/* This file is (c) 2008-2012 Konstantin Isakov * Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */ #include #include #include #include "dictionary.hh" #include // For needToRebuildIndex(), read below #include #include #include "config.hh" #include #include #include #include #include "fsencoding.hh" #include #include #include #include "utils.hh" #include "zipfile.hh" namespace Dictionary { bool Request::isFinished() { return Utils::AtomicInt::loadAcquire( isFinishedFlag ); } void Request::update() { if ( !Utils::AtomicInt::loadAcquire( isFinishedFlag ) ) emit updated(); } void Request::finish() { if ( !Utils::AtomicInt::loadAcquire( isFinishedFlag ) ) { isFinishedFlag.ref(); emit finished(); } } void Request::setErrorString( QString const & str ) { Mutex::Lock _( errorStringMutex ); errorString = str; } QString Request::getErrorString() { Mutex::Lock _( errorStringMutex ); return errorString; } ///////// WordSearchRequest size_t WordSearchRequest::matchesCount() { Mutex::Lock _( dataMutex ); return matches.size(); } WordMatch WordSearchRequest::operator [] ( size_t index ) { Mutex::Lock _( dataMutex ); if ( index >= matches.size() ) throw exIndexOutOfRange(); return matches[ index ]; } vector< WordMatch > & WordSearchRequest::getAllMatches() { if ( !isFinished() ) throw exRequestUnfinished(); return matches; } void WordSearchRequest::addMatch( WordMatch const & match ) { unsigned n; for( n = 0; n < matches.size(); n++ ) if( matches[ n ].word.compare( match.word ) == 0 ) break; if( n >= matches.size() ) matches.push_back( match ); } ////////////// DataRequest long DataRequest::dataSize() { Mutex::Lock _( dataMutex ); return hasAnyData ? (long)data.size() : -1; } void DataRequest::getDataSlice( size_t offset, size_t size, void * buffer ) { if ( size == 0 ) return; Mutex::Lock _( dataMutex ); if ( offset + size > data.size() || !hasAnyData ) throw exSliceOutOfRange(); memcpy( buffer, &data[ offset ], size ); } vector< char > & DataRequest::getFullData() { if ( !isFinished() ) throw exRequestUnfinished(); return data; } Class::Class( string const & id_, vector< string > const & dictionaryFiles_ ): id( id_ ), dictionaryFiles( dictionaryFiles_ ), indexedFtsDoc(0) , dictionaryIconLoaded( false ), can_FTS( false),FTS_index_completed( false ) { } void Class::deferredInit() { } sptr< WordSearchRequest > Class::stemmedMatch( wstring const & /*str*/, unsigned /*minLength*/, unsigned /*maxSuffixVariation*/, unsigned long /*maxResults*/ ) { return std::make_shared(); } sptr< WordSearchRequest > Class::findHeadwordsForSynonym( wstring const & ) { return std::make_shared(); } vector< wstring > Class::getAlternateWritings( wstring const & ) noexcept { return vector< wstring >(); } sptr< DataRequest > Class::getResource( string const & /*name*/ ) { return std::make_shared( false ); } sptr< DataRequest > Class::getSearchResults(const QString &, int, bool, int, int, bool, bool ) { return std::make_shared( false ); } QString const& Class::getDescription() { return dictionaryDescription; } QString Class::getMainFilename() { return QString(); } QIcon const & Class::getIcon() noexcept { if( !dictionaryIconLoaded ) loadIcon(); return dictionaryIcon; } QIcon const & Class::getNativeIcon() noexcept { if( !dictionaryIconLoaded ) loadIcon(); return dictionaryNativeIcon; } void Class::loadIcon() noexcept { dictionaryIconLoaded = true; } bool Class::loadIconFromFile( QString const & _filename, bool isFullName ) { QFileInfo info; QString fileName( _filename ); if( isFullName ) info = QFileInfo( fileName ); else { fileName += "bmp"; info = QFileInfo( fileName ); if ( !info.isFile() ) { fileName.chop( 3 ); fileName += "png"; info = QFileInfo( fileName ); } if ( !info.isFile() ) { fileName.chop( 3 ); fileName += "jpg"; info = QFileInfo( fileName ); } if ( !info.isFile() ) { fileName.chop( 3 ); fileName += "ico"; info = QFileInfo( fileName ); } } if ( info.isFile() ) { QImage img( fileName ); if ( !img.isNull() ) { // Load successful //some icon is very large ,will crash the application. img = img.scaledToWidth( 64 ); // Apply the color key #if (QT_VERSION >= QT_VERSION_CHECK(6,0,0)) img.setAlphaChannel( img.createMaskFromColor( QColor( 192, 192, 192 ).rgb(), Qt::MaskOutColor ) ); #endif dictionaryNativeIcon = QIcon( QPixmap::fromImage( img )); // Transform it to be square int max = img.width() > img.height() ? img.width() : img.height(); QImage result( max, max, QImage::Format_ARGB32 ); result.fill( 0 ); // Black transparent QPainter painter( &result ); painter.setRenderHint(QPainter::RenderHint::Antialiasing); painter.drawImage( QPoint( img.width() == max ? 0 : ( max - img.width() ) / 2, img.height() == max ? 0 : ( max - img.height() ) / 2 ), img ); painter.end(); dictionaryIcon = QIcon( QPixmap::fromImage( result ) ); return !dictionaryIcon.isNull(); } } return false; } bool Class::loadIconFromText( QString iconUrl, QString const & text ) { if( text.isEmpty() ) return false; QImage img( iconUrl ); if ( !img.isNull() ) { int iconSize = 64; //some icon is very large ,will crash the application. img = img.scaledToWidth( iconSize ); QImage result( iconSize, iconSize, QImage::Format_ARGB32 ); result.fill( 0 ); // Black transparent int max = img.width() > img.height() ? img.width() : img.height(); QPainter painter( &result ); painter.setRenderHint(QPainter::RenderHint::Antialiasing); painter.drawImage( QPoint( img.width() == max ? 0 : ( max - img.width() ) / 2, img.height() == max ? 0 : ( max - img.height() ) / 2 ), img ); painter.setCompositionMode(QPainter::CompositionMode_SourceAtop); QFont font = painter.font(); //the text should be a little smaller than the icon font.setPixelSize( iconSize * 0.6 ); font.setWeight( QFont::Black ); painter.setFont( font ); const QRect rectangle = QRect( 0, 0, iconSize, iconSize ); //select a single char. auto abbrName = getAbbrName( text ); painter.drawText( rectangle, Qt::AlignCenter, abbrName); painter.end(); dictionaryNativeIcon = dictionaryIcon = QIcon( QPixmap::fromImage( result ) ); return !dictionaryIcon.isNull(); } return false; } QString Class::getAbbrName( QString const & text ) { if(text.isEmpty()) return QString(); //remove whitespace QString simplified = text; simplified.remove(QRegularExpression("\\s")); int index = qHash( simplified ) % simplified.size(); QString abbrName; if( !Utils::isCJKChar( simplified.at( index ).unicode() ) ) { // take two chars. abbrName = simplified.mid( index, 2 ); } else { abbrName = simplified.mid( index, 1 ); } return abbrName; } void Class::isolateCSS( QString & css, QString const & wrapperSelector ) { if( css.isEmpty() ) return; QRegularExpression reg1( "\\/\\*(?:.(?!\\*\\/))*.?\\*\\/", QRegularExpression::DotMatchesEverythingOption ); QRegularExpression reg2( "[ \\*\\>\\+,;:\\[\\{\\]]" ); QRegularExpression reg3( "[,;\\{]" ); int currentPos = 0; QString newCSS; QString prefix( "#gdfrom-" ); prefix += QString::fromLatin1( getId().c_str() ); if ( !wrapperSelector.isEmpty() ) prefix += " " + wrapperSelector; // Strip comments css.replace( reg1, QString() ); for( ; ; ) { if( currentPos >= css.length() ) break; QChar ch = css[ currentPos ]; if( ch == '@' ) { // @ rules int n = currentPos; if( css.mid( currentPos, 7 ).compare( "@import", Qt::CaseInsensitive ) == 0 || css.mid( currentPos, 10 ).compare( "@font-face", Qt::CaseInsensitive ) == 0 || css.mid( currentPos, 10 ).compare( "@namespace", Qt::CaseInsensitive ) == 0 || css.mid( currentPos, 8 ).compare( "@charset", Qt::CaseInsensitive ) == 0 ) { // Copy rule as is. n = css.indexOf( ';', currentPos ); int n2 = css.indexOf( '{', currentPos ); if( n2 > 0 && n > n2 ) n = n2 - 1; } else if( css.mid( currentPos, 6 ).compare( "@media", Qt::CaseInsensitive ) == 0 ) { // We must to parse it content to isolate it. // Copy all up to '{' and continue parse inside. n = css.indexOf( '{', currentPos ); } else if( css.mid( currentPos, 5 ).compare( "@page", Qt::CaseInsensitive ) == 0 ) { // Don't copy rule. GD use own page layout. n = css.indexOf( '}', currentPos ); if( n < 0 ) break; currentPos = n + 1; continue; } else { // Copy rule as is. n = css.indexOf( '}', currentPos ); } newCSS.append( css.mid( currentPos, n < 0 ? n : n - currentPos + 1 ) ); if( n < 0 ) break; currentPos = n + 1; continue; } if( ch == '{' ) { // Selector declaration block. // We copy it up to '}' as is. int n = css.indexOf( '}', currentPos ); newCSS.append( css.mid( currentPos, n == -1 ? n : n - currentPos + 1 ) ); if( n < 0 ) break; currentPos = n + 1; continue; } if( ch.isLetter() || ch == '.' || ch == '#' || ch == '*' || ch == '\\' || ch == ':' ) { if( ch.isLetter() || ch == '*' ) { // Check for namespace prefix QChar chr; for( int i = currentPos; i < css.length(); i++ ) { chr = css[ i ]; if( chr.isLetterOrNumber() || chr.isMark() || chr == '_' || chr == '-' || ( chr == '*' && i == currentPos ) ) continue; if( chr == '|' ) { // Namespace prefix found, copy it as is newCSS.append( css.mid( currentPos, i - currentPos + 1 ) ); currentPos = i + 1; } break; } if ( chr == '|' ) continue; } // This is some selector. // We must to add the isolate prefix to it. int n = css.indexOf( reg2, currentPos + 1 ); QString s = css.mid( currentPos, n < 0 ? n : n - currentPos ); if( n < 0 ) { newCSS.append( s ); break; } QString trimmed = s.trimmed(); if( trimmed.compare( "body", Qt::CaseInsensitive ) == 0 || trimmed.compare( "html", Qt::CaseInsensitive ) == 0 ) { newCSS.append( s + " " + prefix + " " ); currentPos += 4; } else { newCSS.append( prefix + " " ); } n = css.indexOf( reg3, currentPos ); s = css.mid( currentPos, n < 0 ? n : n - currentPos ); newCSS.append( s ); if( n < 0 ) break; currentPos = n; continue; } newCSS.append( ch ); ++currentPos; } css = newCSS; } string makeDictionaryId( vector< string > const & dictionaryFiles ) noexcept { std::vector< string > sortedList; if ( Config::isPortableVersion() ) { // For portable version, we use relative paths sortedList.reserve( dictionaryFiles.size() ); QDir dictionariesDir( Config::getPortableVersionDictionaryDir() ); for( unsigned x = 0; x < dictionaryFiles.size(); ++x ) { string const & full( dictionaryFiles[ x ] ); QFileInfo fileInfo( FsEncoding::decode( full.c_str() ) ); if ( fileInfo.isAbsolute() ) sortedList.push_back( FsEncoding::encode( dictionariesDir.relativeFilePath( fileInfo.filePath() ) ) ); else { // Well, it's relative. We don't technically support those, but // what the heck sortedList.push_back( full ); } } } else sortedList = dictionaryFiles; std::sort( sortedList.begin(), sortedList.end() ); QCryptographicHash hash( QCryptographicHash::Md5 ); for( std::vector< string >::const_iterator i = sortedList.begin(); i != sortedList.end(); ++i ) hash.addData( i->c_str(), i->size() + 1 ); return hash.result().toHex().data(); } // While this file is not supposed to have any Qt stuff since it's used by // the dictionary backends, there's no platform-independent way to get hold // of a timestamp of the file, so we use here Qt anyway. It is supposed to // be fixed in the future when it's needed. bool needToRebuildIndex( vector< string > const & dictionaryFiles, string const & indexFile ) noexcept { unsigned long lastModified = 0; for( std::vector< string >::const_iterator i = dictionaryFiles.begin(); i != dictionaryFiles.end(); ++i ) { QString name = FsEncoding::decode( i->c_str() ); QFileInfo fileInfo( name ); unsigned long ts; if( fileInfo.isDir() ) continue; if( name.toLower().endsWith( ".zip" ) ) { ZipFile::SplitZipFile zf( name ); if( !zf.exists() ) return true; ts = zf.lastModified().toSecsSinceEpoch(); } else { if ( !fileInfo.exists() ) return true; ts = fileInfo.lastModified().toSecsSinceEpoch(); } if ( ts > lastModified ) lastModified = ts; } #ifndef USE_XAPIAN QDir d(FsEncoding::decode( indexFile.c_str() )); if(d.exists()){ d.removeRecursively(); } #endif QFileInfo fileInfo( FsEncoding::decode( indexFile.c_str() ) ); if ( !fileInfo.exists() ) return true; return fileInfo.lastModified().toSecsSinceEpoch() < lastModified; } string getFtsSuffix(){ #ifdef USE_XAPIAN return "_FTS_x"; #else return "_FTS"; #endif } QString generateRandomDictionaryId() { return QString( QCryptographicHash::hash( QDateTime::currentDateTime().toString( "\"Random\"dd.MM.yyyy hh:mm:ss.zzz" ).toUtf8(), QCryptographicHash::Md5 ).toHex() ); } QMap< std::string, sptr< Dictionary::Class > > dictToMap( std::vector< sptr< Dictionary::Class > > const & dicts ) { QMap< std::string, sptr< Dictionary::Class > > dictMap; for( auto dict : dicts ) { dictMap.insert( dict.get()->getId(), dict ); } return dictMap; } }