/* This file is (c) 2014 Abs62 * Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */ #include "fulltextsearch.hh" #include "ftshelpers.hh" #include "wstring_qt.hh" #include "file.hh" #include "gddebug.hh" #include "folding.hh" #include "utils.hh" #include #include #include #include #include "wildcard.hh" using std::vector; using std::string; DEF_EX( exUserAbort, "User abort", Dictionary::Ex ) namespace FtsHelpers { bool ftsIndexIsOldOrBad( string const & indexFile, BtreeIndexing::BtreeDictionary * dict ) { File::Class idx( indexFile, "rb" ); FtsIdxHeader header; return idx.readRecords( &header, sizeof( header ), 1 ) != 1 || header.signature != FtsSignature || header.formatVersion != CurrentFtsFormatVersion + dict->getFtsIndexVersion(); } static QString makeHiliteRegExpString( QStringList const & words, int searchMode, int distanceBetweenWords ) { QString searchString( "(" ); QString stripWords( "(?:\\W+\\w+){0," ); if( distanceBetweenWords >= 0 ) stripWords += QString::number( distanceBetweenWords ); stripWords += "}\\W+"; QString boundWord( searchMode == FTS::WholeWords ? "\\b" : "(?:\\w*)"); for( int x = 0; x < words.size(); x++ ) { if( x ) searchString += stripWords; searchString += boundWord + words[ x ] + boundWord; } searchString += ")"; return searchString; } bool parseSearchString( QString const & str, QStringList & indexWords, QStringList & searchWords, QRegExp & searchRegExp, int searchMode, bool matchCase, int distanceBetweenWords, bool & hasCJK ) { searchWords.clear(); indexWords.clear(); QRegularExpression spacesRegExp( "\\W+" ); QRegularExpression wordRegExp( QString( "\\w{" ) + QString::number( FTS::MinimumWordSize ) + ",}" ); QRegularExpression setsRegExp( "\\[[^\\]]+\\]", QRegularExpression::CaseInsensitiveOption ); QRegularExpression regexRegExp( "\\\\[afnrtvdDwWsSbB]|\\\\x([0-9A-Fa-f]{4})|\\\\0([0-7]{3})", QRegularExpression::CaseInsensitiveOption); hasCJK = false; for( int x = 0; x < str.size(); x++ ) if( isCJKChar( str.at( x ).unicode() ) ) { hasCJK = true; break; } if( searchMode == FTS::WholeWords || searchMode == FTS::PlainText ) { if( hasCJK ) return false; // Make words list for search in article text searchWords = str.normalized( QString::NormalizationForm_C ) .split( spacesRegExp, Qt::SkipEmptyParts ); // Make words list for index search QStringList list = str.normalized( QString::NormalizationForm_C ) .toLower().split( spacesRegExp, Qt::SkipEmptyParts ); indexWords = list.filter( wordRegExp ); indexWords.removeDuplicates(); // Make regexp for results hilite QStringList allWords = str.split( spacesRegExp, Qt::SkipEmptyParts ); QString searchString = makeHiliteRegExpString( allWords, searchMode, distanceBetweenWords ); searchRegExp = QRegExp( searchString, matchCase ? Qt::CaseSensitive : Qt::CaseInsensitive, QRegExp::RegExp2 ); searchRegExp.setMinimal( true ); return !indexWords.isEmpty(); } else { // Make words list for index search QString tmp = str; // Remove RegExp commands if( searchMode == FTS::RegExp ) tmp.replace( regexRegExp, " " ); // Remove all symbol sets tmp.replace( setsRegExp, " " ); QStringList list = tmp.normalized( QString::NormalizationForm_C ) .toLower().split( spacesRegExp, Qt::SkipEmptyParts ); if( hasCJK ) { QStringList wordList, hieroglyphList; for( int i = 0; i < list.size(); i ++ ) { QString word = list.at( i ); // Check for CJK symbols in word bool parsed = false; QString hieroglyph; for( int x = 0; x < word.size(); x++ ) if( isCJKChar( word.at( x ).unicode() ) ) { parsed = true; hieroglyph.append( word[ x ] ); if( QChar( word.at( x ) ).isHighSurrogate() && QChar( word[ x + 1 ] ).isLowSurrogate() ) hieroglyph.append( word[ ++x ] ); hieroglyphList.append( hieroglyph ); hieroglyph.clear(); } // If word don't contains CJK symbols put it in list as is if( !parsed ) wordList.append( word ); } indexWords = wordList.filter( wordRegExp ); indexWords.removeDuplicates(); hieroglyphList.removeDuplicates(); indexWords += hieroglyphList; } else { indexWords = list.filter( wordRegExp ); indexWords.removeDuplicates(); } searchRegExp = QRegExp( str, matchCase ? Qt::CaseSensitive : Qt::CaseInsensitive, searchMode == FTS::Wildcards ? QRegExp::WildcardUnix : QRegExp::RegExp2 ); searchRegExp.setMinimal( true ); } return true; } void parseArticleForFts( uint32_t articleAddress, QString & articleText, QMap< QString, QVector< uint32_t > > & words, bool handleRoundBrackets ) { if( articleText.isEmpty() ) return; QRegularExpression regBrackets( "(\\([\\w\\p{M}]+\\)){0,1}([\\w\\p{M}]+)(\\([\\w\\p{M}]+\\)){0,1}([\\w\\p{M}]+){0,1}(\\([\\w\\p{M}]+\\)){0,1}", QRegularExpression::UseUnicodePropertiesOption); QRegularExpression regSplit( "[^\\w\\p{M}]+", QRegularExpression::UseUnicodePropertiesOption ); QStringList articleWords = articleText.normalized( QString::NormalizationForm_C ) .split( QRegularExpression( handleRoundBrackets ? "[^\\w\\(\\)\\p{M}]+" : "[^\\w\\p{M}]+", QRegularExpression::UseUnicodePropertiesOption ), Qt::SkipEmptyParts ); QSet< QString > setOfWords; setOfWords.reserve( articleWords.size() ); for( int x = 0; x < articleWords.size(); x++ ) { QString word = articleWords.at( x ).toLower(); bool hasCJK = false; QString hieroglyph; // If word contains CJK symbols we add to index only these symbols separately for( int y = 0; y < word.size(); y++ ) if( isCJKChar( word.at( y ).unicode() ) ) { hasCJK = true; hieroglyph.append( word[ y ] ); if( QChar( word.at( y ) ).isHighSurrogate() && QChar( word[ y + 1 ] ).isLowSurrogate() ) hieroglyph.append( word[ ++y ] ); if( !setOfWords.contains( hieroglyph ) ) { setOfWords.insert( hieroglyph ); words[ hieroglyph ].push_back( articleAddress ); } hieroglyph.clear(); } if( !hasCJK ) { // Else we add word to index as is if( word.size() < FTS::MinimumWordSize ) continue; if( handleRoundBrackets && ( word.indexOf( '(' ) >= 0 || word.indexOf( ')' ) >= 0 ) ) { // Special handle for words with round brackets - DSL feature QStringList list; QStringList oldVariant = word.split( regSplit, Qt::SkipEmptyParts ); for( QStringList::iterator it = oldVariant.begin(); it != oldVariant.end(); ++it ) if( it->size() >= FTS::MinimumWordSize && !list.contains( *it ) ) list.append( *it ); QRegularExpressionMatch match = regBrackets.match( word ); if( match.hasMatch() ) { QStringList parts = match.capturedTexts(); // Add empty strings for compatibility with QRegExp behaviour for( int i = match.lastCapturedIndex() + 1; i < 6; i++ ) parts.append( QString() ); QString parsedWord = parts[ 2 ] + parts[ 4 ]; // Brackets removed if( parsedWord.size() >= FTS::MinimumWordSize && !list.contains( parsedWord ) ) list.append( parsedWord ); parsedWord = parts[ 1 ].remove( '(' ).remove( ')' ) + parts[ 2 ] + parts[ 3 ].remove( '(' ).remove( ')' ) + parts[ 4 ] + parts[ 5 ].remove( '(' ).remove( ')' ); // Brackets expansed if( parsedWord.size() >= FTS::MinimumWordSize && !list.contains( parsedWord ) ) list.append( parsedWord ); } for( QStringList::iterator it = list.begin(); it != list.end(); ++it ) { if( !setOfWords.contains( *it ) ) { setOfWords.insert( *it ); words[ *it ].push_back( articleAddress ); } } } else if( !setOfWords.contains( word ) ) { setOfWords.insert( word ); words[ word ].push_back( articleAddress ); } } } } void makeFTSIndex( BtreeIndexing::BtreeDictionary * dict, QAtomicInt & isCancelled ) { Mutex::Lock _( dict->getFtsMutex() ); if( Utils::AtomicInt::loadAcquire( isCancelled ) ) throw exUserAbort(); File::Class ftsIdx( dict->ftsIndexName(), "wb" ); FtsIdxHeader ftsIdxHeader; memset( &ftsIdxHeader, 0, sizeof( ftsIdxHeader ) ); // We write a dummy header first. At the end of the process the header // will be rewritten with the right values. ftsIdx.write( ftsIdxHeader ); ChunkedStorage::Writer chunks( ftsIdx ); BtreeIndexing::IndexedWords indexedWords; QSet< uint32_t > setOfOffsets; setOfOffsets.reserve( dict->getArticleCount() ); dict->findArticleLinks( 0, &setOfOffsets, 0, &isCancelled ); if( Utils::AtomicInt::loadAcquire( isCancelled ) ) throw exUserAbort(); QVector< uint32_t > offsets; offsets.resize( setOfOffsets.size() ); uint32_t * ptr = &offsets.front(); for( QSet< uint32_t >::ConstIterator it = setOfOffsets.constBegin(); it != setOfOffsets.constEnd(); ++it ) { *ptr = *it; ptr++; } // Free memory setOfOffsets.clear(); if( Utils::AtomicInt::loadAcquire( isCancelled ) ) throw exUserAbort(); dict->sortArticlesOffsetsForFTS( offsets, isCancelled ); QMap< QString, QVector< uint32_t > > ftsWords; bool needHandleBrackets; { QString name = QString::fromUtf8( dict->getDictionaryFilenames()[ 0 ].c_str() ).toLower(); needHandleBrackets = name.endsWith( ".dsl" ) || name.endsWith( "dsl.dz" ); } // index articles for full-text search for( int i = 0; i < offsets.size(); i++ ) { if( Utils::AtomicInt::loadAcquire( isCancelled ) ) throw exUserAbort(); QString headword, articleStr; dict->getArticleText( offsets.at( i ), headword, articleStr ); parseArticleForFts( offsets.at( i ), articleStr, ftsWords, needHandleBrackets ); } // Free memory offsets.clear(); QMap< QString, QVector< uint32_t > >::iterator it = ftsWords.begin(); while( it != ftsWords.end() ) { if( Utils::AtomicInt::loadAcquire( isCancelled ) ) throw exUserAbort(); uint32_t offset = chunks.startNewBlock(); uint32_t size = it.value().size(); chunks.addToBlock( &size, sizeof(uint32_t) ); chunks.addToBlock( it.value().data(), size * sizeof(uint32_t) ); indexedWords.addSingleWord( gd::toWString( it.key() ), offset ); it = ftsWords.erase( it ); } ftsIdxHeader.chunksOffset = chunks.finish(); ftsIdxHeader.wordCount = indexedWords.size(); if( Utils::AtomicInt::loadAcquire( isCancelled ) ) throw exUserAbort(); BtreeIndexing::IndexInfo ftsIdxInfo = BtreeIndexing::buildIndex( indexedWords, ftsIdx ); // Free memory indexedWords.clear(); ftsIdxHeader.indexBtreeMaxElements = ftsIdxInfo.btreeMaxElements; ftsIdxHeader.indexRootOffset = ftsIdxInfo.rootOffset; ftsIdxHeader.signature = FtsHelpers::FtsSignature; ftsIdxHeader.formatVersion = FtsHelpers::CurrentFtsFormatVersion + dict->getFtsIndexVersion(); ftsIdx.rewind(); ftsIdx.writeRecords( &ftsIdxHeader, sizeof(ftsIdxHeader), 1 ); } bool isCJKChar( ushort ch ) { if( ( ch >= 0x3400 && ch <= 0x9FFF ) || ( ch >= 0xF900 && ch <= 0xFAFF ) || ( ch >= 0xD800 && ch <= 0xDFFF ) ) return true; return false; } void FTSResultsRequest::checkArticles( QVector< uint32_t > const & offsets, QStringList const & words, QRegExp const & searchRegexp ) { int results = 0; QString headword, articleText; QList< uint32_t > offsetsForHeadwords; QVector< QStringList > hiliteRegExps; QString id = QString::fromUtf8( dict.getId().c_str() ); bool needHandleBrackets; { QString name = QString::fromUtf8( dict.getDictionaryFilenames()[ 0 ].c_str() ).toLower(); needHandleBrackets = name.endsWith( ".dsl" ) || name.endsWith( ".dsl.dz" ); } QRegularExpression regBrackets( "(\\([\\w\\p{M}]+\\)){0,1}([\\w\\p{M}]+)(\\([\\w\\p{M}]+\\)){0,1}([\\w\\p{M}]+){0,1}(\\([\\w\\p{M}]+\\)){0,1}", QRegularExpression::UseUnicodePropertiesOption); QRegularExpression regSplit( "[^\\w\\p{M}]+", QRegularExpression::UseUnicodePropertiesOption ); if( searchMode == FTS::Wildcards || searchMode == FTS::RegExp ) { // RegExp mode QRegularExpression searchRegularExpression; if( searchMode == FTS::Wildcards ) searchRegularExpression.setPattern( wildcardsToRegexp( searchRegexp.pattern() ) ); else searchRegularExpression.setPattern( searchRegexp.pattern() ); QRegularExpression::PatternOptions patternOptions = QRegularExpression::DotMatchesEverythingOption | QRegularExpression::UseUnicodePropertiesOption | QRegularExpression::MultilineOption | QRegularExpression::InvertedGreedinessOption; if( searchRegexp.caseSensitivity() == Qt::CaseInsensitive ) patternOptions |= QRegularExpression::CaseInsensitiveOption; searchRegularExpression.setPatternOptions( patternOptions ); if( !searchRegularExpression.isValid() ) searchRegularExpression.setPattern( "" ); for( int i = 0; i < offsets.size(); i++ ) { if( Utils::AtomicInt::loadAcquire( isCancelled ) ) break; dict.getArticleText( offsets.at( i ), headword, articleText ); articleText = articleText.normalized( QString::NormalizationForm_C ); if( ignoreDiacritics ) articleText = gd::toQString( Folding::applyDiacriticsOnly( gd::toWString( articleText ) ) ); if( articleText.contains( searchRegularExpression ) ) { if( headword.isEmpty() ) offsetsForHeadwords.append( offsets.at( i ) ); else foundHeadwords->append( FTS::FtsHeadword( headword, id, QStringList(), matchCase ) ); results++; if( maxResults > 0 && results >= maxResults ) break; } } } else { // Words mode QRegularExpression splitWithBrackets( "[^\\w\\(\\)\\p{M}]+", QRegularExpression::UseUnicodePropertiesOption ); QRegularExpression splitWithoutBrackets( "[^\\w\\p{M}]+", QRegularExpression::UseUnicodePropertiesOption ); Qt::CaseSensitivity cs = matchCase ? Qt::CaseSensitive : Qt::CaseInsensitive; QVector< QPair< QString, bool > > wordsList; if( ignoreWordsOrder ) { for( QStringList::const_iterator it = words.begin(); it != words.end(); ++it ) wordsList.append( QPair< QString, bool >( *it, true ) ); } for( int i = 0; i < offsets.size(); i++ ) { if( Utils::AtomicInt::loadAcquire( isCancelled ) ) break; int pos = 0; int matchWordNom = 0; int unmatchWordNom = 0; int nextNotFoundPos = 0; QVector< QStringList > allOrders; QStringList order; if( ignoreWordsOrder ) { for( int i = 0; i < wordsList.size(); i++ ) wordsList[ i ].second = true; } dict.getArticleText( offsets.at( i ), headword, articleText ); articleText = articleText.normalized( QString::NormalizationForm_C ); if( ignoreDiacritics ) articleText = gd::toQString( Folding::applyDiacriticsOnly( gd::toWString( articleText ) ) ); QStringList articleWords = articleText.split( needHandleBrackets ? splitWithBrackets : splitWithoutBrackets, Qt::SkipEmptyParts ); int wordsNum = articleWords.length(); while ( pos < wordsNum ) { QString s = articleWords[ pos ]; bool breakSearch = false; QStringList parsedWords; if( needHandleBrackets && ( s.indexOf( '(' ) >= 0 || s.indexOf( ')' ) >= 0 ) ) { // Handle brackets QRegularExpressionMatch match_brackets = regBrackets.match( s ); if( match_brackets.hasMatch() ) { QStringList parts = match_brackets.capturedTexts(); // Add empty strings for compatibility with QRegExp behaviour for( int i = match_brackets.lastCapturedIndex() + 1; i < 6; i++ ) parts.append( QString() ); QString word = parts[ 2 ] + parts[ 4 ]; // Brackets removed parsedWords.append( word ); word = parts[ 1 ].remove( '(' ).remove( ')' ) + parts[ 2 ] + parts[ 3 ].remove( '(' ).remove( ')' ) + parts[ 4 ] + parts[ 5 ].remove( '(' ).remove( ')' ); // Brackets expansed parsedWords.append( word ); } else parsedWords = s.split( regSplit, Qt::SkipEmptyParts ); } else parsedWords.append( s ); int n; for( n = 0; n < parsedWords.size(); n++ ) { if( ignoreWordsOrder ) { int i; for( i = 0; i < wordsList.size(); i++ ) { if( wordsList.at( i ).second ) { if( ( searchMode == FTS::WholeWords && parsedWords.at( n ).compare( wordsList.at( i ).first, cs ) == 0 ) || ( searchMode == FTS::PlainText && parsedWords.at( n ).contains( wordsList.at( i ).first, cs ) ) ) { wordsList[ i ].second = false; if( parsedWords.size() > 1 ) { QString wordToHilite = s; while( !wordToHilite.isEmpty() && ( wordToHilite.at( 0 ) == '(' || wordToHilite.at( 0 ) == ')' ) ) wordToHilite.remove( 0, 1 ); while( !wordToHilite.isEmpty() && ( wordToHilite.endsWith( '(' ) || wordToHilite.endsWith( ')' ) ) ) wordToHilite.chop( 1 ); order.append( wordToHilite.replace( '(', "\\(" ).replace( ')', "\\)" ) ); } else order.append( wordsList.at( i ).first ); break; } } } if( i < wordsList.size() ) { // Word found matchWordNom += 1; if( matchWordNom == 1 ) { // Store position to remake search if sequence will not be found nextNotFoundPos = pos + 1; } if( matchWordNom >= words.size() ) { // All words are found // Store found words sequence and continue search // It's nesessary for hilite search results // Check if such sequence already presented int x; for( x = 0; x < allOrders.size(); x++ ) { if( allOrders[ x ] == order ) break; } if( x >= allOrders.size() ) allOrders.append( order ); order.clear(); matchWordNom = 0; unmatchWordNom = 0; for( int i = 0; i < wordsList.size(); i++ ) wordsList[ i ].second = true; nextNotFoundPos = 0; break; } unmatchWordNom = 0; break; } else if( matchWordNom > 0 && n >= parsedWords.size() - 1 ) { unmatchWordNom += 1; if( distanceBetweenWords >= 0 && unmatchWordNom > distanceBetweenWords ) { // Sequence broken, clear all counters matchWordNom = 0; unmatchWordNom = 0; for( int i = 0; i < wordsList.size(); i++ ) wordsList[ i ].second = true; order.clear(); } } } else { if( ( searchMode == FTS::WholeWords && parsedWords.at( n ).compare( words.at( matchWordNom ), cs ) == 0 ) || ( searchMode == FTS::PlainText && parsedWords.at( n ).contains( words.at( matchWordNom ), cs ) ) ) { matchWordNom += 1; if( matchWordNom == 1 ) { // Store position to remake search if sequence will not be found nextNotFoundPos = pos + 1; } if( needHandleBrackets ) { if( parsedWords.size() > 1 ) { QString wordToHilite = s; while( !wordToHilite.isEmpty() && ( wordToHilite.at( 0 ) == '(' || wordToHilite.at( 0 ) == ')' ) ) wordToHilite.remove( 0, 1 ); while( !wordToHilite.isEmpty() && ( wordToHilite.endsWith( '(' ) || wordToHilite.endsWith( ')' ) ) ) wordToHilite.chop( 1 ); order.append( wordToHilite.replace( '(', "\\(" ).replace( ')', "\\)" ) ); } else order.append( words.at( matchWordNom - 1 ) ); } if( matchWordNom >= words.size() ) { // All words are found if( needHandleBrackets ) { if( allOrders.isEmpty() ) allOrders.append( words ); // Check if such sequence already presented int x; for( x = 0; x < allOrders.size(); x++ ) { if( allOrders[ x ] == order ) break; } if( x >= allOrders.size() ) allOrders.append( order ); matchWordNom = 0; unmatchWordNom = 0; order.clear(); nextNotFoundPos = 0; } else breakSearch = true; break; } unmatchWordNom = 0; break; } else if( matchWordNom > 0 && n >= parsedWords.size() - 1 ) { unmatchWordNom += 1; if( distanceBetweenWords >= 0 && unmatchWordNom > distanceBetweenWords ) { matchWordNom = 0; unmatchWordNom = 0; if( needHandleBrackets ) order.clear(); } } } } if( breakSearch ) break; if( nextNotFoundPos > 0 && matchWordNom == 0 ) { pos = nextNotFoundPos; nextNotFoundPos = 0; } else pos += 1; } if( !allOrders.isEmpty() || matchWordNom >= words.size() ) { QStringList hiliteReg; if( !allOrders.isEmpty() ) { for( int i = 0; i < allOrders.size(); i++ ) { QString hiliteStr = makeHiliteRegExpString( allOrders.at( i ), searchMode, distanceBetweenWords ); hiliteReg.append( hiliteStr ); } allOrders.clear(); } if( headword.isEmpty() ) { offsetsForHeadwords.append( offsets.at( i ) ); hiliteRegExps.append( hiliteReg ); } else foundHeadwords->append( FTS::FtsHeadword( headword, id, hiliteReg, matchCase ) ); results++; if( maxResults > 0 && results >= maxResults ) break; } } } if( !offsetsForHeadwords.isEmpty() ) { QVector< QString > headwords; dict.getHeadwordsFromOffsets( offsetsForHeadwords, headwords, &isCancelled ); for( int x = 0; x < headwords.size(); x++ ) foundHeadwords->append( FTS::FtsHeadword( headwords.at( x ), id, x < hiliteRegExps.size() ? hiliteRegExps.at( x ) : QStringList(), matchCase ) ); } } void FTSResultsRequest::indexSearch( BtreeIndexing::BtreeIndex & ftsIndex, sptr< ChunkedStorage::Reader > chunks, QStringList & indexWords, QStringList & searchWords ) { // Find articles which contains all requested words vector< BtreeIndexing::WordArticleLink > links; QSet< uint32_t > setOfOffsets, tmp; uint32_t size; if( indexWords.isEmpty() ) return; int n = indexWords.length(); for( int i = 0; i < n; i++ ) { if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; tmp.clear(); links = ftsIndex.findArticles( gd::toWString( indexWords.at( i ) ), ignoreDiacritics ); for( unsigned x = 0; x < links.size(); x++ ) { if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; vector< char > chunk; char * linksPtr; { Mutex::Lock _( dict.getFtsMutex() ); linksPtr = chunks->getBlock( links[ x ].articleOffset, chunk ); } memcpy( &size, linksPtr, sizeof(uint32_t) ); linksPtr += sizeof(uint32_t); for( uint32_t y = 0; y < size; y++ ) { tmp.insert( *( reinterpret_cast< uint32_t * >( linksPtr ) ) ); linksPtr += sizeof(uint32_t); } } links.clear(); if( i == 0 ) setOfOffsets = tmp; else setOfOffsets = setOfOffsets.intersect( tmp ); } tmp.clear(); if( setOfOffsets.isEmpty() ) return; QVector< uint32_t > offsets; offsets.resize( setOfOffsets.size() ); uint32_t * ptr = &offsets.front(); for( QSet< uint32_t >::ConstIterator it = setOfOffsets.constBegin(); it != setOfOffsets.constEnd(); ++it ) { *ptr = *it; ptr++; } setOfOffsets.clear(); dict.sortArticlesOffsetsForFTS( offsets, isCancelled ); checkArticles( offsets, searchWords ); } void FTSResultsRequest::combinedIndexSearch( BtreeIndexing::BtreeIndex & ftsIndex, sptr< ChunkedStorage::Reader > chunks, QStringList & indexWords, QStringList & searchWords, QRegExp & regexp ) { // Special case - combination of index search for hieroglyphs // and full index search for other words QSet< uint32_t > setOfOffsets; uint32_t size; if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; if( indexWords.isEmpty() ) return; QStringList wordsList, hieroglyphsList; for( int x = 0; x < indexWords.size(); x++ ) { QString const & word = indexWords.at( x ); if( isCJKChar( word[ 0 ].unicode() ) ) hieroglyphsList.append( word ); else wordsList.append( word ); } QVector< QSet< uint32_t > > allWordsLinks; int n = wordsList.size(); if( !hieroglyphsList.isEmpty() ) n += 1; allWordsLinks.resize( n ); int wordNom = 0; if( !hieroglyphsList.empty() ) { QSet< uint32_t > tmp; vector< BtreeIndexing::WordArticleLink > links; for( int i = 0; i < hieroglyphsList.size(); i++ ) { links = ftsIndex.findArticles( gd::toWString( hieroglyphsList.at( i ) ) ); for( unsigned x = 0; x < links.size(); x++ ) { if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; vector< char > chunk; char * linksPtr; { Mutex::Lock _( dict.getFtsMutex() ); linksPtr = chunks->getBlock( links[ x ].articleOffset, chunk ); } memcpy( &size, linksPtr, sizeof(uint32_t) ); linksPtr += sizeof(uint32_t); for( uint32_t y = 0; y < size; y++ ) { tmp.insert( *( reinterpret_cast< uint32_t * >( linksPtr ) ) ); linksPtr += sizeof(uint32_t); } } links.clear(); if( i == 0 ) setOfOffsets = tmp; else setOfOffsets = setOfOffsets.intersect( tmp ); } allWordsLinks[ wordNom ] = setOfOffsets; setOfOffsets.clear(); wordNom += 1; } if( !wordsList.isEmpty() ) { QVector< BtreeIndexing::WordArticleLink > links; links.reserve( wordsInIndex ); ftsIndex.findArticleLinks( &links, 0, 0, &isCancelled ); for( int x = 0; x < links.size(); x++ ) { if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; QString word = QString::fromUtf8( links[ x ].word.data(), links[ x ].word.size() ); if( ignoreDiacritics ) word = gd::toQString( Folding::applyDiacriticsOnly( gd::toWString( word ) ) ); for( int i = 0; i < wordsList.size(); i++ ) { if( word.length() >= wordsList.at( i ).length() && word.contains( wordsList.at( i ) ) ) { vector< char > chunk; char * linksPtr; { Mutex::Lock _( dict.getFtsMutex() ); linksPtr = chunks->getBlock( links[ x ].articleOffset, chunk ); } memcpy( &size, linksPtr, sizeof(uint32_t) ); linksPtr += sizeof(uint32_t); for( uint32_t y = 0; y < size; y++ ) { allWordsLinks[ wordNom ].insert( *( reinterpret_cast< uint32_t * >( linksPtr ) ) ); linksPtr += sizeof(uint32_t); } wordNom += 1; if( searchMode == FTS::PlainText || searchMode == FTS::WholeWords ) break; } } } links.clear(); } for( int i = 0; i < allWordsLinks.size(); i++ ) { if( i == 0 ) setOfOffsets = allWordsLinks.at( i ); else setOfOffsets = setOfOffsets.intersect( allWordsLinks.at( i ) ); } if( setOfOffsets.isEmpty() ) return; allWordsLinks.clear(); QVector< uint32_t > offsets; offsets.resize( setOfOffsets.size() ); uint32_t * ptr = &offsets.front(); for( QSet< uint32_t >::ConstIterator it = setOfOffsets.constBegin(); it != setOfOffsets.constEnd(); ++it ) { *ptr = *it; ptr++; } setOfOffsets.clear(); dict.sortArticlesOffsetsForFTS( offsets, isCancelled ); checkArticles( offsets, searchWords, regexp ); } void FTSResultsRequest::fullIndexSearch( BtreeIndexing::BtreeIndex & ftsIndex, sptr< ChunkedStorage::Reader > chunks, QStringList & indexWords, QStringList & searchWords, QRegExp & regexp ) { QSet< uint32_t > setOfOffsets; uint32_t size; QVector< BtreeIndexing::WordArticleLink > links; if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; if( indexWords.isEmpty() ) return; links.reserve( wordsInIndex ); ftsIndex.findArticleLinks( &links, 0, 0, &isCancelled ); QVector< QSet< uint32_t > > allWordsLinks; allWordsLinks.resize( indexWords.size() ); for( int x = 0; x < links.size(); x++ ) { if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; QString word = QString::fromUtf8( links[ x ].word.data(), links[ x ].word.size() ); if( ignoreDiacritics ) word = gd::toQString( Folding::applyDiacriticsOnly( gd::toWString( word ) ) ); for( int i = 0; i < indexWords.size(); i++ ) { if( word.length() >= indexWords.at( i ).length() && word.contains( indexWords.at( i ) ) ) { vector< char > chunk; char * linksPtr; { Mutex::Lock _( dict.getFtsMutex() ); linksPtr = chunks->getBlock( links[ x ].articleOffset, chunk ); } memcpy( &size, linksPtr, sizeof(uint32_t) ); linksPtr += sizeof(uint32_t); for( uint32_t y = 0; y < size; y++ ) { allWordsLinks[ i ].insert( *( reinterpret_cast< uint32_t * >( linksPtr ) ) ); linksPtr += sizeof(uint32_t); } if( searchMode == FTS::PlainText ) break; } } } links.clear(); for( int i = 0; i < allWordsLinks.size(); i++ ) { if( i == 0 ) setOfOffsets = allWordsLinks.at( i ); else setOfOffsets = setOfOffsets.intersect( allWordsLinks.at( i ) ); } if( setOfOffsets.isEmpty() ) return; allWordsLinks.clear(); QVector< uint32_t > offsets; offsets.resize( setOfOffsets.size() ); uint32_t * ptr = &offsets.front(); for( QSet< uint32_t >::ConstIterator it = setOfOffsets.constBegin(); it != setOfOffsets.constEnd(); ++it ) { *ptr = *it; ptr++; } setOfOffsets.clear(); dict.sortArticlesOffsetsForFTS( offsets, isCancelled ); checkArticles( offsets, searchWords, regexp ); } void FTSResultsRequest::fullSearch( QStringList & searchWords, QRegExp & regexp ) { // Whole file survey if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; QSet< uint32_t > setOfOffsets; setOfOffsets.reserve( dict.getArticleCount() ); dict.findArticleLinks( 0, &setOfOffsets, 0, &isCancelled ); if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; QVector< uint32_t > offsets; offsets.resize( setOfOffsets.size() ); uint32_t * ptr = &offsets.front(); for( QSet< uint32_t >::ConstIterator it = setOfOffsets.constBegin(); it != setOfOffsets.constEnd(); ++it ) { *ptr = *it; ptr++; } if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; setOfOffsets.clear(); dict.sortArticlesOffsetsForFTS( offsets, isCancelled ); if( Utils::AtomicInt::loadAcquire( isCancelled ) ) return; checkArticles( offsets, searchWords, regexp ); } void FTSResultsRequest::run() { if ( dict.ensureInitDone().size() ) { setErrorString( QString::fromUtf8( dict.ensureInitDone().c_str() ) ); finish(); return; } try { QStringList indexWords, searchWords; QRegExp searchRegExp; if( !FtsHelpers::parseSearchString( searchString, indexWords, searchWords, searchRegExp, searchMode, matchCase, distanceBetweenWords, hasCJK ) ) { finish(); return; } if( dict.haveFTSIndex() && !indexWords.isEmpty() ) { FtsIdxHeader ftsIdxHeader; BtreeIndexing::BtreeIndex ftsIndex; sptr< ChunkedStorage::Reader > chunks; File::Class ftsIdx( dict.ftsIndexName(), "rb" ); { Mutex::Lock _( dict.getFtsMutex() ); ftsIdxHeader = ftsIdx.read< FtsIdxHeader >(); wordsInIndex = ftsIdxHeader.wordCount; ftsIndex.openIndex( BtreeIndexing::IndexInfo( ftsIdxHeader.indexBtreeMaxElements, ftsIdxHeader.indexRootOffset ), ftsIdx, dict.getFtsMutex() ); chunks = new ChunkedStorage::Reader( ftsIdx, ftsIdxHeader.chunksOffset ); } if( hasCJK ) combinedIndexSearch( ftsIndex, chunks, indexWords, searchWords, searchRegExp ); else { if( searchMode == FTS::WholeWords ) indexSearch( ftsIndex, chunks, indexWords, searchWords ); else fullIndexSearch( ftsIndex, chunks, indexWords, searchWords, searchRegExp ); } } else { fullSearch( searchWords, searchRegExp ); } if( foundHeadwords && foundHeadwords->size() > 0 ) { Mutex::Lock _( dataMutex ); data.resize( sizeof( foundHeadwords ) ); memcpy( &data.front(), &foundHeadwords, sizeof( foundHeadwords ) ); foundHeadwords = 0; hasAnyData = true; } } catch( std::exception &ex ) { gdWarning( "FTS: Failed full-text search for \"%s\", reason: %s\n", dict.getName().c_str(), ex.what() ); // Results not loaded -- we don't set the hasAnyData flag then } finish(); } } // namespace