/* NetHack 3.6 nhdefkey.c $NHDT-Date: 1432512793 2015/05/25 00:13:13 $ $NHDT-Branch: master $:$NHDT-Revision: 1.14 $ */ /* 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 "win32api.h" #include "hack.h" #include "wintty.h" extern HANDLE hConIn; extern INPUT_RECORD ir; char dllname[512]; char *shortdllname; int FDECL(__declspec(dllexport) __stdcall ProcessKeystroke, (HANDLE hConIn, INPUT_RECORD *ir, boolean *valid, BOOLEAN_P numberpad, int portdebug)); 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) #ifdef QWERTZ_SUPPORT /* when 'numberpad' is 0 and Cmd.swap_yz is True (signaled by setting 0x10 on boolean numpad argument) treat keypress of numpad 7 as 'z' rather than 'y' */ static boolean qwertz = FALSE; #endif /* * 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 */ { '5', M('5'), '5' }, /* 5 */ { '6', M('6'), '6' }, /* 6 */ { '+', 'P', C('p') }, /* + */ { '1', M('1'), '1' }, /* 1 */ { '2', M('2'), '2' }, /* 2 */ { '3', M('3'), '3' }, /* 3 */ { '0', M('0'), '0' }, /* Ins */ { '.', ':', ':' } /* Del */ }; #define inmap(x, vk) (((x) > 'A' && (x) < 'Z') || (vk) == 0xBF || (x) == '2') static BYTE KeyState[256]; int __declspec(dllexport) __stdcall ProcessKeystroke(hConIn, ir, valid, numberpad, portdebug) HANDLE hConIn; 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; #ifdef QWERTZ_SUPPORT if (numberpad & 0x10) { numberpad &= ~0x10; qwertz = TRUE; } else { qwertz = FALSE; } #endif 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; } #ifdef QWERTZ_SUPPORT /* OPTIONS=number_pad:-1 is for qwertz keyboard; for that setting, 'numberpad' will be 0; core swaps y to zap, z to move northwest; we want numpad 7 to move northwest, so when qwertz is set, tell core that user who types numpad 7 typed z rather than y */ if (qwertz && kpad[scan - KEYPADLO].normal == 'y') ch += 1; /* changes y to z, Y to Z, ^Y to ^Z */ #endif /*QWERTZ_SUPPORT*/ } else if (altseq > 0) { /* ALT sequence */ if (vk == 0xBF) ch = M('?'); else ch = M(tolower((uchar) 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 { /* Strange Key event; let's purge it to avoid trouble */ ReadConsoleInput(hConIn, ir, 1, &count); } } 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 CheckInput(hConIn, ir, count, numpad, mode, mod, cc) HANDLE hConIn; INPUT_RECORD *ir; DWORD *count; boolean numpad; int mode; int *mod; coord *cc; { #if defined(SAFERHANGUP) DWORD dwWait; #endif int ch; boolean valid = 0, done = 0; #ifdef QWERTZ_SUPPORT if (numpad & 0x10) { numpad &= ~0x10; qwertz = TRUE; } else { qwertz = FALSE; } #endif while (!done) { #if defined(SAFERHANGUP) dwWait = WaitForSingleObjectEx(hConIn, // event object to wait for INFINITE, // waits indefinitely TRUE); // alertable wait enabled if (dwWait == WAIT_FAILED) return '\033'; #endif ReadConsoleInput(hConIn, ir, 1, count); if (mode == 0) { if ((ir->EventType == KEY_EVENT) && ir->Event.KeyEvent.bKeyDown) { ch = ProcessKeystroke(hConIn, ir, &valid, numpad, 0); done = valid; } } else { if (count > 0) { if (ir->EventType == KEY_EVENT && ir->Event.KeyEvent.bKeyDown) { #ifdef QWERTZ_SUPPORT if (qwertz) numpad |= 0x10; #endif ch = ProcessKeystroke(hConIn, ir, &valid, numpad, 0); #ifdef QWERTZ_SUPPORT numpad &= ~0x10; #endif if (valid) return ch; } else if (ir->EventType == MOUSE_EVENT) { if ((ir->Event.MouseEvent.dwEventFlags == 0) && (ir->Event.MouseEvent.dwButtonState & MOUSEMASK)) { cc->x = ir->Event.MouseEvent.dwMousePosition.X + 1; cc->y = ir->Event.MouseEvent.dwMousePosition.Y - 1; if (ir->Event.MouseEvent.dwButtonState & LEFTBUTTON) *mod = CLICK_1; else if (ir->Event.MouseEvent.dwButtonState & RIGHTBUTTON) *mod = CLICK_2; #if 0 /* middle button */ else if (ir->Event.MouseEvent.dwButtonState & MIDBUTTON) *mod = CLICK_3; #endif return 0; } } } else done = 1; } } return mode ? 0 : ch; } 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; }