#include #include #include #include #include "my_regex.h" #include "main.ih" char *progname; int debug = 0; int line = 0; int status = 0; int copts = REG_EXTENDED; int eopts = 0; regoff_t startoff = 0; regoff_t endoff = 0; extern int split(char *string, char **fields, int nfields, const char *sep); extern void regprint(my_regex_t *r, FILE *d); /* - main - do the simple case, hand off to regress() for regression */ int main(argc, argv) int argc; char *argv[]; { my_regex_t re; # define NS 10 my_regmatch_t subs[NS]; char erbuf[100]; int err; size_t len; int c; int errflg = 0; register int i; extern int optind; extern char *optarg; progname = argv[0]; while ((c = getopt(argc, argv, "c:e:S:E:x")) != EOF) switch (c) { case 'c': /* compile options */ copts = options('c', optarg); break; case 'e': /* execute options */ eopts = options('e', optarg); break; case 'S': /* start offset */ startoff = (regoff_t)atoi(optarg); break; case 'E': /* end offset */ endoff = (regoff_t)atoi(optarg); break; case 'x': /* Debugging. */ debug++; break; case '?': default: errflg++; break; } if (errflg) { fprintf(stderr, "usage: %s ", progname); fprintf(stderr, "[-c copt][-C][-d] [re]\n"); exit(2); } if (optind >= argc) { regress(stdin); exit(status); } err = my_regcomp(&re, argv[optind++], copts, &my_charset_latin1); if (err) { len = my_regerror(err, &re, erbuf, sizeof(erbuf)); fprintf(stderr, "error %s, %d/%d `%s'\n", eprint(err), (int) len, (int) sizeof(erbuf), erbuf); exit(status); } regprint(&re, stdout); if (optind >= argc) { my_regfree(&re); exit(status); } if (eopts®_STARTEND) { subs[0].rm_so = startoff; subs[0].rm_eo = strlen(argv[optind]) - endoff; } err = my_regexec(&re, argv[optind], (size_t)NS, subs, eopts); if (err) { len = my_regerror(err, &re, erbuf, sizeof(erbuf)); fprintf(stderr, "error %s, %d/%d `%s'\n", eprint(err), (int) len, (int) sizeof(erbuf), erbuf); exit(status); } if (!(copts®_NOSUB)) { len = (int)(subs[0].rm_eo - subs[0].rm_so); if (subs[0].rm_so != -1) { if (len != 0) printf("match `%.*s'\n", (int)len, argv[optind] + subs[0].rm_so); else printf("match `'@%.1s\n", argv[optind] + subs[0].rm_so); } for (i = 1; i < NS; i++) if (subs[i].rm_so != -1) printf("(%d) `%.*s'\n", i, (int)(subs[i].rm_eo - subs[i].rm_so), argv[optind] + subs[i].rm_so); } exit(status); } /* - regress - main loop of regression test == void regress(FILE *in); */ void regress(in) FILE *in; { char inbuf[1000]; # define MAXF 10 char *f[MAXF]; int nf; int i; char erbuf[100]; size_t ne; const char *badpat = "invalid regular expression"; # define SHORT 10 const char *bpname = "REG_BADPAT"; my_regex_t re; while (fgets(inbuf, sizeof(inbuf), in) != NULL) { line++; if (inbuf[0] == '#' || inbuf[0] == '\n') continue; /* NOTE CONTINUE */ inbuf[strlen(inbuf)-1] = '\0'; /* get rid of stupid \n */ if (debug) fprintf(stdout, "%d:\n", line); nf = split(inbuf, f, MAXF, "\t\t"); if (nf < 3) { fprintf(stderr, "bad input, line %d\n", line); exit(1); } for (i = 0; i < nf; i++) if (strcmp(f[i], "\"\"") == 0) f[i] = (char*) ""; if (nf <= 3) f[3] = NULL; if (nf <= 4) f[4] = NULL; rx_try(f[0], f[1], f[2], f[3], f[4], options('c', f[1])); if (opt('&', f[1])) /* try with either type of RE */ rx_try(f[0], f[1], f[2], f[3], f[4], options('c', f[1]) &~ REG_EXTENDED); } ne = my_regerror(REG_BADPAT, (my_regex_t *)NULL, erbuf, sizeof(erbuf)); if (strcmp(erbuf, badpat) != 0 || ne != strlen(badpat)+1) { fprintf(stderr, "end: regerror() test gave `%s' not `%s'\n", erbuf, badpat); status = 1; } ne = my_regerror(REG_BADPAT, (my_regex_t *)NULL, erbuf, (size_t)SHORT); if (strncmp(erbuf, badpat, SHORT-1) != 0 || erbuf[SHORT-1] != '\0' || ne != strlen(badpat)+1) { fprintf(stderr, "end: regerror() short test gave `%s' not `%.*s'\n", erbuf, SHORT-1, badpat); status = 1; } ne = my_regerror(REG_ITOA|REG_BADPAT, (my_regex_t *)NULL, erbuf, sizeof(erbuf)); if (strcmp(erbuf, bpname) != 0 || ne != strlen(bpname)+1) { fprintf(stderr, "end: regerror() ITOA test gave `%s' not `%s'\n", erbuf, bpname); status = 1; } re.re_endp = bpname; ne = my_regerror(REG_ATOI, &re, erbuf, sizeof(erbuf)); if (atoi(erbuf) != (int)REG_BADPAT) { fprintf(stderr, "end: regerror() ATOI test gave `%s' not `%ld'\n", erbuf, (long)REG_BADPAT); status = 1; } else if (ne != strlen(erbuf)+1) { fprintf(stderr, "end: regerror() ATOI test len(`%s') = %ld\n", erbuf, (long)REG_BADPAT); status = 1; } } /* - rx_try - try it, and report on problems == void rx_try(char *f0, char *f1, char *f2, char *f3, char *f4, int opts); */ void rx_try(f0, f1, f2, f3, f4, opts) char *f0; char *f1; char *f2; char *f3; char *f4; int opts; /* may not match f1 */ { my_regex_t re; # define NSUBS 10 my_regmatch_t subs[NSUBS]; # define NSHOULD 15 char *should[NSHOULD]; int nshould; char erbuf[100]; int err; int len; const char *type = (opts & REG_EXTENDED) ? "ERE" : "BRE"; register int i; char *grump; char f0copy[1000]; char f2copy[1000]; strcpy(f0copy, f0); re.re_endp = (opts®_PEND) ? f0copy + strlen(f0copy) : NULL; fixstr(f0copy); err = my_regcomp(&re, f0copy, opts, &my_charset_latin1); if (err != 0 && (!opt('C', f1) || err != efind(f2))) { /* unexpected error or wrong error */ len = my_regerror(err, &re, erbuf, sizeof(erbuf)); fprintf(stderr, "%d: %s error %s, %d/%d `%s'\n", line, type, eprint(err), len, (int) sizeof(erbuf), erbuf); status = 1; } else if (err == 0 && opt('C', f1)) { /* unexpected success */ fprintf(stderr, "%d: %s should have given REG_%s\n", line, type, f2); status = 1; err = 1; /* so we won't try regexec */ } if (err != 0) { my_regfree(&re); return; } strcpy(f2copy, f2); fixstr(f2copy); if (options('e', f1)®_STARTEND) { if (strchr(f2, '(') == NULL || strchr(f2, ')') == NULL) fprintf(stderr, "%d: bad STARTEND syntax\n", line); subs[0].rm_so = strchr(f2, '(') - f2 + 1; subs[0].rm_eo = strchr(f2, ')') - f2; } err = my_regexec(&re, f2copy, NSUBS, subs, options('e', f1)); if (err != 0 && (f3 != NULL || err != REG_NOMATCH)) { /* unexpected error or wrong error */ len = my_regerror(err, &re, erbuf, sizeof(erbuf)); fprintf(stderr, "%d: %s exec error %s, %d/%d `%s'\n", line, type, eprint(err), len, (int) sizeof(erbuf), erbuf); status = 1; } else if (err != 0) { /* nothing more to check */ } else if (f3 == NULL) { /* unexpected success */ fprintf(stderr, "%d: %s exec should have failed\n", line, type); status = 1; err = 1; /* just on principle */ } else if (opts®_NOSUB) { /* nothing more to check */ } else if ((grump = check(f2, subs[0], f3)) != NULL) { fprintf(stderr, "%d: %s %s\n", line, type, grump); status = 1; err = 1; } if (err != 0 || f4 == NULL) { my_regfree(&re); return; } for (i = 1; i < NSHOULD; i++) should[i] = NULL; nshould = split(f4, should+1, NSHOULD-1, ","); if (nshould == 0) { nshould = 1; should[1] = (char*) ""; } for (i = 1; i < NSUBS; i++) { grump = check(f2, subs[i], should[i]); if (grump != NULL) { fprintf(stderr, "%d: %s $%d %s\n", line, type, i, grump); status = 1; err = 1; } } my_regfree(&re); } /* - options - pick options out of a regression-test string == int options(int type, char *s); */ int options(type, s) int type; /* 'c' compile, 'e' exec */ char *s; { register char *p; register int o = (type == 'c') ? copts : eopts; register const char *legal = (type == 'c') ? "bisnmp" : "^$#tl"; for (p = s; *p != '\0'; p++) if (strchr(legal, *p) != NULL) switch (*p) { case 'b': o &= ~REG_EXTENDED; break; case 'i': o |= REG_ICASE; break; case 's': o |= REG_NOSUB; break; case 'n': o |= REG_NEWLINE; break; case 'm': o &= ~REG_EXTENDED; o |= REG_NOSPEC; break; case 'p': o |= REG_PEND; break; case '^': o |= REG_NOTBOL; break; case '$': o |= REG_NOTEOL; break; case '#': o |= REG_STARTEND; break; case 't': /* trace */ o |= REG_TRACE; break; case 'l': /* force long representation */ o |= REG_LARGE; break; case 'r': /* force backref use */ o |= REG_BACKR; break; } return(o); } /* - opt - is a particular option in a regression string? == int opt(int c, char *s); */ int /* predicate */ opt(c, s) int c; char *s; { return(strchr(s, c) != NULL); } /* - fixstr - transform magic characters in strings == void fixstr(register char *p); */ void fixstr(p) register char *p; { if (p == NULL) return; for (; *p != '\0'; p++) if (*p == 'N') *p = '\n'; else if (*p == 'T') *p = '\t'; else if (*p == 'S') *p = ' '; else if (*p == 'Z') *p = '\0'; } /* - check - check a substring match == char *check(char *str, regmatch_t sub, char *should); */ char * /* NULL or complaint */ check(str, sub, should) char *str; my_regmatch_t sub; char *should; { register int len; register int shlen; register char *p; static char grump[500]; register char *at = NULL; if (should != NULL && strcmp(should, "-") == 0) should = NULL; if (should != NULL && should[0] == '@') { at = should + 1; should = (char*) ""; } /* check rm_so and rm_eo for consistency */ if (sub.rm_so > sub.rm_eo || (sub.rm_so == -1 && sub.rm_eo != -1) || (sub.rm_so != -1 && sub.rm_eo == -1) || (sub.rm_so != -1 && sub.rm_so < 0) || (sub.rm_eo != -1 && sub.rm_eo < 0) ) { sprintf(grump, "start %ld end %ld", (long)sub.rm_so, (long)sub.rm_eo); return(grump); } /* check for no match */ if (sub.rm_so == -1 && should == NULL) return(NULL); if (sub.rm_so == -1) return((char*) "did not match"); /* check for in range */ if ((int) sub.rm_eo > (int) strlen(str)) { sprintf(grump, "start %ld end %ld, past end of string", (long)sub.rm_so, (long)sub.rm_eo); return(grump); } len = (int)(sub.rm_eo - sub.rm_so); shlen = (int)strlen(should); p = str + sub.rm_so; /* check for not supposed to match */ if (should == NULL) { sprintf(grump, "matched `%.*s'", len, p); return(grump); } /* check for wrong match */ if (len != shlen || strncmp(p, should, (size_t)shlen) != 0) { sprintf(grump, "matched `%.*s' instead", len, p); return(grump); } if (shlen > 0) return(NULL); /* check null match in right place */ if (at == NULL) return(NULL); shlen = strlen(at); if (shlen == 0) shlen = 1; /* force check for end-of-string */ if (strncmp(p, at, shlen) != 0) { sprintf(grump, "matched null at `%.20s'", p); return(grump); } return(NULL); } /* - eprint - convert error number to name == static char *eprint(int err); */ static char * eprint(err) int err; { static char epbuf[100]; size_t len; len = my_regerror(REG_ITOA|err, (my_regex_t *)NULL, epbuf, sizeof(epbuf)); assert(len <= sizeof(epbuf)); return(epbuf); } /* - efind - convert error name to number == static int efind(char *name); */ static int efind(name) char *name; { static char efbuf[100]; my_regex_t re; sprintf(efbuf, "REG_%s", name); assert(strlen(efbuf) < sizeof(efbuf)); re.re_endp = efbuf; (void) my_regerror(REG_ATOI, &re, efbuf, sizeof(efbuf)); return(atoi(efbuf)); }