/***************************************************************************** * Eliot * Copyright (C) 1999-2012 Antoine Fraboulet & Olivier Teulière * Authors: Antoine Fraboulet * Olivier Teulière * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA *****************************************************************************/ #ifndef REGEXP_H_ #define REGEXP_H_ #include #include #include #define NODE_TOP 0 #define NODE_VAR 1 #define NODE_OR 2 #define NODE_AND 3 #define NODE_STAR 4 #define NODE_PLUS 5 using std::string; using std::vector; class Node { public: /** * Create a node for the syntactic tree used for * parsing regular expressions */ Node(int type, char v, Node *fg, Node *fd); /** * Delete regexp syntactic tree */ ~Node(); /** * Computes positions, first positions (PP), last position (DP), * and annulable attribute * * @param p : max position found in the tree (must be initialized to 1) * @param n : number of nodes in the tree (must be initialized to 1) * @param ptl : position to letter translation table */ void traverse(int &p, int &n, int ptl[]); /** * Computes 'next position' table used for building the * automaton * @param r : root node of the syntactic tree * @param PS : next position table, PS[0] must contain the * number of terminals contained in the regular expression */ void nextPos(uint64_t PS[]); /// Return the first position int getFirstPos() const { return m_PP; } #ifdef DEBUG_RE /** * Print the tree rooted at the current node to a file suitable * for dot (Graphviz) */ void printTreeDot(const string &iFileName, int detail) const; #endif private: int m_type; char m_var; Node *m_fg; Node *m_fd; int m_number; int m_position; bool m_annulable; uint64_t m_PP; uint64_t m_DP; #ifdef DEBUG_RE /// Print the current node to file void printNode(ostream &out, int detail) const; /// Print recursively the current node and its subnodes to file void printNodesRec(ostream &out, int detail) const; /// Print recursively the edges of the tree rooted at the current node void printEdgesRec(ostream &out) const; #endif }; /** * different letters in the dictionary */ #define DIC_LETTERS 63 /** * maximum number of accepted terminals in regular expressions */ #define REGEXP_MAX 32 /** * special terminals that should not appear in the dictionary */ #define RE_EPSILON (DIC_LETTERS + 0) #define RE_FINAL_TOK (DIC_LETTERS + 1) #define RE_ALL_MATCH (DIC_LETTERS + 2) #define RE_VOWL_MATCH (DIC_LETTERS + 3) #define RE_CONS_MATCH (DIC_LETTERS + 4) #define RE_USR1_MATCH (DIC_LETTERS + 5) #define RE_USR2_MATCH (DIC_LETTERS + 6) /** * Structure used for dic.searchRegExp * This structure is used to explicit letters list that will be matched * against special tokens in the regular expression search */ struct searchRegExpLists { /** special symbol associated with the list */ vector symbl; /** * 0 or 1 if letter is present in the list. * The inner vector should have a length of DIC_LETTERS+1 (it is a bitmask) */ vector > letters; }; #define RE_LIST_ALL_MATCH 0 #define RE_LIST_VOYL_MATCH 1 #define RE_LIST_CONS_MATCH 2 #define RE_LIST_USER_BEGIN 3 #define RE_LIST_USER_END 4 string regexpPrintLetter(char l); void regexp_print_PS(int PS[]); void regexp_print_ptl(int ptl[]); #endif /* _REGEXP_H_ */