… | |
… | |
24 | #include "../config.h" |
24 | #include "../config.h" |
25 | #include "rxvt.h" |
25 | #include "rxvt.h" |
26 | |
26 | |
27 | #ifdef KEYSYM_RESOURCE |
27 | #ifdef KEYSYM_RESOURCE |
28 | |
28 | |
29 | #include <cstring> |
29 | #include <string.h> |
30 | |
30 | |
31 | #include "rxvtperl.h" |
31 | #include "rxvtperl.h" |
32 | #include "keyboard.h" |
32 | #include "keyboard.h" |
33 | #include "command.h" |
|
|
34 | |
33 | |
35 | /* an intro to the data structure: |
34 | /* an intro to the data structure: |
36 | * |
35 | * |
37 | * vector keymap[] is grouped. |
36 | * vector keymap[] is grouped. |
38 | * |
37 | * |
… | |
… | |
63 | * n(the number of groups) = the number of non-zero member of hash_bucket_size[]; |
62 | * n(the number of groups) = the number of non-zero member of hash_bucket_size[]; |
64 | * Ni(the size of group i) = hash_bucket_size[Ii]. |
63 | * Ni(the size of group i) = hash_bucket_size[Ii]. |
65 | */ |
64 | */ |
66 | |
65 | |
67 | static void |
66 | static void |
68 | output_string (rxvt_term *rt, const char *str) |
67 | output_string (rxvt_term *term, const char *str) |
69 | { |
68 | { |
70 | if (strncmp (str, "command:", 8) == 0) |
69 | if (strncmp (str, "command:", 8) == 0) |
71 | rt->cmd_write (str + 8, strlen (str) - 8); |
70 | term->cmdbuf_append (str + 8, strlen (str) - 8); |
72 | else if (strncmp (str, "perl:", 5) == 0) |
71 | else if (strncmp (str, "perl:", 5) == 0) |
73 | HOOK_INVOKE((rt, HOOK_USER_COMMAND, DT_STR, str + 5, DT_END)); |
72 | HOOK_INVOKE((term, HOOK_USER_COMMAND, DT_STR, str + 5, DT_END)); |
74 | else |
73 | else |
75 | rt->tt_write (str, strlen (str)); |
74 | term->tt_write (str, strlen (str)); |
76 | } |
75 | } |
77 | |
76 | |
78 | // return: priority_of_a - priority_of_b |
77 | // return: priority_of_a - priority_of_b |
79 | static int |
78 | static int |
80 | compare_priority (keysym_t *a, keysym_t *b) |
79 | compare_priority (keysym_t *a, keysym_t *b) |
81 | { |
80 | { |
82 | // (the more '1's in state; the less range): the greater priority |
81 | // (the more '1's in state; the less range): the greater priority |
83 | int ca = rxvt_popcount (a->state /* & OtherModMask */); |
82 | int ca = ecb_popcount32 (a->state /* & OtherModMask */); |
84 | int cb = rxvt_popcount (b->state /* & OtherModMask */); |
83 | int cb = ecb_popcount32 (b->state /* & OtherModMask */); |
85 | |
84 | |
86 | if (ca != cb) |
|
|
87 | return ca - cb; |
85 | return ca - cb; |
88 | //else if (a->state != b->state) // this behavior is to be discussed |
|
|
89 | // return b->state - a->state; |
|
|
90 | else |
|
|
91 | return b->range - a->range; |
|
|
92 | } |
86 | } |
93 | |
87 | |
94 | //////////////////////////////////////////////////////////////////////////////// |
88 | //////////////////////////////////////////////////////////////////////////////// |
95 | keyboard_manager::keyboard_manager () |
89 | keyboard_manager::keyboard_manager () |
96 | { |
90 | { |
… | |
… | |
98 | hash [0] = 1; // hash[0] != 0 indicates uninitialized data |
92 | hash [0] = 1; // hash[0] != 0 indicates uninitialized data |
99 | } |
93 | } |
100 | |
94 | |
101 | keyboard_manager::~keyboard_manager () |
95 | keyboard_manager::~keyboard_manager () |
102 | { |
96 | { |
103 | clear (); |
97 | for (unsigned int i = 0; i < keymap.size (); ++i) |
|
|
98 | { |
|
|
99 | free (keymap [i]->str); |
|
|
100 | delete keymap [i]; |
|
|
101 | } |
104 | } |
102 | } |
105 | |
103 | |
106 | void |
104 | void |
107 | keyboard_manager::clear () |
|
|
108 | { |
|
|
109 | hash [0] = 2; |
|
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110 | |
|
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111 | for (unsigned int i = 0; i < keymap.size (); ++i) |
|
|
112 | { |
|
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113 | free ((void *)keymap [i]->str); |
|
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114 | delete keymap [i]; |
|
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115 | keymap [i] = 0; |
|
|
116 | } |
|
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117 | |
|
|
118 | keymap.clear (); |
|
|
119 | } |
|
|
120 | |
|
|
121 | // a wrapper for register_keymap, |
|
|
122 | // so that outside codes don't have to know so much details. |
|
|
123 | // |
|
|
124 | // the string 'trans' is copied to an internal managed buffer, |
|
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125 | // so the caller can free memory of 'trans' at any time. |
|
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126 | void |
|
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127 | keyboard_manager::register_user_translation (KeySym keysym, unsigned int state, const char *trans) |
105 | keyboard_manager::register_user_translation (KeySym keysym, unsigned int state, const wchar_t *ws) |
128 | { |
106 | { |
|
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107 | char *translation = rxvt_wcstoutf8 (ws); |
|
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108 | |
129 | keysym_t *key = new keysym_t; |
109 | keysym_t *key = new keysym_t; |
130 | wchar_t *wc = rxvt_mbstowcs (trans); |
|
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131 | char *translation = rxvt_wcstoutf8 (wc); |
|
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132 | free (wc); |
|
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133 | |
110 | |
134 | if (key && translation) |
|
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135 | { |
|
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136 | key->keysym = keysym; |
111 | key->keysym = keysym; |
137 | key->state = state; |
112 | key->state = state; |
138 | key->range = 1; |
|
|
139 | key->str = translation; |
113 | key->str = translation; |
140 | key->type = keysym_t::STRING; |
114 | key->type = keysym_t::STRING; |
141 | |
115 | |
142 | if (strncmp (translation, "list", 4) == 0 && translation [4]) |
|
|
143 | { |
|
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144 | char *middle = strchr (translation + 5, translation [4]); |
|
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145 | char *suffix = strrchr (translation + 5, translation [4]); |
|
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146 | |
|
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147 | if (suffix && middle && suffix > middle + 1) |
|
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148 | { |
|
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149 | key->type = keysym_t::LIST; |
|
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150 | key->range = suffix - middle - 1; |
|
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151 | |
|
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152 | memmove (translation, translation + 4, strlen (translation + 4) + 1); |
|
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153 | } |
|
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154 | else |
|
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155 | rxvt_warn ("cannot parse list-type keysym '%s', treating as normal keysym.\n", translation); |
|
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156 | } |
|
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157 | else if (strncmp (translation, "builtin:", 8) == 0) |
116 | if (strncmp (translation, "builtin:", 8) == 0) |
158 | key->type = keysym_t::BUILTIN; |
117 | key->type = keysym_t::BUILTIN; |
159 | |
118 | |
160 | register_keymap (key); |
|
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161 | } |
|
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162 | else |
|
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163 | { |
|
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164 | delete key; |
|
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165 | free ((void *)translation); |
|
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166 | rxvt_fatal ("out of memory, aborting.\n"); |
|
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167 | } |
|
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168 | } |
|
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169 | |
|
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170 | void |
|
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171 | keyboard_manager::register_keymap (keysym_t *key) |
|
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172 | { |
|
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173 | if (keymap.size () == keymap.capacity ()) |
119 | if (keymap.size () == keymap.capacity ()) |
174 | keymap.reserve (keymap.size () * 2); |
120 | keymap.reserve (keymap.size () * 2); |
175 | |
121 | |
176 | keymap.push_back (key); |
122 | keymap.push_back (key); |
177 | hash[0] = 3; |
123 | hash[0] = 3; |
178 | } |
124 | } |
179 | |
125 | |
180 | void |
|
|
181 | keyboard_manager::register_done () |
|
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182 | { |
|
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183 | setup_hash (); |
|
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184 | } |
|
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185 | |
|
|
186 | bool |
126 | bool |
187 | keyboard_manager::dispatch (rxvt_term *term, KeySym keysym, unsigned int state) |
127 | keyboard_manager::dispatch (rxvt_term *term, KeySym keysym, unsigned int state, const char *kbuf, int len) |
188 | { |
128 | { |
189 | assert (hash[0] == 0 && "register_done() need to be called"); |
129 | assert (("register_done() need to be called", hash[0] == 0)); |
190 | |
130 | |
191 | state &= OtherModMask; // mask out uninteresting modifiers |
131 | state &= OtherModMask; // mask out uninteresting modifiers |
192 | |
132 | |
193 | if (state & term->ModMetaMask) state |= MetaMask; |
133 | if (state & term->ModMetaMask) state |= MetaMask; |
194 | if (state & term->ModNumLockMask) state |= NumLockMask; |
134 | if (state & term->ModNumLockMask) state |= NumLockMask; |
… | |
… | |
199 | |
139 | |
200 | int index = find_keysym (keysym, state); |
140 | int index = find_keysym (keysym, state); |
201 | |
141 | |
202 | if (index >= 0) |
142 | if (index >= 0) |
203 | { |
143 | { |
204 | const keysym_t &key = *keymap [index]; |
144 | keysym_t *key = keymap [index]; |
205 | |
145 | |
206 | if (key.type != keysym_t::BUILTIN) |
146 | if (key->type != keysym_t::BUILTIN) |
207 | { |
147 | { |
208 | int keysym_offset = keysym - key.keysym; |
|
|
209 | |
|
|
210 | wchar_t *wc = rxvt_utf8towcs (key.str); |
148 | wchar_t *ws = rxvt_utf8towcs (key->str); |
211 | char *str = rxvt_wcstombs (wc); |
149 | char *str = rxvt_wcstombs (ws); |
212 | // TODO: do (some) translations, unescaping etc, here (allow \u escape etc.) |
150 | // TODO: do (some) translations, unescaping etc, here (allow \u escape etc.) |
213 | free (wc); |
151 | free (ws); |
214 | |
152 | |
215 | switch (key.type) |
|
|
216 | { |
|
|
217 | case keysym_t::STRING: |
|
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218 | output_string (term, str); |
153 | output_string (term, str); |
219 | break; |
|
|
220 | |
|
|
221 | case keysym_t::LIST: |
|
|
222 | { |
|
|
223 | char buf[STRING_MAX]; |
|
|
224 | |
|
|
225 | char *prefix, *middle, *suffix; |
|
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226 | |
|
|
227 | prefix = str; |
|
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228 | middle = strchr (prefix + 1, *prefix); |
|
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229 | suffix = strrchr (middle + 1, *prefix); |
|
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230 | |
|
|
231 | memcpy (buf, prefix + 1, middle - prefix - 1); |
|
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232 | buf [middle - prefix - 1] = middle [keysym_offset + 1]; |
|
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233 | strcpy (buf + (middle - prefix), suffix + 1); |
|
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234 | |
|
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235 | output_string (term, buf); |
|
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236 | } |
|
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237 | break; |
|
|
238 | } |
|
|
239 | |
154 | |
240 | free (str); |
155 | free (str); |
241 | |
156 | |
242 | return true; |
157 | return true; |
243 | } |
158 | } |
… | |
… | |
245 | |
160 | |
246 | return false; |
161 | return false; |
247 | } |
162 | } |
248 | |
163 | |
249 | void |
164 | void |
250 | keyboard_manager::setup_hash () |
165 | keyboard_manager::register_done () |
251 | { |
166 | { |
252 | unsigned int i, index, hashkey; |
167 | unsigned int i, index, hashkey; |
253 | vector <keysym_t *> sorted_keymap; |
|
|
254 | uint16_t hash_bucket_size[KEYSYM_HASH_BUCKETS]; // size of each bucket |
168 | uint16_t hash_bucket_size[KEYSYM_HASH_BUCKETS]; // size of each bucket |
255 | |
169 | |
256 | memset (hash_bucket_size, 0, sizeof (hash_bucket_size)); |
170 | memset (hash_bucket_size, 0, sizeof (hash_bucket_size)); |
257 | |
171 | |
258 | // determine hash bucket size |
172 | // determine hash bucket size |
259 | for (i = 0; i < keymap.size (); ++i) |
173 | for (i = 0; i < keymap.size (); ++i) |
260 | for (int j = min (keymap [i]->range, KEYSYM_HASH_BUCKETS) - 1; j >= 0; --j) |
|
|
261 | { |
174 | { |
262 | hashkey = (keymap [i]->keysym + j) & KEYSYM_HASH_MASK; |
175 | hashkey = keymap [i]->keysym & KEYSYM_HASH_MASK; |
263 | ++hash_bucket_size [hashkey]; |
176 | ++hash_bucket_size [hashkey]; |
264 | } |
177 | } |
265 | |
178 | |
266 | // now we know the size of each bucket |
179 | // now we know the size of each bucket |
267 | // compute the index of each bucket |
180 | // compute the index of each bucket |
268 | hash [0] = 0; |
|
|
269 | for (index = 0, i = 1; i < KEYSYM_HASH_BUCKETS; ++i) |
181 | for (index = 0, i = 0; i < KEYSYM_HASH_BUCKETS; ++i) |
270 | { |
182 | { |
271 | index += hash_bucket_size [i - 1]; |
|
|
272 | hash [i] = index; |
183 | hash [i] = index; |
|
|
184 | index += hash_bucket_size [i]; |
273 | } |
185 | } |
274 | |
186 | |
275 | // and allocate just enough space |
187 | // and allocate just enough space |
276 | sorted_keymap.insert (sorted_keymap.begin (), index + hash_bucket_size [i - 1], 0); |
188 | simplevec <keysym_t *> sorted_keymap (index, 0); |
277 | |
189 | |
278 | memset (hash_bucket_size, 0, sizeof (hash_bucket_size)); |
190 | memset (hash_bucket_size, 0, sizeof (hash_bucket_size)); |
279 | |
191 | |
280 | // fill in sorted_keymap |
192 | // fill in sorted_keymap |
281 | // it is sorted in each bucket |
193 | // it is sorted in each bucket |
282 | for (i = 0; i < keymap.size (); ++i) |
194 | for (i = 0; i < keymap.size (); ++i) |
283 | for (int j = min (keymap [i]->range, KEYSYM_HASH_BUCKETS) - 1; j >= 0; --j) |
|
|
284 | { |
195 | { |
285 | hashkey = (keymap [i]->keysym + j) & KEYSYM_HASH_MASK; |
196 | hashkey = keymap [i]->keysym & KEYSYM_HASH_MASK; |
286 | |
197 | |
287 | index = hash [hashkey] + hash_bucket_size [hashkey]; |
198 | index = hash [hashkey] + hash_bucket_size [hashkey]; |
288 | |
199 | |
289 | while (index > hash [hashkey] |
200 | while (index > hash [hashkey] |
290 | && compare_priority (keymap [i], sorted_keymap [index - 1]) > 0) |
201 | && compare_priority (keymap [i], sorted_keymap [index - 1]) > 0) |
291 | { |
202 | { |
292 | sorted_keymap [index] = sorted_keymap [index - 1]; |
203 | sorted_keymap [index] = sorted_keymap [index - 1]; |
293 | --index; |
204 | --index; |
294 | } |
205 | } |
295 | |
206 | |
296 | sorted_keymap [index] = keymap [i]; |
207 | sorted_keymap [index] = keymap [i]; |
297 | ++hash_bucket_size [hashkey]; |
208 | ++hash_bucket_size [hashkey]; |
298 | } |
209 | } |
299 | |
210 | |
300 | keymap.swap (sorted_keymap); |
211 | keymap.swap (sorted_keymap); |
301 | |
212 | |
302 | #ifndef NDEBUG |
213 | #ifndef NDEBUG |
303 | // check for invariants |
214 | // check for invariants |
304 | for (i = 0; i < KEYSYM_HASH_BUCKETS; ++i) |
215 | for (i = 0; i < KEYSYM_HASH_BUCKETS; ++i) |
305 | { |
216 | { |
306 | index = hash[i]; |
217 | index = hash[i]; |
307 | for (int j = 0; j < hash_bucket_size [i]; ++j) |
218 | for (int j = 0; j < hash_bucket_size [i]; ++j) |
308 | { |
219 | { |
309 | if (keymap [index + j]->range == 1) |
|
|
310 | assert (i == (keymap [index + j]->keysym & KEYSYM_HASH_MASK)); |
220 | assert (i == (keymap [index + j]->keysym & KEYSYM_HASH_MASK)); |
311 | |
221 | |
312 | if (j) |
222 | if (j) |
313 | assert (compare_priority (keymap [index + j - 1], |
223 | assert (compare_priority (keymap [index + j - 1], |
314 | keymap [index + j]) >= 0); |
224 | keymap [index + j]) >= 0); |
315 | } |
225 | } |
… | |
… | |
317 | |
227 | |
318 | // this should be able to detect most possible bugs |
228 | // this should be able to detect most possible bugs |
319 | for (i = 0; i < sorted_keymap.size (); ++i) |
229 | for (i = 0; i < sorted_keymap.size (); ++i) |
320 | { |
230 | { |
321 | keysym_t *a = sorted_keymap[i]; |
231 | keysym_t *a = sorted_keymap[i]; |
322 | for (int j = 0; j < a->range; ++j) |
|
|
323 | { |
|
|
324 | int index = find_keysym (a->keysym + j, a->state); |
232 | int index = find_keysym (a->keysym, a->state); |
325 | |
233 | |
326 | assert (index >= 0); |
234 | assert (index >= 0); |
327 | keysym_t *b = keymap [index]; |
235 | keysym_t *b = keymap [index]; |
328 | assert (i == index // the normally expected result |
236 | assert (i == index // the normally expected result |
329 | || IN_RANGE_INC (a->keysym + j, b->keysym, b->keysym + b->range) |
237 | || a->keysym == b->keysym |
330 | && compare_priority (a, b) <= 0); // is effectively the same or a closer match |
238 | && compare_priority (a, b) <= 0); // is effectively the same or a closer match |
331 | } |
|
|
332 | } |
239 | } |
333 | #endif |
240 | #endif |
334 | } |
241 | } |
335 | |
242 | |
336 | int |
243 | int |
… | |
… | |
344 | |
251 | |
345 | for (; index < end; ++index) |
252 | for (; index < end; ++index) |
346 | { |
253 | { |
347 | keysym_t *key = keymap [index]; |
254 | keysym_t *key = keymap [index]; |
348 | |
255 | |
349 | if (key->keysym <= keysym && keysym < key->keysym + key->range |
256 | if (key->keysym == keysym |
350 | // match only the specified bits in state and ignore others |
257 | // match only the specified bits in state and ignore others |
351 | && (key->state & state) == key->state) |
258 | && (key->state & state) == key->state) |
352 | return index; |
259 | return index; |
353 | } |
260 | } |
354 | |
261 | |