NetBSD/lib/libcurses/cr_put.c
alm 75de25bb93 added Andrew Chernov's patch set:
Standard curses library use eight bit for standout mode, so
8-bit characters displays like highlighted 7-bit characters.

This patch produce library which is fully compatible with all curses
programs and add 8-bit chars to all input/display functions.
---
I don't think, that any programs wish to use internal curses
attribute _STANDOUT directly, in expressions like:
        addch( ch | _STANDOUT );
        Normal interface use standout() and standend() functions instead.
        Many programs use 'char' type (with sign extention) for input characters
        and sign extention becomes _STANDOUT mode in this case.
        So, I refuse this future and allow 8-bit characters for programs,
        which is designed for 7-bit only ('char' type using instead of
        'unsigned char').
---
This small patch fix unpleasant standard curses bug:
curses can't expand TAB at all (but tries).
A man who wrote this curses misplace SYNC_IN and SYNCH_OUT,
this patch exchange macro calls.

This patch useful for standard 7-bit curses too, for this
you must delete '_' symbol before waddbytes and apply patch.
---
Oh, NO! This curses are really buggy!

This small patch fix following problem:
[ assumed scrollok(stdscr, TRUE) ]
when addch(ch) at lower right corner of screen, curses are realy
gone mad instead if simple scrolling... Curses code assumed that
this will be done correctly, but implement it with two bugs.
1993-07-09 05:34:14 +00:00

419 lines
9.6 KiB
C

/*
* Copyright (c) 1981 Regents of the University of California.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#ifndef lint
static char sccsid[] = "@(#)cr_put.c 5.5 (Berkeley) 6/1/90";
#endif /* not lint */
# include "curses.ext"
# define HARDTABS 8
extern char *tgoto();
int plodput();
/*
* Terminal driving and line formatting routines.
* Basic motion optimizations are done here as well
* as formatting of lines (printing of control characters,
* line numbering and the like).
*/
/*
* Sync the position of the output cursor.
* Most work here is rounding for terminal boundaries getting the
* column position implied by wraparound or the lack thereof and
* rolling up the screen to get destline on the screen.
*/
static int outcol, outline, destcol, destline;
WINDOW *_win;
mvcur(ly, lx, y, x)
int ly, lx, y, x; {
#ifdef DEBUG
fprintf(outf, "MVCUR: moving cursor from (%d,%d) to (%d,%d)\n", ly, lx, y, x);
#endif
destcol = x;
destline = y;
outcol = lx;
outline = ly;
fgoto();
}
fgoto()
{
reg char *cgp;
reg int l, c;
if (destcol >= COLS) {
destline += destcol / COLS;
destcol %= COLS;
}
if (outcol >= COLS) {
l = (outcol + 1) / COLS;
outline += l;
outcol %= COLS;
if (AM == 0) {
while (l > 0) {
if (_pfast)
if (CR)
_puts(CR);
else
_putchar('\r');
if (NL)
_puts(NL);
else
_putchar('\n');
l--;
}
outcol = 0;
}
if (outline > LINES - 1) {
destline -= outline - (LINES - 1);
outline = LINES - 1;
}
}
if (destline >= LINES) {
l = destline;
destline = LINES - 1;
if (outline < LINES - 1) {
c = destcol;
if (_pfast == 0 && !CA)
destcol = 0;
fgoto();
destcol = c;
}
while (l >= LINES) {
/*
* The following linefeed (or simulation thereof)
* is supposed to scroll up the screen, since we
* are on the bottom line. We make the assumption
* that linefeed will scroll. If ns is in the
* capability list this won't work. We should
* probably have an sc capability but sf will
* generally take the place if it works.
*
* Superbee glitch: in the middle of the screen we
* have to use esc B (down) because linefeed screws up
* in "Efficient Paging" (what a joke) mode (which is
* essential in some SB's because CRLF mode puts garbage
* in at end of memory), but you must use linefeed to
* scroll since down arrow won't go past memory end.
* I turned this off after recieving Paul Eggert's
* Superbee description which wins better.
*/
if (NL /* && !XB */ && _pfast)
_puts(NL);
else
_putchar('\n');
l--;
if (_pfast == 0)
outcol = 0;
}
}
if (destline < outline && !(CA || UP))
destline = outline;
if (CA) {
cgp = tgoto(CM, destcol, destline);
if (plod(strlen(cgp)) > 0)
plod(0);
else
tputs(cgp, 0, _putchar);
}
else
plod(0);
outline = destline;
outcol = destcol;
}
/*
* Move (slowly) to destination.
* Hard thing here is using home cursor on really deficient terminals.
* Otherwise just use cursor motions, hacking use of tabs and overtabbing
* and backspace.
*/
static int plodcnt, plodflg;
plodput(c)
{
if (plodflg)
plodcnt--;
else
_putchar(c);
}
plod(cnt)
{
register int i, j, k;
register int soutcol, soutline;
chtype ch;
plodcnt = plodflg = cnt;
soutcol = outcol;
soutline = outline;
/*
* Consider homing and moving down/right from there, vs moving
* directly with local motions to the right spot.
*/
if (HO) {
/*
* i is the cost to home and tab/space to the right to
* get to the proper column. This assumes ND space costs
* 1 char. So i+destcol is cost of motion with home.
*/
if (GT)
i = (destcol / HARDTABS) + (destcol % HARDTABS);
else
i = destcol;
/*
* j is cost to move locally without homing
*/
if (destcol >= outcol) { /* if motion is to the right */
j = destcol / HARDTABS - outcol / HARDTABS;
if (GT && j)
j += destcol % HARDTABS;
else
j = destcol - outcol;
}
else
/* leftward motion only works if we can backspace. */
if (outcol - destcol <= i && (BS || BC))
i = j = outcol - destcol; /* cheaper to backspace */
else
j = i + 1; /* impossibly expensive */
/* k is the absolute value of vertical distance */
k = outline - destline;
if (k < 0)
k = -k;
j += k;
/*
* Decision. We may not have a choice if no UP.
*/
if (i + destline < j || (!UP && destline < outline)) {
/*
* Cheaper to home. Do it now and pretend it's a
* regular local motion.
*/
tputs(HO, 0, plodput);
outcol = outline = 0;
}
else if (LL) {
/*
* Quickly consider homing down and moving from there.
* Assume cost of LL is 2.
*/
k = (LINES - 1) - destline;
if (i + k + 2 < j && (k<=0 || UP)) {
tputs(LL, 0, plodput);
outcol = 0;
outline = LINES - 1;
}
}
}
else
/*
* No home and no up means it's impossible.
*/
if (!UP && destline < outline)
return -1;
if (GT)
i = destcol % HARDTABS + destcol / HARDTABS;
else
i = destcol;
/*
if (BT && outcol > destcol && (j = (((outcol+7) & ~7) - destcol - 1) >> 3)) {
j *= (k = strlen(BT));
if ((k += (destcol&7)) > 4)
j += 8 - (destcol&7);
else
j += k;
}
else
*/
j = outcol - destcol;
/*
* If we will later need a \n which will turn into a \r\n by
* the system or the terminal, then don't bother to try to \r.
*/
if ((NONL || !_pfast) && outline < destline)
goto dontcr;
/*
* If the terminal will do a \r\n and there isn't room for it,
* then we can't afford a \r.
*/
if (NC && outline >= destline)
goto dontcr;
/*
* If it will be cheaper, or if we can't back up, then send
* a return preliminarily.
*/
if (j > i + 1 || outcol > destcol && !BS && !BC) {
/*
* BUG: this doesn't take the (possibly long) length
* of CR into account.
*/
if (CR)
tputs(CR, 0, plodput);
else
plodput('\r');
if (NC) {
if (NL)
tputs(NL, 0, plodput);
else
plodput('\n');
outline++;
}
outcol = 0;
}
dontcr:
while (outline < destline) {
outline++;
if (NL)
tputs(NL, 0, plodput);
else
plodput('\n');
if (plodcnt < 0)
goto out;
if (NONL || _pfast == 0)
outcol = 0;
}
if (BT)
k = strlen(BT);
while (outcol > destcol) {
if (plodcnt < 0)
goto out;
/*
if (BT && outcol - destcol > k + 4) {
tputs(BT, 0, plodput);
outcol--;
outcol &= ~7;
continue;
}
*/
outcol--;
if (BC)
tputs(BC, 0, plodput);
else
plodput('\b');
}
while (outline > destline) {
outline--;
tputs(UP, 0, plodput);
if (plodcnt < 0)
goto out;
}
if (GT && destcol - outcol > 1) {
for (;;) {
i = tabcol(outcol, HARDTABS);
if (i > destcol)
break;
if (TA)
tputs(TA, 0, plodput);
else
plodput('\t');
outcol = i;
}
if (destcol - outcol > 4 && i < COLS && (BC || BS)) {
if (TA)
tputs(TA, 0, plodput);
else
plodput('\t');
outcol = i;
while (outcol > destcol) {
outcol--;
if (BC)
tputs(BC, 0, plodput);
else
plodput('\b');
}
}
}
while (outcol < destcol) {
/*
* move one char to the right. We don't use ND space
* because it's better to just print the char we are
* moving over.
*/
if (_win != NULL)
if (plodflg) /* avoid a complex calculation */
plodcnt--;
else {
ch = curscr->_y[outline][outcol];
if ((ch&_STANDOUT) == (curscr->_flags&_STANDOUT))
_putchar(ch);
else
goto nondes;
}
else
nondes:
if (ND)
tputs(ND, 0, plodput);
else
plodput(' ');
outcol++;
if (plodcnt < 0)
goto out;
}
out:
if (plodflg) {
outcol = soutcol;
outline = soutline;
}
return(plodcnt);
}
/*
* Return the column number that results from being in column col and
* hitting a tab, where tabs are set every ts columns. Work right for
* the case where col > COLS, even if ts does not divide COLS.
*/
tabcol(col, ts)
int col, ts;
{
int offset, result;
if (col >= COLS) {
offset = COLS * (col / COLS);
col -= offset;
}
else
offset = 0;
return col + ts - (col % ts) + offset;
}