/* -*- 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 using namespace css; using namespace css::uno; namespace sfx2::sidebar { namespace { OUString getString(utl::OConfigurationNode const & aNode, const char* pNodeName) { return comphelper::getString(aNode.getNodeValue(pNodeName)); } sal_Int32 getInt32(utl::OConfigurationNode const & aNode, const char* pNodeName) { return comphelper::getINT32(aNode.getNodeValue(pNodeName)); } bool getBool(utl::OConfigurationNode const & aNode, const char* pNodeName) { return comphelper::getBOOL(aNode.getNodeValue(pNodeName)); } css::uno::Sequence BuildContextList (const ContextList& rContextList) { const ::std::vector& entries = rContextList.GetEntries(); css::uno::Sequence result(entries.size()); long i = 0; for (auto const& entry : entries) { OUString appName = entry.maContext.msApplication; OUString contextName = entry.maContext.msContext; OUString menuCommand = entry.msMenuCommand; OUString visibility; if (entry.mbIsInitiallyVisible) visibility = "visible"; else visibility = "hidden"; OUString element = appName + ", " + contextName +", " + visibility; if (!menuCommand.isEmpty()) element += ", "+menuCommand; result[i] = element; ++i; } return result; } } //end anonymous namespace ResourceManager::ResourceManager() : maDecks(), maPanels(), maProcessedApplications(), maMiscOptions() { ReadDeckList(); ReadPanelList(); ReadLastActive(); } ResourceManager::~ResourceManager() { } void ResourceManager::InitDeckContext(const Context& rContext) { for (auto const& deck : maDecks) { const ContextList::Entry* pMatchingEntry = deck->maContextList.GetMatch(rContext); bool bIsEnabled; if (pMatchingEntry) bIsEnabled = pMatchingEntry->mbIsInitiallyVisible; else bIsEnabled = false; deck->mbIsEnabled = bIsEnabled; } } std::shared_ptr ResourceManager::ImplGetDeckDescriptor(const OUString& rsDeckId) const { for (auto const& deck : maDecks) { if (deck->mbExperimental && !maMiscOptions.IsExperimentalMode()) continue; if (deck->msId == rsDeckId) return deck; } return nullptr; } std::shared_ptr ResourceManager::GetDeckDescriptor(const OUString& rsDeckId) const { return ImplGetDeckDescriptor( rsDeckId ); } std::shared_ptr ResourceManager::ImplGetPanelDescriptor(const OUString& rsPanelId) const { for (auto const& panel : maPanels) { if (panel->msId == rsPanelId) return panel; } return nullptr; } std::shared_ptr ResourceManager::GetPanelDescriptor(const OUString& rsPanelId) const { return ImplGetPanelDescriptor( rsPanelId ); } const ResourceManager::DeckContextDescriptorContainer& ResourceManager::GetMatchingDecks ( DeckContextDescriptorContainer& rDecks, const Context& rContext, const bool bIsDocumentReadOnly, const Reference& rxController) { ReadLegacyAddons(rxController); std::multimap aOrderedIds; for (auto const& deck : maDecks) { if (deck->mbExperimental && !maMiscOptions.IsExperimentalMode()) continue; const DeckDescriptor& rDeckDescriptor (*deck); if (rDeckDescriptor.maContextList.GetMatch(rContext) == nullptr) continue; DeckContextDescriptor aDeckContextDescriptor; aDeckContextDescriptor.msId = rDeckDescriptor.msId; aDeckContextDescriptor.mbIsEnabled = (! bIsDocumentReadOnly || IsDeckEnabled(rDeckDescriptor.msId, rContext, rxController) ) && rDeckDescriptor.mbIsEnabled; aOrderedIds.emplace(rDeckDescriptor.mnOrderIndex, aDeckContextDescriptor); } for (auto const& orderId : aOrderedIds) { rDecks.push_back(orderId.second); } return rDecks; } const ResourceManager::PanelContextDescriptorContainer& ResourceManager::GetMatchingPanels ( PanelContextDescriptorContainer& rPanelIds, const Context& rContext, const OUString& sDeckId, const Reference& rxController) { ReadLegacyAddons(rxController); std::multimap aOrderedIds; for (auto const& panel : maPanels) { const PanelDescriptor& rPanelDescriptor (*panel); if (rPanelDescriptor.mbExperimental && !maMiscOptions.IsExperimentalMode()) continue; if ( rPanelDescriptor.msDeckId != sDeckId ) continue; const ContextList::Entry* pEntry = rPanelDescriptor.maContextList.GetMatch(rContext); if (pEntry == nullptr) continue; PanelContextDescriptor aPanelContextDescriptor; aPanelContextDescriptor.msId = rPanelDescriptor.msId; aPanelContextDescriptor.msMenuCommand = pEntry->msMenuCommand; aPanelContextDescriptor.mbIsInitiallyVisible = pEntry->mbIsInitiallyVisible; aPanelContextDescriptor.mbShowForReadOnlyDocuments = rPanelDescriptor.mbShowForReadOnlyDocuments; aOrderedIds.emplace(rPanelDescriptor.mnOrderIndex, aPanelContextDescriptor); } for (auto const& orderId : aOrderedIds) { rPanelIds.push_back(orderId.second); } return rPanelIds; } const OUString& ResourceManager::GetLastActiveDeck( const Context& rContext ) { if( maLastActiveDecks.find( rContext.msApplication ) == maLastActiveDecks.end()) return maLastActiveDecks["any"]; else return maLastActiveDecks[rContext.msApplication]; } void ResourceManager::SetLastActiveDeck( const Context& rContext, const OUString &rsDeckId ) { maLastActiveDecks[rContext.msApplication] = rsDeckId; } void ResourceManager::ReadDeckList() { const utl::OConfigurationTreeRoot aDeckRootNode( comphelper::getProcessComponentContext(), "org.openoffice.Office.UI.Sidebar/Content/DeckList", false); if (!aDeckRootNode.isValid()) return; const Sequence aDeckNodeNames (aDeckRootNode.getNodeNames()); maDecks.clear(); for (const OUString& aDeckName : aDeckNodeNames) { if (comphelper::LibreOfficeKit::isActive()) { // Hide these decks in LOK as they aren't fully functional. if (aDeckName == "GalleryDeck" || aDeckName == "NavigatorDeck" || aDeckName == "StyleListDeck") continue; } const utl::OConfigurationNode aDeckNode(aDeckRootNode.openNode(aDeckName)); if (!aDeckNode.isValid()) continue; maDecks.push_back(std::make_shared()); DeckDescriptor& rDeckDescriptor (*maDecks.back()); rDeckDescriptor.msTitle = getString(aDeckNode, "Title"); rDeckDescriptor.msId = getString(aDeckNode, "Id"); rDeckDescriptor.msIconURL = getString(aDeckNode, "IconURL"); rDeckDescriptor.msHighContrastIconURL = getString(aDeckNode, "HighContrastIconURL"); rDeckDescriptor.msTitleBarIconURL = getString(aDeckNode, "TitleBarIconURL"); rDeckDescriptor.msHighContrastTitleBarIconURL = getString(aDeckNode, "HighContrastTitleBarIconURL"); rDeckDescriptor.msHelpText = rDeckDescriptor.msTitle; rDeckDescriptor.mnOrderIndex = getInt32(aDeckNode, "OrderIndex"); rDeckDescriptor.mbExperimental = getBool(aDeckNode, "IsExperimental"); rDeckDescriptor.msNodeName = aDeckName; ReadContextList( aDeckNode, rDeckDescriptor.maContextList, OUString()); } } void ResourceManager::SaveDecksSettings(const Context& rContext) { for (auto const& deck : maDecks) { const ContextList::Entry* pMatchingEntry = deck->maContextList.GetMatch(rContext); if (pMatchingEntry) { std::shared_ptr xDeckDesc = GetDeckDescriptor(deck->msId); if (xDeckDesc) SaveDeckSettings(xDeckDesc.get()); } } } void ResourceManager::SaveDeckSettings(const DeckDescriptor* pDeckDesc) { const utl::OConfigurationTreeRoot aDeckRootNode( comphelper::getProcessComponentContext(), "org.openoffice.Office.UI.Sidebar/Content/DeckList", true); if (!aDeckRootNode.isValid()) return; // save deck settings ::uno::Sequence< OUString > sContextList = BuildContextList(pDeckDesc->maContextList); utl::OConfigurationNode aDeckNode (aDeckRootNode.openNode(pDeckDesc->msNodeName)); css::uno::Any aTitle(makeAny(pDeckDesc->msTitle)); css::uno::Any aOrder(makeAny(pDeckDesc->mnOrderIndex)); css::uno::Any aContextList(makeAny(sContextList)); bool bChanged = false; if (aTitle != aDeckNode.getNodeValue("Title")) { aDeckNode.setNodeValue("Title", aTitle); bChanged = true; } if (aOrder != aDeckNode.getNodeValue("OrderIndex")) { aDeckNode.setNodeValue("OrderIndex", aOrder); bChanged = true; } if (aContextList != aDeckNode.getNodeValue("ContextList")) { aDeckNode.setNodeValue("ContextList", aContextList); bChanged = true; } if (bChanged) aDeckRootNode.commit(); // save panel settings const utl::OConfigurationTreeRoot aPanelRootNode( comphelper::getProcessComponentContext(), "org.openoffice.Office.UI.Sidebar/Content/PanelList", true); if (!aPanelRootNode.isValid()) return; if (!pDeckDesc->mpDeck) // the deck has not been edited return; SharedPanelContainer rPanels = pDeckDesc->mpDeck->GetPanels(); bChanged = false; for (auto const& panel : rPanels) { OUString panelId = panel->GetId(); std::shared_ptr xPanelDesc = GetPanelDescriptor(panelId); ::uno::Sequence< OUString > sPanelContextList = BuildContextList(xPanelDesc->maContextList); utl::OConfigurationNode aPanelNode (aPanelRootNode.openNode(xPanelDesc->msNodeName)); aTitle <<= xPanelDesc->msTitle; aOrder <<= xPanelDesc->mnOrderIndex; aContextList <<= sPanelContextList; if (aTitle != aPanelNode.getNodeValue("Title")) { aPanelNode.setNodeValue("Title", aTitle); bChanged = true; } if (aOrder != aPanelNode.getNodeValue("OrderIndex")) { aPanelNode.setNodeValue("OrderIndex", aOrder); bChanged = true; } if (aContextList != aPanelNode.getNodeValue("ContextList")) { aPanelNode.setNodeValue("ContextList", aContextList); bChanged = true; } } if (bChanged) aPanelRootNode.commit(); } void ResourceManager::SaveLastActiveDeck(const Context& rContext, const OUString& rActiveDeck) { maLastActiveDecks[rContext.msApplication] = rActiveDeck; std::set aLastActiveDecks; for ( auto const & rEntry : maLastActiveDecks ) aLastActiveDecks.insert( rEntry.first + "," + rEntry.second); std::shared_ptr cfgWriter( comphelper::ConfigurationChanges::create() ); officecfg::Office::UI::Sidebar::Content::LastActiveDeck::set(comphelper::containerToSequence(aLastActiveDecks), cfgWriter); cfgWriter->commit(); } void ResourceManager::ReadPanelList() { const utl::OConfigurationTreeRoot aPanelRootNode( comphelper::getProcessComponentContext(), "org.openoffice.Office.UI.Sidebar/Content/PanelList", false); if (!aPanelRootNode.isValid()) return; const Sequence aPanelNodeNames (aPanelRootNode.getNodeNames()); maPanels.clear(); for (const auto& rPanelNodeName : aPanelNodeNames) { const utl::OConfigurationNode aPanelNode (aPanelRootNode.openNode(rPanelNodeName)); if (!aPanelNode.isValid()) continue; maPanels.push_back(std::make_shared()); PanelDescriptor& rPanelDescriptor(*maPanels.back()); rPanelDescriptor.msTitle = getString(aPanelNode, "Title"); rPanelDescriptor.mbIsTitleBarOptional = getBool(aPanelNode, "TitleBarIsOptional"); rPanelDescriptor.msId = getString(aPanelNode, "Id"); rPanelDescriptor.msDeckId = getString(aPanelNode, "DeckId"); rPanelDescriptor.msTitleBarIconURL = getString(aPanelNode, "TitleBarIconURL"); rPanelDescriptor.msHighContrastTitleBarIconURL = getString(aPanelNode, "HighContrastTitleBarIconURL"); rPanelDescriptor.msImplementationURL = getString(aPanelNode, "ImplementationURL"); rPanelDescriptor.mnOrderIndex = getInt32(aPanelNode, "OrderIndex"); rPanelDescriptor.mbShowForReadOnlyDocuments = getBool(aPanelNode, "ShowForReadOnlyDocument"); rPanelDescriptor.mbWantsCanvas = getBool(aPanelNode, "WantsCanvas"); rPanelDescriptor.mbExperimental = getBool(aPanelNode, "IsExperimental"); const OUString sDefaultMenuCommand(getString(aPanelNode, "DefaultMenuCommand")); rPanelDescriptor.msNodeName = rPanelNodeName; ReadContextList(aPanelNode, rPanelDescriptor.maContextList, sDefaultMenuCommand); } } void ResourceManager::ReadLastActive() { const Sequence aLastActive (officecfg::Office::UI::Sidebar::Content::LastActiveDeck::get()); for (const auto& rDeckInfo : aLastActive) { sal_Int32 nCharIdx = rDeckInfo.lastIndexOf(','); if ( nCharIdx <= 0 || (nCharIdx == rDeckInfo.getLength() - 1) ) { SAL_WARN("sfx.sidebar", "Expecting 2 values separated by comma"); continue; } const OUString sApplicationName = rDeckInfo.copy( 0, nCharIdx ); vcl::EnumContext::Application eApplication (vcl::EnumContext::GetApplicationEnum(sApplicationName)); const OUString sLastUsed = rDeckInfo.copy( nCharIdx + 1 ); // guard against garbage in place of application if (eApplication != vcl::EnumContext::Application::NONE) maLastActiveDecks.insert( std::make_pair(sApplicationName, sLastUsed ) ); } } void ResourceManager::ReadContextList ( const utl::OConfigurationNode& rParentNode, ContextList& rContextList, const OUString& rsDefaultMenuCommand) { const Any aValue = rParentNode.getNodeValue("ContextList"); Sequence aValues; if (!(aValue >>= aValues)) return; for (const OUString& sValue : std::as_const(aValues)) { sal_Int32 nCharacterIndex (0); const OUString sApplicationName (sValue.getToken(0, ',', nCharacterIndex).trim()); if (nCharacterIndex < 0) { if (sApplicationName.getLength() == 0) { // This is a valid case: in the XML file the separator // was used as terminator. Using it in the last line // creates an additional but empty entry. break; } else { OSL_FAIL("expecting three or four values per ContextList entry, separated by comma"); continue; } } const OUString sContextName(sValue.getToken(0, ',', nCharacterIndex).trim()); if (nCharacterIndex < 0) { OSL_FAIL("expecting three or four values per ContextList entry, separated by comma"); continue; } const OUString sInitialState(sValue.getToken(0, ',', nCharacterIndex).trim()); // The fourth argument is optional. const OUString sMenuCommandOverride( nCharacterIndex < 0 ? OUString() : sValue.getToken(0, ',', nCharacterIndex).trim()); const OUString sMenuCommand( sMenuCommandOverride.getLength() > 0 ? (sMenuCommandOverride == "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; vcl::EnumContext::Application eApplication (vcl::EnumContext::GetApplicationEnum(sApplicationName)); if (eApplication == vcl::EnumContext::Application::NONE && sApplicationName != vcl::EnumContext::GetApplicationName(vcl::EnumContext::Application::NONE)) { // Handle some special names: abbreviations that make // context descriptions more readable. if (sApplicationName == "Writer") aApplications.push_back(vcl::EnumContext::Application::Writer); else if (sApplicationName == "Calc") aApplications.push_back(vcl::EnumContext::Application::Calc); else if (sApplicationName == "Draw") aApplications.push_back(vcl::EnumContext::Application::Draw); else if (sApplicationName == "Impress") aApplications.push_back(vcl::EnumContext::Application::Impress); else if (sApplicationName == "Chart") aApplications.push_back(vcl::EnumContext::Application::Chart); else if (sApplicationName == "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(vcl::EnumContext::Application::Draw); aApplications.push_back(vcl::EnumContext::Application::Impress); } else if (sApplicationName == "WriterVariants") { // Another special case for all Writer variants. aApplications.push_back(vcl::EnumContext::Application::Writer); aApplications.push_back(vcl::EnumContext::Application::WriterGlobal); aApplications.push_back(vcl::EnumContext::Application::WriterWeb); aApplications.push_back(vcl::EnumContext::Application::WriterXML); aApplications.push_back(vcl::EnumContext::Application::WriterForm); aApplications.push_back(vcl::EnumContext::Application::WriterReport); } else { SAL_WARN("sfx.sidebar", "application name " << sApplicationName << " not recognized"); continue; } } else { // No conversion of the application name necessary. aApplications.push_back(eApplication); } // Setup the actual context enum. const vcl::EnumContext::Context eContext (vcl::EnumContext::GetContextEnum(sContextName)); if (eContext == vcl::EnumContext::Context::Unknown) { SAL_WARN("sfx.sidebar", "context name " << sContextName << " not recognized"); continue; } // Setup the flag that controls whether a deck/pane is // initially visible/expanded. bool bIsInitiallyVisible; if (sInitialState == "visible") bIsInitiallyVisible = true; else if (sInitialState == "hidden") bIsInitiallyVisible = false; else { OSL_FAIL("unrecognized state"); continue; } // Add context descriptors. for (auto const& application : aApplications) { if (application != vcl::EnumContext::Application::NONE) { rContextList.AddContextDescription( Context( vcl::EnumContext::GetApplicationName(application), vcl::EnumContext::GetContextName(eContext)), bIsInitiallyVisible, sMenuCommand); } } } } void ResourceManager::ReadLegacyAddons (const Reference& rxController) { // Get module name for given frame. OUString sModuleName (Tools::GetModuleName(rxController)); 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()); for (sal_Int32 nReadIndex(0); nReadIndex()); DeckDescriptor& rDeckDescriptor(*maDecks.back()); rDeckDescriptor.msTitle = getString(aChildNode, "UIName"); rDeckDescriptor.msId = rsNodeName; rDeckDescriptor.msIconURL = getString(aChildNode, "ImageURL"); rDeckDescriptor.msHighContrastIconURL = rDeckDescriptor.msIconURL; rDeckDescriptor.msTitleBarIconURL.clear(); rDeckDescriptor.msHighContrastTitleBarIconURL.clear(); rDeckDescriptor.msHelpText = rDeckDescriptor.msTitle; rDeckDescriptor.mbIsEnabled = true; rDeckDescriptor.mnOrderIndex = 100000 + nReadIndex; rDeckDescriptor.maContextList.AddContextDescription(Context(sModuleName, "any"), true, OUString()); maPanels.push_back(std::make_shared()); PanelDescriptor& rPanelDescriptor(*maPanels.back()); rPanelDescriptor.msTitle = getString(aChildNode, "UIName"); rPanelDescriptor.mbIsTitleBarOptional = true; rPanelDescriptor.msId = rsNodeName; rPanelDescriptor.msDeckId = rsNodeName; rPanelDescriptor.msTitleBarIconURL.clear(); rPanelDescriptor.msHighContrastTitleBarIconURL.clear(); rPanelDescriptor.msImplementationURL = rsNodeName; rPanelDescriptor.mnOrderIndex = 100000 + nReadIndex; rPanelDescriptor.mbShowForReadOnlyDocuments = false; rPanelDescriptor.mbWantsCanvas = false; rPanelDescriptor.maContextList.AddContextDescription(Context(sModuleName, "any"), true, OUString()); } } void ResourceManager::StorePanelExpansionState ( const OUString& rsPanelId, const bool bExpansionState, const Context& rContext) { for (auto const& panel : maPanels) { if (panel->msId == rsPanelId) { ContextList::Entry* pEntry(panel->maContextList.GetMatch(rContext)); if (pEntry != nullptr) pEntry->mbIsInitiallyVisible = bExpansionState; } } } utl::OConfigurationTreeRoot ResourceManager::GetLegacyAddonRootNode (const OUString& rsModuleName) { try { const Reference xContext(comphelper::getProcessComponentContext()); const Reference xModuleAccess = frame::ModuleManager::create(xContext); const comphelper::NamedValueCollection aModuleProperties(xModuleAccess->getByName(rsModuleName)); const OUString sWindowStateRef(aModuleProperties.getOrDefault( "ooSetupFactoryWindowStateConfigRef", OUString())); OUString aPathComposer = "org.openoffice.Office.UI." + sWindowStateRef + "/UIElements/States"; return utl::OConfigurationTreeRoot(xContext, aPathComposer, false); } catch (const Exception&) { DBG_UNHANDLED_EXCEPTION("sfx.sidebar"); } return utl::OConfigurationTreeRoot(); } void ResourceManager::GetToolPanelNodeNames ( std::vector& rMatchingNames, const utl::OConfigurationTreeRoot& aRoot) { Sequence aChildNodeNames (aRoot.getNodeNames()); std::copy_if(aChildNodeNames.begin(), aChildNodeNames.end(), std::back_inserter(rMatchingNames), [](const OUString& rChildNodeName) { return rChildNodeName.startsWith( "private:resource/toolpanel/" ); }); } bool ResourceManager::IsDeckEnabled ( const OUString& rsDeckId, const Context& rContext, const Reference& rxController) { // Check if any panel that matches the current context can be // displayed. PanelContextDescriptorContainer aPanelContextDescriptors; GetMatchingPanels(aPanelContextDescriptors, rContext, rsDeckId, rxController); for (auto const& panelContextDescriptor : aPanelContextDescriptors) { if (panelContextDescriptor.mbShowForReadOnlyDocuments) return true; } return false; } void ResourceManager::UpdateModel(const css::uno::Reference& xModel) { for (auto const& deck : maDecks) { if (!deck->mpDeck) continue; const SharedPanelContainer& rContainer = deck->mpDeck->GetPanels(); for (auto const& elem : rContainer) { css::uno::Reference xPanel(elem->GetPanelComponent(), css::uno::UNO_QUERY); if (xPanel.is()) // tdf#108814 interface is optional { xPanel->updateModel(xModel); } } } } void ResourceManager::disposeDecks() { for (auto const& deck : maDecks) { deck->mpDeck.disposeAndClear(); } } } // end of namespace sfx2::sidebar /* vim:set shiftwidth=4 softtabstop=4 expandtab: */