/* $Revision: 1.2 $
**
** Do shell-style pattern matching for ?, \, [], and * characters.
** Might not be robust in face of malformed patterns; e.g., "foo[a-"
** could cause a segmentation violation. It is 8bit clean.
**
** Written by Rich $alz, mirror!rs, Wed Nov 26 19:03:17 EST 1986.
** Rich $alz is now <rsalz@osf.org>.
** April, 1991: Replaced mutually-recursive calls with in-line code
** for the star character.
**
** Special thanks to Lars Mathiesen <thorinn@diku.dk> for the ABORT code.
** This can greatly speed up failing wildcard patterns. For example:
** pattern: -*-*-*-*-*-*-12-*-*-*-m-*-*-*
** text 1: -adobe-courier-bold-o-normal--12-120-75-75-m-70-iso8859-1
** text 2: -adobe-courier-bold-o-normal--12-120-75-75-X-70-iso8859-1
** Text 1 matches with 51 calls, while text 2 fails with 54 calls. Without
** the ABORT code, it takes 22310 calls to fail. Ugh. The following
** explanation is from Lars:
** The precondition that must be fulfilled is that DoMatch will consume
** at least one character in text. This is true if *p is neither '*' nor
** '\0'.) The last return has ABORT instead of FALSE to avoid quadratic
** behaviour in cases like pattern "*a*b*c*d" with text "abcxxxxx". With
** FALSE, each star-loop has to run to the end of the text; with ABORT
** only the last one does.
**
** Once the control of one instance of DoMatch enters the star-loop, that
** instance will return either TRUE or ABORT, and any calling instance
** will therefore return immediately after (without calling recursively
** again). In effect, only one star-loop is ever active. It would be
** possible to modify the code to maintain this context explicitly,
** eliminating all recursive calls at the cost of some complication and
** loss of clarity (and the ABORT stuff seems to be unclear enough by
** itself). I think it would be unwise to try to get this into a
** released version unless you have a good test data base to try it
** out on.
*/
#include "cs_config.h"
#include <ctype.h>
#include "neo_misc.h"
#define ABORT -1
/* What character marks an inverted character class? */
#define NEGATE_CLASS '^'
/* Is "*" a common pattern? */
#define OPTIMIZE_JUST_STAR
/* Do tar(1) matching rules, which ignore a trailing slash? */
#undef MATCH_TAR_PATTERN
/*
** Match text and p, return TRUE, FALSE, or ABORT.
*/
static int
DoMatch(register const char *text, register const char *p)
{
register int last;
register int matched;
register int reverse;
for ( ; *p; text++, p++) {
if (*text == '\0' && *p != '*')
return ABORT;
switch (*p) {
case '\\':
/* Literal match with following character. */
p++;
/* FALLTHROUGH */
default:
if (*text != *p)
return FALSE;
continue;
case '?':
/* Match anything. */
continue;
case '*':
while (*++p == '*')
/* Consecutive stars act just like one. */
continue;
if (*p == '\0')
/* Trailing star matches everything. */
return TRUE;
while (*text)
if ((matched = DoMatch(text++, p)) != FALSE)
return matched;
return ABORT;
case '[':
reverse = p[1] == NEGATE_CLASS ? TRUE : FALSE;
if (reverse)
/* Inverted character class. */
p++;
matched = FALSE;
if (p[1] == ']' || p[1] == '-')
if (*++p == *text)
matched = TRUE;
for (last = *p; *++p && *p != ']'; last = *p)
/* This next line requires a good C compiler. */
if (*p == '-' && p[1] != ']'
? *text <= *++p && *text >= last : *text == *p)
matched = TRUE;
if (matched == reverse)
return FALSE;
continue;
}
}
#ifdef MATCH_TAR_PATTERN
if (*text == '/')
return TRUE;
#endif /* MATCH_TAR_ATTERN */
return *text == '\0';
}
/*
** Match text and p, return TRUE, FALSE, or ABORT.
*/
static int
DoMatchCaseInsensitive(register const char *text, register const char *p)
{
register int last;
register int matched;
register int reverse;
for ( ; *p; text++, p++) {
if (*text == '\0' && *p != '*')
return ABORT;
switch (*p) {
case '\\':
/* Literal match with following character. */
p++;
/* FALLTHROUGH */
default:
if (toupper(*text) != toupper(*p))
return FALSE;
continue;
case '?':
/* Match anything. */
continue;
case '*':
while (*++p == '*')
/* Consecutive stars act just like one. */
continue;
if (*p == '\0')
/* Trailing star matches everything. */
return TRUE;
while (*text)
if ((matched = DoMatchCaseInsensitive(text++, p)) != FALSE)
return matched;
return ABORT;
case '[':
reverse = p[1] == NEGATE_CLASS ? TRUE : FALSE;
if (reverse)
/* Inverted character class. */
p++;
matched = FALSE;
if (p[1] == ']' || p[1] == '-')
if (toupper(*++p) == toupper(*text))
matched = TRUE;
for (last = toupper(*p); *++p && *p != ']'; last = toupper(*p))
/* This next line requires a good C compiler. */
if (*p == '-' && p[1] != ']'
? toupper(*text) <= toupper(*++p) && toupper(*text) >= last : toupper(*text) == toupper(*p))
matched = TRUE;
if (matched == reverse)
return FALSE;
continue;
}
}
#ifdef MATCH_TAR_PATTERN
if (*text == '/')
return TRUE;
#endif /* MATCH_TAR_ATTERN */
return *text == '\0';
}
/*
** User-level routine. Returns TRUE or FALSE.
*/
int
wildmat(const char *text, const char *p)
{
#ifdef OPTIMIZE_JUST_STAR
if (p[0] == '*' && p[1] == '\0')
return TRUE;
#endif /* OPTIMIZE_JUST_STAR */
return DoMatch(text, p) == TRUE;
}
/*
** User-level routine. Returns TRUE or FALSE.
*/
int
wildmatcase(const char *text, const char *p)
{
#ifdef OPTIMIZE_JUST_STAR
if (p[0] == '*' && p[1] == '\0')
return TRUE;
#endif /* OPTIMIZE_JUST_STAR */
return DoMatchCaseInsensitive(text, p) == TRUE;
}