eliot/dic/dic_search.cpp

473 lines
14 KiB
C++

/*****************************************************************************
* Eliot
* Copyright (C) 2002-2009 Antoine Fraboulet & Olivier Teulière
* Authors: Antoine Fraboulet <antoine.fraboulet @@ free.fr>
* Olivier Teulière <ipkiss @@ gmail.com>
*
* 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
*****************************************************************************/
#include <cstdlib>
#include <cstring>
#include <cwchar>
#include <cwctype>
#include <algorithm>
#include "dic_internals.h"
#include "dic_exception.h"
#include "dic.h"
#include "header.h"
#include "encoding.h"
#include "regexp.h"
#include "automaton.h"
#include "grammar.h"
static const unsigned int DEFAULT_VECT_ALLOC = 100;
const DicEdge* Dictionary::seekEdgePtr(const wchar_t* s, const DicEdge *eptr) const
{
if (*s)
{
const DicEdge *p = getEdgeAt(eptr->ptr);
do
{
if (p->chr == getHeader().getCodeFromChar(*s))
return seekEdgePtr(s + 1, p);
} while (!(*p++).last);
return getEdgeAt(0);
}
else
return eptr;
}
bool Dictionary::searchWord(const wstring &iWord) const
{
if (!validateLetters(iWord))
return false;
const DicEdge *e = seekEdgePtr(iWord.c_str(), getEdgeAt(getRoot()));
return e->term;
}
/**
* Global variables for searchWordByLen:
*
* A pointer to the structure is passed as a parameter
* so that all the search_* variables appear to the functions
* as global but the code remains re-entrant.
* Should be better to change the algorithm ...
*/
struct params_7plus1_t
{
unsigned int added_code;
wdstring added_display;
map<unsigned int, vector<wdstring> > *results;
int search_len;
wchar_t search_wordtst[DIC_WORD_MAX];
char search_letters[63];
};
void Dictionary::searchWordByLen(struct params_7plus1_t &params,
int i, const DicEdge *edgeptr) const
{
/* depth first search in the dictionary */
do
{
/* the test is false only when reach the end-node */
if (edgeptr->chr)
{
/* is the letter available in search_letters */
if (params.search_letters[edgeptr->chr])
{
params.search_wordtst[i] = getHeader().getCharFromCode(edgeptr->chr);
params.search_letters[edgeptr->chr] --;
if (i == params.search_len)
{
if (edgeptr->term)
{
// Add the solution
vector<wdstring> &sols = (*params.results)[params.added_code];
if (sols.empty() || sols.back() != params.search_wordtst)
sols.push_back(convertToDisplay(params.search_wordtst));
}
}
else
{
searchWordByLen(params, i + 1, getEdgeAt(edgeptr->ptr));
}
params.search_letters[edgeptr->chr] ++;
params.search_wordtst[i] = L'\0';
}
/* the letter is of course available if we have a joker available */
if (params.search_letters[0])
{
params.search_wordtst[i] = getHeader().getCharFromCode(edgeptr->chr);
params.search_letters[0] --;
if (i == params.search_len)
{
if (edgeptr->term)
{
// Add the solution
vector<wdstring> &sols = (*params.results)[params.added_code];
if (sols.empty() || sols.back() != params.search_wordtst)
sols.push_back(convertToDisplay(params.search_wordtst));
}
}
else
{
searchWordByLen(params, i + 1, getEdgeAt(edgeptr->ptr));
}
params.search_letters[0] ++;
params.search_wordtst[i] = L'\0';
}
}
} while (! (*edgeptr++).last);
}
void Dictionary::search7pl1(const wstring &iRack,
map<unsigned int, vector<wdstring> > &oWordList,
bool joker) const
{
if (iRack == L"" || iRack.size() > DIC_WORD_MAX)
return;
struct params_7plus1_t params;
for (unsigned int i = 0; i < sizeof(params.search_letters); i++)
params.search_letters[i] = 0;
/*
* the letters are verified and changed to the dic internal
* representation (using getCodeFromChar(*r))
*/
int wordlen = 0;
for (const wchar_t* r = iRack.c_str(); *r; r++)
{
if (iswalpha(*r))
{
params.search_letters[getHeader().getCodeFromChar(*r)]++;
wordlen++;
}
else if (*r == L'?')
{
if (joker)
{
params.search_letters[0]++;
wordlen++;
}
else
{
oWordList[0].push_back(L"** joker **");
return;
}
}
}
if (wordlen < 1)
return;
const DicEdge *root_edge = getEdgeAt(getRoot());
root_edge = getEdgeAt(root_edge->ptr);
params.results = &oWordList;
/* search for all the words that can be done with the letters */
params.added_code = 0;
params.added_display = L"";
params.search_len = wordlen - 1;
params.search_wordtst[wordlen] = L'\0';
searchWordByLen(params, 0, root_edge);
/* search for all the words that can be done with the letters +1 */
params.search_len = wordlen;
params.search_wordtst[wordlen + 1] = L'\0';
const wstring &letters = getHeader().getLetters();
for (unsigned int i = 0; i < letters.size(); i++)
{
unsigned int code = getHeader().getCodeFromChar(letters[i]);
params.added_code = code;
params.added_display = getHeader().getDisplayStr(code);
params.search_letters[code]++;
searchWordByLen(params, 0, root_edge);
params.search_letters[code]--;
}
}
/****************************************/
/****************************************/
void Dictionary::searchRacc(const wstring &iWord,
vector<wdstring> &oWordList,
unsigned int iMaxResults) const
{
if (iWord == L"")
return;
// Allocate room for all the results
if (iMaxResults)
oWordList.reserve(iMaxResults);
else
oWordList.reserve(DEFAULT_VECT_ALLOC);
// Transform the given word to make it suitable for display
wdstring displayWord = convertToDisplay(iWord);
// Make it uppercase
std::transform(displayWord.begin(), displayWord.end(),
displayWord.begin(), towupper);
// Try to add a letter at the front
const wstring &letters = getHeader().getLetters();
for (unsigned int i = 0; i <= letters.size(); i++)
{
if (searchWord(letters[i] + iWord))
{
const wdstring &chr = getHeader().getDisplayStr(getHeader().getCodeFromChar(letters[i]));
oWordList.push_back(chr + displayWord);
}
if (iMaxResults && oWordList.size() >= iMaxResults)
return;
}
// Try to add a letter at the end
const DicEdge *edge_seek =
seekEdgePtr(iWord.c_str(), getEdgeAt(getRoot()));
// Point to what the next letter can be
const DicEdge *edge = getEdgeAt(edge_seek->ptr);
if (edge != getEdgeAt(0))
{
do
{
if (edge->term)
{
oWordList.push_back(displayWord + getHeader().getDisplayStr(edge->chr));
if (iMaxResults && oWordList.size() >= iMaxResults)
return;
}
} while (!(*edge++).last);
}
}
/****************************************/
/****************************************/
void Dictionary::searchBenj(const wstring &iWord, vector<wdstring> &oWordList,
unsigned int iMaxResults) const
{
if (iWord == L"")
return;
// Allocate room for all the results
if (iMaxResults)
oWordList.reserve(iMaxResults);
else
oWordList.reserve(DEFAULT_VECT_ALLOC);
// Transform the given word to make it suitable for display
wdstring displayWord = convertToDisplay(iWord);
// Make it uppercase
std::transform(displayWord.begin(), displayWord.end(),
displayWord.begin(), towupper);
const DicEdge *edge0, *edge1, *edge2, *edgetst;
edge0 = getEdgeAt(getRoot());
edge0 = getEdgeAt(edge0->ptr);
do
{
const wdstring &chr0 = getHeader().getDisplayStr(edge0->chr);
edge1 = getEdgeAt(edge0->ptr);
do
{
const wdstring &chr1 = getHeader().getDisplayStr(edge1->chr);
edge2 = getEdgeAt(edge1->ptr);
do
{
edgetst = seekEdgePtr(iWord.c_str(), edge2);
if (edgetst->term)
{
const wdstring &chr2 = getHeader().getDisplayStr(edge2->chr);
oWordList.push_back(chr0 + chr1 + chr2 + displayWord);
if (iMaxResults && oWordList.size() >= iMaxResults)
return;
}
} while (!(*edge2++).last);
} while (!(*edge1++).last);
} while (!(*edge0++).last);
}
/****************************************/
/****************************************/
struct params_regexp_t
{
unsigned int minlength;
unsigned int maxlength;
Automaton *automaton_field;
};
void Dictionary::searchRegexpRec(const struct params_regexp_t &params,
int state,
const DicEdge *edgeptr,
vector<wdstring> &oWordList,
unsigned int iMaxResults,
const wdstring &iCurrWord,
unsigned int iNbChars) const
{
if (iMaxResults && oWordList.size() >= iMaxResults)
return;
int next_state;
/* if we have a valid word we store it */
if (params.automaton_field->accept(state) && edgeptr->term)
{
if (params.minlength <= iNbChars &&
params.maxlength >= iNbChars)
{
oWordList.push_back(iCurrWord);
}
}
/* we now drive the search by exploring the dictionary */
const DicEdge *current = getEdgeAt(edgeptr->ptr);
do
{
/* the current letter is current->chr */
next_state = params.automaton_field->getNextState(state, current->chr);
/* 1: the letter appears in the automaton as is */
if (next_state)
{
searchRegexpRec(params, next_state, current, oWordList, iMaxResults,
iCurrWord + getHeader().getDisplayStr(current->chr), iNbChars + 1);
}
} while (!(*current++).last);
}
/**
* Initialize the lists of letters with pre-defined lists
* 0: all tiles
* 1: vowels
* 2: consonants
* 3: user defined 1
* 4: user defined 2
* x: lists used during parsing
*/
static void initLetterLists(const Dictionary &iDic,
searchRegExpLists &iList)
{
memset(&iList, 0, sizeof(iList));
// Prepare the space for 5 items
iList.symbl.assign(5, 0);
iList.letters.assign(5, vector<bool>(DIC_LETTERS + 1, false));
iList.symbl[0] = RE_ALL_MATCH; // All letters
iList.symbl[1] = RE_VOWL_MATCH; // Vowels
iList.symbl[2] = RE_CONS_MATCH; // Consonants
iList.letters[0][0] = false;
iList.letters[1][0] = false;
iList.letters[2][0] = false;
const wstring &allLetters = iDic.getHeader().getLetters();
for (size_t i = 1; i <= allLetters.size(); ++i)
{
iList.letters[0][i] = true;
iList.letters[1][i] = iDic.getHeader().isVowel(i);
iList.letters[2][i] = iDic.getHeader().isConsonant(i);
}
iList.symbl[3] = RE_USR1_MATCH; // User defined list 1
iList.symbl[4] = RE_USR2_MATCH; // User defined list 2
}
bool Dictionary::searchRegExp(const wstring &iRegexp,
vector<wdstring> &oWordList,
unsigned int iMinLength,
unsigned int iMaxLength,
unsigned int iMaxResults) const
{
if (iRegexp == L"")
return true;
// Allocate room for all the results
// XXX: is it really a good idea?
if (iMaxResults)
oWordList.reserve(iMaxResults);
else
oWordList.reserve(DEFAULT_VECT_ALLOC);
// Parsing
Node *root = NULL;
searchRegExpLists llist;
// Initialize the lists of letters
initLetterLists(*this, llist);
bool parsingOk = parseRegexp(*this, (iRegexp + L"#").c_str(), &root, llist);
if (!parsingOk)
{
delete root;
throw InvalidRegexpException(lfw(iRegexp));
}
int ptl[REGEXP_MAX+1];
uint64_t PS[REGEXP_MAX+1];
for (int i = 0; i < REGEXP_MAX; i++)
{
PS[i] = 0;
ptl[i] = 0;
}
int n = 1;
int p = 1;
root->traverse(p, n, ptl);
PS [0] = p - 1;
ptl[0] = p - 1;
root->nextPos(PS);
Automaton *a = new Automaton(root->getFirstPos(), ptl, PS, llist);
if (a)
{
struct params_regexp_t params;
params.minlength = iMinLength;
params.maxlength = iMaxLength;
params.automaton_field = a;
searchRegexpRec(params, a->getInitId(),
getEdgeAt(getRoot()), oWordList,
iMaxResults ? iMaxResults + 1 : 0);
delete a;
}
delete root;
// Check whether the maximum number of results was reached
if (iMaxResults && oWordList.size() > iMaxResults)
{
oWordList.pop_back();
return false;
}
else
return true;
}