/* This file is (c) 2008-2010 Konstantin Isakov * Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */ #ifndef __WORDFINDER_HH_INCLUDED__ #define __WORDFINDER_HH_INCLUDED__ #include #include #include #include #include #include #include #include "dictionary.hh" /// This component takes care of finding words. The search is asyncronous. /// This means the GUI doesn't get blocked during the sometimes lenghtly /// process of finding words. class WordFinder: public QObject { Q_OBJECT public: typedef std::vector< std::pair< QString, bool > > SearchResults; // bool is a "was suggested" flag private: SearchResults searchResults; QString searchErrorString; std::list< sptr< Dictionary::WordSearchRequest > > queuedRequests, finishedRequests; bool searchInProgress; QTimer updateResultsTimer; // Saved search params bool searchQueued; QString inputWord; enum SearchType { PrefixMatch, StemmedMatch } searchType; unsigned long requestedMaxResults; Dictionary::Features requestedFeatures; unsigned stemmedMinLength; unsigned stemmedMaxSuffixVariation; std::vector< sptr< Dictionary::Class > > const * inputDicts; std::vector< gd::wstring > allWordWritings; // All writings of the inputWord struct OneResult { gd::wstring word; int rank; bool wasSuggested; }; // Maps lowercased string to the original one. This catches all duplicates // without case sensitivity. Made as an array and a map indexing that array. typedef std::list< OneResult > ResultsArray; typedef std::map< gd::wstring, ResultsArray::iterator > ResultsIndex; ResultsArray resultsArray; ResultsIndex resultsIndex; public: WordFinder( QObject * parent ); ~WordFinder(); /// Do the standard prefix-match search in the given list of dictionaries. /// Some dictionaries might only support exact matches -- for them, only /// the exact matches would be found. All search results are put into a single /// list containing the exact matches first, then the prefix ones. Duplicate /// matches from different dictionaries are merged together. /// If a list of features is specified, the search will only be performed in /// the dictionaries which possess all the features requested. /// If there already was a prefixMatch operation underway, it gets cancelled /// and the new one replaces it. void prefixMatch( QString const &, std::vector< sptr< Dictionary::Class > > const &, unsigned long maxResults = 40, Dictionary::Features = Dictionary::NoFeatures ); /// Do a stemmed-match search in the given list of dictionaries. All comments /// from prefixMatch() generally apply as well. void stemmedMatch( QString const &, std::vector< sptr< Dictionary::Class > > const &, unsigned minLength = 3, unsigned maxSuffixVariation = 3, unsigned long maxResults = 30, Dictionary::Features = Dictionary::NoFeatures ); /// Returns the vector containing search results from the last operation. /// If it didn't finish yet, the result is not final and may be changing /// over time. SearchResults const & getResults() const { return searchResults; } /// Returns a human-readable error string for the last finished request. Empty /// string means it finished without any error. QString const & getErrorString() { return searchErrorString; } /// Cancels any pending search operation, if any. void cancel(); /// Cancels any pending search operation, if any, and makes sure no pending /// requests exist, and hence no dictionaries are used anymore. Unlike /// cancel(), this may take some time to finish. void clear(); signals: /// Indicates that the search has got some more results, and continues /// searching. void updated(); /// Indicates that the search has finished. void finished(); private slots: /// Called each time one of the requests gets finished void requestFinished(); /// Called by updateResultsTimer to update searchResults and signal updated() void updateResults(); private: // Starts the previously queued search. void startSearch(); // Cancels all searches. Useful to do before destroying them all, since they // would cancel in parallel. void cancelSearches(); /// Compares results based on their ranks struct SortByRank { bool operator () ( OneResult const & first, OneResult const & second ) { if ( first.rank < second.rank ) return true; if ( first.rank > second.rank ) return false; // Do any sort of collation here in the future. For now we just put the // strings sorted lexicographically. return first.word < second.word; } }; /// Compares results based on their ranks and lengths struct SortByRankAndLength { bool operator () ( OneResult const & first, OneResult const & second ) { if ( first.rank < second.rank ) return true; if ( first.rank > second.rank ) return false; if ( first.word.size() < second.word.size() ) return true; if ( first.word.size() > second.word.size() ) return false; // Do any sort of collation here in the future. For now we just put the // strings sorted lexicographically. return first.word < second.word; } }; }; #endif