/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- * * The contents of this file are subject to the Netscape Public License * Version 1.0 (the "NPL"); you may not use this file except in * compliance with the NPL. You may obtain a copy of the NPL at * http://www.mozilla.org/NPL/ * * Software distributed under the NPL is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL * for the specific language governing rights and limitations under the * NPL. * * The Initial Developer of this code under the NPL is Netscape * Communications Corporation. Portions created by Netscape are * Copyright (C) 1998 Netscape Communications Corporation. All Rights * Reserved. */ /* * * * * shexp.c: shell-like wildcard match routines * * See shexp.h for public documentation. * * Rob McCool * */ #include "xp_regexp.h" #include "plstr.h" #include "prmem.h" /* ----------------------------- shexp_valid ------------------------------ */ PRIVATE int _valid_subexp(char *exp, char stop) { register int x,y,t; int nsc,np,tld; x=0;nsc=0;tld=0; while(exp[x] && (exp[x] != stop)) { switch(exp[x]) { case '~': if(tld) return INVALID_SXP; else ++tld; case '*': case '?': case '^': case '$': ++nsc; break; case '[': ++nsc; if((!exp[++x]) || (exp[x] == ']')) return INVALID_SXP; for(++x;exp[x] && (exp[x] != ']');++x) if(exp[x] == '\\') if(!exp[++x]) return INVALID_SXP; if(!exp[x]) return INVALID_SXP; break; case '(': ++nsc;np = 0; while(1) { if(exp[++x] == ')') return INVALID_SXP; for(y=x;(exp[y]) && (exp[y] != '|') && (exp[y] != ')');++y) if(exp[y] == '\\') if(!exp[++y]) return INVALID_SXP; if(!exp[y]) return INVALID_SXP; if(exp[y] == '|') ++np; t = _valid_subexp(&exp[x],exp[y]); if(t == INVALID_SXP) return INVALID_SXP; x+=t; if(exp[x] == ')') { if(!np) return INVALID_SXP; break; } } break; case ')': case ']': return INVALID_SXP; case '\\': if(!exp[++x]) return INVALID_SXP; default: break; } ++x; } if((!stop) && (!nsc)) return NON_SXP; return ((exp[x] == stop) ? x : INVALID_SXP); } PUBLIC int XP_RegExpValid(char *exp) { int x; x = _valid_subexp(exp, '\0'); return (x < 0 ? x : VALID_SXP); } /* ----------------------------- shexp_match ----------------------------- */ #define MATCH 0 #define NOMATCH 1 #define ABORTED -1 PRIVATE int _shexp_match(char *str, char *exp, Bool case_insensitive); PRIVATE int _handle_union(char *str, char *exp, Bool case_insensitive) { char *e2 = (char *) PR_Malloc(sizeof(char)*strlen(exp)); register int t,p2,p1 = 1; int cp; while(1) { for(cp=1;exp[cp] != ')';cp++) if(exp[cp] == '\\') ++cp; for(p2 = 0;(exp[p1] != '|') && (p1 != cp);p1++,p2++) { if(exp[p1] == '\\') e2[p2++] = exp[p1++]; e2[p2] = exp[p1]; } for (t=cp+1; ((e2[p2] = exp[t]) != 0); ++t,++p2) {} if(_shexp_match(str,e2, case_insensitive) == MATCH) { PR_Free(e2); return MATCH; } if(p1 == cp) { PR_Free(e2); return NOMATCH; } else ++p1; } } PRIVATE int _shexp_match(char *str, char *exp, Bool case_insensitive) { register int x,y; int ret,neg; ret = 0; for(x=0,y=0;exp[y];++y,++x) { if((!str[x]) && (exp[y] != '(') && (exp[y] != '$') && (exp[y] != '*')) ret = ABORTED; else { switch(exp[y]) { case '$': if( (str[x]) ) ret = NOMATCH; else --x; /* we don't want loop to increment x */ break; case '*': while(exp[++y] == '*'){} if(!exp[y]) return MATCH; while(str[x]) { switch(_shexp_match(&str[x++],&exp[y], case_insensitive)) { case NOMATCH: continue; case ABORTED: ret = ABORTED; break; default: return MATCH; } break; } if((exp[y] == '$') && (exp[y+1] == '\0') && (!str[x])) return MATCH; else ret = ABORTED; break; case '[': neg = ((exp[++y] == '^') && (exp[y+1] != ']')); if (neg) ++y; if ((isalnum(exp[y])) && (exp[y+1] == '-') && (isalnum(exp[y+2])) && (exp[y+3] == ']')) { int start = exp[y], end = exp[y+2]; /* Droolproofing for pinheads not included */ if(neg ^ ((str[x] < start) || (str[x] > end))) { ret = NOMATCH; break; } y+=3; } else { int matched; for (matched=0;exp[y] != ']';y++) matched |= (str[x] == exp[y]); if (neg ^ (!matched)) ret = NOMATCH; } break; case '(': return _handle_union(&str[x],&exp[y], case_insensitive); break; case '?': break; case '\\': ++y; default: if(case_insensitive) { if(toupper(str[x]) != toupper(exp[y])) ret = NOMATCH; } else { if(str[x] != exp[y]) ret = NOMATCH; } break; } } if(ret) break; } return (ret ? ret : (str[x] ? NOMATCH : MATCH)); } PUBLIC int XP_RegExpMatch(char *str, char *xp, Bool case_insensitive) { register int x; char *exp = PL_strdup(xp); if(!exp) return 1; for(x=strlen(exp)-1;x;--x) { if((exp[x] == '~') && (exp[x-1] != '\\')) { exp[x] = '\0'; if(_shexp_match(str,&exp[++x], case_insensitive) == MATCH) goto punt; break; } } if(_shexp_match(str,exp, FALSE) == MATCH) { PR_Free(exp); return 0; } punt: PR_Free(exp); return 1; } /* ------------------------------ shexp_cmp ------------------------------- */ #if 0 PUBLIC int XP_RegExpSearch(char *str, char *exp) { switch(XP_RegExpValid(exp)) { case INVALID_SXP: return -1; case NON_SXP: return (strcmp(exp,str) ? 1 : 0); default: return XP_RegExpMatch(str, exp, FALSE); } } PUBLIC int XP_RegExpCaseSearch(char *str, char *exp) { switch(XP_RegExpValid(exp)) { case INVALID_SXP: return -1; case NON_SXP: return (strcmp(exp,str) ? 1 : 0); default: return XP_RegExpMatch(str, exp, TRUE); } } #endif