// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef CHROME_BROWSER_HISTORY_QUERY_PARSER_H_ #define CHROME_BROWSER_HISTORY_QUERY_PARSER_H_ #include #include "base/basictypes.h" #include "base/string16.h" #include "chrome/browser/history/snippet.h" class QueryNodeList; // Used by HasMatchIn. struct QueryWord { // The work to match against. string16 word; // The starting position of the word in the original text. size_t position; }; // QueryNode is used by QueryParser to represent the elements that constitute a // query. While QueryNode is exposed by way of ParseQuery, it really isn't meant // for external usage. class QueryNode { public: virtual ~QueryNode() {} // Serialize ourselves out to a string that can be passed to SQLite. Returns // the number of words in this node. virtual int AppendToSQLiteQuery(string16* query) const = 0; // Return true if this is a QueryNodeWord, false if it's a QueryNodeList. virtual bool IsWord() const = 0; // Returns true if this node matches |word|. If |exact| is true, the string // must exactly match. Otherwise, this uses a starts with comparison. virtual bool Matches(const string16& word, bool exact) const = 0; // Returns true if this node matches at least one of the words in |words|. An // entry is added to |match_positions| for all matching words giving the // matching regions. virtual bool HasMatchIn(const std::vector& words, Snippet::MatchPositions* match_positions) const = 0; // Appends the words that make up this node in |words|. virtual void AppendWords(std::vector* words) const = 0; }; // This class is used to parse queries entered into the history search into more // normalized queries that can be passed to the SQLite backend. class QueryParser { public: QueryParser(); // For CJK ideographs and Korean Hangul, even a single character // can be useful in prefix matching, but that may give us too many // false positives. Moreover, the current ICU word breaker gives us // back every single Chinese character as a word so that there's no // point doing anything for them and we only adjust the minimum length // to 2 for Korean Hangul while using 3 for others. This is a temporary // hack until we have a segmentation support. static bool IsWordLongEnoughForPrefixSearch(const string16& word); // Parse a query into a SQLite query. The resulting query is placed in // |sqlite_query| and the number of words is returned. int ParseQuery(const string16& query, string16* sqlite_query); // Parses |query|, returning the words that make up it. Any words in quotes // are put in |words| without the quotes. For example, the query text // "foo bar" results in two entries being added to words, one for foo and one // for bar. void ParseQueryWords(const string16& query, std::vector* words); // Parses |query|, returning the nodes that constitute the valid words in the // query. This is intended for later usage with DoesQueryMatch. Ownership of // the nodes passes to the caller. void ParseQueryNodes(const string16& query, std::vector* nodes); // Returns true if the string text matches the query nodes created by a call // to ParseQuery. If the query does match, each of the matching positions in // the text is added to |match_positions|. bool DoesQueryMatch(const string16& text, const std::vector& nodes, Snippet::MatchPositions* match_positions); private: // Does the work of parsing |query|; creates nodes in |root| as appropriate. // This is invoked from both of the ParseQuery methods. bool ParseQueryImpl(const string16& query, QueryNodeList* root); // Extracts the words from |text|, placing each word into |words|. void ExtractQueryWords(const string16& text, std::vector* words); DISALLOW_COPY_AND_ASSIGN(QueryParser); }; #endif // CHROME_BROWSER_HISTORY_QUERY_PARSER_H_