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glibc/posix/fnmatch_loop.c

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/* Copyright (C) 1991-1993, 1996-2000, 2001 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, write to the Free
Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307 USA. */
/* Match STRING against the filename pattern PATTERN, returning zero if
it matches, nonzero if not. */
static int FCT (const CHAR *pattern, const CHAR *string,
const CHAR *string_end, int no_leading_period, int flags)
internal_function;
static int EXT (INT opt, const CHAR *pattern, const CHAR *string,
const CHAR *string_end, int no_leading_period, int flags)
internal_function;
static const CHAR *END (const CHAR *patternp) internal_function;
static int
internal_function
FCT (pattern, string, string_end, no_leading_period, flags)
const CHAR *pattern;
const CHAR *string;
const CHAR *string_end;
int no_leading_period;
int flags;
{
register const CHAR *p = pattern, *n = string;
register UCHAR c;
#ifdef _LIBC
# if WIDE_CHAR_VERSION
const char *collseq = (const char *)
_NL_CURRENT(LC_COLLATE, _NL_COLLATE_COLLSEQWC);
# else
const UCHAR *collseq = (const UCHAR *)
_NL_CURRENT(LC_COLLATE, _NL_COLLATE_COLLSEQMB);
# endif
#endif
while ((c = *p++) != L('\0'))
{
int new_no_leading_period = 0;
c = FOLD (c);
switch (c)
{
case L('?'):
if (__builtin_expect (flags & FNM_EXTMATCH, 0) && *p == '(')
{
int res;
res = EXT (c, p, n, string_end, no_leading_period,
flags);
if (res != -1)
return res;
}
if (n == string_end)
return FNM_NOMATCH;
else if (*n == L('/') && (flags & FNM_FILE_NAME))
return FNM_NOMATCH;
else if (*n == L('.') && no_leading_period)
return FNM_NOMATCH;
break;
case L('\\'):
if (!(flags & FNM_NOESCAPE))
{
c = *p++;
if (c == L('\0'))
/* Trailing \ loses. */
return FNM_NOMATCH;
c = FOLD (c);
}
if (n == string_end || FOLD ((UCHAR) *n) != c)
return FNM_NOMATCH;
break;
case L('*'):
if (__builtin_expect (flags & FNM_EXTMATCH, 0) && *p == '(')
{
int res;
res = EXT (c, p, n, string_end, no_leading_period,
flags);
if (res != -1)
return res;
}
if (n != string_end && *n == L('.') && no_leading_period)
return FNM_NOMATCH;
for (c = *p++; c == L('?') || c == L('*'); c = *p++)
{
if (*p == L('(') && (flags & FNM_EXTMATCH) != 0)
{
const CHAR *endp = END (p);
if (endp != p)
{
/* This is a pattern. Skip over it. */
p = endp;
continue;
}
}
if (c == L('?'))
{
/* A ? needs to match one character. */
if (n == string_end)
/* There isn't another character; no match. */
return FNM_NOMATCH;
else if (*n == L('/')
&& __builtin_expect (flags & FNM_FILE_NAME, 0))
/* A slash does not match a wildcard under
FNM_FILE_NAME. */
return FNM_NOMATCH;
else
/* One character of the string is consumed in matching
this ? wildcard, so *??? won't match if there are
less than three characters. */
++n;
}
}
if (c == L('\0'))
/* The wildcard(s) is/are the last element of the pattern.
If the name is a file name and contains another slash
this means it cannot match, unless the FNM_LEADING_DIR
flag is set. */
{
int result = (flags & FNM_FILE_NAME) == 0 ? 0 : FNM_NOMATCH;
if (flags & FNM_FILE_NAME)
{
if (flags & FNM_LEADING_DIR)
result = 0;
else
{
if (MEMCHR (n, L('/'), string_end - n) == NULL)
result = 0;
}
}
return result;
}
else
{
const CHAR *endp;
endp = MEMCHR (n, (flags & FNM_FILE_NAME) ? L('/') : L('\0'),
string_end - n);
if (endp == NULL)
endp = string_end;
if (c == L('[')
|| (__builtin_expect (flags & FNM_EXTMATCH, 0) != 0
&& (c == L('@') || c == L('+') || c == L('!'))
&& *p == L('(')))
{
int flags2 = ((flags & FNM_FILE_NAME)
? flags : (flags & ~FNM_PERIOD));
int no_leading_period2 = no_leading_period;
for (--p; n < endp; ++n, no_leading_period2 = 0)
if (FCT (p, n, string_end, no_leading_period2, flags2)
== 0)
return 0;
}
else if (c == L('/') && (flags & FNM_FILE_NAME))
{
while (n < string_end && *n != L('/'))
++n;
if (n < string_end && *n == L('/')
&& (FCT (p, n + 1, string_end, flags & FNM_PERIOD, flags)
== 0))
return 0;
}
else
{
int flags2 = ((flags & FNM_FILE_NAME)
? flags : (flags & ~FNM_PERIOD));
int no_leading_period2 = no_leading_period;
if (c == L('\\') && !(flags & FNM_NOESCAPE))
c = *p;
c = FOLD (c);
for (--p; n < endp; ++n, no_leading_period2 = 0)
if (FOLD ((UCHAR) *n) == c
&& (FCT (p, n, string_end, no_leading_period2, flags2)
== 0))
return 0;
}
}
/* If we come here no match is possible with the wildcard. */
return FNM_NOMATCH;
case L('['):
{
/* Nonzero if the sense of the character class is inverted. */
register int not;
CHAR cold;
UCHAR fn;
if (posixly_correct == 0)
posixly_correct = getenv ("POSIXLY_CORRECT") != NULL ? 1 : -1;
if (n == string_end)
return FNM_NOMATCH;
if (*n == L('.') && no_leading_period)
return FNM_NOMATCH;
if (*n == L('/') && (flags & FNM_FILE_NAME))
/* `/' cannot be matched. */
return FNM_NOMATCH;
not = (*p == L('!') || (posixly_correct < 0 && *p == L('^')));
if (not)
++p;
fn = FOLD ((UCHAR) *n);
c = *p++;
for (;;)
{
if (!(flags & FNM_NOESCAPE) && c == L('\\'))
{
if (*p == L('\0'))
return FNM_NOMATCH;
c = FOLD ((UCHAR) *p);
++p;
if (c == fn)
goto matched;
}
else if (c == L('[') && *p == L(':'))
{
/* Leave room for the null. */
CHAR str[CHAR_CLASS_MAX_LENGTH + 1];
size_t c1 = 0;
#if defined _LIBC || (defined HAVE_WCTYPE_H && defined HAVE_WCHAR_H)
wctype_t wt;
#endif
const CHAR *startp = p;
for (;;)
{
if (c1 == CHAR_CLASS_MAX_LENGTH)
/* The name is too long and therefore the pattern
is ill-formed. */
return FNM_NOMATCH;
c = *++p;
if (c == L(':') && p[1] == L(']'))
{
p += 2;
break;
}
if (c < L('a') || c >= L('z'))
{
/* This cannot possibly be a character class name.
Match it as a normal range. */
p = startp;
c = L('[');
goto normal_bracket;
}
str[c1++] = c;
}
str[c1] = L('\0');
#if defined _LIBC || (defined HAVE_WCTYPE_H && defined HAVE_WCHAR_H)
wt = IS_CHAR_CLASS (str);
if (wt == 0)
/* Invalid character class name. */
return FNM_NOMATCH;
# if defined _LIBC && ! WIDE_CHAR_VERSION
/* The following code is glibc specific but does
there a good job in speeding up the code since
we can avoid the btowc() call. */
if (_ISCTYPE ((UCHAR) *n, wt))
goto matched;
# else
if (ISWCTYPE (BTOWC ((UCHAR) *n), wt))
goto matched;
# endif
#else
if ((STREQ (str, L("alnum")) && ISALNUM ((UCHAR) *n))
|| (STREQ (str, L("alpha")) && ISALPHA ((UCHAR) *n))
|| (STREQ (str, L("blank")) && ISBLANK ((UCHAR) *n))
|| (STREQ (str, L("cntrl")) && ISCNTRL ((UCHAR) *n))
|| (STREQ (str, L("digit")) && ISDIGIT ((UCHAR) *n))
|| (STREQ (str, L("graph")) && ISGRAPH ((UCHAR) *n))
|| (STREQ (str, L("lower")) && ISLOWER ((UCHAR) *n))
|| (STREQ (str, L("print")) && ISPRINT ((UCHAR) *n))
|| (STREQ (str, L("punct")) && ISPUNCT ((UCHAR) *n))
|| (STREQ (str, L("space")) && ISSPACE ((UCHAR) *n))
|| (STREQ (str, L("upper")) && ISUPPER ((UCHAR) *n))
|| (STREQ (str, L("xdigit")) && ISXDIGIT ((UCHAR) *n)))
goto matched;
#endif
c = *p++;
}
#ifdef _LIBC
else if (c == L('[') && *p == L('='))
{
UCHAR str[1];
uint32_t nrules =
_NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES);
const CHAR *startp = p;
c = *++p;
if (c == L('\0'))
{
p = startp;
c = L('[');
goto normal_bracket;
}
str[0] = c;
c = *++p;
if (c != L('=') || p[1] != L(']'))
{
p = startp;
c = L('[');
goto normal_bracket;
}
p += 2;
if (nrules == 0)
{
if ((UCHAR) *n == str[0])
goto matched;
}
else
{
const int32_t *table;
# if WIDE_CHAR_VERSION
const int32_t *weights;
const int32_t *extra;
# else
const unsigned char *weights;
const unsigned char *extra;
# endif
const int32_t *indirect;
int32_t idx;
const UCHAR *cp = (const UCHAR *) str;
/* This #include defines a local function! */
# if WIDE_CHAR_VERSION
# include <locale/weightwc.h>
# else
# include <locale/weight.h>
# endif
# if WIDE_CHAR_VERSION
table = (const int32_t *)
_NL_CURRENT (LC_COLLATE, _NL_COLLATE_TABLEWC);
weights = (const int32_t *)
_NL_CURRENT (LC_COLLATE, _NL_COLLATE_WEIGHTWC);
extra = (const int32_t *)
_NL_CURRENT (LC_COLLATE, _NL_COLLATE_EXTRAWC);
indirect = (const int32_t *)
_NL_CURRENT (LC_COLLATE, _NL_COLLATE_INDIRECTWC);
# else
table = (const int32_t *)
_NL_CURRENT (LC_COLLATE, _NL_COLLATE_TABLEMB);
weights = (const unsigned char *)
_NL_CURRENT (LC_COLLATE, _NL_COLLATE_WEIGHTMB);
extra = (const unsigned char *)
_NL_CURRENT (LC_COLLATE, _NL_COLLATE_EXTRAMB);
indirect = (const int32_t *)
_NL_CURRENT (LC_COLLATE, _NL_COLLATE_INDIRECTMB);
# endif
idx = findidx (&cp);
if (idx != 0)
{
/* We found a table entry. Now see whether the
character we are currently at has the same
equivalance class value. */
int len = weights[idx];
int32_t idx2;
const UCHAR *np = (const UCHAR *) n;
idx2 = findidx (&np);
if (idx2 != 0 && len == weights[idx2])
{
int cnt = 0;
while (cnt < len
&& (weights[idx + 1 + cnt]
== weights[idx2 + 1 + cnt]))
++cnt;
if (cnt == len)
goto matched;
}
}
}
c = *p++;
}
#endif
else if (c == L('\0'))
/* [ (unterminated) loses. */
return FNM_NOMATCH;
else
{
int is_range = 0;
#ifdef _LIBC
int is_seqval = 0;
if (c == L('[') && *p == L('.'))
{
uint32_t nrules =
_NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES);
const CHAR *startp = p;
size_t c1 = 0;
while (1)
{
c = *++p;
if (c == L('.') && p[1] == L(']'))
{
p += 2;
break;
}
if (c == '\0')
return FNM_NOMATCH;
++c1;
}
/* We have to handling the symbols differently in
ranges since then the collation sequence is
important. */
is_range = *p == L('-') && p[1] != L('\0');
if (nrules == 0)
{
/* There are no names defined in the collation
data. Therefore we only accept the trivial
names consisting of the character itself. */
if (c1 != 1)
return FNM_NOMATCH;
if (!is_range && *n == startp[1])
goto matched;
cold = startp[1];
c = *p++;
}
else
{
int32_t table_size;
const int32_t *symb_table;
# ifdef WIDE_CHAR_VERSION
char str[c1];
unsigned int strcnt;
# else
# define str (startp + 1)
# endif
const unsigned char *extra;
int32_t idx;
int32_t elem;
int32_t second;
int32_t hash;
# ifdef WIDE_CHAR_VERSION
/* We have to convert the name to a single-byte
string. This is possible since the names
consist of ASCII characters and the internal
representation is UCS4. */
for (strcnt = 0; strcnt < c1; ++strcnt)
str[strcnt] = startp[1 + strcnt];
#endif
table_size =
_NL_CURRENT_WORD (LC_COLLATE,
_NL_COLLATE_SYMB_HASH_SIZEMB);
symb_table = (const int32_t *)
_NL_CURRENT (LC_COLLATE,
_NL_COLLATE_SYMB_TABLEMB);
extra = (const unsigned char *)
_NL_CURRENT (LC_COLLATE,
_NL_COLLATE_SYMB_EXTRAMB);
/* Locate the character in the hashing table. */
hash = elem_hash (str, c1);
idx = 0;
elem = hash % table_size;
second = hash % (table_size - 2);
while (symb_table[2 * elem] != 0)
{
/* First compare the hashing value. */
if (symb_table[2 * elem] == hash
&& c1 == extra[symb_table[2 * elem + 1]]
&& memcmp (str,
&extra[symb_table[2 * elem + 1]
+ 1], c1) == 0)
{
/* Yep, this is the entry. */
idx = symb_table[2 * elem + 1];
idx += 1 + extra[idx];
break;
}
/* Next entry. */
elem += second;
}
if (symb_table[2 * elem] != 0)
{
/* Compare the byte sequence but only if
this is not part of a range. */
# ifdef WIDE_CHAR_VERSION
int32_t *wextra;
idx += 1 + extra[idx];
/* Adjust for the alignment. */
idx = (idx + 3) & ~3;
wextra = (int32_t *) &extra[idx + 4];
# endif
if (! is_range)
{
# ifdef WIDE_CHAR_VERSION
for (c1 = 0; c1 < wextra[idx]; ++c1)
if (n[c1] != wextra[1 + c1])
break;
if (c1 == wextra[idx])
goto matched;
# else
for (c1 = 0; c1 < extra[idx]; ++c1)
if (n[c1] != extra[1 + c1])
break;
if (c1 == extra[idx])
goto matched;
# endif
}
/* Get the collation sequence value. */
is_seqval = 1;
# ifdef WIDE_CHAR_VERSION
cold = wextra[1 + wextra[idx]];
# else
/* Adjust for the alignment. */
idx += 1 + extra[idx];
idx = (idx + 3) & ~4;
cold = *((int32_t *) &extra[idx]);
# endif
c = *p++;
}
else if (c1 == 1)
{
/* No valid character. Match it as a
single byte. */
if (!is_range && *n == str[0])
goto matched;
cold = str[0];
c = *p++;
}
else
return FNM_NOMATCH;
}
}
else
# undef str
#endif
{
c = FOLD (c);
normal_bracket:
/* We have to handling the symbols differently in
ranges since then the collation sequence is
important. */
is_range = (*p == L('-') && p[1] != L('\0')
&& p[1] != L(']'));
if (!is_range && c == fn)
goto matched;
cold = c;
c = *p++;
}
if (c == L('-') && *p != L(']'))
{
#if _LIBC
/* We have to find the collation sequence
value for C. Collation sequence is nothing
we can regularly access. The sequence
value is defined by the order in which the
definitions of the collation values for the
various characters appear in the source
file. A strange concept, nowhere
documented. */
uint32_t fcollseq;
uint32_t lcollseq;
UCHAR cend = *p++;
# ifdef WIDE_CHAR_VERSION
/* Search in the `names' array for the characters. */
fcollseq = collseq_table_lookup (collseq, fn);
if (fcollseq == ~((uint32_t) 0))
/* XXX We don't know anything about the character
we are supposed to match. This means we are
failing. */
goto range_not_matched;
if (is_seqval)
lcollseq = cold;
else
lcollseq = collseq_table_lookup (collseq, cold);
# else
fcollseq = collseq[fn];
lcollseq = is_seqval ? cold : collseq[(UCHAR) cold];
# endif
is_seqval = 0;
if (cend == L('[') && *p == L('.'))
{
uint32_t nrules =
_NL_CURRENT_WORD (LC_COLLATE,
_NL_COLLATE_NRULES);
const CHAR *startp = p;
size_t c1 = 0;
while (1)
{
c = *++p;
if (c == L('.') && p[1] == L(']'))
{
p += 2;
break;
}
if (c == '\0')
return FNM_NOMATCH;
++c1;
}
if (nrules == 0)
{
/* There are no names defined in the
collation data. Therefore we only
accept the trivial names consisting
of the character itself. */
if (c1 != 1)
return FNM_NOMATCH;
cend = startp[1];
}
else
{
int32_t table_size;
const int32_t *symb_table;
# ifdef WIDE_CHAR_VERSION
char str[c1];
unsigned int strcnt;
# else
# define str (startp + 1)
# endif
const unsigned char *extra;
int32_t idx;
int32_t elem;
int32_t second;
int32_t hash;
# ifdef WIDE_CHAR_VERSION
/* We have to convert the name to a single-byte
string. This is possible since the names
consist of ASCII characters and the internal
representation is UCS4. */
for (strcnt = 0; strcnt < c1; ++strcnt)
str[strcnt] = startp[1 + strcnt];
# endif
table_size =
_NL_CURRENT_WORD (LC_COLLATE,
_NL_COLLATE_SYMB_HASH_SIZEMB);
symb_table = (const int32_t *)
_NL_CURRENT (LC_COLLATE,
_NL_COLLATE_SYMB_TABLEMB);
extra = (const unsigned char *)
_NL_CURRENT (LC_COLLATE,
_NL_COLLATE_SYMB_EXTRAMB);
/* Locate the character in the hashing
table. */
hash = elem_hash (str, c1);
idx = 0;
elem = hash % table_size;
second = hash % (table_size - 2);
while (symb_table[2 * elem] != 0)
{
/* First compare the hashing value. */
if (symb_table[2 * elem] == hash
&& (c1
== extra[symb_table[2 * elem + 1]])
&& memcmp (str,
&extra[symb_table[2 * elem + 1]
+ 1], c1) == 0)
{
/* Yep, this is the entry. */
idx = symb_table[2 * elem + 1];
idx += 1 + extra[idx];
break;
}
/* Next entry. */
elem += second;
}
if (symb_table[2 * elem] != 0)
{
/* Compare the byte sequence but only if
this is not part of a range. */
# ifdef WIDE_CHAR_VERSION
int32_t *wextra;
idx += 1 + extra[idx];
/* Adjust for the alignment. */
idx = (idx + 3) & ~4;
wextra = (int32_t *) &extra[idx + 4];
# endif
/* Get the collation sequence value. */
is_seqval = 1;
# ifdef WIDE_CHAR_VERSION
cend = wextra[1 + wextra[idx]];
# else
/* Adjust for the alignment. */
idx += 1 + extra[idx];
idx = (idx + 3) & ~4;
cend = *((int32_t *) &extra[idx]);
# endif
}
else if (symb_table[2 * elem] != 0 && c1 == 1)
{
cend = str[0];
c = *p++;
}
else
return FNM_NOMATCH;
}
# undef str
}
else
{
if (!(flags & FNM_NOESCAPE) && cend == L('\\'))
cend = *p++;
if (cend == L('\0'))
return FNM_NOMATCH;
cend = FOLD (cend);
}
/* XXX It is not entirely clear to me how to handle
characters which are not mentioned in the
collation specification. */
if (
# ifdef WIDE_CHAR_VERSION
lcollseq == 0xffffffff ||
# endif
lcollseq <= fcollseq)
{
/* We have to look at the upper bound. */
uint32_t hcollseq;
if (is_seqval)
hcollseq = cend;
else
{
# ifdef WIDE_CHAR_VERSION
hcollseq =
collseq_table_lookup (collseq, cend);
if (hcollseq == ~((uint32_t) 0))
{
/* Hum, no information about the upper
bound. The matching succeeds if the
lower bound is matched exactly. */
if (lcollseq != fcollseq)
goto range_not_matched;
goto matched;
}
# else
hcollseq = collseq[cend];
# endif
}
if (lcollseq <= hcollseq && fcollseq <= hcollseq)
goto matched;
}
# ifdef WIDE_CHAR_VERSION
range_not_matched:
# endif
#else
/* We use a boring value comparison of the character
values. This is better than comparing using
`strcoll' since the latter would have surprising
and sometimes fatal consequences. */
UCHAR cend = *p++;
if (!(flags & FNM_NOESCAPE) && cend == L('\\'))
cend = *p++;
if (cend == L('\0'))
return FNM_NOMATCH;
/* It is a range. */
if (cold <= fn && fn <= cend)
goto matched;
#endif
c = *p++;
}
}
if (c == L(']'))
break;
}
if (!not)
return FNM_NOMATCH;
break;
matched:
/* Skip the rest of the [...] that already matched. */
do
{
ignore_next:
c = *p++;
if (c == L('\0'))
/* [... (unterminated) loses. */
return FNM_NOMATCH;
if (!(flags & FNM_NOESCAPE) && c == L('\\'))
{
if (*p == L('\0'))
return FNM_NOMATCH;
/* XXX 1003.2d11 is unclear if this is right. */
++p;
}
else if (c == L('[') && *p == L(':'))
{
int c1 = 0;
const CHAR *startp = p;
while (1)
{
c = *++p;
if (++c1 == CHAR_CLASS_MAX_LENGTH)
return FNM_NOMATCH;
if (*p == L(':') && p[1] == L(']'))
break;
if (c < L('a') || c >= L('z'))
{
p = startp;
goto ignore_next;
}
}
p += 2;
c = *p++;
}
else if (c == L('[') && *p == L('='))
{
c = *++p;
if (c == L('\0'))
return FNM_NOMATCH;
c = *++p;
if (c != L('=') || p[1] != L(']'))
return FNM_NOMATCH;
p += 2;
c = *p++;
}
else if (c == L('[') && *p == L('.'))
{
++p;
while (1)
{
c = *++p;
if (c == '\0')
return FNM_NOMATCH;
if (*p == L('.') && p[1] == L(']'))
break;
}
p += 2;
c = *p++;
}
}
while (c != L(']'));
if (not)
return FNM_NOMATCH;
}
break;
case L('+'):
case L('@'):
case L('!'):
if (__builtin_expect (flags & FNM_EXTMATCH, 0) && *p == '(')
{
int res;
res = EXT (c, p, n, string_end, no_leading_period, flags);
if (res != -1)
return res;
}
goto normal_match;
case L('/'):
if (NO_LEADING_PERIOD (flags))
{
if (n == string_end || c != *n)
return FNM_NOMATCH;
new_no_leading_period = 1;
break;
}
/* FALLTHROUGH */
default:
normal_match:
if (n == string_end || c != FOLD ((UCHAR) *n))
return FNM_NOMATCH;
}
no_leading_period = new_no_leading_period;
++n;
}
if (n == string_end)
return 0;
if ((flags & FNM_LEADING_DIR) && n != string_end && *n == L('/'))
/* The FNM_LEADING_DIR flag says that "foo*" matches "foobar/frobozz". */
return 0;
return FNM_NOMATCH;
}
static const CHAR *
internal_function
END (const CHAR *pattern)
{
const CHAR *p = pattern;
while (1)
if (*++p == L('\0'))
/* This is an invalid pattern. */
return pattern;
else if (*p == L('['))
{
/* Handle brackets special. */
if (posixly_correct == 0)
posixly_correct = getenv ("POSIXLY_CORRECT") != NULL ? 1 : -1;
/* Skip the not sign. We have to recognize it because of a possibly
following ']'. */
if (*++p == L('!') || (posixly_correct < 0 && *p == L('^')))
++p;
/* A leading ']' is recognized as such. */
if (*p == L(']'))
++p;
/* Skip over all characters of the list. */
while (*p != L(']'))
if (*p++ == L('\0'))
/* This is no valid pattern. */
return pattern;
}
else if ((*p == L('?') || *p == L('*') || *p == L('+') || *p == L('@')
|| *p == L('!')) && p[1] == L('('))
p = END (p + 1);
else if (*p == L(')'))
break;
return p + 1;
}
static int
internal_function
EXT (INT opt, const CHAR *pattern, const CHAR *string, const CHAR *string_end,
int no_leading_period, int flags)
{
const CHAR *startp;
int level;
struct patternlist
{
struct patternlist *next;
CHAR str[0];
} *list = NULL;
struct patternlist **lastp = &list;
size_t pattern_len = STRLEN (pattern);
const CHAR *p;
const CHAR *rs;
/* Parse the pattern. Store the individual parts in the list. */
level = 0;
for (startp = p = pattern + 1; level >= 0; ++p)
if (*p == L('\0'))
/* This is an invalid pattern. */
return -1;
else if (*p == L('['))
{
/* Handle brackets special. */
if (posixly_correct == 0)
posixly_correct = getenv ("POSIXLY_CORRECT") != NULL ? 1 : -1;
/* Skip the not sign. We have to recognize it because of a possibly
following ']'. */
if (*++p == L('!') || (posixly_correct < 0 && *p == L('^')))
++p;
/* A leading ']' is recognized as such. */
if (*p == L(']'))
++p;
/* Skip over all characters of the list. */
while (*p != L(']'))
if (*p++ == L('\0'))
/* This is no valid pattern. */
return -1;
}
else if ((*p == L('?') || *p == L('*') || *p == L('+') || *p == L('@')
|| *p == L('!')) && p[1] == L('('))
/* Remember the nesting level. */
++level;
else if (*p == L(')'))
{
if (level-- == 0)
{
/* This means we found the end of the pattern. */
#define NEW_PATTERN \
struct patternlist *newp; \
\
if (opt == L('?') || opt == L('@')) \
newp = alloca (sizeof (struct patternlist) \
+ (pattern_len * sizeof (CHAR))); \
else \
newp = alloca (sizeof (struct patternlist) \
+ ((p - startp + 1) * sizeof (CHAR))); \
*((CHAR *) MEMPCPY (newp->str, startp, p - startp)) = L('\0'); \
newp->next = NULL; \
*lastp = newp; \
lastp = &newp->next
NEW_PATTERN;
}
}
else if (*p == L('|'))
{
if (level == 0)
{
NEW_PATTERN;
startp = p + 1;
}
}
assert (list != NULL);
assert (p[-1] == L(')'));
#undef NEW_PATTERN
switch (opt)
{
case L('*'):
if (FCT (p, string, string_end, no_leading_period, flags) == 0)
return 0;
/* FALLTHROUGH */
case L('+'):
do
{
for (rs = string; rs <= string_end; ++rs)
/* First match the prefix with the current pattern with the
current pattern. */
if (FCT (list->str, string, rs, no_leading_period,
flags & FNM_FILE_NAME ? flags : flags & ~FNM_PERIOD) == 0
/* This was successful. Now match the rest with the rest
of the pattern. */
&& (FCT (p, rs, string_end,
rs == string
? no_leading_period
: rs[-1] == '/' && NO_LEADING_PERIOD (flags) ? 1 : 0,
flags & FNM_FILE_NAME
? flags : flags & ~FNM_PERIOD) == 0
/* This didn't work. Try the whole pattern. */
|| (rs != string
&& FCT (pattern - 1, rs, string_end,
rs == string
? no_leading_period
: (rs[-1] == '/' && NO_LEADING_PERIOD (flags)
? 1 : 0),
flags & FNM_FILE_NAME
? flags : flags & ~FNM_PERIOD) == 0)))
/* It worked. Signal success. */
return 0;
}
while ((list = list->next) != NULL);
/* None of the patterns lead to a match. */
return FNM_NOMATCH;
case L('?'):
if (FCT (p, string, string_end, no_leading_period, flags) == 0)
return 0;
/* FALLTHROUGH */
case L('@'):
do
/* I cannot believe it but `strcat' is actually acceptable
here. Match the entire string with the prefix from the
pattern list and the rest of the pattern following the
pattern list. */
if (FCT (STRCAT (list->str, p), string, string_end,
no_leading_period,
flags & FNM_FILE_NAME ? flags : flags & ~FNM_PERIOD) == 0)
/* It worked. Signal success. */
return 0;
while ((list = list->next) != NULL);
/* None of the patterns lead to a match. */
return FNM_NOMATCH;
case L('!'):
for (rs = string; rs <= string_end; ++rs)
{
struct patternlist *runp;
for (runp = list; runp != NULL; runp = runp->next)
if (FCT (runp->str, string, rs, no_leading_period,
flags & FNM_FILE_NAME ? flags : flags & ~FNM_PERIOD) == 0)
break;
/* If none of the patterns matched see whether the rest does. */
if (runp == NULL
&& (FCT (p, rs, string_end,
rs == string
? no_leading_period
: rs[-1] == '/' && NO_LEADING_PERIOD (flags) ? 1 : 0,
flags & FNM_FILE_NAME ? flags : flags & ~FNM_PERIOD)
== 0))
/* This is successful. */
return 0;
}
/* None of the patterns together with the rest of the pattern
lead to a match. */
return FNM_NOMATCH;
default:
assert (! "Invalid extended matching operator");
break;
}
return -1;
}
#undef FOLD
#undef CHAR
#undef UCHAR
#undef INT
#undef FCT
#undef EXT
#undef END
#undef MEMPCPY
#undef MEMCHR
#undef STRCOLL
#undef STRLEN
#undef STRCAT
#undef L
#undef BTOWC
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