2 * $Source: /cvs/cvsroot/d2x/input/ggi_key.c,v $
5 * $Date: 2001-01-29 14:03:57 $
7 * GGI keyboard input support
9 * $Log: not supported by cvs2svn $
27 //added on 9/3/98 by Matt Mueller to free some cpu instead of hogging during menus and such
29 //end this section addition - Matt Mueller
31 #define KEY_BUFFER_SIZE 16
33 static unsigned char Installed = 0;
35 //-------- Variable accessed by outside functions ---------
36 unsigned char keyd_buffer_type; // 0=No buffer, 1=buffer ASCII, 2=buffer scans
37 unsigned char keyd_repeat;
38 unsigned char keyd_editor_mode;
39 volatile unsigned char keyd_last_pressed;
40 volatile unsigned char keyd_last_released;
41 volatile unsigned char keyd_pressed[256];
42 volatile int keyd_time_when_last_pressed;
44 typedef struct Key_info {
45 ubyte state; // state of key 1 == down, 0 == up
46 ubyte last_state; // previous state of key
47 int counter; // incremented each time key is down in handler
48 fix timewentdown; // simple counter incremented each time in interrupt and key is down
49 fix timehelddown; // counter to tell how long key is down -- gets reset to 0 by key routines
50 ubyte downcount; // number of key counts key was down
51 ubyte upcount; // number of times key was released
54 typedef struct keyboard {
55 unsigned short keybuffer[KEY_BUFFER_SIZE];
57 fix time_pressed[KEY_BUFFER_SIZE];
58 unsigned int keyhead, keytail;
61 static /*volatile*/ keyboard key_data;
65 unsigned char ascii_table[128] =
66 { 255, 255, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '=',255,255,
67 'q', 'w', 'e', 'r', 't', 'y', 'u', 'i', 'o', 'p', '[', ']', 255, 255,
68 'a', 's', 'd', 'f', 'g', 'h', 'j', 'k', 'l', ';', 39, '`',
69 255, '\\', 'z', 'x', 'c', 'v', 'b', 'n', 'm', ',', '.', '/', 255,'*',
70 255, ' ', 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255,255,255,
71 255, 255, 255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
72 255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
73 255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
74 255,255,255,255,255,255,255,255 };
76 unsigned char shifted_ascii_table[128] =
77 { 255, 255, '!', '@', '#', '$', '%', '^', '&', '*', '(', ')', '_', '+',255,255,
78 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '{', '}', 255, 255,
79 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ':', '"', '~',
80 255, '|', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', '<', '>', '?', 255,255,
81 255, ' ', 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255,255,255,
82 255, 255, 255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
83 255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
84 255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
85 255,255,255,255,255,255,255,255 };
87 int giiKeyTranslate (int keylabel) {
90 case GIIUC_0: return KEY_0;
91 case GIIUC_1: return KEY_1;
92 case GIIUC_2: return KEY_2;
93 case GIIUC_3: return KEY_3;
94 case GIIUC_4: return KEY_4;
95 case GIIUC_5: return KEY_5;
96 case GIIUC_6: return KEY_6;
97 case GIIUC_7: return KEY_7;
98 case GIIUC_8: return KEY_8;
99 case GIIUC_9: return KEY_9;
101 case GIIUC_A: return KEY_A;
102 case GIIUC_B: return KEY_B;
103 case GIIUC_C: return KEY_C;
104 case GIIUC_D: return KEY_D;
105 case GIIUC_E: return KEY_E;
106 case GIIUC_F: return KEY_F;
107 case GIIUC_G: return KEY_G;
108 case GIIUC_H: return KEY_H;
109 case GIIUC_I: return KEY_I;
110 case GIIUC_J: return KEY_J;
111 case GIIUC_K: return KEY_K;
112 case GIIUC_L: return KEY_L;
113 case GIIUC_M: return KEY_M;
114 case GIIUC_N: return KEY_N;
115 case GIIUC_O: return KEY_O;
116 case GIIUC_P: return KEY_P;
117 case GIIUC_Q: return KEY_Q;
118 case GIIUC_R: return KEY_R;
119 case GIIUC_S: return KEY_S;
120 case GIIUC_T: return KEY_T;
121 case GIIUC_U: return KEY_U;
122 case GIIUC_V: return KEY_V;
123 case GIIUC_W: return KEY_W;
124 case GIIUC_X: return KEY_X;
125 case GIIUC_Y: return KEY_Y;
126 case GIIUC_Z: return KEY_Z;
128 case GIIUC_Minus: return KEY_MINUS;
129 case GIIUC_Equal: return KEY_EQUAL;
130 case GIIUC_Slash: return KEY_DIVIDE;
131 case GIIUC_BackSlash: return KEY_SLASH;
132 case GIIUC_Comma: return KEY_COMMA;
133 case GIIUC_Period: return KEY_PERIOD;
134 case GIIUC_Semicolon: return KEY_SEMICOL;
136 case GIIUC_BracketLeft: return KEY_LBRACKET;
137 case GIIUC_BracketRight: return KEY_RBRACKET;
139 case GIIUC_Apostrophe: return KEY_RAPOSTRO;
140 case GIIUC_Grave: return KEY_LAPOSTRO;
142 case GIIUC_Escape: return KEY_ESC;
143 case GIIK_Enter: return KEY_ENTER;
144 case GIIUC_BackSpace: return KEY_BACKSP;
145 case GIIUC_Tab: return KEY_TAB;
146 case GIIUC_Space: return KEY_SPACEBAR;
148 case GIIK_NumLock: return KEY_NUMLOCK;
149 case GIIK_ScrollLock: return KEY_SCROLLOCK;
150 case GIIK_CapsLock: return KEY_CAPSLOCK;
152 case GIIK_ShiftL: return KEY_LSHIFT;
153 case GIIK_ShiftR: return KEY_RSHIFT;
155 case GIIK_AltL: return KEY_LALT;
156 case GIIK_AltR: return KEY_RALT;
158 case GIIK_CtrlL: return KEY_LCTRL;
159 case GIIK_CtrlR: return KEY_RCTRL;
161 case GIIK_F1: return KEY_F1;
162 case GIIK_F2: return KEY_F2;
163 case GIIK_F3: return KEY_F3;
164 case GIIK_F4: return KEY_F4;
165 case GIIK_F5: return KEY_F5;
166 case GIIK_F6: return KEY_F6;
167 case GIIK_F7: return KEY_F7;
168 case GIIK_F8: return KEY_F8;
169 case GIIK_F9: return KEY_F9;
170 case GIIK_F10: return KEY_F10;
171 case GIIK_F11: return KEY_F11;
172 case GIIK_F12: return KEY_F12;
174 case GIIK_P0: return KEY_PAD0;
175 case GIIK_P1: return KEY_PAD1;
176 case GIIK_P2: return KEY_PAD2;
177 case GIIK_P3: return KEY_PAD3;
178 case GIIK_P4: return KEY_PAD4;
179 case GIIK_P5: return KEY_PAD5;
180 case GIIK_P6: return KEY_PAD6;
181 case GIIK_P7: return KEY_PAD7;
182 case GIIK_P8: return KEY_PAD8;
183 case GIIK_P9: return KEY_PAD9;
184 case GIIK_PMinus: return KEY_PADMINUS;
185 case GIIK_PPlus: return KEY_PADPLUS;
186 case GIIK_PDecimal: return KEY_PADPERIOD;
187 case GIIK_PSlash: return KEY_PADDIVIDE;
188 case GIIK_PAsterisk: return KEY_PADMULTIPLY;
189 case GIIK_PEnter: return KEY_PADENTER;
191 case GIIK_Insert: return KEY_INSERT;
192 case GIIK_Home: return KEY_HOME;
193 case GIIK_PageUp: return KEY_PAGEUP;
194 case GIIK_Delete: return KEY_DELETE;
195 case GIIK_End: return KEY_END;
196 case GIIK_PageDown: return KEY_PAGEDOWN;
197 case GIIK_Up: return KEY_UP;
198 case GIIK_Down: return KEY_DOWN;
199 case GIIK_Left: return KEY_LEFT;
200 case GIIK_Right: return KEY_RIGHT;
202 case GIIK_PrintScreen: return KEY_PRINT_SCREEN;
203 case GIIK_Pause: return KEY_PAUSE;
208 //killed on 10/03/98 by Matt Mueller
209 //unsigned char key_to_ascii(int a)
211 // if (!isprint(a)) return 255;
212 // if (a & KEY_SHIFTED) {
213 // return (toupper((unsigned char) a));
215 // return ((unsigned char) a);
220 //added on 10/03/98 by Matt Mueller to fix shifted keys (copied from dos/key.c)
221 unsigned char key_to_ascii(int keycode)
225 shifted = keycode & KEY_SHIFTED;
232 return shifted_ascii_table[keycode];
234 return ascii_table[keycode];
238 void keyboard_handler(int button, ubyte state)
242 unsigned short event_key;
247 event_key = giiKeyTranslate(button);
248 //mprintf((0,"keyboard_handler(%i,%i):%i\n",button,state,event_key));
250 //=====================================================
251 //Here a translation from win keycodes to mac keycodes!
252 //=====================================================
254 for (i = 255; i >= 0; i--) {
257 key = &(key_data.keys[keycode]);
261 state = key->last_state;
263 if ( key->last_state == state ) {
266 keyd_last_pressed = keycode;
267 keyd_time_when_last_pressed = timer_get_fixed_seconds();
271 keyd_last_pressed = keycode;
272 keyd_pressed[keycode] = 1;
273 key->downcount += state;
275 key->timewentdown = keyd_time_when_last_pressed = timer_get_fixed_seconds();
278 keyd_pressed[keycode] = 0;
279 keyd_last_released = keycode;
280 key->upcount += key->state;
283 key->timehelddown += timer_get_fixed_seconds() - key->timewentdown;
286 if ( (state && !key->last_state) || (state && key->last_state && (key->counter > 30) && (key->counter & 0x01)) ) {
287 if ( keyd_pressed[KEY_LSHIFT] || keyd_pressed[KEY_RSHIFT])
288 keycode |= KEY_SHIFTED;
289 if ( keyd_pressed[KEY_LALT] || keyd_pressed[KEY_RALT])
290 keycode |= KEY_ALTED;
291 if ( keyd_pressed[KEY_LCTRL] || keyd_pressed[KEY_RCTRL])
292 keycode |= KEY_CTRLED;
293 if ( keyd_pressed[KEY_DELETE] )
294 keycode |= KEY_DEBUGGED;
295 temp = key_data.keytail+1;
296 if ( temp >= KEY_BUFFER_SIZE ) temp=0;
297 if (temp!=key_data.keyhead) {
298 key_data.keybuffer[key_data.keytail] = keycode;
299 key_data.time_pressed[key_data.keytail] = keyd_time_when_last_pressed;
300 key_data.keytail = temp;
303 key->last_state = state;
316 keyd_time_when_last_pressed = timer_get_fixed_seconds();
317 keyd_buffer_type = 1;
320 // Clear the keyboard array
333 key_data.keyhead = key_data.keytail = 0;
335 //Clear the keyboard buffer
336 for (i=0; i<KEY_BUFFER_SIZE; i++ ) {
337 key_data.keybuffer[i] = 0;
338 key_data.time_pressed[i] = 0;
341 curtime = timer_get_fixed_seconds();
343 for (i=0; i<256; i++ ) {
345 key_data.keys[i].state = 1;
346 key_data.keys[i].last_state = 0;
347 key_data.keys[i].timewentdown = curtime;
348 key_data.keys[i].downcount=0;
349 key_data.keys[i].upcount=0;
350 key_data.keys[i].timehelddown = 0;
351 key_data.keys[i].counter = 0;
358 if ( n >= KEY_BUFFER_SIZE ) n=0;
364 int is_one_waiting = 0;
366 if (key_data.keytail!=key_data.keyhead)
368 return is_one_waiting;
377 if (key_data.keytail!=key_data.keyhead) {
378 key = key_data.keybuffer[key_data.keyhead];
379 key_data.keyhead = add_one(key_data.keyhead);
381 //added 9/3/98 by Matt Mueller to free cpu time instead of hogging during menus and such
383 //end addition - Matt Mueller
387 int key_inkey_time(fix * time)
394 if (key_data.keytail!=key_data.keyhead) {
395 key = key_data.keybuffer[key_data.keyhead];
396 *time = key_data.time_pressed[key_data.keyhead];
397 key_data.keyhead = add_one(key_data.keyhead);
406 if (key_data.keytail!=key_data.keyhead)
407 key = key_data.keybuffer[key_data.keyhead];
420 while (!key_checkch())
425 unsigned int key_get_shift_status()
427 unsigned int shift_status = 0;
429 if ( keyd_pressed[KEY_LSHIFT] || keyd_pressed[KEY_RSHIFT] )
430 shift_status |= KEY_SHIFTED;
432 if ( keyd_pressed[KEY_LALT] || keyd_pressed[KEY_RALT] )
433 shift_status |= KEY_ALTED;
435 if ( keyd_pressed[KEY_LCTRL] || keyd_pressed[KEY_RCTRL] )
436 shift_status |= KEY_CTRLED;
439 if (keyd_pressed[KEY_DELETE])
440 shift_status |=KEY_DEBUGGED;
446 // Returns the number of seconds this key has been down since last call.
447 fix key_down_time(int scancode)
452 if ((scancode<0)|| (scancode>255)) return 0;
454 if (!keyd_pressed[scancode]) {
455 time_down = key_data.keys[scancode].timehelddown;
456 key_data.keys[scancode].timehelddown = 0;
458 time = timer_get_fixed_seconds();
459 time_down = time - key_data.keys[scancode].timewentdown;
460 key_data.keys[scancode].timewentdown = time;
466 unsigned int key_down_count(int scancode)
470 if ((scancode<0)|| (scancode>255)) return 0;
472 n = key_data.keys[scancode].downcount;
473 key_data.keys[scancode].downcount = 0;
478 unsigned int key_up_count(int scancode)
482 if ((scancode<0)|| (scancode>255)) return 0;
484 n = key_data.keys[scancode].upcount;
485 key_data.keys[scancode].upcount = 0;