/* -*- 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 using namespace ::com::sun::star; using namespace ::com::sun::star::uno; namespace { OUString lcl_FullPathName(const OUString& sPath, const OUString& sName) { return sPath + "/" + sName + SwGlossaries::GetExtension(); } OUString lcl_CheckFileName( const OUString& rNewFilePath, const OUString& rNewGroupName ) { const sal_Int32 nLen = rNewGroupName.getLength(); OUStringBuffer aBuf(nLen); //group name should contain only A-Z and a-z and spaces for( sal_Int32 i=0; i < nLen; ++i ) { const sal_Unicode cChar = rNewGroupName[i]; if (rtl::isAsciiAlphanumeric(cChar) || cChar == '_' || cChar == 0x20) { aBuf.append(cChar); } } const OUString sRet = aBuf.makeStringAndClear().trim(); if ( !sRet.isEmpty() ) { if (!FStatHelper::IsDocument( lcl_FullPathName(rNewFilePath, sRet) )) return sRet; } OUString rSG = SwGlossaries::GetExtension(); //generate generic name utl::TempFile aTemp("group", true, &rSG, &rNewFilePath); aTemp.EnableKillingFile(); INetURLObject aTempURL( aTemp.GetURL() ); return aTempURL.GetBase(); } } // supplies the default group's name OUString SwGlossaries::GetDefName() { return "standard"; } // supplies the number of text block groups size_t SwGlossaries::GetGroupCnt() { return GetNameList().size(); } // supplies the group's name bool SwGlossaries::FindGroupName(OUString& rGroup) { // if the group name doesn't contain a path, a suitable group entry // can the searched for here; const size_t nCount = GetGroupCnt(); for(size_t i = 0; i < nCount; ++i) { const OUString sTemp(GetGroupName(i)); if (rGroup==sTemp.getToken(0, GLOS_DELIM)) { rGroup = sTemp; return true; } } // you can search two times because for more directories the case sensitive // name could occur multiple times const ::utl::TransliterationWrapper& rSCmp = GetAppCmpStrIgnore(); for(size_t i = 0; i < nCount; ++i) { const OUString sTemp( GetGroupName( i )); sal_uInt16 nPath = sTemp.getToken(1, GLOS_DELIM).toUInt32(); if (!SWUnoHelper::UCB_IsCaseSensitiveFileName( m_PathArr[nPath] ) && rSCmp.isEqual( rGroup, sTemp.getToken( 0, GLOS_DELIM) ) ) { rGroup = sTemp; return true; } } return false; } OUString const & SwGlossaries::GetGroupName(size_t nGroupId) { OSL_ENSURE(nGroupId < m_GlosArr.size(), "SwGlossaries::GetGroupName: index out of bounds"); return m_GlosArr[nGroupId]; } OUString SwGlossaries::GetGroupTitle( const OUString& rGroupName ) { OUString sRet; OUString sGroup(rGroupName); if (sGroup.indexOf(GLOS_DELIM)<0) FindGroupName(sGroup); std::unique_ptr pGroup = GetGroupDoc(sGroup); if(pGroup) { sRet = pGroup->GetName(); } return sRet; } // supplies the group rName's text block document std::unique_ptr SwGlossaries::GetGroupDoc(const OUString &rName, bool bCreate) { // insert to the list of text blocks if applicable if(bCreate && !m_GlosArr.empty()) { if (std::none_of(m_GlosArr.begin(), m_GlosArr.end(), [&rName](const OUString& rEntry) { return rEntry == rName; })) { // block not in the list m_GlosArr.push_back(rName); } } return GetGlosDoc( rName, bCreate ); } // Creates a new document with the group name. temporarily also created as file // so that groups remain there later (without access). bool SwGlossaries::NewGroupDoc(OUString& rGroupName, const OUString& rTitle) { const OUString sNewPath(rGroupName.getToken(1, GLOS_DELIM)); sal_uInt16 nNewPath = static_cast(sNewPath.toInt32()); if (static_cast(nNewPath) >= m_PathArr.size()) return false; const OUString sNewFilePath(m_PathArr[nNewPath]); const OUString sNewGroup = lcl_CheckFileName(sNewFilePath, rGroupName.getToken(0, GLOS_DELIM)) + OUStringChar(GLOS_DELIM) + sNewPath; std::unique_ptr pBlock = GetGlosDoc( sNewGroup ); if(pBlock) { GetNameList().push_back(sNewGroup); pBlock->SetName(rTitle); rGroupName = sNewGroup; return true; } return false; } bool SwGlossaries::RenameGroupDoc( const OUString& rOldGroup, OUString& rNewGroup, const OUString& rNewTitle ) { sal_uInt16 nOldPath = static_cast(rOldGroup.getToken(1, GLOS_DELIM).toInt32()); if (static_cast(nOldPath) >= m_PathArr.size()) return false; const OUString sOldFileURL = lcl_FullPathName(m_PathArr[nOldPath], rOldGroup.getToken(0, GLOS_DELIM)); if (!FStatHelper::IsDocument( sOldFileURL )) { OSL_FAIL("group doesn't exist!"); return false; } sal_uInt16 nNewPath = static_cast(rNewGroup.getToken(1, GLOS_DELIM).toInt32()); if (static_cast(nNewPath) >= m_PathArr.size()) return false; const OUString sNewFileName = lcl_CheckFileName(m_PathArr[nNewPath], rNewGroup.getToken(0, GLOS_DELIM)); const OUString sNewFileURL = lcl_FullPathName(m_PathArr[nNewPath], sNewFileName); if (FStatHelper::IsDocument( sNewFileURL )) { OSL_FAIL("group already exists!"); return false; } if (!SWUnoHelper::UCB_MoveFile(sOldFileURL, sNewFileURL )) return false; RemoveFileFromList( rOldGroup ); rNewGroup = sNewFileName + OUStringChar(GLOS_DELIM) + OUString::number(nNewPath); if (m_GlosArr.empty()) { GetNameList(); } else { m_GlosArr.push_back(rNewGroup); } std::unique_ptr pNewBlock(new SwTextBlocks( sNewFileURL )); pNewBlock->SetName(rNewTitle); return true; } // Deletes a text block group bool SwGlossaries::DelGroupDoc(const OUString &rName) { sal_uInt16 nPath = static_cast(rName.getToken(1, GLOS_DELIM).toInt32()); if (static_cast(nPath) >= m_PathArr.size()) return false; const OUString sBaseName(rName.getToken(0, GLOS_DELIM)); const OUString sFileURL = lcl_FullPathName(m_PathArr[nPath], sBaseName); const OUString aName = sBaseName + OUStringChar(GLOS_DELIM) + OUString::number(nPath); // Even if the file doesn't exist it has to be deleted from // the list of text block regions // no && because of CFfront bool bRemoved = SWUnoHelper::UCB_DeleteFile( sFileURL ); OSL_ENSURE(bRemoved, "file has not been removed"); RemoveFileFromList( aName ); return bRemoved; } SwGlossaries::~SwGlossaries() { InvalidateUNOOjects(); } // read a block document std::unique_ptr SwGlossaries::GetGlosDoc( const OUString &rName, bool bCreate ) const { sal_uInt16 nPath = static_cast(rName.getToken(1, GLOS_DELIM).toInt32()); std::unique_ptr pTmp; if (static_cast(nPath) < m_PathArr.size()) { const OUString sFileURL = lcl_FullPathName(m_PathArr[nPath], rName.getToken(0, GLOS_DELIM)); bool bExist = false; if(!bCreate) bExist = FStatHelper::IsDocument( sFileURL ); if (bCreate || bExist) { pTmp.reset(new SwTextBlocks( sFileURL )); bool bOk = true; if( pTmp->GetError() ) { ErrorHandler::HandleError( pTmp->GetError() ); bOk = ! pTmp->GetError().IsError(); } if( bOk && pTmp->GetName().isEmpty() ) pTmp->SetName( rName ); } } return pTmp; } // access to the list of names; read in if applicable std::vector & SwGlossaries::GetNameList() { if (m_GlosArr.empty()) { const OUString sExt( SwGlossaries::GetExtension() ); for (size_t i = 0; i < m_PathArr.size(); ++i) { std::vector aFiles; SWUnoHelper::UCB_GetFileListOfFolder(m_PathArr[i], aFiles, &sExt); for (const OUString& aTitle : aFiles) { const OUString sName( aTitle.copy( 0, aTitle.getLength() - sExt.getLength() ) + OUStringChar(GLOS_DELIM) + OUString::number( static_cast(i) )); m_GlosArr.push_back(sName); } } if (m_GlosArr.empty()) { // the standard block is inside of the path's first part m_GlosArr.emplace_back(SwGlossaries::GetDefName() + OUStringChar(GLOS_DELIM) + "0" ); } } return m_GlosArr; } SwGlossaries::SwGlossaries() { UpdateGlosPath(true); } // set new path and recreate internal array static OUString lcl_makePath(const std::vector& rPaths) { std::vector::const_iterator aIt(rPaths.begin()); const std::vector::const_iterator aEnd(rPaths.end()); OUStringBuffer aPath(*aIt); for (++aIt; aIt != aEnd; ++aIt) { aPath.append(SVT_SEARCHPATH_DELIMITER); const INetURLObject aTemp(*aIt); aPath.append(aTemp.GetFull()); } return aPath.getStr(); } void SwGlossaries::UpdateGlosPath(bool bFull) { SvtPathOptions aPathOpt; const OUString& aNewPath( aPathOpt.GetAutoTextPath() ); bool bPathChanged = m_aPath != aNewPath; if (bFull || bPathChanged) { m_aPath = aNewPath; m_PathArr.clear(); std::vector aDirArr; std::vector aInvalidPaths; if (!m_aPath.isEmpty()) { sal_Int32 nIndex = 0; do { const OUString sPth = URIHelper::SmartRel2Abs( INetURLObject(), m_aPath.getToken(0, SVT_SEARCHPATH_DELIMITER, nIndex), URIHelper::GetMaybeFileHdl()); if (!aDirArr.empty() && std::find(aDirArr.begin(), aDirArr.end(), sPth) != aDirArr.end()) { continue; } aDirArr.push_back(sPth); if( !FStatHelper::IsFolder( sPth ) ) aInvalidPaths.push_back(sPth); else m_PathArr.push_back(sPth); } while (nIndex>=0); } if (m_aPath.isEmpty() || !aInvalidPaths.empty()) { std::sort(aInvalidPaths.begin(), aInvalidPaths.end()); aInvalidPaths.erase(std::unique(aInvalidPaths.begin(), aInvalidPaths.end()), aInvalidPaths.end()); if (bPathChanged || (m_aInvalidPaths != aInvalidPaths)) { m_aInvalidPaths = aInvalidPaths; // wrong path, that means AutoText directory doesn't exist ErrorHandler::HandleError( *new StringErrorInfo( ERR_AUTOPATH_ERROR, lcl_makePath(m_aInvalidPaths), DialogMask::ButtonsOk | DialogMask::MessageError ) ); m_bError = true; } else m_bError = false; } else m_bError = false; if (!m_GlosArr.empty()) { m_GlosArr.clear(); GetNameList(); } } } void SwGlossaries::ShowError() { ErrCode nPathError = *new StringErrorInfo(ERR_AUTOPATH_ERROR, lcl_makePath(m_aInvalidPaths), DialogMask::ButtonsOk ); ErrorHandler::HandleError( nPathError ); } OUString SwGlossaries::GetExtension() { return ".bau"; } void SwGlossaries::RemoveFileFromList( const OUString& rGroup ) { if (!m_GlosArr.empty()) { auto it = std::find(m_GlosArr.begin(), m_GlosArr.end(), rGroup); if (it != m_GlosArr.end()) { { // tell the UNO AutoTextGroup object that it's not valid anymore for ( UnoAutoTextGroups::iterator aLoop = m_aGlossaryGroups.begin(); aLoop != m_aGlossaryGroups.end(); ) { Reference< container::XNamed > xNamed( aLoop->get(), UNO_QUERY ); if ( !xNamed.is() ) { aLoop = m_aGlossaryGroups.erase(aLoop); } else if ( xNamed->getName() == rGroup ) { static_cast< SwXAutoTextGroup* >( xNamed.get() )->Invalidate(); // note that this static_cast works because we know that the array only // contains SwXAutoTextGroup implementation m_aGlossaryGroups.erase( aLoop ); break; } else ++aLoop; } } { // tell all our UNO AutoTextEntry objects that they're not valid anymore for ( UnoAutoTextEntries::iterator aLoop = m_aGlossaryEntries.begin(); aLoop != m_aGlossaryEntries.end(); ) { auto pEntry = comphelper::getUnoTunnelImplementation(aLoop->get()); if ( pEntry && ( pEntry->GetGroupName() == rGroup ) ) { pEntry->Invalidate(); aLoop = m_aGlossaryEntries.erase( aLoop ); } else ++aLoop; } } m_GlosArr.erase(it); } } } OUString SwGlossaries::GetCompleteGroupName( const OUString& rGroupName ) { const size_t nCount = GetGroupCnt(); // when the group name was created internally the path is here as well sal_Int32 nIndex = 0; const OUString sGroupName(rGroupName.getToken(0, GLOS_DELIM, nIndex)); const bool bPathLen = !rGroupName.getToken(0, GLOS_DELIM, nIndex).isEmpty(); for ( size_t i = 0; i < nCount; i++ ) { const OUString sGrpName = GetGroupName(i); if (bPathLen) { if (rGroupName == sGrpName) return sGrpName; } else { if (sGroupName == sGrpName.getToken(0, GLOS_DELIM)) return sGrpName; } } return OUString(); } void SwGlossaries::InvalidateUNOOjects() { // invalidate all the AutoTextGroup-objects for (const auto& rGroup : m_aGlossaryGroups) { Reference< text::XAutoTextGroup > xGroup( rGroup.get(), UNO_QUERY ); if ( xGroup.is() ) static_cast< SwXAutoTextGroup* >( xGroup.get() )->Invalidate(); } UnoAutoTextGroups aTmpg; m_aGlossaryGroups.swap( aTmpg ); // invalidate all the AutoTextEntry-objects for (const auto& rEntry : m_aGlossaryEntries) { auto pEntry = comphelper::getUnoTunnelImplementation(rEntry.get()); if ( pEntry ) pEntry->Invalidate(); } UnoAutoTextEntries aTmpe; m_aGlossaryEntries.swap( aTmpe ); } Reference< text::XAutoTextGroup > SwGlossaries::GetAutoTextGroup( const OUString& _rGroupName ) { bool _bCreate = true; // first, find the name with path-extension const OUString sCompleteGroupName = GetCompleteGroupName( _rGroupName ); Reference< text::XAutoTextGroup > xGroup; // look up the group in the cache UnoAutoTextGroups::iterator aSearch = m_aGlossaryGroups.begin(); for ( ; aSearch != m_aGlossaryGroups.end(); ) { auto pSwGroup = comphelper::getUnoTunnelImplementation(aSearch->get()); if ( !pSwGroup ) { // the object is dead in the meantime -> remove from cache aSearch = m_aGlossaryGroups.erase( aSearch ); continue; } if ( _rGroupName == pSwGroup->getName() ) { // the group is already cached if ( !sCompleteGroupName.isEmpty() ) { // the group still exists -> return it xGroup = pSwGroup; break; } else { // this group does not exist (anymore) -> release the cached UNO object for it aSearch = m_aGlossaryGroups.erase( aSearch ); // so it won't be created below _bCreate = false; break; } } ++aSearch; } if ( !xGroup.is() && _bCreate ) { xGroup = new SwXAutoTextGroup( sCompleteGroupName, this ); // cache it m_aGlossaryGroups.emplace_back( xGroup ); } return xGroup; } Reference< text::XAutoTextEntry > SwGlossaries::GetAutoTextEntry( const OUString& rCompleteGroupName, const OUString& rGroupName, const OUString& rEntryName ) { //standard must be created bool bCreate = ( rCompleteGroupName == GetDefName() ); std::unique_ptr< SwTextBlocks > pGlosGroup( GetGroupDoc( rCompleteGroupName, bCreate ) ); if (!pGlosGroup || pGlosGroup->GetError()) throw lang::WrappedTargetException(); sal_uInt16 nIdx = pGlosGroup->GetIndex( rEntryName ); if ( USHRT_MAX == nIdx ) throw container::NoSuchElementException(); Reference< text::XAutoTextEntry > xReturn; UnoAutoTextEntries::iterator aSearch( m_aGlossaryEntries.begin() ); for ( ; aSearch != m_aGlossaryEntries.end(); ) { Reference< lang::XUnoTunnel > xEntryTunnel( aSearch->get(), UNO_QUERY ); SwXAutoTextEntry* pEntry = nullptr; if ( xEntryTunnel.is() ) pEntry = reinterpret_cast< SwXAutoTextEntry* >( xEntryTunnel->getSomething( SwXAutoTextEntry::getUnoTunnelId() ) ); else { // the object is dead in the meantime -> remove from cache aSearch = m_aGlossaryEntries.erase( aSearch ); continue; } if ( pEntry && pEntry->GetGroupName() == rGroupName && pEntry->GetEntryName() == rEntryName ) { xReturn = pEntry; break; } ++aSearch; } if ( !xReturn.is() ) { xReturn = new SwXAutoTextEntry( this, rGroupName, rEntryName ); // cache it m_aGlossaryEntries.emplace_back( xReturn ); } return xReturn; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */