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/cvs/rxvt-unicode/src/keyboard.C
Revision: 1.6
Committed: Sun Jan 16 19:20:30 2005 UTC (19 years, 4 months ago) by root
Content type: text/plain
Branch: MAIN
Changes since 1.5: +4 -5 lines
Log Message: 
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File Contents

# Content
1 #include "../config.h"
2 #include "rxvt.h"
3 #include "keyboard.h"
4 #include "command.h"
5 #include <string.h>
6 #include <X11/X.h>
7
8 #ifdef KEYSYM_RESOURCE
9
10 ////////////////////////////////////////////////////////////////////////////////
11 // default keycode translation map and keyevent handlers
12
13 keysym_t keyboard_manager::stock_keymap[] = {
14 /* examples */
15 /* keysym, state, range, handler, str */
16 //{XK_ISO_Left_Tab, 0, 1, NORMAL, "\033[Z"},
17 //{ 'a', 0, 26, RANGE_META8, "a" "%c"},
18 //{ 'a', ControlMask, 26, RANGE_META8, "" "%c"},
19 //{ XK_Left, 0, 4, LIST, "DACBZ" "\033[Z"},
20 //{ XK_Left, ShiftMask, 4, LIST, "dacbZ" "\033[Z"},
21 //{ XK_Left, ControlMask, 4, LIST, "dacbZ" "\033OZ"},
22 //{ XK_Tab, ControlMask, 1, NORMAL, "\033<C-Tab>"},
23 //{ XK_apostrophe, ControlMask, 1, NORMAL, "\033<C-'>"},
24 //{ XK_slash, ControlMask, 1, NORMAL, "\033<C-/>"},
25 //{ XK_semicolon, ControlMask, 1, NORMAL, "\033<C-;>"},
26 //{ XK_grave, ControlMask, 1, NORMAL, "\033<C-`>"},
27 //{ XK_comma, ControlMask, 1, NORMAL, "\033<C-\054>"},
28 //{ XK_Return, ControlMask, 1, NORMAL, "\033<C-Return>"},
29 //{ XK_Return, ShiftMask, 1, NORMAL, "\033<S-Return>"},
30 //{ ' ', ShiftMask, 1, NORMAL, "\033<S-Space>"},
31 //{ '.', ControlMask, 1, NORMAL, "\033<C-.>"},
32 //{ '0', ControlMask, 10, RANGE, "0" "\033<C-%c>"},
33 //{ '0', MetaMask|ControlMask, 10, RANGE, "0" "\033<M-C-%c>"},
34 //{ 'a', MetaMask|ControlMask, 26, RANGE, "a" "\033<M-C-%c>"},
35 };
36
37 static void
38 output_string (rxvt_term *rt, const char *str)
39 {
40 assert (rt && str);
41
42 if (strncmp (str, "proto:", 6) == 0)
43 rt->cmd_write ((unsigned char *)str + 6, strlen (str) - 6);
44 else
45 rt->tt_write ((unsigned char *)str, strlen (str));
46 }
47
48 static void
49 output_string_meta8 (rxvt_term *rt, unsigned int state, char *buf, int buflen)
50 {
51 if (state & rt->ModMetaMask)
52 {
53 #ifdef META8_OPTION
54 if (rt->meta_char == 0x80) /* set 8-bit on */
55 {
56 for (char *ch = buf; ch < buf + buflen; ch++)
57 *ch |= 0x80;
58 }
59 else if (rt->meta_char == C0_ESC) /* escape prefix */
60 #endif
61 {
62 const unsigned char ch = C0_ESC;
63 rt->tt_write (&ch, 1);
64 }
65 }
66
67 rt->tt_write ((unsigned char *) buf, buflen);
68 }
69
70 static int
71 format_keyrange_string (const char *str, int keysym_offset, char *buf, int bufsize)
72 {
73 int len = snprintf (buf, bufsize, str + 1, keysym_offset + str [0]);
74
75 if (len >= bufsize)
76 {
77 rxvt_warn ("buffer overflowed!\n");
78 *buf = 0;
79 }
80 else if (len < 0)
81 {
82 rxvt_warn ("keyrange_translator(), snprintf error");
83 *buf = 0;
84 }
85
86 return len;
87 }
88
89 ////////////////////////////////////////////////////////////////////////////////
90 // return: #bits of '1'
91 static int
92 bitcount (unsigned int n)
93 {
94 int i;
95
96 for (i = 0; n; ++i, n &= (n - 1))
97 ;
98
99 return i;
100 }
101
102 // return: priority_of_a - priority_of_b
103 static int
104 compare_priority (keysym_t *a, keysym_t *b)
105 {
106 assert (a && b);
107
108 // (the more '1's in state; the less range): the greater priority
109 int ca = bitcount (a->state /* & OtherModMask */);
110 int cb = bitcount (b->state /* & OtherModMask */);
111
112 if (ca != cb)
113 return ca - cb;
114 //else if (a->state != b->state) // this behavior is to be disscussed
115 // return b->state - a->state;
116 else
117 return b->range - a->range;
118 }
119
120 ////////////////////////////////////////////////////////////////////////////////
121 keyboard_manager::keyboard_manager ()
122 {
123 keymap.reserve (256);
124 hash [0] = 1; // hash[0] != 0 indicates uninitialized data
125 }
126
127 keyboard_manager::~keyboard_manager ()
128 {
129 clear ();
130 }
131
132 void
133 keyboard_manager::clear ()
134 {
135 keymap.clear ();
136 hash [0] = 2;
137
138 for (unsigned int i = 0; i < user_translations.size (); ++i)
139 {
140 free ((void *)user_translations [i]);
141 user_translations [i] = 0;
142 }
143
144 for (unsigned int i = 0; i < user_keymap.size (); ++i)
145 {
146 delete user_keymap [i];
147 user_keymap [i] = 0;
148 }
149
150 user_keymap.clear ();
151 user_translations.clear ();
152 }
153
154 // a wrapper for register_keymap,
155 // so that outside codes don't have to know so much details.
156 //
157 // the string 'trans' is copied to an internal managed buffer,
158 // so the caller can free memory of 'trans' at any time.
159 void
160 keyboard_manager::register_user_translation (KeySym keysym, unsigned int state, const char *trans)
161 {
162 assert (trans);
163
164 keysym_t *key = new keysym_t;
165 wchar_t *wc = rxvt_mbstowcs (trans);
166 const char *translation = rxvt_wcstoutf8 (wc);
167 free (wc);
168
169 if (key && translation)
170 {
171 key->keysym = keysym;
172 key->state = state;
173 key->range = 1;
174 key->str = translation;
175 key->type = keysym_t::NORMAL;
176
177 if (strncmp (translation, "list", 4) == 0 && translation [4])
178 {
179 char *middle = strchr (translation + 5, translation [4]);
180 char *suffix = strrchr (translation + 5, translation [4]);
181
182 if (suffix && middle && suffix > middle + 1)
183 {
184 key->type = keysym_t::LIST;
185 key->range = suffix - middle - 1;
186
187 strcpy (translation, translation + 4);
188 }
189 else
190 {
191 key->range = 1;
192 rxvt_warn ("cannot parse list-type keysym '%s', treating as normal keysym.\n", translation);
193 }
194 }
195 else
196
197 user_keymap.push_back (key);
198 user_translations.push_back (translation);
199 register_keymap (key);
200 }
201 else
202 {
203 delete key;
204 free ((void *)translation);
205 rxvt_fatal ("out of memory, aborting.\n");
206 }
207 }
208
209 void
210 keyboard_manager::register_keymap (keysym_t *key)
211 {
212 assert (key);
213 assert (key->range >= 1);
214
215 if (keymap.size () == keymap.capacity ())
216 keymap.reserve (keymap.size () * 2);
217
218 keymap.push_back (key);
219 hash[0] = 3;
220 }
221
222 void
223 keyboard_manager::register_done ()
224 {
225 unsigned int i, n = sizeof (stock_keymap) / sizeof (keysym_t);
226
227 if (keymap.back () != &stock_keymap[n - 1])
228 for (i = 0; i < n; ++i)
229 register_keymap (&stock_keymap[i]);
230
231 purge_duplicate_keymap ();
232
233 setup_hash ();
234 }
235
236 bool
237 keyboard_manager::dispatch (rxvt_term *term, KeySym keysym, unsigned int state)
238 {
239 assert (hash[0] == 0 && "register_done() need to be called");
240
241 if (state & term->ModMetaMask) state |= MetaMask;
242 if (state & term->ModNumLockMask) state |= NumLockMask;
243 if (state & term->ModLevel3Mask) state |= Level3Mask;
244
245 if (!!(term->priv_modes & PrivMode_aplKP) != !!(state & ShiftMask))
246 state |= AppKeypadMask;
247
248 int index = find_keysym (keysym, state);
249
250 if (index >= 0)
251 {
252 assert (term && keymap [index]);
253 const keysym_t &key = *keymap [index];
254
255 int keysym_offset = keysym - key.keysym;
256
257 wchar_t *wc = rxvt_utf8towcs (key.str);
258 char *str = rxvt_wcstombs (wc);
259 // TODO: do translations, unescaping etc, here (allow \u escape etc.)
260 free (wc);
261
262 switch (key.type)
263 {
264 case keysym_t::NORMAL:
265 output_string (term, str);
266 break;
267
268 case keysym_t::RANGE:
269 {
270 char buf[STRING_MAX];
271
272 if (format_keyrange_string (str, keysym_offset, buf, sizeof (buf)) > 0)
273 output_string (term, buf);
274 }
275 break;
276
277 case keysym_t::RANGE_META8:
278 {
279 int len;
280 char buf[STRING_MAX];
281
282 len = format_keyrange_string (str, keysym_offset, buf, sizeof (buf));
283 if (len > 0)
284 output_string_meta8 (term, state, buf, len);
285 }
286 break;
287
288 case keysym_t::LIST:
289 {
290 char buf[STRING_MAX];
291
292 char *prefix, *middle, *suffix;
293
294 prefix = str;
295 middle = strchr (prefix + 1, *prefix);
296 suffix = strrchr (middle + 1, *prefix);
297
298 memcpy (buf, prefix + 1, middle - prefix - 1);
299 buf [middle - prefix - 1] = middle [keysym_offset + 1];
300 strcpy (buf + (middle - prefix), suffix + 1);
301
302 output_string (term, buf);
303 }
304 break;
305 }
306
307 free (str);
308
309 return true;
310 }
311 else
312 {
313 // fprintf(stderr,"[%x:%x]",state,keysym);
314 return false;
315 }
316 }
317
318 // purge duplicate keymap entries
319 void keyboard_manager::purge_duplicate_keymap ()
320 {
321 for (unsigned int i = 0; i < keymap.size (); ++i)
322 {
323 for (unsigned int j = 0; j < i; ++j)
324 {
325 if (keymap [i] == keymap [j])
326 {
327 while (keymap [i] == keymap.back ())
328 keymap.pop_back ();
329
330 if (i < keymap.size ())
331 {
332 keymap[i] = keymap.back ();
333 keymap.pop_back ();
334 }
335 break;
336 }
337 }
338 }
339 }
340
341 void
342 keyboard_manager::setup_hash ()
343 {
344 unsigned int i, index, hashkey;
345 vector <keysym_t *> sorted_keymap;
346 uint16_t hash_budget_size[KEYSYM_HASH_BUDGETS]; // size of each budget
347 uint16_t hash_budget_counter[KEYSYM_HASH_BUDGETS]; // #elements in each budget
348
349 memset (hash_budget_size, 0, sizeof (hash_budget_size));
350 memset (hash_budget_counter, 0, sizeof (hash_budget_counter));
351
352 // count keysyms for corresponding hash budgets
353 for (i = 0; i < keymap.size (); ++i)
354 {
355 assert (keymap [i]);
356 hashkey = (keymap [i]->keysym & KEYSYM_HASH_MASK);
357 ++hash_budget_size [hashkey];
358 }
359
360 // keysym A with range>1 is counted one more time for
361 // every keysym B lies in its range
362 for (i = 0; i < keymap.size (); ++i)
363 {
364 if (keymap[i]->range > 1)
365 {
366 for (int j = min (keymap [i]->range, KEYSYM_HASH_BUDGETS) - 1; j > 0; --j)
367 {
368 hashkey = ((keymap [i]->keysym + j) & KEYSYM_HASH_MASK);
369 if (hash_budget_size [hashkey])
370 ++hash_budget_size [hashkey];
371 }
372 }
373 }
374
375 // now we know the size of each budget
376 // compute the index of each budget
377 hash [0] = 0;
378 for (index = 0, i = 1; i < KEYSYM_HASH_BUDGETS; ++i)
379 {
380 index += hash_budget_size [i - 1];
381 hash[i] = (hash_budget_size [i] ? index : hash [i - 1]);
382 }
383
384 // and allocate just enough space
385 //sorted_keymap.reserve (hash[i - 1] + hash_budget_size[i - 1]);
386 sorted_keymap.insert (sorted_keymap.begin (), index + hash_budget_size [i - 1], 0);
387
388 // fill in sorted_keymap
389 // it is sorted in each budget
390 for (i = 0; i < keymap.size (); ++i)
391 {
392 for (int j = min (keymap [i]->range, KEYSYM_HASH_BUDGETS) - 1; j >= 0; --j)
393 {
394 hashkey = ((keymap [i]->keysym + j) & KEYSYM_HASH_MASK);
395
396 if (hash_budget_size [hashkey])
397 {
398 index = hash [hashkey] + hash_budget_counter [hashkey];
399
400 while (index > hash [hashkey]
401 && compare_priority (keymap [i], sorted_keymap [index - 1]) > 0)
402 {
403 sorted_keymap [index] = sorted_keymap [index - 1];
404 --index;
405 }
406
407 sorted_keymap [index] = keymap [i];
408 ++hash_budget_counter [hashkey];
409 }
410 }
411 }
412
413 keymap.swap (sorted_keymap);
414
415 #if defined (DEBUG_STRICT) || defined (DEBUG_KEYBOARD)
416 // check for invariants
417 for (i = 0; i < KEYSYM_HASH_BUDGETS; ++i)
418 {
419 index = hash[i];
420 for (int j = 0; j < hash_budget_size [i]; ++j)
421 {
422 if (keymap [index + j]->range == 1)
423 assert (i == (keymap [index + j]->keysym & KEYSYM_HASH_MASK));
424
425 if (j)
426 assert (compare_priority (keymap [index + j - 1],
427 keymap [index + j]) >= 0);
428 }
429 }
430
431 // this should be able to detect most possible bugs
432 for (i = 0; i < sorted_keymap.size (); ++i)
433 {
434 keysym_t *a = sorted_keymap[i];
435 for (int j = 0; j < a->range; ++j)
436 {
437 int index = find_keysym (a->keysym + j, a->state & OtherModMask);
438
439 assert (index >= 0);
440 keysym_t *b = keymap [index];
441 assert (i == (signed) index || // the normally expected result
442 (a->keysym + j) >= b->keysym && (a->keysym + j) <= (b->keysym + b->range) && compare_priority (a, b) <= 0); // is effectively the same
443 }
444 }
445 #endif
446 }
447
448 int
449 keyboard_manager::find_keysym (KeySym keysym, unsigned int state)
450 {
451 int hashkey = keysym & KEYSYM_HASH_MASK;
452 unsigned int index = hash [hashkey];
453
454 for (; index < keymap.size (); ++index)
455 {
456 keysym_t *key = keymap [index];
457 assert (key);
458
459 if (key->keysym <= keysym && key->keysym + key->range > keysym
460 // match only the specified bits in state and ignore others
461 && (key->state & OtherModMask) == (key->state & state))
462 return index;
463 else if (key->keysym > keysym && key->range == 1)
464 return -1;
465 }
466
467 return -1;
468 }
469
470 #endif /* KEYSYM_RESOURCE */
471 // vim:et:ts=2:sw=2