#include #include #include "..\commons.h" DictMgr::DictMgr(const char * dictpath, const char * etype) : numdict(0) { // load list of etype entries pdentry = (dictentry *)malloc(MAXDICTIONARIES*sizeof(struct dictentry)); if (pdentry) { if (parse_file(dictpath, etype)) { numdict = 0; // no dictionary.lst found is okay } } } DictMgr::~DictMgr() { dictentry * pdict = NULL; if (pdentry) { pdict = pdentry; for (int i=0;ilang) { free(pdict->lang); pdict->lang = NULL; } if (pdict->region) { free(pdict->region); pdict->region=NULL; } if (pdict->filename) { free(pdict->filename); pdict->filename = NULL; } pdict++; } free(pdentry); pdentry = NULL; pdict = NULL; } numdict = 0; } // read in list of etype entries and build up structure to describe them int DictMgr::parse_file(const char * dictpath, const char * etype) { int i; char line[MAXDICTENTRYLEN+1]; dictentry * pdict = pdentry; // open the dictionary list file FILE *dictlst = myfopen(dictpath,"r"); if (!dictlst) { return 1; } // step one is to parse the dictionary list building up the // descriptive structures // read in each line ignoring any that dont start with etype while (fgets(line,MAXDICTENTRYLEN,dictlst)) { mychomp(line); /* parse in a dictionary entry */ if (strncmp(line,etype,4) == 0) { if (numdict < MAXDICTIONARIES) { char * tp = line; char * piece; i = 0; while ((piece=mystrsep(&tp,' '))) { if (*piece != '\0') { switch(i) { case 0: break; case 1: pdict->lang = mystrdup(piece); break; case 2: if (strcmp (piece, "ANY") == 0) pdict->region = mystrdup(""); else pdict->region = mystrdup(piece); break; case 3: pdict->filename = mystrdup(piece); break; default: break; } i++; } free(piece); } if (i == 4) { numdict++; pdict++; } else { switch (i) { case 3: free(pdict->region); pdict->region=NULL; /* FALLTHROUGH */ case 2: free(pdict->lang); pdict->lang=NULL; default: break; } fprintf(stderr,"dictionary list corruption in line \"%s\"\n",line); fflush(stderr); } } } } fclose(dictlst); return 0; } // return text encoding of dictionary int DictMgr::get_list(dictentry ** ppentry) { *ppentry = pdentry; return numdict; } // strip strings into token based on single char delimiter // acts like strsep() but only uses a delim char and not // a delim string char * DictMgr::mystrsep(char ** stringp, const char delim) { char * rv = NULL; char * mp = *stringp; size_t n = strlen(mp); if (n > 0) { char * dp = (char *)memchr(mp,(int)((unsigned char)delim),n); if (dp) { *stringp = dp+1; size_t nc = dp - mp; rv = (char *) malloc(nc+1); if (rv) { memcpy(rv,mp,nc); *(rv+nc) = '\0'; } } else { rv = (char *) malloc(n+1); if (rv) { memcpy(rv, mp, n); *(rv+n) = '\0'; *stringp = mp + n; } } } return rv; } // replaces strdup with ansi version char * DictMgr::mystrdup(const char * s) { char * d = NULL; if (s) { int sl = strlen(s)+1; d = (char *) malloc(sl); if (d) memcpy(d,s,sl); } return d; } // remove cross-platform text line end characters void DictMgr:: mychomp(char * s) { int k = strlen(s); if ((k > 0) && ((*(s+k-1)=='\r') || (*(s+k-1)=='\n'))) *(s+k-1) = '\0'; if ((k > 1) && (*(s+k-2) == '\r')) *(s+k-2) = '\0'; }