/* -*- 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 "defs.hxx" #include using namespace utl; using namespace osl; using namespace com::sun::star; using namespace com::sun::star::lang; using namespace com::sun::star::uno; using namespace com::sun::star::linguistic2; using namespace linguistic; #define BUFSIZE 4096 #define VERS2_NOLANGUAGE 1024 #define MAX_HEADER_LENGTH 16 static const sal_Char* pVerStr2 = "WBSWG2"; static const sal_Char* pVerStr5 = "WBSWG5"; static const sal_Char* pVerStr6 = "WBSWG6"; static const sal_Char* pVerOOo7 = "OOoUserDict1"; static const sal_Int16 DIC_VERSION_DONTKNOW = -1; static const sal_Int16 DIC_VERSION_2 = 2; static const sal_Int16 DIC_VERSION_5 = 5; static const sal_Int16 DIC_VERSION_6 = 6; static const sal_Int16 DIC_VERSION_7 = 7; static bool getTag(const OString &rLine, const sal_Char *pTagName, OString &rTagValue) { sal_Int32 nPos = rLine.indexOf(pTagName); if (nPos == -1) return false; rTagValue = comphelper::string::strip(rLine.copy(nPos + rtl_str_getLength(pTagName)), ' '); return true; } sal_Int16 ReadDicVersion( SvStreamPtr &rpStream, sal_uInt16 &nLng, bool &bNeg ) { // Sniff the header sal_Int16 nDicVersion = DIC_VERSION_DONTKNOW; sal_Char pMagicHeader[MAX_HEADER_LENGTH]; nLng = LANGUAGE_NONE; bNeg = false; if (!rpStream.get() || rpStream->GetError()) return -1; sal_Size nSniffPos = rpStream->Tell(); static sal_Size nVerOOo7Len = sal::static_int_cast< sal_Size >(strlen( pVerOOo7 )); pMagicHeader[ nVerOOo7Len ] = '\0'; if ((rpStream->Read(static_cast(pMagicHeader), nVerOOo7Len) == nVerOOo7Len) && !strcmp(pMagicHeader, pVerOOo7)) { bool bSuccess; OString aLine; nDicVersion = DIC_VERSION_7; // 1st skip magic / header line rpStream->ReadLine(aLine); // 2nd line: language all | en-US | pt-BR ... while ((bSuccess = rpStream->ReadLine(aLine))) { OString aTagValue; if (aLine[0] == '#') // skip comments continue; // lang: field if (getTag(aLine, "lang: ", aTagValue)) { if (aTagValue == "") nLng = LANGUAGE_NONE; else nLng = LanguageTag::convertToLanguageTypeWithFallback( OStringToOUString( aTagValue, RTL_TEXTENCODING_ASCII_US)); } // type: negative / positive if (getTag(aLine, "type: ", aTagValue)) { if (aTagValue == "negative") bNeg = true; else bNeg = false; } if (aLine.indexOf("---") != -1) // end of header break; } if (!bSuccess) return -2; } else { sal_uInt16 nLen; rpStream->Seek (nSniffPos ); rpStream->ReadUInt16( nLen ); if (nLen >= MAX_HEADER_LENGTH) return -1; rpStream->Read(pMagicHeader, nLen); pMagicHeader[nLen] = '\0'; // Check version magic if (0 == strcmp( pMagicHeader, pVerStr6 )) nDicVersion = DIC_VERSION_6; else if (0 == strcmp( pMagicHeader, pVerStr5 )) nDicVersion = DIC_VERSION_5; else if (0 == strcmp( pMagicHeader, pVerStr2 )) nDicVersion = DIC_VERSION_2; else nDicVersion = DIC_VERSION_DONTKNOW; if (DIC_VERSION_2 == nDicVersion || DIC_VERSION_5 == nDicVersion || DIC_VERSION_6 == nDicVersion) { // The language of the dictionary rpStream->ReadUInt16( nLng ); if (VERS2_NOLANGUAGE == nLng) nLng = LANGUAGE_NONE; // Negative Flag rpStream->ReadCharAsBool( bNeg ); } } return nDicVersion; } DictionaryNeo::DictionaryNeo(const OUString &rName, sal_Int16 nLang, DictionaryType eType, const OUString &rMainURL, bool bWriteable) : aDicEvtListeners( GetLinguMutex() ), aDicName (rName), aMainURL (rMainURL), eDicType (eType), nLanguage (nLang) { nCount = 0; nDicVersion = DIC_VERSION_DONTKNOW; bNeedEntries = true; bIsModified = bIsActive = false; bIsReadonly = !bWriteable; if( !rMainURL.isEmpty()) { bool bExists = FileExists( rMainURL ); if( !bExists ) { // save new dictionaries with in Format 7 (UTF8 plain text) nDicVersion = DIC_VERSION_7; //! create physical representation of an **empty** dictionary //! that could be found by the dictionary-list implementation // (Note: empty dictionaries are not just empty files!) DBG_ASSERT( !bIsReadonly, "DictionaryNeo: dictionaries should be writeable if they are to be saved" ); if (!bIsReadonly) saveEntries( rMainURL ); bNeedEntries = false; } } else { // non persistent dictionaries (like IgnoreAllList) should always be writable bIsReadonly = false; bNeedEntries = false; } } DictionaryNeo::~DictionaryNeo() { } sal_uLong DictionaryNeo::loadEntries(const OUString &rMainURL) { MutexGuard aGuard( GetLinguMutex() ); // counter check that it is safe to set bIsModified to sal_False at // the end of the function DBG_ASSERT(!bIsModified, "lng : dictionary already modified!"); // function should only be called once in order to load entries from file bNeedEntries = false; if (rMainURL.isEmpty()) return 0; uno::Reference< uno::XComponentContext > xContext( comphelper::getProcessComponentContext() ); // get XInputStream stream uno::Reference< io::XInputStream > xStream; try { uno::Reference< ucb::XSimpleFileAccess3 > xAccess( ucb::SimpleFileAccess::create(xContext) ); xStream = xAccess->openFileRead( rMainURL ); } catch (const uno::Exception &) { DBG_ASSERT( false, "failed to get input stream" ); } if (!xStream.is()) return static_cast< sal_uLong >(-1); SvStreamPtr pStream = SvStreamPtr( utl::UcbStreamHelper::CreateStream( xStream ) ); // read header bool bNegativ; sal_uInt16 nLang; nDicVersion = ReadDicVersion(pStream, nLang, bNegativ); sal_uLong nErr = pStream->GetError(); if (0 != nErr) return nErr; nLanguage = nLang; eDicType = bNegativ ? DictionaryType_NEGATIVE : DictionaryType_POSITIVE; rtl_TextEncoding eEnc = osl_getThreadTextEncoding(); if (nDicVersion >= DIC_VERSION_6) eEnc = RTL_TEXTENCODING_UTF8; nCount = 0; if (DIC_VERSION_6 == nDicVersion || DIC_VERSION_5 == nDicVersion || DIC_VERSION_2 == nDicVersion) { sal_uInt16 nLen = 0; sal_Char aWordBuf[ BUFSIZE ]; // Read the first word if (!pStream->IsEof()) { pStream->ReadUInt16( nLen ); if (0 != (nErr = pStream->GetError())) return nErr; if ( nLen < BUFSIZE ) { pStream->Read(aWordBuf, nLen); if (0 != (nErr = pStream->GetError())) return nErr; *(aWordBuf + nLen) = 0; } else return SVSTREAM_READ_ERROR; } while(!pStream->IsEof()) { // Read from file // Paste in dictionary without converting if(*aWordBuf) { OUString aText(aWordBuf, rtl_str_getLength(aWordBuf), eEnc); uno::Reference< XDictionaryEntry > xEntry = new DicEntry( aText, bNegativ ); addEntry_Impl( xEntry, true ); //! don't launch events here } pStream->ReadUInt16( nLen ); if (pStream->IsEof()) break; if (0 != (nErr = pStream->GetError())) return nErr; if (nLen < BUFSIZE) { pStream->Read(aWordBuf, nLen); if (0 != (nErr = pStream->GetError())) return nErr; } else return SVSTREAM_READ_ERROR; *(aWordBuf + nLen) = 0; } } else if (DIC_VERSION_7 == nDicVersion) { OString aLine; // remaining lines - stock strings (a [==] b) while (pStream->ReadLine(aLine)) { if (aLine[0] == '#') // skip comments continue; OUString aText = OStringToOUString(aLine, RTL_TEXTENCODING_UTF8); uno::Reference< XDictionaryEntry > xEntry = new DicEntry( aText, eDicType == DictionaryType_NEGATIVE ); addEntry_Impl( xEntry, true ); //! don't launch events here } } SAL_WARN_IF(!isSorted(), "linguistic", "dictionary is not sorted"); // since this routine should be called only initially (prior to any // modification to be saved) we reset the bIsModified flag here that // was implicitly set by addEntry_Impl bIsModified = false; return pStream->GetError(); } static OString formatForSave(const uno::Reference< XDictionaryEntry > &xEntry, rtl_TextEncoding eEnc ) { OStringBuffer aStr(OUStringToOString(xEntry->getDictionaryWord(), eEnc)); if (xEntry->isNegative()) { aStr.append("=="); aStr.append(OUStringToOString(xEntry->getReplacementText(), eEnc)); } return aStr.makeStringAndClear(); } struct TmpDictionary { OUString maURL, maTmpURL; uno::Reference< ucb::XSimpleFileAccess3 > mxAccess; void cleanTmpFile() { try { if (mxAccess.is()) { mxAccess->kill(maTmpURL); } } catch (const uno::Exception &) { } } explicit TmpDictionary(const OUString &rURL) : maURL( rURL ) { maTmpURL = maURL + ".tmp"; } ~TmpDictionary() { cleanTmpFile(); } uno::Reference< io::XStream > openTmpFile() { uno::Reference< io::XStream > xStream; try { mxAccess = ucb::SimpleFileAccess::create( comphelper::getProcessComponentContext()); xStream = mxAccess->openFileReadWrite(maTmpURL); } catch (const uno::Exception &) { } return xStream; } sal_uLong renameTmpToURL() { try { mxAccess->move(maTmpURL, maURL); } catch (const uno::Exception &) { DBG_ASSERT( false, "failed to overwrite dict" ); return static_cast< sal_uLong >(-1); } return 0; } }; sal_uLong DictionaryNeo::saveEntries(const OUString &rURL) { MutexGuard aGuard( GetLinguMutex() ); if (rURL.isEmpty()) return 0; DBG_ASSERT(!INetURLObject( rURL ).HasError(), "lng : invalid URL"); // lifecycle manage the .tmp file TmpDictionary aTmpDictionary(rURL); uno::Reference< io::XStream > xStream = aTmpDictionary.openTmpFile(); if (!xStream.is()) return static_cast< sal_uLong >(-1); SvStreamPtr pStream = SvStreamPtr( utl::UcbStreamHelper::CreateStream( xStream ) ); // Always write as the latest version, i.e. DIC_VERSION_7 rtl_TextEncoding eEnc = RTL_TEXTENCODING_UTF8; pStream->WriteLine(OString(pVerOOo7)); sal_uLong nErr = pStream->GetError(); if (0 != nErr) return nErr; /* XXX: the case could be differentiated, is it absence or * undetermined or multiple? Earlier versions did not know about 'und' and * 'mul' and 'zxx' codes. Sync with ReadDicVersion() */ if (LinguIsUnspecified(nLanguage)) pStream->WriteLine(OString("lang: ")); else { OStringBuffer aLine("lang: "); aLine.append(OUStringToOString(LanguageTag::convertToBcp47(nLanguage), eEnc)); pStream->WriteLine(aLine.makeStringAndClear()); } if (0 != (nErr = pStream->GetError())) return nErr; if (eDicType == DictionaryType_POSITIVE) pStream->WriteLine(OString("type: positive")); else pStream->WriteLine(OString("type: negative")); if (0 != (nErr = pStream->GetError())) return nErr; pStream->WriteLine(OString("---")); if (0 != (nErr = pStream->GetError())) return nErr; const uno::Reference< XDictionaryEntry > *pEntry = aEntries.getConstArray(); for (sal_Int32 i = 0; i < nCount; i++) { OString aOutStr = formatForSave(pEntry[i], eEnc); pStream->WriteLine (aOutStr); if (0 != (nErr = pStream->GetError())) break; } pStream.reset(); // fdo#66420 close streams so Win32 can move the file xStream.clear(); nErr = aTmpDictionary.renameTmpToURL(); //If we are migrating from an older version, then on first successful //write, we're now converted to the latest version, i.e. DIC_VERSION_7 nDicVersion = DIC_VERSION_7; return nErr; } void DictionaryNeo::launchEvent(sal_Int16 nEvent, uno::Reference< XDictionaryEntry > xEntry) { MutexGuard aGuard( GetLinguMutex() ); DictionaryEvent aEvt; aEvt.Source = uno::Reference< XDictionary >( this ); aEvt.nEvent = nEvent; aEvt.xDictionaryEntry = xEntry; aDicEvtListeners.notifyEach( &XDictionaryEventListener::processDictionaryEvent, aEvt); } int DictionaryNeo::cmpDicEntry(const OUString& rWord1, const OUString &rWord2, bool bSimilarOnly) { MutexGuard aGuard( GetLinguMutex() ); // returns 0 if rWord1 is equal to rWord2 // " a value < 0 if rWord1 is less than rWord2 // " a value > 0 if rWord1 is greater than rWord2 int nRes = 0; OUString aWord1( rWord1 ), aWord2( rWord2 ); sal_Int32 nLen1 = aWord1.getLength(), nLen2 = aWord2.getLength(); if (bSimilarOnly) { const sal_Unicode cChar = '.'; if (nLen1 && cChar == aWord1[ nLen1 - 1 ]) nLen1--; if (nLen2 && cChar == aWord2[ nLen2 - 1 ]) nLen2--; } const sal_Unicode cIgnChar = '='; const sal_Unicode cIgnBeg = '['; // for alternative hyphenation, eg. Schif[f]fahrt, Zuc[1k]ker const sal_Unicode cIgnEnd = ']'; // planned: gee"[1-/e]rfde or ge[-/1e]e"rfde (gee"rfde -> ge=erfde) sal_Int32 nIdx1 = 0, nIdx2 = 0, nNumIgnChar1 = 0, nNumIgnChar2 = 0; bool IgnState; sal_Int32 nDiff = 0; sal_Unicode cChar1 = '\0'; sal_Unicode cChar2 = '\0'; do { // skip chars to be ignored IgnState = false; while (nIdx1 < nLen1 && ((cChar1 = aWord1[ nIdx1 ]) == cIgnChar || cChar1 == cIgnBeg || IgnState )) { if ( cChar1 == cIgnBeg ) IgnState = true; else if (cChar1 == cIgnEnd) IgnState = false; nIdx1++; nNumIgnChar1++; } IgnState = false; while (nIdx2 < nLen2 && ((cChar2 = aWord2[ nIdx2 ]) == cIgnChar || cChar2 == cIgnBeg || IgnState )) { if ( cChar2 == cIgnBeg ) IgnState = true; else if (cChar2 == cIgnEnd) IgnState = false; nIdx2++; nNumIgnChar2++; } if (nIdx1 < nLen1 && nIdx2 < nLen2) { nDiff = cChar1 - cChar2; if (nDiff) break; nIdx1++; nIdx2++; } } while (nIdx1 < nLen1 && nIdx2 < nLen2); if (nDiff) nRes = nDiff; else { // the string with the smallest count of not ignored chars is the // shorter one // count remaining IgnChars IgnState = false; while (nIdx1 < nLen1 ) { if (aWord1[ nIdx1 ] == cIgnBeg) IgnState = true; if (IgnState || aWord1[ nIdx1 ] == cIgnChar) nNumIgnChar1++; if (aWord1[ nIdx1] == cIgnEnd) IgnState = false; nIdx1++; } IgnState = false; while (nIdx2 < nLen2 ) { if (aWord2[ nIdx2 ] == cIgnBeg) IgnState = true; if (IgnState || aWord2[ nIdx2 ] == cIgnChar) nNumIgnChar2++; if (aWord2[ nIdx2 ] == cIgnEnd) IgnState = false; nIdx2++; } nRes = ((sal_Int32) nLen1 - nNumIgnChar1) - ((sal_Int32) nLen2 - nNumIgnChar2); } return nRes; } bool DictionaryNeo::seekEntry(const OUString &rWord, sal_Int32 *pPos, bool bSimilarOnly) { // look for entry with binary search. // return sal_True if found sal_False else. // if pPos != NULL it will become the position of the found entry, or // if that was not found the position where it has to be inserted // to keep the entries sorted MutexGuard aGuard( GetLinguMutex() ); const uno::Reference< XDictionaryEntry > *pEntry = aEntries.getConstArray(); sal_Int32 nUpperIdx = getCount(), nMidIdx, nLowerIdx = 0; if( nUpperIdx > 0 ) { nUpperIdx--; while( nLowerIdx <= nUpperIdx ) { nMidIdx = (nLowerIdx + nUpperIdx) / 2; DBG_ASSERT(pEntry[nMidIdx].is(), "lng : empty entry encountered"); int nCmp = - cmpDicEntry( pEntry[nMidIdx]->getDictionaryWord(), rWord, bSimilarOnly ); if(nCmp == 0) { if( pPos ) *pPos = nMidIdx; return true; } else if(nCmp > 0) nLowerIdx = nMidIdx + 1; else if( nMidIdx == 0 ) { if( pPos ) *pPos = nLowerIdx; return false; } else nUpperIdx = nMidIdx - 1; } } if( pPos ) *pPos = nLowerIdx; return false; } bool DictionaryNeo::isSorted() { bool bRes = true; const uno::Reference< XDictionaryEntry > *pEntry = aEntries.getConstArray(); sal_Int32 nEntries = getCount(); sal_Int32 i; for (i = 1; i < nEntries; i++) { if (cmpDicEntry( pEntry[i-1]->getDictionaryWord(), pEntry[i]->getDictionaryWord() ) > 0) { bRes = false; break; } } return bRes; } bool DictionaryNeo::addEntry_Impl(const uno::Reference< XDictionaryEntry >& xDicEntry, bool bIsLoadEntries) { MutexGuard aGuard( GetLinguMutex() ); bool bRes = false; if ( bIsLoadEntries || (!bIsReadonly && xDicEntry.is()) ) { bool bIsNegEntry = xDicEntry->isNegative(); bool bAddEntry = !isFull() && ( ( eDicType == DictionaryType_POSITIVE && !bIsNegEntry ) || ( eDicType == DictionaryType_NEGATIVE && bIsNegEntry ) || ( eDicType == DictionaryType_MIXED ) ); // look for position to insert entry at // if there is already an entry do not insert the new one sal_Int32 nPos = 0; if (bAddEntry) { const bool bFound = seekEntry( xDicEntry->getDictionaryWord(), &nPos ); if (bFound) bAddEntry = false; } if (bAddEntry) { DBG_ASSERT(!bNeedEntries, "lng : entries still not loaded"); if (nCount >= aEntries.getLength()) aEntries.realloc( std::max(2 * nCount, nCount + 32) ); uno::Reference< XDictionaryEntry > *pEntry = aEntries.getArray(); // shift old entries right sal_Int32 i; for (i = nCount - 1; i >= nPos; i--) pEntry[ i+1 ] = pEntry[ i ]; // insert new entry at specified position pEntry[ nPos ] = xDicEntry; SAL_WARN_IF(!isSorted(), "linguistic", "dictionary entries unsorted"); nCount++; bIsModified = true; bRes = true; if (!bIsLoadEntries) launchEvent( DictionaryEventFlags::ADD_ENTRY, xDicEntry ); } } return bRes; } OUString SAL_CALL DictionaryNeo::getName( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return aDicName; } void SAL_CALL DictionaryNeo::setName( const OUString& aName ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); if (aDicName != aName) { aDicName = aName; launchEvent(DictionaryEventFlags::CHG_NAME, nullptr); } } DictionaryType SAL_CALL DictionaryNeo::getDictionaryType( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return eDicType; } void SAL_CALL DictionaryNeo::setActive( sal_Bool bActivate ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); if (bIsActive != bool(bActivate)) { bIsActive = bActivate; sal_Int16 nEvent = bIsActive ? DictionaryEventFlags::ACTIVATE_DIC : DictionaryEventFlags::DEACTIVATE_DIC; // remove entries from memory if dictionary is deactivated if (!bIsActive) { bool bIsEmpty = nCount == 0; // save entries first if necessary if (bIsModified && hasLocation() && !isReadonly()) { store(); aEntries.realloc( 0 ); nCount = 0; bNeedEntries = !bIsEmpty; } DBG_ASSERT( !bIsModified || !hasLocation() || isReadonly(), "lng : dictionary is still modified" ); } launchEvent(nEvent, nullptr); } } sal_Bool SAL_CALL DictionaryNeo::isActive( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return bIsActive; } sal_Int32 SAL_CALL DictionaryNeo::getCount( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); if (bNeedEntries) loadEntries( aMainURL ); return nCount; } Locale SAL_CALL DictionaryNeo::getLocale( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return LanguageTag::convertToLocale( nLanguage ); } void SAL_CALL DictionaryNeo::setLocale( const Locale& aLocale ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); sal_Int16 nLanguageP = LinguLocaleToLanguage( aLocale ); if (!bIsReadonly && nLanguage != nLanguageP) { nLanguage = nLanguageP; bIsModified = true; // new language needs to be saved with dictionary launchEvent( DictionaryEventFlags::CHG_LANGUAGE, nullptr ); } } uno::Reference< XDictionaryEntry > SAL_CALL DictionaryNeo::getEntry( const OUString& aWord ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); if (bNeedEntries) loadEntries( aMainURL ); sal_Int32 nPos; bool bFound = seekEntry( aWord, &nPos, true ); DBG_ASSERT( nCount <= aEntries.getLength(), "lng : wrong number of entries"); DBG_ASSERT(!bFound || nPos < nCount, "lng : index out of range"); return bFound ? aEntries.getConstArray()[ nPos ] : uno::Reference< XDictionaryEntry >(); } sal_Bool SAL_CALL DictionaryNeo::addEntry( const uno::Reference< XDictionaryEntry >& xDicEntry ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); bool bRes = false; if (!bIsReadonly) { if (bNeedEntries) loadEntries( aMainURL ); bRes = addEntry_Impl( xDicEntry ); } return bRes; } sal_Bool SAL_CALL DictionaryNeo::add( const OUString& rWord, sal_Bool bIsNegative, const OUString& rRplcText ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); bool bRes = false; if (!bIsReadonly) { uno::Reference< XDictionaryEntry > xEntry = new DicEntry( rWord, bIsNegative, rRplcText ); bRes = addEntry_Impl( xEntry ); } return bRes; } static void lcl_SequenceRemoveElementAt( uno::Sequence< uno::Reference< XDictionaryEntry > >& rEntries, int nPos ) { //TODO: helper for SequenceRemoveElementAt available? if(nPos >= rEntries.getLength()) return; uno::Sequence< uno::Reference< XDictionaryEntry > > aTmp(rEntries.getLength() - 1); uno::Reference< XDictionaryEntry > * pOrig = rEntries.getArray(); uno::Reference< XDictionaryEntry > * pTemp = aTmp.getArray(); int nOffset = 0; for(int i = 0; i < aTmp.getLength(); i++) { if(nPos == i) nOffset++; pTemp[i] = pOrig[i + nOffset]; } rEntries = aTmp; } sal_Bool SAL_CALL DictionaryNeo::remove( const OUString& aWord ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); bool bRemoved = false; if (!bIsReadonly) { if (bNeedEntries) loadEntries( aMainURL ); sal_Int32 nPos; bool bFound = seekEntry( aWord, &nPos ); DBG_ASSERT( nCount < aEntries.getLength(), "lng : wrong number of entries"); DBG_ASSERT(!bFound || nPos < nCount, "lng : index out of range"); // remove element if found if (bFound) { // entry to be removed uno::Reference< XDictionaryEntry > xDicEntry( aEntries.getConstArray()[ nPos ] ); DBG_ASSERT(xDicEntry.is(), "lng : dictionary entry is NULL"); nCount--; //! the following call reduces the length of the sequence by 1 also lcl_SequenceRemoveElementAt( aEntries, nPos ); bRemoved = bIsModified = true; launchEvent( DictionaryEventFlags::DEL_ENTRY, xDicEntry ); } } return bRemoved; } sal_Bool SAL_CALL DictionaryNeo::isFull( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); if (bNeedEntries) loadEntries( aMainURL ); return nCount >= DIC_MAX_ENTRIES; } uno::Sequence< uno::Reference< XDictionaryEntry > > SAL_CALL DictionaryNeo::getEntries( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); if (bNeedEntries) loadEntries( aMainURL ); //! return sequence with length equal to the number of dictionary entries //! (internal used sequence may have additional unused elements.) return uno::Sequence< uno::Reference< XDictionaryEntry > > (aEntries.getConstArray(), nCount); } void SAL_CALL DictionaryNeo::clear( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); if (!bIsReadonly && nCount) { // release all references to old entries and provide space for new ones aEntries = uno::Sequence< uno::Reference< XDictionaryEntry > > ( 32 ); nCount = 0; bNeedEntries = false; bIsModified = true; launchEvent( DictionaryEventFlags::ENTRIES_CLEARED , nullptr ); } } sal_Bool SAL_CALL DictionaryNeo::addDictionaryEventListener( const uno::Reference< XDictionaryEventListener >& xListener ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); bool bRes = false; if (xListener.is()) { sal_Int32 nLen = aDicEvtListeners.getLength(); bRes = aDicEvtListeners.addInterface( xListener ) != nLen; } return bRes; } sal_Bool SAL_CALL DictionaryNeo::removeDictionaryEventListener( const uno::Reference< XDictionaryEventListener >& xListener ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); bool bRes = false; if (xListener.is()) { sal_Int32 nLen = aDicEvtListeners.getLength(); bRes = aDicEvtListeners.removeInterface( xListener ) != nLen; } return bRes; } sal_Bool SAL_CALL DictionaryNeo::hasLocation() throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return !aMainURL.isEmpty(); } OUString SAL_CALL DictionaryNeo::getLocation() throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return aMainURL; } sal_Bool SAL_CALL DictionaryNeo::isReadonly() throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return bIsReadonly; } void SAL_CALL DictionaryNeo::store() throw(io::IOException, RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); if (bIsModified && hasLocation() && !isReadonly()) { if (!saveEntries( aMainURL )) bIsModified = false; } } void SAL_CALL DictionaryNeo::storeAsURL( const OUString& aURL, const uno::Sequence< beans::PropertyValue >& /*rArgs*/ ) throw(io::IOException, RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); if (!saveEntries( aURL )) { aMainURL = aURL; bIsModified = false; bIsReadonly = IsReadOnly( getLocation() ); } } void SAL_CALL DictionaryNeo::storeToURL( const OUString& aURL, const uno::Sequence< beans::PropertyValue >& /*rArgs*/ ) throw(io::IOException, RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); saveEntries(aURL); } DicEntry::DicEntry(const OUString &rDicFileWord, bool bIsNegativWord) { if (!rDicFileWord.isEmpty()) splitDicFileWord( rDicFileWord, aDicWord, aReplacement ); bIsNegativ = bIsNegativWord; } DicEntry::DicEntry(const OUString &rDicWord, bool bNegativ, const OUString &rRplcText) : aDicWord (rDicWord), aReplacement (rRplcText), bIsNegativ (bNegativ) { } DicEntry::~DicEntry() { } void DicEntry::splitDicFileWord(const OUString &rDicFileWord, OUString &rDicWord, OUString &rReplacement) { MutexGuard aGuard( GetLinguMutex() ); static const char aDelim[] = "=="; sal_Int32 nDelimPos = rDicFileWord.indexOf( aDelim ); if (-1 != nDelimPos) { sal_Int32 nTriplePos = nDelimPos + 2; if ( nTriplePos < rDicFileWord.getLength() && rDicFileWord[ nTriplePos ] == '=' ) ++nDelimPos; rDicWord = rDicFileWord.copy( 0, nDelimPos ); rReplacement = rDicFileWord.copy( nDelimPos + 2 ); } else { rDicWord = rDicFileWord; rReplacement.clear(); } } OUString SAL_CALL DicEntry::getDictionaryWord( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return aDicWord; } sal_Bool SAL_CALL DicEntry::isNegative( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return bIsNegativ; } OUString SAL_CALL DicEntry::getReplacementText( ) throw(RuntimeException, std::exception) { MutexGuard aGuard( GetLinguMutex() ); return aReplacement; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */