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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ #include "precompiled_linguistic.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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include "misc.hxx" #include "defs.hxx" #include "lngopt.hxx" #include "gciterator.hxx" using ::rtl::OUString; using namespace linguistic; using namespace ::com::sun::star; // forward declarations static ::rtl::OUString GrammarCheckingIterator_getImplementationName() throw(); static uno::Sequence< OUString > GrammarCheckingIterator_getSupportedServiceNames() throw(); ////////////////////////////////////////////////////////////////////// // white space list: obtained from the fonts.config.txt of a Linux system. static sal_Unicode aWhiteSpaces[] = { 0x0020, /* SPACE */ 0x00a0, /* NO-BREAK SPACE */ 0x00ad, /* SOFT HYPHEN */ 0x115f, /* HANGUL CHOSEONG FILLER */ 0x1160, /* HANGUL JUNGSEONG FILLER */ 0x1680, /* OGHAM SPACE MARK */ 0x2000, /* EN QUAD */ 0x2001, /* EM QUAD */ 0x2002, /* EN SPACE */ 0x2003, /* EM SPACE */ 0x2004, /* THREE-PER-EM SPACE */ 0x2005, /* FOUR-PER-EM SPACE */ 0x2006, /* SIX-PER-EM SPACE */ 0x2007, /* FIGURE SPACE */ 0x2008, /* PUNCTUATION SPACE */ 0x2009, /* THIN SPACE */ 0x200a, /* HAIR SPACE */ 0x200b, /* ZERO WIDTH SPACE */ 0x200c, /* ZERO WIDTH NON-JOINER */ 0x200d, /* ZERO WIDTH JOINER */ 0x200e, /* LEFT-TO-RIGHT MARK */ 0x200f, /* RIGHT-TO-LEFT MARK */ 0x2028, /* LINE SEPARATOR */ 0x2029, /* PARAGRAPH SEPARATOR */ 0x202a, /* LEFT-TO-RIGHT EMBEDDING */ 0x202b, /* RIGHT-TO-LEFT EMBEDDING */ 0x202c, /* POP DIRECTIONAL FORMATTING */ 0x202d, /* LEFT-TO-RIGHT OVERRIDE */ 0x202e, /* RIGHT-TO-LEFT OVERRIDE */ 0x202f, /* NARROW NO-BREAK SPACE */ 0x205f, /* MEDIUM MATHEMATICAL SPACE */ 0x2060, /* WORD JOINER */ 0x2061, /* FUNCTION APPLICATION */ 0x2062, /* INVISIBLE TIMES */ 0x2063, /* INVISIBLE SEPARATOR */ 0x206A, /* INHIBIT SYMMETRIC SWAPPING */ 0x206B, /* ACTIVATE SYMMETRIC SWAPPING */ 0x206C, /* INHIBIT ARABIC FORM SHAPING */ 0x206D, /* ACTIVATE ARABIC FORM SHAPING */ 0x206E, /* NATIONAL DIGIT SHAPES */ 0x206F, /* NOMINAL DIGIT SHAPES */ 0x3000, /* IDEOGRAPHIC SPACE */ 0x3164, /* HANGUL FILLER */ 0xfeff, /* ZERO WIDTH NO-BREAK SPACE */ 0xffa0, /* HALFWIDTH HANGUL FILLER */ 0xfff9, /* INTERLINEAR ANNOTATION ANCHOR */ 0xfffa, /* INTERLINEAR ANNOTATION SEPARATOR */ 0xfffb /* INTERLINEAR ANNOTATION TERMINATOR */ }; static int nWhiteSpaces = sizeof( aWhiteSpaces ) / sizeof( aWhiteSpaces[0] ); static bool lcl_IsWhiteSpace( sal_Unicode cChar ) { bool bFound = false; for (int i = 0; i < nWhiteSpaces && !bFound; ++i) { if (cChar == aWhiteSpaces[i]) bFound = true; } return bFound; } static sal_Int32 lcl_SkipWhiteSpaces( const OUString &rText, sal_Int32 nStartPos ) { // note having nStartPos point right behind the string is OK since that one // is a correct end-of-sentence position to be returned from a grammar checker... const sal_Int32 nLen = rText.getLength(); bool bIllegalArgument = false; if (nStartPos < 0) { bIllegalArgument = true; nStartPos = 0; } if (nStartPos > nLen) { bIllegalArgument = true; nStartPos = nLen; } if (bIllegalArgument) { DBG_ASSERT( 0, "lcl_SkipWhiteSpaces: illegal arguments" ); } sal_Int32 nRes = nStartPos; if (0 <= nStartPos && nStartPos < nLen) { const sal_Unicode *pText = rText.getStr() + nStartPos; while (nStartPos < nLen && lcl_IsWhiteSpace( *pText )) ++pText; nRes = pText - rText.getStr(); } DBG_ASSERT( 0 <= nRes && nRes <= nLen, "lcl_SkipWhiteSpaces return value out of range" ); return nRes; } static sal_Int32 lcl_BacktraceWhiteSpaces( const OUString &rText, sal_Int32 nStartPos ) { // note: having nStartPos point right behind the string is OK since that one // is a correct end-of-sentence position to be returned from a grammar checker... const sal_Int32 nLen = rText.getLength(); bool bIllegalArgument = false; if (nStartPos < 0) { bIllegalArgument = true; nStartPos = 0; } if (nStartPos > nLen) { bIllegalArgument = true; nStartPos = nLen; } if (bIllegalArgument) { DBG_ASSERT( 0, "lcl_BacktraceWhiteSpaces: illegal arguments" ); } sal_Int32 nRes = nStartPos; sal_Int32 nPosBefore = nStartPos - 1; const sal_Unicode *pStart = rText.getStr(); if (0 <= nPosBefore && nPosBefore < nLen && lcl_IsWhiteSpace( pStart[ nPosBefore ] )) { nStartPos = nPosBefore; if (0 <= nStartPos && nStartPos < nLen) { const sal_Unicode *pText = rText.getStr() + nStartPos; while (pText > pStart && lcl_IsWhiteSpace( *pText )) --pText; // now add 1 since we want to point to the first char after the last char in the sentence... nRes = pText - pStart + 1; } } DBG_ASSERT( 0 <= nRes && nRes <= nLen, "lcl_BacktraceWhiteSpaces return value out of range" ); return nRes; } ////////////////////////////////////////////////////////////////////// extern "C" void workerfunc (void * gci) { ((GrammarCheckingIterator*)gci)->DequeueAndCheck(); } static lang::Locale lcl_GetPrimaryLanguageOfSentence( uno::Reference< text::XFlatParagraph > xFlatPara, sal_Int32 nStartIndex ) { //get the language of the first word return xFlatPara->getLanguageOfText( nStartIndex, 1 ); } ////////////////////////////////////////////////////////////////////// /* class MyThread : punlic osl::Thread { void run () { DequeueAndCheck(); } void own_terminate () { m_bEnd = true; wait (3000); terminate (); } } MyThread m_aQueue; vois startGrammarChecking() { if (!m_aQueue.isRunning ()) m_aQueue.create (); } void stopGrammarChecking () { if (m_aQueue.isRunning ()) m_aQueue.own_terminate (); } */ GrammarCheckingIterator::GrammarCheckingIterator( const uno::Reference< lang::XMultiServiceFactory > & rxMgr ) : m_xMSF( rxMgr ), m_bEnd( sal_False ), m_aCurCheckedDocId(), m_bGCServicesChecked( sal_False ), m_nDocIdCounter( 0 ), m_nLastEndOfSentencePos( -1 ), m_aEventListeners( MyMutex::get() ), m_aNotifyListeners( MyMutex::get() ) { osl_createThread( workerfunc, this ); } GrammarCheckingIterator::~GrammarCheckingIterator() { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); } sal_Int32 GrammarCheckingIterator::NextDocId() { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_nDocIdCounter += 1; return m_nDocIdCounter; } OUString GrammarCheckingIterator::GetOrCreateDocId( const uno::Reference< lang::XComponent > &xComponent ) { // internal method; will always be called with locked mutex OUString aRes; if (xComponent.is()) { if (m_aDocIdMap.find( xComponent.get() ) != m_aDocIdMap.end()) { // return already existing entry aRes = m_aDocIdMap[ xComponent.get() ]; } else // add new entry { sal_Int32 nRes = NextDocId(); aRes = OUString::valueOf( nRes ); m_aDocIdMap[ xComponent.get() ] = aRes; xComponent->addEventListener( this ); } } return aRes; } void GrammarCheckingIterator::AddEntry( uno::WeakReference< text::XFlatParagraphIterator > xFlatParaIterator, uno::WeakReference< text::XFlatParagraph > xFlatPara, const OUString & rDocId, sal_Int32 nStartIndex, sal_Bool bAutomatic ) { // we may not need/have a xFlatParaIterator (e.g. if checkGrammarAtPos was called) // but we always need a xFlatPara... uno::Reference< text::XFlatParagraph > xPara( xFlatPara ); if (xPara.is()) { FPEntry aNewFPEntry; aNewFPEntry.m_xParaIterator = xFlatParaIterator; aNewFPEntry.m_xPara = xFlatPara; aNewFPEntry.m_aDocId = rDocId; aNewFPEntry.m_nStartIndex = nStartIndex; aNewFPEntry.m_bAutomatic = bAutomatic; // add new entry to the end of this queue ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aFPEntriesQueue.push_back( aNewFPEntry ); // wake up the thread in order to do grammar checking m_aWakeUpThread.set(); } } void GrammarCheckingIterator::ProcessResult( const linguistic2::ProofreadingResult &rRes, const uno::Reference< text::XFlatParagraphIterator > &rxFlatParagraphIterator, bool bIsAutomaticChecking ) { DBG_ASSERT( rRes.xFlatParagraph.is(), "xFlatParagraph is missing" ); //no guard necessary as no members are used sal_Bool bContinueWithNextPara = sal_False; if (!rRes.xFlatParagraph.is() || rRes.xFlatParagraph->isModified()) { // if paragraph was modified/deleted meanwhile continue with the next one... bContinueWithNextPara = sal_True; } else // paragraph is still unchanged... { // // mark found errors... // sal_Int32 nTextLen = rRes.aText.getLength(); bool bBoundariesOk = 0 <= rRes.nStartOfSentencePosition && rRes.nStartOfSentencePosition <= nTextLen && 0 <= rRes.nBehindEndOfSentencePosition && rRes.nBehindEndOfSentencePosition <= nTextLen && 0 <= rRes.nStartOfNextSentencePosition && rRes.nStartOfNextSentencePosition <= nTextLen && rRes.nStartOfSentencePosition <= rRes.nBehindEndOfSentencePosition && rRes.nBehindEndOfSentencePosition <= rRes.nStartOfNextSentencePosition; (void) bBoundariesOk; DBG_ASSERT( bBoundariesOk, "inconsistent sentence boundaries" ); uno::Sequence< linguistic2::SingleProofreadingError > aErrors = rRes.aErrors; uno::Reference< text::XMultiTextMarkup > xMulti( rRes.xFlatParagraph, uno::UNO_QUERY ); if (xMulti.is()) // use new API for markups { try { // length = number of found errors + 1 sentence markup sal_Int32 nErrors = rRes.aErrors.getLength(); uno::Sequence< text::TextMarkupDescriptor > aDescriptors( nErrors + 1 ); text::TextMarkupDescriptor * pDescriptors = aDescriptors.getArray(); // at pos 0 .. nErrors-1 -> all grammar errors for (sal_Int32 i = 0; i < nErrors; ++i) { const linguistic2::SingleProofreadingError &rError = rRes.aErrors[i]; text::TextMarkupDescriptor &rDesc = aDescriptors[i]; rDesc.nType = rError.nErrorType; rDesc.nOffset = rError.nErrorStart; rDesc.nLength = rError.nErrorLength; // the proofreader may return SPELLING but right now our core // does only handle PROOFREADING if the result is from the proofreader... // (later on we may wish to color spelling errors found by the proofreader // differently for example. But no special handling right now. if (rDesc.nType == text::TextMarkupType::SPELLCHECK) rDesc.nType = text::TextMarkupType::PROOFREADING; } // at pos nErrors -> sentence markup // nSentenceLength: includes the white-spaces following the sentence end... const sal_Int32 nSentenceLength = rRes.nStartOfNextSentencePosition - rRes.nStartOfSentencePosition; pDescriptors[ nErrors ].nType = text::TextMarkupType::SENTENCE; pDescriptors[ nErrors ].nOffset = rRes.nStartOfSentencePosition; pDescriptors[ nErrors ].nLength = nSentenceLength; xMulti->commitMultiTextMarkup( aDescriptors ) ; } catch (lang::IllegalArgumentException &) { DBG_ERROR( "commitMultiTextMarkup: IllegalArgumentException exception caught" ); } } // other sentences left to be checked in this paragraph? if (rRes.nStartOfNextSentencePosition < rRes.aText.getLength()) { AddEntry( rxFlatParagraphIterator, rRes.xFlatParagraph, rRes.aDocumentIdentifier, rRes.nStartOfNextSentencePosition, bIsAutomaticChecking ); } else // current paragraph finished { // set "already checked" flag for the current flat paragraph if (rRes.xFlatParagraph.is()) rRes.xFlatParagraph->setChecked( text::TextMarkupType::PROOFREADING, true ); bContinueWithNextPara = sal_True; } } if (bContinueWithNextPara) { // we need to continue with the next paragraph uno::Reference< text::XFlatParagraph > xFlatParaNext; if (rxFlatParagraphIterator.is()) xFlatParaNext = rxFlatParagraphIterator->getNextPara(); { AddEntry( rxFlatParagraphIterator, xFlatParaNext, rRes.aDocumentIdentifier, 0, bIsAutomaticChecking ); } } } uno::Reference< linguistic2::XProofreader > GrammarCheckingIterator::GetGrammarChecker( const lang::Locale &rLocale ) { (void) rLocale; uno::Reference< linguistic2::XProofreader > xRes; // ---- THREAD SAFE START ---- ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); // check supported locales for each grammarchecker if not already done if (!m_bGCServicesChecked) { //GetAvailableGCSvcs_Impl(); GetConfiguredGCSvcs_Impl(); //GetMatchingGCSvcs_Impl(); m_bGCServicesChecked = sal_True; } const LanguageType nLang = MsLangId::convertLocaleToLanguage( rLocale ); GCImplNames_t::const_iterator aLangIt( m_aGCImplNamesByLang.find( nLang ) ); if (aLangIt != m_aGCImplNamesByLang.end()) // matching configured language found? { OUString aSvcImplName( aLangIt->second ); GCReferences_t::const_iterator aImplNameIt( m_aGCReferencesByService.find( aSvcImplName ) ); if (aImplNameIt != m_aGCReferencesByService.end()) // matching impl name found? { xRes = aImplNameIt->second; } else // the service is to be instatiated here for the first time... { try { uno::Reference< lang::XMultiServiceFactory > xMgr( utl::getProcessServiceFactory(), uno::UNO_QUERY_THROW ); uno::Reference< linguistic2::XProofreader > xGC( xMgr->createInstance( aSvcImplName ), uno::UNO_QUERY_THROW ); uno::Reference< linguistic2::XSupportedLocales > xSuppLoc( xGC, uno::UNO_QUERY_THROW ); if (xSuppLoc->hasLocale( rLocale )) { m_aGCReferencesByService[ aSvcImplName ] = xGC; xRes = xGC; uno::Reference< linguistic2::XLinguServiceEventBroadcaster > xBC( xGC, uno::UNO_QUERY ); if (xBC.is()) xBC->addLinguServiceEventListener( this ); } else { DBG_ASSERT( 0, "grammar checker does not support required locale" ); } } catch (uno::Exception &) { DBG_ASSERT( 0, "instantiating grammar checker failed" ); } } } // ---- THREAD SAFE END ---- return xRes; } void GrammarCheckingIterator::DequeueAndCheck() { uno::Sequence< sal_Int32 > aLangPortions; uno::Sequence< lang::Locale > aLangPortionsLocale; // ---- THREAD SAFE START ---- bool bEnd = false; { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); bEnd = m_bEnd; } // ---- THREAD SAFE END ---- while (!bEnd) { // ---- THREAD SAFE START ---- bool bQueueEmpty = false; { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); bQueueEmpty = m_aFPEntriesQueue.empty(); } // ---- THREAD SAFE END ---- if (!bQueueEmpty) { uno::Reference< text::XFlatParagraphIterator > xFPIterator; uno::Reference< text::XFlatParagraph > xFlatPara; FPEntry aFPEntryItem; OUString aCurDocId; sal_Bool bModified = sal_False; // ---- THREAD SAFE START ---- { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); aFPEntryItem = m_aFPEntriesQueue.front(); xFPIterator = aFPEntryItem.m_xParaIterator; xFlatPara = aFPEntryItem.m_xPara; m_aCurCheckedDocId = aFPEntryItem.m_aDocId; aCurDocId = m_aCurCheckedDocId; m_aFPEntriesQueue.pop_front(); } // ---- THREAD SAFE END ---- if (xFlatPara.is() && xFPIterator.is()) { OUString aCurTxt( xFlatPara->getText() ); lang::Locale aCurLocale = lcl_GetPrimaryLanguageOfSentence( xFlatPara, aFPEntryItem.m_nStartIndex ); bModified = xFlatPara->isModified(); if (!bModified) { // ---- THREAD SAFE START ---- ::osl::ClearableGuard< ::osl::Mutex > aGuard( MyMutex::get() ); sal_Int32 nStartPos = aFPEntryItem.m_nStartIndex; sal_Int32 nSuggestedEnd = GetSuggestedEndOfSentence( aCurTxt, nStartPos, aCurLocale ); DBG_ASSERT( (nSuggestedEnd == 0 && aCurTxt.getLength() == 0) || nSuggestedEnd > nStartPos, "nSuggestedEndOfSentencePos calculation failed?" ); linguistic2::ProofreadingResult aRes; uno::Reference< linguistic2::XProofreader > xGC( GetGrammarChecker( aCurLocale ), uno::UNO_QUERY ); if (xGC.is()) { aGuard.clear(); uno::Sequence< beans::PropertyValue > aEmptyProps; aRes = xGC->doProofreading( aCurDocId, aCurTxt, aCurLocale, nStartPos, nSuggestedEnd, aEmptyProps ); //!! work-around to prevent looping if the grammar checker //!! failed to properly identify the sentence end if (aRes.nBehindEndOfSentencePosition <= nStartPos) { DBG_ASSERT( 0, "!! Grammarchecker failed to provide end of sentence !!" ); aRes.nBehindEndOfSentencePosition = nSuggestedEnd; } aRes.xFlatParagraph = xFlatPara; aRes.nStartOfSentencePosition = nStartPos; } else { // no grammar checker -> no error // but we need to provide the data below in order to continue with the next sentence aRes.aDocumentIdentifier = aCurDocId; aRes.xFlatParagraph = xFlatPara; aRes.aText = aCurTxt; aRes.aLocale = aCurLocale; aRes.nStartOfSentencePosition = nStartPos; aRes.nBehindEndOfSentencePosition = nSuggestedEnd; } aRes.nStartOfNextSentencePosition = lcl_SkipWhiteSpaces( aCurTxt, aRes.nBehindEndOfSentencePosition ); aRes.nBehindEndOfSentencePosition = lcl_BacktraceWhiteSpaces( aCurTxt, aRes.nStartOfNextSentencePosition ); //guard has to be cleared as ProcessResult calls out of this class aGuard.clear(); ProcessResult( aRes, xFPIterator, aFPEntryItem.m_bAutomatic ); // ---- THREAD SAFE END ---- } else { // the paragraph changed meanwhile... (and maybe is still edited) // thus we simply continue to ask for the next to be checked. uno::Reference< text::XFlatParagraph > xFlatParaNext( xFPIterator->getNextPara() ); AddEntry( xFPIterator, xFlatParaNext, aCurDocId, 0, aFPEntryItem.m_bAutomatic ); } } // ---- THREAD SAFE START ---- { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aCurCheckedDocId = OUString(); } // ---- THREAD SAFE END ---- } else { // ---- THREAD SAFE START ---- { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); // Check queue state again if (m_aFPEntriesQueue.empty()) m_aWakeUpThread.reset(); } // ---- THREAD SAFE END ---- //if the queue is empty // IMPORTANT: Don't call condition.wait() with locked // mutex. Otherwise you would keep out other threads // to add entries to the queue! A condition is thread- // safe implemented. m_aWakeUpThread.wait(); } // ---- THREAD SAFE START ---- { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); bEnd = m_bEnd; } // ---- THREAD SAFE END ---- } //!! This one must be the very last statement to call in this function !! m_aRequestEndThread.set(); } void SAL_CALL GrammarCheckingIterator::startProofreading( const uno::Reference< ::uno::XInterface > & xDoc, const uno::Reference< text::XFlatParagraphIteratorProvider > & xIteratorProvider ) throw (uno::RuntimeException, lang::IllegalArgumentException) { // get paragraph to start checking with const bool bAutomatic = true; uno::Reference xFPIterator = xIteratorProvider->getFlatParagraphIterator( text::TextMarkupType::PROOFREADING, bAutomatic ); uno::Reference< text::XFlatParagraph > xPara( xFPIterator.is()? xFPIterator->getFirstPara() : NULL ); uno::Reference< lang::XComponent > xComponent( xDoc, uno::UNO_QUERY ); // ---- THREAD SAFE START ---- ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); if (xPara.is() && xComponent.is()) { OUString aDocId = GetOrCreateDocId( xComponent ); // create new entry and add it to queue AddEntry( xFPIterator, xPara, aDocId, 0, bAutomatic ); } // ---- THREAD SAFE END ---- } linguistic2::ProofreadingResult SAL_CALL GrammarCheckingIterator::checkSentenceAtPosition( const uno::Reference< uno::XInterface >& xDoc, const uno::Reference< text::XFlatParagraph >& xFlatPara, const OUString& rText, const lang::Locale& rLocale, sal_Int32 nStartOfSentencePos, sal_Int32 nSuggestedEndOfSentencePos, sal_Int32 nErrorPosInPara ) throw (lang::IllegalArgumentException, uno::RuntimeException) { (void) rLocale; // for the context menu... linguistic2::ProofreadingResult aRes; uno::Reference< lang::XComponent > xComponent( xDoc, uno::UNO_QUERY ); if (xFlatPara.is() && xComponent.is() && ( nErrorPosInPara < 0 || nErrorPosInPara < rText.getLength())) { // iterate through paragraph until we find the sentence we are interested in linguistic2::ProofreadingResult aTmpRes; sal_Int32 nStartPos = nStartOfSentencePos >= 0 ? nStartOfSentencePos : 0; bool bFound = false; do { lang::Locale aCurLocale = lcl_GetPrimaryLanguageOfSentence( xFlatPara, nStartPos ); sal_Int32 nOldStartOfSentencePos = nStartPos; uno::Reference< linguistic2::XProofreader > xGC; OUString aDocId; // ---- THREAD SAFE START ---- { ::osl::ClearableGuard< ::osl::Mutex > aGuard( MyMutex::get() ); aDocId = GetOrCreateDocId( xComponent ); nSuggestedEndOfSentencePos = GetSuggestedEndOfSentence( rText, nStartPos, aCurLocale ); DBG_ASSERT( nSuggestedEndOfSentencePos > nStartPos, "nSuggestedEndOfSentencePos calculation failed?" ); xGC = GetGrammarChecker( aCurLocale ); } // ---- THREAD SAFE START ---- sal_Int32 nEndPos = -1; if (xGC.is()) { uno::Sequence< beans::PropertyValue > aEmptyProps; aTmpRes = xGC->doProofreading( aDocId, rText, aCurLocale, nStartPos, nSuggestedEndOfSentencePos, aEmptyProps ); //!! work-around to prevent looping if the grammar checker //!! failed to properly identify the sentence end if (aTmpRes.nBehindEndOfSentencePosition <= nStartPos) { DBG_ASSERT( 0, "!! Grammarchecker failed to provide end of sentence !!" ); aTmpRes.nBehindEndOfSentencePosition = nSuggestedEndOfSentencePos; } aTmpRes.xFlatParagraph = xFlatPara; aTmpRes.nStartOfSentencePosition = nStartPos; nEndPos = aTmpRes.nBehindEndOfSentencePosition; if ((nErrorPosInPara< 0 || nStartPos <= nErrorPosInPara) && nErrorPosInPara < nEndPos) bFound = true; } if (nEndPos == -1) // no result from grammar checker nEndPos = nSuggestedEndOfSentencePos; nStartPos = lcl_SkipWhiteSpaces( rText, nEndPos ); aTmpRes.nBehindEndOfSentencePosition = nEndPos; aTmpRes.nStartOfNextSentencePosition = nStartPos; aTmpRes.nBehindEndOfSentencePosition = lcl_BacktraceWhiteSpaces( rText, aTmpRes.nStartOfNextSentencePosition ); // prevent endless loop by forcefully advancing if needs be... if (nStartPos <= nOldStartOfSentencePos) { DBG_ASSERT( 0, "end-of-sentence detection failed?" ); nStartPos = nOldStartOfSentencePos + 1; } } while (!bFound && nStartPos < rText.getLength()); if (bFound && !xFlatPara->isModified()) aRes = aTmpRes; } return aRes; } sal_Int32 GrammarCheckingIterator::GetSuggestedEndOfSentence( const OUString &rText, sal_Int32 nSentenceStartPos, const lang::Locale &rLocale ) { // internal method; will always be called with locked mutex uno::Reference< i18n::XBreakIterator > xBreakIterator; if (!m_xBreakIterator.is()) { uno::Reference< lang::XMultiServiceFactory > xMSF = ::comphelper::getProcessServiceFactory(); if ( xMSF.is() ) xBreakIterator = uno::Reference < i18n::XBreakIterator >( xMSF->createInstance( ::rtl::OUString::createFromAscii("com.sun.star.i18n.BreakIterator") ), uno::UNO_QUERY ); } sal_Int32 nTextLen = rText.getLength(); sal_Int32 nEndPosition = nTextLen; if (m_xBreakIterator.is()) { sal_Int32 nTmpStartPos = nSentenceStartPos; do { nEndPosition = nTextLen; if (nTmpStartPos < nTextLen) nEndPosition = m_xBreakIterator->endOfSentence( rText, nTmpStartPos, rLocale ); if (nEndPosition < 0) nEndPosition = nTextLen; ++nTmpStartPos; } while (nEndPosition <= nSentenceStartPos && nEndPosition < nTextLen); if (nEndPosition > nTextLen) nEndPosition = nTextLen; } return nEndPosition; } void SAL_CALL GrammarCheckingIterator::resetIgnoreRules( ) throw (uno::RuntimeException) { GCReferences_t::iterator aIt( m_aGCReferencesByService.begin() ); while (aIt != m_aGCReferencesByService.end()) { uno::Reference< linguistic2::XProofreader > xGC( aIt->second ); if (xGC.is()) xGC->resetIgnoreRules(); ++aIt; } } sal_Bool SAL_CALL GrammarCheckingIterator::isProofreading( const uno::Reference< uno::XInterface >& xDoc ) throw (uno::RuntimeException) { // ---- THREAD SAFE START ---- ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); sal_Bool bRes = sal_False; uno::Reference< lang::XComponent > xComponent( xDoc, uno::UNO_QUERY ); if (xComponent.is()) { // if the component was already used in one of the two calls to check text // i.e. in startGrammarChecking or checkGrammarAtPos it will be found in the // m_aDocIdMap unless the document already disposed. // If it is not found then it is not yet being checked (or requested to being checked) const DocMap_t::const_iterator aIt( m_aDocIdMap.find( xComponent.get() ) ); if (aIt != m_aDocIdMap.end()) { // check in document is checked automatically in the background... OUString aDocId = aIt->second; if (m_aCurCheckedDocId.getLength() > 0 && m_aCurCheckedDocId == aDocId) { // an entry for that document was dequed and is currently being checked. bRes = sal_True; } else { // we need to check if there is an entry for that document in the queue... // That is the document is going to be checked sooner or later. sal_Int32 nSize = m_aFPEntriesQueue.size(); for (sal_Int32 i = 0; i < nSize && !bRes; ++i) { if (aDocId == m_aFPEntriesQueue[i].m_aDocId) bRes = sal_True; } } } } // ---- THREAD SAFE END ---- return bRes; } void SAL_CALL GrammarCheckingIterator::processLinguServiceEvent( const linguistic2::LinguServiceEvent& rLngSvcEvent ) throw (uno::RuntimeException) { if (rLngSvcEvent.nEvent == linguistic2::LinguServiceEventFlags::PROOFREAD_AGAIN) { try { uno::Reference< uno::XInterface > xThis( dynamic_cast< XLinguServiceEventBroadcaster * >(this) ); linguistic2::LinguServiceEvent aEvent( xThis, linguistic2::LinguServiceEventFlags::PROOFREAD_AGAIN ); m_aNotifyListeners.notifyEach( &linguistic2::XLinguServiceEventListener::processLinguServiceEvent, aEvent); } catch (uno::RuntimeException &) { throw; } catch (::uno::Exception &rE) { (void) rE; // ignore DBG_WARNING1("processLinguServiceEvent: exception:\n%s", OUStringToOString(rE.Message, RTL_TEXTENCODING_UTF8).getStr()); } } } sal_Bool SAL_CALL GrammarCheckingIterator::addLinguServiceEventListener( const uno::Reference< linguistic2::XLinguServiceEventListener >& xListener ) throw (uno::RuntimeException) { if (xListener.is()) { // ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aNotifyListeners.addInterface( xListener ); } return sal_True; } sal_Bool SAL_CALL GrammarCheckingIterator::removeLinguServiceEventListener( const uno::Reference< linguistic2::XLinguServiceEventListener >& xListener ) throw (uno::RuntimeException) { if (xListener.is()) { // ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aNotifyListeners.removeInterface( xListener ); } return sal_True; } void SAL_CALL GrammarCheckingIterator::dispose() throw (uno::RuntimeException) { lang::EventObject aEvt( (linguistic2::XProofreadingIterator *) this ); m_aEventListeners.disposeAndClear( aEvt ); // // now end the thread... // m_aRequestEndThread.reset(); // ---- THREAD SAFE START ---- { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_bEnd = sal_True; } // ---- THREAD SAFE END ---- m_aWakeUpThread.set(); const TimeValue aTime = { 3, 0 }; // wait 3 seconds... m_aRequestEndThread.wait( &aTime ); // if the call ends because of time-out we will end anyway... // ---- THREAD SAFE START ---- { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); // releaase all UNO references m_xMSF.clear(); m_xBreakIterator.clear(); // clear containers with UNO references AND have those references released GCReferences_t aTmpEmpty1; DocMap_t aTmpEmpty2; FPQueue_t aTmpEmpty3; m_aGCReferencesByService.swap( aTmpEmpty1 ); m_aDocIdMap.swap( aTmpEmpty2 ); m_aFPEntriesQueue.swap( aTmpEmpty3 ); } // ---- THREAD SAFE END ---- } void SAL_CALL GrammarCheckingIterator::addEventListener( const uno::Reference< lang::XEventListener >& xListener ) throw (uno::RuntimeException) { if (xListener.is()) { // ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aEventListeners.addInterface( xListener ); } } void SAL_CALL GrammarCheckingIterator::removeEventListener( const uno::Reference< lang::XEventListener >& xListener ) throw (uno::RuntimeException) { if (xListener.is()) { // ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aEventListeners.removeInterface( xListener ); } } void SAL_CALL GrammarCheckingIterator::disposing( const lang::EventObject &rSource ) throw (uno::RuntimeException) { // if the component (document) is disposing release all references //!! There is no need to remove entries from the queue that are from this document //!! since the respectives xFlatParagraphs should become invalid (isModified() == true) //!! and the call to xFlatParagraphIterator->getNextPara() will result in an empty reference. //!! And if an entry is currently checked by a grammar checker upon return the results //!! should be ignored. //!! Also GetOrCreateDocId will not use that very same Id again... //!! All of the above resulting in that we only have to get rid of the implementation pointer here. uno::Reference< lang::XComponent > xDoc( rSource.Source, uno::UNO_QUERY ); if (xDoc.is()) { // ---- THREAD SAFE START ---- ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aDocIdMap.erase( xDoc.get() ); // ---- THREAD SAFE END ---- } } uno::Reference< util::XChangesBatch > GrammarCheckingIterator::GetUpdateAccess() const { if (!m_xUpdateAccess.is()) { try { // get configuration provider uno::Reference< lang::XMultiServiceFactory > xConfigurationProvider; uno::Reference< lang::XMultiServiceFactory > xMgr = utl::getProcessServiceFactory(); if (xMgr.is()) { xConfigurationProvider = uno::Reference< lang::XMultiServiceFactory > ( xMgr->createInstance( OUString( RTL_CONSTASCII_USTRINGPARAM( "com.sun.star.configuration.ConfigurationProvider" ) ) ), uno::UNO_QUERY_THROW ) ; } // get configuration update access beans::PropertyValue aValue; aValue.Name = A2OU( "nodepath" ); aValue.Value = uno::makeAny( A2OU("org.openoffice.Office.Linguistic/ServiceManager") ); uno::Sequence< uno::Any > aProps(1); aProps[0] <<= aValue; m_xUpdateAccess = uno::Reference< util::XChangesBatch >( xConfigurationProvider->createInstanceWithArguments( A2OU( "com.sun.star.configuration.ConfigurationUpdateAccess" ), aProps ), uno::UNO_QUERY_THROW ); } catch (uno::Exception &) { } } return m_xUpdateAccess; } void GrammarCheckingIterator::GetConfiguredGCSvcs_Impl() { GCImplNames_t aTmpGCImplNamesByLang; try { // get node names (locale iso strings) for configured grammar checkers uno::Reference< container::XNameAccess > xNA( GetUpdateAccess(), uno::UNO_QUERY_THROW ); xNA.set( xNA->getByName( A2OU("GrammarCheckerList") ), uno::UNO_QUERY_THROW ); const uno::Sequence< OUString > aElementNames( xNA->getElementNames() ); const OUString *pElementNames = aElementNames.getConstArray(); sal_Int32 nLen = aElementNames.getLength(); for (sal_Int32 i = 0; i < nLen; ++i) { uno::Sequence< OUString > aImplNames; uno::Any aTmp( xNA->getByName( pElementNames[i] ) ); if (aTmp >>= aImplNames) { if (aImplNames.getLength() > 0) { // only the first entry is used, there should be only one grammar checker per language const OUString aImplName( aImplNames[0] ); const LanguageType nLang = MsLangId::convertIsoStringToLanguage( pElementNames[i] ); aTmpGCImplNamesByLang[ nLang ] = aImplName; } } else { DBG_ASSERT( 0, "failed to get aImplNames. Wrong type?" ); } } } catch (uno::Exception &) { DBG_ASSERT( 0, "exception caught. Failed to get configured services" ); } { // ---- THREAD SAFE START ---- ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aGCImplNamesByLang = aTmpGCImplNamesByLang; // ---- THREAD SAFE END ---- } } /* void GrammarCheckingIterator::GetMatchingGCSvcs_Impl() { GCImplNames_t aTmpGCImplNamesByLang; try { // get node names (locale iso strings) for configured grammar checkers uno::Reference< container::XNameAccess > xNA( GetUpdateAccess(), uno::UNO_QUERY_THROW ); xNA.set( xNA->getByName( A2OU("GrammarCheckers") ), uno::UNO_QUERY_THROW ); const uno::Sequence< OUString > aGCImplNames( xNA->getElementNames() ); const OUString *pGCImplNames = aGCImplNames.getConstArray(); sal_Int32 nLen = aGCImplNames.getLength(); for (sal_Int32 i = 0; i < nLen; ++i) { uno::Reference< container::XNameAccess > xTmpNA( xNA->getByName( pGCImplNames[i] ), uno::UNO_QUERY_THROW ); uno::Any aTmp( xTmpNA->getByName( A2OU("Locales") ) ); uno::Sequence< OUString > aIsoLocaleNames; if (aTmp >>= aIsoLocaleNames) { const OUString *pIsoLocaleNames = aIsoLocaleNames.getConstArray(); for (sal_Int32 k = 0; k < aIsoLocaleNames.getLength(); ++k) { // if there are more grammar checkers for one language, for the time being, // the last one found here will win... const LanguageType nLang = MsLangId::convertIsoStringToLanguage( pIsoLocaleNames[k] ); aTmpGCImplNamesByLang[ nLang ] = pGCImplNames[i]; } } else { DBG_ASSERT( 0, "failed to get aImplNames. Wrong type?" ); } } } catch (uno::Exception &) { DBG_ASSERT( 0, "exception caught. Failed to get matching grammar checker services" ); } { // ---- THREAD SAFE START ---- ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aGCImplNamesByLang = aTmpGCImplNamesByLang; // ---- THREAD SAFE END ---- } } */ /* void GrammarCheckingIterator::GetAvailableGCSvcs_Impl() { // internal method; will always be called with locked mutex if (m_xMSF.is()) { uno::Reference< container::XContentEnumerationAccess > xEnumAccess( m_xMSF, uno::UNO_QUERY ); uno::Reference< container::XEnumeration > xEnum; if (xEnumAccess.is()) xEnum = xEnumAccess->createContentEnumeration( A2OU( SN_GRAMMARCHECKER ) ); if (xEnum.is()) { while (xEnum->hasMoreElements()) { uno::Any aCurrent = xEnum->nextElement(); uno::Reference< lang::XSingleComponentFactory > xCompFactory; uno::Reference< lang::XSingleServiceFactory > xFactory; uno::Reference< uno::XComponentContext > xContext; uno::Reference< beans::XPropertySet > xProps( m_xMSF, uno::UNO_QUERY ); xProps->getPropertyValue( rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "DefaultContext" ))) >>= xContext; if ( xContext.is() && (cppu::extractInterface( xCompFactory, aCurrent ) || cppu::extractInterface( xFactory, aCurrent )) ) { try { uno::Reference< linguistic2::XProofreader > xSvc( ( xCompFactory.is() ? xCompFactory->createInstanceWithContext( xContext ) : xFactory->createInstance() ), uno::UNO_QUERY ); if (xSvc.is()) { OUString aImplName; uno::Reference< XServiceInfo > xInfo( xSvc, uno::UNO_QUERY ); if (xInfo.is()) aImplName = xInfo->getImplementationName(); DBG_ASSERT( aImplName.getLength(), "empty implementation name" ); uno::Reference< linguistic2::XSupportedLocales > xSuppLoc( xSvc, uno::UNO_QUERY ); DBG_ASSERT( xSuppLoc.is(), "interfaces not supported" ); if (xSuppLoc.is() && aImplName.getLength() > 0) { uno::Sequence< lang::Locale > aLocaleSequence( xSuppLoc->getLocales() ); // ---- THREAD SAFE START ---- ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); m_aGCLocalesByService[ aImplName ] = aLocaleSequence; m_aGCReferencesByService[ aImplName ] = xSvc; // ---- THREAD SAFE END ---- } } } catch (uno::Exception &) { DBG_ASSERT( 0, "instantiating grammar checker failed" ); } } } } } } */ sal_Bool SAL_CALL GrammarCheckingIterator::supportsService( const OUString & rServiceName ) throw(uno::RuntimeException) { uno::Sequence< OUString > aSNL = getSupportedServiceNames(); const OUString * pArray = aSNL.getConstArray(); for( INT32 i = 0; i < aSNL.getLength(); ++i ) if( pArray[i] == rServiceName ) return TRUE; return FALSE; } OUString SAL_CALL GrammarCheckingIterator::getImplementationName( ) throw (uno::RuntimeException) { return GrammarCheckingIterator_getImplementationName(); } uno::Sequence< OUString > SAL_CALL GrammarCheckingIterator::getSupportedServiceNames( ) throw (uno::RuntimeException) { return GrammarCheckingIterator_getSupportedServiceNames(); } void GrammarCheckingIterator::SetServiceList( const lang::Locale &rLocale, const uno::Sequence< OUString > &rSvcImplNames ) { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); LanguageType nLanguage = LocaleToLanguage( rLocale ); OUString aImplName; if (rSvcImplNames.getLength() > 0) aImplName = rSvcImplNames[0]; // there is only one grammar checker per language if (nLanguage != LANGUAGE_NONE && nLanguage != LANGUAGE_DONTKNOW) { if (aImplName.getLength() > 0) m_aGCImplNamesByLang[ nLanguage ] = aImplName; else m_aGCImplNamesByLang.erase( nLanguage ); } } uno::Sequence< OUString > GrammarCheckingIterator::GetServiceList( const lang::Locale &rLocale ) const { ::osl::Guard< ::osl::Mutex > aGuard( MyMutex::get() ); uno::Sequence< OUString > aRes(1); OUString aImplName; // there is only one grammar checker per language LanguageType nLang = LocaleToLanguage( rLocale ); GCImplNames_t::const_iterator aIt( m_aGCImplNamesByLang.find( nLang ) ); if (aIt != m_aGCImplNamesByLang.end()) aImplName = aIt->second; if (aImplName.getLength() > 0) aRes[0] = aImplName; else aRes.realloc(0); return aRes; } LinguDispatcher::DspType GrammarCheckingIterator::GetDspType() const { return DSP_GRAMMAR; } /////////////////////////////////////////////////////////////////////////// static OUString GrammarCheckingIterator_getImplementationName() throw() { return A2OU( "com.sun.star.lingu2.ProofreadingIterator" ); } static uno::Sequence< OUString > GrammarCheckingIterator_getSupportedServiceNames() throw() { uno::Sequence< OUString > aSNS( 1 ); aSNS.getArray()[0] = A2OU( SN_GRAMMARCHECKINGITERATOR ); return aSNS; } static uno::Reference< uno::XInterface > SAL_CALL GrammarCheckingIterator_createInstance( const uno::Reference< lang::XMultiServiceFactory > & rxSMgr ) throw(uno::Exception) { return static_cast< ::cppu::OWeakObject * >(new GrammarCheckingIterator( rxSMgr )); } void * SAL_CALL GrammarCheckingIterator_getFactory( const sal_Char *pImplName, lang::XMultiServiceFactory *pServiceManager, void * /*pRegistryKey*/ ) { void * pRet = 0; if ( !GrammarCheckingIterator_getImplementationName().compareToAscii( pImplName ) ) { uno::Reference< lang::XSingleServiceFactory > xFactory = cppu::createOneInstanceFactory( pServiceManager, GrammarCheckingIterator_getImplementationName(), GrammarCheckingIterator_createInstance, GrammarCheckingIterator_getSupportedServiceNames()); // acquire, because we return an interface pointer instead of a reference xFactory->acquire(); pRet = xFactory.get(); } return pRet; } sal_Bool SAL_CALL GrammarCheckingIterator_writeInfo( void * /*pServiceManager*/, registry::XRegistryKey * pRegistryKey ) { try { OUString aImpl( '/' ); aImpl += GrammarCheckingIterator_getImplementationName().getStr(); aImpl += A2OU( "/UNO/SERVICES" ); uno::Reference< registry::XRegistryKey > xNewKey = pRegistryKey->createKey( aImpl ); uno::Sequence< OUString > aServices = GrammarCheckingIterator_getSupportedServiceNames(); for( sal_Int32 i = 0; i < aServices.getLength(); i++ ) xNewKey->createKey( aServices.getConstArray()[i] ); return sal_True; } catch (uno::Exception &) { return sal_False; } }