NetBSD/sys/arch/newsmips/dev/vt100esc.c

1672 lines
38 KiB
C

/* $NetBSD: vt100esc.c,v 1.3 1998/06/01 19:31:05 tsubai Exp $ */
/*
* Copyright (c) 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Sony Corp. and Kazumasa Utashiro of Software Research Associates, Inc.
*
* 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.
*
* from: $Hdr: vt100esc.c,v 4.300 91/06/09 06:14:59 root Rel41 $ SONY
*
* @(#)vt100esc.c 8.1 (Berkeley) 6/10/93
*/
/*
* vt100 escape sequence handler
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <machine/framebuf.h>
#include <machine/keyboard.h>
#include <newsmips/dev/vt100.h>
#include <newsmips/dev/bitmapif.h>
#include <newsmips/dev/fbdefs.h>
#include <newsmips/dev/kbreg.h>
#if CPU_SINGLE
#include <newsmips/dev/scc.h>
#endif
#ifdef IPC_MRX
#include "config.h"
#define kbd_ioctl(chan, cmd, argp) { \
if (kb_ioctl) \
(*kb_ioctl)(chan, cmd, argp); \
}
#endif
/*
* escape sequece functions
*/
void jiskanji __P((SCREEN *, u_int));
void esc_top_level __P((SCREEN *, int));
void recover __P((SCREEN *));
static int in_str __P((char, char *));
void esc_csi __P((SCREEN *, u_int));
void esc_csi_ansi __P((SCREEN *, char *, char));
static void csr_pos __P((SCREEN *, int, int));
static void erase_disp __P((SCREEN *, int));
static void erase_line __P((SCREEN *, int));
static void insert_line __P((SCREEN *, int));
static void delete_line __P((SCREEN *, int));
static void delete_char __P((SCREEN *, int));
void esc_csi_dec __P((SCREEN *, int));
static void change_csr_key_pad __P((int));
void esc_store_csr __P((SCREEN *));
void esc_restore_csr __P((SCREEN *));
void esc_index __P((SCREEN *));
void esc_next_line __P((SCREEN *));
void esc_tab_set __P((SCREEN *));
void esc_rev_index __P((SCREEN *));
void esc_numeric_kpad __P((SCREEN *));
void esc_application_kpad __P((SCREEN *));
static void change_aux_key_pad __P((int));
void esc_line_size __P((SCREEN *, int));
void esc_char_setr __P((SCREEN *, int));
void esc_char_setl __P((SCREEN *, int));
void esc_kanji_set __P((SCREEN *, int));
void esc_parm_set __P((SCREEN *, u_int));
static void parm_set __P((SCREEN *, short *, u_int));
static int spr __P((char *, char *, u_int, int)); /* XXX */
void esc_pf_define __P((SCREEN *, u_int));
static void pf_define __P((int, int, u_int));
static void pf_answer __P((int, u_int));
void esc_ignore __P((SCREEN *));
static int itoa __P((int, int, char *));
struct esc_sequence esc_seq_table[] = {
{'[', "ABCDfgHhJKLlMmnPr", esc_csi},
{'7', "", esc_store_csr},
{'8', "", esc_restore_csr},
{'D', "", esc_index},
{'E', "", esc_next_line},
{'H', "", esc_tab_set},
{'M', "", esc_rev_index},
{'=', "", esc_application_kpad},
{'>', "", esc_numeric_kpad},
{'#', "34568", esc_line_size},
{'(', "0ABJH", esc_char_setr},
{')', "0AB", esc_char_setl},
{'$', "B@", esc_kanji_set},
{'~', "fcpsomdbDiGCBTtE", esc_parm_set},
{'P', "pPZiI", esc_pf_define},
{'\0', "", esc_ignore},
};
struct key_pad key_pad[] = {
{ '0', 'p' }, /* 0 */
{ '1', 'q' }, /* 1 */
{ '2', 'r' }, /* 2 */
{ '3', 's' }, /* 3 */
{ '4', 't' }, /* 4 */
{ '5', 'u' }, /* 5 */
{ '6', 'v' }, /* 6 */
{ '7', 'w' }, /* 7 */
{ '8', 'x' }, /* 8 */
{ '9', 'y' }, /* 9 */
{ '.', 'n' }, /* period */
{ '-', 'm' }, /* minus */
{ '+', 'k' }, /* plus */
{ ',', 'l' }, /* comma */
{ '\n', 'M' }, /* enter */
{ 'A', 'A' }, /* cursor up */
{ 'B', 'B' }, /* cursor down */
{ 'C', 'C' }, /* cursor right */
{ 'D', 'D' }, /* cursor left */
{ '\0', '\0' } /* */
};
static char esc_buf[ESC_BUF_SIZ];
static char *esc_bp = esc_buf;
extern char c_pos_mess[];
Key_string key_str;
Pfk_string pfk_str;
unsigned int first_jcode;
/*
* put out jis-code kanji
*/
void
jiskanji(sp, c)
register SCREEN *sp;
register unsigned int c;
{
if (first_jcode) {
addch(sp, c | (first_jcode << 8));
first_jcode = 0;
} else {
first_jcode = c;
}
}
/*
* This routine is the command analiser using second character.
* If a command has found then switch to particular escape handling
* routine, and directly called by mother routine.
* The arguments are passed through the routine.
*/
void
esc_top_level(sp, c)
register SCREEN *sp;
int c;
{
register struct esc_sequence *estp;
for (estp = esc_seq_table; estp->command ; estp++) {
if (estp->command == c) {
/* command found */
sp->s_estp = estp;
if (*estp->terminators == '\0') {
(*estp->esc_func)(sp);
sp->s_current_stat &= ~ESCAPE;
} else {
sp->s_esc_handler = estp->esc_func;
}
return;
}
}
sp->s_current_stat &= ~ESCAPE;
}
/*
* Undo the ESCAPE flag, escape buffer
* and the esc_handler routine
* This routine has to be called when escape sequence has started.
*/
void
recover(sp)
register SCREEN *sp;
{
register int *ip = (int *) esc_buf;
register int *sup = (int *) (esc_buf + ESC_BUF_SIZ);
sp->s_current_stat &= ~ESCAPE;
sp->s_esc_handler = esc_top_level;
while (ip < sup)
*ip++ = 0;
esc_bp = esc_buf;
}
/*
* This routine in_str(c, string) returns
* if string contains c then TRUE (1) else FALSE (0)
*/
int
in_str(c, string)
char c;
register char *string;
{
while(*string)
if (c == *string++)
return(TRUE);
return(FALSE);
}
/*
* Control sequence introducer (CSI)
* Which begins `^[[' and terminates one of `ABCDfgHhJKLlMmPr'
*/
void
esc_csi(sp, c)
register SCREEN *sp;
unsigned int c;
{
static int bufc = 0;
if (in_str(c, sp->s_estp->terminators)) {
esc_csi_ansi(sp, esc_bp, c);
sp->s_current_stat &= ~ESCAPE;
bufc = 0;
return;
}
/* buffering arguments */
if (bufc < ESC_BUF_SIZ) {
if (c >= '0' && c <= '9') {
*esc_bp = *esc_bp *10 + (c - '0');
} else if (c == ';') {
esc_bp++;
bufc++;
} else if (c == '?') {
if (esc_bp == esc_buf) {
sp->s_esc_handler = esc_csi_dec;
} else {
esc_buf[0] = INVALID;
}
} else {
sp->s_current_stat &= ~ESCAPE;
bufc = 0;
}
}
}
#ifdef IPC_MRX
#define SCC_KEYBOARD 0
#endif
/*
* Ansi standard csi handler
*/
void
esc_csi_ansi(sp, esc_bp, terminator)
register SCREEN *sp;
char *esc_bp;
char terminator;
{
register char *cp = esc_buf;
register struct cursor *spc = &sp->s_csr;
register int i;
if (*cp == INVALID)
return;
cursor_off();
switch (terminator) {
case 'A': /* CUU */
if (spc->csr_y < sp->s_region.top_margin) {
spc->csr_y = imax(spc->csr_y - imax(*cp, 1)
,TOP_M);
} else {
spc->csr_y = imax(spc->csr_y - imax(*cp, 1)
,sp->s_region.top_margin);
}
spc->csr_p.y = (spc->csr_y - 1) * char_h + y_ofst;
sp->s_current_stat &= ~WRAP;
break;
case 'B': /* CUD */
if (spc->csr_y > sp->s_region.btm_margin) {
spc->csr_y = imin(spc->csr_y + imax(*cp, 1)
,btm_m);
} else {
spc->csr_y = imin(spc->csr_y + imax(*cp, 1)
,sp->s_region.btm_margin);
}
spc->csr_p.y = (spc->csr_y - 1) * char_h + y_ofst;
sp->s_current_stat &= ~WRAP;
break;
case 'C': /* CUF */
spc->csr_x = imin(spc->csr_x + imax(*cp, 1), rit_m);
spc->csr_p.x = (spc->csr_x - 1) * char_w + x_ofst;
sp->s_current_stat &= ~WRAP;
break;
case 'D': /* CUB */
spc->csr_x = imax(spc->csr_x - imax(*cp, 1), LFT_M);
spc->csr_p.x = (spc->csr_x - 1) * char_w + x_ofst;
sp->s_current_stat &= ~WRAP;
break;
case 'g': /* TBC */
switch (*cp) {
case 0:
sp->s_tab_pos[spc->csr_x] = 0;
break;
case 3:
for (i = 0; i <= rit_m; i++)
sp->s_tab_pos[i] = 0;
break;
default:
break;
}
break;
case 'f': /* HVP */
case 'H': /* CUP same as HVP */
csr_pos(sp, cp[1], cp[0]);
sp->s_current_stat &= ~WRAP;
break;
case 'J': /* ED */
erase_disp(sp, cp[0]);
sp->s_current_stat &= ~WRAP;
break;
case 'K': /* EL */
erase_line(sp, cp[0]);
sp->s_current_stat &= ~WRAP;
break;
case 'L': /* IL */
insert_line(sp, cp[0]);
break;
case 'M': /* DL */
delete_line(sp, cp[0]);
break;
case 'P': /* DCH */
delete_char(sp, cp[0]);
sp->s_current_stat &= ~WRAP;
break;
case 'r': /* DECSTBM */
cp[2] = imax(cp[0] == 0 ? TOP_M: cp[0], TOP_M);
cp[3] = imin(cp[1] == 0 ? btm_m: cp[1], btm_m);
if (cp[2] >= cp[3])
break;
sp->s_region.top_margin = cp[2];
sp->s_region.btm_margin = cp[3];
spc->csr_x = LFT_M;
spc->csr_p.x = x_ofst;
if (sp->s_term_mode & DECOM) {
spc->csr_y = sp->s_region.top_margin;
spc->csr_p.y = (spc->csr_y - 1) * char_h + y_ofst;
} else {
spc->csr_y = TOP_M;
spc->csr_p.y = y_ofst;
}
break;
case 'm': /* CRA */
while (cp <= esc_bp) {
switch (*cp++) {
case 0:
spc->csr_attributes &= NORMALM;
if (sp->s_term_mode & DECSCNM) {
fcolor = sp->s_bgcol;
bcolor = sp->s_plane;
}
else {
fcolor = sp->s_plane;
bcolor = sp->s_bgcol;
}
break;
case 1: /* bold */
spc->csr_attributes |= BOLD;
break;
case 4: /* under score */
spc->csr_attributes |= USCORE;
break;
case 5: /* blinking */
spc->csr_attributes |= BLINK;
break;
case 7: /* reverse */
spc->csr_attributes |= REVERSE;
if (sp->s_term_mode & DECSCNM) {
fcolor = sp->s_plane;
bcolor = sp->s_bgcol;
}
else {
fcolor = sp->s_bgcol;
bcolor = sp->s_plane;
}
break;
case 22: /* unbold */
spc->csr_attributes &= ~BOLD;
break;
case 24: /* no under score */
spc->csr_attributes &= ~USCORE;
break;
case 25: /* no blinking */
spc->csr_attributes &= ~BLINK;
break;
case 27: /* re-reverse */
spc->csr_attributes &= ~REVERSE;
if (sp->s_term_mode & DECSCNM) {
fcolor = sp->s_bgcol;
bcolor = sp->s_plane;
}
else {
fcolor = sp->s_plane;
bcolor = sp->s_bgcol;
}
break;
default:
break;
}
}
break;
case 'n':
while (cp <= esc_bp) { /* DSR(status request) */
switch (*cp++) {
case 6: /* inquiry cursor position */
key_str.key_string = c_pos_mess;
key_str.key_length = spr(c_pos_mess,
"\033[%d;%dR", (sp->s_term_mode & DECOM) ?
spc->csr_y - sp->s_region.top_margin + 1:
spc->csr_y, spc->csr_x);
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, &key_str);
break;
default:
break;
}
}
break;
case 'h': /* SM */
while (cp <= esc_bp) {
switch (*cp++) {
case 2: /* Keyboard Action */
sp->s_term_mode |= KAM;
break;
case 4: /* Insert Replace */
sp->s_term_mode |= IRM;
break;
case 12: /* Local echo disable */
sp->s_term_mode |= SRM;
break;
case 20: /* Linefeed newline */
sp->s_term_mode |= LNM;
break;
default:
break;
}
}
break;
case 'l': /* RM */
while (cp <= esc_bp) {
switch (*cp++) {
case 2: /* Keyboard Action */
sp->s_term_mode &= ~KAM;
break;
case 4: /* Insert Replace */
sp->s_term_mode &= ~IRM;
break;
case 12: /* Local echo disable */
sp->s_term_mode &= ~SRM;
break;
case 20: /* Linefeed newline */
sp->s_term_mode &= ~LNM;
break;
default:
break;
}
}
break;
default:
break;
}
cursor_on(&spc->csr_p);
sp->s_current_stat &= ~ESCAPE;
}
/*
* Cursor position.
* csr_pos(sp, x, y) moves the cursor to (x, y).
*/
void
csr_pos(sp, x, y)
register SCREEN *sp;
register int x, y;
{
if (sp->s_term_mode & DECOM) {
sp->s_csr.csr_y = imin(sp->s_region.top_margin +
imax(y, 1) - 1, sp->s_region.btm_margin);
} else {
sp->s_csr.csr_y = imin(TOP_M + imax(y, 1) - 1, btm_m);
}
sp->s_csr.csr_x = imax(imin(x, rit_m), LFT_M);
sp->s_csr.csr_p.x = (sp->s_csr.csr_x -1) * char_w + x_ofst;
sp->s_csr.csr_p.y = (sp->s_csr.csr_y -1) * char_h + y_ofst;
}
/*
* Erase in display.
* erase_disp(sp, pn) erases display from the cursor to the end, from
* the beginning to the cursor or completely according to pn = 0, 1 or 2
* respectively.
*/
void
erase_disp(sp, pn)
register SCREEN *sp;
register int pn;
{
register struct cursor *spc = &sp->s_csr;
switch (pn) {
case 0: /* cursor to end */
erase_line(sp, 0);
clear_lines(imin(spc->csr_y + 1, btm_m),
btm_m - spc->csr_y, sp->s_term_mode & DECSCNM,
sp->s_plane, sp->s_bgcol);
break;
case 1: /* beginning to cursor */
erase_line(sp, 1);
clear_lines(TOP_M, spc->csr_y - TOP_M, sp->s_term_mode & DECSCNM,
sp->s_plane, sp->s_bgcol);
break;
case 2: /* whole */
clear_lines(TOP_M, btm_m - TOP_M + 1,
sp->s_term_mode & DECSCNM,
sp->s_plane, sp->s_bgcol);
break;
default:
break;
}
}
/*
* Erase in line.
* erase_line(sp, pn) erases line from the cursor to the end, from the
* beginning to the cursor or completely according to pn = 0, 1 or 2
* respectively.
*/
void
erase_line(sp, pn)
register SCREEN *sp;
register int pn;
{
register struct cursor *spc = &sp->s_csr;
switch(pn) {
case 0:
clear_chars(spc->csr_x, spc->csr_y,
rit_m - spc->csr_x + 1, sp->s_term_mode & DECSCNM,
sp->s_plane, sp->s_bgcol);
break;
case 1:
clear_chars(LFT_M, spc->csr_y,
spc->csr_x - LFT_M + 1, sp->s_term_mode & DECSCNM,
sp->s_plane, sp->s_bgcol);
break;
case 2:
clear_lines(spc->csr_y, 1, sp->s_term_mode & DECSCNM,
sp->s_plane, sp->s_bgcol);
break;
default:
break;
}
}
/*
* Insert line.
* insert_line(sp, pn) inserts pn lines in scroll region
*/
void
insert_line(sp, pn)
register SCREEN *sp;
register int pn;
{
register struct cursor *spc = &sp->s_csr;
register struct region *spr = &sp->s_region;
pn = imax(pn, 1);
if (spc->csr_y < spr->top_margin || spc->csr_y > spr->btm_margin)
return;
if (pn <= spr->btm_margin - spc->csr_y) {
move_lines(spc->csr_y, spr->btm_margin - pn - spc->csr_y + 1,
spc->csr_y + pn);
}
clear_lines(spc->csr_y,
imin(spc->csr_y + pn - 1, spr->btm_margin) - spc->csr_y + 1,
sp->s_term_mode & DECSCNM, sp->s_plane, sp->s_bgcol);
spc->csr_x = LFT_M;
spc->csr_p.x = x_ofst;
}
/*
* Delete line.
* delete_line(sp, pn) deletes pn lines in scroll region
*/
void
delete_line(sp, pn)
register SCREEN *sp;
register int pn;
{
register struct cursor *spc = &sp->s_csr;
register struct region *spr = &sp->s_region;
register int aux;
pn = imax(pn, 1);
if (spc->csr_y < spr->top_margin || spc->csr_y > spr->btm_margin)
return;
if (pn <= spr->btm_margin - spc->csr_y) {
aux = spc->csr_y + pn;
move_lines(aux, spr->btm_margin - aux + 1, spc->csr_y);
}
aux = imax(spr->btm_margin - pn + 1, spc->csr_y);
clear_lines(aux, spr->btm_margin - aux + 1, sp->s_term_mode & DECSCNM,
sp->s_plane, sp->s_bgcol);
spc->csr_x = LFT_M;
spc->csr_p.x = x_ofst;
}
/*
* Delete character.
* delete_char(sp, pn) deletes pn characters right side of the cursor.
*/
void
delete_char(sp, pn)
register SCREEN *sp;
register int pn;
{
register struct cursor *spc = &sp->s_csr;
register int aux;
pn = imax(pn, 1);
if (pn < rit_m - spc->csr_x + 1) {
move_chars(spc->csr_x + pn, spc->csr_y,
rit_m - spc->csr_x - pn + 1 ,spc->csr_x);
}
aux = imax(rit_m - pn + 1, spc->csr_x);
clear_chars(aux, spc->csr_y, rit_m - aux + 1,
sp->s_term_mode & DECSCNM, sp->s_plane, sp->s_bgcol);
}
/*
* This escape control sequence begins `^[[?' and ends `h' or `l'
*/
void
esc_csi_dec(sp, c)
register SCREEN *sp;
int c;
{
register char *cp;
if (in_str(c, sp->s_estp->terminators)) {
if (esc_buf[0] != INVALID) {
cursor_off();
switch (c) {
case 'h': /* set mode */
for (cp = esc_buf; cp <= esc_bp; cp++) {
switch (*cp) {
case 1: /* cursor key application */
sp->s_term_mode |= DECCKM;
change_csr_key_pad(APPLIC);
break;
case 3: /* 132 column mode */
sp->s_term_mode |= DECCOLM;
break;
case 4: /* jump scroll */
sp->s_term_mode |= DECSCLM;
break;
case 5: /* reverse */
if ((sp->s_term_mode & DECSCNM) == 0)
reverse_rec(sp->s_bgcol,
sp->s_plane);
sp->s_term_mode |= DECSCNM;
if (sp->s_csr.csr_attributes & REVERSE)
{
fcolor = sp->s_plane;
bcolor = sp->s_bgcol;
} else {
fcolor = sp->s_bgcol;
bcolor = sp->s_plane;
}
break;
case 6: /* origin */
sp->s_term_mode |= DECOM;
sp->s_csr.csr_x = LFT_M;
sp->s_csr.csr_y =
sp->s_region.top_margin;
sp->s_csr.csr_p.x = x_ofst;
sp->s_csr.csr_p.y =
(sp->s_csr.csr_y - 1) * char_h +
y_ofst;
break;
case 7: /* auto wrap */
sp->s_term_mode |= DECAWM;
break;
case 8: /* auto repeat */
if ((sp->s_term_mode & DECARM) == 0) {
kbd_ioctl(SCC_KEYBOARD, KIOCREPT,
(int *)0);
}
sp->s_term_mode |= DECARM;
break;
case 25: /* cursor active */
sp->s_term_mode |= DECCSR_ACTV;
break;
default:
break;
}
}
break;
case 'l': /* reset mode */
for (cp = esc_buf; cp <= esc_bp; cp++) {
switch (*cp) {
case 1: /* cursor key application */
sp->s_term_mode &= ~DECCKM;
change_csr_key_pad(NUMERIC);
break;
case 3: /* 132 column mode */
sp->s_term_mode &= ~DECCOLM;
break;
case 4: /* jump scroll */
sp->s_term_mode &= ~DECSCLM;
break;
case 5: /* reverse */
if (sp->s_term_mode & DECSCNM)
reverse_rec(sp->s_plane,
sp->s_bgcol);
sp->s_term_mode &= ~DECSCNM;
if (sp->s_csr.csr_attributes & REVERSE)
{
fcolor = sp->s_bgcol;
bcolor = sp->s_plane;
} else {
fcolor = sp->s_plane;
bcolor = sp->s_bgcol;
}
break;
case 6: /* origin */
sp->s_term_mode &= ~DECOM;
sp->s_csr.csr_x = LFT_M;
sp->s_csr.csr_y = TOP_M;
sp->s_csr.csr_p.x = x_ofst;
sp->s_csr.csr_p.y = y_ofst;
break;
case 7: /* auto wrap */
sp->s_term_mode &= ~DECAWM;
break;
case 8: /* auto repeat */
if (sp->s_term_mode & DECARM) {
kbd_ioctl(SCC_KEYBOARD, KIOCNRPT,
(int *) 0);
}
sp->s_term_mode &= ~DECARM;
break;
case 25: /* cursor non-active */
sp->s_term_mode &= ~DECCSR_ACTV;
break;
default:
break;
}
}
break;
default:
break;
}
cursor_on(&sp->s_csr.csr_p);
}
sp->s_current_stat &= ~ESCAPE;
} else { /* buffering arguments */
if (c >= '0' && c <= '9') {
*esc_bp = *esc_bp * 10 + (c - '0');
} else if (c == ';') {
esc_bp++;
} else if (c == '?') {
esc_buf[0] = INVALID;
} else {
sp->s_current_stat &= ~ESCAPE;
}
}
}
/*
* changes cursor key pad to ansi_ctl
*/
static void
change_csr_key_pad(applic)
register int applic;
{
char pad[4];
register Pfk_string *pfk = &pfk_str;
register Key_string *kys = &pfk_str.pfk_string;
register struct key_pad *kpd;
register int i;
kpd = &key_pad[UP-N0];
pad[0] = '\033';
pad[1] = (applic) ? 'O': '[';
for (i = UP; i <= LEFT; i++) {
pfk->pfk_num = i;
kys->key_length = (applic) ? 3: 3;
pad[2] = (applic) ? kpd->kpd_applic: kpd->kpd_numeric;
kys->key_string = pad;
kpd++;
pfk->pfk_shift = PF_NORMAL;
kbd_ioctl(SCC_KEYBOARD, KIOCSETS, pfk);
pfk->pfk_shift = PF_SHIFT;
kbd_ioctl(SCC_KEYBOARD, KIOCSETS, pfk);
}
}
extern struct cursor inner_buf_csr;
extern int inner_buf_tstat;
/*
* Store cursor position and attributes.
* The SCREEN structure is stored inner structure.
*/
void
esc_store_csr(sp)
register SCREEN *sp;
{
inner_buf_csr = sp->s_csr;
inner_buf_tstat = (DECOM|DECAWM) & sp->s_term_mode;
}
/*
* Restore cursor position and attributes.
* The SCREEN structure is restored from inner structure.
* Prevail error from unexpected use of this command, inner structure
* must be initialized.
*/
void
esc_restore_csr(sp)
register SCREEN *sp;
{
cursor_off();
sp->s_csr = inner_buf_csr;
sp->s_term_mode = (sp->s_term_mode & ~(DECOM|DECAWM)) | inner_buf_tstat;
cursor_on(&sp->s_csr.csr_p);
}
/*
* index()
* esc_index(sp) moves the cursor down if the cursor is not at
* bottom margin. If the cursor is at the bottom margin then
* scroll up.
*/
void
esc_index(sp)
register SCREEN *sp;
{
cursor_off();
if (sp->s_csr.csr_y == sp->s_region.btm_margin)
scroll_up(sp->s_region.top_margin,
sp->s_region.btm_margin, sp->s_term_mode & DECSCNM,
sp->s_plane, sp->s_bgcol);
else {
if (sp->s_csr.csr_y < btm_m) {
sp->s_csr.csr_y += 1;
sp->s_csr.csr_p.y += char_h;
}
}
sp->s_current_stat &= ~WRAP;
cursor_on(&sp->s_csr.csr_p);
}
/*
* next line
* esc_next_line(sp) moves the cursor down like index but the cursor
* position is the beginning of the next line.
*/
void
esc_next_line(sp)
register SCREEN *sp;
{
sp->s_csr.csr_x = LFT_M;
sp->s_csr.csr_p.x = x_ofst;
esc_index(sp);
}
/*
* tabulation set
* esc_tab_set(sp) sets tabulation stop at the current cursor point.
*/
void
esc_tab_set(sp)
register SCREEN *sp;
{
sp->s_tab_pos[sp->s_csr.csr_x] = 1;
}
/*
* reverse index
* esc_rev_index(sp) moves the cursor up if the cursor is not at the top
* margin. If the cursor is at the top margin then the screen takes place
* scroll down.
*/
void
esc_rev_index(sp)
register SCREEN *sp;
{
cursor_off();
if (sp->s_csr.csr_y == sp->s_region.top_margin)
scroll_down(sp->s_region.top_margin,
sp->s_region.btm_margin, sp->s_term_mode & DECSCNM,
sp->s_plane, sp->s_bgcol);
else {
if (sp->s_csr.csr_y > TOP_M) {
sp->s_csr.csr_y -= 1;
sp->s_csr.csr_p.y -= char_h;
}
}
sp->s_current_stat &= ~WRAP;
cursor_on(&sp->s_csr.csr_p);
}
/*
* numeric key pad
* esc_numeric_kpad(sp) changes key pad of cursor to numeric one.
* This sequence is used in vi.
* currently not supported
*/
void
esc_numeric_kpad(sp)
register SCREEN *sp;
{
change_aux_key_pad(NUMERIC);
sp->s_current_stat &= ~ESCAPE;
}
/*
* application key pad
* esc_application_kpad(sp) changes key pad of cursor to application one.
* This sequence is also used in vi.
* currently not supported.
*/
void
esc_application_kpad(sp)
register SCREEN *sp;
{
change_aux_key_pad(APPLIC);
sp->s_current_stat &= ~ESCAPE;
}
/*
* change auxiliary keypad
*/
static void
change_aux_key_pad(applic)
register int applic;
{
char pad[4];
register Pfk_string *pfk = &pfk_str;
register Key_string *kys = &pfk_str.pfk_string;
register struct key_pad *kpd;
register int i;
kpd = &key_pad[0];
if (applic) {
pad[0] = '\033';
pad[1] = 'O';
}
for (i = N0; i <= NENTER; i++) {
pfk->pfk_num = i;
kys->key_length = (applic) ? 3: 1;
if (applic) {
pad[2] = kpd->kpd_applic;
} else {
pad[0] = kpd->kpd_numeric;
}
kys->key_string = pad;
kpd++;
pfk->pfk_shift = PF_NORMAL;
kbd_ioctl(SCC_KEYBOARD, KIOCSETS, pfk);
pfk->pfk_shift = PF_SHIFT;
kbd_ioctl(SCC_KEYBOARD, KIOCSETS, pfk);
}
if (!applic) {
pfk->pfk_shift = PF_SHIFT;
kys->key_length = 1;
pfk->pfk_num = MINUS;
kys->key_string = "/";
kbd_ioctl(SCC_KEYBOARD, KIOCSETS, pfk);
pfk->pfk_num = PLUS;
kys->key_string = "*";
kbd_ioctl(SCC_KEYBOARD, KIOCSETS, pfk);
pfk->pfk_num = COMMA;
kys->key_string = "=";
kbd_ioctl(SCC_KEYBOARD, KIOCSETS, pfk);
}
}
extern struct csr_buf local_csr_buf;
/*
* change line size
* esc_line_size(sp, pn) changes line size.
* c = `3' double side double height(top half)
* c = `4' double side double height(bottom half)
* c = `5' sigle width line
* c = `6' double width line
* currently not supported
*/
void
esc_line_size(sp, c)
register SCREEN *sp;
int c;
{
register int i;
register int j;
int save_f, save_b;
cursor_off();
switch (c) {
case '5':
local_csr_buf.csr_number = 1;
break;
case '6':
local_csr_buf.csr_number = 2;
break;
case '8':
sp->s_region.top_margin = TOP_M;
sp->s_region.btm_margin = btm_m;
save_f = fcolor;
save_b = bcolor;
fcolor = sp->s_bgcol;
bcolor = sp->s_plane;
sp->s_csr.csr_p.y = y_ofst;
for (i = TOP_M; i <= btm_m; i++) {
sp->s_csr.csr_p.x = x_ofst;
sp->s_csr.csr_y = i;
for (j = LFT_M; j <= rit_m; j++) {
sp->s_csr.csr_x = j;
copy_char(sp, 'E', 0);
sp->s_csr.csr_p.x += char_w;
}
sp->s_csr.csr_p.y += char_h;
}
sp->s_csr.csr_x = LFT_M;
sp->s_csr.csr_y = TOP_M;
sp->s_csr.csr_p.x = x_ofst;
sp->s_csr.csr_p.y = y_ofst;
fcolor = save_f;
bcolor = save_b;
break;
default:
break;
}
cursor_on(&sp->s_csr.csr_p);
sp->s_current_stat &= ~ESCAPE;
}
/*
* character set
* esc_char_setr sets which character set you use in right graphic set.
* currently not supported
*/
void
esc_char_setr(sp, c)
register SCREEN *sp;
int c;
{
#if defined(IPC_MRX) || defined(CPU_SINGLE)
switch (c) {
case 'J':
case 'H':
font_jisroman();
#ifdef CPU_SINGLE
font_jisroman24();
#endif
sp->s_current_stat &= ~JKANJI;
break;
case 'B':
font_ascii();
#ifdef CPU_SINGLE
font_ascii24();
#endif
sp->s_current_stat &= ~JKANJI;
break;
}
#else /* IPC_MRX || CPU_SINGLE */
if (c == 'B' || c == 'J' || c == 'H') {
sp->s_current_stat &= ~JKANJI;
}
#endif /* IPC_MRX || CPU_SINGLE */
sp->s_current_stat &= ~ESCAPE;
}
/*
* character set to left graphic set
* esc_char_setl sets which character set you use in left graphic set.
* currently not supported
*/
void
esc_char_setl(sp, c)
register SCREEN *sp;
int c;
{
sp->s_current_stat &= ~ESCAPE;
}
extern int tmode;
extern unsigned int first_jcode;
/*
* character set to kanji
* esc_kanji_set sets kanji
*/
void
esc_kanji_set(sp, c)
register SCREEN *sp;
int c;
{
#ifdef KM_JIS
if (tmode == KM_JIS && (c == 'B' || c == '@')) {
sp->s_current_stat |= JKANJI;
first_jcode = 0;
}
#endif
sp->s_current_stat &= ~ESCAPE;
}
static short parm_buf[PARM_BUF_SIZ];
static short *parm_bp = parm_buf;
static int sensitive = 0;
static int pval = 0;
/*
* terminal parameter set command
* esc_parm_set(sp, c) sets terminal parameters such as font-width,
* font-height, character-width, character-height, character-position,
* underlind-position, screen-width, screen-height, x-offset, y-offset,
* right-mergin, bottom-mergin, dimmer-count, bell-length.
*/
void
esc_parm_set(sp, c)
register SCREEN *sp;
register unsigned int c;
{
static int bufc = 0;
if (in_str(c, sp->s_estp->terminators)) {
if (sensitive) {
*parm_bp++ = pval;
} else {
*parm_bp++ = -1;
}
*parm_bp++ = -1;
parm_set(sp, parm_buf, c);
sp->s_current_stat &= ~ESCAPE;
sensitive = pval = 0;
parm_bp = parm_buf;
bufc = 0;
return;
}
/* buffering arguments */
if (bufc < PARM_BUF_SIZ) {
if (c >= '0' && c <= '9') {
pval = pval *10 + (c - '0');
sensitive = 1;
} else if (c == ';') {
if (sensitive) {
*parm_bp++ = pval;
} else {
*parm_bp++ = -1;
}
sensitive = pval = 0;
bufc++;
} else {
sp->s_current_stat &= ~ESCAPE;
sensitive = pval = 0;
parm_bp = parm_buf;
bufc = 0;
}
}
}
static char an_buf[AN_BUF_SIZ];
void
parm_set(sp, parm, terminator)
SCREEN *sp;
short *parm;
unsigned int terminator;
{
register char *bp = an_buf;
switch (terminator) {
case 'f':
if (parm[0] >= FONT_W_MIN && parm[0] <= consfb->font_w &&
parm[0] < char_w)
font_w = parm[0];
if (parm[1] >= FONT_H_MIN && parm[1] <= consfb->font_h &&
parm[1] <= (char_h - ch_pos))
font_h = parm[1];
break;
case 'c':
if (parm[0] >= CHAR_W_MIN && parm[0] > font_w &&
parm[0] <= CHAR_W_MAX)
char_w = parm[0];
if (parm[1] >= CHAR_H_MIN && parm[1] >= (font_h + ch_pos) &&
parm[1] > ul_pos && parm[1] <= CHAR_H_MAX)
char_h = parm[1];
break;
case 'p':
if (parm[0] >= UL_POS_MIN && parm[0] <= UL_POS_MAX &&
parm[0] < char_h) {
ul_pos = parm[0];
}
if (parm[1] >= CH_POS_MIN && parm[1] <= CH_POS_MAX &&
parm[1] < (char_h - font_h)) {
ch_pos = parm[1];
}
break;
case 's':
if (parm[0] > SCR_W_MIN && parm[0] <= consfb->scr_w)
scr_w = (parm[0] < char_w) ? char_w: parm[0];
if (parm[1] > SCR_H_MIN && parm[1] <= consfb->scr_h)
scr_h = (parm[1] < char_h) ? char_h: parm[1];
break;
case 'o':
if (parm[0] >= X_OFST_MIN && parm[0] <= X_OFST_MAX)
x_ofst = (parm[0] > scr_w - char_w) ?
(scr_w - char_w): parm[0];
if (parm[1] >= Y_OFST_MIN && parm[1] <= Y_OFST_MAX)
y_ofst = (parm[1] > scr_h - char_h) ?
(scr_h - char_h): parm[1];
break;
case 'm':
if (parm[0] >= RIT_M_MIN) {
if (parm[0] > RIT_M_MAX /* consfb->rit_m */) {
parm[0] = consfb->rit_m;
}
rit_m = (parm[0] > (scr_w - x_ofst)/char_w) ?
(scr_w - x_ofst)/char_w: parm[0];
}
if (parm[1] >= BTM_M_MIN) {
if (parm[1] > BTM_M_MAX /* consfb->btm_m */) {
parm[1] = consfb->btm_m;
}
btm_m = (parm[1] > (scr_h - y_ofst)/char_h) ?
(scr_h - y_ofst)/char_h: parm[1];
}
break;
case 'd':
if (parm[0] >= DIM_CNT_MIN /* && parm[0] <= DIM_CNT_MAX */)
dim_cnt = a_dim_on = parm[0];
else
a_dim_on = 0;
break;
case 'b':
if (parm[0] >= BELL_LEN_MIN && parm[0] <= BELL_LEN_MAX)
bell_len = parm[0];
break;
case 'D':
set_default_param();
vt100init();
bitmapinit();
break;
case 'i':
cursor_off();
csr_pos(sp, LFT_M, TOP_M);
key_str.key_string = c_pos_mess;
key_str.key_length = spr(c_pos_mess, "f=(%d,%d), ",
font_w, font_h);
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, &key_str);
key_str.key_length = spr(c_pos_mess, "c=(%d,%d), ",
char_w, char_h);
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, &key_str);
csr_pos(sp, LFT_M, (TOP_M - 1));
key_str.key_string = c_pos_mess;
key_str.key_length = spr(c_pos_mess, "p=(%d,%d), ",
ul_pos, ch_pos);
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, &key_str);
key_str.key_length = spr(c_pos_mess, "s=(%d,%d), ",
scr_w, scr_h);
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, &key_str);
csr_pos(sp, LFT_M, (TOP_M - 2));
key_str.key_string = c_pos_mess;
key_str.key_length = spr(c_pos_mess, "o=(%d,%d), ",
x_ofst, y_ofst);
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, &key_str);
key_str.key_length = spr(c_pos_mess, "m=(%d,%d)",
rit_m, btm_m);
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, &key_str);
cursor_on(&sp->s_csr.csr_p);
return;
case 'G':
line(parm);
return;
case 'C':
if (parm[0] >= 0) {
sp->s_plane = fbbm_get_pixel(consfb, parm[0]);
}
if (parm[1] >= 0) {
sp->s_bgcol = fbbm_get_pixel(consfb, parm[1]);
}
cursor_off();
if ((sp->s_csr.csr_attributes & REVERSE) ^
(sp->s_term_mode & DECSCNM)) {
fcolor = sp->s_bgcol;
bcolor = sp->s_plane;
}
else {
fcolor = sp->s_plane;
bcolor = sp->s_bgcol;
}
cursor_on(&sp->s_csr.csr_p);
return;
case 'T':
if (parm[0] < 0 || consfb->Mono)
return;
/*
* what value is defined on pallet N?
* put string in an_buf
*/
*bp++ = '\033';
*bp++ = '~';
bp += itoa(bm_pallet_read(parm[0]), 10, bp);
*bp++ = 'a';
key_str.key_length = bp - an_buf;
key_str.key_string = an_buf;
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, &key_str);
return;
case 't':
if (parm[0] >= 0 && !consfb->Mono) {
bm_pallet_write(parm[0],
(unsigned) parm[1] << 16
| (unsigned) parm[2] << 8
| (unsigned) parm[3]
);
}
return;
default:
return;
}
if (char_w < font_w) char_w = font_w;
if (char_h < font_h) char_h = font_h;
if (ch_pos > char_h - font_h) {
ch_pos = char_h - font_h;
ul_pos = char_h - 1;
}
if (rit_m > (scr_w - x_ofst)/char_w)
rit_m = (scr_w - x_ofst)/char_w;
if (btm_m > (scr_h - y_ofst)/char_h)
btm_m = (scr_h - y_ofst)/char_h;
sp->s_region.top_margin = TOP_M;
sp->s_region.btm_margin = btm_m;
font_r1.extent.x = font_w;
font_r1.extent.y = font_h;
font_r2.extent.x = font_w * 2;
font_r2.extent.y = font_h;
font_len1 = (font_w + 0x0f)>>4;
font_len2 = (font_w*2 + 0x0f)>>4;
cursor_off();
char_r1.extent.x = char_w;
char_r1.extent.y = char_h;
char_r2.extent.x = char_w * 2;
char_r2.extent.y = char_h;
csr_pos(sp, sp->s_csr.csr_x, sp->s_csr.csr_y);
sp->s_csr.csr_p.x = (sp->s_csr.csr_x - 1) * char_w + x_ofst;
sp->s_csr.csr_p.y = (sp->s_csr.csr_y - 1) * char_h + y_ofst;
cursor_on(&sp->s_csr.csr_p);
}
/* VARARGS */
int
spr(s, fmt, ad, dummy)
register char *s, *fmt;
u_int ad;
{
register int b, c;
register u_int *adx = &ad;
char *base = s;
for (;;) {
while ((c = *fmt++) != '%') {
*s++ = c;
if (c == '\0')
return (s - base - 1);
}
c = *fmt++;
switch (c) {
case 'x': case 'X':
b = 16;
goto number;
case 'd': case 'D':
b = 10;
goto number;
case 'o': case 'O':
b = 8;
number:
s += itoa(*adx, b, s);
break;
case 'c':
*s++ = *adx;
break;
case '%':
*s++ = c;
break;
}
adx++;
}
}
static int pfn = -1;
static int active_buf = 0;
/*
* define the programable function keys and answer back message.
* the vt100 facilities do not contain this command!
* command sequence is as follows:
* "^[Pn|n1;n2;...;nmp" (normal mode)
* or
* "^[Pn|n1;n2;...;nmP" (shift mode)
* or
* "^[Pn|n1;n2;...;nmZ" (answer backe message)
* where, `n' denotes the decimal number asigned to function key,
* from `n1' to `nm' denote hexa number, finally,
* `p' , `E' or `Z' tells that the sequence has terminated.
* remark:
* when the terminator is `Z', the function number `n' can be omitted,
* and even though the number is specified, there is no affection to
* the result.
*
*
* ADDITION:
* there is a question: what strings are defined in programable function
* key of key-number n?
* in order to anwer this question, another escape sequence has appended.
* command sequence is as follows:
*
* "^[Pn|i" (normal mode)
* or
* "^[Pn|I" (shift mode)
*
* then the answer is
*
* "^[Pn|n1;n2;...;nmr" (normal mode)
* or
* "^[Pn|n1;n2;...;nmR" (shift mode)
*
*/
void
esc_pf_define(sp, c)
SCREEN *sp;
unsigned int c;
{
static int bufc = 0;
if (in_str(c, sp->s_estp->terminators)) {
pf_define(pfn, esc_bp - esc_buf + active_buf, c);
sp->s_current_stat &= ~ESCAPE;
active_buf = 0;
pfn = -1;
bufc = 0;
return;
}
/* buffering arguments */
if (bufc < ESC_BUF_SIZ) {
if (pfn < 0) {
if (c >= '0' && c <= '9') {
*esc_bp = *esc_bp *10 + (c - '0');
} else if (c == '|') {
pfn = *esc_bp;
*esc_bp = 0;
} else {
sp->s_current_stat &= ~ESCAPE;
active_buf = 0;
pfn = -1;
}
} else {
active_buf = 1;
if (c >= '0' && c <= '9') {
*esc_bp = *esc_bp * 16 + (c - '0');
} else if (c >= 'a' && c <= 'f') {
*esc_bp = *esc_bp * 16 + (c - 'a' + 10);
} else if (c >= 'A' && c <= 'F') {
*esc_bp = *esc_bp * 16 + (c - 'A' + 10);
} else if (c == ';') {
esc_bp++;
bufc++;
} else {
sp->s_current_stat &= ~ESCAPE;
pfn = -1;
active_buf = 0;
bufc = 0;
}
}
} else {
active_buf = 0;
}
}
void
pf_define(pfn, length, terminator)
int pfn;
int length;
unsigned int terminator;
{
register Pfk_string *pfk = &pfk_str;
register Key_string *kys = &pfk_str.pfk_string;
if (terminator == 'Z')
return;
if (pfn < 0 || pfn > N_PFK)
return;
if (terminator == 'i' || terminator == 'I') {
pf_answer(pfn, terminator);
return;
}
pfk->pfk_num = pfn ? pfn: 1;
pfk->pfk_shift = (terminator == 'p') ? PF_NORMAL: PF_SHIFT;
kys->key_length = length;
kys->key_string = esc_buf;
kbd_ioctl(SCC_KEYBOARD, KIOCSETS, pfk);
}
/*
* pf_answer(pfn, terminator)
* this routine answers what strings defined on pfn.
*/
char def_seq[ESC_BUF_SIZ];
void
pf_answer(pfn, terminator)
int pfn;
unsigned int terminator;
{
register Pfk_string *pfk = &pfk_str;
register Key_string *kys = &pfk_str.pfk_string;
register char *bp = an_buf;
register char *p = def_seq;
register int length;
register int j;
/*
* function key inquiry
* get string in def_seq
*/
pfk->pfk_num = pfn ? pfn: 1;
pfk->pfk_shift = (terminator == 'i') ? PF_NORMAL: PF_SHIFT;
kys->key_length = ESC_BUF_SIZ;
kys->key_string = def_seq;
kbd_ioctl(SCC_KEYBOARD, KIOCGETS, pfk);
length = kys->key_length;
/*
* function key answer
* put string in an_buf
*/
*bp++ = '\033';
*bp++ = 'P';
bp += itoa(pfn, 10, bp);
*bp++ = '|';
key_str.key_length = bp - an_buf;
key_str.key_string = an_buf;
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, &key_str);
bp = an_buf;
if (length--) {
bp += itoa(*p++ & 0xff, 16, bp);
}
while (length > 0) {
for (j = 0; (j < 10) && (length-- > 0); j++) {
*bp++ = ';';
bp += itoa(*p++ & 0xff, 16, bp);
}
key_str.key_length = bp - an_buf;
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, (int *)&key_str);
bp = an_buf;
}
*bp++ = (terminator == 'i') ? 'r': 'R';
key_str.key_length = bp - an_buf;
kbd_ioctl(SCC_KEYBOARD, KIOCBACK, (int *)&key_str);
}
/*
* ignore
* esc_ignore(sp) is not called ordinally work.
*/
void
esc_ignore(sp)
register SCREEN *sp;
{
sp->s_current_stat &= ~ESCAPE;
}
static char *nmr = "0123456789abcdef";
/*
* itoa
* this routine converts binary to ascii decimal or hexa number
* according to mod.
*/
static int
itoa(n, mod, buf)
register int n;
register int mod;
register char *buf;
{
register int i = 0;
register int cnt;
int first = 1;
int k;
n &= 0xffff;
for (cnt = mod*mod*mod*mod*mod*mod*mod; cnt > 0; cnt /= mod) {
k = n / cnt;
n -= k * cnt;
if (k == 0) {
if (first == 0) {
*buf++ = nmr[k];
i++;
}
} else {
*buf++ = nmr[k];
i++;
first = 0;
}
}
if (first == 1) {
*buf++ = '0';
i++;
}
return(i);
}