/* This file is (c) 2008-2009 Konstantin Isakov * Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */ #include "xdxf.hh" #include "btreeidx.hh" #include "folding.hh" #include "utf8.hh" #include "chunkedstorage.hh" #include "dictzip.h" #include "htmlescape.hh" #include "fsencoding.hh" #include #include #include #include #include #include #include #include "gddebug.hh" #include "wstring_qt.hh" #include "xdxf2html.hh" #include "ufile.hh" #include "dictzip.h" #include "langcoder.hh" #include "indexedzip.hh" #include "filetype.hh" #include "tiff.hh" #include "ftshelpers.hh" #ifdef _MSC_VER #include #endif #include #include #include #include #include #include #include #include #include #include #include #include "qt4x5.hh" namespace Xdxf { using std::map; using std::multimap; using std::pair; using std::set; using std::string; using gd::wstring; using std::vector; using std::list; using BtreeIndexing::WordArticleLink; using BtreeIndexing::IndexedWords; using BtreeIndexing::IndexInfo; namespace { DEF_EX_STR( exCantReadFile, "Can't read file", Dictionary::Ex ) DEF_EX_STR( exNotXdxfFile, "The file is not an XDXF file:", Dictionary::Ex ) DEF_EX( exCorruptedIndex, "The index file is corrupted", Dictionary::Ex ) DEF_EX_STR( exDictzipError, "DICTZIP error", Dictionary::Ex ) enum { Signature = 0x46584458, // XDXF on little-endian, FXDX on big-endian CurrentFormatVersion = 5 + BtreeIndexing::FormatVersion + Folding::Version }; enum ArticleFormat { Default = 0, Visual = 1, Logical = 2 }; struct IdxHeader { uint32_t signature; // First comes the signature, XDXF uint32_t formatVersion; // File format version (CurrentFormatVersion) uint32_t articleFormat; // ArticleFormat value, except that 0 = bad file uint32_t langFrom; // Source language uint32_t langTo; // Target language uint32_t articleCount; // Total number of articles uint32_t wordCount; // Total number of words uint32_t nameAddress; // Address of an utf8 name string, in chunks uint32_t nameSize; // And its size uint32_t descriptionAddress; // Address of an utf8 description string, in chunks uint32_t descriptionSize; // And its size uint32_t hasAbrv; // Non-zero means file has abrvs at abrvAddress uint32_t abrvAddress; // Address of abrv map in the chunked storage uint32_t chunksOffset; // The offset to chunks' storage uint32_t indexBtreeMaxElements; // Two fields from IndexInfo uint32_t indexRootOffset; uint32_t hasZipFile; // Non-zero means there's a zip file with resources // present uint32_t zipIndexBtreeMaxElements; // Two fields from IndexInfo of the zip // resource index. uint32_t zipIndexRootOffset; uint32_t revisionNumber; // Format revision } #ifndef _MSC_VER __attribute__((packed)) #endif ; bool indexIsOldOrBad( string const & indexFile ) { File::Class idx( indexFile, "rb" ); IdxHeader header; return idx.readRecords( &header, sizeof( header ), 1 ) != 1 || header.signature != Signature || header.formatVersion != CurrentFormatVersion || !header.articleFormat; } class XdxfDictionary: public BtreeIndexing::BtreeDictionary { Mutex idxMutex; File::Class idx; IdxHeader idxHeader; sptr< ChunkedStorage::Reader > chunks; Mutex dzMutex; dictData * dz; Mutex resourceZipMutex; IndexedZip resourceZip; string dictionaryName; map< string, string > abrv; public: XdxfDictionary( string const & id, string const & indexFile, vector< string > const & dictionaryFiles ); ~XdxfDictionary(); virtual string getName() throw() { return dictionaryName; } virtual map< Dictionary::Property, string > getProperties() throw() { return map< Dictionary::Property, string >(); } virtual unsigned long getArticleCount() throw() { return idxHeader.articleCount; } virtual unsigned long getWordCount() throw() { return idxHeader.wordCount; } inline virtual quint32 getLangFrom() const { return idxHeader.langFrom; } inline virtual quint32 getLangTo() const { return idxHeader.langTo; } virtual sptr< Dictionary::DataRequest > getArticle( wstring const &, vector< wstring > const & alts, wstring const & ) throw( std::exception ); virtual sptr< Dictionary::DataRequest > getResource( string const & name ) throw( std::exception ); virtual QString const& getDescription(); virtual QString getMainFilename(); virtual sptr< Dictionary::DataRequest > getSearchResults( QString const & searchString, int searchMode, bool matchCase, int distanceBetweenWords, int maxResults ); virtual void getArticleText( uint32_t articleAddress, QString & headword, QString & text ); virtual void makeFTSIndex(QAtomicInt & isCancelled, bool firstIteration ); virtual void setFTSParameters( Config::FullTextSearch const & fts ) { can_FTS = fts.enabled && !fts.disabledTypes.contains( "XDXF", Qt::CaseInsensitive ) && ( fts.maxDictionarySize == 0 || getArticleCount() <= fts.maxDictionarySize ); } virtual uint32_t getFtsIndexVersion() { return 1; } protected: void loadIcon() throw(); private: // Loads the article, storing its headword and formatting article's data into an html. void loadArticle( uint32_t address, string & articleText, QString * headword = 0 ); friend class XdxfArticleRequest; friend class XdxfResourceRequest; }; XdxfDictionary::XdxfDictionary( string const & id, string const & indexFile, vector< string > const & dictionaryFiles ): BtreeDictionary( id, dictionaryFiles ), idx( indexFile, "rb" ), idxHeader( idx.read< IdxHeader >() ) { // Read the dictionary name chunks = new ChunkedStorage::Reader( idx, idxHeader.chunksOffset ); if ( idxHeader.nameSize ) { vector< char > chunk; dictionaryName = string( chunks->getBlock( idxHeader.nameAddress, chunk ), idxHeader.nameSize ); } // Open the file DZ_ERRORS error; dz = dict_data_open( dictionaryFiles[ 0 ].c_str(), &error, 0 ); if ( !dz ) throw exDictzipError( string( dz_error_str( error ) ) + "(" + dictionaryFiles[ 0 ] + ")" ); // Read the abrv, if any if ( idxHeader.hasAbrv ) { vector< char > chunk; char * abrvBlock = chunks->getBlock( idxHeader.abrvAddress, chunk ); uint32_t total; memcpy( &total, abrvBlock, sizeof( uint32_t ) ); abrvBlock += sizeof( uint32_t ); while( total-- ) { uint32_t keySz; memcpy( &keySz, abrvBlock, sizeof( uint32_t ) ); abrvBlock += sizeof( uint32_t ); char * key = abrvBlock; abrvBlock += keySz; uint32_t valueSz; memcpy( &valueSz, abrvBlock, sizeof( uint32_t ) ); abrvBlock += sizeof( uint32_t ); abrv[ string( key, keySz ) ] = string( abrvBlock, valueSz ); abrvBlock += valueSz; } // Open a resource zip file, if there's one if ( idxHeader.hasZipFile && ( idxHeader.zipIndexBtreeMaxElements || idxHeader.zipIndexRootOffset ) ) { resourceZip.openIndex( IndexInfo( idxHeader.zipIndexBtreeMaxElements, idxHeader.zipIndexRootOffset ), idx, idxMutex ); QString zipName = QDir::fromNativeSeparators( FsEncoding::decode( getDictionaryFilenames().back().c_str() ) ); if ( zipName.endsWith( ".zip", Qt::CaseInsensitive ) ) // Sanity check resourceZip.openZipFile( zipName ); } } // Initialize the index openIndex( IndexInfo( idxHeader.indexBtreeMaxElements, idxHeader.indexRootOffset ), idx, idxMutex ); // Full-text search parameters can_FTS = true; ftsIdxName = indexFile + "_FTS"; if( !Dictionary::needToRebuildIndex( dictionaryFiles, ftsIdxName ) && !FtsHelpers::ftsIndexIsOldOrBad( ftsIdxName, this ) ) FTS_index_completed.ref(); } XdxfDictionary::~XdxfDictionary() { if ( dz ) dict_data_close( dz ); } void XdxfDictionary::loadIcon() throw() { if ( dictionaryIconLoaded ) return; QString fileName = QDir::fromNativeSeparators( FsEncoding::decode( getDictionaryFilenames()[ 0 ].c_str() ) ); QFileInfo baseInfo( fileName ); fileName = baseInfo.absoluteDir().absoluteFilePath( "icon32.png" ); QFileInfo info( fileName ); if( !info.isFile() ) { fileName = baseInfo.absoluteDir().absoluteFilePath( "icon16.png" ); info = QFileInfo( fileName ); } if ( info.isFile() ) loadIconFromFile( fileName, true ); if ( dictionaryIcon.isNull() ) { // Load failed -- use default icons dictionaryIcon = QIcon(":/icons/icon32_xdxf.png"); dictionaryNativeIcon = QIcon(":/icons/icon32_xdxf.png"); } dictionaryIconLoaded = true; } QString const& XdxfDictionary::getDescription() { if( !dictionaryDescription.isEmpty() ) return dictionaryDescription; if( idxHeader.descriptionAddress == 0 ) dictionaryDescription = "NONE"; else { try { vector< char > chunk; char * descr; { Mutex::Lock _( idxMutex ); descr = chunks->getBlock( idxHeader.descriptionAddress, chunk ); } dictionaryDescription = QString::fromUtf8( descr, idxHeader.descriptionSize ); } catch(...) { } } return dictionaryDescription; } QString XdxfDictionary::getMainFilename() { return FsEncoding::decode( getDictionaryFilenames()[ 0 ].c_str() ); } void XdxfDictionary::makeFTSIndex( QAtomicInt & isCancelled, bool firstIteration ) { if( !( Dictionary::needToRebuildIndex( getDictionaryFilenames(), ftsIdxName ) || FtsHelpers::ftsIndexIsOldOrBad( ftsIdxName, this ) ) ) FTS_index_completed.ref(); if( haveFTSIndex() ) return; if( ensureInitDone().size() ) return; if( firstIteration && getArticleCount() > FTS::MaxDictionarySizeForFastSearch ) return; gdDebug( "Xdxf: Building the full-text index for dictionary: %s\n", getName().c_str() ); try { FtsHelpers::makeFTSIndex( this, isCancelled ); FTS_index_completed.ref(); } catch( std::exception &ex ) { gdWarning( "Xdxf: Failed building full-text search index for \"%s\", reason: %s\n", getName().c_str(), ex.what() ); QFile::remove( FsEncoding::decode( ftsIdxName.c_str() ) ); } } void XdxfDictionary::getArticleText( uint32_t articleAddress, QString & headword, QString & text ) { try { string articleStr; loadArticle( articleAddress, articleStr, &headword ); wstring wstr = Utf8::decode( articleStr ); text = Html::unescape( gd::toQString( wstr ) ); } catch( std::exception &ex ) { gdWarning( "Xdxf: Failed retrieving article from \"%s\", reason: %s\n", getName().c_str(), ex.what() ); } } sptr< Dictionary::DataRequest > XdxfDictionary::getSearchResults( QString const & searchString, int searchMode, bool matchCase, int distanceBetweenWords, int maxResults ) { return new FtsHelpers::FTSResultsRequest( *this, searchString,searchMode, matchCase, distanceBetweenWords, maxResults ); } /// XdxfDictionary::getArticle() class XdxfArticleRequest; class XdxfArticleRequestRunnable: public QRunnable { XdxfArticleRequest & r; QSemaphore & hasExited; public: XdxfArticleRequestRunnable( XdxfArticleRequest & r_, QSemaphore & hasExited_ ): r( r_ ), hasExited( hasExited_ ) {} ~XdxfArticleRequestRunnable() { hasExited.release(); } virtual void run(); }; class XdxfArticleRequest: public Dictionary::DataRequest { friend class XdxfArticleRequestRunnable; wstring word; vector< wstring > alts; XdxfDictionary & dict; QAtomicInt isCancelled; QSemaphore hasExited; public: XdxfArticleRequest( wstring const & word_, vector< wstring > const & alts_, XdxfDictionary & dict_ ): word( word_ ), alts( alts_ ), dict( dict_ ) { QThreadPool::globalInstance()->start( new XdxfArticleRequestRunnable( *this, hasExited ) ); } void run(); // Run from another thread by XdxfArticleRequestRunnable virtual void cancel() { isCancelled.ref(); } ~XdxfArticleRequest() { isCancelled.ref(); hasExited.acquire(); } }; void XdxfArticleRequestRunnable::run() { r.run(); } void XdxfArticleRequest::run() { if ( Qt4x5::AtomicInt::loadAcquire( isCancelled ) ) { finish(); return; } vector< WordArticleLink > chain = dict.findArticles( word ); for( unsigned x = 0; x < alts.size(); ++x ) { /// Make an additional query for each alt vector< WordArticleLink > altChain = dict.findArticles( alts[ x ] ); chain.insert( chain.end(), altChain.begin(), altChain.end() ); } multimap< wstring, pair< string, string > > mainArticles, alternateArticles; set< uint32_t > articlesIncluded; // Some synonims make it that the articles // appear several times. We combat this // by only allowing them to appear once. wstring wordCaseFolded = Folding::applySimpleCaseOnly( word ); for( unsigned x = 0; x < chain.size(); ++x ) { if ( Qt4x5::AtomicInt::loadAcquire( isCancelled ) ) { finish(); return; } if ( articlesIncluded.find( chain[ x ].articleOffset ) != articlesIncluded.end() ) continue; // We already have this article in the body. // Now grab that article string headword, articleText; headword = chain[ x ].word; try { dict.loadArticle( chain[ x ].articleOffset, articleText ); // Ok. Now, does it go to main articles, or to alternate ones? We list // main ones first, and alternates after. // We do the case-folded comparison here. wstring headwordStripped = Folding::applySimpleCaseOnly( Utf8::decode( headword ) ); multimap< wstring, pair< string, string > > & mapToUse = ( wordCaseFolded == headwordStripped ) ? mainArticles : alternateArticles; mapToUse.insert( pair< wstring, pair< string, string > >( Folding::applySimpleCaseOnly( Utf8::decode( headword ) ), pair< string, string >( headword, articleText ) ) ); articlesIncluded.insert( chain[ x ].articleOffset ); } catch( std::exception &ex ) { gdWarning( "XDXF: Failed loading article from \"%s\", reason: %s\n", dict.getName().c_str(), ex.what() ); } } if ( mainArticles.empty() && alternateArticles.empty() ) { // No such word finish(); return; } string result; multimap< wstring, pair< string, string > >::const_iterator i; string cleaner = """""""""""" """""""""""" "" ""; for( i = mainArticles.begin(); i != mainArticles.end(); ++i ) { // result += "

"; // result += i->second.first; // result += "

"; result += i->second.second; result += cleaner; } for( i = alternateArticles.begin(); i != alternateArticles.end(); ++i ) { // result += "

"; // result += i->second.first; // result += "

"; result += i->second.second; result += cleaner; } Mutex::Lock _( dataMutex ); data.resize( result.size() ); memcpy( &data.front(), result.data(), result.size() ); hasAnyData = true; finish(); } sptr< Dictionary::DataRequest > XdxfDictionary::getArticle( wstring const & word, vector< wstring > const & alts, wstring const & ) throw( std::exception ) { return new XdxfArticleRequest( word, alts, *this ); } void XdxfDictionary::loadArticle( uint32_t address, string & articleText, QString * headword ) { // Read the properties vector< char > chunk; char * propertiesData; { Mutex::Lock _( idxMutex ); propertiesData = chunks->getBlock( address, chunk ); } if ( &chunk.front() + chunk.size() - propertiesData < 9 ) { articleText = string( "
Index seems corrupted
" ); return; } unsigned char fType = (unsigned char) *propertiesData; uint32_t articleOffset, articleSize; memcpy( &articleOffset, propertiesData + 1, sizeof( uint32_t ) ); memcpy( &articleSize, propertiesData + 5, sizeof( uint32_t ) ); // Load the article char * articleBody; { Mutex::Lock _( dzMutex ); // Note that the function always zero-pads the result. articleBody = dict_data_read_( dz, articleOffset, articleSize, 0, 0 ); } if ( !articleBody ) { // throw exCantReadFile( getDictionaryFilenames()[ 0 ] ); articleText = string( "
DICTZIP error: " ) + dict_error_str( dz ) + "
"; return; } articleText = Xdxf2Html::convert( string( articleBody ), Xdxf2Html::XDXF, idxHeader.hasAbrv ? &abrv : NULL, this, &resourceZip, fType == Logical, idxHeader.revisionNumber, headword ); free( articleBody ); } class GzippedFile: public QIODevice { gzFile gz; public: GzippedFile( char const * fileName ) throw( exCantReadFile ); ~GzippedFile(); size_t gzTell(); char * readDataArray( unsigned long startPos, unsigned long size ); protected: dictData *dz; virtual bool isSequential () const { return false; } // Which is a lie, but else pos() won't work bool waitForReadyRead ( int ) { return !gzeof( gz ); } qint64 bytesAvailable() const { return ( gzeof( gz ) ? 0 : 1 ) + QIODevice::bytesAvailable(); } virtual qint64 readData( char * data, qint64 maxSize ); virtual bool atEnd() const; virtual qint64 writeData ( const char * /*data*/, qint64 /*maxSize*/ ) { return -1; } }; GzippedFile::GzippedFile( char const * fileName ) throw( exCantReadFile ) { gz = gd_gzopen( fileName ); if ( !gz ) throw exCantReadFile( fileName ); DZ_ERRORS error; dz = dict_data_open( fileName, &error, 0 ); } GzippedFile::~GzippedFile() { gzclose( gz ); if( dz ) dict_data_close( dz ); } bool GzippedFile::atEnd() const { return gzeof( gz ); } size_t GzippedFile::gzTell() { return gztell( gz ); } qint64 GzippedFile::readData( char * data, qint64 maxSize ) { if ( maxSize > 1 ) maxSize = 1; // The returning value translates directly to QIODevice semantics int n = gzread( gz, data, maxSize ); #if QT_VERSION >= QT_VERSION_CHECK(5, 0, 0) // With QT 5.x QXmlStreamReader ask one byte instead of one UTF-8 char. // We read and return all bytes for char. if( n == 1 ) { char ch = *data; int addBytes = 0; if( ch & 0x80 ) { if( ( ch & 0xF8 ) == 0xF0 ) addBytes = 3; else if( ( ch & 0xF0 ) == 0xE0 ) addBytes = 2; else if( ( ch & 0xE0 ) == 0xC0 ) addBytes = 1; } if( addBytes ) n += gzread( gz, data + 1, addBytes ); } #endif return n; } char * GzippedFile::readDataArray( unsigned long startPos, unsigned long size ) { if( dz == NULL ) return NULL; return dict_data_read_( dz, startPos, size, 0, 0 ); } QString readXhtmlData( QXmlStreamReader & stream ) { QString result; while( !stream.atEnd() ) { stream.readNext(); if ( stream.isStartElement() ) { QString name = stream.name().toString(); result += "<" + Qt4x5::escape( name ) + " "; QXmlStreamAttributes attrs = stream.attributes(); for( int x = 0; x < attrs.size(); ++x ) { result += Qt4x5::escape( attrs[ x ].name().toString() ); result += "=\"" + Qt4x5::escape( attrs[ x ].value().toString() ) + "\""; } result += ">"; result += readXhtmlData( stream ); result += ""; } else if ( stream.isCharacters() || stream.isWhitespace() || stream.isCDATA() ) { result += stream.text(); } else if ( stream.isEndElement() ) break; } return result; } namespace { /// Deal with Qt 4.5 incompatibility QString readElementText( QXmlStreamReader & stream ) { #if QT_VERSION >= 0x040600 return stream.readElementText( QXmlStreamReader::SkipChildElements ); #else return stream.readElementText(); #endif } } void addAllKeyTags( QXmlStreamReader & stream, list< QString > & words ) { // todo implement support for tag , that overrides the article sorting order if ( stream.name() == "k" ) { words.push_back( readElementText( stream ) ); return; } while( !stream.atEnd() ) { stream.readNext(); if ( stream.isStartElement() ) addAllKeyTags( stream, words ); else if ( stream.isEndElement() ) return; } } void checkArticlePosition( GzippedFile & gzFile, uint32_t *pOffset, uint32_t *pSize ) { char * data = gzFile.readDataArray( *pOffset, *pSize ); if( data == NULL ) return; QString s = QString::fromUtf8( data ); free( data ); int n = s.lastIndexOf( " 0 ) *pSize -= s.size() - n; if( s.at( 0 ) == '>') { *pOffset += 1; *pSize -= 1; } } void indexArticle( GzippedFile & gzFile, QXmlStreamReader & stream, IndexedWords & indexedWords, ChunkedStorage::Writer & chunks, unsigned & articleCount, unsigned & wordCount, ArticleFormat defaultFormat ) { ArticleFormat format( Default ); QStringRef formatValue = stream.attributes().value( "f" ); if ( formatValue == "v" ) format = Visual; else if ( formatValue == "l" ) format = Logical; if( format == Default ) format = defaultFormat; size_t articleOffset = gzFile.pos() - 1; // stream.characterOffset() is loony // uint32_t lineNumber = stream.lineNumber(); // uint32_t columnNumber = stream.columnNumber(); list< QString > words; while( !stream.atEnd() ) { stream.readNext(); // Find any tags and index them if ( stream.isEndElement() ) { // End of the tag if ( words.empty() ) { // Nothing to index, this article didn't have any tags qWarning( "Warning: no tags found in an article at offset 0x%x, article skipped.\n", (unsigned) articleOffset ); } else { // Add an entry uint32_t offset = chunks.startNewBlock(); uint32_t offs = articleOffset; uint32_t size = gzFile.pos() - 1 - articleOffset; checkArticlePosition( gzFile, &offs, &size ); unsigned char f = format; chunks.addToBlock( &f, 1 ); chunks.addToBlock( &offs, sizeof( offs ) ); chunks.addToBlock( &size, sizeof( size ) ); // Add also first header - it's needed for full-text search chunks.addToBlock( words.begin()->toUtf8().data(), words.begin()->toUtf8().length() + 1 ); // DPRINTF( "%x: %s\n", articleOffset, words.begin()->toUtf8().data() ); // Add words to index for( list< QString >::const_iterator i = words.begin(); i != words.end(); ++i ) indexedWords.addWord( gd::toWString( *i ), offset ); ++articleCount; wordCount += words.size(); } return; } else if ( stream.isStartElement() ) { addAllKeyTags( stream, words ); } } } //// XdxfDictionary::getResource() class XdxfResourceRequest; class XdxfResourceRequestRunnable: public QRunnable { XdxfResourceRequest & r; QSemaphore & hasExited; public: XdxfResourceRequestRunnable( XdxfResourceRequest & r_, QSemaphore & hasExited_ ): r( r_ ), hasExited( hasExited_ ) {} ~XdxfResourceRequestRunnable() { hasExited.release(); } virtual void run(); }; class XdxfResourceRequest: public Dictionary::DataRequest { friend class XdxfResourceRequestRunnable; XdxfDictionary & dict; string resourceName; QAtomicInt isCancelled; QSemaphore hasExited; public: XdxfResourceRequest( XdxfDictionary & dict_, string const & resourceName_ ): dict( dict_ ), resourceName( resourceName_ ) { QThreadPool::globalInstance()->start( new XdxfResourceRequestRunnable( *this, hasExited ) ); } void run(); // Run from another thread by XdxfResourceRequestRunnable virtual void cancel() { isCancelled.ref(); } ~XdxfResourceRequest() { isCancelled.ref(); hasExited.acquire(); } }; void XdxfResourceRequestRunnable::run() { r.run(); } void XdxfResourceRequest::run() { // Some runnables linger enough that they are cancelled before they start if ( Qt4x5::AtomicInt::loadAcquire( isCancelled ) ) { finish(); return; } if ( dict.ensureInitDone().size() ) { setErrorString( QString::fromUtf8( dict.ensureInitDone().c_str() ) ); finish(); return; } string n = FsEncoding::dirname( dict.getDictionaryFilenames()[ 0 ] ) + FsEncoding::separator() + FsEncoding::encode( resourceName ); GD_DPRINTF( "n is %s\n", n.c_str() ); try { try { Mutex::Lock _( dataMutex ); File::loadFromFile( n, data ); } catch( File::exCantOpen & ) { n = dict.getDictionaryFilenames()[ 0 ] + ".files" + FsEncoding::separator() + FsEncoding::encode( resourceName ); try { Mutex::Lock _( dataMutex ); File::loadFromFile( n, data ); } catch( File::exCantOpen & ) { // Try reading from zip file if ( dict.resourceZip.isOpen() ) { Mutex::Lock _( dict.resourceZipMutex ); Mutex::Lock __( dataMutex ); if ( !dict.resourceZip.loadFile( Utf8::decode( resourceName ), data ) ) throw; // Make it fail since we couldn't read the archive } else throw; } } if ( Filetype::isNameOfTiff( resourceName ) ) { // Convert it dataMutex.lock(); QImage img = QImage::fromData( (unsigned char *) &data.front(), data.size() ); #ifdef MAKE_EXTRA_TIFF_HANDLER if( img.isNull() ) GdTiff::tiffToQImage( &data.front(), data.size(), img ); #endif dataMutex.unlock(); if ( !img.isNull() ) { // Managed to load -- now store it back as BMP QByteArray ba; QBuffer buffer( &ba ); buffer.open( QIODevice::WriteOnly ); img.save( &buffer, "BMP" ); Mutex::Lock _( dataMutex ); data.resize( buffer.size() ); memcpy( &data.front(), buffer.data(), data.size() ); } } Mutex::Lock _( dataMutex ); hasAnyData = true; } catch( std::exception &ex ) { gdWarning( "XDXF: Failed loading resource \"%s\" for \"%s\", reason: %s\n", resourceName.c_str(), dict.getName().c_str(), ex.what() ); // Resource not loaded -- we don't set the hasAnyData flag then } finish(); } sptr< Dictionary::DataRequest > XdxfDictionary::getResource( string const & name ) throw( std::exception ) { return new XdxfResourceRequest( *this, name ); } } // anonymous namespace - this section of file is devoted to rebuilding of dictionary articles index vector< sptr< Dictionary::Class > > makeDictionaries( vector< string > const & fileNames, string const & indicesDir, Dictionary::Initializing & initializing ) throw( std::exception ) { vector< sptr< Dictionary::Class > > dictionaries; for( vector< string >::const_iterator i = fileNames.begin(); i != fileNames.end(); ++i ) { // Only allow .xdxf and .xdxf.dz suffixes if ( ( i->size() < 5 || strcasecmp( i->c_str() + ( i->size() - 5 ), ".xdxf" ) != 0 ) && ( i->size() < 8 || strcasecmp( i->c_str() + ( i->size() - 8 ), ".xdxf.dz" ) != 0 ) ) continue; try { vector< string > dictFiles( 1, *i ); string baseName = ( (*i)[ i->size() - 5 ] == '.' ) ? string( *i, 0, i->size() - 5 ) : string( *i, 0, i->size() - 8 ); // See if there's a zip file with resources present. If so, include it. string zipFileName; if ( File::tryPossibleZipName( baseName + ".xdxf.files.zip", zipFileName ) || File::tryPossibleZipName( baseName + ".xdxf.dz.files.zip", zipFileName ) || File::tryPossibleZipName( baseName + ".XDXF.FILES.ZIP", zipFileName ) || File::tryPossibleZipName( baseName + ".XDXF.DZ.FILES.ZIP", zipFileName ) ) dictFiles.push_back( zipFileName ); string dictId = Dictionary::makeDictionaryId( dictFiles ); string indexFile = indicesDir + dictId; if ( Dictionary::needToRebuildIndex( dictFiles, indexFile ) || indexIsOldOrBad( indexFile ) ) { // Building the index gdDebug( "Xdxf: Building the index for dictionary: %s\n", i->c_str() ); //initializing.indexingDictionary( nameFromFileName( dictFiles[ 0 ] ) ); File::Class idx( indexFile, "wb" ); IdxHeader idxHeader; map< string, string > abrv; memset( &idxHeader, 0, sizeof( idxHeader ) ); // We write a dummy header first. At the end of the process the header // will be rewritten with the right values. idx.write( idxHeader ); IndexedWords indexedWords; GzippedFile gzFile( dictFiles[ 0 ].c_str() ); if ( !gzFile.open( QIODevice::ReadOnly ) ) throw exCantReadFile( dictFiles[ 0 ] ); QXmlStreamReader stream( &gzFile ); QString dictionaryName, dictionaryDescription; ChunkedStorage::Writer chunks( idx ); // Wait for the first element, which must be xdxf bool hadXdxf = false; while( !stream.atEnd() ) { stream.readNext(); if ( stream.isStartElement() ) { if ( stream.name() != "xdxf" ) throw exNotXdxfFile( dictFiles[ 0 ] ); else { // Read the xdxf string str = stream.attributes().value( "lang_from" ).toString().toLatin1().data(); if ( str.size() > 3 ) str.resize( 3 ); idxHeader.langFrom = LangCoder::findIdForLanguageCode3( str.c_str() ); str = stream.attributes().value( "lang_to" ).toString().toLatin1().data(); if ( str.size() > 3 ) str.resize( 3 ); idxHeader.langTo = LangCoder::findIdForLanguageCode3( str.c_str() ); bool isLogical = ( stream.attributes().value( "format" ) == "logical" ); QRegExp regNum( "\\d+" ); regNum.indexIn( stream.attributes().value( "revision" ).toString() ); idxHeader.revisionNumber = regNum.cap().toUInt(); idxHeader.articleFormat = isLogical ? Logical : Visual; unsigned articleCount = 0, wordCount = 0; while( !stream.atEnd() ) { stream.readNext(); if ( stream.isStartElement() ) { // todo implement using short for denoting the dictionary in settings or dict list toolbar if ( stream.name() == "full_name" || stream.name() == "full_title" ) { // That's our name QString name = stream.readElementText(); if ( dictionaryName.isEmpty() ) { dictionaryName = name; initializing.indexingDictionary( dictionaryName.toUtf8().data() ); idxHeader.nameAddress = chunks.startNewBlock(); QByteArray n = dictionaryName.toUtf8(); idxHeader.nameSize = n.size(); chunks.addToBlock( n.data(), n.size() ); } else { GD_DPRINTF( "Warning: duplicate full_name in %s\n", dictFiles[ 0 ].c_str() ); } } else if ( stream.name() == "description" ) { // todo implement adding other information to the description like <publisher>, <authors>, <file_ver>, <creation_date>, <last_edited_date>, <dict_edition>, <publishing_date>, <dict_src_url> QString desc = readXhtmlData( stream ); if ( dictionaryDescription.isEmpty() ) { dictionaryDescription = desc; idxHeader.descriptionAddress = chunks.startNewBlock(); QByteArray n = dictionaryDescription.toUtf8(); idxHeader.descriptionSize = n.size(); chunks.addToBlock( n.data(), n.size() ); } else { GD_DPRINTF( "Warning: duplicate description in %s\n", dictFiles[ 0 ].c_str() ); } } else if ( stream.name() == "abbreviations" ) { QString s; string value; list < wstring > keys; while( !( stream.isEndElement() && stream.name() == "abbreviations" ) && !stream.atEnd() ) { stream.readNext(); // abbreviations tag set switch at format revision = 30 if( idxHeader.revisionNumber >= 30 ) { while ( !( stream.isEndElement() && stream.name() == "abbr_def" ) || !stream.atEnd() ) { stream.readNext(); if ( stream.isStartElement() && stream.name() == "abbr_k" ) { s = readElementText( stream ); keys.push_back( gd::toWString( s ) ); } else if ( stream.isStartElement() && stream.name() == "abbr_v" ) { s = readElementText( stream ); value = Utf8::encode( Folding::trimWhitespace( gd::toWString( s ) ) ); for( list< wstring >::iterator i = keys.begin(); i != keys.end(); ++i ) { abrv[ Utf8::encode( Folding::trimWhitespace( *i ) ) ] = value; } keys.clear(); } else if ( stream.isEndElement() && stream.name() == "abbreviations" ) break; } } else { while ( !( stream.isEndElement() && stream.name() == "abr_def" ) || !stream.atEnd() ) { stream.readNext(); if ( stream.isStartElement() && stream.name() == "k" ) { s = readElementText( stream ); keys.push_back( gd::toWString( s ) ); } else if ( stream.isStartElement() && stream.name() == "v" ) { s = readElementText( stream ); value = Utf8::encode( Folding::trimWhitespace( gd::toWString( s ) ) ); for( list< wstring >::iterator i = keys.begin(); i != keys.end(); ++i ) { abrv[ Utf8::encode( Folding::trimWhitespace( *i ) ) ] = value; } keys.clear(); } else if ( stream.isEndElement() && stream.name() == "abbreviations" ) break; } } } } else if ( stream.name() == "ar" ) { indexArticle( gzFile, stream, indexedWords, chunks, articleCount, wordCount, isLogical ? Logical : Visual ); } } } // Write abbreviations if presented if( !abrv.empty() ) { idxHeader.hasAbrv = 1; idxHeader.abrvAddress = chunks.startNewBlock(); uint32_t sz = abrv.size(); chunks.addToBlock( &sz, sizeof( uint32_t ) ); for( map< string, string >::const_iterator i = abrv.begin(); i != abrv.end(); ++i ) { sz = i->first.size(); chunks.addToBlock( &sz, sizeof( uint32_t ) ); chunks.addToBlock( i->first.data(), sz ); sz = i->second.size(); chunks.addToBlock( &sz, sizeof( uint32_t ) ); chunks.addToBlock( i->second.data(), sz ); } } // Finish with the chunks idxHeader.chunksOffset = chunks.finish(); // Build index IndexInfo idxInfo = BtreeIndexing::buildIndex( indexedWords, idx ); idxHeader.indexBtreeMaxElements = idxInfo.btreeMaxElements; idxHeader.indexRootOffset = idxInfo.rootOffset; indexedWords.clear(); // Release memory -- no need for this data // If there was a zip file, index it too if ( zipFileName.size() ) { GD_DPRINTF( "Indexing zip file\n" ); idxHeader.hasZipFile = 1; IndexedWords zipFileNames; IndexedZip zipFile; if( zipFile.openZipFile( QDir::fromNativeSeparators( FsEncoding::decode( zipFileName.c_str() ) ) ) ) zipFile.indexFile( zipFileNames ); if( !zipFileNames.empty() ) { // Build the resulting zip file index IndexInfo idxInfo = BtreeIndexing::buildIndex( zipFileNames, idx ); idxHeader.zipIndexBtreeMaxElements = idxInfo.btreeMaxElements; idxHeader.zipIndexRootOffset = idxInfo.rootOffset; } else { // Bad zip file -- no index (though the mark that we have one // remains) idxHeader.zipIndexBtreeMaxElements = 0; idxHeader.zipIndexRootOffset = 0; } } else idxHeader.hasZipFile = 0; // That concludes it. Update the header. idxHeader.signature = Signature; idxHeader.formatVersion = CurrentFormatVersion; idxHeader.articleCount = articleCount; idxHeader.wordCount = wordCount; idx.rewind(); idx.write( &idxHeader, sizeof( idxHeader ) ); hadXdxf = true; } break; } } if ( !hadXdxf ) throw exNotXdxfFile( dictFiles[ 0 ] ); if ( stream.hasError() ) { gdWarning( "Warning: %s had a parse error %s at line %lu, and therefore was indexed only up to the point of error.", dictFiles[ 0 ].c_str(), stream.errorString().toUtf8().data(), (unsigned long) stream.lineNumber() ); } } dictionaries.push_back( new XdxfDictionary( dictId, indexFile, dictFiles ) ); } catch( std::exception & e ) { gdWarning( "Xdxf dictionary initializing failed: %s, error: %s\n", i->c_str(), e.what() ); } } return dictionaries; } }