/* phonetic.c - generic replacement aglogithms for phonetic transformation Copyright (C) 2000 Bjoern Jacke This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License version 2.1 as published by the Free Software Foundation; This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; If not, see . Changelog: 2000-01-05 Bjoern Jacke Initial Release insprired by the article about phonetic transformations out of c't 25/1999 2007-07-26 Bjoern Jacke Released under MPL/GPL/LGPL tri-license for Hunspell 2007-08-23 Laszlo Nemeth Porting from Aspell to Hunspell using C-like structs */ #include #include #include #include #include "csutil.hxx" #include "phonet.hxx" void init_phonet_hash(phonetable& parms) { for (int i = 0; i < HASHSIZE; i++) { parms.hash[i] = -1; } for (int i = 0; parms.rules[i][0] != '\0'; i += 2) { /** set hash value **/ int k = (unsigned char)parms.rules[i][0]; if (parms.hash[k] < 0) { parms.hash[k] = i; } } } // like strcpy but safe if the strings overlap // but only if dest < src static inline void strmove(char* dest, char* src) { while (*src) *dest++ = *src++; *dest = '\0'; } static int myisalpha(char ch) { if ((unsigned char)ch < 128) return isalpha(ch); return 1; } /* Do phonetic transformation. */ /* phonetic transcription algorithm */ /* see: http://aspell.net/man-html/Phonetic-Code.html */ /* convert string to uppercase before this call */ std::string phonet(const std::string& inword, phonetable& parms) { int i, k = 0, p, z; int k0, n0, p0 = -333; char c; typedef unsigned char uchar; size_t len = inword.size(); if (len > MAXPHONETUTF8LEN) return std::string(); char word[MAXPHONETUTF8LEN + 1]; strncpy(word, inword.c_str(), MAXPHONETUTF8LEN); word[MAXPHONETUTF8LEN] = '\0'; std::string target; /** check word **/ i = z = 0; while ((c = word[i]) != '\0') { int n = parms.hash[(uchar)c]; int z0 = 0; if (n >= 0 && !parms.rules[n].empty()) { /** check all rules for the same letter **/ while (parms.rules[n][0] == c) { /** check whole string **/ k = 1; /** number of found letters **/ p = 5; /** default priority **/ const char*s = parms.rules[n].c_str(); s++; /** important for (see below) "*(s-1)" **/ while (*s != '\0' && word[i + k] == *s && !isdigit((unsigned char)*s) && strchr("(-<^$", *s) == NULL) { k++; s++; } if (*s == '(') { /** check letters in "(..)" **/ if (myisalpha(word[i + k]) // ...could be implied? && strchr(s + 1, word[i + k]) != NULL) { k++; while (*s != ')') s++; s++; } } p0 = (int)*s; k0 = k; while (*s == '-' && k > 1) { k--; s++; } if (*s == '<') s++; if (isdigit((unsigned char)*s)) { /** determine priority **/ p = *s - '0'; s++; } if (*s == '^' && *(s + 1) == '^') s++; if (*s == '\0' || (*s == '^' && (i == 0 || !myisalpha(word[i - 1])) && (*(s + 1) != '$' || (!myisalpha(word[i + k0])))) || (*s == '$' && i > 0 && myisalpha(word[i - 1]) && (!myisalpha(word[i + k0])))) { /** search for followup rules, if: **/ /** parms.followup and k > 1 and NO '-' in searchstring **/ char c0 = word[i + k - 1]; n0 = parms.hash[(uchar)c0]; // if (parms.followup && k > 1 && n0 >= 0 if (k > 1 && n0 >= 0 && p0 != (int)'-' && word[i + k] != '\0' && !parms.rules[n0].empty()) { /** test follow-up rule for "word[i+k]" **/ while (parms.rules[n0][0] == c0) { /** check whole string **/ k0 = k; p0 = 5; s = parms.rules[n0].c_str(); s++; while (*s != '\0' && word[i + k0] == *s && !isdigit((unsigned char)*s) && strchr("(-<^$", *s) == NULL) { k0++; s++; } if (*s == '(') { /** check letters **/ if (myisalpha(word[i + k0]) && strchr(s + 1, word[i + k0]) != NULL) { k0++; while (*s != ')' && *s != '\0') s++; if (*s == ')') s++; } } while (*s == '-') { /** "k0" gets NOT reduced **/ /** because "if (k0 == k)" **/ s++; } if (*s == '<') s++; if (isdigit((unsigned char)*s)) { p0 = *s - '0'; s++; } if (*s == '\0' /** *s == '^' cuts **/ || (*s == '$' && !myisalpha(word[i + k0]))) { if (k0 == k) { /** this is just a piece of the string **/ n0 += 2; continue; } if (p0 < p) { /** priority too low **/ n0 += 2; continue; } /** rule fits; stop search **/ break; } n0 += 2; } /** End of "while (parms.rules[n0][0] == c0)" **/ if (p0 >= p && parms.rules[n0][0] == c0) { n += 2; continue; } } /** end of follow-up stuff **/ /** replace string **/ s = parms.rules[n + 1].c_str(); p0 = (!parms.rules[n].empty() && strchr(parms.rules[n].c_str() + 1, '<') != NULL) ? 1 : 0; if (p0 == 1 && z == 0) { /** rule with '<' is used **/ if (!target.empty() && *s != '\0' && (target[target.size()-1] == c || target[target.size()-1] == *s)) { target.erase(target.size() - 1); } z0 = 1; z = 1; k0 = 0; while (*s != '\0' && word[i + k0] != '\0') { word[i + k0] = *s; k0++; s++; } if (k > k0) strmove(&word[0] + i + k0, &word[0] + i + k); /** new "actual letter" **/ c = word[i]; } else { /** no '<' rule used **/ i += k - 1; z = 0; while (*s != '\0' && *(s + 1) != '\0' && target.size() < len) { if (target.empty() || target[target.size()-1] != *s) { target.push_back(*s); } s++; } /** new "actual letter" **/ c = *s; if (!parms.rules[n].empty() && strstr(parms.rules[n].c_str() + 1, "^^") != NULL) { if (c != '\0') { target.push_back(c); } strmove(&word[0], &word[0] + i + 1); i = 0; z0 = 1; } } break; } /** end of follow-up stuff **/ n += 2; } /** end of while (parms.rules[n][0] == c) **/ } /** end of if (n >= 0) **/ if (z0 == 0) { if (k && !p0 && target.size() < len && c != '\0') { /** condense only double letters **/ target.push_back(c); /// printf("\n setting \n"); } i++; z = 0; k = 0; } } /** end of while ((c = word[i]) != '\0') **/ return target; } /** end of function "phonet" **/