freebsd-skq/contrib/nvi/vi/v_increment.c
peter 5f2a1d6536 Update nvi-1.79 to 2.1.1-4334a8297f
This is the gsoc-2011 project to clean up and backport multibyte support
from other nvi forks in a form we can use.

USE_WIDECHAR is on unless building for the rescue crunchgen. This should
allow editing in the native locale encoding.

USE_ICONV depends on make.conf having 'WITH_ICONV=YES' for now.  This
adds the ability to do things like edit a KOI8-R file while having $LANG
set to (say) en_US.UTF-8.  iconv is used to transcode the characters for
display.

Other points:
* It uses gencat and catopen/etc instead of homegrown msg catalog stuff.
* A lot of stuff has been trimmed out, eg: the perl and tcl bindings which
  we could never use in base anyway.
* It uses ncursesw when in widechar mode.  This could be interesting.

GSoC info: http://www.google-melange.com/gsoc/proposal/review/google/gsoc2011/zy/1
Repo at: https://github.com/lichray/nvi2

Obtained from:  Zhihao Yuan <lichray@gmail.com>
2013-08-11 20:03:12 +00:00

265 lines
5.5 KiB
C

/*-
* Copyright (c) 1992, 1993, 1994
* The Regents of the University of California. All rights reserved.
* Copyright (c) 1992, 1993, 1994, 1995, 1996
* Keith Bostic. All rights reserved.
*
* See the LICENSE file for redistribution information.
*/
#include "config.h"
#ifndef lint
static const char sccsid[] = "$Id: v_increment.c,v 10.17 2011/12/02 01:17:53 zy Exp $";
#endif /* not lint */
#include <sys/types.h>
#include <sys/queue.h>
#include <sys/time.h>
#include <bitstring.h>
#include <ctype.h>
#include <errno.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "../common/common.h"
#include "vi.h"
static CHAR_T * const fmt[] = {
#define DEC 0
L("%ld"),
#define SDEC 1
L("%+ld"),
#define HEXC 2
L("0X%0*lX"),
#define HEXL 3
L("0x%0*lx"),
#define OCTAL 4
L("%#0*lo"),
};
static void inc_err __P((SCR *, enum nresult));
/*
* v_increment -- [count]#[#+-]
* Increment/decrement a keyword number.
*
* PUBLIC: int v_increment __P((SCR *, VICMD *));
*/
int
v_increment(SCR *sp, VICMD *vp)
{
enum nresult nret;
u_long ulval;
long change, ltmp, lval;
size_t beg, blen, end, len, nlen, wlen;
int base, isempty, rval;
CHAR_T *ntype, nbuf[100];
CHAR_T *bp, *p, *t;
/* Validate the operator. */
if (vp->character == '#')
vp->character = '+';
if (vp->character != '+' && vp->character != '-') {
v_emsg(sp, vp->kp->usage, VIM_USAGE);
return (1);
}
/* If new value set, save it off, but it has to fit in a long. */
if (F_ISSET(vp, VC_C1SET)) {
if (vp->count > LONG_MAX) {
inc_err(sp, NUM_OVER);
return (1);
}
change = vp->count;
} else
change = 1;
/* Get the line. */
if (db_eget(sp, vp->m_start.lno, &p, &len, &isempty)) {
if (isempty)
goto nonum;
return (1);
}
/*
* Skip any leading space before the number. Getting a cursor word
* implies moving the cursor to its beginning, if we moved, refresh
* now.
*/
for (beg = vp->m_start.cno; beg < len && ISSPACE(p[beg]); ++beg);
if (beg >= len)
goto nonum;
if (beg != vp->m_start.cno) {
sp->cno = beg;
(void)vs_refresh(sp, 0);
}
#undef ishex
#define ishex(c) (ISXDIGIT(c))
#undef isoctal
#define isoctal(c) ((c) >= '0' && (c) <= '7')
/*
* Look for 0[Xx], or leading + or - signs, guess at the base.
* The character after that must be a number. Wlen is set to
* the remaining characters in the line that could be part of
* the number.
*/
wlen = len - beg;
if (p[beg] == '0' && wlen > 2 &&
(p[beg + 1] == 'X' || p[beg + 1] == 'x')) {
base = 16;
end = beg + 2;
if (!ishex(p[end]))
goto decimal;
ntype = p[beg + 1] == 'X' ? fmt[HEXC] : fmt[HEXL];
} else if (p[beg] == '0' && wlen > 1) {
base = 8;
end = beg + 1;
if (!isoctal(p[end]))
goto decimal;
ntype = fmt[OCTAL];
} else if (wlen >= 1 && (p[beg] == '+' || p[beg] == '-')) {
base = 10;
end = beg + 1;
ntype = fmt[SDEC];
if (!isdigit(p[end]))
goto nonum;
} else {
decimal: base = 10;
end = beg;
ntype = fmt[DEC];
if (!isdigit(p[end])) {
nonum: msgq(sp, M_ERR, "181|Cursor not in a number");
return (1);
}
}
/* Find the end of the word, possibly correcting the base. */
while (++end < len) {
switch (base) {
case 8:
if (isoctal(p[end]))
continue;
if (p[end] == '8' || p[end] == '9') {
base = 10;
ntype = fmt[DEC];
continue;
}
break;
case 10:
if (isdigit(p[end]))
continue;
break;
case 16:
if (ishex(p[end]))
continue;
break;
default:
abort();
/* NOTREACHED */
}
break;
}
wlen = (end - beg);
/*
* XXX
* If the line was at the end of the buffer, we have to copy it
* so we can guarantee that it's NULL-terminated. We make the
* buffer big enough to fit the line changes as well, and only
* allocate once.
*/
GET_SPACE_RETW(sp, bp, blen, len + 50);
if (end == len) {
MEMMOVE(bp, &p[beg], wlen);
bp[wlen] = '\0';
t = bp;
} else
t = &p[beg];
/*
* Octal or hex deal in unsigned longs, everything else is done
* in signed longs.
*/
if (base == 10) {
if ((nret = nget_slong(&lval, t, NULL, 10)) != NUM_OK)
goto err;
ltmp = vp->character == '-' ? -change : change;
if (lval > 0 && ltmp > 0 && !NPFITS(LONG_MAX, lval, ltmp)) {
nret = NUM_OVER;
goto err;
}
if (lval < 0 && ltmp < 0 && !NNFITS(LONG_MIN, lval, ltmp)) {
nret = NUM_UNDER;
goto err;
}
lval += ltmp;
/* If we cross 0, signed numbers lose their sign. */
if (lval == 0 && ntype == fmt[SDEC])
ntype = fmt[DEC];
nlen = SPRINTF(nbuf, sizeof(nbuf), ntype, lval);
} else {
if ((nret = nget_uslong(&ulval, t, NULL, base)) != NUM_OK)
goto err;
if (vp->character == '+') {
if (!NPFITS(ULONG_MAX, ulval, change)) {
nret = NUM_OVER;
goto err;
}
ulval += change;
} else {
if (ulval < change) {
nret = NUM_UNDER;
goto err;
}
ulval -= change;
}
/* Correct for literal "0[Xx]" in format. */
if (base == 16)
wlen -= 2;
nlen = SPRINTF(nbuf, sizeof(nbuf), ntype, wlen, ulval);
}
/* Build the new line. */
MEMMOVE(bp, p, beg);
MEMMOVE(bp + beg, nbuf, nlen);
MEMMOVE(bp + beg + nlen, p + end, len - beg - (end - beg));
len = beg + nlen + (len - beg - (end - beg));
nret = NUM_OK;
rval = db_set(sp, vp->m_start.lno, bp, len);
if (0) {
err: rval = 1;
inc_err(sp, nret);
}
if (bp != NULL)
FREE_SPACEW(sp, bp, blen);
return (rval);
}
static void
inc_err(SCR *sp, enum nresult nret)
{
switch (nret) {
case NUM_ERR:
break;
case NUM_OK:
abort();
/* NOREACHED */
case NUM_OVER:
msgq(sp, M_ERR, "182|Resulting number too large");
break;
case NUM_UNDER:
msgq(sp, M_ERR, "183|Resulting number too small");
break;
}
}