/***********************************************************************
* *
* This software is part of the ast package *
* Copyright (c) 1995-2010 AT&T Intellectual Property *
* and is licensed under the *
* Common Public License, Version 1.0 *
* by AT&T Intellectual Property *
* *
* A copy of the License is available at *
* http://www.opensource.org/licenses/cpl1.0.txt *
* (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) *
* *
* Information and Software Systems Research *
* AT&T Research *
* Florham Park NJ *
* *
* Glenn Fowler <gsf@research.att.com> *
* *
***********************************************************************/
#pragma prototyped
static const char usage[] =
"[-?\n@(#)$Id: grep (AT&T Research) 2010-12-10 $\n]"
USAGE_LICENSE
"[+NAME?grep - search lines in files for matching patterns]"
"[+DESCRIPTION?The \bgrep\b commands search the named input files"
" for lines containing a match for the given \apatterns\a."
" Matching lines are printed by default. The standard input is searched"
" if no files are given or when the file \b-\b is specified.]"
"[+?There are six variants of \bgrep\b, each one using a different form of"
" \apattern\a, controlled either by option or the command path"
" base name. Details of each variant may be found in \bregex\b(3).]"
" {"
" [+grep?The default basic regular expressions (no alternations.)]"
" [+egrep?Extended regular expressions (alternations, one or more.)]"
" [+pgrep?\bperl\b(1) regular expressions (lenient extended.)]"
" [+xgrep?Augmented regular expressions (conjunction, negation.)]"
" [+fgrep?Fixed string expressions.]"
" [+agrep?Approximate regular expressions (not implemented.)]"
" }"
"[G:basic-regexp?\bgrep\b mode (default): basic regular expression \apatterns\a.]"
"[E:extended-regexp?\begrep\b mode: extended regular expression \apatterns\a.]"
"[X:augmented-regexp?\bxgrep\b mode: augmented regular expression \apatterns\a.]"
"[P:perl-regexp?\bpgrep\b mode: \bperl\b(1) regular expression \apatterns\a.]"
"[F:fixed-string?\bfgrep\b mode: fixed string \apatterns\a.]"
"[A:approximate-regexp?\bagrep\b mode: approximate regular expression \apatterns\a (not implemented.)]"
"[C:context?Set the matched line context \abefore\a and \aafter\a count."
" If ,\aafter\a is omitted then it is set to \abefore\a."
" By default only matched lines are printed.]:?"
" [before[,after]]:=2,2]"
"[c:count?Only print a matching line count for each file.]"
"[e:expression|pattern|regexp?Specify a matching \apattern\a. More than one"
" \apattern\a implies alternation. If this option is specified"
" then the command line \apattern\a must be omitted.]:"
" [pattern]"
"[f:file?Each line in \apattern-file\a is a \apattern\a, placed into a single"
" alternating expression.]:"
" [pattern-file]"
"[H:filename|with-filename?Prefix each matched line with the containing file name.]"
"[h:no-filename?Suppress containing file name prefix for each matched line.]"
"[i:ignore-case?Ignore case when matching.]"
"[l:files-with-matches?Only print file names with at least one match.]"
"[L:files-without-matches?Only print file names with no matches.]"
"[b:highlight?Highlight matches using the ansi terminal bold sequence.]"
"[v:invert-match|revert-match?Invert the \apattern\a match sense.]"
"[m:label?All patterns must be of the form \alabel\a:\apattern\a. Match and"
" count output will be prefixed by the corresponding \alabel\a:.]"
"[O:lenient?Enable lenient \apattern\a interpretation. This is the default.]"
"[x:line-match|line-regexp?Force \apatterns\a to match complete lines.]"
"[n:number|line-number?Prefix each matched line with its line number.]"
"[N:name?Set the standard input file name prefix to"
" \aname\a.]:[name:=empty]"
"[q:quiet|silent?Do not print matching lines.]"
"[r|R:recursive?Recursively process all files in each named directory. "
"Use \btw -e\b \aexpression\a \bgrep ...\b to control the directory "
"traversal.]"
"[S:strict?Enable strict \apattern\a interpretation with diagnostics.]"
"[s:suppress|no-messages?Suppress error and warning messages.]"
"[t:total?Only print a single matching line count for all files.]"
"[T:test?Enable implementation specific tests.]:"
" [test]"
"[w:word-match|word-regexp?Force \apatterns\a to match complete words.]"
"[a?Ignored for GNU compatibility.]"
"\n"
"\n[ pattern ] [ file ... ]\n"
"\n"
"[+DIAGNOSTICS?Exit status 0 if matches were found, 1 if no matches were found,"
" where \b-v\b invertes the exit status. Exit status 2 for other"
" errors that are accompanied by a message on the standard error.]"
"[+SEE ALSO?\bed\b(1), \bsed\b(1), \bperl\b(1), \btw\b(1), \bregex\b(3)]"
"[+CAVEATS?Some expressions of necessity require exponential space"
" and/or time.]"
"[+BUGS?Some expressions may use sub-optimal algorithms. For example,"
" don't use this implementation to compute primes.]"
;
#include <ast.h>
#include <ctype.h>
#include <ccode.h>
#include <error.h>
#include <fts.h>
#include <regex.h>
#ifndef EISDIR
#define EISDIR (-1)
#endif
/*
* snarfed from Doug McElroy's C++ version
*
* this grep is based on the Posix re package.
* unfortunately it has to have a nonstandard interface.
* 1. fgrep does not have usual operators. REG_LITERAL
* caters for this.
* 2. grep allows null expressions, hence REG_NULL.
* 3. it may be possible to combine the multiple
* patterns of grep into single patterns. important
* special cases are handled by regcomb().
* 4. anchoring by -x has to be done separately from
* compilation (remember that fgrep has no ^ or $ operator),
* hence REG_LEFT|REG_RIGHT. (An honest, but slow alternative:
* run regexec with REG_NOSUB off and nmatch=1 and check
* whether the match is full length)
*/
typedef struct Item_s /* list item - sue me for waste */
{
struct Item_s* next; /* next in list */
regex_t re; /* compiled re */
Sfulong_t hits; /* labeled pattern matches */
Sfulong_t total; /* total hits */
char string[1]; /* string value */
} Item_t;
typedef struct List_s /* generic list */
{
Item_t* head; /* list head */
Item_t* tail; /* list tail */
} List_t;
typedef struct State_s /* program state */
{
struct
{
char* base; /* sfsetbuf buffer */
size_t size; /* sfsetbuf size */
int noshare; /* turn off SF_SHARE */
} buffer;
List_t file; /* pattern file list */
List_t pattern; /* pattern list */
List_t re; /* re list */
regmatch_t posvec[1]; /* match position vector */
regmatch_t* pos; /* match position pointer */
int posnum; /* number of match positions */
int any; /* if any pattern hit */
int after; /* # lines to list after match */
int before; /* # lines to list before match */
int list; /* list files with hits */
int notfound; /* some input file not found */
int options; /* regex options */
Sfulong_t hits; /* total matched pattern count */
unsigned char byline; /* multiple pattern line by line*/
unsigned char count; /* count number of hits */
unsigned char label; /* all patterns labeled */
unsigned char match; /* match sense */
unsigned char query; /* return status but no output */
unsigned char number; /* line numbers */
unsigned char prefix; /* print file prefix */
unsigned char suppress; /* no unopenable file messages */
unsigned char words; /* word matches only */
} State_s;
static void
addre(State_s *state, List_t* p, char* s)
{
int c;
char* b;
Item_t* x;
Sfio_t* t;
b = s;
if (state->label)
{
if (!(s = strchr(s, ':')))
error(3, "%s: label:pattern expected", b);
c = s - b;
s++;
}
else
c = 0;
if (!(x = newof(0, Item_t, 1, c)))
error(ERROR_SYSTEM|3, "out of space (pattern `%s')", b);
if (c)
memcpy(x->string, b, c);
if (state->words)
{
if (!(t = sfstropen()))
error(ERROR_SYSTEM|3, "out of space (word pattern `%s')", s);
if (!(state->options & REG_AUGMENTED))
sfputc(t, '\\');
sfputc(t, '<');
sfputr(t, s, -1);
if (!(state->options & REG_AUGMENTED))
sfputc(t, '\\');
sfputc(t, '>');
if (!(s = sfstruse(t)))
error(ERROR_SYSTEM|3, "out of space");
}
else
t = 0;
if (c = regcomp(&x->re, s, state->options|REG_MULTIPLE))
regfatal(&x->re, 4, c);
if (t)
sfstrclose(t);
if (!p->head)
{
p->head = p->tail = x;
if (state->number || state->before || state->after || !regrecord(&x->re))
state->byline = 1;
}
else if (state->label || regcomb(&p->tail->re, &x->re))
{
p->tail = p->tail->next = x;
if (!state->byline && (state->number || !state->label || !regrecord(&x->re)))
state->byline = 1;
}
else
free(x);
}
static void
addstring(State_s *state, List_t* p, char* s)
{
Item_t* x;
if (!(x = newof(0, Item_t, 1, strlen(s))))
error(ERROR_SYSTEM|3, "out of space (string `%s')", s);
strcpy(x->string, s);
if (p->head)
p->tail->next = x;
else
p->head = x;
p->tail = x;
}
static void
compile(State_s *state)
{
int line;
size_t n;
char* s;
char* t;
char* file;
Item_t* x;
Sfio_t* f;
for (x = state->pattern.head; x; x = x->next)
addre(state, &state->re, x->string);
for (x = state->file.head; x; x = x->next)
{
s = x->string;
if (!(f = sfopen(NiL, s, "r")))
error(ERROR_SYSTEM|4, "%s: cannot open", s);
else
{
file = error_info.file;
error_info.file = s;
line = error_info.line;
error_info.line = 0;
while (s = (char*)sfreserve(f, SF_UNBOUND, SF_LOCKR))
{
if (!(n = sfvalue(f)))
break;
if (s[n - 1] != '\n')
{
for (t = s + n; t > s && *--t != '\n'; t--);
if (t == s)
{
sfread(f, s, 0);
break;
}
n = t - s + 1;
}
s[n - 1] = 0;
addre(state, &state->re, s);
s[n - 1] = '\n';
sfread(f, s, n);
}
while ((s = sfgetr(f, '\n', 1)) || (s = sfgetr(f, '\n', -1)))
{
error_info.line++;
addre(state, &state->re, s);
}
error_info.file = file;
error_info.line = line;
sfclose(f);
}
}
if (!state->re.head)
error(3, "no pattern");
}
static void
highlight(Sfio_t* sp, const char* s, int n, int so, int eo)
{
static const char bold[] = {CC_esc,'[','1','m'};
static const char normal[] = {CC_esc,'[','0','m'};
sfwrite(sp, s, so);
sfwrite(sp, bold, sizeof(bold));
sfwrite(sp, s + so, eo - so);
sfwrite(sp, normal, sizeof(normal));
sfwrite(sp, s + eo, n - eo);
}
typedef struct
{
State_s *state;
Item_t *item;
} record_handle;
static int
record(void* handle, const char* s, size_t len)
{
record_handle *r_x = (record_handle *)handle;
State_s *state = r_x->state;
Item_t *item = r_x->item;
item->hits++;
if (state->query || state->list)
return -1;
if (!state->count)
{
if (state->prefix)
sfprintf(sfstdout, "%s:", error_info.file);
if (state->label)
sfprintf(sfstdout, "%s:", item->string);
if (state->pos)
highlight(sfstdout, s, len + 1, state->pos[0].rm_so, state->pos[0].rm_eo);
else
sfwrite(sfstdout, s, len + 1);
}
return 0;
}
static void
execute(State_s *state, Sfio_t* input, char* name)
{
register char* s;
char* file;
Item_t* x;
size_t len;
int result;
int line;
Sfulong_t hits = 0;
if (state->buffer.noshare)
sfset(input, SF_SHARE, 0);
if (state->buffer.size)
sfsetbuf(input, state->buffer.base, state->buffer.size);
if (!name)
name = "/dev/stdin";
file = error_info.file;
error_info.file = name;
line = error_info.line;
error_info.line = 0;
if (state->byline)
{
for (;;)
{
error_info.line++;
if (s = sfgetr(input, '\n', 0))
len = sfvalue(input) - 1;
else if (s = sfgetr(input, '\n', -1))
{
len = sfvalue(input);
s[len] = '\n';
#if _you_like_the_noise
error(1, "newline appended");
#endif
}
else
{
if (sferror(input) && errno != EISDIR)
error(ERROR_SYSTEM|2, "read error");
break;
}
x = state->re.head;
do
{
if (!(result = regnexec(&x->re, s, len, state->posnum, state->pos, 0)))
{
if (!state->label)
break;
x->hits++;
if (state->query || state->list)
goto done;
if (!state->count)
{
if (state->prefix)
sfprintf(sfstdout, "%s:", name);
if (state->number)
sfprintf(sfstdout, "%d:", error_info.line);
sfprintf(sfstdout, "%s:", x->string);
if (state->pos)
highlight(sfstdout, s, len + 1, state->pos[0].rm_so, state->pos[0].rm_eo);
else
sfwrite(sfstdout, s, len + 1);
}
}
else if (result != REG_NOMATCH)
regfatal(&x->re, 4, result);
} while (x = x->next);
if (!state->label && (x != 0) == state->match)
{
hits++;
if (state->query || state->list)
break;
if (!state->count)
{
if (state->prefix)
sfprintf(sfstdout, "%s:", name);
if (state->number)
sfprintf(sfstdout, "%d:", error_info.line);
if (state->pos)
highlight(sfstdout, s, len + 1, state->pos[0].rm_so, state->pos[0].rm_eo);
else
sfwrite(sfstdout, s, len + 1);
}
}
}
}
else
{
register char* e;
register char* t;
char* r;
static char* span = 0;
static size_t spansize = 0;
s = e = 0;
for (;;)
{
if (s < e)
{
t = span;
for (;;)
{
len = 2 * (e - s) + t - span + 1;
len = roundof(len, SF_BUFSIZE);
if (spansize < len)
{
spansize = len;
len = t - span;
if (!(span = newof(span, char, spansize, 0)))
error(ERROR_SYSTEM|3, "%s: line longer than %lu characters", name, len + e - s);
t = span + len;
}
len = e - s;
memcpy(t, s, len);
t += len;
if (!(s = sfreserve(input, SF_UNBOUND, 0)) || (len = sfvalue(input)) <= 0)
{
if ((sfvalue(input) || sferror(input)) && errno != EISDIR)
error(ERROR_SYSTEM|2, "%s: read error", name);
break;
}
else if (!(e = memchr(s, '\n', len)))
e = s + len;
else
{
r = s + len;
len = (e - s) + t - span;
len = roundof(len, SF_BUFSIZE);
if (spansize < len)
{
spansize = len;
len = t - span;
if (!(span = newof(span, char, spansize, 0)))
error(ERROR_SYSTEM|3, "%s: line longer than %lu characters", name, len + e - s);
t = span + len;
}
len = e - s;
memcpy(t, s, len);
t += len;
s += len + 1;
e = r;
break;
}
}
*t = '\n';
if (!(len = t - span))
len++;
x = state->re.head;
do
{
record_handle r_x = { state, x };
if ((result = regrexec(&x->re, span, len, state->posnum, state->pos, state->options, '\n', (void*)&r_x, record)) < 0)
goto done;
if (result && result != REG_NOMATCH)
regfatal(&x->re, 4, result);
} while (x = x->next);
if (!s)
break;
}
else
{
if (!(s = sfreserve(input, SF_UNBOUND, 0)))
{
if ((sfvalue(input) || sferror(input)) && errno != EISDIR)
error(ERROR_SYSTEM|2, "%s: read error", name);
break;
}
if ((len = sfvalue(input)) <= 0)
break;
e = s + len;
}
t = e;
while (t > s)
if (*--t == '\n')
{
len = t - s;
if (!len || t > s && *(t - 1) == '\n')
len++;
x = state->re.head;
do
{
record_handle r_x = { state, x };
error(-1, "AHA#%d [%d] %-.*s", __LINE__, len, len, s);
if ((result = regrexec(&x->re, s, len, state->posnum, state->pos, state->options, '\n', (void*)&r_x, record)) < 0)
goto done;
if (result && result != REG_NOMATCH)
regfatal(&x->re, 4, result);
} while (x = x->next);
s = t + 1;
break;
}
}
}
done:
error_info.file = file;
error_info.line = line;
if (state->byline && !state->label)
{
if (hits && state->list >= 0)
state->any = 1;
if (!state->query)
{
if (!state->list)
{
if (state->count)
{
if (state->count & 2)
state->hits += hits;
else
{
if (state->prefix)
sfprintf(sfstdout, "%s:", name);
sfprintf(sfstdout, "%I*u\n", sizeof(hits), hits);
}
}
}
else if ((hits != 0) == (state->list > 0))
{
if (state->list < 0)
state->any = 1;
sfprintf(sfstdout, "%s\n", name);
}
}
}
else
{
x = state->re.head;
do
{
if (x->hits && state->list >= 0)
{
state->any = 1;
if (state->query)
break;
}
if (!state->query)
{
if (!state->list)
{
if (state->count)
{
if (state->count & 2)
{
x->total += x->hits;
state->hits += x->hits;
}
else
{
if (state->prefix)
sfprintf(sfstdout, "%s:", name);
if (state->label)
sfprintf(sfstdout, "%s:", x->string);
sfprintf(sfstdout, "%I*u\n", sizeof(x->hits), x->hits);
}
}
}
else if ((x->hits != 0) == (state->list > 0))
{
if (state->list < 0)
state->any = 1;
if (state->label)
sfprintf(sfstdout, "%s:%s\n", name, x->string);
else
sfprintf(sfstdout, "%s\n", name);
}
}
x->hits = 0;
} while (x = x->next);
}
}
static
int grep_main(int argc, char** argv, void *context)
{
int c;
char* s;
char* h;
Sfio_t* f;
int flags;
int old = 0;
FTS* fts;
FTSENT* ent;
State_s state;
memset(&state, 0, sizeof(state));
NoP(argc);
flags = fts_flags() | FTS_TOP | FTS_NOPOSTORDER | FTS_NOSEEDOTDIR;
state.match = 1;
state.options = REG_FIRST|REG_NOSUB|REG_NULL;
h = 0;
if (!conformance(0, 0))
state.options |= REG_LENIENT;
if (s = strrchr(argv[0], '/'))
s++;
else
s = argv[0];
switch (*s)
{
case 'e':
case 'E':
s = "egrep";
state.options |= REG_EXTENDED;
break;
case 'f':
case 'F':
s = "fgrep";
state.options |= REG_LITERAL;
break;
case 'p':
case 'P':
s = "pgrep";
state.options |= REG_EXTENDED|REG_LENIENT;
break;
case 'x':
case 'X':
s = "xgrep";
state.options |= REG_AUGMENTED;
break;
default:
s = "grep";
break;
}
error_info.id = s;
while (c = optget(argv, usage))
switch (c)
{
case 'C':
if (opt_info.arg)
{
state.before = (int)strtol(opt_info.arg, &s, 0);
state.after = (*s == ',') ? (int)strtol(s + 1, &s, 0) : state.before;
if (*s)
error(3, "%s: invalid context line count", s);
}
else
state.before = state.after = 2;
break;
case 'E':
state.options |= REG_EXTENDED;
break;
case 'F':
state.options |= REG_LITERAL;
break;
case 'G':
state.options &= ~(REG_AUGMENTED|REG_EXTENDED);
break;
case 'H':
state.prefix = opt_info.num;
break;
case 'L':
state.list = -opt_info.num;
break;
case 'N':
h = opt_info.arg;
break;
case 'O':
state.options |= REG_LENIENT;
break;
case 'P':
state.options |= REG_EXTENDED|REG_LENIENT;
break;
case 'S':
state.options &= ~REG_LENIENT;
break;
case 'T':
s = opt_info.arg;
switch (*s)
{
case 'b':
case 'm':
c = *s++;
state.buffer.size = strton(s, &s, NiL, 1);
if (c == 'b' && !(state.buffer.base = newof(0, char, state.buffer.size, 0)))
error(ERROR_SYSTEM|3, "out of space [test buffer]");
if (*s)
error(3, "%s: invalid characters after test", s);
break;
case 'f':
state.options |= REG_FIRST;
break;
case 'l':
state.options |= REG_LEFT;
break;
case 'n':
state.buffer.noshare = 1;
break;
case 'r':
state.options |= REG_RIGHT;
break;
default:
error(3, "%s: unknown test", s);
break;
}
break;
case 'X':
state.options |= REG_AUGMENTED;
break;
case 'a':
break;
case 'b':
state.options &= ~(REG_FIRST|REG_NOSUB);
break;
case 'c':
state.count |= 1;
break;
case 'e':
addstring(&state, &state.pattern, opt_info.arg);
break;
case 'f':
addstring(&state, &state.file, opt_info.arg);
break;
case 'h':
state.prefix = 2;
break;
case 'i':
state.options |= REG_ICASE;
break;
case 'l':
state.list = opt_info.num;
break;
case 'm':
state.label = 1;
break;
case 'n':
state.number = 1;
break;
case 'q':
state.query = 1;
break;
case 'r':
if (opt_info.num)
flags &= ~FTS_TOP;
else
old = 1;
break;
case 's':
state.suppress = opt_info.num;
break;
case 't':
state.count |= 2;
break;
case 'v':
if (state.match = !opt_info.num)
state.options &= ~REG_INVERT;
else
state.options |= REG_INVERT;
break;
case 'w':
state.words = 1;
break;
case 'x':
state.options |= REG_LEFT|REG_RIGHT;
break;
case '?':
error(ERROR_USAGE|4, "%s", opt_info.arg);
break;
case ':':
error(2, "%s", opt_info.arg);
break;
default:
error(3, "%s: not implemented", opt_info.name);
break;
}
argv += opt_info.index;
if ((state.options & REG_LITERAL) && (state.options & (REG_AUGMENTED|REG_EXTENDED)))
error(3, "-F and -A or -P or -X are incompatible");
if ((state.options & REG_LITERAL) && state.words)
error(ERROR_SYSTEM|3, "-F and -w are incompatible");
if (!state.file.head && !state.pattern.head)
{
if (!argv[0])
error(3, "no pattern");
addstring(&state, &state.pattern, *argv++);
}
if (!(state.options & (REG_FIRST|REG_NOSUB)))
{
if (state.count || state.list || state.query || (state.options & REG_INVERT))
state.options |= REG_FIRST|REG_NOSUB;
else
{
state.pos = state.posvec;
state.posnum = elementsof(state.posvec);
}
}
compile(&state);
if (!argv[0])
{
state.prefix = h ? 1 : 0;
execute(&state, sfstdin, h);
}
else if (old) /* just in case the fts logic is incompatible */
{
if (state.prefix > 1)
state.prefix = 0;
else if (argv[1])
state.prefix = 1;
while (s = *argv++)
{
if (f = sfopen(NiL, s, "r"))
{
execute(&state, f, s);
sfclose(f);
if (state.query && state.any)
break;
}
else
{
state.notfound = 1;
if (!state.suppress)
error(ERROR_SYSTEM|2, "%s: cannot open", s);
}
}
}
else
{
if (state.prefix > 1)
state.prefix = 0;
else if (!(flags & FTS_TOP) || argv[1])
state.prefix = 1;
if (!(fts = fts_open(argv, flags, NiL)))
error(ERROR_SYSTEM|3, "%s: not found", argv[0]);
while (ent = fts_read(fts))
switch (ent->fts_info)
{
case FTS_F:
if (f = sfopen(NiL, ent->fts_accpath, "r"))
{
execute(&state, f, ent->fts_path);
sfclose(f);
if (state.query && state.any)
goto quit;
break;
}
/*FALLTHROUGH*/
case FTS_NS:
state.notfound = 1;
if (!state.suppress)
error(ERROR_SYSTEM|2, "%s: cannot open", ent->fts_path);
break;
case FTS_DC:
error(ERROR_WARNING|1, "%s: directory causes cycle", ent->fts_path);
break;
case FTS_DNR:
error(ERROR_SYSTEM|2, "%s: cannot read directory", ent->fts_path);
break;
case FTS_DNX:
error(ERROR_SYSTEM|2, "%s: cannot search directory", ent->fts_path);
break;
}
quit:
fts_close(fts);
}
if ((state.count & 2) && !state.query && !state.list)
{
if (state.label)
{
Item_t* x;
x = state.re.head;
do
{
sfprintf(sfstdout, "%s:%I*u\n", x->string, sizeof(x->total), x->total);
} while (x = x->next);
}
else
sfprintf(sfstdout, "%I*u\n", sizeof(state.hits), state.hits);
}
return (state.notfound && !state.query) ? 2 : !state.any;
}
int b_egrep(int argc, char** argv, void *context)
{
return grep_main(argc, argv, context);
}
int b_grep(int argc, char** argv, void *context)
{
return grep_main(argc, argv, context);
}
int b_fgrep(int argc, char** argv, void *context)
{
return grep_main(argc, argv, context);
}
int b_pgrep(int argc, char** argv, void *context)
{
return grep_main(argc, argv, context);
}
int b_xgrep(int argc, char** argv, void *context)
{
return grep_main(argc, argv, context);
}