/* This file is (c) 2012 Abs62 * Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */ #ifdef MAKE_ZIM_SUPPORT #include "zim.hh" #include "btreeidx.hh" #include "fsencoding.hh" #include "folding.hh" #include "dprintf.hh" #include "utf8.hh" #include "decompress.hh" #include "langcoder.hh" #include "wstring_qt.hh" #include "filetype.hh" #include "file.hh" #ifdef _MSC_VER #include #endif #include #include #include #include #include #include #include #include #include #include #include #include namespace Zim { using std::string; using std::map; using std::vector; using std::multimap; using std::pair; using std::set; using gd::wstring; using BtreeIndexing::WordArticleLink; using BtreeIndexing::IndexedWords; using BtreeIndexing::IndexInfo; DEF_EX_STR( exNotZimFile, "Not an Zim file", Dictionary::Ex ) DEF_EX_STR( exCantReadFile, "Can't read file", Dictionary::Ex ) //namespace { class ZimFile; #ifdef _MSC_VER #pragma pack( push, 1 ) #endif enum CompressionType { Default = 0, None, Zlib, Bzip2, Lzma2 }; /// Zim file header struct ZIM_header { quint32 magicNumber; quint32 version; quint8 uuid[ 16 ]; quint32 articleCount; quint32 clusterCount; quint64 urlPtrPos; quint64 titlePtrPos; quint64 clusterPtrPos; quint64 mimeListPos; quint32 mainPage; quint32 layoutPage; quint64 checksumPos; } #ifndef _MSC_VER __attribute__((packed)) #endif ; struct ArticleEntry { quint16 mimetype; quint8 parameterLen; char nameSpace; quint32 revision; quint32 clusterNumber; quint32 blobNumber; } #ifndef _MSC_VER __attribute__((packed)) #endif ; struct RedirectEntry { quint16 mimetype; quint8 parameterLen; char nameSpace; quint32 revision; quint32 redirectIndex; } #ifndef _MSC_VER __attribute__((packed)) #endif ; enum { Signature = 0x584D495A, // ZIMX on little-endian, XMIZ on big-endian CurrentFormatVersion = 1 + BtreeIndexing::FormatVersion + Folding::Version }; struct IdxHeader { quint32 signature; // First comes the signature, ZIMX quint32 formatVersion; // File format version (CurrentFormatVersion) quint32 indexBtreeMaxElements; // Two fields from IndexInfo quint32 indexRootOffset; quint32 resourceIndexBtreeMaxElements; // Two fields from IndexInfo quint32 resourceIndexRootOffset; quint32 wordCount; quint32 articleCount; quint32 namePtr; quint32 descriptionPtr; quint32 langFrom; // Source language quint32 langTo; // Target language } #ifndef _MSC_VER __attribute__((packed)) #endif ; #ifdef _MSC_VER #pragma pack( pop, 1 ) #endif // Class for support of split zim files class ZimFile { QVector< QFile * > files; QVector< quint64 > offsets; int currentFile; public: ZimFile(); ZimFile( const QString & name ); ~ZimFile(); void setFileName( const QString & name ); void getFilenames( vector< string > & names ); bool open( QFile::OpenMode mode ); void close(); bool seek( quint64 pos ); qint64 read( char * data, qint64 maxSize ); QByteArray read( qint64 maxSize ); bool getChar( char * c ); qint64 size() { return files.isEmpty() ? 0 : offsets.last() + files.last()->size(); } }; ZimFile::ZimFile() : currentFile( 0 ) { } ZimFile::ZimFile( const QString & name ) : currentFile( 0 ) { setFileName( name ); } ZimFile::~ZimFile() { close(); } void ZimFile::setFileName( const QString & name ) { close(); files.append( new QFile( name ) ); offsets.append( 0 ); if( name.endsWith( ".zimaa", Qt::CaseInsensitive ) ) { QString fname = name; for( int i = 0; i < 26; i++ ) { fname[ fname.size() - 2 ] = (char)( 'a' + i ); int j; for( j = 1; j < 26; j++ ) { fname[ fname.size() - 1 ] = (char)( 'a' + j ); if( !QFileInfo( fname ).isFile() ) break; quint64 offset = offsets.last() + files.last()->size(); files.append( new QFile( fname ) ); offsets.append( offset ); } if( j < 26 ) break; } } } void ZimFile::close() { for( QVector< QFile * >::const_iterator i = files.begin(); i != files.end(); ++i ) { (*i)->close(); delete (*i); } files.clear(); offsets.clear(); currentFile = 0; } void ZimFile::getFilenames( vector< string > &names ) { for( QVector< QFile const * >::const_iterator i = files.begin(); i != files.end(); ++i ) names.push_back( FsEncoding::encode( (*i)->fileName() ) ); } bool ZimFile::open( QFile::OpenMode mode ) { for( QVector< QFile * >::iterator i = files.begin(); i != files.end(); ++i ) if( !(*i)->open( mode ) ) { close(); return false; } return true; } bool ZimFile::seek( quint64 pos ) { int fileNom; for( fileNom = 0; fileNom < offsets.size() - 1; fileNom++ ) if( pos < offsets.at( fileNom + 1 ) ) break; pos -= offsets.at( fileNom ); currentFile = fileNom; return files.at( fileNom )->seek( pos ); } qint64 ZimFile::read( char *data, qint64 maxSize ) { quint64 bytesReaded = 0; for( int i = currentFile; i < files.size(); i++ ) { if( i != currentFile ) files.at( i )->seek( 0 ); qint64 ret = files.at( i )->read( data + bytesReaded, maxSize ); if( ret < 0 ) break; bytesReaded += ret; maxSize -= ret; if( maxSize <= 0 ) break; } return bytesReaded; } QByteArray ZimFile::read( qint64 maxSize ) { QByteArray data; data.resize( maxSize ); qint64 ret = read( data.data(), maxSize ); if( ret != maxSize ) data.resize( ret ); return data; } bool ZimFile::getChar( char *c ) { char ch; return read( c ? c : &ch, 1 ) == 1; } // Some supporting functions 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; } quint32 readArticle( ZimFile & file, ZIM_header & header, uint32_t articleNumber, string & result, set< quint32 > * loadedArticles = NULL ) { while( 1 ) { if( articleNumber >= header.articleCount ) break; file.seek( header.urlPtrPos + (quint64)articleNumber * 8 ); quint64 pos; if( file.read( reinterpret_cast< char * >( &pos ), sizeof(pos) ) != sizeof(pos) ) break; // Read article info quint16 mimetype; file.seek( pos ); if( file.read( reinterpret_cast< char * >( &mimetype ), sizeof(mimetype) ) != sizeof(mimetype) ) break; if( mimetype == 0xFFFF ) // Redirect to other article { RedirectEntry redEntry; if( file.read( reinterpret_cast< char * >( &redEntry ) + 2, sizeof(redEntry) - 2 ) != sizeof(redEntry) - 2 ) break; if( articleNumber == redEntry.redirectIndex ) break; articleNumber = redEntry.redirectIndex; continue; } if( loadedArticles && loadedArticles->find( articleNumber ) != loadedArticles->end() ) break; ArticleEntry artEntry; artEntry.mimetype = mimetype; if( file.read( reinterpret_cast< char * >( &artEntry ) + 2, sizeof(artEntry) - 2 ) != sizeof(artEntry) - 2 ) break; // Read cluster pointers quint64 clusters[ 2 ]; file.seek( header.clusterPtrPos + (quint64)artEntry.clusterNumber * 8 ); if( file.read( reinterpret_cast< char * >( clusters ), sizeof(clusters) ) != sizeof(clusters) ) break; // Calculate cluster size quint64 clusterSize; if( artEntry.clusterNumber < header.clusterCount - 1 ) clusterSize = clusters[ 1 ] - clusters[ 0 ]; else clusterSize = file.size() - clusters[ 0 ]; // Read cluster data file.seek( clusters[ 0 ] ); char compressionType; if( !file.getChar( &compressionType ) ) break; string decompressedData; QByteArray data = file.read( clusterSize ); if( compressionType == Default || compressionType == None ) decompressedData = string( data.data(), data.size() ); else if( compressionType == Zlib ) decompressedData = decompressZlib( data.constData(), data.size() ); else if( compressionType == Bzip2 ) decompressedData = decompressBzip2( data.constData(), data.size() ); else if( compressionType == Lzma2 ) decompressedData = decompressLzma2( data.constData(), data.size() ); else break; // Take article data from cluster quint32 blobCount; memcpy( &blobCount, decompressedData.data(), sizeof(blobCount) ); if( artEntry.blobNumber > blobCount ) break; quint32 offsets[ 2 ]; memcpy( offsets, decompressedData.data() + artEntry.blobNumber * 4, sizeof(offsets) ); quint32 size = offsets[ 1 ] - offsets[ 0 ]; result.clear(); result.append( decompressedData, offsets[ 0 ], size ); return articleNumber; } return 0xFFFFFFFF; } // ZimDictionary class ZimDictionary: public BtreeIndexing::BtreeDictionary { Mutex idxMutex; Mutex zimMutex, idxResourceMutex; File::Class idx; BtreeIndex resourceIndex; IdxHeader idxHeader; string dictionaryName; ZimFile df; ZIM_header zimHeader; public: ZimDictionary( string const & id, string const & indexFile, vector< string > const & dictionaryFiles ); ~ZimDictionary(); 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(); /// Loads the resource. void loadResource( std::string &resourceName, string & data ); protected: virtual void loadIcon() throw(); private: /// Loads the article. quint32 loadArticle( quint32 address, string & articleText, set< quint32 > * loadedArticles ); string convert( string const & in_data ); friend class ZimArticleRequest; friend class ZimResourceRequest; }; ZimDictionary::ZimDictionary( string const & id, string const & indexFile, vector< string > const & dictionaryFiles ): BtreeDictionary( id, dictionaryFiles ), idx( indexFile, "rb" ), idxHeader( idx.read< IdxHeader >() ), df( FsEncoding::decode( dictionaryFiles[ 0 ].c_str() ) ) { // Open data file df.open( QFile::ReadOnly ); memset( &zimHeader, 0, sizeof(zimHeader) ); df.read( reinterpret_cast< char * >( &zimHeader ), sizeof( zimHeader ) ); // Initialize the indexes openIndex( IndexInfo( idxHeader.indexBtreeMaxElements, idxHeader.indexRootOffset ), idx, idxMutex ); resourceIndex.openIndex( IndexInfo( idxHeader.resourceIndexBtreeMaxElements, idxHeader.resourceIndexRootOffset ), idx, idxResourceMutex ); // Read dictionary name if( idxHeader.namePtr == 0xFFFFFFFF ) { QString name = QDir::fromNativeSeparators( FsEncoding::decode( dictionaryFiles[ 0 ].c_str() ) ); int n = name.lastIndexOf( '/' ); dictionaryName = string( name.mid( n + 1 ).toUtf8().constData() ); } else { readArticle( df, zimHeader, idxHeader.namePtr, dictionaryName ); } } ZimDictionary::~ZimDictionary() { df.close(); } void ZimDictionary::loadIcon() throw() { if ( dictionaryIconLoaded ) return; QString fileName = QDir::fromNativeSeparators( FsEncoding::decode( getDictionaryFilenames()[ 0 ].c_str() ) ); // Remove the extension fileName.chop( 3 ); if( !loadIconFromFile( fileName ) ) { // Load failed -- use default icons dictionaryNativeIcon = dictionaryIcon = QIcon(":/icons/icon32_zim.png"); } dictionaryIconLoaded = true; } quint32 ZimDictionary::loadArticle( quint32 address, string & articleText, set< quint32 > * loadedArticles ) { quint32 ret; { Mutex::Lock _( zimMutex ); ret = readArticle( df, zimHeader, address, articleText, loadedArticles ); } articleText = convert( articleText ); return ret; } string ZimDictionary::convert( const string & in ) { QString text = QString::fromUtf8( in.c_str() ); text.replace( QRegExp( "<\\s*body\\s*([^>]*)background:([^;\"]*)" ), QString( "]*)src=\"/" ), QString( "<\\1 \\2src=\"bres://%1/").arg( getId().c_str() ) ); text.replace( QRegExp( "<\\s*link\\s*([^>]*)href=\"/" ), QString( "]*)href=\"/[^\"]*\"\\s*title=\"([^\"]*)\"" ), QString( "]*)href=\"/A/([^\"]*)\"" ), QString( ""; return text.toUtf8().data(); } void ZimDictionary::loadResource( std::string & resourceName, string & data ) { vector< WordArticleLink > link; string resData; link = resourceIndex.findArticles( Utf8::decode( resourceName ) ); if( link.empty() ) return; { Mutex::Lock _( zimMutex ); readArticle( df, zimHeader, link[ 0 ].articleOffset, data ); } } QString const& ZimDictionary::getDescription() { if( !dictionaryDescription.isEmpty() || idxHeader.descriptionPtr == 0xFFFFFFFF ) return dictionaryDescription; string str; { Mutex::Lock _( zimMutex ); readArticle( df, zimHeader, idxHeader.descriptionPtr, str ); } if( !str.empty() ) dictionaryDescription = QString::fromUtf8( str.c_str(), str.size() ); return dictionaryDescription; } /// ZimDictionary::getArticle() class ZimArticleRequest; class ZimArticleRequestRunnable: public QRunnable { ZimArticleRequest & r; QSemaphore & hasExited; public: ZimArticleRequestRunnable( ZimArticleRequest & r_, QSemaphore & hasExited_ ): r( r_ ), hasExited( hasExited_ ) {} ~ZimArticleRequestRunnable() { hasExited.release(); } virtual void run(); }; class ZimArticleRequest: public Dictionary::DataRequest { friend class ZimArticleRequestRunnable; wstring word; vector< wstring > alts; ZimDictionary & dict; QAtomicInt isCancelled; QSemaphore hasExited; public: ZimArticleRequest( wstring const & word_, vector< wstring > const & alts_, ZimDictionary & dict_ ): word( word_ ), alts( alts_ ), dict( dict_ ) { QThreadPool::globalInstance()->start( new ZimArticleRequestRunnable( *this, hasExited ) ); } void run(); // Run from another thread by ZimArticleRequestRunnable virtual void cancel() { isCancelled.ref(); } ~ZimArticleRequest() { isCancelled.ref(); hasExited.acquire(); } }; void ZimArticleRequestRunnable::run() { r.run(); } void ZimArticleRequest::run() { if ( 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< quint32 > 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 ( isCancelled ) { finish(); return; } // Now grab that article string headword, articleText; headword = chain[ x ].word; quint32 articleNumber = 0xFFFFFFFF; try { articleNumber = dict.loadArticle( chain[ x ].articleOffset, articleText, &articlesIncluded ); } catch(...) { } if( articleNumber == 0xFFFFFFFF ) continue; // No article loaded if ( articlesIncluded.find( articleNumber ) != articlesIncluded.end() ) continue; // We already have this article in the body. // 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( articleNumber ); } if ( mainArticles.empty() && alternateArticles.empty() ) { // No such word finish(); return; } string result; // See Issue #271: A mechanism to clean-up invalid HTML cards. string cleaner = """""""""""" """""""""""" "" "" ""; multimap< wstring, pair< string, string > >::const_iterator i; for( i = mainArticles.begin(); i != mainArticles.end(); ++i ) { result += "
"; result += "

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

"; result += i->second.second; result += cleaner + "
"; } for( i = alternateArticles.begin(); i != alternateArticles.end(); ++i ) { result += "
"; 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 > ZimDictionary::getArticle( wstring const & word, vector< wstring > const & alts, wstring const & ) throw( std::exception ) { return new ZimArticleRequest( word, alts, *this ); } //// ZimDictionary::getResource() class ZimResourceRequest; class ZimResourceRequestRunnable: public QRunnable { ZimResourceRequest & r; QSemaphore & hasExited; public: ZimResourceRequestRunnable( ZimResourceRequest & r_, QSemaphore & hasExited_ ): r( r_ ), hasExited( hasExited_ ) {} ~ZimResourceRequestRunnable() { hasExited.release(); } virtual void run(); }; class ZimResourceRequest: public Dictionary::DataRequest { friend class ZimResourceRequestRunnable; ZimDictionary & dict; string resourceName; QAtomicInt isCancelled; QSemaphore hasExited; public: ZimResourceRequest( ZimDictionary & dict_, string const & resourceName_ ): dict( dict_ ), resourceName( resourceName_ ) { QThreadPool::globalInstance()->start( new ZimResourceRequestRunnable( *this, hasExited ) ); } void run(); // Run from another thread by ZimResourceRequestRunnable virtual void cancel() { isCancelled.ref(); } ~ZimResourceRequest() { isCancelled.ref(); hasExited.acquire(); } }; void ZimResourceRequestRunnable::run() { r.run(); } void ZimResourceRequest::run() { // Some runnables linger enough that they are cancelled before they start if ( isCancelled ) { finish(); return; } try { string resource; dict.loadResource( resourceName, resource ); if( resource.empty() ) throw File::Ex(); if( Filetype::isNameOfCSS( resourceName ) ) { QString css = QString::fromUtf8( resource.data(), resource.size() ); dict.isolateCSS( css, ".zimdict" ); QByteArray bytes = css.toUtf8(); data.resize( bytes.size() ); memcpy( &data.front(), bytes.constData(), bytes.size() ); } else if ( Filetype::isNameOfTiff( resourceName ) ) { // Convert it dataMutex.lock(); QImage img = QImage::fromData( reinterpret_cast< const uchar * >( resource.data() ), resource.size() ); 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() ); } } else { Mutex::Lock _( dataMutex ); data.resize( resource.size() ); memcpy( &data.front(), resource.data(), data.size() ); } hasAnyData = true; } catch( File::Ex & ) { // No such resource -- we don't set the hasAnyData flag then } catch( Utf8::exCantDecode ) { // Failed to decode some utf8 -- probably the resource name is no good } finish(); } sptr< Dictionary::DataRequest > ZimDictionary::getResource( string const & name ) throw( std::exception ) { return new ZimResourceRequest( *this, name ); } //} // anonymous namespace 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 ) { // Skip files with the extensions different to .zim to speed up the // scanning QString firstName = QDir::fromNativeSeparators( FsEncoding::decode( i->c_str() ) ); if( !firstName.endsWith( ".zim") && !firstName.endsWith( ".zimaa" ) ) continue; // Got the file -- check if we need to rebuid the index ZimFile df( firstName ); vector< string > dictFiles; df.getFilenames( dictFiles ); string dictId = Dictionary::makeDictionaryId( dictFiles ); string indexFile = indicesDir + dictId; try { if ( Dictionary::needToRebuildIndex( dictFiles, indexFile ) || indexIsOldOrBad( indexFile ) ) { ZIM_header zh; unsigned articleCount = 0; unsigned wordCount = 0; df.open( QFile::ReadOnly ); qint64 ret = df.read( reinterpret_cast< char * >( &zh ), sizeof( zh ) ); if( ret != sizeof( zh ) ) throw exCantReadFile( i->c_str() ); if( zh.magicNumber != 0x44D495A ) throw exNotZimFile( i->c_str() ); { int n = firstName.lastIndexOf( '/' ); initializing.indexingDictionary( firstName.mid( n + 1 ).toUtf8().constData() ); } File::Class idx( indexFile, "wb" ); IdxHeader idxHeader; memset( &idxHeader, 0, sizeof( idxHeader ) ); idxHeader.namePtr = 0xFFFFFFFF; idxHeader.descriptionPtr = 0xFFFFFFFF; // 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, indexedResources; QByteArray artEntries; df.seek( zh.urlPtrPos ); artEntries = df.read( (quint64)zh.articleCount * 8 ); QVector< quint64 > clusters; clusters.reserve( zh.clusterCount ); df.seek( zh.clusterPtrPos ); { QByteArray data = df.read( (quint64)zh.clusterCount * 8 ); for( unsigned n = 0; n < zh.clusterCount; n++ ) clusters.append( *( reinterpret_cast< const quint64 * >( data.constData() ) + n ) ); } const quint64 * ptr; quint16 mimetype; ArticleEntry artEntry; RedirectEntry redEntry; string url, title; char nameSpace; for( unsigned n = 0; n < zh.articleCount; n++ ) { ptr = reinterpret_cast< const quint64 * >( artEntries.constData() ) + n; df.seek( *ptr ); df.read( reinterpret_cast< char * >( &mimetype ), sizeof(mimetype) ); if( mimetype == 0xFFFF ) { redEntry.mimetype = mimetype; ret = df.read( reinterpret_cast< char * >( &redEntry ) + 2, sizeof(RedirectEntry) - 2 ); if( ret != sizeof(RedirectEntry) - 2 ) throw exCantReadFile( i->c_str() ); nameSpace = redEntry.nameSpace; } else { artEntry.mimetype = mimetype; ret = df.read( reinterpret_cast< char * >( &artEntry ) + 2, sizeof(ArticleEntry) - 2 ); if( ret != sizeof(ArticleEntry) - 2 ) throw exCantReadFile( i->c_str() ); nameSpace = artEntry.nameSpace; if( nameSpace == 'A' ) articleCount++; } // Read article url and title char ch; url.clear(); while( df.getChar( &ch ) ) { if( ch == 0 ) break; url.push_back( ch ); } title.clear(); while( df.getChar( &ch ) ) { if( ch == 0 ) break; title.push_back( ch ); } if( nameSpace == 'A' ) { if( !title.empty() ) indexedWords.addWord( Utf8::decode( title ), n ); else indexedWords.addWord( Utf8::decode( url ), n ); wordCount++; } else if( nameSpace == 'M' ) { if( url.compare( "Title") == 0 ) { idxHeader.namePtr = n; string name; readArticle( df, zh, n, name ); initializing.indexingDictionary( name ); } else if( url.compare( "Description") == 0 ) idxHeader.descriptionPtr = n; else if( url.compare( "Language") == 0 ) { string lang; readArticle( df, zh, n, lang ); if( lang.size() == 2 ) idxHeader.langFrom = LangCoder::code2toInt( lang.c_str() ); else if( lang.size() == 3 ) idxHeader.langFrom = LangCoder::code3toInt( lang.c_str() ); idxHeader.langTo = idxHeader.langFrom; } } else { url.insert( url.begin(), '/' ); url.insert( url.begin(), nameSpace ); indexedResources.addSingleWord( Utf8::decode( url ), n ); } } // 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 } { IndexInfo idxInfo = BtreeIndexing::buildIndex( indexedResources, idx ); idxHeader.resourceIndexBtreeMaxElements = idxInfo.btreeMaxElements; idxHeader.resourceIndexRootOffset = idxInfo.rootOffset; indexedResources.clear(); // Release memory -- no need for this data } idxHeader.signature = Signature; idxHeader.formatVersion = CurrentFormatVersion; idxHeader.articleCount = articleCount; idxHeader.wordCount = wordCount; idx.rewind(); idx.write( &idxHeader, sizeof( idxHeader ) ); } } catch( std::exception & e ) { FDPRINTF( stderr, "Zim dictionary indexing failed: %s, error: %s\n", i->c_str(), e.what() ); continue; } catch( ... ) { FDPRINTF( stderr, "Zim dictionary indexing failed\n" ); continue; } dictionaries.push_back( new ZimDictionary( dictId, indexFile, dictFiles ) ); } return dictionaries; } } // namespace Zim #endif