NetBSD/gnu/usr.bin/awk/split.c

261 lines
5.7 KiB
C

/********************************************
split.c
copyright 1991, Michael D. Brennan
This is a source file for mawk, an implementation of
the AWK programming language.
Mawk is distributed without warranty under the terms of
the GNU General Public License, version 2, 1991.
********************************************/
/* $Log: split.c,v $
/* Revision 1.1.1.1 1993/03/21 09:45:37 cgd
/* initial import of 386bsd-0.1 sources
/*
* Revision 5.1 91/12/05 07:56:31 brennan
* 1.1 pre-release
*
*/
/* split.c */
#define TEMPBUFF_GOES_HERE
#include "mawk.h"
#include "symtype.h"
#include "bi_vars.h"
#include "bi_funct.h"
#include "memory.h"
#include "scan.h"
#include "regexp.h"
#include "field.h"
SPLIT_OV *split_ov_list ;
static int PROTO(re_ov_split, (char *, PTR) ) ;
static int PROTO(space_ov_split, (char *, char *) ) ;
/* split string s of length slen on SPACE without changing s.
load the pieces into STRINGS and ptrs into
split_buff[]
return the number of pieces */
int space_split( s , slen)
register char *s ;
unsigned slen ;
{ char *back = s + slen ;
int i = 0 ;
int len ;
char *q ;
STRING *sval ;
int lcnt = MAX_SPLIT/3 ;
#define EAT_SPACE() while ( scan_code[*(unsigned char*)s] ==\
SC_SPACE ) s++
#define EAT_NON_SPACE() \
*back = ' ' ; /* sentinel */\
while ( scan_code[*(unsigned char*)s] != SC_SPACE ) s++ ;\
*back = 0
while ( lcnt-- )
{
EAT_SPACE() ;
if ( *s == 0 ) goto done ;
/* mark the front with q */
q = s++ ;
EAT_NON_SPACE() ;
sval = split_buff[i++] = new_STRING((char *) 0, len = s - q ) ;
(void) memcpy(sval->str, q, SIZE_T(len)) ;
EAT_SPACE() ;
if ( *s == 0 ) goto done ;
q = s++ ;
EAT_NON_SPACE() ;
sval = split_buff[i++] = new_STRING((char *) 0, len = s - q ) ;
(void) memcpy(sval->str, q, SIZE_T(len)) ;
EAT_SPACE() ;
if ( *s == 0 ) goto done ;
q = s++ ;
EAT_NON_SPACE() ;
sval = split_buff[i++] = new_STRING((char *) 0, len = s - q ) ;
(void) memcpy(sval->str, q, SIZE_T(len)) ;
}
/* we've overflowed */
return i + space_ov_split(s, back) ;
done:
return i ;
}
static int space_ov_split(s, back)
register char *s ;
char *back ;
{
SPLIT_OV dummy ;
register SPLIT_OV *tail = &dummy ;
char *q ;
int cnt = 0 ;
unsigned len ;
while ( 1 )
{
EAT_SPACE() ;
if ( *s == 0 ) break ; /* done */
q = s++ ;
EAT_NON_SPACE() ;
tail = tail->link = (SPLIT_OV*) zmalloc(sizeof(SPLIT_OV)) ;
tail->sval = new_STRING((char *) 0 , len = s-q) ;
(void) memcpy(tail->sval->str, q, SIZE_T(len)) ;
cnt++ ;
}
tail->link = (SPLIT_OV*) 0 ;
split_ov_list = dummy.link ;
return cnt ;
}
char *re_pos_match(s, re, lenp)
register char *s ;
PTR re ; unsigned *lenp ;
{
while ( s = REmatch(s, re, lenp) )
if ( *lenp ) return s ;
else
if ( *s == 0 ) break ;
else s++ ;
return (char *) 0 ;
}
int re_split(s, re)
char *s ;
PTR re ;
{ register char *t ;
int i = 0 ;
unsigned mlen, len ;
STRING *sval ;
int lcnt = MAX_SPLIT / 3 ;
while ( lcnt-- )
{
if ( !(t = re_pos_match(s, re, &mlen)) ) goto done ;
sval = split_buff[i++] = new_STRING( (char *)0, len = t-s) ;
(void) memcpy(sval->str, s, SIZE_T(len)) ;
s = t + mlen ;
if ( !(t = re_pos_match(s, re, &mlen)) ) goto done ;
sval = split_buff[i++] = new_STRING( (char *)0, len = t-s) ;
(void) memcpy(sval->str, s, SIZE_T(len)) ;
s = t + mlen ;
if ( !(t = re_pos_match(s, re, &mlen)) ) goto done ;
sval = split_buff[i++] = new_STRING( (char *)0, len = t-s) ;
(void) memcpy(sval->str, s, SIZE_T(len)) ;
s = t + mlen ;
}
/* we've overflowed */
return i + re_ov_split(s, re) ;
done:
split_buff[i++] = new_STRING(s) ;
return i ;
}
/*
we've overflowed split_buff[] , put
the rest on the split_ov_list
return number of pieces
*/
static int re_ov_split(s, re)
char *s ;
PTR re ;
{
SPLIT_OV dummy ;
register SPLIT_OV *tail = &dummy ;
int cnt = 1 ;
char *t ;
unsigned len, mlen ;
while ( t = re_pos_match(s, re, &mlen) )
{
tail = tail->link = (SPLIT_OV *) zmalloc(sizeof(SPLIT_OV)) ;
tail->sval = new_STRING( (char *)0, len = t-s) ;
(void) memcpy(tail->sval->str, s, SIZE_T(len)) ;
s = t + mlen ;
cnt++ ;
}
/* and one more */
tail = tail->link = (SPLIT_OV *) zmalloc(sizeof(SPLIT_OV)) ;
tail->sval = new_STRING(s) ;
tail->link = (SPLIT_OV*) 0 ;
split_ov_list = dummy.link ;
return cnt ;
}
/* split(s, X, r)
split s into array X on r
entry: sp[0] holds r
sp[-1] pts at X
sp[-2] holds s
*/
CELL *bi_split(sp)
register CELL *sp ;
{
int cnt ; /* the number of pieces */
if ( sp->type < C_RE ) cast_for_split(sp) ;
/* can be C_RE, C_SPACE or C_SNULL */
sp -= 2 ;
if ( sp->type < C_STRING ) cast1_to_s(sp) ;
if ( string(sp)->len == 0 ) /* nothing to split */
{ free_STRING( string(sp) ) ;
sp->type = C_DOUBLE ; sp->dval = 0.0 ;
return sp ;
}
switch ( (sp+2)->type )
{
case C_RE :
cnt = re_split(string(sp)->str, (sp+2)->ptr) ;
break ;
case C_SPACE :
cnt = space_split(string(sp)->str, string(sp)->len) ;
break ;
/* this case could be done by C_RE, but very slowly.
Since it is the common way to eliminate fields,
we'll treat the special case for speed */
case C_SNULL : /* split on empty string */
cnt = 1 ;
split_buff[0] = (STRING *) sp->ptr ;
string(sp)->ref_cnt++ ;
break ;
default : bozo("bad splitting cell in bi_split") ;
}
free_STRING( string(sp) ) ;
sp->type = C_DOUBLE ;
sp->dval = (double) cnt ;
load_array((ARRAY)(sp+1)->ptr, cnt) ;
return sp ;
}