const Context& rContext, const bool bIsDocumentReadOnly, const Reference& rxFrame) { ReadLegacyAddons(rxFrame); ::std::multimap aOrderedIds; for (DeckContainer::const_iterator iDeck(maDecks.begin()), iEnd (maDecks.end()); iDeck!=iEnd; ++iDeck) { const DeckDescriptor& rDeckDescriptor (*iDeck); if (rDeckDescriptor.maContextList.GetMatch(rContext) == NULL) continue; DeckContextDescriptor aDeckContextDescriptor; aDeckContextDescriptor.msId = rDeckDescriptor.msId; aDeckContextDescriptor.mbIsEnabled = ! bIsDocumentReadOnly || IsDeckEnabled(rDeckDescriptor.msId, rContext, rxFrame); aOrderedIds.insert(::std::multimap::value_type( rDeckDescriptor.mnOrderIndex, aDeckContextDescriptor)); } for (::std::multimap::const_iterator iId(aOrderedIds.begin()), iEnd(aOrderedIds.end()); iId!=iEnd; ++iId) { rDecks.push_back(iId->second); } return rDecks; } const ResourceManager::PanelContextDescriptorContainer& ResourceManager::GetMatchingPanels ( PanelContextDescriptorContainer& rPanelIds, const Context& rContext, const ::rtl::OUString& rsDeckId, const Reference& rxFrame) { ReadLegacyAddons(rxFrame); ::std::multimap aOrderedIds; for (PanelContainer::const_iterator iPanel(maPanels.begin()), iEnd(maPanels.end()); iPanel!=iEnd; ++iPanel) { const PanelDescriptor& rPanelDescriptor (*iPanel); if ( ! rPanelDescriptor.msDeckId.equals(rsDeckId)) continue; const ContextList::Entry* pEntry = rPanelDescriptor.maContextList.GetMatch(rContext); if (pEntry == NULL) continue; PanelContextDescriptor aPanelContextDescriptor; aPanelContextDescriptor.msId = rPanelDescriptor.msId; aPanelContextDescriptor.msMenuCommand = pEntry->msMenuCommand; aPanelContextDescriptor.mbIsInitiallyVisible = pEntry->mbIsInitiallyVisible; aPanelContextDescriptor.mbShowForReadOnlyDocuments = rPanelDescriptor.mbShowForReadOnlyDocuments; aOrderedIds.insert(::std::multimap::value_type( rPanelDescriptor.mnOrderIndex, aPanelContextDescriptor)); } for (::std::multimap::const_iterator iId(aOrderedIds.begin()), iEnd(aOrderedIds.end()); iId!=iEnd; ++iId) { rPanelIds.push_back(iId->second); } return rPanelIds; } void ResourceManager::ReadDeckList (void) { const ::comphelper::ComponentContext aContext (::comphelper::getProcessServiceFactory()); const ::utl::OConfigurationTreeRoot aDeckRootNode ( aContext, A2S("org.openoffice.Office.UI.Sidebar/Content/DeckList"), false); if ( ! aDeckRootNode.isValid() ) return; const Sequence aDeckNodeNames (aDeckRootNode.getNodeNames()); const sal_Int32 nCount (aDeckNodeNames.getLength()); maDecks.resize(nCount); sal_Int32 nWriteIndex(0); for (sal_Int32 nReadIndex(0); nReadIndex aPanelNodeNames (aPanelRootNode.getNodeNames()); const sal_Int32 nCount (aPanelNodeNames.getLength()); maPanels.resize(nCount); sal_Int32 nWriteIndex (0); for (sal_Int32 nReadIndex(0); nReadIndex aValues; sal_Int32 nCount; if (aValue >>= aValues) nCount = aValues.getLength(); else nCount = 0; for (sal_Int32 nIndex=0; nIndex0 ? (sMenuCommandOverride.equalsAscii("none") ? OUString() : sMenuCommandOverride) : rsDefaultMenuCommand); // Setup a list of application enums. Note that the // application name may result in more than one value (eg // DrawImpress will result in two enums, one for Draw and one // for Impress). ::std::vector aApplications; EnumContext::Application eApplication (EnumContext::GetApplicationEnum(sApplicationName)); if (eApplication == EnumContext::Application_None && !sApplicationName.equals(EnumContext::GetApplicationName(EnumContext::Application_None))) { // Handle some special names: abbreviations that make // context descriptions more readable. if (sApplicationName.equalsAscii("Writer")) aApplications.push_back(EnumContext::Application_Writer); else if (sApplicationName.equalsAscii("Calc")) aApplications.push_back(EnumContext::Application_Calc); else if (sApplicationName.equalsAscii("Draw")) aApplications.push_back(EnumContext::Application_Draw); else if (sApplicationName.equalsAscii("Impress")) aApplications.push_back(EnumContext::Application_Impress); else if (sApplicationName.equalsAscii("DrawImpress")) { // A special case among the special names: it is // common to use the same context descriptions for // both Draw and Impress. This special case helps to // avoid duplication in the .xcu file. aApplications.push_back(EnumContext::Application_Draw); aApplications.push_back(EnumContext::Application_Impress); } else if (sApplicationName.equalsAscii("WriterVariants")) { // Another special case for all Writer variants. aApplications.push_back(EnumContext::Application_Writer); aApplications.push_back(EnumContext::Application_WriterGlobal); aApplications.push_back(EnumContext::Application_WriterWeb); aApplications.push_back(EnumContext::Application_WriterXML); aApplications.push_back(EnumContext::Application_WriterForm); aApplications.push_back(EnumContext::Application_WriterReport); } else { OSL_ASSERT("application name not recognized"); continue; } } else { // No conversion of the application name necessary. aApplications.push_back(eApplication); } // Setup the actual context enum. const EnumContext::Context eContext (EnumContext::GetContextEnum(sContextName)); if (eContext == EnumContext::Context_Unknown) { OSL_ASSERT("context name not recognized"); continue; } // Setup the flag that controls whether a deck/pane is // initially visible/expanded. bool bIsInitiallyVisible; if (sInitialState.equalsAscii("visible")) bIsInitiallyVisible = true; else if (sInitialState.equalsAscii("hidden")) bIsInitiallyVisible = false; else { OSL_ASSERT("unrecognized state"); continue; } // Add context descriptors. for (::std::vector::const_iterator iApplication(aApplications.begin()), iEnd(aApplications.end()); iApplication!=iEnd; ++iApplication) { if (*iApplication != EnumContext::Application_None) rContextList.AddContextDescription( Context( EnumContext::GetApplicationName(*iApplication), EnumContext::GetContextName(eContext)), bIsInitiallyVisible, sMenuCommand); } } } void ResourceManager::ReadLegacyAddons (const Reference& rxFrame) { // Get module name for given frame. ::rtl::OUString sModuleName (GetModuleName(rxFrame)); if (sModuleName.getLength() == 0) return; if (maProcessedApplications.find(sModuleName) != maProcessedApplications.end()) { // Addons for this application have already been read. // There is nothing more to do. return; } // Mark module as processed. Even when there is an error that // prevents the configuration data from being read, this error // will not be triggered a second time. maProcessedApplications.insert(sModuleName); // Get access to the configuration root node for the application. ::utl::OConfigurationTreeRoot aLegacyRootNode (GetLegacyAddonRootNode(sModuleName)); if ( ! aLegacyRootNode.isValid()) return; // Process child nodes. ::std::vector aMatchingNodeNames; GetToolPanelNodeNames(aMatchingNodeNames, aLegacyRootNode); const sal_Int32 nCount (aMatchingNodeNames.size()); size_t nDeckWriteIndex (maDecks.size()); size_t nPanelWriteIndex (maPanels.size()); maDecks.resize(maDecks.size() + nCount); maPanels.resize(maPanels.size() + nCount); for (sal_Int32 nReadIndex(0); nReadIndexmsId.equals(rsPanelId)) { ContextList::Entry* pEntry ( iPanel->maContextList.GetMatch (rContext)); if (pEntry != NULL) pEntry->mbIsInitiallyVisible = bExpansionState; } } } ::rtl::OUString ResourceManager::GetModuleName ( const cssu::Reference& rxFrame) { if ( ! rxFrame.is() || ! rxFrame->getController().is()) return OUString(); try { const ::comphelper::ComponentContext aContext (::comphelper::getProcessServiceFactory()); const Reference xModuleManager ( aContext.createComponent("com.sun.star.frame.ModuleManager"), UNO_QUERY_THROW); return xModuleManager->identify(rxFrame); } catch (const Exception&) { DBG_UNHANDLED_EXCEPTION(); } return OUString(); } ::utl::OConfigurationTreeRoot ResourceManager::GetLegacyAddonRootNode ( const ::rtl::OUString& rsModuleName) const { try { const ::comphelper::ComponentContext aContext (::comphelper::getProcessServiceFactory()); const Reference xModuleAccess ( aContext.createComponent("com.sun.star.frame.ModuleManager"), UNO_QUERY_THROW); const ::comphelper::NamedValueCollection aModuleProperties (xModuleAccess->getByName(rsModuleName)); const ::rtl::OUString sWindowStateRef (aModuleProperties.getOrDefault( "ooSetupFactoryWindowStateConfigRef", ::rtl::OUString())); ::rtl::OUStringBuffer aPathComposer; aPathComposer.appendAscii("org.openoffice.Office.UI."); aPathComposer.append(sWindowStateRef); aPathComposer.appendAscii("/UIElements/States"); return ::utl::OConfigurationTreeRoot(aContext, aPathComposer.makeStringAndClear(), false); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } return ::utl::OConfigurationTreeRoot(); } void ResourceManager::GetToolPanelNodeNames ( ::std::vector& rMatchingNames, const ::utl::OConfigurationTreeRoot aRoot) const { Sequence aChildNodeNames (aRoot.getNodeNames()); const sal_Int32 nCount (aChildNodeNames.getLength()); for (sal_Int32 nIndex(0); nIndex& rxFrame) const { // Check if any panel that matches the current context can be // displayed. ResourceManager::PanelContextDescriptorContainer aPanelContextDescriptors; ResourceManager::Instance().GetMatchingPanels( aPanelContextDescriptors, rContext, rsDeckId, rxFrame); for (ResourceManager::PanelContextDescriptorContainer::const_iterator iPanel(aPanelContextDescriptors.begin()), iEnd(aPanelContextDescriptors.end()); iPanel!=iEnd; ++iPanel) { if (iPanel->mbShowForReadOnlyDocuments) return true; } return false; } } } // end of namespace sfx2::sidebar