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2fc0d25d458b69a49d9c4d9dcd172a79d1abc2b3
nethack/sys/msdos/msdos.c
nhmall 2fc0d25d45 introduce support for coloring the frame behind a map location 
Also includes support by paxed for polearm targeting using the
frame color.

Also renames USE_TILES to TILES_IN_GLYPHMAP which is a more
accurate description.

Not all window interfaces have full support for the color framing
of the background square yet.

MS-DOS needs further work (to bring it to both VESA and VGA, with
and without tiles.

Windows GUI is missing support.

X11 and Qt have been started, but may require further refinement.
2023-01-01 19:55:02 -05:00

538 lines
13 KiB
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/* NetHack 3.7 msdos.c $NHDT-Date: 1596498269 2020/08/03 23:44:29 $ $NHDT-Branch: NetHack-3.7 $:$NHDT-Revision: 1.15 $ */
/* Copyright (c) NetHack PC Development Team 1990 */
/* NetHack may be freely redistributed. See license for details. */
/*
* MSDOS system functions.
* Many thanks to Don Kneller who originated the DOS port and
* contributed much to the cause.
*/
#define NEED_VARARGS
#include "hack.h"
#ifdef MSDOS
#include "pcvideo.h"
#include <dos.h>
#include <ctype.h>
/*
* MS-DOS functions
*/
#define DIRECT_INPUT 0x07 /* Unfiltered Character Input Without Echo */
#define FATINFO 0x1B /* Get Default Drive Data */
/* MS-DOS 2.0+: */
#define GETDTA 0x2F /* Get DTA Address */
#define FREESPACE 0x36 /* Get Drive Allocation Info */
#define GETSWITCHAR 0x3700 /* Get Switch Character */
#define FINDFIRST 0x4E /* Find First File */
#define FINDNEXT 0x4F /* Find Next File */
#define SETFILETIME 0x5701 /* Set File Date & Time */
/*
* BIOS interrupts
*/
#ifdef PC9800
#define KEYBRD_BIOS 0x18
#else
#define KEYBRD_BIOS 0x16
#endif
/*
* Keyboard BIOS functions
*/
#define READCHAR 0x00 /* Read Character from Keyboard */
#define GETKEYFLAGS 0x02 /* Get Keyboard Flags */
/*#define KEY_DEBUG */ /* print values of unexpected key codes - devel*/
void get_cursor(int *, int *);
/* direct bios calls are used only when iflags.BIOS is set */
static char DOSgetch(void);
static char BIOSgetch(void);
/* static long freediskspace(char *path); */
unsigned long sys_random_seed(void);
#ifndef __GO32__
static char *getdta(void);
#endif
static unsigned int dos_ioctl(int, int, unsigned);
#ifdef TILES_IN_GLYPHMAP
extern boolean pckeys(unsigned char, unsigned char); /* pckeys.c */
#endif
int
tgetch(void)
{
char ch;
#ifdef SCREEN_VESA
if (iflags.usevesa) {
vesa_flush_text();
}
#endif /*SCREEN_VESA*/
/* BIOSgetch can use the numeric key pad on IBM compatibles. */
#ifdef SIMULATE_CURSOR
if (iflags.grmode && cursor_flag)
DrawCursor();
#endif
if (iflags.BIOS)
ch = BIOSgetch();
else
ch = DOSgetch();
#ifdef SIMULATE_CURSOR
if (iflags.grmode && cursor_flag)
HideCursor();
#endif
return ((ch == '\r') ? '\n' : ch);
}
/*
* Keyboard translation tables.
*/
#ifdef PC9800
#define KEYPADLO 0x38
#define KEYPADHI 0x50
#else
#define KEYPADLO 0x47
#define KEYPADHI 0x53
#endif
#define PADKEYS (KEYPADHI - KEYPADLO + 1)
#define iskeypad(x) (KEYPADLO <= (x) && (x) <= KEYPADHI)
/*
* Keypad keys are translated to the normal values below.
* When iflags.BIOS is active, shifted keypad keys are translated to the
* shift values below.
*/
static const struct pad {
char normal, shift, cntrl;
} keypad[PADKEYS] =
{
#ifdef PC9800
{ '>', '>', '>' }, /* Ins */
{ '<', '<', '<' }, /* Del */
{ 'k', 'K', C('k') }, /* Up */
{ 'h', 'H', C('h') }, /* Left */
{ 'l', 'L', C('l') }, /* Right */
{ 'j', 'J', C('j') }, /* Down */
{ 0, 0, 0 }, /* HomeClr */
{ '?', '?', '?' }, /* Help */
{ 'm', C('p'), C('p') }, /* - */
{ '/', '/', '/' }, /* / */
{ 'y', 'Y', C('y') }, /* 7 */
{ 'k', 'K', C('k') }, /* 8 */
{ 'u', 'U', C('u') }, /* 9 */
{ '*', '*', '*' }, /* * */
{ 'h', 'H', C('h') }, /* 4 */
{ 'g', 'g', 'g' }, /* 5 */
{ 'l', 'L', C('l') }, /* 6 */
{ 'p', 'P', C('p') }, /* + */
{ 'b', 'B', C('b') }, /* 1 */
{ 'j', 'J', C('j') }, /* 2 */
{ 'n', 'N', C('n') }, /* 3 */
{ '=', '=', '=' }, /* = */
{ 'i', 'I', C('i') }, /* 0 */
{ ',', ':', ':' }, /* , */
{ '.', '.', '.' } /* . */
#else
{ 'y', 'Y', C('y') }, /* 7 */
{ 'k', 'K', C('k') }, /* 8 */
{ 'u', 'U', C('u') }, /* 9 */
{ 'm', C('p'), C('p') }, /* - */
{ 'h', 'H', C('h') }, /* 4 */
{ 'g', 'g', 'g' }, /* 5 */
{ 'l', 'L', C('l') }, /* 6 */
{ 'p', 'P', C('p') }, /* + */
{ 'b', 'B', C('b') }, /* 1 */
{ 'j', 'J', C('j') }, /* 2 */
{ 'n', 'N', C('n') }, /* 3 */
{ 'i', 'I', C('i') }, /* Ins */
{ '.', ':', ':' } /* Del */
#endif
},
numpad[PADKEYS] = {
#ifdef PC9800
{ '>', '>', '>' }, /* Ins */
{ '<', '<', '<' }, /* Del */
{ '8', M('8'), '8' }, /* Up */
{ '4', M('4'), '4' }, /* Left */
{ '6', M('6'), '6' }, /* Right */
{ '2', M('2'), '2' }, /* Down */
{ 0, 0, 0 }, /* HomeClr */
{ '?', '?', '?' }, /* Help */
{ 'm', C('p'), C('p') }, /* - */
{ '/', '/', '/' }, /* / */
{ '7', M('7'), '7' }, /* 7 */
{ '8', M('8'), '8' }, /* 8 */
{ '9', M('9'), '9' }, /* 9 */
{ '*', '*', '*' }, /* * */
{ '4', M('4'), '4' }, /* 4 */
{ 'g', 'G', 'g' }, /* 5 */
{ '6', M('6'), '6' }, /* 6 */
{ 'p', 'P', C('p') }, /* + */
{ '1', M('1'), '1' }, /* 1 */
{ '2', M('2'), '2' }, /* 2 */
{ '3', M('3'), '3' }, /* 3 */
{ '=', '=', '=' }, /* = */
{ 'i', 'I', C('i') }, /* 0 */
{ ',', ':', ':' }, /* , */
{ '.', '.', '.' } /* . */
#else
{ '7', M('7'), '7' }, /* 7 */
{ '8', M('8'), '8' }, /* 8 */
{ '9', M('9'), '9' }, /* 9 */
{ 'm', C('p'), C('p') }, /* - */
{ '4', M('4'), '4' }, /* 4 */
{ '5', M('5'), '5' }, /* 5 */
{ '6', M('6'), '6' }, /* 6 */
{ 'p', 'P', C('p') }, /* + */
{ '1', M('1'), '1' }, /* 1 */
{ '2', M('2'), '2' }, /* 2 */
{ '3', M('3'), '3' }, /* 3 */
{ '0', M('0'), '0' }, /* Ins */
{ '.', ':', ':' } /* Del */
#endif
};
/*
* Unlike Ctrl-letter, the Alt-letter keystrokes have no specific ASCII
* meaning unless assigned one by a keyboard conversion table, so the
* keyboard BIOS normally does not return a character code when Alt-letter
* is pressed. So, to interpret unassigned Alt-letters, we must use a
* scan code table to translate the scan code into a letter, then set the
* "meta" bit for it. -3.
*/
#ifdef PC9800
#define SCANLO 0x5
#else
#define SCANLO 0x10
#endif /* PC9800 */
static const char scanmap[] = {
/* ... */
#ifdef PC9800
0, 0, 0, 0, 0, 0, '-', '^', '\\', '\b', '\t', 'q', 'w', 'e', 'r', 't',
'y', 'u', 'i', 'o', 'p', '@', '[', '\n', 'a', 's', 'd', 'f', 'g', 'h',
'j', 'k', 'l', ';', ':', ']', 'z', 'x', 'c', 'v', 'b', 'N', 'm', ',', '.',
'/' /* ... */
#else
'q', 'w', 'e', 'r', 't', 'y', 'u', 'i', 'o', 'p', '[', ']', '\n', 0, 'a',
's', 'd', 'f', 'g', 'h', 'j', 'k', 'l', ';', '\'', '`', 0, '\\', 'z', 'x',
'c', 'v', 'b', 'n', 'm', ',', '.', '?' /* ... */
#endif /* PC9800 */
};
#define inmap(x) (SCANLO <= (x) && (x) < SCANLO + SIZE(scanmap))
#ifdef NEW_ALT
#define NUMERIC_SCANLO 0x78
static const char numeric_scanmap[] = { /* ... */
'1', '2', '3', '4', '5', '6', '7',
'8', '9', '0', '-', '='
};
#define in_numericmap(x) \
(NUMERIC_SCANLO <= (x) && (x) < NUMERIC_SCANLO + SIZE(numeric_scanmap))
#endif
/*
* BIOSgetch gets keys directly with a BIOS call.
*/
#ifdef PC9800
#define SHIFT 0x1
#define KANA 0x4
#define GRPH 0x8
#define CTRL 0x10
#else
#define SHIFT (0x1 | 0x2)
#define CTRL 0x4
#define ALT 0x8
#endif /* PC9800 */
static char
BIOSgetch(void)
{
unsigned char scan, shift, ch = 0;
const struct pad *kpad;
union REGS regs;
do {
/* Get scan code.
*/
regs.h.ah = READCHAR;
int86(KEYBRD_BIOS, &regs, &regs);
ch = regs.h.al;
scan = regs.h.ah;
/* Get shift status.
*/
regs.h.ah = GETKEYFLAGS;
int86(KEYBRD_BIOS, &regs, &regs);
shift = regs.h.al;
/* Translate keypad keys */
if (iskeypad(scan)) {
kpad = iflags.num_pad ? numpad : keypad;
if (shift & SHIFT)
ch = kpad[scan - KEYPADLO].shift;
else if (shift & CTRL)
ch = kpad[scan - KEYPADLO].cntrl;
else
ch = kpad[scan - KEYPADLO].normal;
}
#ifdef TILES_IN_GLYPHMAP
/* Check for special interface manipulation keys */
if (pckeys(scan, shift)) {
ch = 0xFF;
continue;
}
#endif
/* Translate unassigned Alt-letters */
#ifdef PC9800
if (shift & KANA)
return 0;
if ((shift & GRPH) && (ch >= 0x80)) {
#else
if ((shift & ALT) && !ch) {
#endif
#if 0
pline("Scan code: %d 0x%03X", scan, scan);
#endif
if (inmap(scan))
ch = scanmap[scan - SCANLO];
#ifdef NEW_ALT
else if (in_numericmap(scan))
ch = numeric_scanmap[scan - NUMERIC_SCANLO];
#endif
return (isprint(ch) ? M(ch) : ch);
}
} while (ch == 0xFF);
return ch;
}
static char
DOSgetch(void)
{
union REGS regs;
char ch;
struct pad(*kpad)[PADKEYS];
regs.h.ah = DIRECT_INPUT;
intdos(&regs, &regs);
ch = regs.h.al;
#ifdef PC9800
if (ch < 0) /* KANA letters and GRPH-shifted letters(?) */
ch = 0; /* munch it */
#else
/*
* The extended codes for Alt-shifted letters, and unshifted keypad
* and function keys, correspond to the scan codes. So we can still
* translate the unshifted cursor keys and Alt-letters. -3.
*/
if (ch == 0) { /* an extended key */
regs.h.ah = DIRECT_INPUT;
intdos(&regs, &regs); /* get the extended key code */
ch = regs.h.al;
if (iskeypad(ch)) { /* unshifted keypad keys */
kpad = (void *) (iflags.num_pad ? numpad : keypad);
ch = (*kpad)[ch - KEYPADLO].normal;
} else if (inmap(ch)) { /* Alt-letters */
ch = scanmap[ch - SCANLO];
if (isprint(ch))
ch = M(ch);
} else
ch = 0; /* munch it */
}
#endif
return (ch);
}
char
switchar(void)
{
union REGS regs;
regs.x.ax = GETSWITCHAR;
intdos(&regs, &regs);
return regs.h.dl;
}
#if 0
static long
freediskspace(char *path)
{
union REGS regs;
regs.h.ah = FREESPACE;
if (path[0] && path[1] == ':')
regs.h.dl = (toupper(path[0]) - 'A') + 1;
else
regs.h.dl = 0;
intdos(&regs, &regs);
if (regs.x.ax == 0xFFFF)
return -1L; /* bad drive number */
else
return ((long) regs.x.bx * regs.x.cx * regs.x.ax);
}
#endif /* 0 */
#ifndef __GO32__
/*
* Functions to get filenames using wildcards
*/
int
findfirst_file(char *path)
{
union REGS regs;
struct SREGS sregs;
regs.h.ah = FINDFIRST;
regs.x.cx = 0; /* attribute: normal files */
regs.x.dx = FP_OFF(path);
sregs.ds = FP_SEG(path);
intdosx(&regs, &regs, &sregs);
return !regs.x.cflag;
}
int
findnext_file(void)
{
union REGS regs;
regs.h.ah = FINDNEXT;
intdos(&regs, &regs);
return !regs.x.cflag;
}
char *
foundfile_buffer(void)
{
return (getdta() + 30);
}
/* Get disk transfer area */
static char *
getdta(void)
{
union REGS regs;
struct SREGS sregs;
char *ret;
regs.h.ah = GETDTA;
intdosx(&regs, &regs, &sregs);
#ifdef MK_FP
ret = (char *) MK_FP(sregs.es, regs.x.bx);
#else
FP_OFF(ret) = regs.x.bx;
FP_SEG(ret) = sregs.es;
#endif
return ret;
}
long
filesize_nh(char *file)
{
char *dta;
if (findfirst_file(file)) {
dta = getdta();
return (*(long *) (dta + 26));
} else
return -1L;
}
#endif /* __GO32__ */
/*
* Chdrive() changes the default drive.
*/
void
chdrive(char *str)
{
#define SELECTDISK 0x0E
char *ptr;
union REGS inregs;
char drive;
if ((ptr = strchr(str, ':')) != (char *) 0) {
drive = toupper(*(ptr - 1));
inregs.h.ah = SELECTDISK;
inregs.h.dl = drive - 'A';
intdos(&inregs, &inregs);
}
return;
}
/* Use the IOCTL DOS function call to change stdin and stdout to raw
* mode. For stdin, this prevents MSDOS from trapping ^P, thus
* freeing us of ^P toggling 'echo to printer'.
* Thanks to Mark Zbikowski (markz@microsoft.UUCP).
*/
#define DEVICE 0x80
#define RAW 0x20
#define IOCTL 0x44
#define STDIN fileno(stdin)
#define STDOUT fileno(stdout)
#define GETBITS 0
#define SETBITS 1
static unsigned int old_stdin, old_stdout;
void
disable_ctrlP(void)
{
if (!iflags.rawio)
return;
old_stdin = dos_ioctl(STDIN, GETBITS, 0);
old_stdout = dos_ioctl(STDOUT, GETBITS, 0);
if (old_stdin & DEVICE)
dos_ioctl(STDIN, SETBITS, old_stdin | RAW);
if (old_stdout & DEVICE)
dos_ioctl(STDOUT, SETBITS, old_stdout | RAW);
return;
}
void
enable_ctrlP(void)
{
if (!iflags.rawio)
return;
if (old_stdin)
(void) dos_ioctl(STDIN, SETBITS, old_stdin);
if (old_stdout)
(void) dos_ioctl(STDOUT, SETBITS, old_stdout);
return;
}
static unsigned int
dos_ioctl(int handle, int mode, unsigned setvalue)
{
union REGS regs;
regs.h.ah = IOCTL;
regs.h.al = mode;
regs.x.bx = handle;
regs.h.dl = setvalue;
regs.h.dh = 0; /* Zero out dh */
intdos(&regs, &regs);
return (regs.x.dx);
}
unsigned long
sys_random_seed(void)
{
unsigned long ourseed = 0UL;
time_t datetime = 0;
(void) time(&datetime);
ourseed = (unsigned long) datetime;
return ourseed;
}
#endif /* MSDOS */
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