Mercurial > hg > xemacs-beta
annotate src/keymap.c @ 5130:4f4672e2aa34 ben-lisp-object
merge
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Sun, 07 Mar 2010 06:20:19 -0600 |
| parents | 7be849cb8828 |
| children | f965e31a35f0 |
| rev | line source |
|---|---|
| 428 | 1 /* Manipulation of keymaps |
| 2 Copyright (C) 1985, 1991-1995 Free Software Foundation, Inc. | |
| 3 Copyright (C) 1995 Board of Trustees, University of Illinois. | |
| 4 Copyright (C) 1995 Sun Microsystems, Inc. | |
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5 Copyright (C) 2001, 2002, 2010 Ben Wing. |
| 428 | 6 Totally redesigned by jwz in 1991. |
| 7 | |
| 8 This file is part of XEmacs. | |
| 9 | |
| 10 XEmacs is free software; you can redistribute it and/or modify it | |
| 11 under the terms of the GNU General Public License as published by the | |
| 12 Free Software Foundation; either version 2, or (at your option) any | |
| 13 later version. | |
| 14 | |
| 15 XEmacs is distributed in the hope that it will be useful, but WITHOUT | |
| 16 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
| 17 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
| 18 for more details. | |
| 19 | |
| 20 You should have received a copy of the GNU General Public License | |
| 21 along with XEmacs; see the file COPYING. If not, write to | |
| 22 the Free Software Foundation, Inc., 59 Temple Place - Suite 330, | |
| 23 Boston, MA 02111-1307, USA. */ | |
| 24 | |
| 25 /* Synched up with: Mule 2.0. Not synched with FSF. Substantially | |
| 26 different from FSF. */ | |
| 27 | |
| 28 | |
| 29 #include <config.h> | |
| 30 #include "lisp.h" | |
| 31 | |
| 32 #include "buffer.h" | |
| 33 #include "bytecode.h" | |
| 872 | 34 #include "console-impl.h" |
| 428 | 35 #include "elhash.h" |
| 36 #include "events.h" | |
| 872 | 37 #include "extents.h" |
| 428 | 38 #include "frame.h" |
| 39 #include "insdel.h" | |
| 40 #include "keymap.h" | |
| 41 #include "window.h" | |
| 42 | |
| 43 | |
| 44 /* A keymap contains six slots: | |
| 45 | |
| 46 parents Ordered list of keymaps to search after | |
| 47 this one if no match is found. | |
| 48 Keymaps can thus be arranged in a hierarchy. | |
| 49 | |
| 50 table A hash table, hashing keysyms to their bindings. | |
| 51 It will be one of the following: | |
| 52 | |
| 3025 | 53 -- a symbol, e.g. `home' |
| 428 | 54 -- a character, representing something printable |
| 55 (not ?\C-c meaning C-c, for instance) | |
| 56 -- an integer representing a modifier combination | |
| 57 | |
| 58 inverse_table A hash table, hashing bindings to the list of keysyms | |
| 59 in this keymap which are bound to them. This is to make | |
| 60 the Fwhere_is_internal() function be fast. It needs to be | |
| 61 fast because we want to be able to call it in realtime to | |
| 62 update the keyboard-equivalents on the pulldown menus. | |
| 63 Values of the table are either atoms (keysyms) | |
| 64 or a dotted list of keysyms. | |
| 65 | |
| 66 sub_maps_cache An alist; for each entry in this keymap whose binding is | |
| 67 a keymap (that is, Fkeymapp()) this alist associates that | |
| 68 keysym with that binding. This is used to optimize both | |
| 69 Fwhere_is_internal() and Faccessible_keymaps(). This slot | |
| 70 gets set to the symbol `t' every time a change is made to | |
| 71 this keymap, causing it to be recomputed when next needed. | |
| 72 | |
| 73 prompt See `set-keymap-prompt'. | |
| 74 | |
| 75 default_binding See `set-keymap-default-binding'. | |
| 76 | |
| 77 Sequences of keys are stored in the obvious way: if the sequence of keys | |
| 78 "abc" was bound to some command `foo', the hierarchy would look like | |
| 79 | |
| 80 keymap-1: associates "a" with keymap-2 | |
| 81 keymap-2: associates "b" with keymap-3 | |
| 82 keymap-3: associates "c" with foo | |
| 83 | |
| 84 However, bucky bits ("modifiers" to the X-minded) are represented in the | |
| 85 keymap hierarchy as well. (This lets us use EQable objects as hash keys.) | |
| 86 Each combination of modifiers (e.g. control-hyper) gets its own submap | |
| 87 off of the main map. The hash key for a modifier combination is | |
| 88 an integer, computed by MAKE_MODIFIER_HASH_KEY(). | |
| 89 | |
| 90 If the key `C-a' was bound to some command, the hierarchy would look like | |
| 91 | |
| 442 | 92 keymap-1: associates the integer XEMACS_MOD_CONTROL with keymap-2 |
| 428 | 93 keymap-2: associates "a" with the command |
| 94 | |
| 95 Similarly, if the key `C-H-a' was bound to some command, the hierarchy | |
| 96 would look like | |
| 97 | |
| 442 | 98 keymap-1: associates the integer (XEMACS_MOD_CONTROL | XEMACS_MOD_HYPER) |
| 428 | 99 with keymap-2 |
| 100 keymap-2: associates "a" with the command | |
| 101 | |
| 102 Note that a special exception is made for the meta modifier, in order | |
| 103 to deal with ESC/meta lossage. Any key combination containing the | |
| 104 meta modifier is first indexed off of the main map into the meta | |
| 442 | 105 submap (with hash key XEMACS_MOD_META) and then indexed off of the |
| 428 | 106 meta submap with the meta modifier removed from the key combination. |
| 107 For example, when associating a command with C-M-H-a, we'd have | |
| 108 | |
| 442 | 109 keymap-1: associates the integer XEMACS_MOD_META with keymap-2 |
| 110 keymap-2: associates the integer (XEMACS_MOD_CONTROL | XEMACS_MOD_HYPER) | |
| 428 | 111 with keymap-3 |
| 112 keymap-3: associates "a" with the command | |
| 113 | |
| 114 Note that keymap-2 might have normal bindings in it; these would be | |
| 115 for key combinations containing only the meta modifier, such as | |
| 116 M-y or meta-backspace. | |
| 117 | |
| 118 If the command that "a" was bound to in keymap-3 was itself a keymap, | |
| 119 then that would make the key "C-M-H-a" be a prefix character. | |
| 120 | |
| 121 Note that this new model of keymaps takes much of the magic away from | |
| 122 the Escape key: the value of the variable `esc-map' is no longer indexed | |
| 123 in the `global-map' under the ESC key. It's indexed under the integer | |
| 442 | 124 XEMACS_MOD_META. This is not user-visible, however; none of the "bucky" |
| 428 | 125 maps are. |
| 126 | |
| 127 There is a hack in Flookup_key() that makes (lookup-key global-map "\^[") | |
| 128 and (define-key some-random-map "\^[" my-esc-map) work as before, for | |
| 129 compatibility. | |
| 130 | |
| 131 Since keymaps are opaque, the only way to extract information from them | |
| 132 is with the functions lookup-key, key-binding, local-key-binding, and | |
| 133 global-key-binding, which work just as before, and the new function | |
| 440 | 134 map-keymap, which is roughly analogous to maphash. |
| 428 | 135 |
| 136 Note that map-keymap perpetuates the illusion that the "bucky" submaps | |
| 137 don't exist: if you map over a keymap with bucky submaps, it will also | |
| 138 map over those submaps. It does not, however, map over other random | |
| 139 submaps of the keymap, just the bucky ones. | |
| 140 | |
| 141 One implication of this is that when you map over `global-map', you will | |
| 142 also map over `esc-map'. It is merely for compatibility that the esc-map | |
| 143 is accessible at all; I think that's a bad thing, since it blurs the | |
| 144 distinction between ESC and "meta" even more. "M-x" is no more a two- | |
| 145 key sequence than "C-x" is. | |
| 146 | |
| 147 */ | |
| 148 | |
| 440 | 149 struct Lisp_Keymap |
| 428 | 150 { |
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151 NORMAL_LISP_OBJECT_HEADER header; |
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152 #define MARKED_SLOT(x) Lisp_Object x; |
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153 #include "keymap-slots.h" |
| 440 | 154 }; |
| 428 | 155 |
| 156 #define MAKE_MODIFIER_HASH_KEY(modifier) make_int (modifier) | |
| 157 #define MODIFIER_HASH_KEY_BITS(x) (INTP (x) ? XINT (x) : 0) | |
| 158 | |
| 159 | |
| 160 | |
| 161 /* Actually allocate storage for these variables */ | |
| 162 | |
| 440 | 163 Lisp_Object Vcurrent_global_map; /* Always a keymap */ |
| 428 | 164 |
| 771 | 165 static Lisp_Object Vglobal_tty_map, Vglobal_window_system_map; |
| 166 | |
| 428 | 167 static Lisp_Object Vmouse_grabbed_buffer; |
| 168 | |
| 169 /* Alist of minor mode variables and keymaps. */ | |
| 170 static Lisp_Object Qminor_mode_map_alist; | |
| 171 | |
| 172 static Lisp_Object Voverriding_local_map; | |
| 173 | |
| 174 static Lisp_Object Vkey_translation_map; | |
| 175 | |
| 176 static Lisp_Object Vvertical_divider_map; | |
| 177 | |
| 178 /* This is incremented whenever a change is made to a keymap. This is | |
| 179 so that things which care (such as the menubar code) can recompute | |
| 180 privately-cached data when the user has changed keybindings. | |
| 181 */ | |
| 458 | 182 Fixnum keymap_tick; |
| 428 | 183 |
| 184 /* Prefixing a key with this character is the same as sending a meta bit. */ | |
| 185 Lisp_Object Vmeta_prefix_char; | |
| 186 | |
| 187 Lisp_Object Qkeymapp; | |
| 188 Lisp_Object Vsingle_space_string; | |
| 189 Lisp_Object Qsuppress_keymap; | |
| 190 Lisp_Object Qmodeline_map; | |
| 191 Lisp_Object Qtoolbar_map; | |
| 192 | |
| 193 EXFUN (Fkeymap_fullness, 1); | |
| 194 EXFUN (Fset_keymap_name, 2); | |
| 195 EXFUN (Fsingle_key_description, 1); | |
| 196 | |
| 197 static void describe_command (Lisp_Object definition, Lisp_Object buffer); | |
| 198 static void describe_map (Lisp_Object keymap, Lisp_Object elt_prefix, | |
| 199 void (*elt_describer) (Lisp_Object, Lisp_Object), | |
| 200 int partial, | |
| 201 Lisp_Object shadow, | |
| 202 int mice_only_p, | |
| 203 Lisp_Object buffer); | |
| 440 | 204 static Lisp_Object keymap_submaps (Lisp_Object keymap); |
| 428 | 205 |
| 206 Lisp_Object Qcontrol, Qctrl, Qmeta, Qsuper, Qhyper, Qalt, Qshift; | |
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207 |
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208 #define INCLUDE_BUTTON_ZERO |
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209 #define FROB(num) \ |
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210 Lisp_Object Qbutton##num; \ |
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211 Lisp_Object Qbutton##num##up; |
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212 #include "keymap-buttons.h" |
| 428 | 213 |
| 214 Lisp_Object Qmenu_selection; | |
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215 |
| 428 | 216 /* Emacs compatibility */ |
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217 #define FROB(num) \ |
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218 Lisp_Object Qmouse_##num; \ |
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219 Lisp_Object Qdown_mouse_##num; |
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220 #include "keymap-buttons.h" |
| 428 | 221 |
| 222 /* Kludge kludge kludge */ | |
| 223 Lisp_Object QLFD, QTAB, QRET, QESC, QDEL, QSPC, QBS; | |
| 224 | |
| 225 | |
| 226 /************************************************************************/ | |
| 227 /* The keymap Lisp object */ | |
| 228 /************************************************************************/ | |
| 229 | |
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230 /* Keymaps are equal if Faces are equal if all of their display attributes are equal. We |
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231 don't compare names or doc-strings, because that would make equal |
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232 be eq. |
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233 |
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234 This isn't concerned with "unspecified" attributes, that's what |
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235 #'face-differs-from-default-p is for. */ |
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236 static int |
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237 keymap_equal (Lisp_Object obj1, Lisp_Object obj2, int depth, |
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238 int UNUSED (foldcase)) |
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239 { |
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240 Lisp_Keymap *k1 = XKEYMAP (obj1); |
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241 Lisp_Keymap *k2 = XKEYMAP (obj2); |
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242 |
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243 depth++; |
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244 |
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245 return |
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246 ( |
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247 #define MARKED_SLOT(x) \ |
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248 internal_equal (k1->x, k2->x, depth) && |
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249 #define MARKED_SLOT_NOCOMPARE(x) |
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250 #include "keymap-slots.h" |
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251 1 |
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252 ); |
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253 } |
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254 |
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255 static Hashcode |
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256 keymap_hash (Lisp_Object obj, int depth) |
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257 { |
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258 Lisp_Keymap *k = XKEYMAP (obj); |
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259 Hashcode hash = 0xCAFEBABE; /* why not? */ |
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260 |
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261 depth++; |
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262 |
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263 #define MARKED_SLOT(x) \ |
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264 hash = HASH2 (hash, internal_hash (k->x, depth)); |
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265 #define MARKED_SLOT_NOCOMPARE(x) |
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266 #include "keymap-slots.h" |
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267 |
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268 return hash; |
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269 } |
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270 |
| 428 | 271 static Lisp_Object |
| 272 mark_keymap (Lisp_Object obj) | |
| 273 { | |
| 274 Lisp_Keymap *keymap = XKEYMAP (obj); | |
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275 #define MARKED_SLOT(x) mark_object (keymap->x); |
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276 #include "keymap-slots.h" |
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277 return Qnil; |
| 428 | 278 } |
| 279 | |
| 280 static void | |
| 2286 | 281 print_keymap (Lisp_Object obj, Lisp_Object printcharfun, |
| 282 int UNUSED (escapeflag)) | |
| 428 | 283 { |
| 284 /* This function can GC */ | |
| 285 Lisp_Keymap *keymap = XKEYMAP (obj); | |
| 286 if (print_readably) | |
| 4846 | 287 printing_unreadable_lcrecord (obj, 0); |
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288 write_ascstring (printcharfun, "#<keymap "); |
| 428 | 289 if (!NILP (keymap->name)) |
| 440 | 290 { |
| 800 | 291 write_fmt_string_lisp (printcharfun, "%S ", 1, keymap->name); |
| 440 | 292 } |
| 800 | 293 write_fmt_string (printcharfun, "size %ld 0x%x>", |
| 294 (long) XINT (Fkeymap_fullness (obj)), keymap->header.uid); | |
| 428 | 295 } |
| 296 | |
| 1204 | 297 static const struct memory_description keymap_description[] = { |
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298 #define MARKED_SLOT(x) { XD_LISP_OBJECT, offsetof (Lisp_Keymap, x) }, |
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299 #include "keymap-slots.h" |
| 428 | 300 { XD_END } |
| 301 }; | |
| 302 | |
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303 DEFINE_DUMPABLE_LISP_OBJECT ("keymap", keymap, |
| 5125 | 304 mark_keymap, print_keymap, 0, |
| 305 keymap_equal, keymap_hash, | |
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306 keymap_description, |
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307 Lisp_Keymap); |
| 428 | 308 |
| 309 /************************************************************************/ | |
| 310 /* Traversing keymaps and their parents */ | |
| 311 /************************************************************************/ | |
| 312 | |
| 313 static Lisp_Object | |
| 314 traverse_keymaps (Lisp_Object start_keymap, Lisp_Object start_parents, | |
| 315 Lisp_Object (*mapper) (Lisp_Object keymap, void *mapper_arg), | |
| 316 void *mapper_arg) | |
| 317 { | |
| 318 /* This function can GC */ | |
| 319 Lisp_Object keymap; | |
| 320 Lisp_Object tail = start_parents; | |
| 321 Lisp_Object malloc_sucks[10]; | |
| 322 Lisp_Object malloc_bites = Qnil; | |
| 323 int stack_depth = 0; | |
| 324 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4; | |
| 325 GCPRO4 (*malloc_sucks, malloc_bites, start_keymap, tail); | |
| 326 gcpro1.nvars = 0; | |
| 327 | |
| 328 start_keymap = get_keymap (start_keymap, 1, 1); | |
| 329 keymap = start_keymap; | |
| 330 /* Hack special-case parents at top-level */ | |
| 440 | 331 tail = !NILP (tail) ? tail : XKEYMAP (keymap)->parents; |
| 428 | 332 |
| 333 for (;;) | |
| 334 { | |
| 335 Lisp_Object result; | |
| 336 | |
| 337 QUIT; | |
| 440 | 338 result = mapper (keymap, mapper_arg); |
| 428 | 339 if (!NILP (result)) |
| 340 { | |
| 341 while (CONSP (malloc_bites)) | |
| 342 { | |
| 853 | 343 Lisp_Object victim = malloc_bites; |
| 344 malloc_bites = XCDR (victim); | |
| 428 | 345 free_cons (victim); |
| 346 } | |
| 347 UNGCPRO; | |
| 348 return result; | |
| 349 } | |
| 350 if (NILP (tail)) | |
| 351 { | |
| 352 if (stack_depth == 0) | |
| 353 { | |
| 354 UNGCPRO; | |
| 355 return Qnil; /* Nothing found */ | |
| 356 } | |
| 357 stack_depth--; | |
| 358 if (CONSP (malloc_bites)) | |
| 359 { | |
| 853 | 360 Lisp_Object victim = malloc_bites; |
| 361 tail = XCAR (victim); | |
| 362 malloc_bites = XCDR (victim); | |
| 428 | 363 free_cons (victim); |
| 364 } | |
| 365 else | |
| 366 { | |
| 367 tail = malloc_sucks[stack_depth]; | |
| 368 gcpro1.nvars = stack_depth; | |
| 369 } | |
| 370 keymap = XCAR (tail); | |
| 371 tail = XCDR (tail); | |
| 372 } | |
| 373 else | |
| 374 { | |
| 375 Lisp_Object parents; | |
| 376 | |
| 377 keymap = XCAR (tail); | |
| 378 tail = XCDR (tail); | |
| 379 parents = XKEYMAP (keymap)->parents; | |
| 380 if (!CONSP (parents)) | |
| 381 ; | |
| 382 else if (NILP (tail)) | |
| 383 /* Tail-recurse */ | |
| 384 tail = parents; | |
| 385 else | |
| 386 { | |
| 387 if (CONSP (malloc_bites)) | |
| 388 malloc_bites = noseeum_cons (tail, malloc_bites); | |
| 389 else if (stack_depth < countof (malloc_sucks)) | |
| 390 { | |
| 391 malloc_sucks[stack_depth++] = tail; | |
| 392 gcpro1.nvars = stack_depth; | |
| 393 } | |
| 394 else | |
| 395 { | |
| 396 /* *&@##[*&^$ C. @#[$*&@# Unix. Losers all. */ | |
| 397 int i; | |
| 398 for (i = 0, malloc_bites = Qnil; | |
| 399 i < countof (malloc_sucks); | |
| 400 i++) | |
| 401 malloc_bites = noseeum_cons (malloc_sucks[i], | |
| 402 malloc_bites); | |
| 403 gcpro1.nvars = 0; | |
| 404 } | |
| 405 tail = parents; | |
| 406 } | |
| 407 } | |
| 408 keymap = get_keymap (keymap, 1, 1); | |
| 409 if (EQ (keymap, start_keymap)) | |
| 410 { | |
| 563 | 411 invalid_argument ("Cyclic keymap indirection", start_keymap); |
| 428 | 412 } |
| 413 } | |
| 414 } | |
| 415 | |
| 416 | |
| 417 /************************************************************************/ | |
| 418 /* Some low-level functions */ | |
| 419 /************************************************************************/ | |
| 420 | |
| 442 | 421 static int |
| 428 | 422 bucky_sym_to_bucky_bit (Lisp_Object sym) |
| 423 { | |
| 442 | 424 if (EQ (sym, Qcontrol)) return XEMACS_MOD_CONTROL; |
| 425 if (EQ (sym, Qmeta)) return XEMACS_MOD_META; | |
| 426 if (EQ (sym, Qsuper)) return XEMACS_MOD_SUPER; | |
| 427 if (EQ (sym, Qhyper)) return XEMACS_MOD_HYPER; | |
| 428 if (EQ (sym, Qalt)) return XEMACS_MOD_ALT; | |
| 429 if (EQ (sym, Qsymbol)) return XEMACS_MOD_ALT; /* #### - reverse compat */ | |
| 430 if (EQ (sym, Qshift)) return XEMACS_MOD_SHIFT; | |
| 428 | 431 |
| 432 return 0; | |
| 433 } | |
| 434 | |
| 435 static Lisp_Object | |
| 442 | 436 control_meta_superify (Lisp_Object frob, int modifiers) |
| 428 | 437 { |
| 438 if (modifiers == 0) | |
| 439 return frob; | |
| 440 frob = Fcons (frob, Qnil); | |
| 442 | 441 if (modifiers & XEMACS_MOD_SHIFT) frob = Fcons (Qshift, frob); |
| 442 if (modifiers & XEMACS_MOD_ALT) frob = Fcons (Qalt, frob); | |
| 443 if (modifiers & XEMACS_MOD_HYPER) frob = Fcons (Qhyper, frob); | |
| 444 if (modifiers & XEMACS_MOD_SUPER) frob = Fcons (Qsuper, frob); | |
| 445 if (modifiers & XEMACS_MOD_CONTROL) frob = Fcons (Qcontrol, frob); | |
| 446 if (modifiers & XEMACS_MOD_META) frob = Fcons (Qmeta, frob); | |
| 428 | 447 return frob; |
| 448 } | |
| 449 | |
| 450 static Lisp_Object | |
| 934 | 451 make_key_description (const Lisp_Key_Data *key, int prettify) |
| 452 { | |
| 1204 | 453 Lisp_Object keysym = KEY_DATA_KEYSYM (key); |
| 934 | 454 int modifiers = KEY_DATA_MODIFIERS (key); |
| 428 | 455 if (prettify && CHARP (keysym)) |
| 456 { | |
| 457 /* This is a little slow, but (control a) is prettier than (control 65). | |
| 458 It's now ok to do this for digit-chars too, since we've fixed the | |
| 459 bug where \9 read as the integer 9 instead of as the symbol with | |
| 460 "9" as its name. | |
| 461 */ | |
| 462 /* !!#### I'm not sure how correct this is. */ | |
| 867 | 463 Ibyte str [1 + MAX_ICHAR_LEN]; |
| 464 Bytecount count = set_itext_ichar (str, XCHAR (keysym)); | |
| 428 | 465 str[count] = 0; |
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466 keysym = intern_istring (str); |
| 428 | 467 } |
| 468 return control_meta_superify (keysym, modifiers); | |
| 469 } | |
| 470 | |
| 471 | |
| 472 /************************************************************************/ | |
| 473 /* Low-level keymap-store functions */ | |
| 474 /************************************************************************/ | |
| 475 | |
| 476 static Lisp_Object | |
| 477 raw_lookup_key (Lisp_Object keymap, | |
| 934 | 478 const Lisp_Key_Data *raw_keys, int raw_keys_count, |
| 428 | 479 int keys_so_far, int accept_default); |
| 480 | |
| 481 /* Relies on caller to gc-protect args */ | |
| 482 static Lisp_Object | |
| 483 keymap_lookup_directly (Lisp_Object keymap, | |
| 442 | 484 Lisp_Object keysym, int modifiers) |
| 428 | 485 { |
| 486 Lisp_Keymap *k; | |
| 487 | |
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488 modifiers &= ~( |
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489 #define FROB(num) XEMACS_MOD_BUTTON##num | |
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490 #include "keymap-buttons.h" |
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491 0); |
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492 assert ((modifiers & ~(XEMACS_MOD_CONTROL | XEMACS_MOD_META | |
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493 XEMACS_MOD_SUPER | XEMACS_MOD_HYPER | |
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494 XEMACS_MOD_ALT | XEMACS_MOD_SHIFT)) |
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495 == 0); |
| 428 | 496 |
| 497 k = XKEYMAP (keymap); | |
| 498 | |
| 499 /* If the keysym is a one-character symbol, use the char code instead. */ | |
| 826 | 500 if (SYMBOLP (keysym) && string_char_length (XSYMBOL (keysym)->name) == 1) |
| 428 | 501 { |
| 502 Lisp_Object i_fart_on_gcc = | |
| 867 | 503 make_char (string_ichar (XSYMBOL (keysym)->name, 0)); |
| 428 | 504 keysym = i_fart_on_gcc; |
| 505 } | |
| 506 | |
| 442 | 507 if (modifiers & XEMACS_MOD_META) /* Utterly hateful ESC lossage */ |
| 428 | 508 { |
| 442 | 509 Lisp_Object submap = Fgethash (MAKE_MODIFIER_HASH_KEY (XEMACS_MOD_META), |
| 428 | 510 k->table, Qnil); |
| 511 if (NILP (submap)) | |
| 512 return Qnil; | |
| 513 k = XKEYMAP (submap); | |
| 442 | 514 modifiers &= ~XEMACS_MOD_META; |
| 428 | 515 } |
| 516 | |
| 517 if (modifiers != 0) | |
| 518 { | |
| 519 Lisp_Object submap = Fgethash (MAKE_MODIFIER_HASH_KEY (modifiers), | |
| 520 k->table, Qnil); | |
| 521 if (NILP (submap)) | |
| 522 return Qnil; | |
| 523 k = XKEYMAP (submap); | |
| 524 } | |
| 525 return Fgethash (keysym, k->table, Qnil); | |
| 526 } | |
| 527 | |
| 528 static void | |
| 529 keymap_store_inverse_internal (Lisp_Object inverse_table, | |
| 530 Lisp_Object keysym, | |
| 531 Lisp_Object value) | |
| 532 { | |
| 533 Lisp_Object keys = Fgethash (value, inverse_table, Qunbound); | |
| 534 | |
| 535 if (UNBOUNDP (keys)) | |
| 536 { | |
| 537 keys = keysym; | |
| 538 /* Don't cons this unless necessary */ | |
| 539 /* keys = Fcons (keysym, Qnil); */ | |
| 540 Fputhash (value, keys, inverse_table); | |
| 541 } | |
| 542 else if (!CONSP (keys)) | |
| 543 { | |
| 544 /* Now it's necessary to cons */ | |
| 545 keys = Fcons (keys, keysym); | |
| 546 Fputhash (value, keys, inverse_table); | |
| 547 } | |
| 548 else | |
| 549 { | |
| 550 while (CONSP (XCDR (keys))) | |
| 551 keys = XCDR (keys); | |
| 552 XCDR (keys) = Fcons (XCDR (keys), keysym); | |
| 553 /* No need to call puthash because we've destructively | |
| 554 modified the list tail in place */ | |
| 555 } | |
| 556 } | |
| 557 | |
| 558 | |
| 559 static void | |
| 560 keymap_delete_inverse_internal (Lisp_Object inverse_table, | |
| 561 Lisp_Object keysym, | |
| 562 Lisp_Object value) | |
| 563 { | |
| 564 Lisp_Object keys = Fgethash (value, inverse_table, Qunbound); | |
| 565 Lisp_Object new_keys = keys; | |
| 566 Lisp_Object tail; | |
| 567 Lisp_Object *prev; | |
| 568 | |
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569 assert (!UNBOUNDP (keys)); |
| 428 | 570 |
| 571 for (prev = &new_keys, tail = new_keys; | |
| 572 ; | |
| 573 prev = &(XCDR (tail)), tail = XCDR (tail)) | |
| 574 { | |
| 575 if (EQ (tail, keysym)) | |
| 576 { | |
| 577 *prev = Qnil; | |
| 578 break; | |
| 579 } | |
| 580 else if (EQ (keysym, XCAR (tail))) | |
| 581 { | |
| 582 *prev = XCDR (tail); | |
| 583 break; | |
| 584 } | |
| 585 } | |
| 586 | |
| 587 if (NILP (new_keys)) | |
| 588 Fremhash (value, inverse_table); | |
| 589 else if (!EQ (keys, new_keys)) | |
| 590 /* Removed the first elt */ | |
| 591 Fputhash (value, new_keys, inverse_table); | |
| 592 /* else the list's tail has been modified, so we don't need to | |
| 593 touch the hash table again (the pointer in there is ok). | |
| 594 */ | |
| 595 } | |
| 596 | |
| 440 | 597 /* Prevent luser from shooting herself in the foot using something like |
| 598 (define-key ctl-x-4-map "p" global-map) */ | |
| 599 static void | |
| 600 check_keymap_definition_loop (Lisp_Object def, Lisp_Keymap *to_keymap) | |
| 601 { | |
| 602 def = get_keymap (def, 0, 0); | |
| 603 | |
| 604 if (KEYMAPP (def)) | |
| 605 { | |
| 606 Lisp_Object maps; | |
| 607 | |
| 608 if (XKEYMAP (def) == to_keymap) | |
| 563 | 609 invalid_argument ("Cyclic keymap definition", def); |
| 440 | 610 |
| 611 for (maps = keymap_submaps (def); | |
| 612 CONSP (maps); | |
| 613 maps = XCDR (maps)) | |
| 614 check_keymap_definition_loop (XCDR (XCAR (maps)), to_keymap); | |
| 615 } | |
| 616 } | |
| 428 | 617 |
| 618 static void | |
| 619 keymap_store_internal (Lisp_Object keysym, Lisp_Keymap *keymap, | |
| 440 | 620 Lisp_Object def) |
| 428 | 621 { |
| 440 | 622 Lisp_Object prev_def = Fgethash (keysym, keymap->table, Qnil); |
| 623 | |
| 624 if (EQ (prev_def, def)) | |
| 428 | 625 return; |
| 440 | 626 |
| 627 check_keymap_definition_loop (def, keymap); | |
| 628 | |
| 629 if (!NILP (prev_def)) | |
| 428 | 630 keymap_delete_inverse_internal (keymap->inverse_table, |
| 440 | 631 keysym, prev_def); |
| 632 if (NILP (def)) | |
| 428 | 633 { |
| 634 Fremhash (keysym, keymap->table); | |
| 635 } | |
| 636 else | |
| 637 { | |
| 440 | 638 Fputhash (keysym, def, keymap->table); |
| 428 | 639 keymap_store_inverse_internal (keymap->inverse_table, |
| 440 | 640 keysym, def); |
| 428 | 641 } |
| 642 keymap_tick++; | |
| 643 } | |
| 644 | |
| 645 | |
| 646 static Lisp_Object | |
| 442 | 647 create_bucky_submap (Lisp_Keymap *k, int modifiers, |
| 428 | 648 Lisp_Object parent_for_debugging_info) |
| 649 { | |
| 650 Lisp_Object submap = Fmake_sparse_keymap (Qnil); | |
| 651 /* User won't see this, but it is nice for debugging Emacs */ | |
| 652 XKEYMAP (submap)->name | |
| 653 = control_meta_superify (parent_for_debugging_info, modifiers); | |
| 654 /* Invalidate cache */ | |
| 655 k->sub_maps_cache = Qt; | |
| 656 keymap_store_internal (MAKE_MODIFIER_HASH_KEY (modifiers), k, submap); | |
| 657 return submap; | |
| 658 } | |
| 659 | |
| 660 | |
| 661 /* Relies on caller to gc-protect keymap, keysym, value */ | |
| 662 static void | |
| 934 | 663 keymap_store (Lisp_Object keymap, const Lisp_Key_Data *key, |
| 428 | 664 Lisp_Object value) |
| 665 { | |
| 934 | 666 Lisp_Object keysym = KEY_DATA_KEYSYM (key); |
| 667 int modifiers = KEY_DATA_MODIFIERS (key); | |
| 440 | 668 Lisp_Keymap *k = XKEYMAP (keymap); |
| 669 | |
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670 modifiers &= ~( |
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671 #define FROB(num) XEMACS_MOD_BUTTON##num | |
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672 #include "keymap-buttons.h" |
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673 0); |
| 442 | 674 assert ((modifiers & ~(XEMACS_MOD_CONTROL | XEMACS_MOD_META |
| 675 | XEMACS_MOD_SUPER | XEMACS_MOD_HYPER | |
| 676 | XEMACS_MOD_ALT | XEMACS_MOD_SHIFT)) == 0); | |
| 428 | 677 |
| 678 /* If the keysym is a one-character symbol, use the char code instead. */ | |
| 826 | 679 if (SYMBOLP (keysym) && string_char_length (XSYMBOL (keysym)->name) == 1) |
| 867 | 680 keysym = make_char (string_ichar (XSYMBOL (keysym)->name, 0)); |
| 428 | 681 |
| 442 | 682 if (modifiers & XEMACS_MOD_META) /* Utterly hateful ESC lossage */ |
| 428 | 683 { |
| 442 | 684 Lisp_Object submap = Fgethash (MAKE_MODIFIER_HASH_KEY (XEMACS_MOD_META), |
| 428 | 685 k->table, Qnil); |
| 686 if (NILP (submap)) | |
| 442 | 687 submap = create_bucky_submap (k, XEMACS_MOD_META, keymap); |
| 428 | 688 k = XKEYMAP (submap); |
| 442 | 689 modifiers &= ~XEMACS_MOD_META; |
| 428 | 690 } |
| 691 | |
| 692 if (modifiers != 0) | |
| 693 { | |
| 694 Lisp_Object submap = Fgethash (MAKE_MODIFIER_HASH_KEY (modifiers), | |
| 695 k->table, Qnil); | |
| 696 if (NILP (submap)) | |
| 697 submap = create_bucky_submap (k, modifiers, keymap); | |
| 698 k = XKEYMAP (submap); | |
| 699 } | |
| 700 k->sub_maps_cache = Qt; /* Invalidate cache */ | |
| 701 keymap_store_internal (keysym, k, value); | |
| 702 } | |
| 703 | |
| 704 | |
| 705 /************************************************************************/ | |
| 706 /* Listing the submaps of a keymap */ | |
| 707 /************************************************************************/ | |
| 708 | |
| 709 struct keymap_submaps_closure | |
| 710 { | |
| 711 Lisp_Object *result_locative; | |
| 712 }; | |
| 713 | |
| 714 static int | |
| 2286 | 715 keymap_submaps_mapper_0 (Lisp_Object UNUSED (key), Lisp_Object value, |
| 716 void *UNUSED (keymap_submaps_closure)) | |
| 428 | 717 { |
| 718 /* This function can GC */ | |
| 719 /* Perform any autoloads, etc */ | |
| 720 Fkeymapp (value); | |
| 721 return 0; | |
| 722 } | |
| 723 | |
| 724 static int | |
| 725 keymap_submaps_mapper (Lisp_Object key, Lisp_Object value, | |
| 726 void *keymap_submaps_closure) | |
| 727 { | |
| 728 /* This function can GC */ | |
| 729 Lisp_Object *result_locative; | |
| 730 struct keymap_submaps_closure *cl = | |
| 731 (struct keymap_submaps_closure *) keymap_submaps_closure; | |
| 732 result_locative = cl->result_locative; | |
| 733 | |
| 734 if (!NILP (Fkeymapp (value))) | |
| 735 *result_locative = Fcons (Fcons (key, value), *result_locative); | |
| 736 return 0; | |
| 737 } | |
| 738 | |
| 739 static int map_keymap_sort_predicate (Lisp_Object obj1, Lisp_Object obj2, | |
| 740 Lisp_Object pred); | |
| 741 | |
| 742 static Lisp_Object | |
| 743 keymap_submaps (Lisp_Object keymap) | |
| 744 { | |
| 745 /* This function can GC */ | |
| 746 Lisp_Keymap *k = XKEYMAP (keymap); | |
| 747 | |
| 748 if (EQ (k->sub_maps_cache, Qt)) /* Unknown */ | |
| 749 { | |
| 750 Lisp_Object result = Qnil; | |
| 751 struct gcpro gcpro1, gcpro2; | |
| 752 struct keymap_submaps_closure keymap_submaps_closure; | |
| 753 | |
| 754 GCPRO2 (keymap, result); | |
| 755 keymap_submaps_closure.result_locative = &result; | |
| 756 /* Do this first pass to touch (and load) any autoloaded maps */ | |
| 757 elisp_maphash (keymap_submaps_mapper_0, k->table, | |
| 758 &keymap_submaps_closure); | |
| 759 result = Qnil; | |
| 760 elisp_maphash (keymap_submaps_mapper, k->table, | |
| 761 &keymap_submaps_closure); | |
| 762 /* keep it sorted so that the result of accessible-keymaps is ordered */ | |
| 763 k->sub_maps_cache = list_sort (result, | |
| 764 Qnil, | |
| 765 map_keymap_sort_predicate); | |
| 766 UNGCPRO; | |
| 767 } | |
| 768 return k->sub_maps_cache; | |
| 769 } | |
| 770 | |
| 771 | |
| 772 /************************************************************************/ | |
| 773 /* Basic operations on keymaps */ | |
| 774 /************************************************************************/ | |
| 775 | |
| 776 static Lisp_Object | |
| 665 | 777 make_keymap (Elemcount size) |
| 428 | 778 { |
|
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779 Lisp_Object obj = ALLOC_NORMAL_LISP_OBJECT (keymap); |
|
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780 Lisp_Keymap *keymap = XKEYMAP (obj); |
| 428 | 781 |
|
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782 #define MARKED_SLOT(x) keymap->x = Qnil; |
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|
783 #include "keymap-slots.h" |
| 428 | 784 |
| 785 if (size != 0) /* hack for copy-keymap */ | |
| 786 { | |
| 787 keymap->table = | |
| 788 make_lisp_hash_table (size, HASH_TABLE_NON_WEAK, HASH_TABLE_EQ); | |
| 789 /* Inverse table is often less dense because of duplicate key-bindings. | |
| 790 If not, it will grow anyway. */ | |
| 791 keymap->inverse_table = | |
| 647 | 792 make_lisp_hash_table (size * 3 / 4, HASH_TABLE_NON_WEAK, |
| 793 HASH_TABLE_EQ); | |
| 428 | 794 } |
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|
795 return obj; |
| 428 | 796 } |
| 797 | |
| 798 DEFUN ("make-keymap", Fmake_keymap, 0, 1, 0, /* | |
| 799 Construct and return a new keymap object. | |
| 800 All entries in it are nil, meaning "command undefined". | |
| 801 | |
| 802 Optional argument NAME specifies a name to assign to the keymap, | |
| 803 as in `set-keymap-name'. This name is only a debugging convenience; | |
| 804 it is not used except when printing the keymap. | |
| 805 */ | |
| 806 (name)) | |
| 807 { | |
| 808 Lisp_Object keymap = make_keymap (60); | |
| 809 if (!NILP (name)) | |
| 810 Fset_keymap_name (keymap, name); | |
| 811 return keymap; | |
| 812 } | |
| 813 | |
| 814 DEFUN ("make-sparse-keymap", Fmake_sparse_keymap, 0, 1, 0, /* | |
| 815 Construct and return a new keymap object. | |
| 816 All entries in it are nil, meaning "command undefined". The only | |
| 444 | 817 difference between this function and `make-keymap' is that this function |
| 428 | 818 returns a "smaller" keymap (one that is expected to contain fewer |
| 444 | 819 entries). As keymaps dynamically resize, this distinction is not great. |
| 428 | 820 |
| 821 Optional argument NAME specifies a name to assign to the keymap, | |
| 822 as in `set-keymap-name'. This name is only a debugging convenience; | |
| 823 it is not used except when printing the keymap. | |
| 824 */ | |
| 825 (name)) | |
| 826 { | |
| 827 Lisp_Object keymap = make_keymap (8); | |
| 828 if (!NILP (name)) | |
| 829 Fset_keymap_name (keymap, name); | |
| 830 return keymap; | |
| 831 } | |
| 832 | |
| 833 DEFUN ("keymap-parents", Fkeymap_parents, 1, 1, 0, /* | |
| 834 Return the `parent' keymaps of KEYMAP, or nil. | |
| 835 The parents of a keymap are searched for keybindings when a key sequence | |
| 836 isn't bound in this one. `(current-global-map)' is the default parent | |
| 837 of all keymaps. | |
| 838 */ | |
| 839 (keymap)) | |
| 840 { | |
| 841 keymap = get_keymap (keymap, 1, 1); | |
| 842 return Fcopy_sequence (XKEYMAP (keymap)->parents); | |
| 843 } | |
| 844 | |
| 845 | |
| 846 | |
| 847 static Lisp_Object | |
| 2286 | 848 traverse_keymaps_noop (Lisp_Object UNUSED (keymap), void *UNUSED (arg)) |
| 428 | 849 { |
| 850 return Qnil; | |
| 851 } | |
| 852 | |
| 853 DEFUN ("set-keymap-parents", Fset_keymap_parents, 2, 2, 0, /* | |
| 854 Set the `parent' keymaps of KEYMAP to PARENTS. | |
| 855 The parents of a keymap are searched for keybindings when a key sequence | |
| 856 isn't bound in this one. `(current-global-map)' is the default parent | |
| 857 of all keymaps. | |
| 858 */ | |
| 859 (keymap, parents)) | |
| 860 { | |
| 861 /* This function can GC */ | |
| 862 Lisp_Object k; | |
| 863 struct gcpro gcpro1, gcpro2; | |
| 864 | |
| 865 GCPRO2 (keymap, parents); | |
| 866 keymap = get_keymap (keymap, 1, 1); | |
| 867 | |
| 868 if (KEYMAPP (parents)) /* backwards-compatibility */ | |
| 869 parents = list1 (parents); | |
| 870 if (!NILP (parents)) | |
| 871 { | |
| 872 Lisp_Object tail = parents; | |
| 873 while (!NILP (tail)) | |
| 874 { | |
| 875 QUIT; | |
| 876 CHECK_CONS (tail); | |
| 877 k = XCAR (tail); | |
| 878 /* Require that it be an actual keymap object, rather than a symbol | |
| 879 with a (crockish) symbol-function which is a keymap */ | |
| 880 CHECK_KEYMAP (k); /* get_keymap (k, 1, 1); */ | |
| 881 tail = XCDR (tail); | |
| 882 } | |
| 883 } | |
| 884 | |
| 885 /* Check for circularities */ | |
| 886 traverse_keymaps (keymap, parents, traverse_keymaps_noop, 0); | |
| 887 keymap_tick++; | |
| 888 XKEYMAP (keymap)->parents = Fcopy_sequence (parents); | |
| 889 UNGCPRO; | |
| 890 return parents; | |
| 891 } | |
| 892 | |
| 893 DEFUN ("set-keymap-name", Fset_keymap_name, 2, 2, 0, /* | |
| 894 Set the `name' of the KEYMAP to NEW-NAME. | |
| 895 The name is only a debugging convenience; it is not used except | |
| 896 when printing the keymap. | |
| 897 */ | |
| 898 (keymap, new_name)) | |
| 899 { | |
| 900 keymap = get_keymap (keymap, 1, 1); | |
| 901 | |
| 902 XKEYMAP (keymap)->name = new_name; | |
| 903 return new_name; | |
| 904 } | |
| 905 | |
| 906 DEFUN ("keymap-name", Fkeymap_name, 1, 1, 0, /* | |
| 907 Return the `name' of KEYMAP. | |
| 908 The name is only a debugging convenience; it is not used except | |
| 909 when printing the keymap. | |
| 910 */ | |
| 911 (keymap)) | |
| 912 { | |
| 913 keymap = get_keymap (keymap, 1, 1); | |
| 914 | |
| 915 return XKEYMAP (keymap)->name; | |
| 916 } | |
| 917 | |
| 918 DEFUN ("set-keymap-prompt", Fset_keymap_prompt, 2, 2, 0, /* | |
| 919 Set the `prompt' of KEYMAP to string NEW-PROMPT, or `nil' | |
| 920 if no prompt is desired. The prompt is shown in the echo-area | |
| 921 when reading a key-sequence to be looked-up in this keymap. | |
| 922 */ | |
| 923 (keymap, new_prompt)) | |
| 924 { | |
| 925 keymap = get_keymap (keymap, 1, 1); | |
| 926 | |
| 927 if (!NILP (new_prompt)) | |
| 928 CHECK_STRING (new_prompt); | |
| 929 | |
| 930 XKEYMAP (keymap)->prompt = new_prompt; | |
| 931 return new_prompt; | |
| 932 } | |
| 933 | |
| 934 static Lisp_Object | |
| 2286 | 935 keymap_prompt_mapper (Lisp_Object keymap, void *UNUSED (arg)) |
| 428 | 936 { |
| 937 return XKEYMAP (keymap)->prompt; | |
| 938 } | |
| 939 | |
| 940 | |
| 941 DEFUN ("keymap-prompt", Fkeymap_prompt, 1, 2, 0, /* | |
| 942 Return the `prompt' of KEYMAP. | |
| 943 If non-nil, the prompt is shown in the echo-area | |
| 944 when reading a key-sequence to be looked-up in this keymap. | |
| 945 */ | |
| 946 (keymap, use_inherited)) | |
| 947 { | |
| 948 /* This function can GC */ | |
| 949 Lisp_Object prompt; | |
| 950 | |
| 951 keymap = get_keymap (keymap, 1, 1); | |
| 952 prompt = XKEYMAP (keymap)->prompt; | |
| 953 if (!NILP (prompt) || NILP (use_inherited)) | |
| 954 return prompt; | |
| 955 else | |
| 956 return traverse_keymaps (keymap, Qnil, keymap_prompt_mapper, 0); | |
| 957 } | |
| 958 | |
| 959 DEFUN ("set-keymap-default-binding", Fset_keymap_default_binding, 2, 2, 0, /* | |
| 960 Sets the default binding of KEYMAP to COMMAND, or `nil' | |
| 961 if no default is desired. The default-binding is returned when | |
| 962 no other binding for a key-sequence is found in the keymap. | |
| 963 If a keymap has a non-nil default-binding, neither the keymap's | |
| 964 parents nor the current global map are searched for key bindings. | |
| 965 */ | |
| 966 (keymap, command)) | |
| 967 { | |
| 968 /* This function can GC */ | |
| 969 keymap = get_keymap (keymap, 1, 1); | |
| 970 | |
| 971 XKEYMAP (keymap)->default_binding = command; | |
| 972 return command; | |
| 973 } | |
| 974 | |
| 975 DEFUN ("keymap-default-binding", Fkeymap_default_binding, 1, 1, 0, /* | |
| 976 Return the default binding of KEYMAP, or `nil' if it has none. | |
| 977 The default-binding is returned when no other binding for a key-sequence | |
| 978 is found in the keymap. | |
| 979 If a keymap has a non-nil default-binding, neither the keymap's | |
| 980 parents nor the current global map are searched for key bindings. | |
| 981 */ | |
| 982 (keymap)) | |
| 983 { | |
| 984 /* This function can GC */ | |
| 985 keymap = get_keymap (keymap, 1, 1); | |
| 986 return XKEYMAP (keymap)->default_binding; | |
| 987 } | |
| 988 | |
| 989 DEFUN ("keymapp", Fkeymapp, 1, 1, 0, /* | |
| 444 | 990 Return t if OBJECT is a keymap object. |
| 428 | 991 The keymap may be autoloaded first if necessary. |
| 992 */ | |
| 993 (object)) | |
| 994 { | |
| 995 /* This function can GC */ | |
| 996 return KEYMAPP (get_keymap (object, 0, 0)) ? Qt : Qnil; | |
| 997 } | |
| 998 | |
| 999 /* Check that OBJECT is a keymap (after dereferencing through any | |
| 1000 symbols). If it is, return it. | |
| 1001 | |
| 1002 If AUTOLOAD is non-zero and OBJECT is a symbol whose function value | |
| 1003 is an autoload form, do the autoload and try again. | |
| 1004 If AUTOLOAD is nonzero, callers must assume GC is possible. | |
| 1005 | |
| 1006 ERRORP controls how we respond if OBJECT isn't a keymap. | |
| 1007 If ERRORP is non-zero, signal an error; otherwise, just return Qnil. | |
| 1008 | |
| 1009 Note that most of the time, we don't want to pursue autoloads. | |
| 1010 Functions like Faccessible_keymaps which scan entire keymap trees | |
| 1011 shouldn't load every autoloaded keymap. I'm not sure about this, | |
| 1012 but it seems to me that only read_key_sequence, Flookup_key, and | |
| 1013 Fdefine_key should cause keymaps to be autoloaded. */ | |
| 1014 | |
| 1015 Lisp_Object | |
| 1016 get_keymap (Lisp_Object object, int errorp, int autoload) | |
| 1017 { | |
| 1018 /* This function can GC */ | |
| 1019 while (1) | |
| 1020 { | |
| 1021 Lisp_Object tem = indirect_function (object, 0); | |
| 1022 | |
| 1023 if (KEYMAPP (tem)) | |
| 1024 return tem; | |
| 1025 /* Should we do an autoload? */ | |
| 1026 else if (autoload | |
| 1027 /* (autoload "filename" doc nil keymap) */ | |
| 1028 && SYMBOLP (object) | |
| 1029 && CONSP (tem) | |
| 1030 && EQ (XCAR (tem), Qautoload) | |
| 1031 && EQ (Fcar (Fcdr (Fcdr (Fcdr (Fcdr (tem))))), Qkeymap)) | |
| 1032 { | |
| 970 | 1033 /* do_autoload GCPROs both arguments */ |
| 428 | 1034 do_autoload (tem, object); |
| 1035 } | |
| 1036 else if (errorp) | |
| 1037 object = wrong_type_argument (Qkeymapp, object); | |
| 1038 else | |
| 1039 return Qnil; | |
| 1040 } | |
| 1041 } | |
| 1042 | |
| 1043 /* Given OBJECT which was found in a slot in a keymap, | |
| 1044 trace indirect definitions to get the actual definition of that slot. | |
| 1045 An indirect definition is a list of the form | |
| 1046 (KEYMAP . INDEX), where KEYMAP is a keymap or a symbol defined as one | |
| 1047 and INDEX is an ASCII code, or a cons of (KEYSYM . MODIFIERS). | |
| 1048 */ | |
| 1049 static Lisp_Object | |
| 1050 get_keyelt (Lisp_Object object, int accept_default) | |
| 1051 { | |
| 1052 /* This function can GC */ | |
| 1053 Lisp_Object map; | |
| 1054 | |
| 1055 tail_recurse: | |
| 1056 if (!CONSP (object)) | |
| 1057 return object; | |
| 1058 | |
| 1059 { | |
| 1060 struct gcpro gcpro1; | |
| 1061 GCPRO1 (object); | |
| 1062 map = XCAR (object); | |
| 1063 map = get_keymap (map, 0, 1); | |
| 1064 UNGCPRO; | |
| 1065 } | |
| 1066 /* If the contents are (KEYMAP . ELEMENT), go indirect. */ | |
| 1067 if (!NILP (map)) | |
| 1068 { | |
| 1069 Lisp_Object idx = Fcdr (object); | |
| 934 | 1070 Lisp_Key_Data indirection; |
| 428 | 1071 if (CHARP (idx)) |
| 1072 { | |
| 934 | 1073 Lisp_Object event = Fmake_event (Qnil, Qnil); |
| 1074 struct gcpro gcpro1; | |
| 1075 GCPRO1 (event); | |
| 1076 character_to_event (XCHAR (idx), XEVENT (event), | |
|
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Call character_to_event on characters received from XIM, event-Xt.c
Aidan Kehoe <kehoea@parhasard.net>
parents:
4355
diff
changeset
|
1077 XCONSOLE (Vselected_console), |
|
2fd201d73a92
Call character_to_event on characters received from XIM, event-Xt.c
Aidan Kehoe <kehoea@parhasard.net>
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4355
diff
changeset
|
1078 high_bit_is_meta, 0); |
| 1204 | 1079 indirection.keysym = XEVENT_KEY_KEYSYM (event); |
| 1080 indirection.modifiers = XEVENT_KEY_MODIFIERS (event); | |
| 1081 UNGCPRO; | |
| 428 | 1082 } |
| 1083 else if (CONSP (idx)) | |
| 1084 { | |
| 1085 if (!INTP (XCDR (idx))) | |
| 1086 return Qnil; | |
| 1087 indirection.keysym = XCAR (idx); | |
| 442 | 1088 indirection.modifiers = (unsigned char) XINT (XCDR (idx)); |
| 428 | 1089 } |
| 1090 else if (SYMBOLP (idx)) | |
| 1091 { | |
| 1092 indirection.keysym = idx; | |
| 934 | 1093 SET_KEY_DATA_MODIFIERS (&indirection, XINT (XCDR (idx))); |
| 428 | 1094 } |
| 1095 else | |
| 1096 { | |
| 1097 /* Random junk */ | |
| 1098 return Qnil; | |
| 1099 } | |
| 1100 return raw_lookup_key (map, &indirection, 1, 0, accept_default); | |
| 1101 } | |
| 1102 else if (STRINGP (XCAR (object))) | |
| 1103 { | |
| 1104 /* If the keymap contents looks like (STRING . DEFN), | |
| 1105 use DEFN. | |
| 1106 Keymap alist elements like (CHAR MENUSTRING . DEFN) | |
| 1107 will be used by HierarKey menus. */ | |
| 1108 object = XCDR (object); | |
| 1109 goto tail_recurse; | |
| 1110 } | |
| 1111 else | |
| 1112 { | |
| 1113 /* Anything else is really the value. */ | |
| 1114 return object; | |
| 1115 } | |
| 1116 } | |
| 1117 | |
| 1118 static Lisp_Object | |
| 934 | 1119 keymap_lookup_1 (Lisp_Object keymap, const Lisp_Key_Data *key, |
| 428 | 1120 int accept_default) |
| 1121 { | |
| 1122 /* This function can GC */ | |
| 934 | 1123 return get_keyelt (keymap_lookup_directly (keymap, |
| 1124 KEY_DATA_KEYSYM (key), | |
| 1125 KEY_DATA_MODIFIERS (key)), | |
| 1126 accept_default); | |
| 428 | 1127 } |
| 1128 | |
| 1129 | |
| 1130 /************************************************************************/ | |
| 1131 /* Copying keymaps */ | |
| 1132 /************************************************************************/ | |
| 1133 | |
| 1134 struct copy_keymap_inverse_closure | |
| 1135 { | |
| 1136 Lisp_Object inverse_table; | |
| 1137 }; | |
| 1138 | |
| 1139 static int | |
| 1140 copy_keymap_inverse_mapper (Lisp_Object key, Lisp_Object value, | |
| 1141 void *copy_keymap_inverse_closure) | |
| 1142 { | |
| 1143 struct copy_keymap_inverse_closure *closure = | |
| 1144 (struct copy_keymap_inverse_closure *) copy_keymap_inverse_closure; | |
| 1145 | |
| 1146 /* copy-sequence deals with dotted lists. */ | |
| 1147 if (CONSP (value)) | |
| 1148 value = Fcopy_list (value); | |
| 1149 Fputhash (key, value, closure->inverse_table); | |
| 1150 | |
| 1151 return 0; | |
| 1152 } | |
| 1153 | |
| 1154 | |
| 1155 static Lisp_Object | |
| 1156 copy_keymap_internal (Lisp_Keymap *keymap) | |
| 1157 { | |
| 1158 Lisp_Object nkm = make_keymap (0); | |
| 1159 Lisp_Keymap *new_keymap = XKEYMAP (nkm); | |
| 1160 struct copy_keymap_inverse_closure copy_keymap_inverse_closure; | |
| 1161 copy_keymap_inverse_closure.inverse_table = keymap->inverse_table; | |
| 1162 | |
| 1163 new_keymap->parents = Fcopy_sequence (keymap->parents); | |
| 1164 new_keymap->sub_maps_cache = Qnil; /* No submaps */ | |
| 1165 new_keymap->table = Fcopy_hash_table (keymap->table); | |
| 1166 new_keymap->inverse_table = Fcopy_hash_table (keymap->inverse_table); | |
| 1167 new_keymap->default_binding = keymap->default_binding; | |
| 1168 /* After copying the inverse map, we need to copy the conses which | |
| 1169 are its values, lest they be shared by the copy, and mangled. | |
| 1170 */ | |
| 1171 elisp_maphash (copy_keymap_inverse_mapper, keymap->inverse_table, | |
| 1172 ©_keymap_inverse_closure); | |
| 1173 return nkm; | |
| 1174 } | |
| 1175 | |
| 1176 | |
| 1177 static Lisp_Object copy_keymap (Lisp_Object keymap); | |
| 1178 | |
| 1179 struct copy_keymap_closure | |
| 1180 { | |
| 1181 Lisp_Keymap *self; | |
| 1182 }; | |
| 1183 | |
| 1184 static int | |
| 1185 copy_keymap_mapper (Lisp_Object key, Lisp_Object value, | |
| 1186 void *copy_keymap_closure) | |
| 1187 { | |
| 1188 /* This function can GC */ | |
| 1189 struct copy_keymap_closure *closure = | |
| 1190 (struct copy_keymap_closure *) copy_keymap_closure; | |
| 1191 | |
| 1192 /* When we encounter a keymap which is indirected through a | |
| 1193 symbol, we need to copy the sub-map. In v18, the form | |
| 1194 (lookup-key (copy-keymap global-map) "\C-x") | |
| 3025 | 1195 returned a new keymap, not the symbol `Control-X-prefix'. |
| 428 | 1196 */ |
| 1197 value = get_keymap (value, 0, 1); /* #### autoload GC-safe here? */ | |
| 1198 if (KEYMAPP (value)) | |
| 1199 keymap_store_internal (key, closure->self, | |
| 1200 copy_keymap (value)); | |
| 1201 return 0; | |
| 1202 } | |
| 1203 | |
| 1204 static Lisp_Object | |
| 1205 copy_keymap (Lisp_Object keymap) | |
| 1206 { | |
| 1207 /* This function can GC */ | |
| 1208 struct copy_keymap_closure copy_keymap_closure; | |
| 1209 | |
| 1210 keymap = copy_keymap_internal (XKEYMAP (keymap)); | |
| 1211 copy_keymap_closure.self = XKEYMAP (keymap); | |
| 1212 elisp_maphash (copy_keymap_mapper, | |
| 1213 XKEYMAP (keymap)->table, | |
| 1214 ©_keymap_closure); | |
| 1215 return keymap; | |
| 1216 } | |
| 1217 | |
| 1218 DEFUN ("copy-keymap", Fcopy_keymap, 1, 1, 0, /* | |
| 1219 Return a copy of the keymap KEYMAP. | |
| 1220 The copy starts out with the same definitions of KEYMAP, | |
| 1221 but changing either the copy or KEYMAP does not affect the other. | |
| 1222 Any key definitions that are subkeymaps are recursively copied. | |
| 1223 */ | |
| 1224 (keymap)) | |
| 1225 { | |
| 1226 /* This function can GC */ | |
| 1227 keymap = get_keymap (keymap, 1, 1); | |
| 1228 return copy_keymap (keymap); | |
| 1229 } | |
| 1230 | |
| 1231 | |
| 1232 static int | |
| 1233 keymap_fullness (Lisp_Object keymap) | |
| 1234 { | |
| 1235 /* This function can GC */ | |
| 1236 int fullness; | |
| 1237 Lisp_Object sub_maps; | |
| 1238 struct gcpro gcpro1, gcpro2; | |
| 1239 | |
| 1240 keymap = get_keymap (keymap, 1, 1); | |
| 440 | 1241 fullness = XINT (Fhash_table_count (XKEYMAP (keymap)->table)); |
| 428 | 1242 GCPRO2 (keymap, sub_maps); |
| 440 | 1243 for (sub_maps = keymap_submaps (keymap); |
| 1244 !NILP (sub_maps); | |
| 1245 sub_maps = XCDR (sub_maps)) | |
| 428 | 1246 { |
| 1247 if (MODIFIER_HASH_KEY_BITS (XCAR (XCAR (sub_maps))) != 0) | |
| 1248 { | |
| 440 | 1249 Lisp_Object bucky_map = XCDR (XCAR (sub_maps)); |
| 1250 fullness--; /* don't count bucky maps themselves. */ | |
| 1251 fullness += keymap_fullness (bucky_map); | |
| 428 | 1252 } |
| 1253 } | |
| 1254 UNGCPRO; | |
| 1255 return fullness; | |
| 1256 } | |
| 1257 | |
| 1258 DEFUN ("keymap-fullness", Fkeymap_fullness, 1, 1, 0, /* | |
| 1259 Return the number of bindings in the keymap. | |
| 1260 */ | |
| 1261 (keymap)) | |
| 1262 { | |
| 1263 /* This function can GC */ | |
| 1264 return make_int (keymap_fullness (get_keymap (keymap, 1, 1))); | |
| 1265 } | |
| 1266 | |
| 1267 | |
| 1268 /************************************************************************/ | |
| 1269 /* Defining keys in keymaps */ | |
| 1270 /************************************************************************/ | |
| 1271 | |
| 1272 /* Given a keysym (should be a symbol, int, char), make sure it's valid | |
| 1273 and perform any necessary canonicalization. */ | |
| 1274 | |
| 1275 static void | |
| 1276 define_key_check_and_coerce_keysym (Lisp_Object spec, | |
| 1277 Lisp_Object *keysym, | |
| 442 | 1278 int modifiers) |
| 428 | 1279 { |
| 1280 /* Now, check and massage the trailing keysym specifier. */ | |
| 1281 if (SYMBOLP (*keysym)) | |
| 1282 { | |
| 826 | 1283 if (string_char_length (XSYMBOL (*keysym)->name) == 1) |
| 428 | 1284 { |
| 1285 Lisp_Object ream_gcc_up_the_ass = | |
| 867 | 1286 make_char (string_ichar (XSYMBOL (*keysym)->name, 0)); |
| 428 | 1287 *keysym = ream_gcc_up_the_ass; |
| 1288 goto fixnum_keysym; | |
| 1289 } | |
| 1290 } | |
| 1291 else if (CHAR_OR_CHAR_INTP (*keysym)) | |
| 1292 { | |
| 1293 CHECK_CHAR_COERCE_INT (*keysym); | |
| 1294 fixnum_keysym: | |
| 1295 if (XCHAR (*keysym) < ' ' | |
| 1296 /* || (XCHAR (*keysym) >= 128 && XCHAR (*keysym) < 160) */) | |
| 1297 /* yuck! Can't make the above restriction; too many compatibility | |
| 1298 problems ... */ | |
| 563 | 1299 invalid_argument ("keysym char must be printable", *keysym); |
| 428 | 1300 /* #### This bites! I want to be able to write (control shift a) */ |
| 442 | 1301 if (modifiers & XEMACS_MOD_SHIFT) |
| 563 | 1302 invalid_argument |
| 428 | 1303 ("The `shift' modifier may not be applied to ASCII keysyms", |
| 1304 spec); | |
| 1305 } | |
| 1306 else | |
| 1307 { | |
| 563 | 1308 invalid_argument ("Unknown keysym specifier", *keysym); |
| 428 | 1309 } |
| 1310 | |
| 1311 if (SYMBOLP (*keysym)) | |
| 1312 { | |
| 867 | 1313 Ibyte *name = XSTRING_DATA (XSYMBOL (*keysym)->name); |
| 428 | 1314 |
| 3025 | 1315 /* GNU Emacs uses symbols with the printed representation of keysyms in |
| 1316 their names, like `M-x', and we use the syntax '(meta x). So, to | |
| 1317 avoid confusion, notice the M-x syntax and signal an error - | |
| 1318 because otherwise it would be interpreted as a regular keysym, and | |
| 1319 would even show up in the list-buffers output, causing confusion | |
| 1320 to the naive. | |
| 428 | 1321 |
| 1322 We can get away with this because none of the X keysym names contain | |
| 1323 a hyphen (some contain underscore, however). | |
| 1324 | |
| 1325 It might be useful to reject keysyms which are not x-valid-keysym- | |
| 1326 name-p, but that would interfere with various tricks we do to | |
| 1327 sanitize the Sun keyboards, and would make it trickier to | |
| 1328 conditionalize a .emacs file for multiple X servers. | |
| 1329 */ | |
| 793 | 1330 if (((int) qxestrlen (name) >= 2 && name[1] == '-') |
| 428 | 1331 #if 1 |
| 1332 || | |
| 1333 /* Ok, this is a bit more dubious - prevent people from doing things | |
| 1334 like (global-set-key 'RET 'something) because that will have the | |
| 1335 same problem as above. (Gag!) Maybe we should just silently | |
| 1336 accept these as aliases for the "real" names? | |
| 1337 */ | |
| 793 | 1338 (XSTRING_LENGTH (XSYMBOL (*keysym)->name) <= 3 && |
| 2367 | 1339 (!qxestrcmp_ascii (name, "LFD") || |
| 1340 !qxestrcmp_ascii (name, "TAB") || | |
| 1341 !qxestrcmp_ascii (name, "RET") || | |
| 1342 !qxestrcmp_ascii (name, "ESC") || | |
| 1343 !qxestrcmp_ascii (name, "DEL") || | |
| 1344 !qxestrcmp_ascii (name, "SPC") || | |
| 1345 !qxestrcmp_ascii (name, "BS"))) | |
| 428 | 1346 #endif /* unused */ |
| 1347 ) | |
| 563 | 1348 invalid_argument |
| 3086 | 1349 ("Invalid (GNU Emacs) key format (see doc of define-key)", |
| 428 | 1350 *keysym); |
| 1351 | |
| 1352 /* #### Ok, this is a bit more dubious - make people not lose if they | |
| 1353 do things like (global-set-key 'RET 'something) because that would | |
| 1354 otherwise have the same problem as above. (Gag!) We silently | |
| 1355 accept these as aliases for the "real" names. | |
| 1356 */ | |
| 2367 | 1357 else if (!qxestrncmp_ascii (name, "kp_", 3)) |
| 793 | 1358 { |
| 1359 /* Likewise, the obsolete keysym binding of kp_.* should not lose. */ | |
| 1360 DECLARE_EISTRING (temp); | |
| 1361 eicpy_raw (temp, name, qxestrlen (name)); | |
| 1362 eisetch_char (temp, 2, '-'); | |
|
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1363 *keysym = Fintern_soft (eimake_string (temp), Qnil, Qnil); |
| 793 | 1364 } |
| 1365 else if (EQ (*keysym, QLFD)) | |
| 428 | 1366 *keysym = QKlinefeed; |
| 1367 else if (EQ (*keysym, QTAB)) | |
| 1368 *keysym = QKtab; | |
| 1369 else if (EQ (*keysym, QRET)) | |
| 1370 *keysym = QKreturn; | |
| 1371 else if (EQ (*keysym, QESC)) | |
| 1372 *keysym = QKescape; | |
| 1373 else if (EQ (*keysym, QDEL)) | |
| 1374 *keysym = QKdelete; | |
| 1375 else if (EQ (*keysym, QSPC)) | |
| 1376 *keysym = QKspace; | |
| 1377 else if (EQ (*keysym, QBS)) | |
| 1378 *keysym = QKbackspace; | |
| 1379 /* Emacs compatibility */ | |
|
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1380 #define FROB(num) \ |
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1381 else if (EQ(*keysym, Qdown_mouse_##num)) \ |
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1382 *keysym = Qbutton##num; \ |
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1383 else if (EQ(*keysym, Qmouse_##num)) \ |
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1384 *keysym = Qbutton##num##up; |
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1385 #include "keymap-buttons.h" |
| 428 | 1386 } |
| 1387 } | |
| 1388 | |
| 1389 | |
| 1390 /* Given any kind of key-specifier, return a keysym and modifier mask. | |
| 1391 Proper canonicalization is performed: | |
| 1392 | |
| 1393 -- integers are converted into the equivalent characters. | |
| 1394 -- one-character strings are converted into the equivalent characters. | |
| 1395 */ | |
| 1396 | |
| 1397 static void | |
| 934 | 1398 define_key_parser (Lisp_Object spec, Lisp_Key_Data *returned_value) |
| 428 | 1399 { |
| 1400 if (CHAR_OR_CHAR_INTP (spec)) | |
| 1401 { | |
| 934 | 1402 Lisp_Object event = Fmake_event (Qnil, Qnil); |
| 1403 struct gcpro gcpro1; | |
| 1404 GCPRO1 (event); | |
| 1405 character_to_event (XCHAR_OR_CHAR_INT (spec), XEVENT (event), | |
|
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1406 XCONSOLE (Vselected_console), high_bit_is_meta, 0); |
| 1204 | 1407 SET_KEY_DATA_KEYSYM (returned_value, XEVENT_KEY_KEYSYM (event)); |
| 934 | 1408 SET_KEY_DATA_MODIFIERS (returned_value, |
| 1204 | 1409 XEVENT_KEY_MODIFIERS (event)); |
| 1410 UNGCPRO; | |
| 428 | 1411 } |
| 1412 else if (EVENTP (spec)) | |
| 1413 { | |
| 934 | 1414 switch (XEVENT_TYPE (spec)) |
| 428 | 1415 { |
| 1416 case key_press_event: | |
| 1417 { | |
| 1204 | 1418 SET_KEY_DATA_KEYSYM (returned_value, XEVENT_KEY_KEYSYM (spec)); |
| 1419 SET_KEY_DATA_MODIFIERS (returned_value, XEVENT_KEY_MODIFIERS (spec)); | |
| 428 | 1420 break; |
| 1421 } | |
| 1422 case button_press_event: | |
| 1423 case button_release_event: | |
| 1424 { | |
| 934 | 1425 int down = (XEVENT_TYPE (spec) == button_press_event); |
| 1204 | 1426 switch (XEVENT_BUTTON_BUTTON (spec)) |
| 934 | 1427 { |
|
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1428 #define FROB(num) \ |
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1429 case num: \ |
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1430 SET_KEY_DATA_KEYSYM (returned_value, \ |
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1431 (down ? Qbutton##num : \ |
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1432 Qbutton##num##up)); \ |
| 934 | 1433 break; |
|
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1434 #include "keymap-buttons.h" |
| 934 | 1435 default: |
|
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1436 SET_KEY_DATA_KEYSYM (returned_value, (down ? Qbutton0 : |
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1437 Qbutton0up)); |
| 934 | 1438 break; |
| 1439 } | |
|
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1440 SET_KEY_DATA_MODIFIERS (returned_value, |
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1441 XEVENT_BUTTON_MODIFIERS (spec)); |
| 428 | 1442 break; |
| 1443 } | |
| 1444 default: | |
| 563 | 1445 wtaerror ("unable to bind this type of event", spec); |
| 428 | 1446 } |
| 1447 } | |
| 1448 else if (SYMBOLP (spec)) | |
| 1449 { | |
| 1450 /* Be nice, allow = to mean (=) */ | |
| 1451 if (bucky_sym_to_bucky_bit (spec) != 0) | |
| 563 | 1452 invalid_argument ("Key is a modifier name", spec); |
| 428 | 1453 define_key_check_and_coerce_keysym (spec, &spec, 0); |
| 934 | 1454 SET_KEY_DATA_KEYSYM (returned_value, spec); |
| 1455 SET_KEY_DATA_MODIFIERS (returned_value, 0); | |
| 428 | 1456 } |
| 1457 else if (CONSP (spec)) | |
| 1458 { | |
| 442 | 1459 int modifiers = 0; |
| 428 | 1460 Lisp_Object keysym = Qnil; |
| 1461 Lisp_Object rest = spec; | |
| 1462 | |
| 1463 /* First, parse out the leading modifier symbols. */ | |
| 1464 while (CONSP (rest)) | |
| 1465 { | |
| 442 | 1466 int modifier; |
| 428 | 1467 |
| 1468 keysym = XCAR (rest); | |
| 1469 modifier = bucky_sym_to_bucky_bit (keysym); | |
| 1470 modifiers |= modifier; | |
| 1471 if (!NILP (XCDR (rest))) | |
| 1472 { | |
| 1473 if (! modifier) | |
| 563 | 1474 invalid_argument ("Unknown modifier", keysym); |
| 428 | 1475 } |
| 1476 else | |
| 1477 { | |
| 1478 if (modifier) | |
| 563 | 1479 sferror ("Nothing but modifiers here", |
| 428 | 1480 spec); |
| 1481 } | |
| 1482 rest = XCDR (rest); | |
| 1483 QUIT; | |
| 1484 } | |
| 1485 if (!NILP (rest)) | |
| 563 | 1486 signal_error (Qlist_formation_error, |
| 1487 "List must be nil-terminated", spec); | |
| 428 | 1488 |
| 1489 define_key_check_and_coerce_keysym (spec, &keysym, modifiers); | |
| 934 | 1490 SET_KEY_DATA_KEYSYM(returned_value, keysym); |
| 1491 SET_KEY_DATA_MODIFIERS (returned_value, modifiers); | |
| 428 | 1492 } |
| 1493 else | |
| 1494 { | |
| 563 | 1495 invalid_argument ("Unknown key-sequence specifier", |
| 428 | 1496 spec); |
| 1497 } | |
| 1498 } | |
| 1499 | |
| 1500 /* Used by character-to-event */ | |
| 1501 void | |
| 1502 key_desc_list_to_event (Lisp_Object list, Lisp_Object event, | |
| 1503 int allow_menu_events) | |
| 1504 { | |
| 934 | 1505 Lisp_Key_Data raw_key; |
| 428 | 1506 |
| 1507 if (allow_menu_events && | |
| 1508 CONSP (list) && | |
| 1509 /* #### where the hell does this come from? */ | |
| 1510 EQ (XCAR (list), Qmenu_selection)) | |
| 1511 { | |
| 1512 Lisp_Object fn, arg; | |
| 1513 if (! NILP (Fcdr (Fcdr (list)))) | |
| 563 | 1514 invalid_argument ("Invalid menu event desc", list); |
| 428 | 1515 arg = Fcar (Fcdr (list)); |
| 1516 if (SYMBOLP (arg)) | |
| 1517 fn = Qcall_interactively; | |
| 1518 else | |
| 1519 fn = Qeval; | |
| 934 | 1520 XSET_EVENT_TYPE (event, misc_user_event); |
| 1204 | 1521 XSET_EVENT_CHANNEL (event, wrap_frame (selected_frame ())); |
| 1522 XSET_EVENT_MISC_USER_FUNCTION (event, fn); | |
| 1523 XSET_EVENT_MISC_USER_OBJECT (event, arg); | |
| 428 | 1524 return; |
| 1525 } | |
| 1526 | |
| 1527 define_key_parser (list, &raw_key); | |
| 1528 | |
|
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1529 if ( |
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1530 #define INCLUDE_BUTTON_ZERO |
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1531 #define FROB(num) \ |
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1532 EQ (raw_key.keysym, Qbutton##num) || \ |
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1533 EQ (raw_key.keysym, Qbutton##num##up) || |
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1534 #include "keymap-buttons.h" |
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1535 0) |
| 563 | 1536 invalid_operation ("Mouse-clicks can't appear in saved keyboard macros", |
| 1537 Qunbound); | |
| 428 | 1538 |
| 934 | 1539 XSET_EVENT_CHANNEL (event, Vselected_console); |
| 1540 XSET_EVENT_TYPE (event, key_press_event); | |
| 1204 | 1541 XSET_EVENT_KEY_KEYSYM (event, raw_key.keysym); |
| 1542 XSET_EVENT_KEY_MODIFIERS (event, KEY_DATA_MODIFIERS (&raw_key)); | |
| 428 | 1543 } |
| 1544 | |
| 1545 | |
| 1546 int | |
| 1204 | 1547 event_matches_key_specifier_p (Lisp_Object event, Lisp_Object key_specifier) |
| 428 | 1548 { |
| 446 | 1549 Lisp_Object event2 = Qnil; |
| 428 | 1550 int retval; |
| 1551 struct gcpro gcpro1; | |
| 1552 | |
| 1204 | 1553 if (XEVENT_TYPE (event) != key_press_event || NILP (key_specifier) || |
| 428 | 1554 (INTP (key_specifier) && !CHAR_INTP (key_specifier))) |
| 1555 return 0; | |
| 1556 | |
| 1557 /* if the specifier is an integer such as 27, then it should match | |
| 3025 | 1558 both of the events `escape' and `control ['. Calling |
| 1559 Fcharacter_to_event() will only match `escape'. */ | |
| 428 | 1560 if (CHAR_OR_CHAR_INTP (key_specifier)) |
| 1561 return (XCHAR_OR_CHAR_INT (key_specifier) | |
| 2828 | 1562 == event_to_character (event, 0, 0)); |
| 428 | 1563 |
| 1564 /* Otherwise, we cannot call event_to_character() because we may | |
| 1565 be dealing with non-ASCII keystrokes. In any case, if I ask | |
| 3025 | 1566 for `control [' then I should get exactly that, and not |
| 1567 `escape'. | |
| 1568 | |
| 1569 However, we have to behave differently on TTY's, where `control [' | |
| 1570 is silently converted into `escape' by the keyboard driver. | |
| 428 | 1571 In this case, ASCII is the only thing we know about, so we have |
| 1572 to compare the ASCII values. */ | |
| 1573 | |
| 1574 GCPRO1 (event2); | |
| 1204 | 1575 if (EVENTP (key_specifier)) |
| 1576 event2 = Fcopy_event (key_specifier, Qnil); | |
| 1577 else | |
| 1578 event2 = Fcharacter_to_event (key_specifier, Qnil, Qnil, Qnil); | |
| 428 | 1579 if (XEVENT (event2)->event_type != key_press_event) |
| 1580 retval = 0; | |
| 1204 | 1581 else if (CONSOLE_TTY_P (XCONSOLE (XEVENT_CHANNEL (event)))) |
| 428 | 1582 { |
| 1583 int ch1, ch2; | |
| 1584 | |
| 2828 | 1585 ch1 = event_to_character (event, 0, 0); |
| 1586 ch2 = event_to_character (event2, 0, 0); | |
| 428 | 1587 retval = (ch1 >= 0 && ch2 >= 0 && ch1 == ch2); |
| 1588 } | |
| 1204 | 1589 else if (EQ (XEVENT_KEY_KEYSYM (event), XEVENT_KEY_KEYSYM (event2)) && |
| 1590 XEVENT_KEY_MODIFIERS (event) == XEVENT_KEY_MODIFIERS (event2)) | |
| 428 | 1591 retval = 1; |
| 1592 else | |
| 1593 retval = 0; | |
| 1594 Fdeallocate_event (event2); | |
| 1595 UNGCPRO; | |
| 1596 return retval; | |
| 1597 } | |
| 1598 | |
| 1599 static int | |
| 934 | 1600 meta_prefix_char_p (const Lisp_Key_Data *key) |
| 428 | 1601 { |
| 934 | 1602 Lisp_Object event = Fmake_event (Qnil, Qnil); |
| 1603 struct gcpro gcpro1; | |
| 1204 | 1604 int retval; |
| 1605 | |
| 934 | 1606 GCPRO1 (event); |
| 1607 | |
| 1608 XSET_EVENT_TYPE (event, key_press_event); | |
| 1609 XSET_EVENT_CHANNEL (event, Vselected_console); | |
| 1204 | 1610 XSET_EVENT_KEY_KEYSYM (event, KEY_DATA_KEYSYM (key)); |
| 1611 XSET_EVENT_KEY_MODIFIERS (event, KEY_DATA_MODIFIERS (key)); | |
| 1612 retval = event_matches_key_specifier_p (event, Vmeta_prefix_char); | |
| 1613 UNGCPRO; | |
| 1614 return retval; | |
| 428 | 1615 } |
| 1616 | |
| 1617 DEFUN ("event-matches-key-specifier-p", Fevent_matches_key_specifier_p, 2, 2, 0, /* | |
| 1618 Return non-nil if EVENT matches KEY-SPECIFIER. | |
| 1619 This can be useful, e.g., to determine if the user pressed `help-char' or | |
| 1620 `quit-char'. | |
| 1204 | 1621 |
| 1622 KEY-SPECIFIER can be a character, integer, a symbol, a list of modifiers | |
| 1623 and symbols, or an event. | |
| 1624 | |
| 1625 What this actually happens is this: | |
| 1626 | |
| 1627 \(1) Return no, if EVENT is not a key press event or if KEY-SPECIFIER is nil | |
| 1628 or an integer that cannot be converted to a character. | |
| 1629 | |
| 1630 \(2) If KEY-SPECIFIER is a character or integer, | |
| 1631 (event-to-character EVENT nil nil nil) is called, and the characters are | |
| 1632 compared to get the result. The reason for special-casing this and doing | |
| 1633 it this way is to ensure that, e.g., a KEY-SPECIFIER of 27 matches both | |
| 1634 a key-press `escape' and a key-press `control ['. #### Think about META | |
| 1635 argument to event-to-character. | |
| 1636 | |
| 1637 \(3) If KEY-SPECIFIER is an event, fine; else, convert to an event using | |
| 1638 \(character-to-event KEY-SPECIFIER nil nil nil). If EVENT is not on a TTY, | |
| 1639 we just compare keysyms and modifiers and return yes if both are equal. | |
| 1640 For TTY, we do character-level comparison by converting both to a character | |
| 1641 with (event-to-character ... nil nil nil) and comparing the characters. | |
| 1642 | |
| 428 | 1643 */ |
| 1644 (event, key_specifier)) | |
| 1645 { | |
| 1646 CHECK_LIVE_EVENT (event); | |
| 1204 | 1647 return (event_matches_key_specifier_p (event, key_specifier) ? Qt : Qnil); |
| 428 | 1648 } |
| 1204 | 1649 #define MACROLET(k, m) do { \ |
| 1650 SET_KEY_DATA_KEYSYM (returned_value, k); \ | |
| 1651 SET_KEY_DATA_MODIFIERS (returned_value, m); \ | |
| 1652 RETURN_SANS_WARNINGS; \ | |
| 934 | 1653 } while (0) |
| 428 | 1654 /* ASCII grunge. |
| 1655 Given a keysym, return another keysym/modifier pair which could be | |
| 1656 considered the same key in an ASCII world. Backspace returns ^H, for | |
| 1657 example. | |
| 1658 */ | |
| 1659 static void | |
| 934 | 1660 define_key_alternate_name (Lisp_Key_Data *key, |
| 1661 Lisp_Key_Data *returned_value) | |
| 428 | 1662 { |
| 934 | 1663 Lisp_Object keysym = KEY_DATA_KEYSYM (key); |
| 1664 int modifiers = KEY_DATA_MODIFIERS (key); | |
| 442 | 1665 int modifiers_sans_control = (modifiers & (~XEMACS_MOD_CONTROL)); |
| 1666 int modifiers_sans_meta = (modifiers & (~XEMACS_MOD_META)); | |
| 934 | 1667 SET_KEY_DATA_KEYSYM (returned_value, Qnil); /* By default, no "alternate" key */ |
| 1668 SET_KEY_DATA_MODIFIERS (returned_value, 0); | |
| 442 | 1669 if (modifiers_sans_meta == XEMACS_MOD_CONTROL) |
| 428 | 1670 { |
| 722 | 1671 if (EQ (keysym, QKspace)) |
| 428 | 1672 MACROLET (make_char ('@'), modifiers); |
| 1673 else if (!CHARP (keysym)) | |
| 1674 return; | |
| 1675 else switch (XCHAR (keysym)) | |
| 1676 { | |
| 1677 case '@': /* c-@ => c-space */ | |
| 1678 MACROLET (QKspace, modifiers); | |
| 1679 case 'h': /* c-h => backspace */ | |
| 1680 MACROLET (QKbackspace, modifiers_sans_control); | |
| 1681 case 'i': /* c-i => tab */ | |
| 1682 MACROLET (QKtab, modifiers_sans_control); | |
| 1683 case 'j': /* c-j => linefeed */ | |
| 1684 MACROLET (QKlinefeed, modifiers_sans_control); | |
| 1685 case 'm': /* c-m => return */ | |
| 1686 MACROLET (QKreturn, modifiers_sans_control); | |
| 1687 case '[': /* c-[ => escape */ | |
| 1688 MACROLET (QKescape, modifiers_sans_control); | |
| 1689 default: | |
| 1690 return; | |
| 1691 } | |
| 1692 } | |
| 1693 else if (modifiers_sans_meta != 0) | |
| 1694 return; | |
| 1695 else if (EQ (keysym, QKbackspace)) /* backspace => c-h */ | |
| 442 | 1696 MACROLET (make_char ('h'), (modifiers | XEMACS_MOD_CONTROL)); |
| 428 | 1697 else if (EQ (keysym, QKtab)) /* tab => c-i */ |
| 442 | 1698 MACROLET (make_char ('i'), (modifiers | XEMACS_MOD_CONTROL)); |
| 428 | 1699 else if (EQ (keysym, QKlinefeed)) /* linefeed => c-j */ |
| 442 | 1700 MACROLET (make_char ('j'), (modifiers | XEMACS_MOD_CONTROL)); |
| 428 | 1701 else if (EQ (keysym, QKreturn)) /* return => c-m */ |
| 442 | 1702 MACROLET (make_char ('m'), (modifiers | XEMACS_MOD_CONTROL)); |
| 428 | 1703 else if (EQ (keysym, QKescape)) /* escape => c-[ */ |
| 442 | 1704 MACROLET (make_char ('['), (modifiers | XEMACS_MOD_CONTROL)); |
| 428 | 1705 else |
| 1706 return; | |
| 1707 #undef MACROLET | |
| 1708 } | |
| 1709 | |
| 1710 static void | |
| 1711 ensure_meta_prefix_char_keymapp (Lisp_Object keys, int indx, | |
| 1712 Lisp_Object keymap) | |
| 1713 { | |
| 1714 /* This function can GC */ | |
| 1715 Lisp_Object new_keys; | |
| 1716 int i; | |
| 1717 Lisp_Object mpc_binding; | |
| 934 | 1718 Lisp_Key_Data meta_key; |
| 428 | 1719 if (NILP (Vmeta_prefix_char) || |
| 1720 (INTP (Vmeta_prefix_char) && !CHAR_INTP (Vmeta_prefix_char))) | |
| 1721 return; | |
| 1722 | |
| 1723 define_key_parser (Vmeta_prefix_char, &meta_key); | |
| 1724 mpc_binding = keymap_lookup_1 (keymap, &meta_key, 0); | |
| 1725 if (NILP (mpc_binding) || !NILP (Fkeymapp (mpc_binding))) | |
| 1726 return; | |
| 1727 | |
| 1728 if (indx == 0) | |
| 1729 new_keys = keys; | |
| 1730 else if (STRINGP (keys)) | |
|
5089
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Make #'substring an alias of #'subseq; give the latter the byte code.
Aidan Kehoe <kehoea@parhasard.net>
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5050
diff
changeset
|
1731 new_keys = Fsubseq (keys, Qzero, make_int (indx)); |
| 428 | 1732 else if (VECTORP (keys)) |
| 1733 { | |
| 1734 new_keys = make_vector (indx, Qnil); | |
| 1735 for (i = 0; i < indx; i++) | |
| 1736 XVECTOR_DATA (new_keys) [i] = XVECTOR_DATA (keys) [i]; | |
| 1737 } | |
| 1738 else | |
| 442 | 1739 { |
| 1740 new_keys = Qnil; | |
| 2500 | 1741 ABORT (); |
| 442 | 1742 } |
| 428 | 1743 |
| 1744 if (EQ (keys, new_keys)) | |
| 563 | 1745 signal_ferror_with_frob (Qinvalid_operation, mpc_binding, |
| 1746 "can't bind %s: %s has a non-keymap binding", | |
|
4952
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Mule-izing, various fixes related to char * arguments
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|
1747 (CIbyte *) XSTRING_DATA (Fkey_description (keys)), |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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changeset
|
1748 (CIbyte *) XSTRING_DATA (Fsingle_key_description |
|
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Mule-izing, various fixes related to char * arguments
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changeset
|
1749 (Vmeta_prefix_char))); |
| 428 | 1750 else |
| 563 | 1751 signal_ferror_with_frob (Qinvalid_operation, mpc_binding, |
| 1752 "can't bind %s: %s %s has a non-keymap binding", | |
|
4952
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Mule-izing, various fixes related to char * arguments
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|
1753 (CIbyte *) XSTRING_DATA (Fkey_description (keys)), |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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changeset
|
1754 (CIbyte *) XSTRING_DATA (Fkey_description |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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diff
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|
1755 (new_keys)), |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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|
1756 (CIbyte *) XSTRING_DATA (Fsingle_key_description |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
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diff
changeset
|
1757 (Vmeta_prefix_char))); |
| 428 | 1758 } |
| 1759 | |
| 1760 DEFUN ("define-key", Fdefine_key, 3, 3, 0, /* | |
| 1761 Define key sequence KEYS, in KEYMAP, as DEF. | |
| 1762 KEYMAP is a keymap object. | |
| 3086 | 1763 KEYS is the key sequence to bind, described below. |
| 428 | 1764 DEF is anything that can be a key's definition: |
| 1765 nil (means key is undefined in this keymap); | |
| 1766 a command (a Lisp function suitable for interactive calling); | |
| 1767 a string or key sequence vector (treated as a keyboard macro); | |
| 1768 a keymap (to define a prefix key); | |
| 1769 a symbol; when the key is looked up, the symbol will stand for its | |
| 1770 function definition, that should at that time be one of the above, | |
| 1771 or another symbol whose function definition is used, and so on. | |
| 1772 a cons (STRING . DEFN), meaning that DEFN is the definition | |
| 1773 (DEFN should be a valid definition in its own right); | |
| 1774 or a cons (KEYMAP . CHAR), meaning use definition of CHAR in map KEYMAP. | |
| 1775 | |
| 3086 | 1776 A `key sequence' is a vector of one or more keystrokes. |
| 1777 A `keystroke' is a list containing a key and zero or more modifiers. The | |
| 1778 key must be the last element of the list. | |
| 1779 A `key' is a symbol corresponding to a key on the keyboard, or to a mouse | |
| 1780 gesture. Mouse clicks are denoted by symbols prefixed with "button", | |
| 1781 followed by a digit for which button, and optionally "up". Thus `button1' | |
| 1782 means the down-stroke and `button1up' means the up-stroke when clicking | |
| 1783 mouse button 1. | |
| 1784 A `modifier' is a symbol naming a physical key which is only "noticed" by | |
| 1785 XEmacs when chorded with another key. The `shift' modifier is a special | |
| 1786 case. You cannot use `(meta shift a)' to mean `(meta A)', since for | |
| 1787 characters that have ASCII equivalents, the state of the shift key is | |
| 1788 implicit in the keysym (a vs. A). You also cannot say `(shift =)' to mean | |
| 1789 `+', as that correspondence varies from keyboard to keyboard. The shift | |
| 1790 modifier can only be applied to keys that do not have a second keysym on the | |
| 1791 same key, such as `backspace' and `tab'. A mouse click may be combined with | |
| 1792 modifiers to create a compound "keystroke". | |
| 1793 | |
| 1794 The keys, mouse gestures, and modifiers that are available depend on your | |
| 1795 console and its driver. At a minimum the ASCII graphic characters will be | |
| 1796 available as keys, and shift, control, and meta as modifiers. | |
| 1797 | |
| 1798 To find out programmatically what a key is bound to, use `key-binding' to | |
| 1799 check all applicable keymaps, or `lookup-key' to check a specific keymap. | |
| 1800 The documentation for `key-binding' also contains a description of which | |
| 1801 keymaps are applicable in various situations. `where-is-internal' does | |
| 1802 the opposite of `key-binding', i.e. searches keymaps for the keys that | |
| 1803 map to a particular binding. | |
| 1804 | |
| 1805 If you are confused about why a particular key sequence is generating a | |
| 1806 particular binding, and looking through the keymaps doesn't help, setting | |
| 1807 the variable `debug-emacs-events' may help. If not, try checking | |
| 1808 what's in `function-key-map' and `key-translation-map'. | |
| 1809 | |
| 1810 When running under a window system, typically the repertoire of keys is | |
| 1811 vastly expanded. XEmacs does its best to use the names defined on each | |
| 1812 platform. Also, when running under a window system, XEmacs can tell the | |
| 1813 difference between the keystrokes control-h, control-shift-h, and backspace. | |
| 1814 If the symbols differ, you can bind different actions to each. For mouse | |
| 1815 clicks, different commands may be bound to the up and down strokes, though | |
| 1816 that is probably not what you want, so be careful. | |
| 1817 | |
| 1818 Variant representations: | |
| 1819 | |
| 1820 Besides the canonical representation as a vector of lists of symbols, | |
| 1821 `define-key' also accepts a number of abbreviations, aliases, and variants | |
| 1822 for convenience, compatibility, and internal use. | |
| 1823 | |
| 1824 A keystroke may be represented by a key; this is treated as though it were a | |
| 1825 list containing that key as the only element. A keystroke may also be | |
| 1826 represented by an event object, as returned by the `next-command-event' and | |
| 1827 `read-key-sequence' functions. A key sequence may be represented by a | |
| 1828 single keystroke; this is treated as a vector containing that keystroke as | |
| 1829 its only element. | |
| 1830 | |
| 1831 A key may be represented by a character or its equivalent integer code, | |
| 1832 if and only if it is equivalent to a character with a code in the range | |
| 1833 32 - 255. | |
| 1834 | |
| 1835 For backward compatibility, a key sequence may also be represented by a | |
| 1836 string. In this case, it represents the key sequence(s) that would | |
| 1837 produce that sequence of ASCII characters in a purely ASCII world. An | |
| 1838 alternative string representation is keyboard macro notation, which can | |
| 1839 be translated to the canonical representation with `kbd'. | |
| 1840 | |
| 1841 Examples: | |
| 1842 | |
| 1843 The key sequence `A' (which invokes `self-insert-command') is represented | |
| 1844 by all of these forms: | |
| 428 | 1845 A ?A 65 (A) (?A) (65) |
| 1846 [A] [?A] [65] [(A)] [(?A)] [(65)] | |
| 1847 | |
| 3086 | 1848 The key sequence `control-a' is represented by these forms: |
| 428 | 1849 (control A) (control ?A) (control 65) |
| 1850 [(control A)] [(control ?A)] [(control 65)] | |
| 3086 | 1851 |
| 1852 The key sequence `control-c control-a' is represented by these forms: | |
| 428 | 1853 [(control c) (control a)] [(control ?c) (control ?a)] |
| 1854 [(control 99) (control 65)] etc. | |
| 1855 | |
| 3086 | 1856 The keystroke `control-b' *may not* be represented by the number 2 (the |
| 1857 ASCII code for ^B) or the character `?\^B'. | |
| 1858 | |
| 1859 The `break' key may be represented only by the symbol `break'. | |
| 1860 | |
| 428 | 1861 Mouse button clicks work just like keypresses: (control button1) means |
| 1862 pressing the left mouse button while holding down the control key. | |
| 3086 | 1863 |
| 1864 A string containing the ASCII backspace character, "\\^H", would represent | |
| 1865 two key sequences: `(control h)' and `backspace'. Binding a | |
| 428 | 1866 command to this will actually bind both of those key sequences. Likewise |
| 1867 for the following pairs: | |
| 1868 | |
| 1869 control h backspace | |
| 1870 control i tab | |
| 1871 control m return | |
| 1872 control j linefeed | |
| 1873 control [ escape | |
| 1874 control @ control space | |
| 1875 | |
| 1876 After binding a command to two key sequences with a form like | |
| 1877 | |
| 1878 (define-key global-map "\\^X\\^I" \'command-1) | |
| 1879 | |
| 1880 it is possible to redefine only one of those sequences like so: | |
| 1881 | |
| 1882 (define-key global-map [(control x) (control i)] \'command-2) | |
| 1883 (define-key global-map [(control x) tab] \'command-3) | |
| 1884 */ | |
| 1885 (keymap, keys, def)) | |
| 1886 { | |
| 1887 /* This function can GC */ | |
| 1888 int idx; | |
| 1889 int metized = 0; | |
| 1890 int len; | |
| 1891 int ascii_hack; | |
| 1892 struct gcpro gcpro1, gcpro2, gcpro3; | |
| 1893 | |
| 1894 if (VECTORP (keys)) | |
| 1895 len = XVECTOR_LENGTH (keys); | |
| 1896 else if (STRINGP (keys)) | |
| 826 | 1897 len = string_char_length (keys); |
| 428 | 1898 else if (CHAR_OR_CHAR_INTP (keys) || SYMBOLP (keys) || CONSP (keys)) |
| 1899 { | |
| 1900 if (!CONSP (keys)) keys = list1 (keys); | |
| 1901 len = 1; | |
| 1902 keys = make_vector (1, keys); /* this is kinda sleazy. */ | |
| 1903 } | |
| 1904 else | |
| 1905 { | |
| 1906 keys = wrong_type_argument (Qsequencep, keys); | |
| 1907 len = XINT (Flength (keys)); | |
| 1908 } | |
| 1909 if (len == 0) | |
| 1910 return Qnil; | |
| 1911 | |
| 1912 GCPRO3 (keymap, keys, def); | |
| 1913 | |
| 1914 /* ASCII grunge. | |
| 1915 When the user defines a key which, in a strictly ASCII world, would be | |
| 1916 produced by two different keys (^J and linefeed, or ^H and backspace, | |
| 1917 for example) then the binding will be made for both keysyms. | |
| 1918 | |
| 1919 This is done if the user binds a command to a string, as in | |
| 3086 | 1920 (define-key map "\^H" 'something), but not when using the canonical |
| 1921 syntax (define-key map '(control h) 'something). | |
| 428 | 1922 */ |
| 1923 ascii_hack = (STRINGP (keys)); | |
| 1924 | |
| 1925 keymap = get_keymap (keymap, 1, 1); | |
| 1926 | |
| 1927 idx = 0; | |
| 1928 while (1) | |
| 1929 { | |
| 1930 Lisp_Object c; | |
| 934 | 1931 Lisp_Key_Data raw_key1; |
| 1932 Lisp_Key_Data raw_key2; | |
| 428 | 1933 if (STRINGP (keys)) |
| 867 | 1934 c = make_char (string_ichar (keys, idx)); |
| 428 | 1935 else |
| 1936 c = XVECTOR_DATA (keys) [idx]; | |
| 1937 | |
| 1938 define_key_parser (c, &raw_key1); | |
| 1939 | |
| 1940 if (!metized && ascii_hack && meta_prefix_char_p (&raw_key1)) | |
| 1941 { | |
| 1942 if (idx == (len - 1)) | |
| 1943 { | |
| 1944 /* This is a hack to prevent a binding for the meta-prefix-char | |
| 1945 from being made in a map which already has a non-empty "meta" | |
| 1946 submap. That is, we can't let both "escape" and "meta" have | |
| 1947 a binding in the same keymap. This implies that the idiom | |
| 1948 (define-key my-map "\e" my-escape-map) | |
| 1949 (define-key my-escape-map "a" 'my-command) | |
| 1950 no longer works. That's ok. Instead the luser should do | |
| 1951 (define-key my-map "\ea" 'my-command) | |
| 1952 or, more correctly | |
| 1953 (define-key my-map "\M-a" 'my-command) | |
| 1954 and then perhaps | |
| 1955 (defvar my-escape-map (lookup-key my-map "\e")) | |
| 1956 if the luser really wants the map in a variable. | |
| 1957 */ | |
| 440 | 1958 Lisp_Object meta_map; |
| 428 | 1959 struct gcpro ngcpro1; |
| 1960 | |
| 1961 NGCPRO1 (c); | |
| 442 | 1962 meta_map = Fgethash (MAKE_MODIFIER_HASH_KEY (XEMACS_MOD_META), |
| 440 | 1963 XKEYMAP (keymap)->table, Qnil); |
| 1964 if (!NILP (meta_map) | |
| 1965 && keymap_fullness (meta_map) != 0) | |
| 563 | 1966 invalid_operation_2 |
| 440 | 1967 ("Map contains meta-bindings, can't bind", |
| 1968 Fsingle_key_description (Vmeta_prefix_char), keymap); | |
| 428 | 1969 NUNGCPRO; |
| 1970 } | |
| 1971 else | |
| 1972 { | |
| 1973 metized = 1; | |
| 1974 idx++; | |
| 1975 continue; | |
| 1976 } | |
| 1977 } | |
| 1978 | |
| 1979 if (ascii_hack) | |
| 1980 define_key_alternate_name (&raw_key1, &raw_key2); | |
| 1981 else | |
| 1982 { | |
| 1983 raw_key2.keysym = Qnil; | |
| 1984 raw_key2.modifiers = 0; | |
| 1985 } | |
| 1986 | |
| 1987 if (metized) | |
| 1988 { | |
| 442 | 1989 raw_key1.modifiers |= XEMACS_MOD_META; |
| 1990 raw_key2.modifiers |= XEMACS_MOD_META; | |
| 428 | 1991 metized = 0; |
| 1992 } | |
| 1993 | |
| 1994 /* This crap is to make sure that someone doesn't bind something like | |
| 1995 "C-x M-a" while "C-x ESC" has a non-keymap binding. */ | |
| 442 | 1996 if (raw_key1.modifiers & XEMACS_MOD_META) |
| 428 | 1997 ensure_meta_prefix_char_keymapp (keys, idx, keymap); |
| 1998 | |
| 1999 if (++idx == len) | |
| 2000 { | |
| 2001 keymap_store (keymap, &raw_key1, def); | |
| 2002 if (ascii_hack && !NILP (raw_key2.keysym)) | |
| 2003 keymap_store (keymap, &raw_key2, def); | |
| 2004 UNGCPRO; | |
| 2005 return def; | |
| 2006 } | |
| 2007 | |
| 2008 { | |
| 2009 Lisp_Object cmd; | |
| 2010 struct gcpro ngcpro1; | |
| 2011 NGCPRO1 (c); | |
| 2012 | |
| 2013 cmd = keymap_lookup_1 (keymap, &raw_key1, 0); | |
| 2014 if (NILP (cmd)) | |
| 2015 { | |
| 2016 cmd = Fmake_sparse_keymap (Qnil); | |
| 2017 XKEYMAP (cmd)->name /* for debugging */ | |
| 2018 = list2 (make_key_description (&raw_key1, 1), keymap); | |
| 2019 keymap_store (keymap, &raw_key1, cmd); | |
| 2020 } | |
| 2021 if (NILP (Fkeymapp (cmd))) | |
| 563 | 2022 sferror_2 ("Invalid prefix keys in sequence", |
| 428 | 2023 c, keys); |
| 2024 | |
| 2025 if (ascii_hack && !NILP (raw_key2.keysym) && | |
| 2026 NILP (keymap_lookup_1 (keymap, &raw_key2, 0))) | |
| 2027 keymap_store (keymap, &raw_key2, cmd); | |
| 2028 | |
| 2029 keymap = get_keymap (cmd, 1, 1); | |
| 2030 NUNGCPRO; | |
| 2031 } | |
| 2032 } | |
| 2033 } | |
| 2034 | |
| 2035 | |
| 2036 /************************************************************************/ | |
| 2037 /* Looking up keys in keymaps */ | |
| 2038 /************************************************************************/ | |
| 2039 | |
| 2040 /* We need a very fast (i.e., non-consing) version of lookup-key in order | |
| 2041 to make where-is-internal really fly. */ | |
| 2042 | |
| 2043 struct raw_lookup_key_mapper_closure | |
| 2044 { | |
| 2045 int remaining; | |
| 934 | 2046 const Lisp_Key_Data *raw_keys; |
| 428 | 2047 int raw_keys_count; |
| 2048 int keys_so_far; | |
| 2049 int accept_default; | |
| 2050 }; | |
| 2051 | |
| 2052 static Lisp_Object raw_lookup_key_mapper (Lisp_Object k, void *); | |
| 2053 | |
| 2054 /* Caller should gc-protect args (keymaps may autoload) */ | |
| 2055 static Lisp_Object | |
| 2056 raw_lookup_key (Lisp_Object keymap, | |
| 934 | 2057 const Lisp_Key_Data *raw_keys, int raw_keys_count, |
| 428 | 2058 int keys_so_far, int accept_default) |
| 2059 { | |
| 2060 /* This function can GC */ | |
| 2061 struct raw_lookup_key_mapper_closure c; | |
| 2062 c.remaining = raw_keys_count - 1; | |
| 2063 c.raw_keys = raw_keys; | |
| 2064 c.raw_keys_count = raw_keys_count; | |
| 2065 c.keys_so_far = keys_so_far; | |
| 2066 c.accept_default = accept_default; | |
| 2067 | |
| 2068 return traverse_keymaps (keymap, Qnil, raw_lookup_key_mapper, &c); | |
| 2069 } | |
| 2070 | |
| 2071 static Lisp_Object | |
| 2072 raw_lookup_key_mapper (Lisp_Object k, void *arg) | |
| 2073 { | |
| 2074 /* This function can GC */ | |
| 2075 struct raw_lookup_key_mapper_closure *c = | |
| 2076 (struct raw_lookup_key_mapper_closure *) arg; | |
| 2077 int accept_default = c->accept_default; | |
| 2078 int remaining = c->remaining; | |
| 2079 int keys_so_far = c->keys_so_far; | |
| 934 | 2080 const Lisp_Key_Data *raw_keys = c->raw_keys; |
| 428 | 2081 Lisp_Object cmd; |
| 2082 | |
| 2083 if (! meta_prefix_char_p (&(raw_keys[0]))) | |
| 2084 { | |
| 2085 /* Normal case: every case except the meta-hack (see below). */ | |
| 2086 cmd = keymap_lookup_1 (k, &(raw_keys[0]), accept_default); | |
| 2087 | |
| 2088 if (remaining == 0) | |
| 2089 /* Return whatever we found if we're out of keys */ | |
| 2090 ; | |
| 2091 else if (NILP (cmd)) | |
| 2092 /* Found nothing (though perhaps parent map may have binding) */ | |
| 2093 ; | |
| 2094 else if (NILP (Fkeymapp (cmd))) | |
| 2095 /* Didn't find a keymap, and we have more keys. | |
| 2096 * Return a fixnum to indicate that keys were too long. | |
| 2097 */ | |
| 2098 cmd = make_int (keys_so_far + 1); | |
| 2099 else | |
| 2100 cmd = raw_lookup_key (cmd, raw_keys + 1, remaining, | |
| 2101 keys_so_far + 1, accept_default); | |
| 2102 } | |
| 2103 else | |
| 2104 { | |
| 2105 /* This is a hack so that looking up a key-sequence whose last | |
| 2106 * element is the meta-prefix-char will return the keymap that | |
| 2107 * the "meta" keys are stored in, if there is no binding for | |
| 2108 * the meta-prefix-char (and if this map has a "meta" submap). | |
| 2109 * If this map doesn't have a "meta" submap, then the | |
| 2110 * meta-prefix-char is looked up just like any other key. | |
| 2111 */ | |
| 2112 if (remaining == 0) | |
| 2113 { | |
| 2114 /* First look for the prefix-char directly */ | |
| 2115 cmd = keymap_lookup_1 (k, &(raw_keys[0]), accept_default); | |
| 2116 if (NILP (cmd)) | |
| 2117 { | |
| 2118 /* Do kludgy return of the meta-map */ | |
| 442 | 2119 cmd = Fgethash (MAKE_MODIFIER_HASH_KEY (XEMACS_MOD_META), |
| 428 | 2120 XKEYMAP (k)->table, Qnil); |
| 2121 } | |
| 2122 } | |
| 2123 else | |
| 2124 { | |
| 2125 /* Search for the prefix-char-prefixed sequence directly */ | |
| 2126 cmd = keymap_lookup_1 (k, &(raw_keys[0]), accept_default); | |
| 2127 cmd = get_keymap (cmd, 0, 1); | |
| 2128 if (!NILP (cmd)) | |
| 2129 cmd = raw_lookup_key (cmd, raw_keys + 1, remaining, | |
| 2130 keys_so_far + 1, accept_default); | |
| 442 | 2131 else if ((raw_keys[1].modifiers & XEMACS_MOD_META) == 0) |
| 428 | 2132 { |
| 934 | 2133 Lisp_Key_Data metified; |
| 428 | 2134 metified.keysym = raw_keys[1].keysym; |
| 442 | 2135 metified.modifiers = raw_keys[1].modifiers | |
| 2136 (unsigned char) XEMACS_MOD_META; | |
| 428 | 2137 |
| 2138 /* Search for meta-next-char sequence directly */ | |
| 2139 cmd = keymap_lookup_1 (k, &metified, accept_default); | |
| 2140 if (remaining == 1) | |
| 2141 ; | |
| 2142 else | |
| 2143 { | |
| 2144 cmd = get_keymap (cmd, 0, 1); | |
| 2145 if (!NILP (cmd)) | |
| 2146 cmd = raw_lookup_key (cmd, raw_keys + 2, remaining - 1, | |
| 2147 keys_so_far + 2, | |
| 2148 accept_default); | |
| 2149 } | |
| 2150 } | |
| 2151 } | |
| 2152 } | |
| 2153 if (accept_default && NILP (cmd)) | |
| 2154 cmd = XKEYMAP (k)->default_binding; | |
| 2155 return cmd; | |
| 2156 } | |
| 2157 | |
| 2158 /* Value is number if `keys' is too long; NIL if valid but has no definition.*/ | |
| 2159 /* Caller should gc-protect arguments */ | |
| 2160 static Lisp_Object | |
| 2161 lookup_keys (Lisp_Object keymap, int nkeys, Lisp_Object *keys, | |
| 2162 int accept_default) | |
| 2163 { | |
| 2164 /* This function can GC */ | |
| 934 | 2165 Lisp_Key_Data kkk[20]; |
| 2166 Lisp_Key_Data *raw_keys; | |
| 428 | 2167 int i; |
| 2168 | |
| 2169 if (nkeys == 0) | |
| 2170 return Qnil; | |
| 2171 | |
| 438 | 2172 if (nkeys < countof (kkk)) |
| 428 | 2173 raw_keys = kkk; |
| 2174 else | |
| 934 | 2175 raw_keys = alloca_array (Lisp_Key_Data, nkeys); |
| 428 | 2176 |
| 2177 for (i = 0; i < nkeys; i++) | |
| 2178 { | |
| 2179 define_key_parser (keys[i], &(raw_keys[i])); | |
| 2180 } | |
| 2181 return raw_lookup_key (keymap, raw_keys, nkeys, 0, accept_default); | |
| 2182 } | |
| 2183 | |
| 2184 static Lisp_Object | |
| 2185 lookup_events (Lisp_Object event_head, int nmaps, Lisp_Object keymaps[], | |
| 2186 int accept_default) | |
| 2187 { | |
| 2188 /* This function can GC */ | |
| 934 | 2189 Lisp_Key_Data kkk[20]; |
| 428 | 2190 Lisp_Object event; |
| 2191 | |
| 2192 int nkeys; | |
| 934 | 2193 Lisp_Key_Data *raw_keys; |
| 428 | 2194 Lisp_Object tem = Qnil; |
| 2195 struct gcpro gcpro1, gcpro2; | |
| 2196 int iii; | |
| 2197 | |
| 2198 CHECK_LIVE_EVENT (event_head); | |
| 2199 | |
| 2200 nkeys = event_chain_count (event_head); | |
| 2201 | |
| 438 | 2202 if (nkeys < countof (kkk)) |
| 428 | 2203 raw_keys = kkk; |
| 2204 else | |
| 934 | 2205 raw_keys = alloca_array (Lisp_Key_Data, nkeys); |
| 428 | 2206 |
| 2207 nkeys = 0; | |
| 2208 EVENT_CHAIN_LOOP (event, event_head) | |
| 2209 define_key_parser (event, &(raw_keys[nkeys++])); | |
| 2210 GCPRO2 (keymaps[0], event_head); | |
| 2211 gcpro1.nvars = nmaps; | |
| 2212 /* ####raw_keys[].keysym slots aren't gc-protected. We rely (but shouldn't) | |
| 2213 * on somebody else somewhere (obarray) having a pointer to all keysyms. */ | |
| 2214 for (iii = 0; iii < nmaps; iii++) | |
| 2215 { | |
| 2216 tem = raw_lookup_key (keymaps[iii], raw_keys, nkeys, 0, | |
| 2217 accept_default); | |
| 2218 if (INTP (tem)) | |
| 2219 { | |
| 2220 /* Too long in some local map means don't look at global map */ | |
| 2221 tem = Qnil; | |
| 2222 break; | |
| 2223 } | |
| 2224 else if (!NILP (tem)) | |
| 2225 break; | |
| 2226 } | |
| 2227 UNGCPRO; | |
| 2228 return tem; | |
| 2229 } | |
| 2230 | |
| 2231 DEFUN ("lookup-key", Flookup_key, 2, 3, 0, /* | |
| 2232 In keymap KEYMAP, look up key-sequence KEYS. Return the definition. | |
| 2233 Nil is returned if KEYS is unbound. See documentation of `define-key' | |
| 2234 for valid key definitions and key-sequence specifications. | |
| 2235 A number is returned if KEYS is "too long"; that is, the leading | |
| 2236 characters fail to be a valid sequence of prefix characters in KEYMAP. | |
| 444 | 2237 The number is how many key strokes at the front of KEYS it takes to |
| 2238 reach a non-prefix command. | |
| 428 | 2239 */ |
| 2240 (keymap, keys, accept_default)) | |
| 2241 { | |
| 2242 /* This function can GC */ | |
| 2243 if (VECTORP (keys)) | |
| 2244 return lookup_keys (keymap, | |
| 2245 XVECTOR_LENGTH (keys), | |
| 2246 XVECTOR_DATA (keys), | |
| 2247 !NILP (accept_default)); | |
| 2248 else if (SYMBOLP (keys) || CHAR_OR_CHAR_INTP (keys) || CONSP (keys)) | |
| 2249 return lookup_keys (keymap, 1, &keys, !NILP (accept_default)); | |
| 2250 else if (STRINGP (keys)) | |
| 2251 { | |
| 826 | 2252 int length = string_char_length (keys); |
| 428 | 2253 int i; |
| 934 | 2254 Lisp_Key_Data *raw_keys = alloca_array (Lisp_Key_Data, length); |
| 428 | 2255 if (length == 0) |
| 2256 return Qnil; | |
| 2257 | |
| 2258 for (i = 0; i < length; i++) | |
| 2259 { | |
| 867 | 2260 Ichar n = string_ichar (keys, i); |
| 428 | 2261 define_key_parser (make_char (n), &(raw_keys[i])); |
| 2262 } | |
| 2263 return raw_lookup_key (keymap, raw_keys, length, 0, | |
| 2264 !NILP (accept_default)); | |
| 2265 } | |
| 2266 else | |
| 2267 { | |
| 2268 keys = wrong_type_argument (Qsequencep, keys); | |
| 2269 return Flookup_key (keymap, keys, accept_default); | |
| 2270 } | |
| 2271 } | |
| 2272 | |
| 2273 /* Given a key sequence, returns a list of keymaps to search for bindings. | |
| 2274 Does all manner of semi-hairy heuristics, like looking in the current | |
| 2275 buffer's map before looking in the global map and looking in the local | |
| 2276 map of the buffer in which the mouse was clicked in event0 is a click. | |
| 2277 | |
| 2278 It would be kind of nice if this were in Lisp so that this semi-hairy | |
| 2279 semi-heuristic command-lookup behavior could be readily understood and | |
| 2280 customised. However, this needs to be pretty fast, or performance of | |
| 2281 keyboard macros goes to shit; putting this in lisp slows macros down | |
| 2282 2-3x. And they're already slower than v18 by 5-6x. | |
| 2283 */ | |
| 2284 | |
| 2285 struct relevant_maps | |
| 2286 { | |
| 2287 int nmaps; | |
| 647 | 2288 int max_maps; |
| 428 | 2289 Lisp_Object *maps; |
| 2290 struct gcpro *gcpro; | |
| 2291 }; | |
| 2292 | |
| 2293 static void get_relevant_extent_keymaps (Lisp_Object pos, | |
| 2294 Lisp_Object buffer_or_string, | |
| 2295 Lisp_Object glyph, | |
| 2296 struct relevant_maps *closure); | |
| 2297 static void get_relevant_minor_maps (Lisp_Object buffer, | |
| 2298 struct relevant_maps *closure); | |
| 2299 | |
| 2300 static void | |
| 2301 relevant_map_push (Lisp_Object map, struct relevant_maps *closure) | |
| 2302 { | |
| 647 | 2303 int nmaps = closure->nmaps; |
| 428 | 2304 |
| 2305 if (!KEYMAPP (map)) | |
| 2306 return; | |
| 2307 closure->nmaps = nmaps + 1; | |
| 2308 if (nmaps < closure->max_maps) | |
| 2309 { | |
| 2310 closure->maps[nmaps] = map; | |
| 2311 closure->gcpro->nvars = nmaps; | |
| 2312 } | |
| 2313 } | |
| 2314 | |
| 2315 static int | |
| 2316 get_relevant_keymaps (Lisp_Object keys, | |
| 2317 int max_maps, Lisp_Object maps[]) | |
| 2318 { | |
| 2319 /* This function can GC */ | |
| 2320 Lisp_Object terminal = Qnil; | |
| 2321 struct gcpro gcpro1; | |
| 2322 struct relevant_maps closure; | |
| 2323 struct console *con; | |
| 2324 | |
| 2325 GCPRO1 (*maps); | |
| 2326 gcpro1.nvars = 0; | |
| 2327 closure.nmaps = 0; | |
| 2328 closure.max_maps = max_maps; | |
| 2329 closure.maps = maps; | |
| 2330 closure.gcpro = &gcpro1; | |
| 2331 | |
| 2332 if (EVENTP (keys)) | |
| 2333 terminal = event_chain_tail (keys); | |
| 2334 else if (VECTORP (keys)) | |
| 2335 { | |
| 2336 int len = XVECTOR_LENGTH (keys); | |
| 2337 if (len > 0) | |
| 2338 terminal = XVECTOR_DATA (keys)[len - 1]; | |
| 2339 } | |
| 2340 | |
| 2341 if (EVENTP (terminal)) | |
| 2342 { | |
| 2343 CHECK_LIVE_EVENT (terminal); | |
| 2344 con = event_console_or_selected (terminal); | |
| 2345 } | |
| 2346 else | |
| 2347 con = XCONSOLE (Vselected_console); | |
| 2348 | |
| 2349 if (KEYMAPP (con->overriding_terminal_local_map) | |
| 2350 || KEYMAPP (Voverriding_local_map)) | |
| 2351 { | |
| 2352 if (KEYMAPP (con->overriding_terminal_local_map)) | |
| 2353 relevant_map_push (con->overriding_terminal_local_map, &closure); | |
| 2354 if (KEYMAPP (Voverriding_local_map)) | |
| 2355 relevant_map_push (Voverriding_local_map, &closure); | |
| 2356 } | |
| 2357 else if (!EVENTP (terminal) | |
| 2358 || (XEVENT (terminal)->event_type != button_press_event | |
| 2359 && XEVENT (terminal)->event_type != button_release_event)) | |
| 2360 { | |
| 793 | 2361 Lisp_Object tem = wrap_buffer (current_buffer); |
| 2362 | |
| 428 | 2363 /* It's not a mouse event; order of keymaps searched is: |
| 2364 o keymap of any/all extents under the mouse | |
| 2365 o minor-mode maps | |
| 2366 o local-map of current-buffer | |
| 771 | 2367 o global-tty-map or global-window-system-map |
| 428 | 2368 o global-map |
| 2369 */ | |
| 2370 /* The terminal element of the lookup may be nil or a keysym. | |
| 2371 In those cases we don't want to check for an extent | |
| 2372 keymap. */ | |
| 2373 if (EVENTP (terminal)) | |
| 2374 { | |
| 2375 get_relevant_extent_keymaps (make_int (BUF_PT (current_buffer)), | |
| 2376 tem, Qnil, &closure); | |
| 2377 } | |
| 2378 get_relevant_minor_maps (tem, &closure); | |
| 2379 | |
| 2380 tem = current_buffer->keymap; | |
| 2381 if (!NILP (tem)) | |
| 2382 relevant_map_push (tem, &closure); | |
| 2383 } | |
| 2384 #ifdef HAVE_WINDOW_SYSTEM | |
| 2385 else | |
| 2386 { | |
| 2387 /* It's a mouse event; order of keymaps searched is: | |
| 2388 o vertical-divider-map, if event is over a divider | |
| 2389 o local-map of mouse-grabbed-buffer | |
| 2390 o keymap of any/all extents under the mouse | |
| 2391 if the mouse is over a modeline: | |
| 2392 o modeline-map of buffer corresponding to that modeline | |
| 2393 o else, local-map of buffer under the mouse | |
| 2394 o minor-mode maps | |
| 2395 o local-map of current-buffer | |
| 771 | 2396 o global-tty-map or global-window-system-map |
| 428 | 2397 o global-map |
| 2398 */ | |
| 2399 Lisp_Object window = Fevent_window (terminal); | |
| 2400 | |
| 2401 if (!NILP (Fevent_over_vertical_divider_p (terminal))) | |
| 2402 { | |
| 2403 if (KEYMAPP (Vvertical_divider_map)) | |
| 2404 relevant_map_push (Vvertical_divider_map, &closure); | |
| 2405 } | |
| 2406 | |
| 2407 if (BUFFERP (Vmouse_grabbed_buffer)) | |
| 2408 { | |
| 2409 Lisp_Object map = XBUFFER (Vmouse_grabbed_buffer)->keymap; | |
| 2410 | |
| 2411 get_relevant_minor_maps (Vmouse_grabbed_buffer, &closure); | |
| 2412 if (!NILP (map)) | |
| 2413 relevant_map_push (map, &closure); | |
| 2414 } | |
| 2415 | |
| 2416 if (!NILP (window)) | |
| 2417 { | |
| 2418 Lisp_Object buffer = Fwindow_buffer (window); | |
| 2419 | |
| 2420 if (!NILP (buffer)) | |
| 2421 { | |
| 2422 if (!NILP (Fevent_over_modeline_p (terminal))) | |
| 2423 { | |
| 2424 Lisp_Object map = symbol_value_in_buffer (Qmodeline_map, | |
| 2425 buffer); | |
| 2426 | |
| 2427 get_relevant_extent_keymaps | |
| 2428 (Fevent_modeline_position (terminal), | |
| 2429 XBUFFER (buffer)->generated_modeline_string, | |
| 438 | 2430 Fevent_glyph_extent (terminal), &closure); |
| 428 | 2431 |
| 2432 if (!UNBOUNDP (map) && !NILP (map)) | |
| 2433 relevant_map_push (get_keymap (map, 1, 1), &closure); | |
| 2434 } | |
| 2435 else | |
| 2436 { | |
| 2437 get_relevant_extent_keymaps (Fevent_point (terminal), buffer, | |
| 2438 Fevent_glyph_extent (terminal), | |
| 2439 &closure); | |
| 2440 } | |
| 2441 | |
| 2442 if (!EQ (buffer, Vmouse_grabbed_buffer)) /* already pushed */ | |
| 2443 { | |
| 2444 Lisp_Object map = XBUFFER (buffer)->keymap; | |
| 2445 | |
| 2446 get_relevant_minor_maps (buffer, &closure); | |
| 2447 if (!NILP(map)) | |
| 2448 relevant_map_push (map, &closure); | |
| 2449 } | |
| 2450 } | |
| 2451 } | |
| 2452 else if (!NILP (Fevent_over_toolbar_p (terminal))) | |
| 2453 { | |
| 2454 Lisp_Object map = Fsymbol_value (Qtoolbar_map); | |
| 2455 | |
| 2456 if (!UNBOUNDP (map) && !NILP (map)) | |
| 2457 relevant_map_push (map, &closure); | |
| 2458 } | |
| 2459 } | |
| 2460 #endif /* HAVE_WINDOW_SYSTEM */ | |
| 2461 | |
| 771 | 2462 if (CONSOLE_TTY_P (con)) |
| 2463 relevant_map_push (Vglobal_tty_map, &closure); | |
| 2464 else | |
| 2465 relevant_map_push (Vglobal_window_system_map, &closure); | |
| 2466 | |
| 428 | 2467 { |
| 2468 int nmaps = closure.nmaps; | |
| 2469 /* Silently truncate at 100 keymaps to prevent infinite lossage */ | |
| 2470 if (nmaps >= max_maps && max_maps > 0) | |
| 2471 maps[max_maps - 1] = Vcurrent_global_map; | |
| 2472 else | |
| 2473 maps[nmaps] = Vcurrent_global_map; | |
| 2474 UNGCPRO; | |
| 2475 return nmaps + 1; | |
| 2476 } | |
| 2477 } | |
| 2478 | |
| 2479 /* Returns a set of keymaps extracted from the extents at POS in | |
| 2480 BUFFER_OR_STRING. The GLYPH arg, if specified, is one more extent | |
| 2481 to look for a keymap in, and if it has one, its keymap will be the | |
| 2482 first element in the list returned. This is so we can correctly | |
| 2483 search the keymaps associated with glyphs which may be physically | |
| 2484 disjoint from their extents: for example, if a glyph is out in the | |
| 2485 margin, we should still consult the keymap of that glyph's extent, | |
| 2486 which may not itself be under the mouse. | |
| 2487 */ | |
| 2488 | |
| 2489 static void | |
| 2490 get_relevant_extent_keymaps (Lisp_Object pos, Lisp_Object buffer_or_string, | |
| 2491 Lisp_Object glyph, | |
| 2492 struct relevant_maps *closure) | |
| 2493 { | |
| 2494 /* This function can GC */ | |
| 2495 /* the glyph keymap, if any, comes first. | |
| 2496 (Processing it twice is no big deal: noop.) */ | |
| 2497 if (!NILP (glyph)) | |
| 2498 { | |
| 2499 Lisp_Object keymap = Fextent_property (glyph, Qkeymap, Qnil); | |
| 2500 if (!NILP (keymap)) | |
| 2501 relevant_map_push (get_keymap (keymap, 1, 1), closure); | |
| 2502 } | |
| 2503 | |
| 2504 /* Next check the extents at the text position, if any */ | |
| 2505 if (!NILP (pos)) | |
| 2506 { | |
| 2507 Lisp_Object extent; | |
| 2508 for (extent = Fextent_at (pos, buffer_or_string, Qkeymap, Qnil, Qnil); | |
| 2509 !NILP (extent); | |
| 2510 extent = Fextent_at (pos, buffer_or_string, Qkeymap, extent, Qnil)) | |
| 2511 { | |
| 2512 Lisp_Object keymap = Fextent_property (extent, Qkeymap, Qnil); | |
| 2513 if (!NILP (keymap)) | |
| 2514 relevant_map_push (get_keymap (keymap, 1, 1), closure); | |
| 2515 QUIT; | |
| 2516 } | |
| 2517 } | |
| 2518 } | |
| 2519 | |
| 2520 static Lisp_Object | |
| 2521 minor_mode_keymap_predicate (Lisp_Object assoc, Lisp_Object buffer) | |
| 2522 { | |
| 2523 /* This function can GC */ | |
| 2524 if (CONSP (assoc)) | |
| 2525 { | |
| 2526 Lisp_Object sym = XCAR (assoc); | |
| 2527 if (SYMBOLP (sym)) | |
| 2528 { | |
| 2529 Lisp_Object val = symbol_value_in_buffer (sym, buffer); | |
| 2530 if (!NILP (val) && !UNBOUNDP (val)) | |
| 2531 { | |
| 793 | 2532 return get_keymap (XCDR (assoc), 0, 1); |
| 428 | 2533 } |
| 2534 } | |
| 2535 } | |
| 2536 return Qnil; | |
| 2537 } | |
| 2538 | |
| 2539 static void | |
| 2540 get_relevant_minor_maps (Lisp_Object buffer, struct relevant_maps *closure) | |
| 2541 { | |
| 2542 /* This function can GC */ | |
| 2543 Lisp_Object alist; | |
| 2544 | |
| 2545 /* Will you ever lose badly if you make this circular! */ | |
| 2546 for (alist = symbol_value_in_buffer (Qminor_mode_map_alist, buffer); | |
| 2547 CONSP (alist); | |
| 2548 alist = XCDR (alist)) | |
| 2549 { | |
| 2550 Lisp_Object m = minor_mode_keymap_predicate (XCAR (alist), | |
| 2551 buffer); | |
| 2552 if (!NILP (m)) relevant_map_push (m, closure); | |
| 2553 QUIT; | |
| 2554 } | |
| 2555 } | |
| 2556 | |
| 2557 /* #### Would map-current-keymaps be a better thing?? */ | |
| 2558 DEFUN ("current-keymaps", Fcurrent_keymaps, 0, 1, 0, /* | |
| 2559 Return a list of the current keymaps that will be searched for bindings. | |
| 2560 This lists keymaps such as the current local map and the minor-mode maps, | |
| 2561 but does not list the parents of those keymaps. | |
| 2562 EVENT-OR-KEYS controls which keymaps will be listed. | |
| 2563 If EVENT-OR-KEYS is a mouse event (or a vector whose last element is a | |
| 2564 mouse event), the keymaps for that mouse event will be listed (see | |
| 2565 `key-binding'). Otherwise, the keymaps for key presses will be listed. | |
| 771 | 2566 See `key-binding' for a description of which keymaps are searched in |
| 2567 various situations. | |
| 428 | 2568 */ |
| 2569 (event_or_keys)) | |
| 2570 { | |
| 2571 /* This function can GC */ | |
| 2572 struct gcpro gcpro1; | |
| 2573 Lisp_Object maps[100]; | |
| 2574 Lisp_Object *gubbish = maps; | |
| 2575 int nmaps; | |
| 2576 | |
| 2577 GCPRO1 (event_or_keys); | |
| 2578 nmaps = get_relevant_keymaps (event_or_keys, countof (maps), | |
| 2579 gubbish); | |
| 2580 if (nmaps > countof (maps)) | |
| 2581 { | |
| 2582 gubbish = alloca_array (Lisp_Object, nmaps); | |
| 2583 nmaps = get_relevant_keymaps (event_or_keys, nmaps, gubbish); | |
| 2584 } | |
| 2585 UNGCPRO; | |
| 2586 return Flist (nmaps, gubbish); | |
| 2587 } | |
| 2588 | |
| 2589 DEFUN ("key-binding", Fkey_binding, 1, 2, 0, /* | |
| 2590 Return the binding for command KEYS in current keymaps. | |
| 2591 KEYS is a string, a vector of events, or a vector of key-description lists | |
| 2592 as described in the documentation for the `define-key' function. | |
| 2593 The binding is probably a symbol with a function definition; see | |
| 2594 the documentation for `lookup-key' for more information. | |
| 2595 | |
| 2596 For key-presses, the order of keymaps searched is: | |
| 2597 - the `keymap' property of any extent(s) at point; | |
| 2598 - any applicable minor-mode maps; | |
| 444 | 2599 - the current local map of the current-buffer; |
| 771 | 2600 - either `global-tty-map' or `global-window-system-map', depending on |
| 2601 whether the current console is a TTY or non-TTY console; | |
| 428 | 2602 - the current global map. |
| 2603 | |
| 2604 For mouse-clicks, the order of keymaps searched is: | |
| 2605 - the current-local-map of the `mouse-grabbed-buffer' if any; | |
| 2606 - vertical-divider-map, if the event happened over a vertical divider | |
| 2607 - the `keymap' property of any extent(s) at the position of the click | |
| 2608 (this includes modeline extents); | |
| 2609 - the modeline-map of the buffer corresponding to the modeline under | |
| 2610 the mouse (if the click happened over a modeline); | |
| 444 | 2611 - the value of `toolbar-map' in the current-buffer (if the click |
| 428 | 2612 happened over a toolbar); |
| 444 | 2613 - the current local map of the buffer under the mouse (does not |
| 428 | 2614 apply to toolbar clicks); |
| 2615 - any applicable minor-mode maps; | |
| 771 | 2616 - either `global-tty-map' or `global-window-system-map', depending on |
| 2617 whether the current console is a TTY or non-TTY console; | |
| 428 | 2618 - the current global map. |
| 2619 | |
| 2620 Note that if `overriding-local-map' or `overriding-terminal-local-map' | |
| 2621 is non-nil, *only* those two maps and the current global map are searched. | |
| 771 | 2622 |
| 2623 Note also that key sequences actually received from the keyboard driver | |
| 2624 may be processed in various ways to generate the key sequence that is | |
| 2625 actually looked up in the keymaps. In particular: | |
| 2626 | |
| 2627 -- Keysyms are individually passed through `keyboard-translate-table' before | |
| 2628 any other processing. | |
| 2629 -- After this, key sequences as a whole are passed through | |
| 2630 `key-translation-map'. | |
| 2631 -- The resulting key sequence is actually looked up in the keymaps. | |
| 2632 -- If there's no binding found, the key sequence is passed through | |
| 2633 `function-key-map' and looked up again. | |
| 2634 -- If no binding is found and `retry-undefined-key-binding-unshifted' is | |
| 2635 set (it usually is) and the final keysym is an uppercase character, | |
| 2636 we lowercase it and start over from the `key-translation-map' stage. | |
| 2637 -- If no binding is found and we're on MS Windows and have international | |
| 2638 support, we successively remap the key sequence using the keyboard layouts | |
| 2639 of various default locales (current language environment, user default, | |
| 2640 system default, US ASCII) and try again. This makes (e.g.) sequences | |
| 2641 such as `C-x b' work in a Russian locale, where the alphabetic keys are | |
| 2642 actually generating Russian characters and not the Roman letters written | |
| 2643 on the keycaps. (Not yet implemented) | |
| 2644 -- Finally, if the last keystroke matches `help-char', we automatically | |
| 2645 generate and display a list of possible key sequences and bindings | |
| 2646 given the prefix so far generated. | |
| 428 | 2647 */ |
| 2648 (keys, accept_default)) | |
| 2649 { | |
| 2650 /* This function can GC */ | |
| 2651 int i; | |
| 2652 Lisp_Object maps[100]; | |
| 2653 int nmaps; | |
| 2654 struct gcpro gcpro1, gcpro2; | |
| 2655 GCPRO2 (keys, accept_default); /* get_relevant_keymaps may autoload */ | |
| 2656 | |
| 2657 nmaps = get_relevant_keymaps (keys, countof (maps), maps); | |
| 2658 | |
| 2659 UNGCPRO; | |
| 2660 | |
| 2661 if (EVENTP (keys)) /* unadvertised "feature" for the future */ | |
| 2662 return lookup_events (keys, nmaps, maps, !NILP (accept_default)); | |
| 2663 | |
| 2664 for (i = 0; i < nmaps; i++) | |
| 2665 { | |
| 2666 Lisp_Object tem = Flookup_key (maps[i], keys, | |
| 2667 accept_default); | |
| 2668 if (INTP (tem)) | |
| 2669 { | |
| 2670 /* Too long in some local map means don't look at global map */ | |
| 2671 return Qnil; | |
| 2672 } | |
| 2673 else if (!NILP (tem)) | |
| 2674 return tem; | |
| 2675 } | |
| 2676 return Qnil; | |
| 2677 } | |
| 2678 | |
| 2679 static Lisp_Object | |
| 2680 process_event_binding_result (Lisp_Object result) | |
| 2681 { | |
| 2682 if (EQ (result, Qundefined)) | |
| 3025 | 2683 /* The suppress-keymap function binds keys to `undefined' - special-case |
| 428 | 2684 that here, so that being bound to that has the same error-behavior as |
| 2685 not being defined at all. | |
| 2686 */ | |
| 2687 result = Qnil; | |
| 2688 if (!NILP (result)) | |
| 2689 { | |
| 2690 Lisp_Object map; | |
| 2691 /* Snap out possible keymap indirections */ | |
| 2692 map = get_keymap (result, 0, 1); | |
| 2693 if (!NILP (map)) | |
| 2694 result = map; | |
| 2695 } | |
| 2696 | |
| 2697 return result; | |
| 2698 } | |
| 2699 | |
| 2700 /* Attempts to find a command corresponding to the event-sequence | |
| 2701 whose head is event0 (sequence is threaded though event_next). | |
| 2702 | |
| 2703 The return value will be | |
| 2704 | |
| 2705 -- nil (there is no binding; this will also be returned | |
| 2706 whenever the event chain is "too long", i.e. there | |
| 2707 is a non-nil, non-keymap binding for a prefix of | |
| 2708 the event chain) | |
| 2709 -- a keymap (part of a command has been specified) | |
| 2710 -- a command (anything that satisfies `commandp'; this includes | |
| 2711 some symbols, lists, subrs, strings, vectors, and | |
| 2712 compiled-function objects) */ | |
| 2713 Lisp_Object | |
| 2714 event_binding (Lisp_Object event0, int accept_default) | |
| 2715 { | |
| 2716 /* This function can GC */ | |
| 2717 Lisp_Object maps[100]; | |
| 2718 int nmaps; | |
| 2719 | |
| 2720 assert (EVENTP (event0)); | |
| 2721 | |
| 2722 nmaps = get_relevant_keymaps (event0, countof (maps), maps); | |
| 2723 if (nmaps > countof (maps)) | |
| 2724 nmaps = countof (maps); | |
| 2725 return process_event_binding_result (lookup_events (event0, nmaps, maps, | |
| 2726 accept_default)); | |
| 2727 } | |
| 2728 | |
| 2729 /* like event_binding, but specify a keymap to search */ | |
| 2730 | |
| 2731 Lisp_Object | |
| 2732 event_binding_in (Lisp_Object event0, Lisp_Object keymap, int accept_default) | |
| 2733 { | |
| 2734 /* This function can GC */ | |
| 2735 if (!KEYMAPP (keymap)) | |
| 2736 return Qnil; | |
| 2737 | |
| 2738 return process_event_binding_result (lookup_events (event0, 1, &keymap, | |
| 2739 accept_default)); | |
| 2740 } | |
| 2741 | |
| 2742 /* Attempts to find a function key mapping corresponding to the | |
| 2743 event-sequence whose head is event0 (sequence is threaded through | |
| 2744 event_next). The return value will be the same as for event_binding(). */ | |
| 2745 Lisp_Object | |
| 2746 munging_key_map_event_binding (Lisp_Object event0, | |
| 2747 enum munge_me_out_the_door munge) | |
| 2748 { | |
| 2749 Lisp_Object keymap = (munge == MUNGE_ME_FUNCTION_KEY) ? | |
| 2750 CONSOLE_FUNCTION_KEY_MAP (event_console_or_selected (event0)) : | |
| 2751 Vkey_translation_map; | |
| 2752 | |
| 2753 if (NILP (keymap)) | |
| 2754 return Qnil; | |
| 2755 | |
| 2756 return process_event_binding_result (lookup_events (event0, 1, &keymap, 1)); | |
| 2757 } | |
| 2758 | |
| 2759 | |
| 2760 /************************************************************************/ | |
| 2761 /* Setting/querying the global and local maps */ | |
| 2762 /************************************************************************/ | |
| 2763 | |
| 2764 DEFUN ("use-global-map", Fuse_global_map, 1, 1, 0, /* | |
| 2765 Select KEYMAP as the global keymap. | |
| 2766 */ | |
| 2767 (keymap)) | |
| 2768 { | |
| 2769 /* This function can GC */ | |
| 2770 keymap = get_keymap (keymap, 1, 1); | |
| 2771 Vcurrent_global_map = keymap; | |
| 2772 return Qnil; | |
| 2773 } | |
| 2774 | |
| 2775 DEFUN ("use-local-map", Fuse_local_map, 1, 2, 0, /* | |
| 2776 Select KEYMAP as the local keymap in BUFFER. | |
| 2777 If KEYMAP is nil, that means no local keymap. | |
| 2778 If BUFFER is nil, the current buffer is assumed. | |
| 2779 */ | |
| 2780 (keymap, buffer)) | |
| 2781 { | |
| 2782 /* This function can GC */ | |
| 2783 struct buffer *b = decode_buffer (buffer, 0); | |
| 2784 if (!NILP (keymap)) | |
| 2785 keymap = get_keymap (keymap, 1, 1); | |
| 2786 | |
| 2787 b->keymap = keymap; | |
| 2788 | |
| 2789 return Qnil; | |
| 2790 } | |
| 2791 | |
| 2792 DEFUN ("current-local-map", Fcurrent_local_map, 0, 1, 0, /* | |
| 2793 Return BUFFER's local keymap, or nil if it has none. | |
| 2794 If BUFFER is nil, the current buffer is assumed. | |
| 2795 */ | |
| 2796 (buffer)) | |
| 2797 { | |
| 2798 struct buffer *b = decode_buffer (buffer, 0); | |
| 2799 return b->keymap; | |
| 2800 } | |
| 2801 | |
| 2802 DEFUN ("current-global-map", Fcurrent_global_map, 0, 0, 0, /* | |
| 2803 Return the current global keymap. | |
| 2804 */ | |
| 2805 ()) | |
| 2806 { | |
| 2807 return Vcurrent_global_map; | |
| 2808 } | |
| 2809 | |
| 2810 | |
| 2811 /************************************************************************/ | |
| 2812 /* Mapping over keymap elements */ | |
| 2813 /************************************************************************/ | |
| 2814 | |
| 2815 /* Since keymaps are arranged in a hierarchy, one keymap per bucky bit or | |
| 2816 prefix key, it's not entirely obvious what map-keymap should do, but | |
| 2817 what it does is: map over all keys in this map; then recursively map | |
| 2818 over all submaps of this map that are "bucky" submaps. This means that, | |
| 2819 when mapping over a keymap, it appears that "x" and "C-x" are in the | |
| 2820 same map, although "C-x" is really in the "control" submap of this one. | |
| 2821 However, since we don't recursively descend the submaps that are bound | |
| 2822 to prefix keys (like C-x, C-h, etc) the caller will have to recurse on | |
| 2823 those explicitly, if that's what they want. | |
| 2824 | |
| 2825 So the end result of this is that the bucky keymaps (the ones indexed | |
| 2826 under the large integers returned from MAKE_MODIFIER_HASH_KEY()) are | |
| 2827 invisible from elisp. They're just an implementation detail that code | |
| 2828 outside of this file doesn't need to know about. | |
| 2829 */ | |
| 2830 | |
| 2831 struct map_keymap_unsorted_closure | |
| 2832 { | |
| 934 | 2833 void (*fn) (const Lisp_Key_Data *, Lisp_Object binding, void *arg); |
| 428 | 2834 void *arg; |
| 442 | 2835 int modifiers; |
| 428 | 2836 }; |
| 2837 | |
| 2838 /* used by map_keymap() */ | |
| 2839 static int | |
| 2840 map_keymap_unsorted_mapper (Lisp_Object keysym, Lisp_Object value, | |
| 2841 void *map_keymap_unsorted_closure) | |
| 2842 { | |
| 2843 /* This function can GC */ | |
| 2844 struct map_keymap_unsorted_closure *closure = | |
| 2845 (struct map_keymap_unsorted_closure *) map_keymap_unsorted_closure; | |
| 442 | 2846 int modifiers = closure->modifiers; |
| 2847 int mod_bit; | |
| 428 | 2848 mod_bit = MODIFIER_HASH_KEY_BITS (keysym); |
| 2849 if (mod_bit != 0) | |
| 2850 { | |
| 2851 int omod = modifiers; | |
| 2852 closure->modifiers = (modifiers | mod_bit); | |
| 2853 value = get_keymap (value, 1, 0); | |
| 2854 elisp_maphash (map_keymap_unsorted_mapper, | |
| 2855 XKEYMAP (value)->table, | |
| 2856 map_keymap_unsorted_closure); | |
| 2857 closure->modifiers = omod; | |
| 2858 } | |
| 2859 else | |
| 2860 { | |
| 934 | 2861 Lisp_Key_Data key; |
| 428 | 2862 key.keysym = keysym; |
| 2863 key.modifiers = modifiers; | |
| 2864 ((*closure->fn) (&key, value, closure->arg)); | |
| 2865 } | |
| 2866 return 0; | |
| 2867 } | |
| 2868 | |
| 2869 | |
| 2870 struct map_keymap_sorted_closure | |
| 2871 { | |
| 2872 Lisp_Object *result_locative; | |
| 2873 }; | |
| 2874 | |
| 2875 /* used by map_keymap_sorted() */ | |
| 2876 static int | |
| 2877 map_keymap_sorted_mapper (Lisp_Object key, Lisp_Object value, | |
| 2878 void *map_keymap_sorted_closure) | |
| 2879 { | |
| 2880 struct map_keymap_sorted_closure *cl = | |
| 2881 (struct map_keymap_sorted_closure *) map_keymap_sorted_closure; | |
| 2882 Lisp_Object *list = cl->result_locative; | |
| 2883 *list = Fcons (Fcons (key, value), *list); | |
| 2884 return 0; | |
| 2885 } | |
| 2886 | |
| 2887 | |
| 2888 /* used by map_keymap_sorted(), describe_map_sort_predicate(), | |
| 2889 and keymap_submaps(). | |
| 2890 */ | |
| 2891 static int | |
| 2892 map_keymap_sort_predicate (Lisp_Object obj1, Lisp_Object obj2, | |
| 2286 | 2893 Lisp_Object UNUSED (pred)) |
| 428 | 2894 { |
| 2895 /* obj1 and obj2 are conses with keysyms in their cars. Cdrs are ignored. | |
| 2896 */ | |
| 442 | 2897 int bit1, bit2; |
| 428 | 2898 int sym1_p = 0; |
| 2899 int sym2_p = 0; | |
| 2828 | 2900 extern Lisp_Object Qcharacter_of_keysym; |
| 2901 | |
| 428 | 2902 obj1 = XCAR (obj1); |
| 2903 obj2 = XCAR (obj2); | |
| 2904 | |
| 2905 if (EQ (obj1, obj2)) | |
| 2906 return -1; | |
| 2907 bit1 = MODIFIER_HASH_KEY_BITS (obj1); | |
| 2908 bit2 = MODIFIER_HASH_KEY_BITS (obj2); | |
| 2909 | |
| 2828 | 2910 /* If either is a symbol with a Qcharacter_of_keysym property, then sort it by |
| 428 | 2911 that code instead of alphabetically. |
| 2912 */ | |
| 2913 if (! bit1 && SYMBOLP (obj1)) | |
| 2914 { | |
| 2828 | 2915 Lisp_Object code = Fget (obj1, Qcharacter_of_keysym, Qnil); |
| 428 | 2916 if (CHAR_OR_CHAR_INTP (code)) |
| 2917 { | |
| 2918 obj1 = code; | |
| 2919 CHECK_CHAR_COERCE_INT (obj1); | |
| 2920 sym1_p = 1; | |
| 2921 } | |
| 2922 } | |
| 2923 if (! bit2 && SYMBOLP (obj2)) | |
| 2924 { | |
| 2828 | 2925 Lisp_Object code = Fget (obj2, Qcharacter_of_keysym, Qnil); |
| 428 | 2926 if (CHAR_OR_CHAR_INTP (code)) |
| 2927 { | |
| 2928 obj2 = code; | |
| 2929 CHECK_CHAR_COERCE_INT (obj2); | |
| 2930 sym2_p = 1; | |
| 2931 } | |
| 2932 } | |
| 2933 | |
| 2934 /* all symbols (non-ASCIIs) come after characters (ASCIIs) */ | |
| 2935 if (XTYPE (obj1) != XTYPE (obj2)) | |
| 2936 return SYMBOLP (obj2) ? 1 : -1; | |
| 2937 | |
| 2938 if (! bit1 && CHARP (obj1)) /* they're both ASCII */ | |
| 2939 { | |
| 2940 int o1 = XCHAR (obj1); | |
| 2941 int o2 = XCHAR (obj2); | |
| 2942 if (o1 == o2 && /* If one started out as a symbol and the */ | |
| 2943 sym1_p != sym2_p) /* other didn't, the symbol comes last. */ | |
| 2944 return sym2_p ? 1 : -1; | |
| 2945 | |
| 2946 return o1 < o2 ? 1 : -1; /* else just compare them */ | |
| 2947 } | |
| 2948 | |
| 2949 /* else they're both symbols. If they're both buckys, then order them. */ | |
| 2950 if (bit1 && bit2) | |
| 2951 return bit1 < bit2 ? 1 : -1; | |
| 2952 | |
| 2953 /* if only one is a bucky, then it comes later */ | |
| 2954 if (bit1 || bit2) | |
| 2955 return bit2 ? 1 : -1; | |
| 2956 | |
| 2957 /* otherwise, string-sort them. */ | |
| 2958 { | |
| 867 | 2959 Ibyte *s1 = XSTRING_DATA (XSYMBOL (obj1)->name); |
| 2960 Ibyte *s2 = XSTRING_DATA (XSYMBOL (obj2)->name); | |
| 793 | 2961 return 0 > qxestrcmp (s1, s2) ? 1 : -1; |
| 428 | 2962 } |
| 2963 } | |
| 2964 | |
| 2965 | |
| 2966 /* used by map_keymap() */ | |
| 2967 static void | |
| 2968 map_keymap_sorted (Lisp_Object keymap_table, | |
| 442 | 2969 int modifiers, |
| 934 | 2970 void (*function) (const Lisp_Key_Data *key, |
| 428 | 2971 Lisp_Object binding, |
| 2972 void *map_keymap_sorted_closure), | |
| 2973 void *map_keymap_sorted_closure) | |
| 2974 { | |
| 2975 /* This function can GC */ | |
| 2976 struct gcpro gcpro1; | |
| 2977 Lisp_Object contents = Qnil; | |
| 2978 | |
| 2979 if (XINT (Fhash_table_count (keymap_table)) == 0) | |
| 2980 return; | |
| 2981 | |
| 2982 GCPRO1 (contents); | |
| 2983 | |
| 2984 { | |
| 2985 struct map_keymap_sorted_closure c1; | |
| 2986 c1.result_locative = &contents; | |
| 2987 elisp_maphash (map_keymap_sorted_mapper, keymap_table, &c1); | |
| 2988 } | |
| 2989 contents = list_sort (contents, Qnil, map_keymap_sort_predicate); | |
| 2990 for (; !NILP (contents); contents = XCDR (contents)) | |
| 2991 { | |
| 2992 Lisp_Object keysym = XCAR (XCAR (contents)); | |
| 2993 Lisp_Object binding = XCDR (XCAR (contents)); | |
| 442 | 2994 int sub_bits = MODIFIER_HASH_KEY_BITS (keysym); |
| 428 | 2995 if (sub_bits != 0) |
| 2996 map_keymap_sorted (XKEYMAP (get_keymap (binding, | |
| 2997 1, 1))->table, | |
| 2998 (modifiers | sub_bits), | |
| 2999 function, | |
| 3000 map_keymap_sorted_closure); | |
| 3001 else | |
| 3002 { | |
| 934 | 3003 Lisp_Key_Data k; |
| 428 | 3004 k.keysym = keysym; |
| 3005 k.modifiers = modifiers; | |
| 3006 ((*function) (&k, binding, map_keymap_sorted_closure)); | |
| 3007 } | |
| 3008 } | |
| 3009 UNGCPRO; | |
| 3010 } | |
| 3011 | |
| 3012 | |
| 3013 /* used by Fmap_keymap() */ | |
| 3014 static void | |
| 934 | 3015 map_keymap_mapper (const Lisp_Key_Data *key, |
| 428 | 3016 Lisp_Object binding, |
| 3017 void *function) | |
| 3018 { | |
| 3019 /* This function can GC */ | |
| 3020 Lisp_Object fn; | |
| 5013 | 3021 fn = GET_LISP_FROM_VOID (function); |
| 428 | 3022 call2 (fn, make_key_description (key, 1), binding); |
| 3023 } | |
| 3024 | |
| 3025 | |
| 3026 static void | |
| 3027 map_keymap (Lisp_Object keymap_table, int sort_first, | |
| 934 | 3028 void (*function) (const Lisp_Key_Data *key, |
| 428 | 3029 Lisp_Object binding, |
| 3030 void *fn_arg), | |
| 3031 void *fn_arg) | |
| 3032 { | |
| 3033 /* This function can GC */ | |
| 3034 if (sort_first) | |
| 3035 map_keymap_sorted (keymap_table, 0, function, fn_arg); | |
| 3036 else | |
| 3037 { | |
| 3038 struct map_keymap_unsorted_closure map_keymap_unsorted_closure; | |
| 3039 map_keymap_unsorted_closure.fn = function; | |
| 3040 map_keymap_unsorted_closure.arg = fn_arg; | |
| 3041 map_keymap_unsorted_closure.modifiers = 0; | |
| 3042 elisp_maphash (map_keymap_unsorted_mapper, keymap_table, | |
| 3043 &map_keymap_unsorted_closure); | |
| 3044 } | |
| 3045 } | |
| 3046 | |
| 3047 DEFUN ("map-keymap", Fmap_keymap, 2, 3, 0, /* | |
| 3048 Apply FUNCTION to each element of KEYMAP. | |
| 3049 FUNCTION will be called with two arguments: a key-description list, and | |
| 3050 the binding. The order in which the elements of the keymap are passed to | |
| 3051 the function is unspecified. If the function inserts new elements into | |
| 3052 the keymap, it may or may not be called with them later. No element of | |
| 3053 the keymap will ever be passed to the function more than once. | |
| 3054 | |
| 3055 The function will not be called on elements of this keymap's parents | |
| 3056 \(see the function `keymap-parents') or upon keymaps which are contained | |
| 3057 within this keymap (multi-character definitions). | |
| 3058 It will be called on "meta" characters since they are not really | |
| 3059 two-character sequences. | |
| 3060 | |
| 3061 If the optional third argument SORT-FIRST is non-nil, then the elements of | |
| 3062 the keymap will be passed to the mapper function in a canonical order. | |
| 3063 Otherwise, they will be passed in hash (that is, random) order, which is | |
| 3064 faster. | |
| 3065 */ | |
| 3066 (function, keymap, sort_first)) | |
| 3067 { | |
| 3068 /* This function can GC */ | |
| 489 | 3069 struct gcpro gcpro1, gcpro2; |
| 428 | 3070 |
| 3071 /* tolerate obviously transposed args */ | |
| 3072 if (!NILP (Fkeymapp (function))) | |
| 3073 { | |
| 3074 Lisp_Object tmp = function; | |
| 3075 function = keymap; | |
| 3076 keymap = tmp; | |
| 3077 } | |
| 489 | 3078 GCPRO2 (function, keymap); |
| 428 | 3079 keymap = get_keymap (keymap, 1, 1); |
| 489 | 3080 map_keymap (XKEYMAP (keymap)->table, !NILP (sort_first), |
| 5013 | 3081 map_keymap_mapper, STORE_LISP_IN_VOID (function)); |
| 428 | 3082 UNGCPRO; |
| 3083 return Qnil; | |
| 3084 } | |
| 3085 | |
| 3086 | |
| 3087 | |
| 3088 /************************************************************************/ | |
| 3089 /* Accessible keymaps */ | |
| 3090 /************************************************************************/ | |
| 3091 | |
| 3092 struct accessible_keymaps_closure | |
| 3093 { | |
| 3094 Lisp_Object tail; | |
| 3095 }; | |
| 3096 | |
| 3097 | |
| 3098 static void | |
| 3099 accessible_keymaps_mapper_1 (Lisp_Object keysym, Lisp_Object contents, | |
| 442 | 3100 int modifiers, |
| 428 | 3101 struct accessible_keymaps_closure *closure) |
| 3102 { | |
| 3103 /* This function can GC */ | |
| 442 | 3104 int subbits = MODIFIER_HASH_KEY_BITS (keysym); |
| 428 | 3105 |
| 3106 if (subbits != 0) | |
| 3107 { | |
| 3108 Lisp_Object submaps; | |
| 3109 | |
| 3110 contents = get_keymap (contents, 1, 1); | |
| 3111 submaps = keymap_submaps (contents); | |
| 3112 for (; !NILP (submaps); submaps = XCDR (submaps)) | |
| 3113 { | |
| 3114 accessible_keymaps_mapper_1 (XCAR (XCAR (submaps)), | |
| 3115 XCDR (XCAR (submaps)), | |
| 3116 (subbits | modifiers), | |
| 3117 closure); | |
| 3118 } | |
| 3119 } | |
| 3120 else | |
| 3121 { | |
| 3122 Lisp_Object thisseq = Fcar (Fcar (closure->tail)); | |
| 3123 Lisp_Object cmd = get_keyelt (contents, 1); | |
| 3124 Lisp_Object vec; | |
| 3125 int j; | |
| 3126 int len; | |
| 934 | 3127 Lisp_Key_Data key; |
| 428 | 3128 key.keysym = keysym; |
| 3129 key.modifiers = modifiers; | |
| 3130 | |
|
5050
6f2158fa75ed
Fix quick-build, use asserts() in place of ABORT()
Ben Wing <ben@xemacs.org>
parents:
5013
diff
changeset
|
3131 assert (!NILP (cmd)); |
| 428 | 3132 cmd = get_keymap (cmd, 0, 1); |
|
5050
6f2158fa75ed
Fix quick-build, use asserts() in place of ABORT()
Ben Wing <ben@xemacs.org>
parents:
5013
diff
changeset
|
3133 assert (KEYMAPP (cmd)); |
| 428 | 3134 |
| 3135 vec = make_vector (XVECTOR_LENGTH (thisseq) + 1, Qnil); | |
| 3136 len = XVECTOR_LENGTH (thisseq); | |
| 3137 for (j = 0; j < len; j++) | |
| 3138 XVECTOR_DATA (vec) [j] = XVECTOR_DATA (thisseq) [j]; | |
| 3139 XVECTOR_DATA (vec) [j] = make_key_description (&key, 1); | |
| 3140 | |
| 3141 nconc2 (closure->tail, list1 (Fcons (vec, cmd))); | |
| 3142 } | |
| 3143 } | |
| 3144 | |
| 3145 | |
| 3146 static Lisp_Object | |
| 3147 accessible_keymaps_keymap_mapper (Lisp_Object thismap, void *arg) | |
| 3148 { | |
| 3149 /* This function can GC */ | |
| 3150 struct accessible_keymaps_closure *closure = | |
| 3151 (struct accessible_keymaps_closure *) arg; | |
| 3152 Lisp_Object submaps = keymap_submaps (thismap); | |
| 3153 | |
| 3154 for (; !NILP (submaps); submaps = XCDR (submaps)) | |
| 3155 { | |
| 3156 accessible_keymaps_mapper_1 (XCAR (XCAR (submaps)), | |
| 3157 XCDR (XCAR (submaps)), | |
| 3158 0, | |
| 3159 closure); | |
| 3160 } | |
| 3161 return Qnil; | |
| 3162 } | |
| 3163 | |
| 3164 | |
| 3165 DEFUN ("accessible-keymaps", Faccessible_keymaps, 1, 2, 0, /* | |
| 3166 Find all keymaps accessible via prefix characters from KEYMAP. | |
| 3167 Returns a list of elements of the form (KEYS . MAP), where the sequence | |
| 3168 KEYS starting from KEYMAP gets you to MAP. These elements are ordered | |
| 3169 so that the KEYS increase in length. The first element is ([] . KEYMAP). | |
| 3170 An optional argument PREFIX, if non-nil, should be a key sequence; | |
| 3171 then the value includes only maps for prefixes that start with PREFIX. | |
| 3172 */ | |
| 3173 (keymap, prefix)) | |
| 3174 { | |
| 3175 /* This function can GC */ | |
| 3176 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4; | |
| 3177 Lisp_Object accessible_keymaps = Qnil; | |
| 3178 struct accessible_keymaps_closure c; | |
| 3179 c.tail = Qnil; | |
| 3180 GCPRO4 (accessible_keymaps, c.tail, prefix, keymap); | |
| 3181 | |
| 440 | 3182 keymap = get_keymap (keymap, 1, 1); |
| 3183 | |
| 428 | 3184 retry: |
| 3185 if (NILP (prefix)) | |
| 3186 { | |
| 440 | 3187 prefix = make_vector (0, Qnil); |
| 428 | 3188 } |
| 440 | 3189 else if (VECTORP (prefix) || STRINGP (prefix)) |
| 428 | 3190 { |
| 3191 int len = XINT (Flength (prefix)); | |
| 440 | 3192 Lisp_Object def; |
| 428 | 3193 Lisp_Object p; |
| 3194 int iii; | |
| 3195 struct gcpro ngcpro1; | |
| 3196 | |
| 440 | 3197 if (len == 0) |
| 3198 { | |
| 3199 prefix = Qnil; | |
| 3200 goto retry; | |
| 3201 } | |
| 3202 | |
| 3203 def = Flookup_key (keymap, prefix, Qnil); | |
| 428 | 3204 def = get_keymap (def, 0, 1); |
| 3205 if (!KEYMAPP (def)) | |
| 3206 goto RETURN; | |
| 3207 | |
| 3208 keymap = def; | |
| 3209 p = make_vector (len, Qnil); | |
| 3210 NGCPRO1 (p); | |
| 3211 for (iii = 0; iii < len; iii++) | |
| 3212 { | |
| 934 | 3213 Lisp_Key_Data key; |
| 428 | 3214 define_key_parser (Faref (prefix, make_int (iii)), &key); |
| 3215 XVECTOR_DATA (p)[iii] = make_key_description (&key, 1); | |
| 3216 } | |
| 3217 NUNGCPRO; | |
| 3218 prefix = p; | |
| 3219 } | |
| 440 | 3220 else |
| 3221 { | |
| 3222 prefix = wrong_type_argument (Qarrayp, prefix); | |
| 3223 goto retry; | |
| 3224 } | |
| 428 | 3225 |
| 3226 accessible_keymaps = list1 (Fcons (prefix, keymap)); | |
| 3227 | |
| 440 | 3228 /* For each map in the list maps, look at any other maps it points |
| 3229 to and stick them at the end if they are not already in the list */ | |
| 428 | 3230 |
| 3231 for (c.tail = accessible_keymaps; | |
| 3232 !NILP (c.tail); | |
| 3233 c.tail = XCDR (c.tail)) | |
| 3234 { | |
| 3235 Lisp_Object thismap = Fcdr (Fcar (c.tail)); | |
| 3236 CHECK_KEYMAP (thismap); | |
| 3237 traverse_keymaps (thismap, Qnil, | |
| 3238 accessible_keymaps_keymap_mapper, &c); | |
| 3239 } | |
| 3240 RETURN: | |
| 3241 UNGCPRO; | |
| 3242 return accessible_keymaps; | |
| 3243 } | |
| 3244 | |
| 3245 | |
| 3246 | |
| 3247 /************************************************************************/ | |
| 3248 /* Pretty descriptions of key sequences */ | |
| 3249 /************************************************************************/ | |
| 3250 | |
| 3251 DEFUN ("key-description", Fkey_description, 1, 1, 0, /* | |
| 3252 Return a pretty description of key-sequence KEYS. | |
| 3253 Control characters turn into "C-foo" sequences, meta into "M-foo", | |
| 3254 spaces are put between sequence elements, etc... | |
| 3255 */ | |
| 3256 (keys)) | |
| 3257 { | |
| 3258 if (CHAR_OR_CHAR_INTP (keys) || CONSP (keys) || SYMBOLP (keys) | |
| 3259 || EVENTP (keys)) | |
| 3260 { | |
| 3261 return Fsingle_key_description (keys); | |
| 3262 } | |
| 3263 else if (VECTORP (keys) || | |
| 3264 STRINGP (keys)) | |
| 3265 { | |
| 3266 Lisp_Object string = Qnil; | |
| 3267 /* Lisp_Object sep = Qnil; */ | |
| 3268 int size = XINT (Flength (keys)); | |
| 3269 int i; | |
| 3270 | |
| 3271 for (i = 0; i < size; i++) | |
| 3272 { | |
| 3273 Lisp_Object s2 = Fsingle_key_description | |
| 3274 (STRINGP (keys) | |
| 867 | 3275 ? make_char (string_ichar (keys, i)) |
| 428 | 3276 : XVECTOR_DATA (keys)[i]); |
| 3277 | |
| 3278 if (i == 0) | |
| 3279 string = s2; | |
| 3280 else | |
| 3281 { | |
|
4952
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4846
diff
changeset
|
3282 /* if (NILP (sep)) Lisp_Object sep = build_ascstring (" ") */; |
| 428 | 3283 string = concat2 (string, concat2 (Vsingle_space_string, s2)); |
| 3284 } | |
| 3285 } | |
| 3286 return string; | |
| 3287 } | |
| 3288 return Fkey_description (wrong_type_argument (Qsequencep, keys)); | |
| 3289 } | |
| 3290 | |
| 3291 DEFUN ("single-key-description", Fsingle_key_description, 1, 1, 0, /* | |
| 3292 Return a pretty description of command character KEY. | |
| 3293 Control characters turn into C-whatever, etc. | |
| 3294 This differs from `text-char-description' in that it returns a description | |
| 3295 of a key read from the user rather than a character from a buffer. | |
| 3296 */ | |
| 3297 (key)) | |
| 3298 { | |
| 3299 if (SYMBOLP (key)) | |
| 3300 key = Fcons (key, Qnil); /* sleaze sleaze */ | |
| 3301 | |
| 3302 if (EVENTP (key) || CHAR_OR_CHAR_INTP (key)) | |
| 3303 { | |
| 793 | 3304 DECLARE_EISTRING_MALLOC (buf); |
| 3305 Lisp_Object str; | |
| 3306 | |
| 428 | 3307 if (!EVENTP (key)) |
| 3308 { | |
| 934 | 3309 Lisp_Object event = Fmake_event (Qnil, Qnil); |
| 3310 CHECK_CHAR_COERCE_INT (key); | |
| 1204 | 3311 character_to_event (XCHAR (key), XEVENT (event), |
|
4780
2fd201d73a92
Call character_to_event on characters received from XIM, event-Xt.c
Aidan Kehoe <kehoea@parhasard.net>
parents:
4355
diff
changeset
|
3312 XCONSOLE (Vselected_console), |
|
2fd201d73a92
Call character_to_event on characters received from XIM, event-Xt.c
Aidan Kehoe <kehoea@parhasard.net>
parents:
4355
diff
changeset
|
3313 high_bit_is_meta, 1); |
| 934 | 3314 format_event_object (buf, event, 1); |
| 1204 | 3315 Fdeallocate_event (event); |
| 934 | 3316 } |
| 3317 else | |
| 3318 format_event_object (buf, key, 1); | |
| 793 | 3319 str = eimake_string (buf); |
| 3320 eifree (buf); | |
| 3321 return str; | |
| 428 | 3322 } |
| 3323 | |
| 3324 if (CONSP (key)) | |
| 3325 { | |
| 793 | 3326 DECLARE_EISTRING (bufp); |
| 3327 | |
| 428 | 3328 Lisp_Object rest; |
| 3329 LIST_LOOP (rest, key) | |
| 3330 { | |
| 3331 Lisp_Object keysym = XCAR (rest); | |
| 2421 | 3332 if (EQ (keysym, Qcontrol)) eicat_ascii (bufp, "C-"); |
| 3333 else if (EQ (keysym, Qctrl)) eicat_ascii (bufp, "C-"); | |
| 3334 else if (EQ (keysym, Qmeta)) eicat_ascii (bufp, "M-"); | |
| 3335 else if (EQ (keysym, Qsuper)) eicat_ascii (bufp, "S-"); | |
| 3336 else if (EQ (keysym, Qhyper)) eicat_ascii (bufp, "H-"); | |
| 3337 else if (EQ (keysym, Qalt)) eicat_ascii (bufp, "A-"); | |
| 3338 else if (EQ (keysym, Qshift)) eicat_ascii (bufp, "Sh-"); | |
| 428 | 3339 else if (CHAR_OR_CHAR_INTP (keysym)) |
| 793 | 3340 eicat_ch (bufp, XCHAR_OR_CHAR_INT (keysym)); |
| 428 | 3341 else |
| 3342 { | |
| 3343 CHECK_SYMBOL (keysym); | |
| 3344 #if 0 /* This is bogus */ | |
| 2421 | 3345 if (EQ (keysym, QKlinefeed)) eicat_ascii (bufp, "LFD"); |
| 3346 else if (EQ (keysym, QKtab)) eicat_ascii (bufp, "TAB"); | |
| 3347 else if (EQ (keysym, QKreturn)) eicat_ascii (bufp, "RET"); | |
| 3348 else if (EQ (keysym, QKescape)) eicat_ascii (bufp, "ESC"); | |
| 3349 else if (EQ (keysym, QKdelete)) eicat_ascii (bufp, "DEL"); | |
| 3350 else if (EQ (keysym, QKspace)) eicat_ascii (bufp, "SPC"); | |
| 3351 else if (EQ (keysym, QKbackspace)) eicat_ascii (bufp, "BS"); | |
| 428 | 3352 else |
| 3353 #endif | |
| 793 | 3354 eicat_lstr (bufp, XSYMBOL (keysym)->name); |
| 428 | 3355 if (!NILP (XCDR (rest))) |
| 793 | 3356 invalid_argument ("Invalid key description", key); |
| 428 | 3357 } |
| 3358 } | |
| 793 | 3359 return eimake_string (bufp); |
| 428 | 3360 } |
| 3361 return Fsingle_key_description | |
| 3362 (wrong_type_argument (intern ("char-or-event-p"), key)); | |
| 3363 } | |
| 3364 | |
| 3365 DEFUN ("text-char-description", Ftext_char_description, 1, 1, 0, /* | |
| 3366 Return a pretty description of file-character CHR. | |
| 3367 Unprintable characters turn into "^char" or \\NNN, depending on the value | |
| 3368 of the `ctl-arrow' variable. | |
| 3369 This differs from `single-key-description' in that it returns a description | |
| 3370 of a character from a buffer rather than a key read from the user. | |
| 3371 */ | |
| 3372 (chr)) | |
| 3373 { | |
| 867 | 3374 Ibyte buf[200]; |
| 3375 Ibyte *p; | |
| 3376 Ichar c; | |
| 428 | 3377 Lisp_Object ctl_arrow = current_buffer->ctl_arrow; |
| 3378 int ctl_p = !NILP (ctl_arrow); | |
| 867 | 3379 Ichar printable_min = (CHAR_OR_CHAR_INTP (ctl_arrow) |
| 428 | 3380 ? XCHAR_OR_CHAR_INT (ctl_arrow) |
| 3381 : ((EQ (ctl_arrow, Qt) || NILP (ctl_arrow)) | |
| 3382 ? 256 : 160)); | |
| 3383 | |
| 3384 if (EVENTP (chr)) | |
| 3385 { | |
| 2862 | 3386 Lisp_Object ch = Fevent_to_character (chr, Qnil, Qnil, Qnil); |
| 428 | 3387 if (NILP (ch)) |
| 3388 return | |
| 563 | 3389 signal_continuable_error |
| 3390 (Qinvalid_argument, | |
| 2828 | 3391 "key has no character equivalent (that we know of)", |
| 3392 Fcopy_event (chr, Qnil)); | |
| 428 | 3393 chr = ch; |
| 3394 } | |
| 3395 | |
| 3396 CHECK_CHAR_COERCE_INT (chr); | |
| 3397 | |
| 3398 c = XCHAR (chr); | |
| 3399 p = buf; | |
| 3400 | |
| 3401 if (c >= printable_min) | |
| 3402 { | |
| 867 | 3403 p += set_itext_ichar (p, c); |
| 428 | 3404 } |
| 3405 else if (c < 040 && ctl_p) | |
| 3406 { | |
| 3407 *p++ = '^'; | |
| 3408 *p++ = c + 64; /* 'A' - 1 */ | |
| 3409 } | |
| 3410 else if (c == 0177) | |
| 3411 { | |
| 3412 *p++ = '^'; | |
| 3413 *p++ = '?'; | |
| 3414 } | |
| 3415 else if (c >= 0200 || c < 040) | |
| 3416 { | |
| 3417 *p++ = '\\'; | |
| 3418 #ifdef MULE | |
| 3419 /* !!#### This syntax is not readable. It will | |
| 3420 be interpreted as a 3-digit octal number rather | |
| 3421 than a 7-digit octal number. */ | |
| 3422 if (c >= 0400) | |
| 3423 { | |
| 3424 *p++ = '0' + ((c & 07000000) >> 18); | |
| 3425 *p++ = '0' + ((c & 0700000) >> 15); | |
| 3426 *p++ = '0' + ((c & 070000) >> 12); | |
| 3427 *p++ = '0' + ((c & 07000) >> 9); | |
| 3428 } | |
| 3429 #endif | |
| 3430 *p++ = '0' + ((c & 0700) >> 6); | |
| 3431 *p++ = '0' + ((c & 0070) >> 3); | |
| 3432 *p++ = '0' + ((c & 0007)); | |
| 3433 } | |
| 3434 else | |
| 3435 { | |
| 867 | 3436 p += set_itext_ichar (p, c); |
| 428 | 3437 } |
| 3438 | |
| 3439 *p = 0; | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3440 return build_istring (buf); |
| 428 | 3441 } |
| 3442 | |
| 3443 | |
| 3444 /************************************************************************/ | |
| 3445 /* where-is (mapping bindings to keys) */ | |
| 3446 /************************************************************************/ | |
| 3447 | |
| 3448 static Lisp_Object | |
| 3449 where_is_internal (Lisp_Object definition, Lisp_Object *maps, int nmaps, | |
| 793 | 3450 Lisp_Object firstonly, Eistring *target_buffer); |
| 428 | 3451 |
| 3452 DEFUN ("where-is-internal", Fwhere_is_internal, 1, 5, 0, /* | |
| 3453 Return list of keys that invoke DEFINITION in KEYMAPS. | |
| 3454 KEYMAPS can be either a keymap (meaning search in that keymap and the | |
| 3455 current global keymap) or a list of keymaps (meaning search in exactly | |
| 3096 | 3456 those keymaps and no others). |
| 428 | 3457 |
| 3458 If optional 3rd arg FIRSTONLY is non-nil, return a vector representing | |
| 3459 the first key sequence found, rather than a list of all possible key | |
| 3460 sequences. | |
| 3461 | |
| 3096 | 3462 Optional 4th argument NOINDIRECT is ignored. (GNU Emacs uses it to allow |
| 3463 searching for an indirect keymap by inhibiting following of indirections to | |
| 3464 keymaps or slots, but XEmacs doesn't need it because keymaps are a type.) | |
| 3465 | |
| 3466 If optional 5th argument EVENT-OR-KEYS is non-nil and KEYMAPS is nil, | |
| 3467 search in the currently applicable maps for EVENT-OR-KEYS (this is | |
| 3468 equivalent to specifying `(current-keymaps EVENT-OR-KEYS)' as the | |
| 3469 argument to KEYMAPS). | |
| 428 | 3470 */ |
| 2286 | 3471 (definition, keymaps, firstonly, UNUSED (noindirect), event_or_keys)) |
| 428 | 3472 { |
| 3473 /* This function can GC */ | |
| 3474 Lisp_Object maps[100]; | |
| 3475 Lisp_Object *gubbish = maps; | |
| 3476 int nmaps; | |
| 3477 | |
| 3478 /* Get keymaps as an array */ | |
| 3479 if (NILP (keymaps)) | |
| 3480 { | |
| 3481 nmaps = get_relevant_keymaps (event_or_keys, countof (maps), | |
| 3482 gubbish); | |
| 3483 if (nmaps > countof (maps)) | |
| 3484 { | |
| 3485 gubbish = alloca_array (Lisp_Object, nmaps); | |
| 3486 nmaps = get_relevant_keymaps (event_or_keys, nmaps, gubbish); | |
| 3487 } | |
| 3488 } | |
| 3489 else if (CONSP (keymaps)) | |
| 3490 { | |
| 3491 Lisp_Object rest; | |
| 3492 int i; | |
| 3493 | |
| 3494 nmaps = XINT (Flength (keymaps)); | |
| 3495 if (nmaps > countof (maps)) | |
| 3496 { | |
| 3497 gubbish = alloca_array (Lisp_Object, nmaps); | |
| 3498 } | |
| 3499 for (rest = keymaps, i = 0; !NILP (rest); | |
| 3500 rest = XCDR (keymaps), i++) | |
| 3501 { | |
| 3502 gubbish[i] = get_keymap (XCAR (keymaps), 1, 1); | |
| 3503 } | |
| 3504 } | |
| 3505 else | |
| 3506 { | |
| 3507 nmaps = 1; | |
| 3508 gubbish[0] = get_keymap (keymaps, 1, 1); | |
| 3509 if (!EQ (gubbish[0], Vcurrent_global_map)) | |
| 3510 { | |
| 3511 gubbish[1] = Vcurrent_global_map; | |
| 3512 nmaps++; | |
| 3513 } | |
| 3514 } | |
| 3515 | |
| 3516 return where_is_internal (definition, gubbish, nmaps, firstonly, 0); | |
| 3517 } | |
| 3518 | |
| 3519 /* This function is like | |
| 3520 (key-description (where-is-internal definition nil t)) | |
| 3521 except that it writes its output into a (char *) buffer that you | |
| 3522 provide; it doesn't cons (or allocate memory) at all, so it's | |
| 3523 very fast. This is used by menubar.c. | |
| 3524 */ | |
| 3525 void | |
| 793 | 3526 where_is_to_char (Lisp_Object definition, Eistring *buffer) |
| 428 | 3527 { |
| 3528 /* This function can GC */ | |
| 3529 Lisp_Object maps[100]; | |
| 3530 Lisp_Object *gubbish = maps; | |
| 3531 int nmaps; | |
| 3532 | |
| 3533 /* Get keymaps as an array */ | |
| 3534 nmaps = get_relevant_keymaps (Qnil, countof (maps), gubbish); | |
| 3535 if (nmaps > countof (maps)) | |
| 3536 { | |
| 3537 gubbish = alloca_array (Lisp_Object, nmaps); | |
| 3538 nmaps = get_relevant_keymaps (Qnil, nmaps, gubbish); | |
| 3539 } | |
| 3540 | |
| 3541 where_is_internal (definition, maps, nmaps, Qt, buffer); | |
| 3542 } | |
| 3543 | |
| 3544 | |
| 3545 static Lisp_Object | |
| 934 | 3546 raw_keys_to_keys (Lisp_Key_Data *keys, int count) |
| 428 | 3547 { |
| 3548 Lisp_Object result = make_vector (count, Qnil); | |
| 3549 while (count--) | |
| 3550 XVECTOR_DATA (result) [count] = make_key_description (&(keys[count]), 1); | |
| 3551 return result; | |
| 3552 } | |
| 3553 | |
| 3554 | |
| 3555 static void | |
| 934 | 3556 format_raw_keys (Lisp_Key_Data *keys, int count, Eistring *buf) |
| 428 | 3557 { |
| 3558 int i; | |
| 934 | 3559 Lisp_Object event = Fmake_event (Qnil, Qnil); |
| 3560 XSET_EVENT_TYPE (event, key_press_event); | |
| 3561 XSET_EVENT_CHANNEL (event, Vselected_console); | |
| 428 | 3562 for (i = 0; i < count; i++) |
| 3563 { | |
| 1204 | 3564 XSET_EVENT_KEY_KEYSYM (event, keys[i].keysym); |
| 3565 XSET_EVENT_KEY_MODIFIERS (event, KEY_DATA_MODIFIERS (&keys[i])); | |
| 934 | 3566 format_event_object (buf, event, 1); |
| 793 | 3567 if (i < count - 1) |
| 2421 | 3568 eicat_ascii (buf, " "); |
| 428 | 3569 } |
| 1204 | 3570 Fdeallocate_event (event); |
| 428 | 3571 } |
| 3572 | |
| 3573 | |
| 3574 /* definition is the thing to look for. | |
| 3575 map is a keymap. | |
| 3576 shadow is an array of shadow_count keymaps; if there is a different | |
| 3577 binding in any of the keymaps of a key that we are considering | |
| 3578 returning, then we reconsider. | |
| 3579 firstonly means give up after finding the first match; | |
| 3580 keys_so_far and modifiers_so_far describe which map we're looking in; | |
| 3581 If we're in the "meta" submap of the map that "C-x 4" is bound to, | |
| 3582 then keys_so_far will be {(control x), \4}, and modifiers_so_far | |
| 442 | 3583 will be XEMACS_MOD_META. That is, keys_so_far is the chain of keys that we |
| 428 | 3584 have followed, and modifiers_so_far_so_far is the bits (partial keys) |
| 3585 beyond that. | |
| 3586 | |
| 3587 (keys_so_far is a global buffer and the keys_count arg says how much | |
| 3588 of it we're currently interested in.) | |
| 3589 | |
| 3590 If target_buffer is provided, then we write a key-description into it, | |
| 3591 to avoid consing a string. This only works with firstonly on. | |
| 3592 */ | |
| 3593 | |
| 3594 struct where_is_closure | |
| 3595 { | |
| 3596 Lisp_Object definition; | |
| 3597 Lisp_Object *shadow; | |
| 3598 int shadow_count; | |
| 3599 int firstonly; | |
| 3600 int keys_count; | |
| 442 | 3601 int modifiers_so_far; |
| 793 | 3602 Eistring *target_buffer; |
| 934 | 3603 Lisp_Key_Data *keys_so_far; |
| 428 | 3604 int keys_so_far_total_size; |
| 3605 int keys_so_far_malloced; | |
| 3606 }; | |
| 3607 | |
| 3608 static Lisp_Object where_is_recursive_mapper (Lisp_Object map, void *arg); | |
| 3609 | |
| 3610 static Lisp_Object | |
| 3611 where_is_recursive_mapper (Lisp_Object map, void *arg) | |
| 3612 { | |
| 3613 /* This function can GC */ | |
| 3614 struct where_is_closure *c = (struct where_is_closure *) arg; | |
| 3615 Lisp_Object definition = c->definition; | |
| 442 | 3616 const int firstonly = c->firstonly; |
| 3617 const int keys_count = c->keys_count; | |
| 3618 const int modifiers_so_far = c->modifiers_so_far; | |
| 793 | 3619 Eistring *target_buffer = c->target_buffer; |
| 428 | 3620 Lisp_Object keys = Fgethash (definition, |
| 3621 XKEYMAP (map)->inverse_table, | |
| 3622 Qnil); | |
| 3623 Lisp_Object submaps; | |
| 3624 Lisp_Object result = Qnil; | |
| 3625 | |
| 3626 if (!NILP (keys)) | |
| 3627 { | |
| 3628 /* One or more keys in this map match the definition we're looking for. | |
| 3629 Verify that these bindings aren't shadowed by other bindings | |
| 3630 in the shadow maps. Either nil or number as value from | |
| 3631 raw_lookup_key() means undefined. */ | |
| 934 | 3632 Lisp_Key_Data *so_far = c->keys_so_far; |
| 428 | 3633 |
| 3634 for (;;) /* loop over all keys that match */ | |
| 3635 { | |
| 3636 Lisp_Object k = CONSP (keys) ? XCAR (keys) : keys; | |
| 3637 int i; | |
| 3638 | |
| 3639 so_far [keys_count].keysym = k; | |
| 934 | 3640 SET_KEY_DATA_MODIFIERS (&so_far [keys_count], modifiers_so_far); |
| 428 | 3641 |
| 3642 /* now loop over all shadow maps */ | |
| 3643 for (i = 0; i < c->shadow_count; i++) | |
| 3644 { | |
| 3645 Lisp_Object shadowed = raw_lookup_key (c->shadow[i], | |
| 3646 so_far, | |
| 3647 keys_count + 1, | |
| 3648 0, 1); | |
| 3649 | |
| 3650 if (NILP (shadowed) || CHARP (shadowed) || | |
| 3651 EQ (shadowed, definition)) | |
| 3652 continue; /* we passed this test; it's not shadowed here. */ | |
| 3653 else | |
| 3654 /* ignore this key binding, since it actually has a | |
| 3655 different binding in a shadowing map */ | |
| 3656 goto c_doesnt_have_proper_loop_exit_statements; | |
| 3657 } | |
| 3658 | |
| 3659 /* OK, the key is for real */ | |
| 3660 if (target_buffer) | |
| 3661 { | |
|
5050
6f2158fa75ed
Fix quick-build, use asserts() in place of ABORT()
Ben Wing <ben@xemacs.org>
parents:
5013
diff
changeset
|
3662 assert (firstonly); |
| 428 | 3663 format_raw_keys (so_far, keys_count + 1, target_buffer); |
| 3664 return make_int (1); | |
| 3665 } | |
| 3666 else if (firstonly) | |
| 3667 return raw_keys_to_keys (so_far, keys_count + 1); | |
| 3668 else | |
| 3669 result = Fcons (raw_keys_to_keys (so_far, keys_count + 1), | |
| 3670 result); | |
| 3671 | |
| 3672 c_doesnt_have_proper_loop_exit_statements: | |
| 3673 /* now on to the next matching key ... */ | |
| 3674 if (!CONSP (keys)) break; | |
| 3675 keys = XCDR (keys); | |
| 3676 } | |
| 3677 } | |
| 3678 | |
| 3679 /* Now search the sub-keymaps of this map. | |
| 3680 If we're in "firstonly" mode and have already found one, this | |
| 3681 point is not reached. If we get one from lower down, either | |
| 3682 return it immediately (in firstonly mode) or tack it onto the | |
| 3683 end of the ones we've gotten so far. | |
| 3684 */ | |
| 3685 for (submaps = keymap_submaps (map); | |
| 3686 !NILP (submaps); | |
| 3687 submaps = XCDR (submaps)) | |
| 3688 { | |
| 3689 Lisp_Object key = XCAR (XCAR (submaps)); | |
| 3690 Lisp_Object submap = XCDR (XCAR (submaps)); | |
| 442 | 3691 int lower_modifiers; |
| 428 | 3692 int lower_keys_count = keys_count; |
| 442 | 3693 int bucky; |
| 428 | 3694 |
| 3695 submap = get_keymap (submap, 0, 0); | |
| 3696 | |
| 3697 if (EQ (submap, map)) | |
| 3698 /* Arrgh! Some loser has introduced a loop... */ | |
| 3699 continue; | |
| 3700 | |
| 3701 /* If this is not a keymap, then that's probably because someone | |
| 3702 did an `fset' of a symbol that used to point to a map such that | |
| 3703 it no longer does. Sigh. Ignore this, and invalidate the cache | |
| 3704 so that it doesn't happen to us next time too. | |
| 3705 */ | |
| 3706 if (NILP (submap)) | |
| 3707 { | |
| 3708 XKEYMAP (map)->sub_maps_cache = Qt; | |
| 3709 continue; | |
| 3710 } | |
| 3711 | |
| 3712 /* If the map is a "bucky" map, then add a bit to the | |
| 3713 modifiers_so_far list. | |
| 3714 Otherwise, add a new raw_key onto the end of keys_so_far. | |
| 3715 */ | |
| 3716 bucky = MODIFIER_HASH_KEY_BITS (key); | |
| 3717 if (bucky != 0) | |
| 3718 lower_modifiers = (modifiers_so_far | bucky); | |
| 3719 else | |
| 3720 { | |
| 934 | 3721 Lisp_Key_Data *so_far = c->keys_so_far; |
| 428 | 3722 lower_modifiers = 0; |
| 3723 so_far [lower_keys_count].keysym = key; | |
| 934 | 3724 SET_KEY_DATA_MODIFIERS (&so_far [lower_keys_count], modifiers_so_far); |
| 428 | 3725 lower_keys_count++; |
| 3726 } | |
| 3727 | |
| 3728 if (lower_keys_count >= c->keys_so_far_total_size) | |
| 3729 { | |
| 3730 int size = lower_keys_count + 50; | |
| 3731 if (! c->keys_so_far_malloced) | |
| 3732 { | |
| 3025 | 3733 Lisp_Key_Data *new_ = xnew_array (Lisp_Key_Data, size); |
| 3734 memcpy ((void *)new_, (const void *)c->keys_so_far, | |
| 934 | 3735 c->keys_so_far_total_size * sizeof (Lisp_Key_Data)); |
|
4976
16112448d484
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Ben Wing <ben@xemacs.org>
parents:
4962
diff
changeset
|
3736 xfree (c->keys_so_far); |
| 3550 | 3737 c->keys_so_far = new_; |
| 428 | 3738 } |
| 3739 else | |
| 934 | 3740 XREALLOC_ARRAY (c->keys_so_far, Lisp_Key_Data, size); |
| 428 | 3741 |
| 3742 c->keys_so_far_total_size = size; | |
| 3743 c->keys_so_far_malloced = 1; | |
| 3744 } | |
| 3745 | |
| 3746 { | |
| 3747 Lisp_Object lower; | |
| 3748 | |
| 3749 c->keys_count = lower_keys_count; | |
| 3750 c->modifiers_so_far = lower_modifiers; | |
| 3751 | |
| 3752 lower = traverse_keymaps (submap, Qnil, where_is_recursive_mapper, c); | |
| 3753 | |
| 3754 c->keys_count = keys_count; | |
| 3755 c->modifiers_so_far = modifiers_so_far; | |
| 3756 | |
| 3757 if (!firstonly) | |
| 3758 result = nconc2 (lower, result); | |
| 3759 else if (!NILP (lower)) | |
| 3760 return lower; | |
| 3761 } | |
| 3762 } | |
| 3763 return result; | |
| 3764 } | |
| 3765 | |
| 3766 | |
| 3767 static Lisp_Object | |
| 3768 where_is_internal (Lisp_Object definition, Lisp_Object *maps, int nmaps, | |
| 793 | 3769 Lisp_Object firstonly, Eistring *target_buffer) |
| 428 | 3770 { |
| 3771 /* This function can GC */ | |
| 3772 Lisp_Object result = Qnil; | |
| 3773 int i; | |
| 934 | 3774 Lisp_Key_Data raw[20]; |
| 428 | 3775 struct where_is_closure c; |
| 3776 | |
| 3777 c.definition = definition; | |
| 3778 c.shadow = maps; | |
| 3779 c.firstonly = !NILP (firstonly); | |
| 3780 c.target_buffer = target_buffer; | |
| 3781 c.keys_so_far = raw; | |
| 3782 c.keys_so_far_total_size = countof (raw); | |
| 3783 c.keys_so_far_malloced = 0; | |
| 3784 | |
| 3785 /* Loop over each of the maps, accumulating the keys found. | |
| 3786 For each map searched, all previous maps shadow this one | |
| 3787 so that bogus keys aren't listed. */ | |
| 3788 for (i = 0; i < nmaps; i++) | |
| 3789 { | |
| 3790 Lisp_Object this_result; | |
| 3791 c.shadow_count = i; | |
| 3792 /* Reset the things set in each iteration */ | |
| 3793 c.keys_count = 0; | |
| 3794 c.modifiers_so_far = 0; | |
| 3795 | |
| 3796 this_result = traverse_keymaps (maps[i], Qnil, where_is_recursive_mapper, | |
| 3797 &c); | |
| 3798 if (!NILP (firstonly)) | |
| 3799 { | |
| 3800 result = this_result; | |
| 3801 if (!NILP (result)) | |
| 3802 break; | |
| 3803 } | |
| 3804 else | |
| 3805 result = nconc2 (this_result, result); | |
| 3806 } | |
| 3807 | |
| 3808 if (NILP (firstonly)) | |
| 3809 result = Fnreverse (result); | |
| 3810 | |
| 3811 if (c.keys_so_far_malloced) | |
|
4976
16112448d484
Rename xfree(FOO, TYPE) -> xfree(FOO)
Ben Wing <ben@xemacs.org>
parents:
4962
diff
changeset
|
3812 xfree (c.keys_so_far); |
| 428 | 3813 return result; |
| 3814 } | |
| 3815 | |
| 3816 | |
| 3817 /************************************************************************/ | |
| 3818 /* Describing keymaps */ | |
| 3819 /************************************************************************/ | |
| 3820 | |
| 3821 DEFUN ("describe-bindings-internal", Fdescribe_bindings_internal, 1, 5, 0, /* | |
| 3822 Insert a list of all defined keys and their definitions in MAP. | |
| 3823 Optional second argument ALL says whether to include even "uninteresting" | |
| 3824 definitions (ie symbols with a non-nil `suppress-keymap' property. | |
| 3825 Third argument SHADOW is a list of keymaps whose bindings shadow those | |
| 3826 of map; if a binding is present in any shadowing map, it is not printed. | |
| 3827 Fourth argument PREFIX, if non-nil, should be a key sequence; | |
| 3828 only bindings which start with that key sequence will be printed. | |
| 3829 Fifth argument MOUSE-ONLY-P says to only print bindings for mouse clicks. | |
| 3830 */ | |
| 3831 (map, all, shadow, prefix, mouse_only_p)) | |
| 3832 { | |
| 3833 /* This function can GC */ | |
| 3834 | |
| 3835 /* #### At some point, this function should be changed to accept a | |
| 3836 BUFFER argument. Currently, the BUFFER argument to | |
| 3837 describe_map_tree is being used only internally. */ | |
| 3838 describe_map_tree (map, NILP (all), shadow, prefix, | |
| 3839 !NILP (mouse_only_p), Fcurrent_buffer ()); | |
| 3840 return Qnil; | |
| 3841 } | |
| 3842 | |
| 3843 | |
| 3844 /* Insert a description of the key bindings in STARTMAP, | |
| 3845 followed by those of all maps reachable through STARTMAP. | |
| 3846 If PARTIAL is nonzero, omit certain "uninteresting" commands | |
| 3847 (such as `undefined'). | |
| 3848 If SHADOW is non-nil, it is a list of other maps; | |
| 3849 don't mention keys which would be shadowed by any of them | |
| 3850 If PREFIX is non-nil, only list bindings which start with those keys. | |
| 3851 */ | |
| 3852 | |
| 3853 void | |
| 3854 describe_map_tree (Lisp_Object startmap, int partial, Lisp_Object shadow, | |
| 3855 Lisp_Object prefix, int mice_only_p, Lisp_Object buffer) | |
| 3856 { | |
| 3857 /* This function can GC */ | |
| 3858 Lisp_Object maps = Qnil; | |
| 3859 struct gcpro gcpro1, gcpro2; /* get_keymap may autoload */ | |
| 3860 GCPRO2 (maps, shadow); | |
| 3861 | |
| 3862 maps = Faccessible_keymaps (startmap, prefix); | |
| 3863 | |
| 3864 for (; !NILP (maps); maps = Fcdr (maps)) | |
| 3865 { | |
| 3866 Lisp_Object sub_shadow = Qnil; | |
| 3867 Lisp_Object elt = Fcar (maps); | |
| 3868 Lisp_Object tail; | |
| 3869 int no_prefix = (VECTORP (Fcar (elt)) | |
| 3870 && XINT (Flength (Fcar (elt))) == 0); | |
| 3871 struct gcpro ngcpro1, ngcpro2, ngcpro3; | |
| 3872 NGCPRO3 (sub_shadow, elt, tail); | |
| 3873 | |
| 3874 for (tail = shadow; CONSP (tail); tail = XCDR (tail)) | |
| 3875 { | |
| 3876 Lisp_Object shmap = XCAR (tail); | |
| 3877 | |
| 3878 /* If the sequence by which we reach this keymap is zero-length, | |
| 3879 then the shadow maps for this keymap are just SHADOW. */ | |
| 3880 if (no_prefix) | |
| 3881 ; | |
| 3882 /* If the sequence by which we reach this keymap actually has | |
| 3883 some elements, then the sequence's definition in SHADOW is | |
| 3884 what we should use. */ | |
| 3885 else | |
| 3886 { | |
| 3887 shmap = Flookup_key (shmap, Fcar (elt), Qt); | |
| 3888 if (CHARP (shmap)) | |
| 3889 shmap = Qnil; | |
| 3890 } | |
| 3891 | |
| 3892 if (!NILP (shmap)) | |
| 3893 { | |
| 3894 Lisp_Object shm = get_keymap (shmap, 0, 1); | |
| 3895 /* If shmap is not nil and not a keymap, it completely | |
| 3896 shadows this map, so don't describe this map at all. */ | |
| 3897 if (!KEYMAPP (shm)) | |
| 3898 goto SKIP; | |
| 3899 sub_shadow = Fcons (shm, sub_shadow); | |
| 3900 } | |
| 3901 } | |
| 3902 | |
| 3903 { | |
| 3904 /* Describe the contents of map MAP, assuming that this map | |
| 3905 itself is reached by the sequence of prefix keys KEYS (a vector). | |
| 3906 PARTIAL and SHADOW are as in `describe_map_tree'. */ | |
| 3907 Lisp_Object keysdesc | |
| 3908 = ((!no_prefix) | |
| 3909 ? concat2 (Fkey_description (Fcar (elt)), Vsingle_space_string) | |
| 3910 : Qnil); | |
| 3911 describe_map (Fcdr (elt), keysdesc, | |
| 3912 describe_command, | |
| 3913 partial, | |
| 3914 sub_shadow, | |
| 3915 mice_only_p, | |
| 3916 buffer); | |
| 3917 } | |
| 3918 SKIP: | |
| 3919 NUNGCPRO; | |
| 3920 } | |
| 3921 UNGCPRO; | |
| 3922 } | |
| 3923 | |
| 3924 | |
| 3925 static void | |
| 3926 describe_command (Lisp_Object definition, Lisp_Object buffer) | |
| 3927 { | |
| 3928 /* This function can GC */ | |
| 3929 int keymapp = !NILP (Fkeymapp (definition)); | |
| 3930 struct gcpro gcpro1; | |
| 3931 GCPRO1 (definition); | |
| 3932 | |
| 3933 Findent_to (make_int (16), make_int (3), buffer); | |
| 3934 if (keymapp) | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3935 buffer_insert_ascstring (XBUFFER (buffer), "<< "); |
| 428 | 3936 |
| 3937 if (SYMBOLP (definition)) | |
| 3938 { | |
| 3939 buffer_insert1 (XBUFFER (buffer), Fsymbol_name (definition)); | |
| 3940 } | |
| 3941 else if (STRINGP (definition) || VECTORP (definition)) | |
| 3942 { | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3943 buffer_insert_ascstring (XBUFFER (buffer), "Kbd Macro: "); |
| 428 | 3944 buffer_insert1 (XBUFFER (buffer), Fkey_description (definition)); |
| 3945 } | |
| 3946 else if (COMPILED_FUNCTIONP (definition)) | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3947 buffer_insert_ascstring (XBUFFER (buffer), "Anonymous Compiled Function"); |
| 428 | 3948 else if (CONSP (definition) && EQ (XCAR (definition), Qlambda)) |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3949 buffer_insert_ascstring (XBUFFER (buffer), "Anonymous Lambda"); |
| 428 | 3950 else if (KEYMAPP (definition)) |
| 3951 { | |
| 3952 Lisp_Object name = XKEYMAP (definition)->name; | |
| 3953 if (STRINGP (name) || (SYMBOLP (name) && !NILP (name))) | |
| 3954 { | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3955 buffer_insert_ascstring (XBUFFER (buffer), "Prefix command "); |
| 428 | 3956 if (SYMBOLP (name) |
| 3957 && EQ (find_symbol_value (name), definition)) | |
| 3958 buffer_insert1 (XBUFFER (buffer), Fsymbol_name (name)); | |
| 3959 else | |
| 3960 { | |
| 3961 buffer_insert1 (XBUFFER (buffer), Fprin1_to_string (name, Qnil)); | |
| 3962 } | |
| 3963 } | |
| 3964 else | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3965 buffer_insert_ascstring (XBUFFER (buffer), "Prefix Command"); |
| 428 | 3966 } |
| 3967 else | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3968 buffer_insert_ascstring (XBUFFER (buffer), "??"); |
| 428 | 3969 |
| 3970 if (keymapp) | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3971 buffer_insert_ascstring (XBUFFER (buffer), " >>"); |
|
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
3972 buffer_insert_ascstring (XBUFFER (buffer), "\n"); |
| 428 | 3973 UNGCPRO; |
| 3974 } | |
| 3975 | |
| 3976 struct describe_map_closure | |
| 3977 { | |
| 3978 Lisp_Object *list; /* pointer to the list to update */ | |
| 3979 Lisp_Object partial; /* whether to ignore suppressed commands */ | |
| 3980 Lisp_Object shadow; /* list of maps shadowing this one */ | |
| 3981 Lisp_Object self; /* this map */ | |
| 3982 Lisp_Object self_root; /* this map, or some map that has this map as | |
| 3983 a parent. this is the base of the tree */ | |
| 3984 int mice_only_p; /* whether we are to display only button bindings */ | |
| 3985 }; | |
| 3986 | |
| 3987 struct describe_map_shadow_closure | |
| 3988 { | |
| 934 | 3989 const Lisp_Key_Data *raw_key; |
| 428 | 3990 Lisp_Object self; |
| 3991 }; | |
| 3992 | |
| 3993 static Lisp_Object | |
| 3994 describe_map_mapper_shadow_search (Lisp_Object map, void *arg) | |
| 3995 { | |
| 3996 struct describe_map_shadow_closure *c = | |
| 3997 (struct describe_map_shadow_closure *) arg; | |
| 3998 | |
| 3999 if (EQ (map, c->self)) | |
| 4000 return Qzero; /* Not shadowed; terminate search */ | |
| 4001 | |
| 934 | 4002 return !NILP (keymap_lookup_directly (map, |
| 4003 KEY_DATA_KEYSYM (c->raw_key), | |
| 4004 KEY_DATA_MODIFIERS (c->raw_key))) | |
| 428 | 4005 ? Qt : Qnil; |
| 4006 } | |
| 4007 | |
| 4008 | |
| 4009 static Lisp_Object | |
| 4010 keymap_lookup_inherited_mapper (Lisp_Object km, void *arg) | |
| 4011 { | |
| 934 | 4012 Lisp_Key_Data *k = (Lisp_Key_Data *) arg; |
| 4013 return keymap_lookup_directly (km, KEY_DATA_KEYSYM (k), KEY_DATA_MODIFIERS (k)); | |
| 428 | 4014 } |
| 4015 | |
| 4016 | |
| 4017 static void | |
| 934 | 4018 describe_map_mapper (const Lisp_Key_Data *key, |
| 428 | 4019 Lisp_Object binding, |
| 4020 void *describe_map_closure) | |
| 4021 { | |
| 4022 /* This function can GC */ | |
| 4023 struct describe_map_closure *closure = | |
| 4024 (struct describe_map_closure *) describe_map_closure; | |
| 934 | 4025 Lisp_Object keysym = KEY_DATA_KEYSYM (key); |
| 4026 int modifiers = KEY_DATA_MODIFIERS (key); | |
| 428 | 4027 |
| 4028 /* Don't mention suppressed commands. */ | |
| 4029 if (SYMBOLP (binding) | |
| 4030 && !NILP (closure->partial) | |
| 4031 && !NILP (Fget (binding, closure->partial, Qnil))) | |
| 4032 return; | |
| 4033 | |
| 4034 /* If we're only supposed to display mouse bindings and this isn't one, | |
| 4035 then bug out. */ | |
| 4036 if (closure->mice_only_p && | |
|
4906
6ef8256a020a
implement equalp in C, fix case-folding, add equal() method for keymaps
Ben Wing <ben@xemacs.org>
parents:
4846
diff
changeset
|
4037 (! ( |
|
6ef8256a020a
implement equalp in C, fix case-folding, add equal() method for keymaps
Ben Wing <ben@xemacs.org>
parents:
4846
diff
changeset
|
4038 #define INCLUDE_BUTTON_ZERO |
|
6ef8256a020a
implement equalp in C, fix case-folding, add equal() method for keymaps
Ben Wing <ben@xemacs.org>
parents:
4846
diff
changeset
|
4039 #define FROB(num) EQ (keysym, Qbutton##num) || \ |
|
6ef8256a020a
implement equalp in C, fix case-folding, add equal() method for keymaps
Ben Wing <ben@xemacs.org>
parents:
4846
diff
changeset
|
4040 EQ (keysym, Qbutton##num##up) || |
|
6ef8256a020a
implement equalp in C, fix case-folding, add equal() method for keymaps
Ben Wing <ben@xemacs.org>
parents:
4846
diff
changeset
|
4041 #include "keymap-buttons.h" |
|
6ef8256a020a
implement equalp in C, fix case-folding, add equal() method for keymaps
Ben Wing <ben@xemacs.org>
parents:
4846
diff
changeset
|
4042 0))) |
| 428 | 4043 return; |
| 4044 | |
| 4045 /* If this command in this map is shadowed by some other map, ignore it. */ | |
| 4046 { | |
| 4047 Lisp_Object tail; | |
| 4048 | |
| 4049 for (tail = closure->shadow; CONSP (tail); tail = XCDR (tail)) | |
| 4050 { | |
| 4051 QUIT; | |
| 4052 if (!NILP (traverse_keymaps (XCAR (tail), Qnil, | |
| 4053 keymap_lookup_inherited_mapper, | |
| 4054 /* Cast to discard `const' */ | |
| 4055 (void *)key))) | |
| 4056 return; | |
| 4057 } | |
| 4058 } | |
| 4059 | |
| 4060 /* If this key is in some map of which this map is a parent, then ignore | |
| 4061 it (in that case, it has been shadowed). | |
| 4062 */ | |
| 4063 { | |
| 4064 Lisp_Object sh; | |
| 4065 struct describe_map_shadow_closure c; | |
| 4066 c.raw_key = key; | |
| 4067 c.self = closure->self; | |
| 4068 | |
| 4069 sh = traverse_keymaps (closure->self_root, Qnil, | |
| 4070 describe_map_mapper_shadow_search, &c); | |
| 4071 if (!NILP (sh) && !ZEROP (sh)) | |
| 4072 return; | |
| 4073 } | |
| 4074 | |
| 4075 /* Otherwise add it to the list to be sorted. */ | |
| 4076 *(closure->list) = Fcons (Fcons (Fcons (keysym, make_int (modifiers)), | |
| 4077 binding), | |
| 4078 *(closure->list)); | |
| 4079 } | |
| 4080 | |
| 4081 | |
| 4082 static int | |
| 4083 describe_map_sort_predicate (Lisp_Object obj1, Lisp_Object obj2, | |
| 4084 Lisp_Object pred) | |
| 4085 { | |
| 4086 /* obj1 and obj2 are conses of the form | |
| 4087 ( ( <keysym> . <modifiers> ) . <binding> ) | |
| 4088 keysym and modifiers are used, binding is ignored. | |
| 4089 */ | |
| 442 | 4090 int bit1, bit2; |
| 428 | 4091 obj1 = XCAR (obj1); |
| 4092 obj2 = XCAR (obj2); | |
| 4093 bit1 = XINT (XCDR (obj1)); | |
| 4094 bit2 = XINT (XCDR (obj2)); | |
| 4095 if (bit1 != bit2) | |
| 4096 return bit1 < bit2 ? 1 : -1; | |
| 4097 else | |
| 4098 return map_keymap_sort_predicate (obj1, obj2, pred); | |
| 4099 } | |
| 4100 | |
| 4101 /* Elide 2 or more consecutive numeric keysyms bound to the same thing, | |
| 4102 or 2 or more symbolic keysyms that are bound to the same thing and | |
| 4103 have consecutive character-set-properties. | |
| 4104 */ | |
| 4105 static int | |
| 4106 elide_next_two_p (Lisp_Object list) | |
| 4107 { | |
| 4108 Lisp_Object s1, s2; | |
| 2828 | 4109 extern Lisp_Object Qcharacter_of_keysym; |
| 428 | 4110 |
| 4111 if (NILP (XCDR (list))) | |
| 4112 return 0; | |
| 4113 | |
| 4114 /* next two bindings differ */ | |
| 4115 if (!EQ (XCDR (XCAR (list)), | |
| 4116 XCDR (XCAR (XCDR (list))))) | |
| 4117 return 0; | |
| 4118 | |
| 4119 /* next two modifier-sets differ */ | |
| 4120 if (!EQ (XCDR (XCAR (XCAR (list))), | |
| 4121 XCDR (XCAR (XCAR (XCDR (list)))))) | |
| 4122 return 0; | |
| 4123 | |
| 4124 s1 = XCAR (XCAR (XCAR (list))); | |
| 4125 s2 = XCAR (XCAR (XCAR (XCDR (list)))); | |
| 4126 | |
| 4127 if (SYMBOLP (s1)) | |
| 4128 { | |
| 2828 | 4129 Lisp_Object code = Fget (s1, Qcharacter_of_keysym, Qnil); |
| 428 | 4130 if (CHAR_OR_CHAR_INTP (code)) |
| 4131 { | |
| 4132 s1 = code; | |
| 4133 CHECK_CHAR_COERCE_INT (s1); | |
| 4134 } | |
| 4135 else return 0; | |
| 4136 } | |
| 4137 if (SYMBOLP (s2)) | |
| 4138 { | |
| 2828 | 4139 Lisp_Object code = Fget (s2, Qcharacter_of_keysym, Qnil); |
| 428 | 4140 if (CHAR_OR_CHAR_INTP (code)) |
| 4141 { | |
| 4142 s2 = code; | |
| 4143 CHECK_CHAR_COERCE_INT (s2); | |
| 4144 } | |
| 4145 else return 0; | |
| 4146 } | |
| 4147 | |
| 4148 return (XCHAR (s1) == XCHAR (s2) || | |
| 4149 XCHAR (s1) + 1 == XCHAR (s2)); | |
| 4150 } | |
| 4151 | |
| 4152 | |
| 4153 static Lisp_Object | |
| 4154 describe_map_parent_mapper (Lisp_Object keymap, void *arg) | |
| 4155 { | |
| 4156 /* This function can GC */ | |
| 4157 struct describe_map_closure *describe_map_closure = | |
| 4158 (struct describe_map_closure *) arg; | |
| 4159 describe_map_closure->self = keymap; | |
| 4160 map_keymap (XKEYMAP (keymap)->table, | |
| 4161 0, /* don't sort: we'll do it later */ | |
| 4162 describe_map_mapper, describe_map_closure); | |
| 4163 return Qnil; | |
| 4164 } | |
| 4165 | |
| 4166 | |
| 4167 /* Describe the contents of map MAP, assuming that this map itself is | |
| 4168 reached by the sequence of prefix keys KEYS (a string or vector). | |
| 4169 PARTIAL, SHADOW, NOMENU are as in `describe_map_tree' above. */ | |
| 4170 | |
| 4171 static void | |
| 4172 describe_map (Lisp_Object keymap, Lisp_Object elt_prefix, | |
| 4173 void (*elt_describer) (Lisp_Object, Lisp_Object), | |
| 4174 int partial, | |
| 4175 Lisp_Object shadow, | |
| 4176 int mice_only_p, | |
| 4177 Lisp_Object buffer) | |
| 4178 { | |
| 4179 /* This function can GC */ | |
| 4180 struct describe_map_closure describe_map_closure; | |
| 4181 Lisp_Object list = Qnil; | |
| 4182 struct buffer *buf = XBUFFER (buffer); | |
| 867 | 4183 Ichar printable_min = (CHAR_OR_CHAR_INTP (buf->ctl_arrow) |
| 428 | 4184 ? XCHAR_OR_CHAR_INT (buf->ctl_arrow) |
| 4185 : ((EQ (buf->ctl_arrow, Qt) | |
| 4186 || EQ (buf->ctl_arrow, Qnil)) | |
| 4187 ? 256 : 160)); | |
| 4188 int elided = 0; | |
| 4189 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4; | |
| 2828 | 4190 extern Lisp_Object Qcharacter_of_keysym; |
| 428 | 4191 |
| 4192 keymap = get_keymap (keymap, 1, 1); | |
| 4193 describe_map_closure.partial = (partial ? Qsuppress_keymap : Qnil); | |
| 4194 describe_map_closure.shadow = shadow; | |
| 4195 describe_map_closure.list = &list; | |
| 4196 describe_map_closure.self_root = keymap; | |
| 4197 describe_map_closure.mice_only_p = mice_only_p; | |
| 4198 | |
| 4199 GCPRO4 (keymap, elt_prefix, shadow, list); | |
| 4200 | |
| 4201 traverse_keymaps (keymap, Qnil, | |
| 4202 describe_map_parent_mapper, &describe_map_closure); | |
| 4203 | |
| 4204 if (!NILP (list)) | |
| 4205 { | |
| 4206 list = list_sort (list, Qnil, describe_map_sort_predicate); | |
|
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|
4207 buffer_insert_ascstring (buf, "\n"); |
| 428 | 4208 while (!NILP (list)) |
| 4209 { | |
| 4210 Lisp_Object elt = XCAR (XCAR (list)); | |
| 4211 Lisp_Object keysym = XCAR (elt); | |
| 442 | 4212 int modifiers = XINT (XCDR (elt)); |
| 428 | 4213 |
| 4214 if (!NILP (elt_prefix)) | |
| 4215 buffer_insert_lisp_string (buf, elt_prefix); | |
| 4216 | |
| 442 | 4217 if (modifiers & XEMACS_MOD_META) |
|
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|
4218 buffer_insert_ascstring (buf, "M-"); |
| 442 | 4219 if (modifiers & XEMACS_MOD_CONTROL) |
|
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changeset
|
4220 buffer_insert_ascstring (buf, "C-"); |
| 442 | 4221 if (modifiers & XEMACS_MOD_SUPER) |
|
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|
4222 buffer_insert_ascstring (buf, "S-"); |
| 442 | 4223 if (modifiers & XEMACS_MOD_HYPER) |
|
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|
4224 buffer_insert_ascstring (buf, "H-"); |
| 442 | 4225 if (modifiers & XEMACS_MOD_ALT) |
|
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|
4226 buffer_insert_ascstring (buf, "Alt-"); |
| 442 | 4227 if (modifiers & XEMACS_MOD_SHIFT) |
|
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|
4228 buffer_insert_ascstring (buf, "Sh-"); |
| 428 | 4229 if (SYMBOLP (keysym)) |
| 4230 { | |
| 2828 | 4231 Lisp_Object code = Fget (keysym, Qcharacter_of_keysym, Qnil); |
| 867 | 4232 Ichar c = (CHAR_OR_CHAR_INTP (code) |
| 4233 ? XCHAR_OR_CHAR_INT (code) : (Ichar) -1); | |
| 428 | 4234 /* Calling Fsingle_key_description() would cons more */ |
| 4235 #if 0 /* This is bogus */ | |
| 4236 if (EQ (keysym, QKlinefeed)) | |
|
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changeset
|
4237 buffer_insert_ascstring (buf, "LFD"); |
| 428 | 4238 else if (EQ (keysym, QKtab)) |
|
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changeset
|
4239 buffer_insert_ascstring (buf, "TAB"); |
| 428 | 4240 else if (EQ (keysym, QKreturn)) |
|
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|
4241 buffer_insert_ascstring (buf, "RET"); |
| 428 | 4242 else if (EQ (keysym, QKescape)) |
|
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changeset
|
4243 buffer_insert_ascstring (buf, "ESC"); |
| 428 | 4244 else if (EQ (keysym, QKdelete)) |
|
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changeset
|
4245 buffer_insert_ascstring (buf, "DEL"); |
| 428 | 4246 else if (EQ (keysym, QKspace)) |
|
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|
4247 buffer_insert_ascstring (buf, "SPC"); |
| 428 | 4248 else if (EQ (keysym, QKbackspace)) |
|
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|
4249 buffer_insert_ascstring (buf, "BS"); |
| 428 | 4250 else |
| 4251 #endif | |
| 4252 if (c >= printable_min) | |
| 4253 buffer_insert_emacs_char (buf, c); | |
| 4254 else buffer_insert1 (buf, Fsymbol_name (keysym)); | |
| 4255 } | |
| 4256 else if (CHARP (keysym)) | |
| 4257 buffer_insert_emacs_char (buf, XCHAR (keysym)); | |
| 4258 else | |
|
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diff
changeset
|
4259 buffer_insert_ascstring (buf, "---bad keysym---"); |
| 428 | 4260 |
| 4261 if (elided) | |
| 4262 elided = 0; | |
| 4263 else | |
| 4264 { | |
| 4265 int k = 0; | |
| 4266 | |
| 4267 while (elide_next_two_p (list)) | |
| 4268 { | |
| 4269 k++; | |
| 4270 list = XCDR (list); | |
| 4271 } | |
| 4272 if (k != 0) | |
| 4273 { | |
| 4274 if (k == 1) | |
|
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|
4275 buffer_insert_ascstring (buf, ", "); |
| 428 | 4276 else |
|
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changeset
|
4277 buffer_insert_ascstring (buf, " .. "); |
| 428 | 4278 elided = 1; |
| 4279 continue; | |
| 4280 } | |
| 4281 } | |
| 4282 | |
| 4283 /* Print a description of the definition of this character. */ | |
| 4284 (*elt_describer) (XCDR (XCAR (list)), buffer); | |
| 4285 list = XCDR (list); | |
| 4286 } | |
| 4287 } | |
| 4288 UNGCPRO; | |
| 4289 } | |
| 4290 | |
| 4291 | |
| 4292 void | |
| 4293 syms_of_keymap (void) | |
| 4294 { | |
|
5117
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3025
diff
changeset
|
4295 INIT_LISP_OBJECT (keymap); |
| 442 | 4296 |
| 502 | 4297 DEFSYMBOL (Qminor_mode_map_alist); |
| 4298 | |
| 4299 DEFSYMBOL (Qkeymapp); | |
| 4300 | |
| 4301 DEFSYMBOL (Qsuppress_keymap); | |
| 4302 | |
| 4303 DEFSYMBOL (Qmodeline_map); | |
| 4304 DEFSYMBOL (Qtoolbar_map); | |
| 428 | 4305 |
| 4306 DEFSUBR (Fkeymap_parents); | |
| 4307 DEFSUBR (Fset_keymap_parents); | |
| 4308 DEFSUBR (Fkeymap_name); | |
| 4309 DEFSUBR (Fset_keymap_name); | |
| 4310 DEFSUBR (Fkeymap_prompt); | |
| 4311 DEFSUBR (Fset_keymap_prompt); | |
| 4312 DEFSUBR (Fkeymap_default_binding); | |
| 4313 DEFSUBR (Fset_keymap_default_binding); | |
| 4314 | |
| 4315 DEFSUBR (Fkeymapp); | |
| 4316 DEFSUBR (Fmake_keymap); | |
| 4317 DEFSUBR (Fmake_sparse_keymap); | |
| 4318 | |
| 4319 DEFSUBR (Fcopy_keymap); | |
| 4320 DEFSUBR (Fkeymap_fullness); | |
| 4321 DEFSUBR (Fmap_keymap); | |
| 4322 DEFSUBR (Fevent_matches_key_specifier_p); | |
| 4323 DEFSUBR (Fdefine_key); | |
| 4324 DEFSUBR (Flookup_key); | |
| 4325 DEFSUBR (Fkey_binding); | |
| 4326 DEFSUBR (Fuse_global_map); | |
| 4327 DEFSUBR (Fuse_local_map); | |
| 4328 DEFSUBR (Fcurrent_local_map); | |
| 4329 DEFSUBR (Fcurrent_global_map); | |
| 4330 DEFSUBR (Fcurrent_keymaps); | |
| 4331 DEFSUBR (Faccessible_keymaps); | |
| 4332 DEFSUBR (Fkey_description); | |
| 4333 DEFSUBR (Fsingle_key_description); | |
| 4334 DEFSUBR (Fwhere_is_internal); | |
| 4335 DEFSUBR (Fdescribe_bindings_internal); | |
| 4336 | |
| 4337 DEFSUBR (Ftext_char_description); | |
| 4338 | |
| 502 | 4339 DEFSYMBOL (Qcontrol); |
| 4340 DEFSYMBOL (Qctrl); | |
| 4341 DEFSYMBOL (Qmeta); | |
| 4342 DEFSYMBOL (Qsuper); | |
| 4343 DEFSYMBOL (Qhyper); | |
| 4344 DEFSYMBOL (Qalt); | |
| 4345 DEFSYMBOL (Qshift); | |
|
4906
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diff
changeset
|
4346 #define INCLUDE_BUTTON_ZERO |
|
6ef8256a020a
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4846
diff
changeset
|
4347 #define FROB(num) \ |
|
6ef8256a020a
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4846
diff
changeset
|
4348 DEFSYMBOL (Qbutton##num); \ |
|
6ef8256a020a
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4846
diff
changeset
|
4349 DEFSYMBOL (Qbutton##num##up); |
|
6ef8256a020a
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4846
diff
changeset
|
4350 #include "keymap-buttons.h" |
|
6ef8256a020a
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4846
diff
changeset
|
4351 #define FROB(num) \ |
|
6ef8256a020a
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|
4352 DEFSYMBOL (Qmouse_##num); \ |
|
6ef8256a020a
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|
4353 DEFSYMBOL (Qdown_mouse_##num); |
|
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|
4354 #include "keymap-buttons.h" |
| 502 | 4355 DEFSYMBOL (Qmenu_selection); |
| 4356 DEFSYMBOL (QLFD); | |
| 4357 DEFSYMBOL (QTAB); | |
| 4358 DEFSYMBOL (QRET); | |
| 4359 DEFSYMBOL (QESC); | |
| 4360 DEFSYMBOL (QDEL); | |
| 4361 DEFSYMBOL (QSPC); | |
| 4362 DEFSYMBOL (QBS); | |
| 428 | 4363 } |
| 4364 | |
| 4365 void | |
| 4366 vars_of_keymap (void) | |
| 4367 { | |
| 4368 DEFVAR_LISP ("meta-prefix-char", &Vmeta_prefix_char /* | |
| 4369 Meta-prefix character. | |
| 4370 This character followed by some character `foo' turns into `Meta-foo'. | |
| 4371 This can be any form recognized as a single key specifier. | |
| 4372 To disable the meta-prefix-char, set it to a negative number. | |
| 4373 */ ); | |
| 4374 Vmeta_prefix_char = make_char (033); | |
| 4375 | |
| 4376 DEFVAR_LISP ("mouse-grabbed-buffer", &Vmouse_grabbed_buffer /* | |
| 4377 A buffer which should be consulted first for all mouse activity. | |
| 4378 When a mouse-click is processed, it will first be looked up in the | |
| 4379 local-map of this buffer, and then through the normal mechanism if there | |
| 4380 is no binding for that click. This buffer's value of `mode-motion-hook' | |
| 4381 will be consulted instead of the `mode-motion-hook' of the buffer of the | |
| 4382 window under the mouse. You should *bind* this, not set it. | |
| 4383 */ ); | |
| 4384 Vmouse_grabbed_buffer = Qnil; | |
| 4385 | |
| 4386 DEFVAR_LISP ("overriding-local-map", &Voverriding_local_map /* | |
| 4387 Keymap that overrides all other local keymaps. | |
| 4388 If this variable is non-nil, it is used as a keymap instead of the | |
| 4389 buffer's local map, and the minor mode keymaps and extent-local keymaps. | |
| 4390 You should *bind* this, not set it. | |
| 4391 */ ); | |
| 4392 Voverriding_local_map = Qnil; | |
| 4393 | |
| 4394 Fset (Qminor_mode_map_alist, Qnil); | |
| 4395 | |
| 4396 DEFVAR_LISP ("key-translation-map", &Vkey_translation_map /* | |
| 4397 Keymap of key translations that can override keymaps. | |
| 2027 | 4398 |
| 4399 This keymap works like `function-key-map', but is searched before it, | |
| 428 | 4400 and applies even for keys that have ordinary bindings. |
| 2027 | 4401 |
| 4402 The `read-key-sequence' function replaces any subsequence bound by | |
| 4403 `key-translation-map' with its binding. More precisely, when the active | |
| 4404 keymaps have no binding for the current key sequence but | |
| 4405 `key-translation-map' binds a suffix of the sequence to a vector or string, | |
| 4406 `read-key-sequence' replaces the matching suffix with its binding, and | |
| 4407 continues with the new sequence. See `key-binding' for details. | |
| 4408 | |
| 4409 The events that come from bindings in `key-translation-map' are not | |
| 4410 themselves looked up in `key-translation-map'. | |
| 4411 | |
| 4412 #### FIXME: stolen from `function-key-map'; need better example. | |
| 4413 #### I guess you could implement a Dvorak keyboard with this? | |
| 4414 For example, suppose `key-translation-map' binds `ESC O P' to [f1]. | |
| 4415 Typing `ESC O P' to `read-key-sequence' would return | |
| 4416 \[#<keypress-event f1>]. Typing `C-x ESC O P' would return | |
| 4417 \[#<keypress-event control-X> #<keypress-event f1>]. If [f1] | |
| 4418 were a prefix key, typing `ESC O P x' would return | |
| 4419 \[#<keypress-event f1> #<keypress-event x>]. | |
| 428 | 4420 */ ); |
| 4421 Vkey_translation_map = Qnil; | |
| 4422 | |
| 771 | 4423 DEFVAR_LISP ("global-tty-map", &Vglobal_tty_map /* |
| 4424 Global keymap that applies only to TTY's. | |
| 4425 Key bindings are looked up in this map just before looking in the global map, | |
| 4426 but only when the current console is a TTY console. See also | |
| 4427 `global-window-system-map'. | |
| 4428 */ ); | |
| 4429 Vglobal_tty_map = Qnil; | |
| 4430 | |
| 4431 DEFVAR_LISP ("global-window-system-map", &Vglobal_window_system_map /* | |
| 4432 Global keymap that applies only to window systems. | |
| 4433 Key bindings are looked up in this map just before looking in the global map, | |
| 4434 but only when the current console is not a TTY console. See also | |
| 4435 `global-tty-map'. | |
| 4436 */ ); | |
| 4437 Vglobal_window_system_map = Qnil; | |
| 4438 | |
| 428 | 4439 DEFVAR_LISP ("vertical-divider-map", &Vvertical_divider_map /* |
| 4440 Keymap which handles mouse clicks over vertical dividers. | |
| 4441 */ ); | |
| 4442 Vvertical_divider_map = Qnil; | |
| 4443 | |
| 4444 DEFVAR_INT ("keymap-tick", &keymap_tick /* | |
| 4445 Incremented for each change to any keymap. | |
| 4446 */ ); | |
| 4447 keymap_tick = 0; | |
| 4448 | |
| 4449 staticpro (&Vcurrent_global_map); | |
| 4450 | |
| 867 | 4451 Vsingle_space_string = make_string ((const Ibyte *) " ", 1); |
| 428 | 4452 staticpro (&Vsingle_space_string); |
| 4453 } | |
| 4454 | |
| 4455 void | |
| 4456 complex_vars_of_keymap (void) | |
| 4457 { | |
| 4458 /* This function can GC */ | |
| 4459 Lisp_Object ESC_prefix = intern ("ESC-prefix"); | |
| 4460 Lisp_Object meta_disgustitute; | |
| 4461 | |
| 4462 Vcurrent_global_map = Fmake_keymap (Qnil); | |
| 771 | 4463 Vglobal_tty_map = Fmake_keymap (intern ("global-tty-map")); |
| 4464 Vglobal_window_system_map = | |
| 4465 Fmake_keymap (intern ("global-window-system-map")); | |
| 428 | 4466 |
| 4467 meta_disgustitute = Fmake_keymap (Qnil); | |
| 4468 Ffset (ESC_prefix, meta_disgustitute); | |
| 4469 /* no need to protect meta_disgustitute, though */ | |
| 442 | 4470 keymap_store_internal (MAKE_MODIFIER_HASH_KEY (XEMACS_MOD_META), |
| 428 | 4471 XKEYMAP (Vcurrent_global_map), |
| 4472 meta_disgustitute); | |
| 4473 XKEYMAP (Vcurrent_global_map)->sub_maps_cache = Qt; | |
| 4474 | |
| 4475 Vkey_translation_map = Fmake_sparse_keymap (intern ("key-translation-map")); | |
| 4476 } |