/* Copyright (C) 2010-2019 by The D Language Foundation, All Rights Reserved * http://www.digitalmars.com * Distributed under the Boost Software License, Version 1.0. * (See accompanying file LICENSE or copy at http://www.boost.org/LICENSE_1_0.txt) * https://github.com/D-Programming-Language/dmd/blob/master/src/root/speller.c */ #include "dsystem.h" #include "speller.h" const char idchars[] = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789_"; /************************************************** * combine a new result from the spell checker to * find the one with the closest symbol with * respect to the cost defined by the search function * Input/Output: * p best found spelling (NULL if none found yet) * cost cost of p (INT_MAX if none found yet) * Input: * np new found spelling (NULL if none found) * ncost cost of np if non-NULL * Returns: * true if the cost is less or equal 0 * false otherwise */ bool combineSpellerResult(void*& p, int& cost, void* np, int ncost) { if (np && ncost < cost) { p = np; cost = ncost; if (cost <= 0) return true; } return false; } void *spellerY(const char *seed, size_t seedlen, fp_speller_t fp, void *fparg, const char *charset, size_t index, int* cost) { if (!seedlen) return NULL; assert(seed[seedlen] == 0); char tmp[30]; char *buf; if (seedlen <= sizeof(tmp) - 2) buf = tmp; else { buf = (char *)alloca(seedlen + 2); // leave space for extra char if (!buf) return NULL; // no matches } memcpy(buf, seed, index); *cost = INT_MAX; void* p = NULL; int ncost; /* Delete at seed[index] */ if (index < seedlen) { memcpy(buf + index, seed + index + 1, seedlen - index); assert(buf[seedlen - 1] == 0); void* np = (*fp)(fparg, buf, &ncost); if (combineSpellerResult(p, *cost, np, ncost)) return p; } if (charset && *charset) { /* Substitutions */ if (index < seedlen) { memcpy(buf, seed, seedlen + 1); for (const char *s = charset; *s; s++) { buf[index] = *s; //printf("sub buf = '%s'\n", buf); void* np = (*fp)(fparg, buf, &ncost); if (combineSpellerResult(p, *cost, np, ncost)) return p; } assert(buf[seedlen] == 0); } /* Insertions */ memcpy (buf + index + 1, seed + index, seedlen + 1 - index); for (const char *s = charset; *s; s++) { buf[index] = *s; //printf("ins buf = '%s'\n", buf); void* np = (*fp)(fparg, buf, &ncost); if (combineSpellerResult(p, *cost, np, ncost)) return p; } assert(buf[seedlen + 1] == 0); } return p; // return "best" result } void *spellerX(const char *seed, size_t seedlen, fp_speller_t fp, void *fparg, const char *charset, int flag) { if (!seedlen) return NULL; char tmp[30]; char *buf; if (seedlen <= sizeof(tmp) - 2) buf = tmp; else { buf = (char *)alloca(seedlen + 2); // leave space for extra char if (!buf) return NULL; // no matches } int cost = INT_MAX, ncost; void *p = NULL, *np; /* Deletions */ memcpy(buf, seed + 1, seedlen); for (size_t i = 0; i < seedlen; i++) { //printf("del buf = '%s'\n", buf); if (flag) np = spellerY(buf, seedlen - 1, fp, fparg, charset, i, &ncost); else np = (*fp)(fparg, buf, &ncost); if (combineSpellerResult(p, cost, np, ncost)) return p; buf[i] = seed[i]; } /* Transpositions */ if (!flag) { memcpy(buf, seed, seedlen + 1); for (size_t i = 0; i + 1 < seedlen; i++) { // swap [i] and [i + 1] buf[i] = seed[i + 1]; buf[i + 1] = seed[i]; //printf("tra buf = '%s'\n", buf); if (combineSpellerResult(p, cost, (*fp)(fparg, buf, &ncost), ncost)) return p; buf[i] = seed[i]; } } if (charset && *charset) { /* Substitutions */ memcpy(buf, seed, seedlen + 1); for (size_t i = 0; i < seedlen; i++) { for (const char *s = charset; *s; s++) { buf[i] = *s; //printf("sub buf = '%s'\n", buf); if (flag) np = spellerY(buf, seedlen, fp, fparg, charset, i + 1, &ncost); else np = (*fp)(fparg, buf, &ncost); if (combineSpellerResult(p, cost, np, ncost)) return p; } buf[i] = seed[i]; } /* Insertions */ memcpy(buf + 1, seed, seedlen + 1); for (size_t i = 0; i <= seedlen; i++) // yes, do seedlen+1 iterations { for (const char *s = charset; *s; s++) { buf[i] = *s; //printf("ins buf = '%s'\n", buf); if (flag) np = spellerY(buf, seedlen + 1, fp, fparg, charset, i + 1, &ncost); else np = (*fp)(fparg, buf, &ncost); if (combineSpellerResult(p, cost, np, ncost)) return p; } buf[i] = seed[i]; // going past end of seed[] is ok, as we hit the 0 } } return p; // return "best" result } /************************************************** * Looks for correct spelling. * Currently only looks a 'distance' of one from the seed[]. * This does an exhaustive search, so can potentially be very slow. * Input: * seed wrongly spelled word * fp search function * fparg argument to search function * charset character set * Returns: * NULL no correct spellings found * void* value returned by fp() for first possible correct spelling */ void *speller(const char *seed, fp_speller_t fp, void *fparg, const char *charset) { size_t seedlen = strlen(seed); size_t maxdist = seedlen < 4 ? seedlen / 2 : 2; for (size_t distance = 0; distance < maxdist; distance++) { void *p = spellerX(seed, seedlen, fp, fparg, charset, distance); if (p) return p; // if (seedlen > 10) // break; } return NULL; // didn't find it }