/* This file is (c) 2008-2012 Konstantin Isakov * Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */ #ifndef __BTREEIDX_HH_INCLUDED__ #define __BTREEIDX_HH_INCLUDED__ #include "dictionary.hh" #include "file.hh" #include #include #include #include #include #include #include "cpp_features.hh" #if defined( _MSC_VER ) && _MSC_VER < 1800 // VS2012 and older #include #else #include #endif /// A base for the dictionary which creates a btree index to look up /// the words. namespace BtreeIndexing { using std::string; using gd::wstring; using std::vector; using std::map; enum { /// This is to be bumped up each time the internal format changes. /// The value isn't used here by itself, it is supposed to be added /// to each dictionary's internal format version. FormatVersion = 4 }; // These exceptions which might be thrown during the index traversal DEF_EX( exIndexWasNotOpened, "The index wasn't opened", Dictionary::Ex ) DEF_EX( exFailedToDecompressNode, "Failed to decompress a btree's node", Dictionary::Ex ) DEF_EX( exCorruptedChainData, "Corrupted chain data in the leaf of a btree encountered", Dictionary::Ex ) /// This structure describes a word linked to its translation. The /// translation is represented as an abstract 32-bit offset. struct WordArticleLink { string word, prefix; // in utf8 uint32_t articleOffset; WordArticleLink() {} WordArticleLink( string const & word_, uint32_t articleOffset_, string const & prefix_ = string() ): word( word_ ), prefix( prefix_ ), articleOffset( articleOffset_ ) {} }; /// Information needed to open the index struct IndexInfo { uint32_t btreeMaxElements, rootOffset; IndexInfo( uint32_t btreeMaxElements_, uint32_t rootOffset_ ): btreeMaxElements( btreeMaxElements_ ), rootOffset( rootOffset_ ) {} }; /// Base btree indexing class which allows using what buildIndex() function /// created. It's quite low-lovel and is basically a set of 'building blocks' /// functions. class BtreeIndex { public: BtreeIndex(); /// Opens the index. The file reference is saved to be used for /// subsequent lookups. /// The mutex is the one to be locked when working with the file. void openIndex( IndexInfo const &, File::Class &, Mutex & ); /// Finds articles that match the given string. A case-insensitive search /// is performed. vector< WordArticleLink > findArticles( wstring const &, bool ignoreDiacritics = false ); /// Find all unique article links in the index void findAllArticleLinks( QVector< WordArticleLink > & articleLinks ); /// Retrieve all unique headwords from index void getAllHeadwords( QSet< QString > & headwords ); /// Find all article links and/or headwords in the index void findArticleLinks( QVector< WordArticleLink > * articleLinks, QSet< uint32_t > * offsets, QSet< QString > * headwords, QAtomicInt * isCancelled = 0 ); /// Retrieve headwords for presented article addresses void getHeadwordsFromOffsets( QList< uint32_t > & offsets, QVector< QString > & headwords, QAtomicInt * isCancelled = 0 ); protected: /// Finds the offset in the btree leaf for the given word, either matching /// by an exact match, or by finding the smallest entry that might match /// by prefix. It can return zero if there isn't even a possible prefx /// match. The input string must already be folded. The exactMatch is set /// to true when an exact match is located, and to false otherwise. /// The located leaf is loaded to 'leaf', and the pointer to the next /// leaf is saved to 'nextLeaf'. /// However, due to root node being permanently cached, the 'leaf' passed /// might not get used at all if the root node was the terminal one. In that /// case, the returned pointer wouldn't belong to 'leaf' at all. To that end, /// the leafEnd pointer always holds the pointer to the first byte outside /// the node data. char const * findChainOffsetExactOrPrefix( wstring const & target, bool & exactMatch, vector< char > & leaf, uint32_t & nextLeaf, char const * & leafEnd ); /// Reads a node or leaf at the given offset. Just uncompresses its data /// to the given vector and does nothing more. void readNode( uint32_t offset, vector< char > & out ); /// Reads the word-article links' chain at the given offset. The pointer /// is updated to point to the next chain, if there's any. vector< WordArticleLink > readChain( char const * & ); /// Drops any aliases which arose due to folding. Only case-folded aliases /// are left. void antialias( wstring const &, vector< WordArticleLink > &, bool ignoreDiactitics ); protected: Mutex * idxFileMutex; File::Class * idxFile; private: uint32_t indexNodeSize; uint32_t rootOffset; bool rootNodeLoaded; vector< char > rootNode; // We load root note here and keep it at all times, // since all searches always start with it. }; /// A base for the dictionary that utilizes a btree index build using /// buildIndex() function declared below. class BtreeDictionary: public Dictionary::Class, public BtreeIndex { public: BtreeDictionary( string const & id, vector< string > const & dictionaryFiles ); /// Btree-indexed dictionaries are usually a good source for compound searches. virtual Dictionary::Features getFeatures() const throw() { return Dictionary::SuitableForCompoundSearching; } /// This function does the search using the btree index. Derivatives usually /// need not to implement this function. virtual sptr< Dictionary::WordSearchRequest > prefixMatch( wstring const &, unsigned long ) THROW_SPEC( std::exception ); virtual sptr< Dictionary::WordSearchRequest > stemmedMatch( wstring const &, unsigned minLength, unsigned maxSuffixVariation, unsigned long maxResults ) THROW_SPEC( std::exception ); virtual bool isLocalDictionary() { return true; } virtual bool getHeadwords( QStringList &headwords ); virtual void getArticleText( uint32_t articleAddress, QString & headword, QString & text ); string const & ftsIndexName() const { return ftsIdxName; } Mutex & getFtsMutex() { return ftsIdxMutex; } virtual uint32_t getFtsIndexVersion() { return 0; } // Sort articles offsets for full-text search in dictionary-specific order // to increase of articles retrieving speed // Default - simple sorting in increase order virtual void sortArticlesOffsetsForFTS( QVector< uint32_t > & offsets, QAtomicInt & isCancelled ) { Q_UNUSED( isCancelled ); qSort( offsets ); } /// Called before each matching operation to ensure that any child init /// has completed. Mainly used for deferred init. The default implementation /// does nothing. /// The function returns an empty string if the initialization is or was /// successful, or a human-readable error string otherwise. virtual string const & ensureInitDone(); protected: Mutex ftsIdxMutex; string ftsIdxName; friend class BtreeWordSearchRequest; friend class FTSResultsRequest; }; class BtreeWordSearchRequest: public Dictionary::WordSearchRequest { friend class BtreeWordSearchRunnable; protected: BtreeDictionary & dict; wstring str; unsigned long maxResults; unsigned minLength; int maxSuffixVariation; bool allowMiddleMatches; QAtomicInt isCancelled; QSemaphore hasExited; public: BtreeWordSearchRequest( BtreeDictionary & dict_, wstring const & str_, unsigned minLength_, int maxSuffixVariation_, bool allowMiddleMatches_, unsigned long maxResults_, bool startRunnable = true ); virtual void findMatches(); void run(); // Run from another thread by BtreeWordSearchRunnable virtual void cancel() { isCancelled.ref(); } ~BtreeWordSearchRequest(); }; // Everything below is for building the index data. /// This represents the index in its source form, as a map which binds folded /// words to sequences of their unfolded source forms and the corresponding /// article offsets. The words are utf8-encoded -- it doesn't break Unicode /// sorting, but conserves space. struct IndexedWords: public map< string, vector< WordArticleLink > > { /// Instead of adding to the map directly, use this function. It does folding /// itself, and for phrases/sentences it adds additional entries beginning with /// each new word. void addWord( wstring const & word, uint32_t articleOffset, unsigned int maxHeadwordSize = 256U ); /// Differs from addWord() in that it only adds a single entry. We use this /// for zip's file names. void addSingleWord( wstring const & word, uint32_t articleOffset ); }; /// Builds the index, as a compressed btree. Returns IndexInfo. /// All the data is stored to the given file, beginning from its current /// position. IndexInfo buildIndex( IndexedWords const &, File::Class & file ); } #endif