*** empty log message ***

This commit is contained in:
hyung-hwan 2006-07-24 11:58:55 +00:00
parent 4790c85615
commit a7154a8308
3 changed files with 439 additions and 89 deletions

View File

@ -1,5 +1,5 @@
/* /*
* $Id: rex.c,v 1.10 2006-07-23 16:31:20 bacon Exp $ * $Id: rex.c,v 1.11 2006-07-24 11:58:53 bacon Exp $
*/ */
#include <xp/awk/awk_i.h> #include <xp/awk/awk_i.h>
@ -53,6 +53,7 @@ enum
#define BOUND_MIN 0 #define BOUND_MIN 0
#define BOUND_MAX (XP_TYPE_MAX(xp_size_t)) #define BOUND_MAX (XP_TYPE_MAX(xp_size_t))
struct __code_t struct __code_t
{ {
//xp_byte_t cmd; //xp_byte_t cmd;
@ -64,9 +65,8 @@ struct __code_t
struct __match_t struct __match_t
{ {
const xp_char_t* bp; /* base point */ const xp_char_t* match_ptr;
const xp_char_t* end;
const xp_char_t* mp; /* match point */
xp_bool_t matched; xp_bool_t matched;
xp_size_t match_len; xp_size_t match_len;
@ -74,6 +74,9 @@ struct __match_t
const xp_byte_t* branch_end; const xp_byte_t* branch_end;
}; };
typedef const xp_byte_t* (*atom_matcher_t) (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
#define NCHARS_REMAINING(rex) ((rex)->ptn.end - (rex)->ptn.curp) #define NCHARS_REMAINING(rex) ((rex)->ptn.end - (rex)->ptn.curp)
#define NEXT_CHAR(rex,level) \ #define NEXT_CHAR(rex,level) \
@ -98,20 +101,36 @@ static const xp_byte_t* __print_expression (const xp_byte_t* p);
static const xp_byte_t* __print_branch (const xp_byte_t* p); static const xp_byte_t* __print_branch (const xp_byte_t* p);
static const xp_byte_t* __print_atom (const xp_byte_t* p); static const xp_byte_t* __print_atom (const xp_byte_t* p);
static xp_bool_t __begin_with ( static xp_bool_t __begin_with (
const xp_char_t* str, xp_size_t len, const xp_char_t* what); const xp_char_t* str, xp_size_t len, const xp_char_t* what);
static xp_byte_t* __match_expression ( static const xp_byte_t* __match_expression (
xp_awk_rex_t* rex, xp_byte_t* base, struct __match_t* mat); xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static xp_byte_t* __match_branch ( static const xp_byte_t* __match_branch (
xp_awk_rex_t* rex, xp_byte_t* base, struct __match_t* mat); xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static xp_byte_t* __match_branch_body ( static const xp_byte_t* __match_branch_body (
xp_awk_rex_t* rex, xp_byte_t* base, struct __match_t* mat); xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static xp_byte_t* __match_atom ( static const xp_byte_t* __match_atom (
xp_awk_rex_t* rex, xp_byte_t* base, struct __match_t* mat); xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static xp_byte_t* __match_any_char ( static const xp_byte_t* __match_bol (
xp_awk_rex_t* rex, xp_byte_t* base, struct __match_t* mat); xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static const xp_byte_t* __match_eol (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static const xp_byte_t* __match_any_char (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static const xp_byte_t* __match_ord_char (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static const xp_byte_t* __match_charset (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static const xp_byte_t* __match_group (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat);
static const xp_byte_t* __match_bound (
xp_awk_rex_t* rex, xp_size_t si, const xp_byte_t* p,
const struct __code_t* cp, struct __match_t* mat);
static xp_bool_t __test_charset (
const xp_byte_t* p, xp_size_t csc, xp_char_t c);
static xp_bool_t __cc_isalnum (xp_char_t c); static xp_bool_t __cc_isalnum (xp_char_t c);
static xp_bool_t __cc_isalpha (xp_char_t c); static xp_bool_t __cc_isalpha (xp_char_t c);
@ -809,13 +828,6 @@ static const xp_byte_t* __print_atom (const xp_byte_t* p)
xp_printf (XP_T("%c"), *(xp_char_t*)p); xp_printf (XP_T("%c"), *(xp_char_t*)p);
p += xp_sizeof(xp_char_t); p += xp_sizeof(xp_char_t);
} }
else if (cp->cmd == CMD_GROUP)
{
p += xp_sizeof(*cp);
xp_printf (XP_T("("));
p = __print_expression (p);
xp_printf (XP_T(")"));
}
else if (cp->cmd == CMD_CHARSET) else if (cp->cmd == CMD_CHARSET)
{ {
xp_size_t csc, csl, i; xp_size_t csc, csl, i;
@ -848,7 +860,7 @@ static const xp_byte_t* __print_atom (const xp_byte_t* p)
else if (c0 == CHARSET_CLASS) else if (c0 == CHARSET_CLASS)
{ {
c1 = *(xp_char_t*)p; c1 = *(xp_char_t*)p;
xp_printf (XP_T("[:%s:]"), __char_class[c1]); xp_printf (XP_T("[:%s:]"), __char_class[c1].name);
} }
else else
{ {
@ -860,6 +872,13 @@ xp_printf (XP_T("FUCK: WRONG CHARSET CODE\n"));
xp_printf (XP_T("]")); xp_printf (XP_T("]"));
} }
else if (cp->cmd == CMD_GROUP)
{
p += xp_sizeof(*cp);
xp_printf (XP_T("("));
p = __print_expression (p);
xp_printf (XP_T(")"));
}
else else
{ {
xp_printf (XP_T("FUCK FUCK FUCK\n")); xp_printf (XP_T("FUCK FUCK FUCK\n"));
@ -900,28 +919,30 @@ static xp_bool_t __begin_with (
int xp_awk_rex_match (xp_awk_rex_t* rex, int xp_awk_rex_match (xp_awk_rex_t* rex,
const xp_char_t* str, xp_size_t len, const xp_char_t* str, xp_size_t len,
xp_size_t* match_offset, xp_size_t* match_len) const xp_char_t** match_ptr, xp_size_t* match_len)
{ {
xp_size_t offset = 0; xp_size_t offset = 0;
struct __match_t mat; struct __match_t mat;
mat.matched = xp_false; mat.matched = xp_false;
while (offset <= len) /* store the source string */
{ rex->match.str.ptr = str;
mat.bp = str; rex->match.str.end = str + len;
mat.end = str + len;
mat.mp = str + offset;
mat.match_ptr = str + offset;
while (mat.match_ptr < rex->match.str.end)
{
__match_expression (rex, rex->code.buf, &mat); __match_expression (rex, rex->code.buf, &mat);
if (mat.matched) if (mat.matched)
{ {
*match_offset = offset; *match_ptr = mat.match_ptr;
*match_len = mat.match_len; *match_len = mat.match_len;
break; break;
} }
offset++; mat.match_ptr++;
} }
return (mat.matched)? 0: -1; return (mat.matched)? 0: -1;
@ -930,23 +951,21 @@ int xp_awk_rex_match (xp_awk_rex_t* rex,
static const xp_byte_t* __match_expression ( static const xp_byte_t* __match_expression (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat) xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{ {
xp_byte_t* p; const xp_byte_t* p;
xp_size_t nb, el, i;
struct __match_t mat2; struct __match_t mat2;
xp_size_t nb, el, i;
p = base; p = base;
nb = *(xp_size_t*)p; p += xp_sizeof(nb); nb = *(xp_size_t*)p; p += xp_sizeof(nb);
el = *(xp_size_t*)p; p += xp_sizeof(el); el = *(xp_size_t*)p; p += xp_sizeof(el);
xp_printf (XP_T("NB = %u, EL = %u\n"), (unsigned)nb, (unsigned)el);
mat->matched = xp_false; mat->matched = xp_false;
mat->match_len = 0; mat->match_len = 0;
mat2.bp = mat->bp;
mat2.end = mat->end;
for (i = 0; i < nb; i++) for (i = 0; i < nb; i++)
{ {
mat2.mp = mat->mp; mat2.match_ptr = mat->match_ptr;
p = __match_branch (rex, p, &mat2); p = __match_branch (rex, p, &mat2);
if (mat2.matched) if (mat2.matched)
@ -963,35 +982,34 @@ static const xp_byte_t* __match_expression (
static const xp_byte_t* __match_branch ( static const xp_byte_t* __match_branch (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat) xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{ {
xp_byte_t* p; const xp_byte_t* p;
xp_size_t na, bl, i; xp_size_t na, bl;
p = base; p = base;
na = *(xp_size_t*)p; p += xp_sizeof(na); na = *(xp_size_t*)p; p += xp_sizeof(na);
bl = *(xp_size_t*)p; p += xp_sizeof(bl); bl = *(xp_size_t*)p; p += xp_sizeof(bl);
xp_printf (XP_T("NA = %u, BL = %u\n"), (unsigned)na, (unsigned)bl);
/* remember the current branch to work on */ /* remember the current branch to work on */
mat->branch = base; mat->branch = base;
mat->branch_end = base + bl; mat->branch_end = base + bl;
return __match_branch_body (rex, base, mat); return __match_branch_body (rex, p, mat);
} }
static const xp_byte_t* __match_branch_body ( static const xp_byte_t* __match_branch_body (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat) xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{ {
struct __match_t mat2;
const xp_byte_t* p; const xp_byte_t* p;
struct __match_t mat2;
mat->matched = xp_false; mat->matched = xp_false;
mat->match_len = 0; mat->match_len = 0;
mat2.bp = mst->bp; mat2.match_ptr = mat->match_ptr;
mat2.end = mst->end; mat2.branch = mat->branch;
mat2.mp = mst->mp; mat2.branch_end = mat->branch_end;
mat2.branch = mst->branch;
mat2.branch_end = mst->branch_end;
p = base; p = base;
@ -1008,94 +1026,397 @@ static const xp_byte_t* __match_branch_body (
mat->matched = xp_true; mat->matched = xp_true;
mat->match_len += mat2.match_len; mat->match_len += mat2.match_len;
mat2.mp = mat2.match_len; mat2.match_ptr = &mat2.match_ptr[mat2.match_len];
} }
return mst->branch_end; return mat->branch_end;
} }
static const xp_byte_t* __match_atom ( static const xp_byte_t* __match_atom (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat) xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{ {
xp_byte_t* p; static atom_matcher_t matchers[] =
{
__match_bol,
__match_eol,
__match_any_char,
__match_ord_char,
__match_charset,
__match_group
};
xp_assert (((struct __code_t*)base)->cmd >= 0 &&
((struct __code_t*)base)->cmd < xp_countof(matchers));
return matchers[((struct __code_t*)base)->cmd] (rex, base, mat);
}
static const xp_byte_t* __match_bol (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{
const xp_byte_t* p = base;
const struct __code_t* cp; const struct __code_t* cp;
p = base; cp = (const struct __code_t*)p; p += xp_sizeof(*cp);
cp = (struct __match_t*)p; xp_assert (cp->cmd == CMD_BOL);
p += xp_sizeof(*cp); mat->matched = (mat->match_ptr == rex->match.str.ptr ||
(cp->lbound == cp->ubound && cp->lbound == 0));
if (cp->cmd == CMD_ANY_CHAR) mat->match_len = 0;
{
p = __match_any_char (rex, p, &mat2);
}
else
{
xp_printf (XP_T("FUCK: __mtach_atom\n"));
}
return p; return p;
} }
static xp_byte_t* __match_any_char ( static const xp_byte_t* __match_eol (
xp_awk_rex_t* rex, xp_byte_t* base, struct __match_t* mat) xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{ {
xp_byte_t* p; const xp_byte_t* p = base;
const struct __code_t* cp;
cp = (const struct __code_t*)p; p += xp_sizeof(*cp);
xp_assert (cp->cmd == CMD_EOL);
mat->matched = (mat->match_ptr == rex->match.str.end ||
(cp->lbound == cp->ubound && cp->lbound == 0));
mat->match_len = 0;
return p;
}
static const xp_byte_t* __match_any_char (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{
const xp_byte_t* p = base;
const struct __code_t* cp;
xp_size_t si = 0; xp_size_t si = 0;
p = base; cp = (const struct __code_t*)p; p += xp_sizeof(*cp);
xp_assert (cp->cmd == CMD_ANY_CHAR);
mat->matched = xp_false; mat->matched = xp_false;
mat->match_len = 0; mat->match_len = 0;
/* find the longest match */ /* find the longest match */
while (1) while (si < cp->ubound)
{ {
if (si >= cp->ubound) break; if (&mat->match_ptr[si] >= rex->match.str.end) break;
if (mat->mp[si] == XP_T('\0')) break;
si++; si++;
} }
if (si == cp->ubound) xp_printf (XP_T("max si = %d\n"), si);
if (si >= cp->lbound && si <= cp->ubound)
{ {
/* the match found */ p = __match_bound (rex, si, p, cp, mat);
}
if (cp->lbound == cp->ubound) return p;
}
static const xp_byte_t* __match_ord_char (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{ {
/* fixed occurrences requested. returns the match */ const xp_byte_t* p = base;
const struct __code_t* cp;
xp_size_t si = 0;
xp_char_t cc;
cp = (const struct __code_t*)p; p += xp_sizeof(*cp);
xp_assert (cp->cmd == CMD_ORD_CHAR);
cc = *(xp_char_t*)p; p += xp_sizeof(cc);
mat->matched = xp_false;
mat->match_len = 0;
/* find the longest match */
while (si < cp->ubound)
{
if (&mat->match_ptr[si] >= rex->match.str.end) break;
if (cc != mat->match_ptr[si]) break;
si++;
}
xp_printf (XP_T("max si = %d\n"), si);
if (si >= cp->lbound && si <= cp->ubound)
{
p = __match_bound (rex, si, p, cp, mat);
}
return p;
}
static const xp_byte_t* __match_charset (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{
const xp_byte_t* p = base;
const struct __code_t* cp;
xp_size_t si = 0, csc, csl;
xp_bool_t n;
cp = (const struct __code_t*)p; p += xp_sizeof(*cp);
xp_assert (cp->cmd == CMD_CHARSET);
csc = *(xp_size_t*)p; p += xp_sizeof(csc);
csl = *(xp_size_t*)p; p += xp_sizeof(csl);
mat->matched = xp_false;
mat->match_len = 0;
while (si < cp->ubound)
{
if (&mat->match_ptr[si] >= rex->match.str.end) break;
n = __test_charset (p, csc, mat->match_ptr[si]);
if (cp->negate) n = !n;
if (!n) break;
si++;
}
p = p + csl - (xp_sizeof(csc) + xp_sizeof(csl));
if (si >= cp->lbound && si <= cp->ubound)
{
p = __match_bound (rex, si, p, cp, mat);
}
return p;
}
static const xp_byte_t* __match_group (
xp_awk_rex_t* rex, const xp_byte_t* base, struct __match_t* mat)
{
const xp_byte_t* p = base, * sub;
const struct __code_t* cp;
struct __match_t mat2;
xp_size_t si = 0, nb, el;
xp_size_t grp_len[100];
cp = (const struct __code_t*)p; p += xp_sizeof(*cp);
xp_assert (cp->cmd == CMD_GROUP);
/* peep at the header of a subexpression */
sub = p;
nb = *(xp_size_t*)p; p += xp_sizeof(nb);
el = *(xp_size_t*)p; p += xp_sizeof(el);
mat->matched = xp_false;
mat->match_len = 0;
mat2.match_ptr = mat->match_ptr;
/*
* A grouped expression, unlike other atoms, can match one or more
* characters. When it is requested with a variable occurrences,
* the number of characters that have matched at each occurrence
* needs to be remembered for the backtracking purpose.
*
* An array "grp_len" is used to store the accumulated number of
* characters. grp_len[0] is set to zero always for convenience.
* grp_len[1] holds the number of characters that have matched
* at the first occurrence, grp_len[2] at the second occurrence,
* and so on.
*
* Look at the following example
*
* pattern: (abc){1,3}x string: abcabcabcxyz
*
* grp_len[3] => 9 -----------+
* grp_len[2] => 6 --------+ |
* grp_len[1] => 3 -----+ | |
* grp_len[0] => 0 --+ | | |
* | | | |
* abcabcabcxyz
*/
// TODO: make this dynamic......
grp_len[si] = 0;
while (si < cp->ubound)
{
if (mat2.match_ptr >= rex->match.str.end) break;
__match_expression (rex, sub, &mat2);
if (!mat2.matched) break;
grp_len[si+1] = grp_len[si] + mat2.match_len;
mat2.match_ptr += mat2.match_len;
mat2.match_len = 0;
mat2.matched = xp_false;
si++;
}
p = sub + el;
if (si >= cp->lbound && si <= cp->ubound)
{
if (cp->lbound == cp->ubound || p >= mat->branch_end)
{
mat->matched = xp_true;
mat->match_len = grp_len[si];
}
else
{
xp_assert (cp->ubound > cp->lbound);
do
{
const xp_byte_t* tmp;
mat2.match_ptr = &mat->match_ptr[grp_len[si]];
mat2.branch = mat->branch;
mat2.branch_end = mat->branch_end;
xp_printf (XP_T("GROUP si = %d [%s]\n"), si, mat->match_ptr);
tmp = __match_branch_body (rex, p, &mat2);
if (mat2.matched)
{
mat->matched = xp_true;
mat->match_len = grp_len[si] + mat2.match_len;
p = tmp;
break;
}
if (si <= cp->lbound) break;
si--;
}
while (1);
}
}
return p;
}
static const xp_byte_t* __match_bound (
xp_awk_rex_t* rex, xp_size_t si, const xp_byte_t* p,
const struct __code_t* cp, struct __match_t* mat)
{
xp_assert (si >= cp->lbound && si <= cp->ubound);
/* the match has been found */
if (cp->lbound == cp->ubound || p >= mat->branch_end)
{
/* if the match for fixed occurrences was
* requested or no atoms remain unchecked in
* the branch, the match is returned. */
mat->matched = xp_true; mat->matched = xp_true;
mat->match_len = si; mat->match_len = si;
} }
else else
{ {
/* otherwise, it checks if the remaining atoms match */ /* Otherwise, it checks if the remaining atoms
while (si >= cp->lbound) * match the rest of the string
*
* Let's say the caller of this function was processing
* the first period character in the following example.
*
* pattern: .{1,3}xx string: xxxyy
*
* It scans up to the third "x" in the string. si is set
* to 3 and p points to the first "x" in the pattern.
* It doesn't change mat.match_ptr so mat.match_ptr remains
* the same.
*
* si = 3 p -----+ mat.match_ptr ---+
* | |
* .{1,3}xx xxxyy
*
* When the code reaches here, the string pointed at by
* &mat.match_ptr[si] is tried to match against the remaining
* pattern pointed at p.
*
* &mat.match_ptr[si] ---+
* |
* xxxyy
*
* If a match is found, the match and the previous match are
* merged and returned.
*
* If not, si is decremented by one and the match is performed
* from the string pointed at by &mat.match_ptr[si].
*
* &mat.match_ptr[si] --+
* |
* xxxyy
*
* This process is repeated until a match is found or si
* becomes less than cp->lbound. (si never becomes less
* than cp->lbound in the implementation below, though)
*/
xp_assert (cp->ubound > cp->lbound);
do
{ {
struct __match_t mat2; struct __match_t mat2;
const xp_byte_t* tmp;
mat2.bp = mat->bp; mat2.match_ptr = &mat->match_ptr[si];
mat2.end = mat->end;
mat2.mp = &mat->mp[si];
mat2.branch = mat->branch; mat2.branch = mat->branch;
mat2.branch_end = mat->branch_end; mat2.branch_end = mat->branch_end;
p = match_branch_body (rex, p, &mat2); xp_printf (XP_T("si = %d [%s]\n"), si, mat->match_ptr);
tmp = __match_branch_body (rex, p, &mat2);
if (mat2.matched) if (mat2.matched)
{ {
mat->matched = xp_true; mat->matched = xp_true;
mat->match_len = si + mat2.match_len; mat->match_len = si + mat2.match_len;
p = tmp;
break; break;
} }
if (si <= cp->lbound) break;
si--; si--;
} }
} while (1);
} }
return p; return p;
} }
xp_bool_t __test_charset (const xp_byte_t* p, xp_size_t csc, xp_char_t c)
{
xp_size_t i;
for (i = 0; i < csc; i++)
{
xp_char_t c0, c1, c2;
c0 = *(xp_char_t*)p;
p += xp_sizeof(c0);
if (c0 == CHARSET_ONE)
{
c1 = *(xp_char_t*)p;
if (c == c1) return xp_true;
}
else if (c0 == CHARSET_RANGE)
{
c1 = *(xp_char_t*)p;
p += xp_sizeof(c1);
c2 = *(xp_char_t*)p;
if (c >= c1 && c <= c2) return xp_true;
}
else if (c0 == CHARSET_CLASS)
{
c1 = *(xp_char_t*)p;
if (__char_class[c1].func (c)) return xp_true;
}
else
{
xp_printf (XP_T("FUCK: WRONG CHARSET CODE IN MATCH\n"));
}
p += xp_sizeof(c1);
}
return xp_false;
}
static xp_bool_t __cc_isalnum (xp_char_t c) static xp_bool_t __cc_isalnum (xp_char_t c)
{ {
return xp_isalnum (c); return xp_isalnum (c);

View File

@ -1,5 +1,5 @@
/* /*
* $Id: rex.h,v 1.5 2006-07-20 16:21:54 bacon Exp $ * $Id: rex.h,v 1.6 2006-07-24 11:58:54 bacon Exp $
**/ **/
#ifndef _XP_AWK_REX_H_ #ifndef _XP_AWK_REX_H_
@ -58,6 +58,15 @@ struct xp_awk_rex_t
xp_size_t capa; xp_size_t capa;
} code; } code;
struct
{
struct
{
const xp_char_t* ptr;
const xp_char_t* end;
} str;
} match;
xp_bool_t __dynamic; xp_bool_t __dynamic;
}; };
@ -67,9 +76,15 @@ extern "C" {
xp_awk_rex_t* xp_awk_rex_open (xp_awk_rex_t* rex); xp_awk_rex_t* xp_awk_rex_open (xp_awk_rex_t* rex);
void xp_awk_rex_close (xp_awk_rex_t* rex); void xp_awk_rex_close (xp_awk_rex_t* rex);
int xp_awk_rex_compile (xp_awk_rex_t* rex, const xp_char_t* ptn, xp_size_t len); int xp_awk_rex_compile (xp_awk_rex_t* rex, const xp_char_t* ptn, xp_size_t len);
void xp_awk_rex_print (xp_awk_rex_t* rex); void xp_awk_rex_print (xp_awk_rex_t* rex);
int xp_awk_rex_match (xp_awk_rex_t* rex,
const xp_char_t* str, xp_size_t len,
const xp_char_t** match_ptr, xp_size_t* match_len);
#ifdef __cplusplus #ifdef __cplusplus
} }
#endif #endif

View File

@ -11,7 +11,6 @@
int xp_main (int argc, const xp_char_t* argv[]) int xp_main (int argc, const xp_char_t* argv[])
{ {
xp_awk_rex_t* rex; xp_awk_rex_t* rex;
const xp_char_t* ptn; const xp_char_t* ptn;
@ -22,11 +21,11 @@ int xp_main (int argc, const xp_char_t* argv[])
return -1; return -1;
} }
//ptn = XP_T("|"); //ptn = XP_T("|");
//ptn = XP_T("^he.llo(jo(in|kk)s|com)+h*e{1,40}abc|[^abc][de-f]|^he.llo(jo(in|kk)s|com)+h*e{1,40}abc|[^abc][de-f]"); //ptn = XP_T("^he.llo(jo(in|kk)s|com)+h*e{1,40}abc|[^abc][de-f]|^he.llo(jo(in|kk)s|com)+h*e{1,40}abc|[^abc][de-f]");
//ptn = XP_T("^he.llo(jo(in|kk)s|com)+h*e{1,40}abc|[^abc][de-f]"); //ptn = XP_T("^he.llo(jo(in|kk)s|com)+h*e{1,40}abc|[^abc][de-f]");
ptn = XP_T("^he.llo(jo(in|kk)s|com)|[^x[:space:][:alpha:]j][^abc][de-f]|^he.llo(jo(in|kk)s|com)|[^x[:space:][:alpha:]j][^abc][de-f]"); //ptn = XP_T("^he.llo(jo(in|kk)s|com)|[^x[:space:][:alpha:]j][^abc][de-f]|^he.llo(jo(in|kk)s|com)|[^x[:space:][:alpha:]j][^abc][de-f]");
ptn = XP_T("^.{0,2}.z[^[:space:]]+(abc|zzz){1,2}khg");
if (xp_awk_rex_compile (rex, ptn, xp_strlen(ptn)) == -1) if (xp_awk_rex_compile (rex, ptn, xp_strlen(ptn)) == -1)
{ {
xp_printf (XP_T("cannot compile pattern...\n")); xp_printf (XP_T("cannot compile pattern...\n"));
@ -35,6 +34,21 @@ int xp_main (int argc, const xp_char_t* argv[])
} }
xp_awk_rex_print (rex); xp_awk_rex_print (rex);
{
const xp_char_t* match_ptr;
xp_size_t match_len;
//if (xp_awk_rex_match (rex, XP_T("azhabc"), 6, &match_ptr, &match_len) == 0)
if (xp_awk_rex_match (rex, XP_T("azhzzzabckhgi"), 13, &match_ptr, &match_len) == 0)
{
xp_printf (XP_T("match = %s, match length = %u\n"), match_ptr, match_len);
}
else
{
xp_printf (XP_T("go to hell\n"));
}
}
xp_awk_rex_close (rex); xp_awk_rex_close (rex);
return 0; return 0;
} }