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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_lingucomponent.hxx" #include #include #include #include // helper for factories #include #include #include #include //#include #include #include //#include #include #include #include #include #include using namespace utl; using namespace osl; using namespace rtl; using namespace com::sun::star; using namespace com::sun::star::beans; using namespace com::sun::star::lang; using namespace com::sun::star::uno; using namespace com::sun::star::linguistic2; using namespace linguistic; /////////////////////////////////////////////////////////////////////////// // dbg_dump for development #if OSL_DEBUG_LEVEL > 1 #include #include const sal_Char *dbg_dump(const rtl::OString &rStr) { static rtl::OStringBuffer aStr; aStr = rtl::OStringBuffer(rStr); aStr.append(static_cast(0)); return aStr.getStr(); } const sal_Char *dbg_dump(const rtl::OUString &rStr) { return dbg_dump(rtl::OUStringToOString(rStr, RTL_TEXTENCODING_UTF8)); } const sal_Char *dbg_dump(rtl_String *pStr) { return dbg_dump(rtl::OString(pStr)); } const sal_Char *dbg_dump(rtl_uString *pStr) { return dbg_dump(rtl::OUString(pStr)); } #endif /////////////////////////////////////////////////////////////////////////// MacSpellChecker::MacSpellChecker() : aEvtListeners ( GetLinguMutex() ) { // aDicts = NULL; aDEncs = NULL; aDLocs = NULL; aDNames = NULL; bDisposing = FALSE; pPropHelper = NULL; numdict = 0; NSApplicationLoad(); NSAutoreleasePool* pool = [[NSAutoreleasePool alloc] init]; macSpell = [NSSpellChecker sharedSpellChecker]; macTag = [NSSpellChecker uniqueSpellDocumentTag]; [pool release]; } MacSpellChecker::~MacSpellChecker() { // if (aDicts) { // for (int i = 0; i < numdict; i++) { // if (aDicts[i]) delete aDicts[i]; // aDicts[i] = NULL; // } // delete[] aDicts; // } // aDicts = NULL; numdict = 0; if (aDEncs) delete[] aDEncs; aDEncs = NULL; if (aDLocs) delete[] aDLocs; aDLocs = NULL; if (aDNames) delete[] aDNames; aDNames = NULL; if (pPropHelper) pPropHelper->RemoveAsPropListener(); } PropertyHelper_Spell & MacSpellChecker::GetPropHelper_Impl() { if (!pPropHelper) { Reference< XPropertySet > xPropSet( GetLinguProperties(), UNO_QUERY ); pPropHelper = new PropertyHelper_Spell( (XSpellChecker *) this, xPropSet ); xPropHelper = pPropHelper; pPropHelper->AddAsPropListener(); //! after a reference is established } return *pPropHelper; } Sequence< Locale > SAL_CALL MacSpellChecker::getLocales() throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); // this routine should return the locales supported by the installed // dictionaries. So here we need to parse both the user edited // dictionary list and the shared dictionary list // to see what dictionaries the admin/user has installed int numusr; // number of user dictionary entries int numshr; // number of shared dictionary entries dictentry * spdict; // shared dict entry pointer dictentry * updict; // user dict entry pointer SvtPathOptions aPathOpt; rtl_TextEncoding aEnc = RTL_TEXTENCODING_UTF8; std::vector postspdict; //std::vector postspdict; std::vector postupdict; if (!numdict) { // invoke a dictionary manager to get the user dictionary list // TODO How on Mac OS X? // invoke a second dictionary manager to get the shared dictionary list NSArray *aLocales = [NSLocale availableLocaleIdentifiers]; //Test for existence of the dictionaries for (unsigned int i = 0; i < [aLocales count]; i++) { if( [macSpell setLanguage:[aLocales objectAtIndex:i] ] ) { postspdict.push_back( [ aLocales objectAtIndex:i ] ); } } numusr = postupdict.size(); numshr = postspdict.size(); // we really should merge these and remove duplicates but since // users can name their dictionaries anything they want it would // be impossible to know if a real duplication exists unless we // add some unique key to each myspell dictionary numdict = numshr + numusr; if (numdict) { aDLocs = new Locale [numdict]; aDEncs = new rtl_TextEncoding [numdict]; aDNames = new OUString [numdict]; aSuppLocales.realloc(numdict); Locale * pLocale = aSuppLocales.getArray(); int numlocs = 0; int newloc; int i,j; int k = 0; //first add the user dictionaries //TODO for MAC? // now add the shared dictionaries for (i = 0; i < numshr; i++) { NSDictionary *aLocDict = [ NSLocale componentsFromLocaleIdentifier:postspdict[i] ]; NSString* aLang = [ aLocDict objectForKey:NSLocaleLanguageCode ]; NSString* aCountry = [ aLocDict objectForKey:NSLocaleCountryCode ]; OUString lang([aLang cStringUsingEncoding: NSUTF8StringEncoding], [aLang length], aEnc); OUString country([ aCountry cStringUsingEncoding: NSUTF8StringEncoding], [aCountry length], aEnc); Locale nLoc( lang, country, OUString() ); newloc = 1; //eliminate duplicates (is this needed for MacOS?) for (j = 0; j < numlocs; j++) { if (nLoc == pLocale[j]) newloc = 0; } if (newloc) { pLocale[numlocs] = nLoc; numlocs++; } aDLocs[k] = nLoc; //pointer to Hunspell dictionary - not needed for MAC //aDicts[k] = NULL; aDEncs[k] = 0; // Dictionary file names not valid for Mac Spell //aDNames[k] = aPathOpt.GetLinguisticPath() + A2OU("/ooo/") + A2OU(postspdict[i]->filename); k++; } aSuppLocales.realloc(numlocs); } else { /* no dictionary.lst found so register no dictionaries */ numdict = 0; //aDicts = NULL; aDEncs = NULL; aDLocs = NULL; aDNames = NULL; aSuppLocales.realloc(0); } /* de-allocation of memory is handled inside the DictMgr */ updict = NULL; spdict = NULL; } return aSuppLocales; } sal_Bool SAL_CALL MacSpellChecker::hasLocale(const Locale& rLocale) throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); BOOL bRes = FALSE; if (!aSuppLocales.getLength()) getLocales(); INT32 nLen = aSuppLocales.getLength(); for (INT32 i = 0; i < nLen; ++i) { const Locale *pLocale = aSuppLocales.getConstArray(); if (rLocale == pLocale[i]) { bRes = TRUE; break; } } return bRes; } INT16 MacSpellChecker::GetSpellFailure( const OUString &rWord, const Locale &rLocale ) { rtl_TextEncoding aEnc; // initialize a myspell object for each dictionary once // (note: mutex is held higher up in isValid) INT16 nRes = -1; // first handle smart quotes both single and double OUStringBuffer rBuf(rWord); sal_Int32 n = rBuf.getLength(); sal_Unicode c; for (sal_Int32 ix=0; ix < n; ix++) { c = rBuf.charAt(ix); if ((c == 0x201C) || (c == 0x201D)) rBuf.setCharAt(ix,(sal_Unicode)0x0022); if ((c == 0x2018) || (c == 0x2019)) rBuf.setCharAt(ix,(sal_Unicode)0x0027); } OUString nWord(rBuf.makeStringAndClear()); if (n) { aEnc = 0; NSAutoreleasePool* pool = [[NSAutoreleasePool alloc] init]; NSString* aNSStr = [[NSString alloc] initWithCharacters: nWord.getStr() length: nWord.getLength()]; NSString* aLang = [[NSString alloc] initWithCharacters: rLocale.Language.getStr() length: rLocale.Language.getLength()]; if(rLocale.Country.getLength()>0) { NSString* aCountry = [[NSString alloc] initWithCharacters: rLocale.Country.getStr() length: rLocale.Country.getLength()]; NSString* aTag = @"_"; NSString* aTaggedCountry = [aTag stringByAppendingString:aCountry]; [aLang autorelease]; aLang = [aLang stringByAppendingString:aTaggedCountry]; } int aCount; NSRange range = [macSpell checkSpellingOfString:aNSStr startingAt:0 language:aLang wrap:FALSE inSpellDocumentWithTag:macTag wordCount:&aCount]; int rVal = 0; if(range.length>0) { rVal = -1; } else { rVal = 1; } [pool release]; if (rVal != 1) { nRes = SpellFailure::SPELLING_ERROR; } else { return -1; } } return nRes; } sal_Bool SAL_CALL MacSpellChecker::isValid( const OUString& rWord, const Locale& rLocale, const PropertyValues& rProperties ) throw(IllegalArgumentException, RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); if (rLocale == Locale() || !rWord.getLength()) return TRUE; if (!hasLocale( rLocale )) #ifdef LINGU_EXCEPTIONS throw( IllegalArgumentException() ); #else return TRUE; #endif // Get property values to be used. // These are be the default values set in the SN_LINGU_PROPERTIES // PropertySet which are overridden by the supplied ones from the // last argument. // You'll probably like to use a simplier solution than the provided // one using the PropertyHelper_Spell. PropertyHelper_Spell &rHelper = GetPropHelper(); rHelper.SetTmpPropVals( rProperties ); INT16 nFailure = GetSpellFailure( rWord, rLocale ); if (nFailure != -1) { INT16 nLang = LocaleToLanguage( rLocale ); // postprocess result for errors that should be ignored if ( (!rHelper.IsSpellUpperCase() && IsUpper( rWord, nLang )) || (!rHelper.IsSpellWithDigits() && HasDigits( rWord )) || (!rHelper.IsSpellCapitalization() && nFailure == SpellFailure::CAPTION_ERROR) ) nFailure = -1; } return (nFailure == -1); } Reference< XSpellAlternatives > MacSpellChecker::GetProposals( const OUString &rWord, const Locale &rLocale ) { // Retrieves the return values for the 'spell' function call in case // of a misspelled word. // Especially it may give a list of suggested (correct) words: Reference< XSpellAlternatives > xRes; // note: mutex is held by higher up by spell which covers both INT16 nLang = LocaleToLanguage( rLocale ); int count; Sequence< OUString > aStr( 0 ); // first handle smart quotes (single and double) OUStringBuffer rBuf(rWord); sal_Int32 n = rBuf.getLength(); sal_Unicode c; for (sal_Int32 ix=0; ix < n; ix++) { c = rBuf.charAt(ix); if ((c == 0x201C) || (c == 0x201D)) rBuf.setCharAt(ix,(sal_Unicode)0x0022); if ((c == 0x2018) || (c == 0x2019)) rBuf.setCharAt(ix,(sal_Unicode)0x0027); } OUString nWord(rBuf.makeStringAndClear()); if (n) { NSAutoreleasePool* pool = [[NSAutoreleasePool alloc] init]; NSString* aNSStr = [[NSString alloc] initWithCharacters: nWord.getStr() length: nWord.getLength()]; NSString* aLang = [[NSString alloc] initWithCharacters: rLocale.Language.getStr() length: rLocale.Language.getLength() ]; if(rLocale.Country.getLength()>0) { NSString* aCountry = [[NSString alloc] initWithCharacters: rLocale.Country.getStr() length: rLocale.Country.getLength() ]; NSString* aTag = @"_"; NSString* aTaggedCountry = [aTag stringByAppendingString:aCountry]; [aLang autorelease]; aLang = [aLang stringByAppendingString:aTaggedCountry]; } [macSpell setLanguage:aLang]; NSArray *guesses = [macSpell guessesForWord:aNSStr]; count = [guesses count]; if (count) { aStr.realloc( count ); OUString *pStr = aStr.getArray(); for (int ii=0; ii < count; ii++) { // if needed add: if (suglst[ii] == NULL) continue; NSString* guess = [guesses objectAtIndex:ii]; OUString cvtwrd((const sal_Unicode*)[guess cStringUsingEncoding:NSUnicodeStringEncoding], (sal_Int32)[guess length]); pStr[ii] = cvtwrd; } } [pool release]; } // now return an empty alternative for no suggestions or the list of alternatives if some found SpellAlternatives *pAlt = new SpellAlternatives; String aTmp(rWord); pAlt->SetWordLanguage( aTmp, nLang ); pAlt->SetFailureType( SpellFailure::SPELLING_ERROR ); pAlt->SetAlternatives( aStr ); xRes = pAlt; return xRes; } Reference< XSpellAlternatives > SAL_CALL MacSpellChecker::spell( const OUString& rWord, const Locale& rLocale, const PropertyValues& rProperties ) throw(IllegalArgumentException, RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); if (rLocale == Locale() || !rWord.getLength()) return NULL; if (!hasLocale( rLocale )) #ifdef LINGU_EXCEPTIONS throw( IllegalArgumentException() ); #else return NULL; #endif Reference< XSpellAlternatives > xAlt; if (!isValid( rWord, rLocale, rProperties )) { xAlt = GetProposals( rWord, rLocale ); } return xAlt; } Reference< XInterface > SAL_CALL MacSpellChecker_CreateInstance( const Reference< XMultiServiceFactory > & /*rSMgr*/ ) throw(Exception) { Reference< XInterface > xService = (cppu::OWeakObject*) new MacSpellChecker; return xService; } sal_Bool SAL_CALL MacSpellChecker::addLinguServiceEventListener( const Reference< XLinguServiceEventListener >& rxLstnr ) throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); BOOL bRes = FALSE; if (!bDisposing && rxLstnr.is()) { bRes = GetPropHelper().addLinguServiceEventListener( rxLstnr ); } return bRes; } sal_Bool SAL_CALL MacSpellChecker::removeLinguServiceEventListener( const Reference< XLinguServiceEventListener >& rxLstnr ) throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); BOOL bRes = FALSE; if (!bDisposing && rxLstnr.is()) { DBG_ASSERT( xPropHelper.is(), "xPropHelper non existent" ); bRes = GetPropHelper().removeLinguServiceEventListener( rxLstnr ); } return bRes; } OUString SAL_CALL MacSpellChecker::getServiceDisplayName( const Locale& /*rLocale*/ ) throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); return A2OU( "Mac OS X Spell Checker" ); } void SAL_CALL MacSpellChecker::initialize( const Sequence< Any >& rArguments ) throw(Exception, RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); if (!pPropHelper) { INT32 nLen = rArguments.getLength(); if (2 == nLen) { Reference< XPropertySet > xPropSet; rArguments.getConstArray()[0] >>= xPropSet; //rArguments.getConstArray()[1] >>= xDicList; //! Pointer allows for access of the non-UNO functions. //! And the reference to the UNO-functions while increasing //! the ref-count and will implicitly free the memory //! when the object is not longer used. pPropHelper = new PropertyHelper_Spell( (XSpellChecker *) this, xPropSet ); xPropHelper = pPropHelper; pPropHelper->AddAsPropListener(); //! after a reference is established } else DBG_ERROR( "wrong number of arguments in sequence" ); } } void SAL_CALL MacSpellChecker::dispose() throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); if (!bDisposing) { bDisposing = TRUE; EventObject aEvtObj( (XSpellChecker *) this ); aEvtListeners.disposeAndClear( aEvtObj ); } } void SAL_CALL MacSpellChecker::addEventListener( const Reference< XEventListener >& rxListener ) throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); if (!bDisposing && rxListener.is()) aEvtListeners.addInterface( rxListener ); } void SAL_CALL MacSpellChecker::removeEventListener( const Reference< XEventListener >& rxListener ) throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); if (!bDisposing && rxListener.is()) aEvtListeners.removeInterface( rxListener ); } /////////////////////////////////////////////////////////////////////////// // Service specific part // OUString SAL_CALL MacSpellChecker::getImplementationName() throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); return getImplementationName_Static(); } sal_Bool SAL_CALL MacSpellChecker::supportsService( const OUString& ServiceName ) throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); Sequence< OUString > aSNL = getSupportedServiceNames(); const OUString * pArray = aSNL.getConstArray(); for( INT32 i = 0; i < aSNL.getLength(); i++ ) if( pArray[i] == ServiceName ) return TRUE; return FALSE; } Sequence< OUString > SAL_CALL MacSpellChecker::getSupportedServiceNames() throw(RuntimeException) { MutexGuard aGuard( GetLinguMutex() ); return getSupportedServiceNames_Static(); } Sequence< OUString > MacSpellChecker::getSupportedServiceNames_Static() throw() { MutexGuard aGuard( GetLinguMutex() ); Sequence< OUString > aSNS( 1 ); // auch mehr als 1 Service moeglich aSNS.getArray()[0] = A2OU( SN_SPELLCHECKER ); return aSNS; } void * SAL_CALL MacSpellChecker_getFactory( const sal_Char * pImplName, XMultiServiceFactory * pServiceManager, void * ) { void * pRet = 0; if ( !MacSpellChecker::getImplementationName_Static().compareToAscii( pImplName ) ) { Reference< XSingleServiceFactory > xFactory = cppu::createOneInstanceFactory( pServiceManager, MacSpellChecker::getImplementationName_Static(), MacSpellChecker_CreateInstance, MacSpellChecker::getSupportedServiceNames_Static()); // acquire, because we return an interface pointer instead of a reference xFactory->acquire(); pRet = xFactory.get(); } return pRet; } ///////////////////////////////////////////////////////////////////////////