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nethack/sys/winnt/nhdefkey.c
nethack.allison 78ce3749dc win32tty keystroke handling 
- Move the code for keystroke handling into its own source file.
- Compile and link it as a dynamic link library.
- Dynamically load the keystroke handler at runtime
- Add support for specifying a different handler in defaults.nh
  so that internationalization issues can be dealt with without
  rebuilding nethack, just supply alternative handlers in HACKDIR.

The following exported functions need to be present in
the keystroke handler .dll:
ProcessKeystroke - returns an ascii value to NetHack
NHkbhit  - allows peeking to see if a key/mouse press is waiting
SourceWhere - returns location for souce code for a keystroke handler
SourceAuthor  - returns author information for a keystroke handler
KeyHandlerName  - returns the full or short name of the keystroke handling dll.
2003-03-09 15:44:50 +00:00

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/* SCCS Id: @(#)nhdefkey.c 3.4 $Date$ */
/* Copyright (c) NetHack PC Development Team 2003 */
/* NetHack may be freely redistributed. See license for details. */
/*
* This is the default NetHack keystroke processing.
* It can be built as a run-time loadable dll (nhdefkey.dll).
* Alternative keystroke handlers can be built using the
* entry points in this file as a template.
*
* Use the defaults.nh "altkeyhandler" option to set a
* different dll name (without the ".DLL" extension) to
* get different processing. Ensure that the dll referenced
* in defaults.nh exists in the same directory as NetHack in
* order for it to load successfully.
*
*/
static char where_to_get_source[] = "http://www.nethack.org/";
static char author[] = "The NetHack Development Team";
#include "hack.h"
#include "wintty.h"
#include "win32api.h"
extern HANDLE hConIn;
extern INPUT_RECORD ir;
char dllname[512];
char *shortdllname;
int WINAPI DllMain(HINSTANCE hInstance, DWORD fdwReason, PVOID pvReserved)
{
char dlltmpname[512];
char *tmp = dlltmpname, *tmp2;
*(tmp + GetModuleFileName(hInstance, tmp, 511)) = '\0';
(void)strcpy(dllname, tmp);
tmp2 = strrchr(dllname, '\\');
if (tmp2) {
tmp2++;
shortdllname = tmp2;
}
return TRUE;
}
/*
* Keyboard translation tables.
* (Adopted from the MSDOS port)
*/
#define KEYPADLO 0x47
#define KEYPADHI 0x53
#define PADKEYS (KEYPADHI - KEYPADLO + 1)
#define iskeypad(x) (KEYPADLO <= (x) && (x) <= KEYPADHI)
/*
* Keypad keys are translated to the normal values below.
* Shifted keypad keys are translated to the
* shift values below.
*/
static const struct pad {
uchar normal, shift, cntrl;
} keypad[PADKEYS] = {
{'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', C('p')}, /* + */
{'b', 'B', C('b')}, /* 1 */
{'j', 'J', C('j')}, /* 2 */
{'n', 'N', C('n')}, /* 3 */
{'i', 'I', C('i')}, /* Ins */
{'.', ':', ':'} /* Del */
}, numpad[PADKEYS] = {
{'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 */
{'g', 'G', 'g'}, /* 5 */
{'6', M('6'), '6'}, /* 6 */
{'+', 'P', C('p')}, /* + */
{'1', M('1'), '1'}, /* 1 */
{'2', M('2'), '2'}, /* 2 */
{'3', M('3'), '3'}, /* 3 */
{'i', 'I', C('i')}, /* Ins */
{'.', ':', ':'} /* Del */
};
#define inmap(x,vk) (((x) > 'A' && (x) < 'Z') || (vk) == 0xBF || (x) == '2')
static BYTE KeyState[256];
int __declspec(dllexport) __stdcall
ProcessKeystroke(ir, valid, numberpad, portdebug)
INPUT_RECORD *ir;
boolean *valid;
boolean numberpad;
int portdebug;
{
int metaflags = 0, k = 0;
int keycode, vk;
unsigned char ch, pre_ch, mk = 0;
unsigned short int scan;
unsigned long shiftstate;
int altseq = 0;
const struct pad *kpad;
shiftstate = 0L;
ch = pre_ch = ir->Event.KeyEvent.uChar.AsciiChar;
scan = ir->Event.KeyEvent.wVirtualScanCode;
vk = ir->Event.KeyEvent.wVirtualKeyCode;
keycode = MapVirtualKey(vk, 2);
shiftstate = ir->Event.KeyEvent.dwControlKeyState;
KeyState[VK_SHIFT] = (shiftstate & SHIFT_PRESSED) ? 0x81 : 0;
KeyState[VK_CONTROL] = (shiftstate & (LEFT_CTRL_PRESSED|RIGHT_CTRL_PRESSED)) ?
0x81 : 0;
KeyState[VK_CAPITAL] = (shiftstate & CAPSLOCK_ON) ? 0x81 : 0;
if (shiftstate & (LEFT_ALT_PRESSED|RIGHT_ALT_PRESSED)) {
if (ch || inmap(keycode,vk)) altseq = 1;
else altseq = -1; /* invalid altseq */
}
if (ch || (iskeypad(scan)) || (altseq > 0))
*valid = TRUE;
/* if (!valid) return 0; */
/*
* shiftstate can be checked to see if various special
* keys were pressed at the same time as the key.
* Currently we are using the ALT & SHIFT & CONTROLS.
*
* RIGHT_ALT_PRESSED, LEFT_ALT_PRESSED,
* RIGHT_CTRL_PRESSED, LEFT_CTRL_PRESSED,
* SHIFT_PRESSED,NUMLOCK_ON, SCROLLLOCK_ON,
* CAPSLOCK_ON, ENHANCED_KEY
*
* are all valid bit masks to use on shiftstate.
* eg. (shiftstate & LEFT_CTRL_PRESSED) is true if the
* left control key was pressed with the keystroke.
*/
if (iskeypad(scan)) {
kpad = numberpad ? numpad : keypad;
if (shiftstate & SHIFT_PRESSED) {
ch = kpad[scan - KEYPADLO].shift;
}
else if (shiftstate & (LEFT_CTRL_PRESSED | RIGHT_CTRL_PRESSED)) {
ch = kpad[scan - KEYPADLO].cntrl;
}
else {
ch = kpad[scan - KEYPADLO].normal;
}
}
else if (altseq > 0) { /* ALT sequence */
if (vk == 0xBF) ch = M('?');
else ch = M(tolower(keycode));
}
/* Attempt to work better with international keyboards. */
else {
WORD chr[2];
k = ToAscii(vk, scan, KeyState, chr, 0);
if (k <= 2)
switch(k) {
case 2: /* two characters */
ch = (unsigned char)chr[1];
*valid = TRUE;
break;
case 1: /* one character */
ch = (unsigned char)chr[0];
*valid = TRUE;
break;
case 0: /* no translation */
default: /* negative */
*valid = FALSE;
}
}
if (ch == '\r') ch = '\n';
#ifdef PORT_DEBUG
if (portdebug) {
char buf[BUFSZ];
Sprintf(buf,
"PORTDEBUG (%s): ch=%u, sc=%u, vk=%d, pre=%d, sh=0x%X, ta=%d (ESC to end)",
shortdllname, ch, scan, vk, pre_ch, shiftstate, k);
fprintf(stdout, "\n%s", buf);
}
#endif
return ch;
}
int __declspec(dllexport) __stdcall
NHkbhit(hConIn, ir)
HANDLE hConIn;
INPUT_RECORD *ir;
{
int done = 0; /* true = "stop searching" */
int retval; /* true = "we had a match" */
DWORD count;
unsigned short int scan;
unsigned char ch;
unsigned long shiftstate;
int altseq = 0, keycode, vk;
done = 0;
retval = 0;
while (!done)
{
count = 0;
PeekConsoleInput(hConIn,ir,1,&count);
if (count > 0) {
if (ir->EventType == KEY_EVENT && ir->Event.KeyEvent.bKeyDown) {
ch = ir->Event.KeyEvent.uChar.AsciiChar;
scan = ir->Event.KeyEvent.wVirtualScanCode;
shiftstate = ir->Event.KeyEvent.dwControlKeyState;
vk = ir->Event.KeyEvent.wVirtualKeyCode;
keycode = MapVirtualKey(vk, 2);
if (shiftstate & (LEFT_ALT_PRESSED|RIGHT_ALT_PRESSED)) {
if (ch || inmap(keycode,vk)) altseq = 1;
else altseq = -1; /* invalid altseq */
}
if (ch || iskeypad(scan) || altseq) {
done = 1; /* Stop looking */
retval = 1; /* Found what we sought */
}
}
else if ((ir->EventType == MOUSE_EVENT &&
(ir->Event.MouseEvent.dwButtonState & MOUSEMASK))) {
done = 1;
retval = 1;
}
else /* Discard it, it's an insignificant event */
ReadConsoleInput(hConIn,ir,1,&count);
} else /* There are no events in console event queue */ {
done = 1; /* Stop looking */
retval = 0;
}
}
return retval;
}
int __declspec(dllexport) __stdcall
SourceWhere(buf)
char **buf;
{
if (!buf) return 0;
*buf = where_to_get_source;
return 1;
}
int __declspec(dllexport) __stdcall
SourceAuthor(buf)
char **buf;
{
if (!buf) return 0;
*buf = author;
return 1;
}
int __declspec(dllexport) __stdcall
KeyHandlerName(buf, full)
char **buf;
int full;
{
if (!buf) return 0;
if (full) *buf = dllname;
else *buf = shortdllname;
return 1;
}
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