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|
/*
* pattern.c - pattern matching
*
* This file is part of zsh, the Z shell.
*
* Copyright (c) 1999 Peter Stephenson
* All rights reserved.
*
* Permission is hereby granted, without written agreement and without
* license or royalty fees, to use, copy, modify, and distribute this
* software and to distribute modified versions of this software for any
* purpose, provided that the above copyright notice and the following
* two paragraphs appear in all copies of this software.
*
* In no event shall Peter Stephenson or the Zsh Development Group be liable
* to any party for direct, indirect, special, incidental, or consequential
* damages arising out of the use of this software and its documentation,
* even if Peter Stephenson and the Zsh Development Group have been advised of
* the possibility of such damage.
*
* Peter Stephenson and the Zsh Development Group specifically disclaim any
* warranties, including, but not limited to, the implied warranties of
* merchantability and fitness for a particular purpose. The software
* provided hereunder is on an "as is" basis, and Peter Stephenson and the
* Zsh Development Group have no obligation to provide maintenance,
* support, updates, enhancements, or modifications.
*
* Pattern matching code derived from the regexp library by Henry
* Spencer, which has the following copyright.
*
* Copyright (c) 1986 by University of Toronto.
* Written by Henry Spencer. Not derived from licensed software.
*
* Permission is granted to anyone to use this software for any
* purpose on any computer system, and to redistribute it freely,
* subject to the following restrictions:
*
* 1. The author is not responsible for the consequences of use of
* this software, no matter how awful, even if they arise
* from defects in it.
*
* 2. The origin of this software must not be misrepresented, either
* by explicit claim or by omission.
*
* 3. Altered versions must be plainly marked as such, and must not
* be misrepresented as being the original software.
*
* Eagle-eyed readers will notice this is an altered version. Incredibly
* sharp-eyed readers might even find bits that weren't altered.
*
*
* And I experienced a sense that, like certain regular
* expressions, seemed to match the day from beginning to end, so
* that I did not need to identify the parenthesised subexpression
* that told of dawn, nor the group of characters that indicated
* the moment when my grandfather returned home with news of
* Swann's departure for Paris; and the whole length of the month
* of May, as if matched by a closure, fitted into the buffer of my
* life with no sign of overflowing, turning the days, like a
* procession of insects that could consist of this or that
* species, into a random and unstructured repetition of different
* sequences, anchored from the first day of the month to the last
* in the same fashion as the weeks when I knew I would not see
* Gilberte and would search in vain for any occurrences of the
* string in the avenue of hawthorns by Tansonville, without my
* having to delimit explicitly the start or finish of the pattern.
*
* M. Proust, "In Search of Lost Files",
* bk I, "The Walk by Bourne's Place".
*/
#include "zsh.mdh"
/*
* The following union is used mostly for alignment purposes.
* Normal nodes are longs, while certain nodes take a char * as an argument;
* here we make sure that they both work out to the same length.
* The compiled regexp we construct consists of upats stuck together;
* anything else to be added (strings, numbers) is stuck after and
* then aligned to a whole number of upat units.
*
* Note also that offsets are in terms of the sizes of these things.
*/
union upat {
long l;
unsigned char *p;
};
typedef union upat *Upat;
#include "pattern.pro"
/* Number of active parenthesized expressions allowed in backreferencing */
#define NSUBEXP 9
/* definition number opnd? meaning */
#define P_END 0x00 /* no End of program. */
#define P_EXCSYNC 0x01 /* no Test if following exclude already failed */
#define P_EXCEND 0x02 /* no Test if exclude matched orig branch */
#define P_BACK 0x03 /* no Match "", "next" ptr points backward. */
#define P_EXACTLY 0x04 /* lstr Match this string. */
#define P_NOTHING 0x05 /* no Match empty string. */
#define P_ONEHASH 0x06 /* node Match this (simple) thing 0 or more times. */
#define P_TWOHASH 0x07 /* node Match this (simple) thing 1 or more times. */
#define P_GFLAGS 0x08 /* long Match nothing and set globbing flags */
#define P_ISSTART 0x09 /* no Match start of string. */
#define P_ISEND 0x0a /* no Match end of string. */
#define P_COUNTSTART 0x0b /* no Initialise P_COUNT */
#define P_COUNT 0x0c /* 3*long uc* node Match a number of repetitions */
/* numbered so we can test bit 5 for a branch */
#define P_BRANCH 0x20 /* node Match this alternative, or the next... */
#define P_WBRANCH 0x21 /* uc* node P_BRANCH, but match at least 1 char */
/* excludes are also branches, but have bit 4 set, too */
#define P_EXCLUDE 0x30 /* uc* node Exclude this from previous branch */
#define P_EXCLUDP 0x31 /* uc* node Exclude, using full file path so far */
/* numbered so we can test bit 6 so as not to match initial '.' */
#define P_ANY 0x40 /* no Match any one character. */
#define P_ANYOF 0x41 /* str Match any character in this string. */
#define P_ANYBUT 0x42 /* str Match any character not in this string. */
#define P_STAR 0x43 /* no Match any set of characters. */
#define P_NUMRNG 0x44 /* zr, zr Match a numeric range. */
#define P_NUMFROM 0x45 /* zr Match a number >= X */
#define P_NUMTO 0x46 /* zr Match a number <= X */
#define P_NUMANY 0x47 /* no Match any set of decimal digits */
/* spaces left for P_OPEN+n,... for backreferences */
#define P_OPEN 0x80 /* no Mark this point in input as start of n. */
#define P_CLOSE 0x90 /* no Analogous to OPEN. */
/*
* no no argument
* zr the range type zrange_t: may be zlong or unsigned long
* char a single char
* uc* a pointer to unsigned char, used at run time and initialised
* to NULL.
* str null-terminated, metafied string
* lstr length as long then string, not null-terminated, unmetafied.
*/
/*
* Notes on usage:
* P_WBRANCH: This works like a branch and is used in complex closures,
* to ensure we don't succeed on a zero-length match of the pattern,
* since that would cause an infinite loop. We do this by recording
* the positions where we have already tried to match. See the
* P_WBRANCH test in patmatch().
*
* P_ANY, P_ANYOF: the operand is a null terminated
* string. Normal characters match as expected. Characters
* in the range Meta+PP_ALPHA..Meta+PP_UNKWN do the appropriate
* Posix range tests. This relies on imeta returning true for these
* characters. We treat unknown POSIX ranges as never matching.
* PP_RANGE means the next two (possibly metafied) characters form
* the limits of a range to test; it's too much like hard work to
* expand the range.
*
* P_EXCLUDE, P_EXCSYNC, PEXCEND: P_EXCLUDE appears in the pattern like
* P_BRANCH, but applies to the immediately preceding branch. The code in
* the corresponding branch is followed by a P_EXCSYNC, which simply
* acts as a marker that a P_EXCLUDE comes next. The P_EXCLUDE
* has a pointer to char embeded in it, which works
* like P_WBRANCH: if we get to the P_EXCSYNC, and we already matched
* up to the same position, fail. Thus we are forced to backtrack
* on closures in the P_BRANCH if the first attempt was excluded.
* Corresponding to P_EXCSYNC in the original branch, there is a
* P_EXCEND in the exclusion. If we get to this point, and we did
* *not* match in the original branch, the exclusion itself fails,
* otherwise it succeeds since we know the tail already matches,
* so P_EXCEND is the end of the exclusion test.
* The whole sorry mess looks like this, where the upper lines
* show the linkage of the branches, and the lower shows the linkage
* of their pattern arguments.
*
* --------------------- ----------------------
* ^ v ^ v
* ( <BRANCH>:apat-><EXCSYNC> <EXCLUDE>:excpat-><EXCEND> ) tail
* ^
* | |
* --------------------------------------
*
* P_EXCLUDP: this behaves exactly like P_EXCLUDE, with the sole exception
* that we prepend the path so far to the exclude pattern. This is
* for top level file globs, e.g. ** / *.c~*foo.c
* ^ I had to leave this space
* P_NUM*: zl is a zlong if that is 64-bit, else an unsigned long.
*
* P_COUNTSTART, P_COUNT: a P_COUNTSTART flags the start of a quantified
* closure (#cN,M) and is used to initialise the count. Executing
* the pattern leads back to the P_COUNT, while the next links of the
* P_COUNTSTART and P_COUNT lead to the tail of the pattern:
*
* ----------------
* v ^
* <COUNTSTART><COUNT>pattern<BACK> tail
* v v ^
* ------------------------
*/
#define P_OP(p) ((p)->l & 0xff)
#define P_NEXT(p) ((p)->l >> 8)
#define P_OPERAND(p) ((p) + 1)
#define P_ISBRANCH(p) ((p)->l & 0x20)
#define P_ISEXCLUDE(p) (((p)->l & 0x30) == 0x30)
#define P_NOTDOT(p) ((p)->l & 0x40)
/* Specific to lstr type, i.e. P_EXACTLY. */
#define P_LS_LEN(p) ((p)[1].l) /* can be used as lvalue */
#define P_LS_STR(p) ((char *)((p) + 2))
/* Specific to P_COUNT: arguments as offset in nodes from operator */
#define P_CT_CURRENT (1) /* Current count */
#define P_CT_MIN (2) /* Minimum count */
#define P_CT_MAX (3) /* Maximum count, -1 for none */
#define P_CT_PTR (4) /* Pointer to last match start */
#define P_CT_OPERAND (5) /* Operand of P_COUNT */
/* Flags needed when pattern is executed */
#define P_SIMPLE 0x01 /* Simple enough to be #/## operand. */
#define P_HSTART 0x02 /* Starts with # or ##'d pattern. */
#define P_PURESTR 0x04 /* Can be matched with a strcmp */
#if defined(ZSH_64_BIT_TYPE) || defined(LONG_IS_64_BIT)
typedef zlong zrange_t;
#define ZRANGE_T_IS_SIGNED (1)
#define ZRANGE_MAX ZLONG_MAX
#else
typedef unsigned long zrange_t;
#define ZRANGE_MAX ULONG_MAX
#endif
#ifdef MULTIBYTE_SUPPORT
/*
* Handle a byte that's not part of a valid character.
*
* This range in Unicode is recommended for purposes of this
* kind as it corresponds to invalid characters.
*
* Note that this strictly only works if wchar_t represents
* Unicode code points, which isn't necessarily true; however,
* converting an invalid character into an unknown format is
* a bit tricky...
*/
#define WCHAR_INVALID(ch) \
((wchar_t) (0xDC00 + STOUC(ch)))
#endif /* MULTIBYTE_SUPPORT */
/*
* Array of characters corresponding to zpc_chars enum, which it must match.
*/
static const char zpc_chars[ZPC_COUNT] = {
'/', '\0', Bar, Outpar, Tilde, Inpar, Quest, Star, Inbrack, Inang,
Hat, Pound, Bnullkeep, Quest, Star, '+', '!', '@'
};
/*
* Corresponding strings used in enable/disable -p.
* NULL means no way of turning this on or off.
*/
/**/
mod_export const char *zpc_strings[ZPC_COUNT] = {
NULL, NULL, "|", NULL, "~", "(", "?", "*", "[", "<",
"^", "#", NULL, "?(", "*(", "+(", "!(", "@("
};
/*
* Corresponding array of pattern disables as set by the user
* using "disable -p".
*/
/**/
mod_export char zpc_disables[ZPC_COUNT];
/*
* Stack of saved (compressed) zpc_disables for function scope.
*/
static struct zpc_disables_save *zpc_disables_stack;
/*
* Characters which terminate a simple string (ZPC_COUNT) or
* an entire pattern segment (the first ZPC_SEG_COUNT).
* Each entry is either the corresponding character in zpc_chars
* or Marker which is guaranteed not to match a character in a
* pattern we are compiling.
*
* The complete list indicates characters that are special, so e.g.
* (testchar == special[ZPC_TILDE]) succeeds only if testchar is a Tilde
* *and* Tilde is currently special.
*/
/**/
char zpc_special[ZPC_COUNT];
/* Default size for pattern buffer */
#define P_DEF_ALLOC 256
/* Flags used in compilation */
static char *patstart, *patparse; /* input pointers */
static int patnpar; /* () count */
static char *patcode; /* point of code emission */
static long patsize; /* size of code */
static char *patout; /* start of code emission string */
static long patalloc; /* size allocated for same */
/* Flags used in both compilation and execution */
static int patflags; /* flags passed down to patcompile */
static int patglobflags; /* globbing flags & approx */
/*
* Increment pointer to metafied multibyte string.
*/
#ifdef MULTIBYTE_SUPPORT
typedef wint_t patint_t;
#define PEOF WEOF
#define METACHARINC(x) ((void)metacharinc(&x))
/*
* TODO: the shiftstate isn't well handled; we don't guarantee
* to maintain it properly between characters. If we don't
* need it we should use mbtowc() instead.
*/
static mbstate_t shiftstate;
/*
* Multibyte version: it's (almost) as easy to return the
* value as not, so do so since we sometimes need it..
*/
static wchar_t
metacharinc(char **x)
{
char *inptr = *x;
char inchar;
size_t ret = MB_INVALID;
wchar_t wc;
/*
* Cheat if the top bit isn't set. This is second-guessing
* the library, but we know for sure that if the character
* set doesn't have the property that all bytes with the 8th
* bit clear are single characters then we are stuffed.
*/
if (!(patglobflags & GF_MULTIBYTE) || !(STOUC(*inptr) & 0x80))
{
if (itok(*inptr))
inchar = ztokens[*inptr++ - Pound];
else if (*inptr == Meta) {
inptr++;
inchar = *inptr++ ^ 32;
} else {
inchar = *inptr++;
}
*x = inptr;
return (wchar_t)STOUC(inchar);
}
while (*inptr) {
if (itok(*inptr))
inchar = ztokens[*inptr++ - Pound];
else if (*inptr == Meta) {
inptr++;
inchar = *inptr++ ^ 32;
} else {
inchar = *inptr++;
}
ret = mbrtowc(&wc, &inchar, 1, &shiftstate);
if (ret == MB_INVALID)
break;
if (ret == MB_INCOMPLETE)
continue;
*x = inptr;
return wc;
}
/* Error. */
/* Reset the shift state for next time. */
memset(&shiftstate, 0, sizeof(shiftstate));
return WCHAR_INVALID(*(*x)++);
}
#else
typedef int patint_t;
#define PEOF EOF
#define METACHARINC(x) ((void)((x) += (*(x) == Meta) ? 2 : 1))
#endif
/*
* Return unmetafied char from string (x is any char *).
* Used with MULTIBYTE_SUPPORT if the GF_MULTIBYTE is not
* in effect.
*/
#define UNMETA(x) (*(x) == Meta ? (x)[1] ^ 32 : *(x))
/* Add n more characters, ensuring there is enough space. */
enum {
PA_NOALIGN = 1,
PA_UNMETA = 2
};
/**/
static void
patadd(char *add, int ch, long n, int paflags)
{
/* Make sure everything gets aligned unless we get PA_NOALIGN. */
long newpatsize = patsize + n;
if (!(paflags & PA_NOALIGN))
newpatsize = (newpatsize + sizeof(union upat) - 1) &
~(sizeof(union upat) - 1);
if (patalloc < newpatsize) {
long newpatalloc =
2*(newpatsize > patalloc ? newpatsize : patalloc);
patout = (char *)zrealloc((char *)patout, newpatalloc);
patcode = patout + patsize;
patalloc = newpatalloc;
}
patsize = newpatsize;
if (add) {
if (paflags & PA_UNMETA) {
/*
* Unmetafy and untokenize the string as we go.
* The Meta characters in add aren't counted in n.
*/
while (n--) {
if (itok(*add))
*patcode++ = ztokens[*add++ - Pound];
else if (*add == Meta) {
add++;
*patcode++ = *add++ ^ 32;
} else {
*patcode++ = *add++;
}
}
} else {
while (n--)
*patcode++ = *add++;
}
} else
*patcode++ = ch;
patcode = patout + patsize;
}
static long rn_offs;
/* operates on pointers to union upat, returns a pointer */
#define PATNEXT(p) ((rn_offs = P_NEXT(p)) ? \
(P_OP(p) == P_BACK) ? \
((p)-rn_offs) : ((p)+rn_offs) : NULL)
/*
* Set up zpc_special with characters that end a string segment.
* "Marker" cannot occur in the pattern we are compiling so
* is used to mark "invalid".
*/
static void
patcompcharsset(void)
{
char *spp, *disp;
int i;
/* Initialise enabled special characters */
memcpy(zpc_special, zpc_chars, ZPC_COUNT);
/* Apply user disables from disable -p */
for (i = 0, spp = zpc_special, disp = zpc_disables;
i < ZPC_COUNT;
i++, spp++, disp++) {
if (*disp)
*spp = Marker;
}
if (!isset(EXTENDEDGLOB)) {
/* Extended glob characters are not active */
zpc_special[ZPC_TILDE] = zpc_special[ZPC_HAT] =
zpc_special[ZPC_HASH] = Marker;
}
if (!isset(KSHGLOB)) {
/*
* Ksh glob characters are not active.
* * and ? are shared with normal globbing, but for their
* use here we are looking for a following Inpar.
*/
zpc_special[ZPC_KSH_QUEST] = zpc_special[ZPC_KSH_STAR] =
zpc_special[ZPC_KSH_PLUS] = zpc_special[ZPC_KSH_BANG] =
zpc_special[ZPC_KSH_AT] = Marker;
}
/*
* Note that if we are using KSHGLOB, then we test for a following
* Inpar, not zpc_special[ZPC_INPAR]: the latter makes an Inpar on
* its own active. The zpc_special[ZPC_KSH_*] followed by any old Inpar
* discriminate ksh globbing.
*/
if (isset(SHGLOB)) {
/*
* Grouping and numeric ranges are not valid.
* We do allow alternation, however; it's needed for
* "case". This may not be entirely consistent.
*
* Don't disable Outpar: we may need to match the end of KSHGLOB
* parentheses and it would be difficult to tell them apart.
*/
zpc_special[ZPC_INPAR] = zpc_special[ZPC_INANG] = Marker;
}
}
/* Called before parsing a set of file matchs to initialize flags */
/**/
void
patcompstart(void)
{
patcompcharsset();
if (isset(CASEGLOB))
patglobflags = 0;
else
patglobflags = GF_IGNCASE;
if (isset(MULTIBYTE))
patglobflags |= GF_MULTIBYTE;
}
/*
* Top level pattern compilation subroutine
* exp is a null-terminated, metafied string.
* inflags is an or of some PAT_* flags.
* endexp, if non-null, is set to a pointer to the end of the
* part of exp which was compiled. This is used when
* compiling patterns for directories which must be
* matched recursively.
*/
/**/
mod_export Patprog
patcompile(char *exp, int inflags, char **endexp)
{
int flags = 0;
long len = 0;
long startoff;
Upat pscan;
char *lng, *strp = NULL;
Patprog p;
queue_signals();
startoff = sizeof(struct patprog);
/* Ensure alignment of start of program string */
startoff = (startoff + sizeof(union upat) - 1) & ~(sizeof(union upat) - 1);
/* Allocate reasonable sized chunk if none, reduce size if too big */
if (patalloc != P_DEF_ALLOC)
patout = (char *)zrealloc(patout, patalloc = P_DEF_ALLOC);
patcode = patout + startoff;
patsize = patcode - patout;
patstart = patparse = exp;
/*
* Note global patnpar numbers parentheses 1..9, while patnpar
* in struct is actual count of parentheses.
*/
patnpar = 1;
patflags = inflags & ~(PAT_PURES|PAT_HAS_EXCLUDP);
if (!(patflags & PAT_FILE)) {
patcompcharsset();
zpc_special[ZPC_SLASH] = Marker;
remnulargs(patparse);
if (isset(MULTIBYTE))
patglobflags = GF_MULTIBYTE;
else
patglobflags = 0;
}
if (patflags & PAT_LCMATCHUC)
patglobflags |= GF_LCMATCHUC;
/*
* Have to be set now, since they get updated during compilation.
*/
((Patprog)patout)->globflags = patglobflags;
if (!(patflags & PAT_ANY)) {
/* Look for a really pure string, with no tokens at all. */
if (!(patglobflags & ~GF_MULTIBYTE)
#ifdef __CYGWIN__
/*
* If the OS treats files case-insensitively and we
* are looking at files, we don't need to use pattern
* matching to find the file.
*/
|| (!(patglobflags & ~GF_IGNCASE) && (patflags & PAT_FILE))
#endif
)
{
/*
* Waah! I wish I understood this.
* Empty metafied strings have an initial Nularg.
* This never corresponds to a real character in
* a glob pattern or string, so skip it.
*/
if (*exp == Nularg)
exp++;
for (strp = exp; *strp &&
(!(patflags & PAT_FILE) || *strp != '/') && !itok(*strp);
strp++)
;
}
if (!strp || (*strp && *strp != '/')) {
/* No, do normal compilation. */
strp = NULL;
if (patcompswitch(0, &flags) == 0) {
unqueue_signals();
return NULL;
}
} else {
/*
* Yes, copy the string, and skip compilation altogether.
* Null terminate for the benefit of globbing.
* Leave metafied both for globbing and for our own
* efficiency.
*/
patparse = strp;
len = strp - exp;
patadd(exp, 0, len + 1, 0);
patout[startoff + len] = '\0';
patflags |= PAT_PURES;
}
}
/* end of compilation: safe to use pointers */
p = (Patprog)patout;
p->startoff = startoff;
p->patstartch = '\0';
p->globend = patglobflags;
p->flags = patflags;
p->mustoff = 0;
p->size = patsize;
p->patmlen = len;
p->patnpar = patnpar-1;
if (!strp) {
pscan = (Upat)(patout + startoff);
if (!(patflags & PAT_ANY) && P_OP(PATNEXT(pscan)) == P_END) {
/* only one top level choice */
pscan = P_OPERAND(pscan);
if (flags & P_PURESTR) {
/*
* The pattern can be matched with a simple strncmp/strcmp.
* Careful in case we've overwritten the node for the next ptr.
*/
char *dst = patout + startoff;
Upat next;
p->flags |= PAT_PURES;
for (; pscan; pscan = next) {
next = PATNEXT(pscan);
if (P_OP(pscan) == P_EXACTLY) {
char *opnd = P_LS_STR(pscan), *mtest;
long oplen = P_LS_LEN(pscan), ilen;
int nmeta = 0;
/*
* Unfortunately we unmetafied the string
* and we need to put any metacharacters
* back now we know it's a pure string.
* This shouldn't happen too often, it's
* just that there are some cases such
* as . and .. in files where we really
* need a pure string even if there are
* pattern characters flying around.
*/
for (mtest = opnd, ilen = oplen; ilen;
mtest++, ilen--)
if (imeta(*mtest))
nmeta++;
if (nmeta) {
char *oldpatout = patout;
patadd(NULL, 0, nmeta, 0);
/*
* Yuk.
*/
p = (Patprog)patout;
opnd = patout + (opnd - oldpatout);
dst = patout + startoff;
}
while (oplen--) {
if (imeta(*opnd)) {
*dst++ = Meta;
*dst++ = *opnd++ ^ 32;
} else {
*dst++ = *opnd++;
}
}
}
}
p->size = dst - patout;
/* patmlen is really strlen. We don't need a null. */
p->patmlen = p->size - startoff;
} else {
/* starting point info */
if (P_OP(pscan) == P_EXACTLY && !p->globflags &&
P_LS_LEN(pscan))
p->patstartch = *P_LS_STR(pscan);
/*
* Find the longest literal string in something expensive.
* This is itself not all that cheap if we have
* case-insensitive matching or approximation, so don't.
*/
if ((flags & P_HSTART) && !p->globflags) {
lng = NULL;
len = 0;
for (; pscan; pscan = PATNEXT(pscan))
if (P_OP(pscan) == P_EXACTLY &&
P_LS_LEN(pscan) >= len) {
lng = P_LS_STR(pscan);
len = P_LS_LEN(pscan);
}
if (lng) {
p->mustoff = lng - patout;
p->patmlen = len;
}
}
}
}
}
/*
* The pattern was compiled in a fixed buffer: unless told otherwise,
* we stick the compiled pattern on the heap. This is necessary
* for files where we will often be compiling multiple segments at once.
* But if we get the ZDUP flag we always put it in zalloc()ed memory.
*/
if (patflags & PAT_ZDUP) {
Patprog newp = (Patprog)zalloc(patsize);
memcpy((char *)newp, (char *)p, patsize);
p = newp;
} else if (!(patflags & PAT_STATIC)) {
Patprog newp = (Patprog)zhalloc(patsize);
memcpy((char *)newp, (char *)p, patsize);
p = newp;
}
if (endexp)
*endexp = patparse;
unqueue_signals();
return p;
}
/*
* Main body or parenthesized subexpression in pattern
* Parenthesis (and any ksh_glob gubbins) will have been removed.
*/
/**/
static long
patcompswitch(int paren, int *flagp)
{
long starter, br, ender, excsync = 0;
int parno = 0;
int flags, gfchanged = 0;
long savglobflags = (long)patglobflags;
Upat ptr;
*flagp = 0;
if (paren && (patglobflags & GF_BACKREF) && patnpar <= NSUBEXP) {
/*
* parenthesized: make an open node.
* We can only refer to the first nine parentheses.
* For any others, we just use P_OPEN on its own; there's
* no gain in arbitrarily limiting the number of parentheses.
*/
parno = patnpar++;
starter = patnode(P_OPEN + parno);
} else
starter = 0;
br = patnode(P_BRANCH);
if (!patcompbranch(&flags, paren))
return 0;
if (patglobflags != (int)savglobflags)
gfchanged++;
if (starter)
pattail(starter, br);
else
starter = br;
*flagp |= flags & (P_HSTART|P_PURESTR);
while (*patparse == zpc_chars[ZPC_BAR] ||
(*patparse == zpc_special[ZPC_TILDE] &&
(patparse[1] == '/' ||
!memchr(zpc_special, patparse[1], ZPC_SEG_COUNT)))) {
int tilde = *patparse++ == zpc_special[ZPC_TILDE];
long gfnode = 0, newbr;
*flagp &= ~P_PURESTR;
if (tilde) {
union upat up;
/* excsync remembers the P_EXCSYNC node before a chain of
* exclusions: all point back to this. only the
* original (non-excluded) branch gets a trailing P_EXCSYNC.
*/
if (!excsync) {
excsync = patnode(P_EXCSYNC);
patoptail(br, excsync);
}
/*
* By default, approximations are turned off in exclusions:
* we need to do this here as otherwise the code compiling
* the exclusion doesn't know if the flags have really
* changed if the error count gets restored.
*/
patglobflags &= ~0xff;
if (!(patflags & PAT_FILET) || paren) {
br = patnode(P_EXCLUDE);
} else {
/*
* At top level (paren == 0) in a file glob !(patflags
* &PAT_FILET) do the exclusion prepending the file path
* so far. We need to flag this to avoid unnecessarily
* copying the path.
*/
br = patnode(P_EXCLUDP);
patflags |= PAT_HAS_EXCLUDP;
}
up.p = NULL;
patadd((char *)&up, 0, sizeof(up), 0);
/* / is not treated as special if we are at top level */
if (!paren && zpc_special[ZPC_SLASH] == '/') {
tilde++;
zpc_special[ZPC_SLASH] = Marker;
}
} else {
excsync = 0;
br = patnode(P_BRANCH);
/*
* The position of the following statements means globflags
* set in the main branch carry over to the exclusion.
*/
if (!paren) {
patglobflags = 0;
if (((Patprog)patout)->globflags) {
/*
* If at top level, we need to reinitialize flags to zero,
* since (#i)foo|bar only applies to foo and we stuck
* the #i into the global flags.
* We could have done it so that they only got set in the
* first branch, but it's quite convenient having any
* global flags set in the header and not buried in the
* pattern. (Or maybe it isn't and we should
* forget this bit and always stick in an explicit GFLAGS
* statement instead of using the header.)
* Also, this can't happen for file globs where there are
* no top-level |'s.
*
* No gfchanged, as nothing to follow branch at top
* level.
*/
union upat up;
gfnode = patnode(P_GFLAGS);
up.l = patglobflags;
patadd((char *)&up, 0, sizeof(union upat), 0);
}
} else {
patglobflags = (int)savglobflags;
}
}
newbr = patcompbranch(&flags, paren);
if (tilde == 2) {
/* restore special treatment of / */
zpc_special[ZPC_SLASH] = '/';
}
if (!newbr)
return 0;
if (gfnode)
pattail(gfnode, newbr);
if (!tilde && patglobflags != (int)savglobflags)
gfchanged++;
pattail(starter, br);
if (excsync)
patoptail(br, patnode(P_EXCEND));
*flagp |= flags & P_HSTART;
}
/*
* Make a closing node, hooking it to the end.
* Note that we can't optimize P_NOTHING out here, since another
* branch at that point would indicate the current choices continue,
* which they don't.
*/
ender = patnode(paren ? parno ? P_CLOSE+parno : P_NOTHING : P_END);
pattail(starter, ender);
/*
* Hook the tails of the branches to the closing node,
* except for exclusions which terminate where they are.
*/
for (ptr = (Upat)patout + starter; ptr; ptr = PATNEXT(ptr))
if (!P_ISEXCLUDE(ptr))
patoptail(ptr-(Upat)patout, ender);
/* check for proper termination */
if ((paren && *patparse++ != Outpar) ||
(!paren && *patparse &&
!((patflags & PAT_FILE) && *patparse == '/')))
return 0;
if (paren && gfchanged) {
/*
* Restore old values of flags when leaving parentheses.
* gfchanged detects a change in any branch (except exclusions
* which are separate), since we need to emit this even if
* a later branch happened to put the flags back.
*/
pattail(ender, patnode(P_GFLAGS));
patglobflags = (int)savglobflags;
patadd((char *)&savglobflags, 0, sizeof(long), 0);
}
return starter;
}
/*
* Compile something ended by Bar, Outpar, Tilde, or end of string.
* Note the BRANCH or EXCLUDE tag must already have been omitted:
* this returns the position of the operand of that.
*/
/**/
static long
patcompbranch(int *flagp, int paren)
{
long chain, latest = 0, starter;
int flags = 0;
*flagp = P_PURESTR;
starter = chain = 0;
while (!memchr(zpc_special, *patparse, ZPC_SEG_COUNT) ||
(*patparse == zpc_special[ZPC_TILDE] && patparse[1] != '/' &&
memchr(zpc_special, patparse[1], ZPC_SEG_COUNT))) {
if ((*patparse == zpc_special[ZPC_INPAR] &&
patparse[1] == zpc_special[ZPC_HASH]) ||
(*patparse == zpc_special[ZPC_KSH_AT] && patparse[1] == Inpar &&
patparse[2] == zpc_special[ZPC_HASH])) {
/* Globbing flags. */
char *pp1 = patparse;
int oldglobflags = patglobflags, ignore;
long assert;
patparse += (*patparse == '@') ? 3 : 2;
if (!patgetglobflags(&patparse, &assert, &ignore))
return 0;
if (!ignore) {
if (assert) {
/*
* Start/end assertion looking like flags, but
* actually handled as a normal node
*/
latest = patnode(assert);
flags = 0;
} else {
if (pp1 == patstart) {
/* Right at start of pattern, the simplest case.
* Put them into the flags and don't emit anything.
*/
((Patprog)patout)->globflags = patglobflags;
continue;
} else if (!*patparse) {
/* Right at the end, so just leave the flags for
* the next Patprog in the chain to pick up.
*/
break;
}
/*
* Otherwise, we have to stick them in as a pattern
* matching nothing.
*/
if (oldglobflags != patglobflags) {
/* Flags changed */
union upat up;
latest = patnode(P_GFLAGS);
up.l = patglobflags;
patadd((char *)&up, 0, sizeof(union upat), 0);
} else {
/* No effect. */
continue;
}
}
} else if (!*patparse)
break;
else
continue;
} else if (*patparse == zpc_special[ZPC_HAT]) {
/*
* ^pat: anything but pat. For proper backtracking,
* etc., we turn this into (*~pat), except without the
* parentheses.
*/
patparse++;
latest = patcompnot(0, &flags);
} else
latest = patcomppiece(&flags, paren);
if (!latest)
return 0;
if (!starter)
starter = latest;
if (!(flags & P_PURESTR))
*flagp &= ~P_PURESTR;
if (!chain)
*flagp |= flags & P_HSTART;
else
pattail(chain, latest);
chain = latest;
}
/* check if there was nothing in the loop, i.e. () */
if (!chain)
starter = patnode(P_NOTHING);
return starter;
}
/* get glob flags, return 1 for success, 0 for failure */
/**/
int
patgetglobflags(char **strp, long *assertp, int *ignore)
{
char *nptr, *ptr = *strp;
zlong ret;
*assertp = 0;
*ignore = 1;
/* (#X): assumes we are still positioned on the first X */
for (; *ptr && *ptr != Outpar; ptr++) {
if (*ptr == 'q') {
/* Glob qualifiers, ignored in pattern code */
while (*ptr && *ptr != Outpar)
ptr++;
break;
} else {
*ignore = 0;
switch (*ptr) {
case 'a':
/* Approximate matching, max no. of errors follows */
ret = zstrtol(++ptr, &nptr, 10);
/*
* We can't have more than 254, because we need 255 to
* mark 254 errors in wbranch and exclude sync strings
* (hypothetically --- hope no-one tries it).
*/
if (ret < 0 || ret > 254 || ptr == nptr)
return 0;
patglobflags = (patglobflags & ~0xff) | (ret & 0xff);
ptr = nptr-1;
break;
case 'l':
/* Lowercase in pattern matches lower or upper in target */
patglobflags = (patglobflags & ~GF_IGNCASE) | GF_LCMATCHUC;
break;
case 'i':
/* Fully case insensitive */
patglobflags = (patglobflags & ~GF_LCMATCHUC) | GF_IGNCASE;
break;
case 'I':
/* Restore case sensitivity */
patglobflags &= ~(GF_LCMATCHUC|GF_IGNCASE);
break;
case 'b':
/* Make backreferences */
patglobflags |= GF_BACKREF;
break;
case 'B':
/* Don't make backreferences */
patglobflags &= ~GF_BACKREF;
break;
case 'm':
/* Make references to complete match */
patglobflags |= GF_MATCHREF;
break;
case 'M':
/* Don't */
patglobflags &= ~GF_MATCHREF;
break;
case 's':
*assertp = P_ISSTART;
break;
case 'e':
*assertp = P_ISEND;
break;
case 'u':
patglobflags |= GF_MULTIBYTE;
break;
case 'U':
patglobflags &= ~GF_MULTIBYTE;
break;
default:
return 0;
}
}
}
if (*ptr != Outpar)
return 0;
/* Start/end assertions must appear on their own. */
if (*assertp && (*strp)[1] != Outpar)
return 0;
*strp = ptr + 1;
return 1;
}
static const char *colon_stuffs[] = {
"alpha", "alnum", "ascii", "blank", "cntrl", "digit", "graph",
"lower", "print", "punct", "space", "upper", "xdigit", "IDENT",
"IFS", "IFSSPACE", "WORD", "INCOMPLETE", "INVALID", NULL
};
/*
* Handle the guts of a [:stuff:] character class element.
* start is the beginning of "stuff" and len is its length.
* This code is exported for the benefit of completion matching.
*/
/**/
mod_export int
range_type(char *start, int len)
{
const char **csp;
for (csp = colon_stuffs; *csp; csp++) {
if (strlen(*csp) == len && !strncmp(start, *csp, len))
return (csp - colon_stuffs) + PP_FIRST;
}
return PP_UNKWN;
}
/*
* Convert the contents of a [...] or [^...] expression (just the
* ... part) back into a string. This is used by compfiles -p/-P
* for some reason. The compiled form (a metafied string) is
* passed in rangestr.
*
* If outstr is non-NULL the compiled form is placed there. It
* must be sufficiently long. A terminating NULL is appended.
*
* Return the length required, not including the terminating NULL.
*
* TODO: this is non-multibyte for now. It will need to be defined
* appropriately with MULTIBYTE_SUPPORT when the completion matching
* code catches up.
*/
/**/
mod_export int
pattern_range_to_string(char *rangestr, char *outstr)
{
int len = 0;
while (*rangestr) {
if (imeta(STOUC(*rangestr))) {
int swtype = STOUC(*rangestr) - STOUC(Meta);
if (swtype == 0) {
/* Ordindary metafied character */
if (outstr)
{
*outstr++ = Meta;
*outstr++ = rangestr[1] ^ 32;
}
len += 2;
rangestr += 2;
} else if (swtype == PP_RANGE) {
/* X-Y range */
int i;
for (i = 0; i < 2; i++) {
if (*rangestr == Meta) {
if (outstr) {
*outstr++ = Meta;
*outstr++ = rangestr[1];
}
len += 2;
rangestr += 2;
} else {
if (outstr)
*outstr++ = *rangestr;
len++;
rangestr++;
}
if (i == 0) {
if (outstr)
*outstr++ = '-';
len++;
}
}
} else if (swtype >= PP_FIRST && swtype <= PP_LAST) {
/* [:stuff:]; we need to output [: and :] */
const char *found = colon_stuffs[swtype - PP_FIRST];
int newlen = strlen(found);
if (outstr) {
strcpy(outstr, "[:");
outstr += 2;
memcpy(outstr, found, newlen);
outstr += newlen;
strcpy(outstr, ":]");
outstr += 2;
}
len += newlen + 4;
rangestr++;
} else {
/* shouldn't happen */
DPUTS(1, "BUG: unknown PP_ code in pattern range");
rangestr++;
}
} else {
/* ordinary character, guaranteed no Meta handling needed */
if (outstr)
*outstr++ = *rangestr;
len++;
rangestr++;
}
}
if (outstr)
*outstr = '\0';
return len;
}
/*
* compile a chunk such as a literal string or a [...] followed
* by a possible hash operator
*/
/**/
static long
patcomppiece(int *flagp, int paren)
{
long starter = 0, next, op, opnd;
int flags, flags2, kshchar, len, ch, patch, nmeta;
int hash, count;
union upat up;
char *nptr, *str0, *ptr, *patprev;
zrange_t from, to;
char *charstart;
flags = 0;
str0 = patprev = patparse;
for (;;) {
/*
* Check if we have a string. First, we need to make sure
* the string doesn't introduce a ksh-like parenthesized expression.
*/
kshchar = '\0';
if (*patparse && patparse[1] == Inpar) {
if (*patparse == zpc_special[ZPC_KSH_PLUS])
kshchar = STOUC('+');
else if (*patparse == zpc_special[ZPC_KSH_BANG])
kshchar = STOUC('!');
else if (*patparse == zpc_special[ZPC_KSH_AT])
kshchar = STOUC('@');
else if (*patparse == zpc_special[ZPC_KSH_STAR])
kshchar = STOUC('*');
else if (*patparse == zpc_special[ZPC_KSH_QUEST])
kshchar = STOUC('?');
}
/*
* If '(' is disabled as a pattern char, allow ')' as
* an ordinary string character if there are no parentheses to
* close. Don't allow it otherwise, it changes the syntax.
*/
if (zpc_special[ZPC_INPAR] != Marker || *patparse != Outpar ||
paren) {
/*
* End of string (or no string at all) if ksh-type parentheses,
* or special character, unless that character is a tilde and
* the character following is an end-of-segment character. Thus
* tildes are not special if there is nothing following to
* be excluded.
*
* Don't look for X()-style kshglobs at this point; we've
* checked above for the case with parentheses and we don't
* want to match without parentheses.
*/
if (kshchar ||
(memchr(zpc_special, *patparse, ZPC_NO_KSH_GLOB) &&
(*patparse != zpc_special[ZPC_TILDE] ||
patparse[1] == '/' ||
!memchr(zpc_special, patparse[1], ZPC_SEG_COUNT)))) {
break;
}
}
/* Remember the previous character for backtracking */
patprev = patparse;
METACHARINC(patparse);
}
if (patparse > str0) {
long slen = patparse - str0;
int morelen;
/* Ordinary string: cancel kshchar lookahead */
kshchar = '\0';
/*
* Assume it matches a simple string until we find otherwise.
*/
flags |= P_PURESTR;
DPUTS(patparse == str0, "BUG: matched nothing in patcomppiece.");
/* more than one character matched? */
morelen = (patprev > str0);
/*
* If we have more than one character, a following hash
* or (#c...) only applies to the last, so backtrack one character.
*/
if ((*patparse == zpc_special[ZPC_HASH] ||
(*patparse == zpc_special[ZPC_INPAR] &&
patparse[1] == zpc_special[ZPC_HASH] &&
patparse[2] == 'c') ||
(*patparse == zpc_special[ZPC_KSH_AT] &&
patparse[1] == Inpar &&
patparse[2] == zpc_special[ZPC_HASH] &&
patparse[3] == 'c')) && morelen)
patparse = patprev;
/*
* If len is 1, we can't have an active # following, so doesn't
* matter that we don't make X in `XX#' simple.
*/
if (!morelen)
flags |= P_SIMPLE;
starter = patnode(P_EXACTLY);
/* Get length of string without metafication. */
nmeta = 0;
/* inherited from domatch, but why, exactly? */
if (*str0 == Nularg)
str0++;
for (ptr = str0; ptr < patparse; ptr++) {
if (*ptr == Meta) {
nmeta++;
ptr++;
}
}
slen = (patparse - str0) - nmeta;
/* First add length, which is a long */
patadd((char *)&slen, 0, sizeof(long), 0);
/*
* Then the string, not null terminated.
* Unmetafy and untokenize; pass the final length,
* which is what we need to allocate, i.e. not including
* a count for each Meta in the string.
*/
patadd(str0, 0, slen, PA_UNMETA);
nptr = P_LS_STR((Upat)patout + starter);
/*
* It's much simpler to turn off pure string mode for
* any case-insensitive or approximate matching; usually,
* that is correct, or they wouldn't have been turned on.
* However, we need to make sure we match a "." or ".."
* in a file name as a pure string. There's a minor bug
* that this will also apply to something like
* ..(#a1).. (i.e. the (#a1) has no effect), but if you're
* going to write funny patterns, you get no sympathy from me.
*/
if (patglobflags &
#ifdef __CYGWIN__
/*
* As above: don't use pattern matching for files
* just because of case insensitivity if file system
* is known to be case insensitive.
*
* This is known to be necessary in at least one case:
* if "mount -c /" is in effect, so that drives appear
* directly under / instead of the usual /cygdrive, they
* aren't shown by readdir(). So it's vital we don't use
* globbing to find "/c", since that'll fail.
*/
((patflags & PAT_FILE) ?
(0xFF|GF_LCMATCHUC) :
(0xFF|GF_LCMATCHUC|GF_IGNCASE))
#else
(0xFF|GF_LCMATCHUC|GF_IGNCASE)
#endif
) {
if (!(patflags & PAT_FILE))
flags &= ~P_PURESTR;
else if (!(nptr[0] == '.' &&
(slen == 1 || (nptr[1] == '.' && slen == 2))))
flags &= ~P_PURESTR;
}
} else {
if (kshchar)
patparse++;
patch = *patparse;
METACHARINC(patparse);
switch(patch) {
case Quest:
DPUTS(zpc_special[ZPC_QUEST] == Marker,
"Treating '?' as pattern character although disabled");
flags |= P_SIMPLE;
starter = patnode(P_ANY);
break;
case Star:
DPUTS(zpc_special[ZPC_STAR] == Marker,
"Treating '*' as pattern character although disabled");
/* kshchar is used as a sign that we can't have #'s. */
kshchar = -1;
starter = patnode(P_STAR);
break;
case Inbrack:
DPUTS(zpc_special[ZPC_INBRACK] == Marker,
"Treating '[' as pattern character although disabled");
flags |= P_SIMPLE;
if (*patparse == Hat || *patparse == '^' || *patparse == '!') {
patparse++;
starter = patnode(P_ANYBUT);
} else
starter = patnode(P_ANYOF);
/*
* []...] means match a "]" or other included characters.
* However, to be a bit helpful and for compatibility
* with other shells, don't take in that sense if
* there's no further "]". That's still imperfect,
* but it's all we can do --- we're required to
* treat [$var]*[$var]with empty var as [ ... ]
* containing "]*[".
*/
if (*patparse == Outbrack && strchr(patparse+1, Outbrack)) {
patparse++;
patadd(NULL, ']', 1, PA_NOALIGN);
}
while (*patparse && *patparse != Outbrack) {
/* Meta is not a token */
if (*patparse == Inbrack && patparse[1] == ':' &&
(nptr = strchr(patparse+2, ':')) &&
nptr[1] == Outbrack) {
/* Posix range. */
patparse += 2;
len = nptr - patparse;
ch = range_type(patparse, len);
patparse = nptr + 2;
if (ch != PP_UNKWN)
patadd(NULL, STOUC(Meta) + ch, 1, PA_NOALIGN);
continue;
}
charstart = patparse;
METACHARINC(patparse);
if (*patparse == '-' && patparse[1] &&
patparse[1] != Outbrack) {
patadd(NULL, STOUC(Meta)+PP_RANGE, 1, PA_NOALIGN);
if (itok(*charstart)) {
patadd(0, STOUC(ztokens[*charstart - Pound]), 1,
PA_NOALIGN);
} else {
patadd(charstart, 0, patparse-charstart, PA_NOALIGN);
}
charstart = ++patparse; /* skip ASCII '-' */
METACHARINC(patparse);
}
if (itok(*charstart)) {
patadd(0, STOUC(ztokens[*charstart - Pound]), 1,
PA_NOALIGN);
} else {
patadd(charstart, 0, patparse-charstart, PA_NOALIGN);
}
}
if (*patparse != Outbrack)
return 0;
patparse++;
/* terminate null string and fix alignment */
patadd(NULL, 0, 1, 0);
break;
case Inpar:
DPUTS(!kshchar && zpc_special[ZPC_INPAR] == Marker,
"Treating '(' as pattern character although disabled");
DPUTS(isset(SHGLOB) && !kshchar,
"Treating bare '(' as pattern character with SHGLOB");
if (kshchar == '!') {
/* This is nasty, we should really either handle all
* kshglobbing below or here. But most of the
* others look like non-ksh patterns, while this one
* doesn't, so we handle it here and leave the rest.
* We treat it like an extendedglob ^, except that
* it goes into parentheses.
*
* If we did do kshglob here, we could support
* the old behaviour that things like !(foo)##
* work, but it makes the code more complicated at
* the expense of allowing the user to do things
* they shouldn't.
*/
if (!(starter = patcompnot(1, &flags2)))
return 0;
} else if (!(starter = patcompswitch(1, &flags2)))
return 0;
flags |= flags2 & P_HSTART;
break;
case Inang:
/* Numeric glob */
DPUTS(zpc_special[ZPC_INANG] == Marker,
"Treating '<' as pattern character although disabled");
DPUTS(isset(SHGLOB), "Treating <..> as numeric range with SHGLOB");
len = 0; /* beginning present 1, end present 2 */
if (idigit(*patparse)) {
from = (zrange_t) zstrtol((char *)patparse,
(char **)&nptr, 10);
patparse = nptr;
len |= 1;
}
DPUTS(*patparse != '-', "BUG: - missing from numeric glob");
patparse++;
if (idigit(*patparse)) {
to = (zrange_t) zstrtol((char *)patparse,
(char **)&nptr, 10);
patparse = nptr;
len |= 2;
}
if (*patparse != Outang)
return 0;
patparse++;
switch(len) {
case 3:
starter = patnode(P_NUMRNG);
patadd((char *)&from, 0, sizeof(from), 0);
patadd((char *)&to, 0, sizeof(to), 0);
break;
case 2:
starter = patnode(P_NUMTO);
patadd((char *)&to, 0, sizeof(to), 0);
break;
case 1:
starter = patnode(P_NUMFROM);
patadd((char *)&from, 0, sizeof(from), 0);
break;
case 0:
starter = patnode(P_NUMANY);
break;
}
/* This can't be simple, because it isn't.
* Mention in manual that matching digits with [...]
* is more efficient.
*/
break;
case Pound:
DPUTS(zpc_special[ZPC_HASH] == Marker,
"Treating '#' as pattern character although disabled");
DPUTS(!isset(EXTENDEDGLOB), "BUG: # not treated as string");
/*
* A hash here is an error; it should follow something
* repeatable.
*/
return 0;
break;
case Bnullkeep:
/*
* Marker for restoring a backslash in output:
* does not match a character.
*/
next = patcomppiece(flagp, paren);
/*
* Can't match a pure string since we need to do this
* as multiple chunks.
*/
*flagp &= ~P_PURESTR;
return next;
break;
#ifdef DEBUG
default:
dputs("BUG: character not handled in patcomppiece");
return 0;
break;
#endif
}
}
count = 0;
if (!(hash = (*patparse == zpc_special[ZPC_HASH])) &&
!(count = ((*patparse == zpc_special[ZPC_INPAR] &&
patparse[1] == zpc_special[ZPC_HASH] &&
patparse[2] == 'c') ||
(*patparse == zpc_special[ZPC_KSH_AT] &&
patparse[1] == Inpar &&
patparse[2] == zpc_special[ZPC_HASH] &&
patparse[3] == 'c'))) &&
(kshchar <= 0 || kshchar == '@' || kshchar == '!')) {
*flagp = flags;
return starter;
}
/* too much at once doesn't currently work */
if (kshchar && (hash || count))
return 0;
if (kshchar == '*') {
op = P_ONEHASH;
*flagp = P_HSTART;
} else if (kshchar == '+') {
op = P_TWOHASH;
*flagp = P_HSTART;
} else if (kshchar == '?') {
op = 0;
*flagp = 0;
} else if (count) {
op = P_COUNT;
patparse += 3;
*flagp = P_HSTART;
} else if (*++patparse == zpc_special[ZPC_HASH]) {
op = P_TWOHASH;
patparse++;
*flagp = P_HSTART;
} else {
op = P_ONEHASH;
*flagp = P_HSTART;
}
/*
* Note optimizations with pointers into P_NOTHING branches: some
* should logically point to next node after current piece.
*
* Backtracking is also encoded in a slightly obscure way: the
* code emitted ensures we test the non-empty branch of complex
* patterns before the empty branch on each repetition. Hence
* each time we fail on a non-empty branch, we try the empty branch,
* which is equivalent to backtracking.
*/
if (op == P_COUNT) {
/* (#cN,M) */
union upat countargs[P_CT_OPERAND];
char *opp = patparse;
countargs[0].l = P_COUNT;
countargs[P_CT_CURRENT].l = 0L;
countargs[P_CT_MIN].l = (long)zstrtol(patparse, &patparse, 10);
if (patparse == opp) {
/* missing number treated as zero */
countargs[P_CT_MIN].l = 0L;
}
if (*patparse != ',' && *patparse != Comma) {
/* either max = min or error */
if (*patparse != Outpar)
return 0;
countargs[P_CT_MAX].l = countargs[P_CT_MIN].l;
} else {
opp = ++patparse;
countargs[P_CT_MAX].l = (long)zstrtol(patparse, &patparse, 10);
if (*patparse != Outpar)
return 0;
if (patparse == opp) {
/* missing number treated as infinity: record as -1 */
countargs[P_CT_MAX].l = -1L;
}
}
patparse++;
countargs[P_CT_PTR].p = NULL;
/* Mark this chain as a min/max count... */
patinsert(P_COUNTSTART, starter, (char *)countargs, sizeof(countargs));
/*
* The next of the operand is a loop back to the P_COUNT. This is
* how we get recursion for the count. We don't loop back to
* the P_COUNTSTART; that's used for initialising the count
* and saving and restoring the count for any enclosing use
* of the match.
*/
opnd = P_OPERAND(starter) + P_CT_OPERAND;
pattail(opnd, patnode(P_BACK));
pattail(opnd, P_OPERAND(starter));
/*
* The next of the counter operators is what follows the
* closure.
* This handles matching of the tail.
*/
next = patnode(P_NOTHING);
pattail(starter, next);
pattail(P_OPERAND(starter), next);
} else if ((flags & P_SIMPLE) && (op == P_ONEHASH || op == P_TWOHASH) &&
P_OP((Upat)patout+starter) == P_ANY) {
/* Optimize ?# to *. Silly thing to do, since who would use
* use ?# ? But it makes the later code shorter.
*/
Upat uptr = (Upat)patout + starter;
if (op == P_TWOHASH) {
/* ?## becomes ?* */
uptr->l = (uptr->l & ~0xff) | P_ANY;
pattail(starter, patnode(P_STAR));
} else {
uptr->l = (uptr->l & ~0xff) | P_STAR;
}
} else if ((flags & P_SIMPLE) && op && !(patglobflags & 0xff)) {
/* Simplify, but not if we need to look for approximations. */
patinsert(op, starter, NULL, 0);
} else if (op == P_ONEHASH) {
/* Emit x# as (x&|), where & means "self". */
up.p = NULL;
patinsert(P_WBRANCH, starter, (char *)&up, sizeof(up));
/* Either x */
patoptail(starter, patnode(P_BACK)); /* and loop */
patoptail(starter, starter); /* back */
pattail(starter, patnode(P_BRANCH)); /* or */
pattail(starter, patnode(P_NOTHING)); /* null. */
} else if (op == P_TWOHASH) {
/* Emit x## as x(&|) where & means "self". */
next = patnode(P_WBRANCH); /* Either */
up.p = NULL;
patadd((char *)&up, 0, sizeof(up), 0);
pattail(starter, next);
pattail(patnode(P_BACK), starter); /* loop back */
pattail(next, patnode(P_BRANCH)); /* or */
pattail(starter, patnode(P_NOTHING)); /* null. */
} else if (kshchar == '?') {
/* Emit ?(x) as (x|) */
patinsert(P_BRANCH, starter, NULL, 0); /* Either x */
pattail(starter, patnode(P_BRANCH)); /* or */
next = patnode(P_NOTHING); /* null */
pattail(starter, next);
patoptail(starter, next);
}
if (*patparse == zpc_special[ZPC_HASH])
return 0;
return starter;
}
/*
* Turn a ^foo (paren = 0) or !(foo) (paren = 1) into *~foo with
* parentheses if necessary. As you see, that's really quite easy.
*/
/**/
static long
patcompnot(int paren, int *flagsp)
{
union upat up;
long excsync, br, excl, n, starter;
int dummy;
/* Here, we're matching a star at the start. */
*flagsp = P_HSTART;
starter = patnode(P_BRANCH);
br = patnode(P_STAR);
excsync = patnode(P_EXCSYNC);
pattail(br, excsync);
pattail(starter, excl = patnode(P_EXCLUDE));
up.p = NULL;
patadd((char *)&up, 0, sizeof(up), 0);
if (!(br = (paren ? patcompswitch(1, &dummy) : patcompbranch(&dummy, 0))))
return 0;
pattail(br, patnode(P_EXCEND));
n = patnode(P_NOTHING); /* just so much easier */
pattail(excsync, n);
pattail(excl, n);
return starter;
}
/* Emit a node */
/**/
static long
patnode(long op)
{
long starter = (Upat)patcode - (Upat)patout;
union upat up;
up.l = op;
patadd((char *)&up, 0, sizeof(union upat), 0);
return starter;
}
/*
* insert an operator in front of an already emitted operand:
* we relocate the operand. there had better be nothing else after.
*/
/**/
static void
patinsert(long op, int opnd, char *xtra, int sz)
{
char *src, *dst, *opdst;
union upat buf, *lptr;
buf.l = 0;
patadd((char *)&buf, 0, sizeof(buf), 0);
if (sz)
patadd(xtra, 0, sz, 0);
src = patcode - sizeof(union upat) - sz;
dst = patcode;
opdst = patout + opnd * sizeof(union upat);
while (src > opdst)
*--dst = *--src;
/* A cast can't be an lvalue */
lptr = (Upat)opdst;
lptr->l = op;
opdst += sizeof(union upat);
while (sz--)
*opdst++ = *xtra++;
}
/* set the 'next' pointer at the end of a node chain */
/**/
static void
pattail(long p, long val)
{
Upat scan, temp;
long offset;
scan = (Upat)patout + p;
for (;;) {
if (!(temp = PATNEXT(scan)))
break;
scan = temp;
}
offset = (P_OP(scan) == P_BACK)
? (scan - (Upat)patout) - val : val - (scan - (Upat)patout);
scan->l |= offset << 8;
}
/* do pattail, but on operand of first argument; nop if operandless */
/**/
static void patoptail(long p, long val)
{
Upat ptr = (Upat)patout + p;
int op = P_OP(ptr);
if (!p || !P_ISBRANCH(ptr))
return;
if (op == P_BRANCH)
pattail(P_OPERAND(p), val);
else
pattail(P_OPERAND(p) + 1, val);
}
/*
* Run a pattern.
*/
static char *patinstart; /* Start of input string */
static char *patinend; /* End of input string */
static char *patinput; /* String input pointer */
static char *patinpath; /* Full path for use with ~ exclusions */
static int patinlen; /* Length of last successful match.
* Includes count of Meta characters.
*/
static char *patbeginp[NSUBEXP]; /* Pointer to backref beginnings */
static char *patendp[NSUBEXP]; /* Pointer to backref ends */
static int parsfound; /* parentheses (with backrefs) found */
static int globdots; /* Glob initial dots? */
/*
* Character functions operating on unmetafied strings.
*/
#ifdef MULTIBYTE_SUPPORT
/* Get a character from the start point in a string */
#define CHARREF(x, y) charref((x), (y), (int *)NULL)
static wchar_t
charref(char *x, char *y, int *zmb_ind)
{
wchar_t wc;
size_t ret;
if (!(patglobflags & GF_MULTIBYTE) || !(STOUC(*x) & 0x80))
return (wchar_t) STOUC(*x);
ret = mbrtowc(&wc, x, y-x, &shiftstate);
if (ret == MB_INVALID || ret == MB_INCOMPLETE) {
/* Error. */
/* Reset the shift state for next time. */
memset(&shiftstate, 0, sizeof(shiftstate));
if (zmb_ind)
*zmb_ind = (ret == MB_INVALID) ? ZMB_INVALID : ZMB_INCOMPLETE;
return WCHAR_INVALID(*x);
}
if (zmb_ind)
*zmb_ind = ZMB_VALID;
return wc;
}
/* Get a pointer to the next character */
#define CHARNEXT(x, y) charnext((x), (y))
static char *
charnext(char *x, char *y)
{
wchar_t wc;
size_t ret;
if (!(patglobflags & GF_MULTIBYTE) || !(STOUC(*x) & 0x80))
return x + 1;
ret = mbrtowc(&wc, x, y-x, &shiftstate);
if (ret == MB_INVALID || ret == MB_INCOMPLETE) {
/* Error. Treat as single byte. */
/* Reset the shift state for next time. */
memset(&shiftstate, 0, sizeof(shiftstate));
return x + 1;
}
/* Nulls here are normal characters */
return x + (ret ? ret : 1);
}
/* Increment a pointer past the current character. */
#define CHARINC(x, y) ((x) = charnext((x), (y)))
/* Get a character and increment */
#define CHARREFINC(x, y, z) charrefinc(&(x), (y), (z))
static wchar_t
charrefinc(char **x, char *y, int *z)
{
wchar_t wc;
size_t ret;
if (!(patglobflags & GF_MULTIBYTE) || !(STOUC(**x) & 0x80))
return (wchar_t) STOUC(*(*x)++);
ret = mbrtowc(&wc, *x, y-*x, &shiftstate);
if (ret == MB_INVALID || ret == MB_INCOMPLETE) {
/* Error. Treat as single byte, but flag. */
*z = 1;
/* Reset the shift state for next time. */
memset(&shiftstate, 0, sizeof(shiftstate));
return WCHAR_INVALID(*(*x)++);
}
/* Nulls here are normal characters */
*x += ret ? ret : 1;
return wc;
}
/*
* Counter the number of characters between two pointers, smaller first
*
* This is used when setting values in parameters, so we obey
* the MULTIBYTE option (even if it's been overridden locally).
*/
#define CHARSUB(x,y) charsub(x, y)
static ptrdiff_t
charsub(char *x, char *y)
{
ptrdiff_t res = 0;
size_t ret;
wchar_t wc;
if (!isset(MULTIBYTE))
return y - x;
while (x < y) {
ret = mbrtowc(&wc, x, y-x, &shiftstate);
if (ret == MB_INVALID || ret == MB_INCOMPLETE) {
/* Error. Treat remainder as single characters */
return res + (y - x);
}
/* Treat nulls as normal characters */
if (!ret)
ret = 1;
res++;
x += ret;
}
return res;
}
#else /* no MULTIBYTE_SUPPORT */
/* Get a character from the start point in a string */
#define CHARREF(x, y) (STOUC(*(x)))
/* Get a pointer to the next character */
#define CHARNEXT(x, y) ((x)+1)
/* Increment a pointer past the current character. */
#define CHARINC(x, y) ((x)++)
/* Get a character and increment */
#define CHARREFINC(x, y, z) (STOUC(*(x)++))
/* Counter the number of characters between two pointers, smaller first */
#define CHARSUB(x,y) ((y) - (x))
#endif /* MULTIBYTE_SUPPORT */
/*
* The following need to be accessed in the globbing scanner for
* a multi-component file path. See horror story in glob.c.
*/
/**/
int errsfound; /* Total error count so far */
/**/
int forceerrs; /* Forced maximum error count */
/**/
void
pattrystart(void)
{
forceerrs = -1;
errsfound = 0;
}
/*
* Test prog against null-terminated, metafied string.
*/
/**/
mod_export int
pattry(Patprog prog, char *string)
{
return pattryrefs(prog, string, -1, -1, 0, NULL, NULL, NULL);
}
/*
* Test prog against string of given length, no null termination
* but still metafied at this point. offset gives an offset
* to include in reported match indices
*/
/**/
mod_export int
pattrylen(Patprog prog, char *string, int len, int unmetalen, int offset)
{
return pattryrefs(prog, string, len, unmetalen, offset, NULL, NULL, NULL);
}
/*
* Test prog against string with given lengths. The input
* string is metafied; stringlen is the raw string length, and
* unmetalen the number of characters in the original string (some
* of which may now be metafied). Either value may be -1
* to indicate a null-terminated string which will be counted. Note
* there may be a severe penalty for this if a lot of matching is done
* on one string.
*
* offset is the position in the original string (not seen by
* the pattern module) at which we are trying to match.
* This is added in to the positions recorded in patbeginp and patendp
* when we are looking for substrings. Currently this only happens
* in the parameter substitution code.
*
* Note this is a character offset, i.e. a metafied character
* counts as 1.
*
* The last three arguments are used to report the positions for the
* backreferences. On entry, *nump should contain the maximum number
* of positions to report. In this case the match, mbegin, mend
* arrays are not altered.
*
* If nump is NULL but endp is not NULL, then *endp is set to the
* end position of the match, taking into account patinstart.
*/
/**/
mod_export int
pattryrefs(Patprog prog, char *string, int stringlen, int unmetalen,
int patoffset,
int *nump, int *begp, int *endp)
{
int i, maxnpos = 0, ret, needfullpath, unmetalenp;
int origlen;
char **sp, **ep, *tryalloced, *ptr;
char *progstr = (char *)prog + prog->startoff;
if (nump) {
maxnpos = *nump;
*nump = 0;
}
/* inherited from domatch, but why, exactly? */
if (*string == Nularg) {
string++;
unmetalen--;
}
if (stringlen < 0)
stringlen = strlen(string);
origlen = stringlen;
patflags = prog->flags;
/*
* For a top-level ~-exclusion, we will need the full
* path to exclude, so copy the path so far and append the
* current test string.
*/
needfullpath = (patflags & PAT_HAS_EXCLUDP) && pathpos;
/* Get the length of the full string when unmetafied. */
if (unmetalen < 0)
unmetalen = ztrsub(string + stringlen, string);
if (needfullpath)
unmetalenp = ztrsub(pathbuf + pathpos, pathbuf);
else
unmetalenp = 0;
DPUTS(needfullpath && (patflags & (PAT_PURES|PAT_ANY)),
"rum sort of file exclusion");
/*
* Partly for efficiency, and partly for the convenience of
* globbing, we don't unmetafy pure string patterns, and
* there's no reason to if the pattern is just a *.
*/
if (!(patflags & (PAT_PURES|PAT_ANY))
&& (needfullpath || unmetalen != stringlen)) {
/*
* We need to copy if we need to prepend the path so far
* (in which case we copy both chunks), or if we have
* Meta characters.
*/
char *dst;
int icopy, ncopy;
dst = tryalloced = zalloc(unmetalen + unmetalenp);
if (needfullpath) {
/* loop twice, copy path buffer first time */
ptr = pathbuf;
ncopy = unmetalenp;
} else {
/* just loop once, copy string with unmetafication */
ptr = string;
ncopy = unmetalen;
}
for (icopy = 0; icopy < 2; icopy++) {
for (i = 0; i < ncopy; i++) {
if (*ptr == Meta) {
ptr++;
*dst++ = *ptr++ ^ 32;
} else {
*dst++ = *ptr++;
}
}
if (!needfullpath)
break;
/* next time append test string to path so far */
ptr = string;
ncopy = unmetalen;
}
if (needfullpath) {
patinstart = tryalloced + unmetalenp;
patinpath = tryalloced;
} else {
patinstart = tryalloced;
patinpath = NULL;
}
stringlen = unmetalen;
} else {
patinstart = string;
tryalloced = patinpath = NULL;
}
patinend = patinstart + stringlen;
/*
* From now on we do not require NULL termination of
* the test string. There should also be no more references
* to the variable string.
*/
if (prog->flags & (PAT_PURES|PAT_ANY)) {
/*
* Either we are testing against a pure string,
* or we can match anything at all.
*/
int ret;
if (prog->flags & PAT_ANY) {
/*
* Optimisation for a single "*": always matches
* (except for no_glob_dots, see below).
*/
ret = 1;
} else {
/*
* Testing a pure string. See if initial
* components match.
*/
int lendiff = stringlen - prog->patmlen;
if (lendiff < 0) {
/* No, the pattern string is too long. */
ret = 0;
} else if (!memcmp(progstr, patinstart, prog->patmlen)) {
/*
* Initial component matches. Matches either
* if lengths are the same or we are not anchored
* to the end of the string.
*/
ret = !lendiff || (prog->flags & PAT_NOANCH);
} else {
/* No match. */
ret = 0;
}
}
if (ret) {
/*
* For files, we won't match initial "."s unless
* glob_dots is set.
*/
if ((prog->flags & PAT_NOGLD) && *patinstart == '.') {
ret = 0;
} else {
/*
* Remember the length in case used for ${..#..} etc.
* In this case, we didn't unmetafy the string.
*/
patinlen = (int)prog->patmlen;
/* if matching files, must update globbing flags */
patglobflags = prog->globend;
if ((patglobflags & GF_MATCHREF) &&
!(patflags & PAT_FILE)) {
char *str = ztrduppfx(patinstart, patinlen);
int mlen;
/*
* Count the characters. We're not using CHARSUB()
* because the string is still metafied.
*/
MB_METACHARINIT();
mlen = MB_METASTRLEN2END(patinstart, 0,
patinstart + patinlen);
setsparam("MATCH", str);
setiparam("MBEGIN",
(zlong)(patoffset + !isset(KSHARRAYS)));
setiparam("MEND",
(zlong)(mlen + patoffset +
!isset(KSHARRAYS) - 1));
}
}
}
if (tryalloced)
zfree(tryalloced, unmetalen + unmetalenp);
return ret;
} else {
int q = queue_signal_level();
/*
* Test for a `must match' string, unless we're scanning for a match
* in which case we don't need to do this each time.
*/
ret = 1;
if (!(prog->flags & PAT_SCAN) && prog->mustoff)
{
char *testptr; /* start pointer into test string */
char *teststop; /* last point from which we can match */
char *patptr = (char *)prog + prog->mustoff;
int patlen = prog->patmlen;
int found = 0;
if (patlen > stringlen) {
/* Too long, can't match. */
ret = 0;
} else {
teststop = patinend - patlen;
for (testptr = patinstart; testptr <= teststop; testptr++)
{
if (!memcmp(testptr, patptr, patlen)) {
found = 1;
break;
}
}
if (!found)
ret = 0;
}
}
if (!ret) {
if (tryalloced)
zfree(tryalloced, unmetalen + unmetalenp);
return 0;
}
patglobflags = prog->globflags;
if (!(patflags & PAT_FILE)) {
forceerrs = -1;
errsfound = 0;
}
globdots = !(patflags & PAT_NOGLD);
parsfound = 0;
patinput = patinstart;
dont_queue_signals();
if (patmatch((Upat)progstr)) {
/*
* we were lazy and didn't save the globflags if an exclusion
* failed, so set it now
*/
patglobflags = prog->globend;
/*
* Record length of successful match, including Meta
* characters. Do it here so that patmatchlen() can return
* it even if we delete the pattern strings.
*/
patinlen = patinput - patinstart;
/*
* Optimization: if we didn't find any Meta characters
* to begin with, we don't need to look for them now.
*/
if (unmetalen != origlen) {
for (ptr = patinstart; ptr < patinput; ptr++)
if (imeta(*ptr))
patinlen++;
}
/*
* Should we clear backreferences and matches on a failed
* match?
*/
if ((patglobflags & GF_MATCHREF) && !(patflags & PAT_FILE)) {
/*
* m flag: for global match. This carries no overhead
* in the pattern matching part.
*
* Remember the test pattern is already unmetafied.
*/
char *str;
int mlen = CHARSUB(patinstart, patinput);
str = metafy(patinstart, patinput - patinstart, META_DUP);
setsparam("MATCH", str);
setiparam("MBEGIN", (zlong)(patoffset + !isset(KSHARRAYS)));
setiparam("MEND",
(zlong)(mlen + patoffset +
!isset(KSHARRAYS) - 1));
}
if (prog->patnpar && nump) {
/*
* b flag: for backreferences using parentheses. Reported
* directly.
*/
*nump = prog->patnpar;
sp = patbeginp;
ep = patendp;
for (i = 0; i < prog->patnpar && i < maxnpos; i++) {
if (parsfound & (1 << i)) {
if (begp)
*begp++ = CHARSUB(patinstart, *sp) + patoffset;
if (endp)
*endp++ = CHARSUB(patinstart, *ep) + patoffset
- 1;
} else {
if (begp)
*begp++ = -1;
if (endp)
*endp++ = -1;
}
sp++;
ep++;
}
} else if (prog->patnpar && !(patflags & PAT_FILE)) {
/*
* b flag: for backreferences using parentheses.
*/
int palen = prog->patnpar+1;
char **matcharr, **mbeginarr, **mendarr;
char numbuf[DIGBUFSIZE];
matcharr = zshcalloc(palen*sizeof(char *));
mbeginarr = zshcalloc(palen*sizeof(char *));
mendarr = zshcalloc(palen*sizeof(char *));
sp = patbeginp;
ep = patendp;
for (i = 0; i < prog->patnpar; i++) {
if (parsfound & (1 << i)) {
matcharr[i] = metafy(*sp, *ep - *sp, META_DUP);
/*
* mbegin and mend give indexes into the string
* in the standard notation, i.e. respecting
* KSHARRAYS, and with the end index giving
* the last character, not one beyond.
* For example, foo=foo; [[ $foo = (f)oo ]] gives
* (without KSHARRAYS) indexes 1 and 1, which
* corresponds to indexing as ${foo[1,1]}.
*/
sprintf(numbuf, "%ld",
(long)(CHARSUB(patinstart, *sp) +
patoffset +
!isset(KSHARRAYS)));
mbeginarr[i] = ztrdup(numbuf);
sprintf(numbuf, "%ld",
(long)(CHARSUB(patinstart, *ep) +
patoffset +
!isset(KSHARRAYS) - 1));
mendarr[i] = ztrdup(numbuf);
} else {
/* Pattern wasn't set: either it was in an
* unmatched branch, or a hashed parenthesis
* that didn't match at all.
*/
matcharr[i] = ztrdup("");
mbeginarr[i] = ztrdup("-1");
mendarr[i] = ztrdup("-1");
}
sp++;
ep++;
}
setaparam("match", matcharr);
setaparam("mbegin", mbeginarr);
setaparam("mend", mendarr);
}
if (!nump && endp) {
/*
* We just need the overall end position.
*/
*endp = CHARSUB(patinstart, patinput) + patoffset;
}
ret = 1;
} else
ret = 0;
restore_queue_signals(q);
if (tryalloced)
zfree(tryalloced, unmetalen + unmetalenp);
return ret;
}
}
/*
* Return length of previous succesful match. This is
* in metafied bytes, i.e. includes a count of Meta characters.
* Unusual and futile attempt at modular encapsulation.
*/
/**/
int
patmatchlen(void)
{
return patinlen;
}
/*
* Match literal characters with case insensitivity test: the first
* comes from the input string, the second the current pattern.
*/
#ifdef MULTIBYTE_SUPPORT
#define ISUPPER(x) iswupper(x)
#define ISLOWER(x) iswlower(x)
#define TOUPPER(x) towupper(x)
#define TOLOWER(x) towlower(x)
#define ISDIGIT(x) iswdigit(x)
#else
#define ISUPPER(x) isupper(x)
#define ISLOWER(x) islower(x)
#define TOUPPER(x) toupper(x)
#define TOLOWER(x) tolower(x)
#define ISDIGIT(x) idigit(x)
#endif
#define CHARMATCH(chin, chpa) (chin == chpa || \
((patglobflags & GF_IGNCASE) ? \
((ISUPPER(chin) ? TOLOWER(chin) : chin) == \
(ISUPPER(chpa) ? TOLOWER(chpa) : chpa)) : \
(patglobflags & GF_LCMATCHUC) ? \
(ISLOWER(chpa) && TOUPPER(chpa) == chin) : 0))
/*
* The same but caching an expression from the first argument,
* Requires local charmatch_cache definition.
*/
#define CHARMATCH_EXPR(expr, chpa) \
(charmatch_cache = (expr), CHARMATCH(charmatch_cache, chpa))
/*
* exactpos is used to remember how far down an exact string we have
* matched, if we are doing approximation and can therefore redo from
* the same point; we never need to otherwise.
*
* exactend is a pointer to the end of the string, which isn't
* null-terminated.
*/
static char *exactpos, *exactend;
/*
* Main matching routine.
*
* Testing the tail end of a match is usually done by recursion, but
* we try to eliminate that in favour of looping for simple cases.
*/
/**/
static int
patmatch(Upat prog)
{
/* Current and next nodes */
Upat scan = prog, next, opnd;
char *start, *save, *chrop, *chrend, *compend;
int savglobflags, op, no, min, fail = 0, saverrsfound;
zrange_t from, to, comp;
patint_t nextch;
while (scan && !errflag) {
next = PATNEXT(scan);
if (!globdots && P_NOTDOT(scan) && patinput == patinstart &&
patinput < patinend && *patinput == '.')
return 0;
switch (P_OP(scan)) {
case P_ANY:
if (patinput == patinend)
fail = 1;
else
CHARINC(patinput, patinend);
break;
case P_EXACTLY:
/*
* acts as nothing if *chrop is null: this is used by
* approx code.
*/
if (exactpos) {
chrop = exactpos;
chrend = exactend;
} else {
chrop = P_LS_STR(scan);
chrend = chrop + P_LS_LEN(scan);
}
exactpos = NULL;
while (chrop < chrend && patinput < patinend) {
char *savpatinput = patinput;
char *savchrop = chrop;
int badin = 0, badpa = 0;
/*
* Care with character matching:
* We do need to convert the character to wide
* representation if possible, because we may need
* to do case transformation. However, we should
* be careful in case one, but not the other, wasn't
* representable in the current locale---in that
* case they don't match even if the returned
* values (one properly converted, one raw) are
* the same.
*/
patint_t chin = CHARREFINC(patinput, patinend, &badin);
patint_t chpa = CHARREFINC(chrop, chrend, &badpa);
if (!CHARMATCH(chin, chpa) || badin != badpa) {
fail = 1;
patinput = savpatinput;
chrop = savchrop;
break;
}
}
if (chrop < chrend) {
exactpos = chrop;
exactend = chrend;
fail = 1;
}
break;
case P_ANYOF:
case P_ANYBUT:
if (patinput == patinend)
fail = 1;
else {
#ifdef MULTIBYTE_SUPPORT
int zmb_ind;
wchar_t cr = charref(patinput, patinend, &zmb_ind);
char *scanop = (char *)P_OPERAND(scan);
if (patglobflags & GF_MULTIBYTE) {
if (mb_patmatchrange(scanop, cr, zmb_ind, NULL, NULL) ^
(P_OP(scan) == P_ANYOF))
fail = 1;
else
CHARINC(patinput, patinend);
} else if (patmatchrange(scanop, (int)cr, NULL, NULL) ^
(P_OP(scan) == P_ANYOF))
fail = 1;
else
CHARINC(patinput, patinend);
#else
if (patmatchrange((char *)P_OPERAND(scan),
CHARREF(patinput, patinend), NULL, NULL) ^
(P_OP(scan) == P_ANYOF))
fail = 1;
else
CHARINC(patinput, patinend);
#endif
}
break;
case P_NUMRNG:
case P_NUMFROM:
case P_NUMTO:
/*
* To do this properly, we really have to treat numbers as
* closures: that's so things like <1-1000>33 will
* match 633 (they didn't up to 3.1.6). To avoid making this
* too inefficient, we see if there's an exact match next:
* if there is, and it's not a digit, we return 1 after
* the first attempt.
*/
op = P_OP(scan);
start = (char *)P_OPERAND(scan);
from = to = 0;
if (op != P_NUMTO) {
#ifdef ZSH_64_BIT_TYPE
/* We can't rely on pointer alignment being good enough. */
memcpy((char *)&from, start, sizeof(zrange_t));
#else
from = *((zrange_t *) start);
#endif
start += sizeof(zrange_t);
}
if (op != P_NUMFROM) {
#ifdef ZSH_64_BIT_TYPE
memcpy((char *)&to, start, sizeof(zrange_t));
#else
to = *((zrange_t *) start);
#endif
}
start = compend = patinput;
comp = 0;
while (patinput < patinend && idigit(*patinput)) {
int out_of_range = 0;
int digit = *patinput - '0';
if (comp > ZRANGE_MAX / (zlong)10) {
out_of_range = 1;
} else {
zrange_t c10 = comp ? comp * 10 : 0;
if (ZRANGE_MAX - c10 < digit) {
out_of_range = 1;
} else {
comp = c10;
comp += digit;
}
}
patinput++;
compend++;
if (out_of_range ||
(comp & ((zrange_t)1 << (sizeof(comp)*8 -
#ifdef ZRANGE_T_IS_SIGNED
2
#else
1
#endif
)))) {
/*
* Out of range (allowing for signedness, which
* we need if we are using zlongs).
* This is as far as we can go.
* If we're doing a range "from", skip all the
* remaining numbers. Otherwise, we can't
* match beyond the previous point anyway.
* Leave the pointer to the last calculated
* position (compend) where it was before.
*/
if (op == P_NUMFROM) {
while (patinput < patinend && idigit(*patinput))
patinput++;
}
}
}
save = patinput;
no = 0;
while (patinput > start) {
/* if already too small, no power on earth can save it */
if (comp < from && patinput <= compend)
break;
if ((op == P_NUMFROM || comp <= to) && patmatch(next)) {
return 1;
}
if (!no && P_OP(next) == P_EXACTLY &&
(!P_LS_LEN(next) ||
!idigit(STOUC(*P_LS_STR(next)))) &&
!(patglobflags & 0xff))
return 0;
patinput = --save;
no++;
/*
* With a range start and an unrepresentable test
* number, we just back down the test string without
* changing the number until we get to a representable
* one.
*/
if (patinput < compend)
comp /= 10;
}
patinput = start;
fail = 1;
break;
case P_NUMANY:
/* This is <->: any old set of digits, don't bother comparing */
start = patinput;
while (patinput < patinend && idigit(*patinput))
patinput++;
save = patinput;
no = 0;
while (patinput > start) {
if (patmatch(next))
return 1;
if (!no && P_OP(next) == P_EXACTLY &&
(!P_LS_LEN(next) ||
!idigit(*P_LS_STR(next))) &&
!(patglobflags & 0xff))
return 0;
patinput = --save;
no++;
}
patinput = start;
fail = 1;
break;
case P_NOTHING:
break;
case P_BACK:
break;
case P_GFLAGS:
patglobflags = P_OPERAND(scan)->l;
break;
case P_OPEN:
case P_OPEN+1:
case P_OPEN+2:
case P_OPEN+3:
case P_OPEN+4:
case P_OPEN+5:
case P_OPEN+6:
case P_OPEN+7:
case P_OPEN+8:
case P_OPEN+9:
no = P_OP(scan) - P_OPEN;
save = patinput;
if (patmatch(next)) {
/*
* Don't set patbeginp if some later invocation of
* the same parentheses already has.
*/
if (no && !(parsfound & (1 << (no - 1)))) {
patbeginp[no-1] = save;
parsfound |= 1 << (no - 1);
}
return 1;
} else
return 0;
break;
case P_CLOSE:
case P_CLOSE+1:
case P_CLOSE+2:
case P_CLOSE+3:
case P_CLOSE+4:
case P_CLOSE+5:
case P_CLOSE+6:
case P_CLOSE+7:
case P_CLOSE+8:
case P_CLOSE+9:
no = P_OP(scan) - P_CLOSE;
save = patinput;
if (patmatch(next)) {
if (no && !(parsfound & (1 << (no + 15)))) {
patendp[no-1] = save;
parsfound |= 1 << (no + 15);
}
return 1;
} else
return 0;
break;
case P_EXCSYNC:
/* See the P_EXCLUDE code below for where syncptr comes from */
{
unsigned char *syncptr;
Upat after;
after = P_OPERAND(scan);
DPUTS(!P_ISEXCLUDE(after),
"BUG: EXCSYNC not followed by EXCLUDE.");
DPUTS(!P_OPERAND(after)->p,
"BUG: EXCSYNC not handled by EXCLUDE");
syncptr = P_OPERAND(after)->p + (patinput - patinstart);
/*
* If we already matched from here, this time we fail.
* See WBRANCH code for story about error count.
*/
if (*syncptr && errsfound + 1 >= *syncptr)
return 0;
/*
* Else record that we (possibly) matched this time.
* No harm if we don't: then the previous test will just
* short cut the attempted match that is bound to fail.
* We never try to exclude something that has already
* failed anyway.
*/
*syncptr = errsfound + 1;
}
break;
case P_EXCEND:
/*
* This is followed by a P_EXCSYNC, but only in the P_EXCLUDE
* branch. Actually, we don't bother following it: all we
* need to know is that we successfully matched so far up
* to the end of the asserted pattern; the endpoint
* in the target string is nulled out.
*/
if (!(fail = (patinput < patinend)))
return 1;
break;
case P_BRANCH:
case P_WBRANCH:
/* P_EXCLUDE shouldn't occur without a P_BRANCH */
if (!P_ISBRANCH(next)) {
/* no choice, avoid recursion */
DPUTS(P_OP(scan) == P_WBRANCH,
"BUG: WBRANCH with no alternative.");
next = P_OPERAND(scan);
} else {
do {
save = patinput;
savglobflags = patglobflags;
saverrsfound = errsfound;
if (P_ISEXCLUDE(next)) {
/*
* The strategy is to test the asserted pattern,
* recording via P_EXCSYNC how far the part to
* be excluded matched. We then set the
* length of the test string to that
* point and see if the exclusion as far as
* P_EXCEND also matches that string.
* We need to keep testing the asserted pattern
* by backtracking, since the first attempt
* may be excluded while a later attempt may not.
* For this we keep a pointer just after
* the P_EXCLUDE which is tested by the P_EXCSYNC
* to see if we matched there last time, in which
* case we fail. If there is nothing to backtrack
* over, that doesn't matter: we should fail anyway.
* The pointer also tells us where the asserted
* pattern matched for use by the exclusion.
*
* It's hard to allocate space for this
* beforehand since we may need to do it
* recursively.
*
* P.S. in case you were wondering, this code
* is horrible.
*/
Upat syncstrp;
char *origpatinend;
unsigned char *oldsyncstr;
char *matchpt = NULL;
int ret, savglobdots, matchederrs = 0;
int savparsfound = parsfound;
DPUTS(P_OP(scan) == P_WBRANCH,
"BUG: excluded WBRANCH");
syncstrp = P_OPERAND(next);
/*
* Unlike WBRANCH, each test at the same exclude
* sync point (due to an external loop) is separate,
* i.e testing (foo~bar)# is no different from
* (foo~bar)(foo~bar)... from the exclusion point
* of view, so we use a different sync string.
*/
oldsyncstr = syncstrp->p;
syncstrp->p = (unsigned char *)
zshcalloc((patinend - patinstart) + 1);
origpatinend = patinend;
while ((ret = patmatch(P_OPERAND(scan)))) {
unsigned char *syncpt;
char *savpatinstart;
int savforce = forceerrs;
int savpatflags = patflags, synclen;
forceerrs = -1;
savglobdots = globdots;
matchederrs = errsfound;
matchpt = patinput; /* may not be end */
globdots = 1; /* OK to match . first */
/* Find the point where the scan
* matched the part to be excluded: because
* of backtracking, the one
* most recently matched will be the first.
* (Luckily, backtracking is done after all
* possibilities for approximation have been
* checked.)
*/
for (syncpt = syncstrp->p; !*syncpt; syncpt++)
;
synclen = syncpt - syncstrp->p;
if (patinstart + synclen != patinend) {
/*
* Temporarily mark the string as
* ending at this point.
*/
DPUTS(patinstart + synclen > matchpt,
"BUG: EXCSYNC failed");
patinend = patinstart + synclen;
/*
* If this isn't really the end of the string,
* remember this for the (#e) assertion.
*/
patflags |= PAT_NOTEND;
}
savpatinstart = patinstart;
next = PATNEXT(scan);
while (next && P_ISEXCLUDE(next)) {
patinput = save;
/*
* turn off approximations in exclusions:
* note we keep remaining patglobflags
* set by asserted branch (or previous
* excluded branches, for consistency).
*/
patglobflags &= ~0xff;
errsfound = 0;
opnd = P_OPERAND(next) + 1;
if (P_OP(next) == P_EXCLUDP && patinpath) {
/*
* Top level exclusion with a file,
* applies to whole path so add the
* segments already matched.
* We copied these in front of the
* test pattern, so patinend doesn't
* need moving.
*/
DPUTS(patinput != patinstart,
"BUG: not at start excluding path");
patinput = patinstart = patinpath;
}
if (patmatch(opnd)) {
ret = 0;
/*
* Another subtlety: if we exclude the
* match, any parentheses just found
* become invalidated.
*/
parsfound = savparsfound;
}
if (patinpath) {
patinput = savpatinstart +
(patinput - patinstart);
patinstart = savpatinstart;
}
if (!ret)
break;
next = PATNEXT(next);
}
/*
* Restore original end position.
*/
patinend = origpatinend;
patflags = savpatflags;
globdots = savglobdots;
forceerrs = savforce;
if (ret)
break;
patinput = save;
patglobflags = savglobflags;
errsfound = saverrsfound;
}
zfree((char *)syncstrp->p,
(patinend - patinstart) + 1);
syncstrp->p = oldsyncstr;
if (ret) {
patinput = matchpt;
errsfound = matchederrs;
return 1;
}
while ((scan = PATNEXT(scan)) &&
P_ISEXCLUDE(scan))
;
} else {
int ret = 1, pfree = 0;
Upat ptrp = NULL;
unsigned char *ptr;
if (P_OP(scan) == P_WBRANCH) {
/*
* This is where we make sure that we are not
* repeatedly matching zero-length strings in
* a closure, which would cause an infinite loop,
* and also remove exponential behaviour in
* backtracking nested closures.
* The P_WBRANCH operator leaves a space for a
* uchar *, initialized to NULL, which is
* turned into a string the same length as the
* target string. Every time we match from a
* particular point in the target string, we
* stick a 1 at the corresponding point here.
* If we come round to the same branch again, and
* there is already a 1, then the test fails.
*/
opnd = P_OPERAND(scan);
ptrp = opnd++;
if (!ptrp->p) {
ptrp->p = (unsigned char *)
zshcalloc((patinend - patinstart) + 1);
pfree = 1;
}
ptr = ptrp->p + (patinput - patinstart);
/*
* Without approximation, this is just a
* single bit test. With approximation, we
* need to know how many errors there were
* last time we made the test. If errsfound
* is now smaller than it was, hence we can
* make more approximations in the remaining
* code, we continue with the test.
* (This is why the max number of errors is
* 254, not 255.)
*/
if (*ptr && errsfound + 1 >= *ptr)
ret = 0;
*ptr = errsfound + 1;
} else
opnd = P_OPERAND(scan);
if (ret)
ret = patmatch(opnd);
if (pfree) {
zfree((char *)ptrp->p,
(patinend - patinstart) + 1);
ptrp->p = NULL;
}
if (ret)
return 1;
scan = PATNEXT(scan);
}
patinput = save;
patglobflags = savglobflags;
errsfound = saverrsfound;
DPUTS(P_OP(scan) == P_WBRANCH,
"BUG: WBRANCH not first choice.");
next = PATNEXT(scan);
} while (scan && P_ISBRANCH(scan));
return 0;
}
break;
case P_STAR:
/* Handle specially for speed, although really P_ONEHASH+P_ANY */
while (P_OP(next) == P_STAR) {
/*
* If there's another * following we can optimise it
* out. Chains of *'s can give pathologically bad
* performance.
*/
scan = next;
next = PATNEXT(scan);
}
/*FALLTHROUGH*/
case P_ONEHASH:
case P_TWOHASH:
/*
* This is just simple cases, matching one character.
* With approximations, we still handle * this way, since
* no approximation is ever necessary, but other closures
* are handled by the more complicated branching method
*/
op = P_OP(scan);
/* Note that no counts possibly metafied characters */
start = patinput;
{
char *lastcharstart;
/*
* Array to record the start of characters for
* backtracking.
*/
VARARR(char, charstart, patinend-patinput);
memset(charstart, 0, patinend-patinput);
if (op == P_STAR) {
for (no = 0; patinput < patinend;
CHARINC(patinput, patinend))
{
charstart[patinput-start] = 1;
no++;
}
/* simple optimization for reasonably common case */
if (P_OP(next) == P_END)
return 1;
} else {
DPUTS(patglobflags & 0xff,
"BUG: wrong backtracking with approximation.");
if (!globdots && P_NOTDOT(P_OPERAND(scan)) &&
patinput == patinstart && patinput < patinend &&
CHARREF(patinput, patinend) == ZWC('.'))
return 0;
no = patrepeat(P_OPERAND(scan), charstart);
}
min = (op == P_TWOHASH) ? 1 : 0;
/*
* Lookahead to avoid useless matches. This is not possible
* with approximation.
*/
if (P_OP(next) == P_EXACTLY && P_LS_LEN(next) &&
!(patglobflags & 0xff)) {
char *nextop = P_LS_STR(next);
#ifdef MULTIBYTE_SUPPORT
/* else second argument of CHARREF isn't used */
int nextlen = P_LS_LEN(next);
#endif
/*
* If that P_EXACTLY is last (common in simple patterns,
* such as *.c), then it can be only be matched at one
* point in the test string, so record that.
*/
if (P_OP(PATNEXT(next)) == P_END &&
!(patflags & PAT_NOANCH)) {
int ptlen = patinend - patinput;
int lenmatch = patinend -
(min ? CHARNEXT(start, patinend) : start);
/* Are we in the right range? */
if (P_LS_LEN(next) > lenmatch ||
P_LS_LEN(next) < ptlen)
return 0;
/* Yes, just position appropriately and test. */
patinput += ptlen - P_LS_LEN(next);
/*
* Here we will need to be careful that patinput is not
* in the middle of a multibyte character.
*/
/* Continue loop with P_EXACTLY test. */
break;
}
nextch = CHARREF(nextop, nextop + nextlen);
} else
nextch = PEOF;
savglobflags = patglobflags;
saverrsfound = errsfound;
lastcharstart = charstart + (patinput - start);
if (no >= min) {
for (;;) {
patint_t charmatch_cache;
if (nextch == PEOF ||
(patinput < patinend &&
CHARMATCH_EXPR(CHARREF(patinput, patinend),
nextch))) {
if (patmatch(next))
return 1;
}
if (--no < min)
break;
/* find start of previous full character */
while (!*--lastcharstart)
DPUTS(lastcharstart < charstart,
"lastcharstart invalid");
patinput = start + (lastcharstart-charstart);
patglobflags = savglobflags;
errsfound = saverrsfound;
}
}
}
/*
* As with branches, the patmatch(next) stuff for *
* handles approximation, so we don't need to try
* anything here.
*/
return 0;
case P_ISSTART:
if (patinput != patinstart || (patflags & PAT_NOTSTART))
fail = 1;
break;
case P_ISEND:
if (patinput < patinend || (patflags & PAT_NOTEND))
fail = 1;
break;
case P_COUNTSTART:
{
/*
* Save and restore the current count and the
* start pointer in case the pattern has been
* executed by a previous repetition of a
* closure.
*/
long *curptr = &P_OPERAND(scan)[P_CT_CURRENT].l;
long savecount = *curptr;
unsigned char *saveptr = scan[P_CT_PTR].p;
int ret;
*curptr = 0L;
ret = patmatch(P_OPERAND(scan));
*curptr = savecount;
scan[P_CT_PTR].p = saveptr;
return ret;
}
case P_COUNT:
{
/* (#cN,M): execution is relatively straightforward */
long cur = scan[P_CT_CURRENT].l;
long min = scan[P_CT_MIN].l;
long max = scan[P_CT_MAX].l;
if (cur && cur >= min &&
(unsigned char *)patinput == scan[P_CT_PTR].p) {
/*
* Not at the first attempt to match so
* the previous attempt managed zero length.
* We can do this indefinitely so there's
* no point in going on. Simply try to
* match the remainder of the pattern.
*/
return patmatch(next);
}
scan[P_CT_PTR].p = (unsigned char *)patinput;
if (max < 0 || cur < max) {
char *patinput_thistime = patinput;
scan[P_CT_CURRENT].l = cur + 1;
if (patmatch(scan + P_CT_OPERAND))
return 1;
patinput = patinput_thistime;
}
if (cur < min)
return 0;
return patmatch(next);
}
case P_END:
if (!(fail = (patinput < patinend && !(patflags & PAT_NOANCH))))
return 1;
break;
#ifdef DEBUG
default:
dputs("BUG: bad operand in patmatch.");
return 0;
break;
#endif
}
if (fail) {
if (errsfound < (patglobflags & 0xff) &&
(forceerrs == -1 || errsfound < forceerrs)) {
/*
* Approximation code. There are four possibilities
*
* 1. omit character from input string
* 2. transpose characters in input and pattern strings
* 3. omit character in both input and pattern strings
* 4. omit character from pattern string.
*
* which we try in that order.
*
* Of these, 2, 3 and 4 require an exact match string
* (P_EXACTLY) while 1, 2 and 3 require that we not
* have reached the end of the input string.
*
* Note in each case after making the approximation we
* need to retry the *same* pattern; this is what
* requires exactpos, a slightly doleful way of
* communicating with the exact character matcher.
*/
char *savexact = exactpos;
save = patinput;
savglobflags = patglobflags;
saverrsfound = ++errsfound;
fail = 0;
DPUTS(P_OP(scan) != P_EXACTLY && exactpos,
"BUG: non-exact match has set exactpos");
/* Try omitting a character from the input string */
if (patinput < patinend) {
CHARINC(patinput, patinend);
/* If we are not on an exact match, then this is
* our last gasp effort, so we can optimize out
* the recursive call.
*/
if (P_OP(scan) != P_EXACTLY)
continue;
if (patmatch(scan))
return 1;
}
if (P_OP(scan) == P_EXACTLY) {
char *nextexact = savexact;
DPUTS(!savexact,
"BUG: exact match has not set exactpos");
CHARINC(nextexact, exactend);
if (save < patinend) {
char *nextin = save;
CHARINC(nextin, patinend);
patglobflags = savglobflags;
errsfound = saverrsfound;
exactpos = savexact;
/*
* Try swapping two characters in patinput and
* exactpos
*/
if (save < patinend && nextin < patinend &&
nextexact < exactend) {
patint_t cin0 = CHARREF(save, patinend);
patint_t cpa0 = CHARREF(exactpos, exactend);
patint_t cin1 = CHARREF(nextin, patinend);
patint_t cpa1 = CHARREF(nextexact, exactend);
if (CHARMATCH(cin0, cpa1) &&
CHARMATCH(cin1, cpa0)) {
patinput = nextin;
CHARINC(patinput, patinend);
exactpos = nextexact;
CHARINC(exactpos, exactend);
if (patmatch(scan))
return 1;
patglobflags = savglobflags;
errsfound = saverrsfound;
}
}
/*
* Try moving up both strings.
*/
patinput = nextin;
exactpos = nextexact;
if (patmatch(scan))
return 1;
patinput = save;
patglobflags = savglobflags;
errsfound = saverrsfound;
exactpos = savexact;
}
DPUTS(exactpos == exactend, "approximating too far");
/*
* Try moving up the exact match pattern.
* This must be the last attempt, so just loop
* instead of calling recursively.
*/
CHARINC(exactpos, exactend);
continue;
}
}
exactpos = NULL;
return 0;
}
scan = next;
}
return 0;
}
/**/
#ifdef MULTIBYTE_SUPPORT
/*
* See if character ch matches a pattern range specification.
* The null-terminated specification is in range; the test
* character is in ch.
*
* zmb is one of the enum defined above charref(), for indicating
* incomplete or invalid multibyte characters.
*
* indptr is used by completion matching, which is why this
* function is exported. If indptr is not NULL we set *indptr
* to the index of the character in the range string, adjusted
* in the case of "A-B" ranges such that A would count as its
* normal index (say IA), B would count as IA + (B-A), and any
* character within the range as appropriate. We're not strictly
* guaranteed this fits within a wint_t, but if this is Unicode
* in 32 bits we have a fair amount of distance left over.
*
* mtp is used in the same circumstances. *mtp returns the match type:
* 0 for a standard character, else the PP_ index. It's not
* useful if the match failed.
*/
/**/
mod_export int
mb_patmatchrange(char *range, wchar_t ch, int zmb_ind, wint_t *indptr, int *mtp)
{
wchar_t r1, r2;
if (indptr)
*indptr = 0;
/*
* Careful here: unlike other strings, range is a NULL-terminated,
* metafied string, because we need to treat the Posix and hyphenated
* ranges specially.
*/
while (*range) {
if (imeta(STOUC(*range))) {
int swtype = STOUC(*range++) - STOUC(Meta);
if (mtp)
*mtp = swtype;
switch (swtype) {
case 0:
/* ordinary metafied character */
range--;
if (metacharinc(&range) == ch)
return 1;
break;
case PP_ALPHA:
if (iswalpha(ch))
return 1;
break;
case PP_ALNUM:
if (iswalnum(ch))
return 1;
break;
case PP_ASCII:
if ((ch & ~0x7f) == 0)
return 1;
break;
case PP_BLANK:
if (ch == L' ' || ch == L'\t')
return 1;
break;
case PP_CNTRL:
if (iswcntrl(ch))
return 1;
break;
case PP_DIGIT:
if (iswdigit(ch))
return 1;
break;
case PP_GRAPH:
if (iswgraph(ch))
return 1;
break;
case PP_LOWER:
if (iswlower(ch))
return 1;
break;
case PP_PRINT:
if (iswprint(ch))
return 1;
break;
case PP_PUNCT:
if (iswpunct(ch))
return 1;
break;
case PP_SPACE:
if (iswspace(ch))
return 1;
break;
case PP_UPPER:
if (iswupper(ch))
return 1;
break;
case PP_XDIGIT:
if (iswxdigit(ch))
return 1;
break;
case PP_IDENT:
if (wcsitype(ch, IIDENT))
return 1;
break;
case PP_IFS:
if (wcsitype(ch, ISEP))
return 1;
break;
case PP_IFSSPACE:
/* must be ASCII space character */
if (ch < 128 && iwsep((int)ch))
return 1;
break;
case PP_WORD:
if (wcsitype(ch, IWORD))
return 1;
break;
case PP_RANGE:
r1 = metacharinc(&range);
r2 = metacharinc(&range);
if (r1 <= ch && ch <= r2) {
if (indptr)
*indptr += ch - r1;
return 1;
}
/* Careful not to screw up counting with bogus range */
if (indptr && r1 < r2) {
/*
* This gets incremented again below to get
* us past the range end. This is correct.
*/
*indptr += r2 - r1;
}
break;
case PP_INCOMPLETE:
if (zmb_ind == ZMB_INCOMPLETE)
return 1;
break;
case PP_INVALID:
if (zmb_ind == ZMB_INVALID)
return 1;
break;
case PP_UNKWN:
DPUTS(1, "BUG: unknown posix range passed through.\n");
break;
default:
DPUTS(1, "BUG: unknown metacharacter in range.");
break;
}
} else if (metacharinc(&range) == ch) {
if (mtp)
*mtp = 0;
return 1;
}
if (indptr)
(*indptr)++;
}
return 0;
}
/*
* This is effectively the reverse of mb_patmatchrange().
* Given a range descriptor of the same form, and an index into it,
* try to determine the character that is matched. If the index
* points to a [:...:] generic style match, set chr to WEOF and
* return the type in mtp instead. Return 1 if successful, 0 if
* there was no corresponding index. Note all pointer arguments
* must be non-null.
*/
/**/
mod_export int
mb_patmatchindex(char *range, wint_t ind, wint_t *chr, int *mtp)
{
wchar_t r1, r2, rchr;
wint_t rdiff;
*chr = WEOF;
*mtp = 0;
while (*range) {
if (imeta(STOUC(*range))) {
int swtype = STOUC(*range++) - STOUC(Meta);
switch (swtype) {
case 0:
range--;
rchr = metacharinc(&range);
if (!ind) {
*chr = (wint_t) rchr;
return 1;
}
break;
case PP_ALPHA:
case PP_ALNUM:
case PP_ASCII:
case PP_BLANK:
case PP_CNTRL:
case PP_DIGIT:
case PP_GRAPH:
case PP_LOWER:
case PP_PRINT:
case PP_PUNCT:
case PP_SPACE:
case PP_UPPER:
case PP_XDIGIT:
case PP_IDENT:
case PP_IFS:
case PP_IFSSPACE:
case PP_WORD:
case PP_INCOMPLETE:
case PP_INVALID:
if (!ind) {
*mtp = swtype;
return 1;
}
break;
case PP_RANGE:
r1 = metacharinc(&range);
r2 = metacharinc(&range);
rdiff = (wint_t)r2 - (wint_t)r1;
if (rdiff >= ind) {
*chr = (wint_t)r1 + ind;
return 1;
}
/* note the extra decrement to ind below */
ind -= rdiff;
break;
case PP_UNKWN:
DPUTS(1, "BUG: unknown posix range passed through.\n");
break;
default:
DPUTS(1, "BUG: unknown metacharacter in range.");
break;
}
} else {
rchr = metacharinc(&range);
if (!ind) {
*chr = (wint_t)rchr;
return 1;
}
}
if (!ind--)
break;
}
/* No corresponding index. */
return 0;
}
/**/
#endif /* MULTIBYTE_SUPPORT */
/*
* Identical function to mb_patmatchrange() above for single-byte
* characters.
*/
/**/
mod_export int
patmatchrange(char *range, int ch, int *indptr, int *mtp)
{
int r1, r2;
if (indptr)
*indptr = 0;
/*
* Careful here: unlike other strings, range is a NULL-terminated,
* metafied string, because we need to treat the Posix and hyphenated
* ranges specially.
*/
for (; *range; range++) {
if (imeta(STOUC(*range))) {
int swtype = STOUC(*range) - STOUC(Meta);
if (mtp)
*mtp = swtype;
switch (swtype) {
case 0:
if (STOUC(*++range ^ 32) == ch)
return 1;
break;
case PP_ALPHA:
if (isalpha(ch))
return 1;
break;
case PP_ALNUM:
if (isalnum(ch))
return 1;
break;
case PP_ASCII:
if ((ch & ~0x7f) == 0)
return 1;
break;
case PP_BLANK:
if (ch == ' ' || ch == '\t')
return 1;
break;
case PP_CNTRL:
if (iscntrl(ch))
return 1;
break;
case PP_DIGIT:
if (isdigit(ch))
return 1;
break;
case PP_GRAPH:
if (isgraph(ch))
return 1;
break;
case PP_LOWER:
if (islower(ch))
return 1;
break;
case PP_PRINT:
if (ZISPRINT(ch))
return 1;
break;
case PP_PUNCT:
if (ispunct(ch))
return 1;
break;
case PP_SPACE:
if (isspace(ch))
return 1;
break;
case PP_UPPER:
if (isupper(ch))
return 1;
break;
case PP_XDIGIT:
if (isxdigit(ch))
return 1;
break;
case PP_IDENT:
if (iident(ch))
return 1;
break;
case PP_IFS:
if (isep(ch))
return 1;
break;
case PP_IFSSPACE:
if (iwsep(ch))
return 1;
break;
case PP_WORD:
if (iword(ch))
return 1;
break;
case PP_RANGE:
range++;
r1 = STOUC(UNMETA(range));
METACHARINC(range);
r2 = STOUC(UNMETA(range));
if (*range == Meta)
range++;
if (r1 <= ch && ch <= r2) {
if (indptr)
*indptr += ch - r1;
return 1;
}
if (indptr && r1 < r2)
*indptr += r2 - r1;
break;
case PP_INCOMPLETE:
case PP_INVALID:
/* Never true if not in multibyte mode */
break;
case PP_UNKWN:
DPUTS(1, "BUG: unknown posix range passed through.\n");
break;
default:
DPUTS(1, "BUG: unknown metacharacter in range.");
break;
}
} else if (STOUC(*range) == ch) {
if (mtp)
*mtp = 0;
return 1;
}
if (indptr)
(*indptr)++;
}
return 0;
}
/**/
#ifndef MULTIBYTE_SUPPORT
/*
* Identical function to mb_patmatchindex() above for single-byte
* characters. Here -1 represents a character that needs a special type.
*
* Unlike patmatchrange, we only need this in ZLE, which always
* uses MULTIBYTE_SUPPORT if compiled in; hence we don't use
* this function in that case.
*/
/**/
mod_export int
patmatchindex(char *range, int ind, int *chr, int *mtp)
{
int r1, r2, rdiff, rchr;
*chr = -1;
*mtp = 0;
for (; *range; range++) {
if (imeta(STOUC(*range))) {
int swtype = STOUC(*range) - STOUC(Meta);
switch (swtype) {
case 0:
/* ordinary metafied character */
rchr = STOUC(*++range) ^ 32;
if (!ind) {
*chr = rchr;
return 1;
}
break;
case PP_ALPHA:
case PP_ALNUM:
case PP_ASCII:
case PP_BLANK:
case PP_CNTRL:
case PP_DIGIT:
case PP_GRAPH:
case PP_LOWER:
case PP_PRINT:
case PP_PUNCT:
case PP_SPACE:
case PP_UPPER:
case PP_XDIGIT:
case PP_IDENT:
case PP_IFS:
case PP_IFSSPACE:
case PP_WORD:
case PP_INCOMPLETE:
case PP_INVALID:
if (!ind) {
*mtp = swtype;
return 1;
}
break;
case PP_RANGE:
range++;
r1 = STOUC(UNMETA(range));
METACHARINC(range);
r2 = STOUC(UNMETA(range));
if (*range == Meta)
range++;
rdiff = r2 - r1;
if (rdiff >= ind) {
*chr = r1 + ind;
return 1;
}
/* note the extra decrement to ind below */
ind -= rdiff;
break;
case PP_UNKWN:
DPUTS(1, "BUG: unknown posix range passed through.\n");
break;
default:
DPUTS(1, "BUG: unknown metacharacter in range.");
break;
}
} else {
if (!ind) {
*chr = STOUC(*range);
return 1;
}
}
if (!ind--)
break;
}
/* No corresponding index. */
return 0;
}
/**/
#endif /* MULTIBYTE_SUPPORT */
/*
* Repeatedly match something simple and say how many times.
* charstart is an array parallel to that starting at patinput
* and records the start of (possibly multibyte) characters
* to aid in later backtracking.
*/
/**/
static int patrepeat(Upat p, char *charstart)
{
int count = 0;
patint_t tch, charmatch_cache;
char *scan, *opnd;
scan = patinput;
opnd = (char *)P_OPERAND(p);
switch(P_OP(p)) {
#ifdef DEBUG
case P_ANY:
dputs("BUG: ?# did not get optimized to *");
return 0;
break;
#endif
case P_EXACTLY:
DPUTS(P_LS_LEN(p) != 1, "closure following more than one character");
tch = CHARREF(P_LS_STR(p), P_LS_STR(p) + P_LS_LEN(p));
while (scan < patinend &&
CHARMATCH_EXPR(CHARREF(scan, patinend), tch)) {
charstart[scan-patinput] = 1;
count++;
CHARINC(scan, patinend);
}
break;
case P_ANYOF:
case P_ANYBUT:
while (scan < patinend) {
#ifdef MULTIBYTE_SUPPORT
int zmb_ind;
wchar_t cr = charref(scan, patinend, &zmb_ind);
if (patglobflags & GF_MULTIBYTE) {
if (mb_patmatchrange(opnd, cr, zmb_ind, NULL, NULL) ^
(P_OP(p) == P_ANYOF))
break;
} else if (patmatchrange(opnd, (int)cr, NULL, NULL) ^
(P_OP(p) == P_ANYOF))
break;
#else
if (patmatchrange(opnd, CHARREF(scan, patinend), NULL, NULL) ^
(P_OP(p) == P_ANYOF))
break;
#endif
charstart[scan-patinput] = 1;
count++;
CHARINC(scan, patinend);
}
break;
#ifdef DEBUG
default:
dputs("BUG: something very strange is happening in patrepeat");
return 0;
break;
#endif
}
patinput = scan;
return count;
}
/* Free a patprog. */
/**/
mod_export void
freepatprog(Patprog prog)
{
if (prog && prog != dummy_patprog1 && prog != dummy_patprog2)
zfree(prog, prog->size);
}
/* Disable or reenable a pattern character */
/**/
int
pat_enables(const char *cmd, char **patp, int enable)
{
int ret = 0;
const char **stringp;
char *disp;
if (!*patp) {
int done = 0;
for (stringp = zpc_strings, disp = zpc_disables;
stringp < zpc_strings + ZPC_COUNT;
stringp++, disp++) {
if (!*stringp)
continue;
if (enable ? *disp : !*disp)
continue;
if (done)
putc(' ', stdout);
printf("'%s'", *stringp);
done = 1;
}
if (done)
putc('\n', stdout);
return 0;
}
for (; *patp; patp++) {
for (stringp = zpc_strings, disp = zpc_disables;
stringp < zpc_strings + ZPC_COUNT;
stringp++, disp++) {
if (*stringp && !strcmp(*stringp, *patp)) {
*disp = (char)!enable;
break;
}
}
if (stringp == zpc_strings + ZPC_COUNT) {
zerrnam(cmd, "invalid pattern: %s", *patp);
ret = 1;
}
}
return ret;
}
/*
* Save the current state of pattern disables, returning the saved value.
*/
/**/
unsigned int
savepatterndisables(void)
{
unsigned int disables, bit;
char *disp;
disables = 0;
for (bit = 1, disp = zpc_disables;
disp < zpc_disables + ZPC_COUNT;
bit <<= 1, disp++) {
if (*disp)
disables |= bit;
}
return disables;
}
/*
* Function scope saving pattern enables.
*/
/**/
void
startpatternscope(void)
{
Zpc_disables_save newdis;
newdis = (Zpc_disables_save)zalloc(sizeof(*newdis));
newdis->next = zpc_disables_stack;
newdis->disables = savepatterndisables();
zpc_disables_stack = newdis;
}
/*
* Restore completely the state of pattern disables.
*/
/**/
void
restorepatterndisables(unsigned int disables)
{
char *disp;
unsigned int bit;
for (bit = 1, disp = zpc_disables;
disp < zpc_disables + ZPC_COUNT;
bit <<= 1, disp++) {
if (disables & bit)
*disp = 1;
else
*disp = 0;
}
}
/*
* Function scope to restore pattern enables if localpatterns is turned on.
*/
/**/
void
endpatternscope(void)
{
Zpc_disables_save olddis;
olddis = zpc_disables_stack;
zpc_disables_stack = olddis->next;
if (isset(LOCALPATTERNS))
restorepatterndisables(olddis->disables);
zfree(olddis, sizeof(*olddis));
}
/* Reinitialise pattern disables */
/**/
void
clearpatterndisables(void)
{
memset(zpc_disables, 0, ZPC_COUNT);
}
/* Check to see if str is eligible for filename generation. */
/**/
mod_export int
haswilds(char *str)
{
char *start;
/* `[' and `]' are legal even if bad patterns are usually not. */
if ((*str == Inbrack || *str == Outbrack) && !str[1])
return 0;
/* If % is immediately followed by ?, then that ? is *
* not treated as a wildcard. This is so you don't have *
* to escape job references such as %?foo. */
if (str[0] == '%' && str[1] == Quest)
str[1] = '?';
/*
* Note that at this point zpc_special has not been set up.
*/
start = str;
for (; *str; str++) {
switch (*str) {
case Inpar:
if ((!isset(SHGLOB) && !zpc_disables[ZPC_INPAR]) ||
(str > start && isset(KSHGLOB) &&
((str[-1] == Quest && !zpc_disables[ZPC_KSH_QUEST]) ||
(str[-1] == Star && !zpc_disables[ZPC_KSH_STAR]) ||
(str[-1] == '+' && !zpc_disables[ZPC_KSH_PLUS]) ||
(str[-1] == '!' && !zpc_disables[ZPC_KSH_BANG]) ||
(str[-1] == '@' && !zpc_disables[ZPC_KSH_AT]))))
return 1;
break;
case Bar:
if (!zpc_disables[ZPC_BAR])
return 1;
break;
case Star:
if (!zpc_disables[ZPC_STAR])
return 1;
break;
case Inbrack:
if (!zpc_disables[ZPC_INBRACK])
return 1;
break;
case Inang:
if (!zpc_disables[ZPC_INANG])
return 1;
break;
case Quest:
if (!zpc_disables[ZPC_QUEST])
return 1;
break;
case Pound:
if (isset(EXTENDEDGLOB) && !zpc_disables[ZPC_HASH])
return 1;
break;
case Hat:
if (isset(EXTENDEDGLOB) && !zpc_disables[ZPC_HAT])
return 1;
break;
}
}
return 0;
}
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