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[emacs.git] / src / keymap.c
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1 /* Manipulation of keymaps
2 Copyright (C) 1985, 1986, 1987, 1988, 1993, 1994, 1995,
3 1998, 1999, 2000, 2001, 2002, 2003, 2004,
4 2005, 2006, 2007 Free Software Foundation, Inc.
6 This file is part of GNU Emacs.
8 GNU Emacs is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3, or (at your option)
11 any later version.
13 GNU Emacs is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with GNU Emacs; see the file COPYING. If not, write to
20 the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
21 Boston, MA 02110-1301, USA. */
24 #include <config.h>
25 #include <stdio.h>
26 #if HAVE_ALLOCA_H
27 # include <alloca.h>
28 #endif
29 #include "lisp.h"
30 #include "commands.h"
31 #include "buffer.h"
32 #include "charset.h"
33 #include "keyboard.h"
34 #include "frame.h"
35 #include "termhooks.h"
36 #include "blockinput.h"
37 #include "puresize.h"
38 #include "intervals.h"
39 #include "keymap.h"
40 #include "window.h"
42 /* The number of elements in keymap vectors. */
43 #define DENSE_TABLE_SIZE (0200)
45 /* Actually allocate storage for these variables */
47 Lisp_Object current_global_map; /* Current global keymap */
49 Lisp_Object global_map; /* default global key bindings */
51 Lisp_Object meta_map; /* The keymap used for globally bound
52 ESC-prefixed default commands */
54 Lisp_Object control_x_map; /* The keymap used for globally bound
55 C-x-prefixed default commands */
57 /* was MinibufLocalMap */
58 Lisp_Object Vminibuffer_local_map;
59 /* The keymap used by the minibuf for local
60 bindings when spaces are allowed in the
61 minibuf */
63 /* was MinibufLocalNSMap */
64 Lisp_Object Vminibuffer_local_ns_map;
65 /* The keymap used by the minibuf for local
66 bindings when spaces are not encouraged
67 in the minibuf */
69 /* keymap used for minibuffers when doing completion */
70 /* was MinibufLocalCompletionMap */
71 Lisp_Object Vminibuffer_local_completion_map;
73 /* keymap used for minibuffers when doing completion in filenames */
74 Lisp_Object Vminibuffer_local_filename_completion_map;
76 /* keymap used for minibuffers when doing completion in filenames
77 with require-match*/
78 Lisp_Object Vminibuffer_local_must_match_filename_map;
80 /* keymap used for minibuffers when doing completion and require a match */
81 /* was MinibufLocalMustMatchMap */
82 Lisp_Object Vminibuffer_local_must_match_map;
84 /* Alist of minor mode variables and keymaps. */
85 Lisp_Object Vminor_mode_map_alist;
87 /* Alist of major-mode-specific overrides for
88 minor mode variables and keymaps. */
89 Lisp_Object Vminor_mode_overriding_map_alist;
91 /* List of emulation mode keymap alists. */
92 Lisp_Object Vemulation_mode_map_alists;
94 /* A list of all commands given new bindings since a certain time
95 when nil was stored here.
96 This is used to speed up recomputation of menu key equivalents
97 when Emacs starts up. t means don't record anything here. */
98 Lisp_Object Vdefine_key_rebound_commands;
100 Lisp_Object Qkeymapp, Qkeymap, Qnon_ascii, Qmenu_item, Qremap;
102 /* Alist of elements like (DEL . "\d"). */
103 static Lisp_Object exclude_keys;
105 /* Pre-allocated 2-element vector for Fcommand_remapping to use. */
106 static Lisp_Object command_remapping_vector;
108 /* A char with the CHAR_META bit set in a vector or the 0200 bit set
109 in a string key sequence is equivalent to prefixing with this
110 character. */
111 extern Lisp_Object meta_prefix_char;
113 extern Lisp_Object Voverriding_local_map;
115 /* Hash table used to cache a reverse-map to speed up calls to where-is. */
116 static Lisp_Object where_is_cache;
117 /* Which keymaps are reverse-stored in the cache. */
118 static Lisp_Object where_is_cache_keymaps;
120 static Lisp_Object store_in_keymap P_ ((Lisp_Object, Lisp_Object, Lisp_Object));
121 static void fix_submap_inheritance P_ ((Lisp_Object, Lisp_Object, Lisp_Object));
123 static Lisp_Object define_as_prefix P_ ((Lisp_Object, Lisp_Object));
124 static void describe_command P_ ((Lisp_Object, Lisp_Object));
125 static void describe_translation P_ ((Lisp_Object, Lisp_Object));
126 static void describe_map P_ ((Lisp_Object, Lisp_Object,
127 void (*) P_ ((Lisp_Object, Lisp_Object)),
128 int, Lisp_Object, Lisp_Object*, int, int));
129 static void describe_vector P_ ((Lisp_Object, Lisp_Object, Lisp_Object,
130 void (*) (Lisp_Object, Lisp_Object), int,
131 Lisp_Object, Lisp_Object, int *,
132 int, int, int));
133 static void silly_event_symbol_error P_ ((Lisp_Object));
135 /* Keymap object support - constructors and predicates. */
137 DEFUN ("make-keymap", Fmake_keymap, Smake_keymap, 0, 1, 0,
138 doc: /* Construct and return a new keymap, of the form (keymap CHARTABLE . ALIST).
139 CHARTABLE is a char-table that holds the bindings for all characters
140 without modifiers. All entries in it are initially nil, meaning
141 "command undefined". ALIST is an assoc-list which holds bindings for
142 function keys, mouse events, and any other things that appear in the
143 input stream. Initially, ALIST is nil.
145 The optional arg STRING supplies a menu name for the keymap
146 in case you use it as a menu with `x-popup-menu'. */)
147 (string)
148 Lisp_Object string;
150 Lisp_Object tail;
151 if (!NILP (string))
152 tail = Fcons (string, Qnil);
153 else
154 tail = Qnil;
155 return Fcons (Qkeymap,
156 Fcons (Fmake_char_table (Qkeymap, Qnil), tail));
159 DEFUN ("make-sparse-keymap", Fmake_sparse_keymap, Smake_sparse_keymap, 0, 1, 0,
160 doc: /* Construct and return a new sparse keymap.
161 Its car is `keymap' and its cdr is an alist of (CHAR . DEFINITION),
162 which binds the character CHAR to DEFINITION, or (SYMBOL . DEFINITION),
163 which binds the function key or mouse event SYMBOL to DEFINITION.
164 Initially the alist is nil.
166 The optional arg STRING supplies a menu name for the keymap
167 in case you use it as a menu with `x-popup-menu'. */)
168 (string)
169 Lisp_Object string;
171 if (!NILP (string))
172 return Fcons (Qkeymap, Fcons (string, Qnil));
173 return Fcons (Qkeymap, Qnil);
176 /* This function is used for installing the standard key bindings
177 at initialization time.
179 For example:
181 initial_define_key (control_x_map, Ctl('X'), "exchange-point-and-mark"); */
183 void
184 initial_define_key (keymap, key, defname)
185 Lisp_Object keymap;
186 int key;
187 char *defname;
189 store_in_keymap (keymap, make_number (key), intern (defname));
192 void
193 initial_define_lispy_key (keymap, keyname, defname)
194 Lisp_Object keymap;
195 char *keyname;
196 char *defname;
198 store_in_keymap (keymap, intern (keyname), intern (defname));
201 DEFUN ("keymapp", Fkeymapp, Skeymapp, 1, 1, 0,
202 doc: /* Return t if OBJECT is a keymap.
204 A keymap is a list (keymap . ALIST),
205 or a symbol whose function definition is itself a keymap.
206 ALIST elements look like (CHAR . DEFN) or (SYMBOL . DEFN);
207 a vector of densely packed bindings for small character codes
208 is also allowed as an element. */)
209 (object)
210 Lisp_Object object;
212 return (KEYMAPP (object) ? Qt : Qnil);
215 DEFUN ("keymap-prompt", Fkeymap_prompt, Skeymap_prompt, 1, 1, 0,
216 doc: /* Return the prompt-string of a keymap MAP.
217 If non-nil, the prompt is shown in the echo-area
218 when reading a key-sequence to be looked-up in this keymap. */)
219 (map)
220 Lisp_Object map;
222 map = get_keymap (map, 0, 0);
223 while (CONSP (map))
225 Lisp_Object tem = XCAR (map);
226 if (STRINGP (tem))
227 return tem;
228 map = XCDR (map);
230 return Qnil;
233 /* Check that OBJECT is a keymap (after dereferencing through any
234 symbols). If it is, return it.
236 If AUTOLOAD is non-zero and OBJECT is a symbol whose function value
237 is an autoload form, do the autoload and try again.
238 If AUTOLOAD is nonzero, callers must assume GC is possible.
240 If the map needs to be autoloaded, but AUTOLOAD is zero (and ERROR
241 is zero as well), return Qt.
243 ERROR controls how we respond if OBJECT isn't a keymap.
244 If ERROR is non-zero, signal an error; otherwise, just return Qnil.
246 Note that most of the time, we don't want to pursue autoloads.
247 Functions like Faccessible_keymaps which scan entire keymap trees
248 shouldn't load every autoloaded keymap. I'm not sure about this,
249 but it seems to me that only read_key_sequence, Flookup_key, and
250 Fdefine_key should cause keymaps to be autoloaded.
252 This function can GC when AUTOLOAD is non-zero, because it calls
253 do_autoload which can GC. */
255 Lisp_Object
256 get_keymap (object, error, autoload)
257 Lisp_Object object;
258 int error, autoload;
260 Lisp_Object tem;
262 autoload_retry:
263 if (NILP (object))
264 goto end;
265 if (CONSP (object) && EQ (XCAR (object), Qkeymap))
266 return object;
268 tem = indirect_function (object);
269 if (CONSP (tem))
271 if (EQ (XCAR (tem), Qkeymap))
272 return tem;
274 /* Should we do an autoload? Autoload forms for keymaps have
275 Qkeymap as their fifth element. */
276 if ((autoload || !error) && EQ (XCAR (tem), Qautoload)
277 && SYMBOLP (object))
279 Lisp_Object tail;
281 tail = Fnth (make_number (4), tem);
282 if (EQ (tail, Qkeymap))
284 if (autoload)
286 struct gcpro gcpro1, gcpro2;
288 GCPRO2 (tem, object);
289 do_autoload (tem, object);
290 UNGCPRO;
292 goto autoload_retry;
294 else
295 return Qt;
300 end:
301 if (error)
302 wrong_type_argument (Qkeymapp, object);
303 return Qnil;
306 /* Return the parent map of KEYMAP, or nil if it has none.
307 We assume that KEYMAP is a valid keymap. */
309 Lisp_Object
310 keymap_parent (keymap, autoload)
311 Lisp_Object keymap;
312 int autoload;
314 Lisp_Object list;
316 keymap = get_keymap (keymap, 1, autoload);
318 /* Skip past the initial element `keymap'. */
319 list = XCDR (keymap);
320 for (; CONSP (list); list = XCDR (list))
322 /* See if there is another `keymap'. */
323 if (KEYMAPP (list))
324 return list;
327 return get_keymap (list, 0, autoload);
330 DEFUN ("keymap-parent", Fkeymap_parent, Skeymap_parent, 1, 1, 0,
331 doc: /* Return the parent keymap of KEYMAP. */)
332 (keymap)
333 Lisp_Object keymap;
335 return keymap_parent (keymap, 1);
338 /* Check whether MAP is one of MAPS parents. */
340 keymap_memberp (map, maps)
341 Lisp_Object map, maps;
343 if (NILP (map)) return 0;
344 while (KEYMAPP (maps) && !EQ (map, maps))
345 maps = keymap_parent (maps, 0);
346 return (EQ (map, maps));
349 /* Set the parent keymap of MAP to PARENT. */
351 DEFUN ("set-keymap-parent", Fset_keymap_parent, Sset_keymap_parent, 2, 2, 0,
352 doc: /* Modify KEYMAP to set its parent map to PARENT.
353 Return PARENT. PARENT should be nil or another keymap. */)
354 (keymap, parent)
355 Lisp_Object keymap, parent;
357 Lisp_Object list, prev;
358 struct gcpro gcpro1, gcpro2;
359 int i;
361 /* Force a keymap flush for the next call to where-is.
362 Since this can be called from within where-is, we don't set where_is_cache
363 directly but only where_is_cache_keymaps, since where_is_cache shouldn't
364 be changed during where-is, while where_is_cache_keymaps is only used at
365 the very beginning of where-is and can thus be changed here without any
366 adverse effect.
367 This is a very minor correctness (rather than safety) issue. */
368 where_is_cache_keymaps = Qt;
370 GCPRO2 (keymap, parent);
371 keymap = get_keymap (keymap, 1, 1);
373 if (!NILP (parent))
375 parent = get_keymap (parent, 1, 1);
377 /* Check for cycles. */
378 if (keymap_memberp (keymap, parent))
379 error ("Cyclic keymap inheritance");
382 /* Skip past the initial element `keymap'. */
383 prev = keymap;
384 while (1)
386 list = XCDR (prev);
387 /* If there is a parent keymap here, replace it.
388 If we came to the end, add the parent in PREV. */
389 if (!CONSP (list) || KEYMAPP (list))
391 /* If we already have the right parent, return now
392 so that we avoid the loops below. */
393 if (EQ (XCDR (prev), parent))
394 RETURN_UNGCPRO (parent);
396 CHECK_IMPURE (prev);
397 XSETCDR (prev, parent);
398 break;
400 prev = list;
403 /* Scan through for submaps, and set their parents too. */
405 for (list = XCDR (keymap); CONSP (list); list = XCDR (list))
407 /* Stop the scan when we come to the parent. */
408 if (EQ (XCAR (list), Qkeymap))
409 break;
411 /* If this element holds a prefix map, deal with it. */
412 if (CONSP (XCAR (list))
413 && CONSP (XCDR (XCAR (list))))
414 fix_submap_inheritance (keymap, XCAR (XCAR (list)),
415 XCDR (XCAR (list)));
417 if (VECTORP (XCAR (list)))
418 for (i = 0; i < XVECTOR (XCAR (list))->size; i++)
419 if (CONSP (XVECTOR (XCAR (list))->contents[i]))
420 fix_submap_inheritance (keymap, make_number (i),
421 XVECTOR (XCAR (list))->contents[i]);
423 if (CHAR_TABLE_P (XCAR (list)))
425 int indices[3];
427 map_char_table (fix_submap_inheritance, Qnil,
428 XCAR (list), XCAR (list),
429 keymap, 0, indices);
433 RETURN_UNGCPRO (parent);
436 /* EVENT is defined in MAP as a prefix, and SUBMAP is its definition.
437 if EVENT is also a prefix in MAP's parent,
438 make sure that SUBMAP inherits that definition as its own parent. */
440 static void
441 fix_submap_inheritance (map, event, submap)
442 Lisp_Object map, event, submap;
444 Lisp_Object map_parent, parent_entry;
446 /* SUBMAP is a cons that we found as a key binding.
447 Discard the other things found in a menu key binding. */
449 submap = get_keymap (get_keyelt (submap, 0), 0, 0);
451 /* If it isn't a keymap now, there's no work to do. */
452 if (!CONSP (submap))
453 return;
455 map_parent = keymap_parent (map, 0);
456 if (!NILP (map_parent))
457 parent_entry =
458 get_keymap (access_keymap (map_parent, event, 0, 0, 0), 0, 0);
459 else
460 parent_entry = Qnil;
462 /* If MAP's parent has something other than a keymap,
463 our own submap shadows it completely. */
464 if (!CONSP (parent_entry))
465 return;
467 if (! EQ (parent_entry, submap))
469 Lisp_Object submap_parent;
470 submap_parent = submap;
471 while (1)
473 Lisp_Object tem;
475 tem = keymap_parent (submap_parent, 0);
477 if (KEYMAPP (tem))
479 if (keymap_memberp (tem, parent_entry))
480 /* Fset_keymap_parent could create a cycle. */
481 return;
482 submap_parent = tem;
484 else
485 break;
487 Fset_keymap_parent (submap_parent, parent_entry);
491 /* Look up IDX in MAP. IDX may be any sort of event.
492 Note that this does only one level of lookup; IDX must be a single
493 event, not a sequence.
495 If T_OK is non-zero, bindings for Qt are treated as default
496 bindings; any key left unmentioned by other tables and bindings is
497 given the binding of Qt.
499 If T_OK is zero, bindings for Qt are not treated specially.
501 If NOINHERIT, don't accept a subkeymap found in an inherited keymap. */
503 Lisp_Object
504 access_keymap (map, idx, t_ok, noinherit, autoload)
505 Lisp_Object map;
506 Lisp_Object idx;
507 int t_ok;
508 int noinherit;
509 int autoload;
511 Lisp_Object val;
513 /* Qunbound in VAL means we have found no binding yet. */
514 val = Qunbound;
516 /* If idx is a list (some sort of mouse click, perhaps?),
517 the index we want to use is the car of the list, which
518 ought to be a symbol. */
519 idx = EVENT_HEAD (idx);
521 /* If idx is a symbol, it might have modifiers, which need to
522 be put in the canonical order. */
523 if (SYMBOLP (idx))
524 idx = reorder_modifiers (idx);
525 else if (INTEGERP (idx))
526 /* Clobber the high bits that can be present on a machine
527 with more than 24 bits of integer. */
528 XSETFASTINT (idx, XINT (idx) & (CHAR_META | (CHAR_META - 1)));
530 /* Handle the special meta -> esc mapping. */
531 if (INTEGERP (idx) && XUINT (idx) & meta_modifier)
533 /* See if there is a meta-map. If there's none, there is
534 no binding for IDX, unless a default binding exists in MAP. */
535 struct gcpro gcpro1;
536 Lisp_Object meta_map;
537 GCPRO1 (map);
538 /* A strange value in which Meta is set would cause
539 infinite recursion. Protect against that. */
540 if (XINT (meta_prefix_char) & CHAR_META)
541 meta_prefix_char = make_number (27);
542 meta_map = get_keymap (access_keymap (map, meta_prefix_char,
543 t_ok, noinherit, autoload),
544 0, autoload);
545 UNGCPRO;
546 if (CONSP (meta_map))
548 map = meta_map;
549 idx = make_number (XUINT (idx) & ~meta_modifier);
551 else if (t_ok)
552 /* Set IDX to t, so that we only find a default binding. */
553 idx = Qt;
554 else
555 /* We know there is no binding. */
556 return Qnil;
559 /* t_binding is where we put a default binding that applies,
560 to use in case we do not find a binding specifically
561 for this key sequence. */
563 Lisp_Object tail;
564 Lisp_Object t_binding = Qnil;
565 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4;
567 GCPRO4 (map, tail, idx, t_binding);
569 /* If `t_ok' is 2, both `t' and generic-char bindings are accepted.
570 If it is 1, only generic-char bindings are accepted.
571 Otherwise, neither are. */
572 t_ok = t_ok ? 2 : 0;
574 for (tail = XCDR (map);
575 (CONSP (tail)
576 || (tail = get_keymap (tail, 0, autoload), CONSP (tail)));
577 tail = XCDR (tail))
579 Lisp_Object binding;
581 binding = XCAR (tail);
582 if (SYMBOLP (binding))
584 /* If NOINHERIT, stop finding prefix definitions
585 after we pass a second occurrence of the `keymap' symbol. */
586 if (noinherit && EQ (binding, Qkeymap))
587 RETURN_UNGCPRO (Qnil);
589 else if (CONSP (binding))
591 Lisp_Object key = XCAR (binding);
593 if (EQ (key, idx))
594 val = XCDR (binding);
595 else if (t_ok
596 && INTEGERP (idx)
597 && (XINT (idx) & CHAR_MODIFIER_MASK) == 0
598 && INTEGERP (key)
599 && (XINT (key) & CHAR_MODIFIER_MASK) == 0
600 && !SINGLE_BYTE_CHAR_P (XINT (idx))
601 && !SINGLE_BYTE_CHAR_P (XINT (key))
602 && CHAR_VALID_P (XINT (key), 1)
603 && !CHAR_VALID_P (XINT (key), 0)
604 && (CHAR_CHARSET (XINT (key))
605 == CHAR_CHARSET (XINT (idx))))
607 /* KEY is the generic character of the charset of IDX.
608 Use KEY's binding if there isn't a binding for IDX
609 itself. */
610 t_binding = XCDR (binding);
611 t_ok = 0;
613 else if (t_ok > 1 && EQ (key, Qt))
615 t_binding = XCDR (binding);
616 t_ok = 1;
619 else if (VECTORP (binding))
621 if (NATNUMP (idx) && XFASTINT (idx) < ASIZE (binding))
622 val = AREF (binding, XFASTINT (idx));
624 else if (CHAR_TABLE_P (binding))
626 /* Character codes with modifiers
627 are not included in a char-table.
628 All character codes without modifiers are included. */
629 if (NATNUMP (idx) && (XFASTINT (idx) & CHAR_MODIFIER_MASK) == 0)
631 val = Faref (binding, idx);
632 /* `nil' has a special meaning for char-tables, so
633 we use something else to record an explicitly
634 unbound entry. */
635 if (NILP (val))
636 val = Qunbound;
640 /* If we found a binding, clean it up and return it. */
641 if (!EQ (val, Qunbound))
643 if (EQ (val, Qt))
644 /* A Qt binding is just like an explicit nil binding
645 (i.e. it shadows any parent binding but not bindings in
646 keymaps of lower precedence). */
647 val = Qnil;
648 val = get_keyelt (val, autoload);
649 if (KEYMAPP (val))
650 fix_submap_inheritance (map, idx, val);
651 RETURN_UNGCPRO (val);
653 QUIT;
655 UNGCPRO;
656 return get_keyelt (t_binding, autoload);
660 static void
661 map_keymap_item (fun, args, key, val, data)
662 map_keymap_function_t fun;
663 Lisp_Object args, key, val;
664 void *data;
666 /* We should maybe try to detect bindings shadowed by previous
667 ones and things like that. */
668 if (EQ (val, Qt))
669 val = Qnil;
670 (*fun) (key, val, args, data);
673 static void
674 map_keymap_char_table_item (args, key, val)
675 Lisp_Object args, key, val;
677 if (!NILP (val))
679 map_keymap_function_t fun = XSAVE_VALUE (XCAR (args))->pointer;
680 args = XCDR (args);
681 map_keymap_item (fun, XCDR (args), key, val,
682 XSAVE_VALUE (XCAR (args))->pointer);
686 /* Call FUN for every binding in MAP.
687 FUN is called with 4 arguments: FUN (KEY, BINDING, ARGS, DATA).
688 AUTOLOAD if non-zero means that we can autoload keymaps if necessary. */
689 void
690 map_keymap (map, fun, args, data, autoload)
691 map_keymap_function_t fun;
692 Lisp_Object map, args;
693 void *data;
694 int autoload;
696 struct gcpro gcpro1, gcpro2, gcpro3;
697 Lisp_Object tail;
699 tail = Qnil;
700 GCPRO3 (map, args, tail);
701 map = get_keymap (map, 1, autoload);
702 for (tail = (CONSP (map) && EQ (Qkeymap, XCAR (map))) ? XCDR (map) : map;
703 CONSP (tail) || (tail = get_keymap (tail, 0, autoload), CONSP (tail));
704 tail = XCDR (tail))
706 Lisp_Object binding = XCAR (tail);
708 if (CONSP (binding))
709 map_keymap_item (fun, args, XCAR (binding), XCDR (binding), data);
710 else if (VECTORP (binding))
712 /* Loop over the char values represented in the vector. */
713 int len = ASIZE (binding);
714 int c;
715 for (c = 0; c < len; c++)
717 Lisp_Object character;
718 XSETFASTINT (character, c);
719 map_keymap_item (fun, args, character, AREF (binding, c), data);
722 else if (CHAR_TABLE_P (binding))
724 int indices[3];
725 map_char_table (map_keymap_char_table_item, Qnil, binding, binding,
726 Fcons (make_save_value (fun, 0),
727 Fcons (make_save_value (data, 0),
728 args)),
729 0, indices);
732 UNGCPRO;
735 static void
736 map_keymap_call (key, val, fun, dummy)
737 Lisp_Object key, val, fun;
738 void *dummy;
740 call2 (fun, key, val);
743 DEFUN ("map-keymap", Fmap_keymap, Smap_keymap, 2, 3, 0,
744 doc: /* Call FUNCTION once for each event binding in KEYMAP.
745 FUNCTION is called with two arguments: the event that is bound, and
746 the definition it is bound to. If the event is an integer, it may be
747 a generic character (see Info node `(elisp)Splitting Characters'), and
748 that means that all actual character events belonging to that generic
749 character are bound to the definition.
751 If KEYMAP has a parent, the parent's bindings are included as well.
752 This works recursively: if the parent has itself a parent, then the
753 grandparent's bindings are also included and so on.
754 usage: (map-keymap FUNCTION KEYMAP) */)
755 (function, keymap, sort_first)
756 Lisp_Object function, keymap, sort_first;
758 if (INTEGERP (function))
759 /* We have to stop integers early since map_keymap gives them special
760 significance. */
761 xsignal1 (Qinvalid_function, function);
762 if (! NILP (sort_first))
763 return call3 (intern ("map-keymap-internal"), function, keymap, Qt);
765 map_keymap (keymap, map_keymap_call, function, NULL, 1);
766 return Qnil;
769 /* Given OBJECT which was found in a slot in a keymap,
770 trace indirect definitions to get the actual definition of that slot.
771 An indirect definition is a list of the form
772 (KEYMAP . INDEX), where KEYMAP is a keymap or a symbol defined as one
773 and INDEX is the object to look up in KEYMAP to yield the definition.
775 Also if OBJECT has a menu string as the first element,
776 remove that. Also remove a menu help string as second element.
778 If AUTOLOAD is nonzero, load autoloadable keymaps
779 that are referred to with indirection.
781 This can GC because menu_item_eval_property calls Feval. */
783 Lisp_Object
784 get_keyelt (object, autoload)
785 Lisp_Object object;
786 int autoload;
788 while (1)
790 if (!(CONSP (object)))
791 /* This is really the value. */
792 return object;
794 /* If the keymap contents looks like (keymap ...) or (lambda ...)
795 then use itself. */
796 else if (EQ (XCAR (object), Qkeymap) || EQ (XCAR (object), Qlambda))
797 return object;
799 /* If the keymap contents looks like (menu-item name . DEFN)
800 or (menu-item name DEFN ...) then use DEFN.
801 This is a new format menu item. */
802 else if (EQ (XCAR (object), Qmenu_item))
804 if (CONSP (XCDR (object)))
806 Lisp_Object tem;
808 object = XCDR (XCDR (object));
809 tem = object;
810 if (CONSP (object))
811 object = XCAR (object);
813 /* If there's a `:filter FILTER', apply FILTER to the
814 menu-item's definition to get the real definition to
815 use. */
816 for (; CONSP (tem) && CONSP (XCDR (tem)); tem = XCDR (tem))
817 if (EQ (XCAR (tem), QCfilter) && autoload)
819 Lisp_Object filter;
820 filter = XCAR (XCDR (tem));
821 filter = list2 (filter, list2 (Qquote, object));
822 object = menu_item_eval_property (filter);
823 break;
826 else
827 /* Invalid keymap. */
828 return object;
831 /* If the keymap contents looks like (STRING . DEFN), use DEFN.
832 Keymap alist elements like (CHAR MENUSTRING . DEFN)
833 will be used by HierarKey menus. */
834 else if (STRINGP (XCAR (object)))
836 object = XCDR (object);
837 /* Also remove a menu help string, if any,
838 following the menu item name. */
839 if (CONSP (object) && STRINGP (XCAR (object)))
840 object = XCDR (object);
841 /* Also remove the sublist that caches key equivalences, if any. */
842 if (CONSP (object) && CONSP (XCAR (object)))
844 Lisp_Object carcar;
845 carcar = XCAR (XCAR (object));
846 if (NILP (carcar) || VECTORP (carcar))
847 object = XCDR (object);
851 /* If the contents are (KEYMAP . ELEMENT), go indirect. */
852 else
854 struct gcpro gcpro1;
855 Lisp_Object map;
856 GCPRO1 (object);
857 map = get_keymap (Fcar_safe (object), 0, autoload);
858 UNGCPRO;
859 return (!CONSP (map) ? object /* Invalid keymap */
860 : access_keymap (map, Fcdr (object), 0, 0, autoload));
865 static Lisp_Object
866 store_in_keymap (keymap, idx, def)
867 Lisp_Object keymap;
868 register Lisp_Object idx;
869 Lisp_Object def;
871 /* Flush any reverse-map cache. */
872 where_is_cache = Qnil;
873 where_is_cache_keymaps = Qt;
875 /* If we are preparing to dump, and DEF is a menu element
876 with a menu item indicator, copy it to ensure it is not pure. */
877 if (CONSP (def) && PURE_P (def)
878 && (EQ (XCAR (def), Qmenu_item) || STRINGP (XCAR (def))))
879 def = Fcons (XCAR (def), XCDR (def));
881 if (!CONSP (keymap) || !EQ (XCAR (keymap), Qkeymap))
882 error ("attempt to define a key in a non-keymap");
884 /* If idx is a list (some sort of mouse click, perhaps?),
885 the index we want to use is the car of the list, which
886 ought to be a symbol. */
887 idx = EVENT_HEAD (idx);
889 /* If idx is a symbol, it might have modifiers, which need to
890 be put in the canonical order. */
891 if (SYMBOLP (idx))
892 idx = reorder_modifiers (idx);
893 else if (INTEGERP (idx))
894 /* Clobber the high bits that can be present on a machine
895 with more than 24 bits of integer. */
896 XSETFASTINT (idx, XINT (idx) & (CHAR_META | (CHAR_META - 1)));
898 /* Scan the keymap for a binding of idx. */
900 Lisp_Object tail;
902 /* The cons after which we should insert new bindings. If the
903 keymap has a table element, we record its position here, so new
904 bindings will go after it; this way, the table will stay
905 towards the front of the alist and character lookups in dense
906 keymaps will remain fast. Otherwise, this just points at the
907 front of the keymap. */
908 Lisp_Object insertion_point;
910 insertion_point = keymap;
911 for (tail = XCDR (keymap); CONSP (tail); tail = XCDR (tail))
913 Lisp_Object elt;
915 elt = XCAR (tail);
916 if (VECTORP (elt))
918 if (NATNUMP (idx) && XFASTINT (idx) < ASIZE (elt))
920 CHECK_IMPURE (elt);
921 ASET (elt, XFASTINT (idx), def);
922 return def;
924 insertion_point = tail;
926 else if (CHAR_TABLE_P (elt))
928 /* Character codes with modifiers
929 are not included in a char-table.
930 All character codes without modifiers are included. */
931 if (NATNUMP (idx) && !(XFASTINT (idx) & CHAR_MODIFIER_MASK))
933 Faset (elt, idx,
934 /* `nil' has a special meaning for char-tables, so
935 we use something else to record an explicitly
936 unbound entry. */
937 NILP (def) ? Qt : def);
938 return def;
940 insertion_point = tail;
942 else if (CONSP (elt))
944 if (EQ (idx, XCAR (elt)))
946 CHECK_IMPURE (elt);
947 XSETCDR (elt, def);
948 return def;
951 else if (EQ (elt, Qkeymap))
952 /* If we find a 'keymap' symbol in the spine of KEYMAP,
953 then we must have found the start of a second keymap
954 being used as the tail of KEYMAP, and a binding for IDX
955 should be inserted before it. */
956 goto keymap_end;
958 QUIT;
961 keymap_end:
962 /* We have scanned the entire keymap, and not found a binding for
963 IDX. Let's add one. */
964 CHECK_IMPURE (insertion_point);
965 XSETCDR (insertion_point,
966 Fcons (Fcons (idx, def), XCDR (insertion_point)));
969 return def;
972 EXFUN (Fcopy_keymap, 1);
974 Lisp_Object
975 copy_keymap_item (elt)
976 Lisp_Object elt;
978 Lisp_Object res, tem;
980 if (!CONSP (elt))
981 return elt;
983 res = tem = elt;
985 /* Is this a new format menu item. */
986 if (EQ (XCAR (tem), Qmenu_item))
988 /* Copy cell with menu-item marker. */
989 res = elt = Fcons (XCAR (tem), XCDR (tem));
990 tem = XCDR (elt);
991 if (CONSP (tem))
993 /* Copy cell with menu-item name. */
994 XSETCDR (elt, Fcons (XCAR (tem), XCDR (tem)));
995 elt = XCDR (elt);
996 tem = XCDR (elt);
998 if (CONSP (tem))
1000 /* Copy cell with binding and if the binding is a keymap,
1001 copy that. */
1002 XSETCDR (elt, Fcons (XCAR (tem), XCDR (tem)));
1003 elt = XCDR (elt);
1004 tem = XCAR (elt);
1005 if (CONSP (tem) && EQ (XCAR (tem), Qkeymap))
1006 XSETCAR (elt, Fcopy_keymap (tem));
1007 tem = XCDR (elt);
1008 if (CONSP (tem) && CONSP (XCAR (tem)))
1009 /* Delete cache for key equivalences. */
1010 XSETCDR (elt, XCDR (tem));
1013 else
1015 /* It may be an old fomat menu item.
1016 Skip the optional menu string. */
1017 if (STRINGP (XCAR (tem)))
1019 /* Copy the cell, since copy-alist didn't go this deep. */
1020 res = elt = Fcons (XCAR (tem), XCDR (tem));
1021 tem = XCDR (elt);
1022 /* Also skip the optional menu help string. */
1023 if (CONSP (tem) && STRINGP (XCAR (tem)))
1025 XSETCDR (elt, Fcons (XCAR (tem), XCDR (tem)));
1026 elt = XCDR (elt);
1027 tem = XCDR (elt);
1029 /* There may also be a list that caches key equivalences.
1030 Just delete it for the new keymap. */
1031 if (CONSP (tem)
1032 && CONSP (XCAR (tem))
1033 && (NILP (XCAR (XCAR (tem)))
1034 || VECTORP (XCAR (XCAR (tem)))))
1036 XSETCDR (elt, XCDR (tem));
1037 tem = XCDR (tem);
1039 if (CONSP (tem) && EQ (XCAR (tem), Qkeymap))
1040 XSETCDR (elt, Fcopy_keymap (tem));
1042 else if (EQ (XCAR (tem), Qkeymap))
1043 res = Fcopy_keymap (elt);
1045 return res;
1048 static void
1049 copy_keymap_1 (chartable, idx, elt)
1050 Lisp_Object chartable, idx, elt;
1052 Faset (chartable, idx, copy_keymap_item (elt));
1055 DEFUN ("copy-keymap", Fcopy_keymap, Scopy_keymap, 1, 1, 0,
1056 doc: /* Return a copy of the keymap KEYMAP.
1057 The copy starts out with the same definitions of KEYMAP,
1058 but changing either the copy or KEYMAP does not affect the other.
1059 Any key definitions that are subkeymaps are recursively copied.
1060 However, a key definition which is a symbol whose definition is a keymap
1061 is not copied. */)
1062 (keymap)
1063 Lisp_Object keymap;
1065 register Lisp_Object copy, tail;
1066 keymap = get_keymap (keymap, 1, 0);
1067 copy = tail = Fcons (Qkeymap, Qnil);
1068 keymap = XCDR (keymap); /* Skip the `keymap' symbol. */
1070 while (CONSP (keymap) && !EQ (XCAR (keymap), Qkeymap))
1072 Lisp_Object elt = XCAR (keymap);
1073 if (CHAR_TABLE_P (elt))
1075 int indices[3];
1076 elt = Fcopy_sequence (elt);
1077 map_char_table (copy_keymap_1, Qnil, elt, elt, elt, 0, indices);
1079 else if (VECTORP (elt))
1081 int i;
1082 elt = Fcopy_sequence (elt);
1083 for (i = 0; i < ASIZE (elt); i++)
1084 ASET (elt, i, copy_keymap_item (AREF (elt, i)));
1086 else if (CONSP (elt))
1087 elt = Fcons (XCAR (elt), copy_keymap_item (XCDR (elt)));
1088 XSETCDR (tail, Fcons (elt, Qnil));
1089 tail = XCDR (tail);
1090 keymap = XCDR (keymap);
1092 XSETCDR (tail, keymap);
1093 return copy;
1096 /* Simple Keymap mutators and accessors. */
1098 /* GC is possible in this function if it autoloads a keymap. */
1100 DEFUN ("define-key", Fdefine_key, Sdefine_key, 3, 3, 0,
1101 doc: /* In KEYMAP, define key sequence KEY as DEF.
1102 KEYMAP is a keymap.
1104 KEY is a string or a vector of symbols and characters meaning a
1105 sequence of keystrokes and events. Non-ASCII characters with codes
1106 above 127 (such as ISO Latin-1) can be included if you use a vector.
1107 Using [t] for KEY creates a default definition, which applies to any
1108 event type that has no other definition in this keymap.
1110 DEF is anything that can be a key's definition:
1111 nil (means key is undefined in this keymap),
1112 a command (a Lisp function suitable for interactive calling),
1113 a string (treated as a keyboard macro),
1114 a keymap (to define a prefix key),
1115 a symbol (when the key is looked up, the symbol will stand for its
1116 function definition, which should at that time be one of the above,
1117 or another symbol whose function definition is used, etc.),
1118 a cons (STRING . DEFN), meaning that DEFN is the definition
1119 (DEFN should be a valid definition in its own right),
1120 or a cons (MAP . CHAR), meaning use definition of CHAR in keymap MAP,
1121 or an extended menu item definition.
1122 (See info node `(elisp)Extended Menu Items'.)
1124 If KEYMAP is a sparse keymap with a binding for KEY, the existing
1125 binding is altered. If there is no binding for KEY, the new pair
1126 binding KEY to DEF is added at the front of KEYMAP. */)
1127 (keymap, key, def)
1128 Lisp_Object keymap;
1129 Lisp_Object key;
1130 Lisp_Object def;
1132 register int idx;
1133 register Lisp_Object c;
1134 register Lisp_Object cmd;
1135 int metized = 0;
1136 int meta_bit;
1137 int length;
1138 struct gcpro gcpro1, gcpro2, gcpro3;
1140 GCPRO3 (keymap, key, def);
1141 keymap = get_keymap (keymap, 1, 1);
1143 CHECK_VECTOR_OR_STRING (key);
1145 length = XFASTINT (Flength (key));
1146 if (length == 0)
1147 RETURN_UNGCPRO (Qnil);
1149 if (SYMBOLP (def) && !EQ (Vdefine_key_rebound_commands, Qt))
1150 Vdefine_key_rebound_commands = Fcons (def, Vdefine_key_rebound_commands);
1152 meta_bit = (VECTORP (key) || (STRINGP (key) && STRING_MULTIBYTE (key))
1153 ? meta_modifier : 0x80);
1155 if (VECTORP (def) && ASIZE (def) > 0 && CONSP (AREF (def, 0)))
1156 { /* DEF is apparently an XEmacs-style keyboard macro. */
1157 Lisp_Object tmp = Fmake_vector (make_number (ASIZE (def)), Qnil);
1158 int i = ASIZE (def);
1159 while (--i >= 0)
1161 Lisp_Object c = AREF (def, i);
1162 if (CONSP (c) && lucid_event_type_list_p (c))
1163 c = Fevent_convert_list (c);
1164 ASET (tmp, i, c);
1166 def = tmp;
1169 idx = 0;
1170 while (1)
1172 c = Faref (key, make_number (idx));
1174 if (CONSP (c) && lucid_event_type_list_p (c))
1175 c = Fevent_convert_list (c);
1177 if (SYMBOLP (c))
1178 silly_event_symbol_error (c);
1180 if (INTEGERP (c)
1181 && (XINT (c) & meta_bit)
1182 && !metized)
1184 c = meta_prefix_char;
1185 metized = 1;
1187 else
1189 if (INTEGERP (c))
1190 XSETINT (c, XINT (c) & ~meta_bit);
1192 metized = 0;
1193 idx++;
1196 if (!INTEGERP (c) && !SYMBOLP (c) && !CONSP (c))
1197 error ("Key sequence contains invalid event");
1199 if (idx == length)
1200 RETURN_UNGCPRO (store_in_keymap (keymap, c, def));
1202 cmd = access_keymap (keymap, c, 0, 1, 1);
1204 /* If this key is undefined, make it a prefix. */
1205 if (NILP (cmd))
1206 cmd = define_as_prefix (keymap, c);
1208 keymap = get_keymap (cmd, 0, 1);
1209 if (!CONSP (keymap))
1210 /* We must use Fkey_description rather than just passing key to
1211 error; key might be a vector, not a string. */
1212 error ("Key sequence %s starts with non-prefix key %s",
1213 SDATA (Fkey_description (key, Qnil)),
1214 SDATA (Fkey_description (Fsubstring (key, make_number (0),
1215 make_number (idx)),
1216 Qnil)));
1220 /* This function may GC (it calls Fkey_binding). */
1222 DEFUN ("command-remapping", Fcommand_remapping, Scommand_remapping, 1, 3, 0,
1223 doc: /* Return the remapping for command COMMAND.
1224 Returns nil if COMMAND is not remapped (or not a symbol).
1226 If the optional argument POSITION is non-nil, it specifies a mouse
1227 position as returned by `event-start' and `event-end', and the
1228 remapping occurs in the keymaps associated with it. It can also be a
1229 number or marker, in which case the keymap properties at the specified
1230 buffer position instead of point are used. The KEYMAPS argument is
1231 ignored if POSITION is non-nil.
1233 If the optional argument KEYMAPS is non-nil, it should be a list of
1234 keymaps to search for command remapping. Otherwise, search for the
1235 remapping in all currently active keymaps. */)
1236 (command, position, keymaps)
1237 Lisp_Object command, position, keymaps;
1239 if (!SYMBOLP (command))
1240 return Qnil;
1242 ASET (command_remapping_vector, 1, command);
1244 if (NILP (keymaps))
1245 return Fkey_binding (command_remapping_vector, Qnil, Qt, position);
1246 else
1248 Lisp_Object maps, binding;
1250 for (maps = keymaps; CONSP (maps); maps = XCDR (maps))
1252 binding = Flookup_key (XCAR (maps), command_remapping_vector, Qnil);
1253 if (!NILP (binding) && !INTEGERP (binding))
1254 return binding;
1256 return Qnil;
1260 /* Value is number if KEY is too long; nil if valid but has no definition. */
1261 /* GC is possible in this function if it autoloads a keymap. */
1263 DEFUN ("lookup-key", Flookup_key, Slookup_key, 2, 3, 0,
1264 doc: /* In keymap KEYMAP, look up key sequence KEY. Return the definition.
1265 A value of nil means undefined. See doc of `define-key'
1266 for kinds of definitions.
1268 A number as value means KEY is "too long";
1269 that is, characters or symbols in it except for the last one
1270 fail to be a valid sequence of prefix characters in KEYMAP.
1271 The number is how many characters at the front of KEY
1272 it takes to reach a non-prefix key.
1274 Normally, `lookup-key' ignores bindings for t, which act as default
1275 bindings, used when nothing else in the keymap applies; this makes it
1276 usable as a general function for probing keymaps. However, if the
1277 third optional argument ACCEPT-DEFAULT is non-nil, `lookup-key' will
1278 recognize the default bindings, just as `read-key-sequence' does. */)
1279 (keymap, key, accept_default)
1280 Lisp_Object keymap;
1281 Lisp_Object key;
1282 Lisp_Object accept_default;
1284 register int idx;
1285 register Lisp_Object cmd;
1286 register Lisp_Object c;
1287 int length;
1288 int t_ok = !NILP (accept_default);
1289 struct gcpro gcpro1, gcpro2;
1291 GCPRO2 (keymap, key);
1292 keymap = get_keymap (keymap, 1, 1);
1294 CHECK_VECTOR_OR_STRING (key);
1296 length = XFASTINT (Flength (key));
1297 if (length == 0)
1298 RETURN_UNGCPRO (keymap);
1300 idx = 0;
1301 while (1)
1303 c = Faref (key, make_number (idx++));
1305 if (CONSP (c) && lucid_event_type_list_p (c))
1306 c = Fevent_convert_list (c);
1308 /* Turn the 8th bit of string chars into a meta modifier. */
1309 if (STRINGP (key) && XINT (c) & 0x80 && !STRING_MULTIBYTE (key))
1310 XSETINT (c, (XINT (c) | meta_modifier) & ~0x80);
1312 /* Allow string since binding for `menu-bar-select-buffer'
1313 includes the buffer name in the key sequence. */
1314 if (!INTEGERP (c) && !SYMBOLP (c) && !CONSP (c) && !STRINGP (c))
1315 error ("Key sequence contains invalid event");
1317 cmd = access_keymap (keymap, c, t_ok, 0, 1);
1318 if (idx == length)
1319 RETURN_UNGCPRO (cmd);
1321 keymap = get_keymap (cmd, 0, 1);
1322 if (!CONSP (keymap))
1323 RETURN_UNGCPRO (make_number (idx));
1325 QUIT;
1329 /* Make KEYMAP define event C as a keymap (i.e., as a prefix).
1330 Assume that currently it does not define C at all.
1331 Return the keymap. */
1333 static Lisp_Object
1334 define_as_prefix (keymap, c)
1335 Lisp_Object keymap, c;
1337 Lisp_Object cmd;
1339 cmd = Fmake_sparse_keymap (Qnil);
1340 /* If this key is defined as a prefix in an inherited keymap,
1341 make it a prefix in this map, and make its definition
1342 inherit the other prefix definition. */
1343 cmd = nconc2 (cmd, access_keymap (keymap, c, 0, 0, 0));
1344 store_in_keymap (keymap, c, cmd);
1346 return cmd;
1349 /* Append a key to the end of a key sequence. We always make a vector. */
1351 Lisp_Object
1352 append_key (key_sequence, key)
1353 Lisp_Object key_sequence, key;
1355 Lisp_Object args[2];
1357 args[0] = key_sequence;
1359 args[1] = Fcons (key, Qnil);
1360 return Fvconcat (2, args);
1363 /* Given a event type C which is a symbol,
1364 signal an error if is a mistake such as RET or M-RET or C-DEL, etc. */
1366 static void
1367 silly_event_symbol_error (c)
1368 Lisp_Object c;
1370 Lisp_Object parsed, base, name, assoc;
1371 int modifiers;
1373 parsed = parse_modifiers (c);
1374 modifiers = (int) XUINT (XCAR (XCDR (parsed)));
1375 base = XCAR (parsed);
1376 name = Fsymbol_name (base);
1377 /* This alist includes elements such as ("RET" . "\\r"). */
1378 assoc = Fassoc (name, exclude_keys);
1380 if (! NILP (assoc))
1382 char new_mods[sizeof ("\\A-\\C-\\H-\\M-\\S-\\s-")];
1383 char *p = new_mods;
1384 Lisp_Object keystring;
1385 if (modifiers & alt_modifier)
1386 { *p++ = '\\'; *p++ = 'A'; *p++ = '-'; }
1387 if (modifiers & ctrl_modifier)
1388 { *p++ = '\\'; *p++ = 'C'; *p++ = '-'; }
1389 if (modifiers & hyper_modifier)
1390 { *p++ = '\\'; *p++ = 'H'; *p++ = '-'; }
1391 if (modifiers & meta_modifier)
1392 { *p++ = '\\'; *p++ = 'M'; *p++ = '-'; }
1393 if (modifiers & shift_modifier)
1394 { *p++ = '\\'; *p++ = 'S'; *p++ = '-'; }
1395 if (modifiers & super_modifier)
1396 { *p++ = '\\'; *p++ = 's'; *p++ = '-'; }
1397 *p = 0;
1399 c = reorder_modifiers (c);
1400 keystring = concat2 (build_string (new_mods), XCDR (assoc));
1402 error ((modifiers & ~meta_modifier
1403 ? "To bind the key %s, use [?%s], not [%s]"
1404 : "To bind the key %s, use \"%s\", not [%s]"),
1405 SDATA (SYMBOL_NAME (c)), SDATA (keystring),
1406 SDATA (SYMBOL_NAME (c)));
1410 /* Global, local, and minor mode keymap stuff. */
1412 /* We can't put these variables inside current_minor_maps, since under
1413 some systems, static gets macro-defined to be the empty string.
1414 Ickypoo. */
1415 static Lisp_Object *cmm_modes = NULL, *cmm_maps = NULL;
1416 static int cmm_size = 0;
1418 /* Store a pointer to an array of the currently active minor modes in
1419 *modeptr, a pointer to an array of the keymaps of the currently
1420 active minor modes in *mapptr, and return the number of maps
1421 *mapptr contains.
1423 This function always returns a pointer to the same buffer, and may
1424 free or reallocate it, so if you want to keep it for a long time or
1425 hand it out to lisp code, copy it. This procedure will be called
1426 for every key sequence read, so the nice lispy approach (return a
1427 new assoclist, list, what have you) for each invocation would
1428 result in a lot of consing over time.
1430 If we used xrealloc/xmalloc and ran out of memory, they would throw
1431 back to the command loop, which would try to read a key sequence,
1432 which would call this function again, resulting in an infinite
1433 loop. Instead, we'll use realloc/malloc and silently truncate the
1434 list, let the key sequence be read, and hope some other piece of
1435 code signals the error. */
1437 current_minor_maps (modeptr, mapptr)
1438 Lisp_Object **modeptr, **mapptr;
1440 int i = 0;
1441 int list_number = 0;
1442 Lisp_Object alist, assoc, var, val;
1443 Lisp_Object emulation_alists;
1444 Lisp_Object lists[2];
1446 emulation_alists = Vemulation_mode_map_alists;
1447 lists[0] = Vminor_mode_overriding_map_alist;
1448 lists[1] = Vminor_mode_map_alist;
1450 for (list_number = 0; list_number < 2; list_number++)
1452 if (CONSP (emulation_alists))
1454 alist = XCAR (emulation_alists);
1455 emulation_alists = XCDR (emulation_alists);
1456 if (SYMBOLP (alist))
1457 alist = find_symbol_value (alist);
1458 list_number = -1;
1460 else
1461 alist = lists[list_number];
1463 for ( ; CONSP (alist); alist = XCDR (alist))
1464 if ((assoc = XCAR (alist), CONSP (assoc))
1465 && (var = XCAR (assoc), SYMBOLP (var))
1466 && (val = find_symbol_value (var), !EQ (val, Qunbound))
1467 && !NILP (val))
1469 Lisp_Object temp;
1471 /* If a variable has an entry in Vminor_mode_overriding_map_alist,
1472 and also an entry in Vminor_mode_map_alist,
1473 ignore the latter. */
1474 if (list_number == 1)
1476 val = assq_no_quit (var, lists[0]);
1477 if (!NILP (val))
1478 continue;
1481 if (i >= cmm_size)
1483 int newsize, allocsize;
1484 Lisp_Object *newmodes, *newmaps;
1486 newsize = cmm_size == 0 ? 30 : cmm_size * 2;
1487 allocsize = newsize * sizeof *newmodes;
1489 /* Use malloc here. See the comment above this function.
1490 Avoid realloc here; it causes spurious traps on GNU/Linux [KFS] */
1491 BLOCK_INPUT;
1492 newmodes = (Lisp_Object *) malloc (allocsize);
1493 if (newmodes)
1495 if (cmm_modes)
1497 bcopy (cmm_modes, newmodes, cmm_size * sizeof cmm_modes[0]);
1498 free (cmm_modes);
1500 cmm_modes = newmodes;
1503 newmaps = (Lisp_Object *) malloc (allocsize);
1504 if (newmaps)
1506 if (cmm_maps)
1508 bcopy (cmm_maps, newmaps, cmm_size * sizeof cmm_maps[0]);
1509 free (cmm_maps);
1511 cmm_maps = newmaps;
1513 UNBLOCK_INPUT;
1515 if (newmodes == NULL || newmaps == NULL)
1516 break;
1517 cmm_size = newsize;
1520 /* Get the keymap definition--or nil if it is not defined. */
1521 temp = Findirect_function (XCDR (assoc), Qt);
1522 if (!NILP (temp))
1524 cmm_modes[i] = var;
1525 cmm_maps [i] = temp;
1526 i++;
1531 if (modeptr) *modeptr = cmm_modes;
1532 if (mapptr) *mapptr = cmm_maps;
1533 return i;
1536 DEFUN ("current-active-maps", Fcurrent_active_maps, Scurrent_active_maps,
1537 0, 2, 0,
1538 doc: /* Return a list of the currently active keymaps.
1539 OLP if non-nil indicates that we should obey `overriding-local-map' and
1540 `overriding-terminal-local-map'. POSITION can specify a click position
1541 like in the respective argument of `key-binding'. */)
1542 (olp, position)
1543 Lisp_Object olp, position;
1545 int count = SPECPDL_INDEX ();
1547 Lisp_Object keymaps;
1549 /* If a mouse click position is given, our variables are based on
1550 the buffer clicked on, not the current buffer. So we may have to
1551 switch the buffer here. */
1553 if (CONSP (position))
1555 Lisp_Object window;
1557 window = POSN_WINDOW (position);
1559 if (WINDOWP (window)
1560 && BUFFERP (XWINDOW (window)->buffer)
1561 && XBUFFER (XWINDOW (window)->buffer) != current_buffer)
1563 /* Arrange to go back to the original buffer once we're done
1564 processing the key sequence. We don't use
1565 save_excursion_{save,restore} here, in analogy to
1566 `read-key-sequence' to avoid saving point. Maybe this
1567 would not be a problem here, but it is easier to keep
1568 things the same.
1571 record_unwind_protect (Fset_buffer, Fcurrent_buffer ());
1573 set_buffer_internal (XBUFFER (XWINDOW (window)->buffer));
1577 keymaps = Fcons (current_global_map, Qnil);
1579 if (!NILP (olp))
1581 if (!NILP (current_kboard->Voverriding_terminal_local_map))
1582 keymaps = Fcons (current_kboard->Voverriding_terminal_local_map, keymaps);
1583 /* The doc said that overriding-terminal-local-map should
1584 override overriding-local-map. The code used them both,
1585 but it seems clearer to use just one. rms, jan 2005. */
1586 else if (!NILP (Voverriding_local_map))
1587 keymaps = Fcons (Voverriding_local_map, keymaps);
1589 if (NILP (XCDR (keymaps)))
1591 Lisp_Object *maps;
1592 int nmaps, i;
1594 Lisp_Object keymap, local_map;
1595 EMACS_INT pt;
1597 pt = INTEGERP (position) ? XINT (position)
1598 : MARKERP (position) ? marker_position (position)
1599 : PT;
1601 /* Get the buffer local maps, possibly overriden by text or
1602 overlay properties */
1604 local_map = get_local_map (pt, current_buffer, Qlocal_map);
1605 keymap = get_local_map (pt, current_buffer, Qkeymap);
1607 if (CONSP (position))
1609 Lisp_Object string;
1611 /* For a mouse click, get the local text-property keymap
1612 of the place clicked on, rather than point. */
1614 if (POSN_INBUFFER_P (position))
1616 Lisp_Object pos;
1618 pos = POSN_BUFFER_POSN (position);
1619 if (INTEGERP (pos)
1620 && XINT (pos) >= BEG && XINT (pos) <= Z)
1622 local_map = get_local_map (XINT (pos),
1623 current_buffer, Qlocal_map);
1625 keymap = get_local_map (XINT (pos),
1626 current_buffer, Qkeymap);
1630 /* If on a mode line string with a local keymap,
1631 or for a click on a string, i.e. overlay string or a
1632 string displayed via the `display' property,
1633 consider `local-map' and `keymap' properties of
1634 that string. */
1636 if (string = POSN_STRING (position),
1637 (CONSP (string) && STRINGP (XCAR (string))))
1639 Lisp_Object pos, map;
1641 pos = XCDR (string);
1642 string = XCAR (string);
1643 if (INTEGERP (pos)
1644 && XINT (pos) >= 0
1645 && XINT (pos) < SCHARS (string))
1647 map = Fget_text_property (pos, Qlocal_map, string);
1648 if (!NILP (map))
1649 local_map = map;
1651 map = Fget_text_property (pos, Qkeymap, string);
1652 if (!NILP (map))
1653 keymap = map;
1659 if (!NILP (local_map))
1660 keymaps = Fcons (local_map, keymaps);
1662 /* Now put all the minor mode keymaps on the list. */
1663 nmaps = current_minor_maps (0, &maps);
1665 for (i = --nmaps; i >= 0; i--)
1666 if (!NILP (maps[i]))
1667 keymaps = Fcons (maps[i], keymaps);
1669 if (!NILP (keymap))
1670 keymaps = Fcons (keymap, keymaps);
1673 unbind_to (count, Qnil);
1675 return keymaps;
1678 /* GC is possible in this function if it autoloads a keymap. */
1680 DEFUN ("key-binding", Fkey_binding, Skey_binding, 1, 4, 0,
1681 doc: /* Return the binding for command KEY in current keymaps.
1682 KEY is a string or vector, a sequence of keystrokes.
1683 The binding is probably a symbol with a function definition.
1685 Normally, `key-binding' ignores bindings for t, which act as default
1686 bindings, used when nothing else in the keymap applies; this makes it
1687 usable as a general function for probing keymaps. However, if the
1688 optional second argument ACCEPT-DEFAULT is non-nil, `key-binding' does
1689 recognize the default bindings, just as `read-key-sequence' does.
1691 Like the normal command loop, `key-binding' will remap the command
1692 resulting from looking up KEY by looking up the command in the
1693 current keymaps. However, if the optional third argument NO-REMAP
1694 is non-nil, `key-binding' returns the unmapped command.
1696 If KEY is a key sequence initiated with the mouse, the used keymaps
1697 will depend on the clicked mouse position with regard to the buffer
1698 and possible local keymaps on strings.
1700 If the optional argument POSITION is non-nil, it specifies a mouse
1701 position as returned by `event-start' and `event-end', and the lookup
1702 occurs in the keymaps associated with it instead of KEY. It can also
1703 be a number or marker, in which case the keymap properties at the
1704 specified buffer position instead of point are used.
1706 (key, accept_default, no_remap, position)
1707 Lisp_Object key, accept_default, no_remap, position;
1709 Lisp_Object *maps, value;
1710 int nmaps, i;
1711 struct gcpro gcpro1, gcpro2;
1712 int count = SPECPDL_INDEX ();
1714 GCPRO2 (key, position);
1716 if (NILP (position) && VECTORP (key))
1718 Lisp_Object event
1719 /* mouse events may have a symbolic prefix indicating the
1720 scrollbar or mode line */
1721 = AREF (key, SYMBOLP (AREF (key, 0)) && ASIZE (key) > 1 ? 1 : 0);
1723 /* We are not interested in locations without event data */
1725 if (EVENT_HAS_PARAMETERS (event) && CONSP (XCDR (event)))
1727 Lisp_Object kind = EVENT_HEAD_KIND (EVENT_HEAD (event));
1728 if (EQ (kind, Qmouse_click))
1729 position = EVENT_START (event);
1733 /* Key sequences beginning with mouse clicks
1734 are read using the keymaps of the buffer clicked on, not
1735 the current buffer. So we may have to switch the buffer
1736 here. */
1738 if (CONSP (position))
1740 Lisp_Object window;
1742 window = POSN_WINDOW (position);
1744 if (WINDOWP (window)
1745 && BUFFERP (XWINDOW (window)->buffer)
1746 && XBUFFER (XWINDOW (window)->buffer) != current_buffer)
1748 /* Arrange to go back to the original buffer once we're done
1749 processing the key sequence. We don't use
1750 save_excursion_{save,restore} here, in analogy to
1751 `read-key-sequence' to avoid saving point. Maybe this
1752 would not be a problem here, but it is easier to keep
1753 things the same.
1756 record_unwind_protect (Fset_buffer, Fcurrent_buffer ());
1758 set_buffer_internal (XBUFFER (XWINDOW (window)->buffer));
1762 if (! NILP (current_kboard->Voverriding_terminal_local_map))
1764 value = Flookup_key (current_kboard->Voverriding_terminal_local_map,
1765 key, accept_default);
1766 if (! NILP (value) && !INTEGERP (value))
1767 goto done;
1769 else if (! NILP (Voverriding_local_map))
1771 value = Flookup_key (Voverriding_local_map, key, accept_default);
1772 if (! NILP (value) && !INTEGERP (value))
1773 goto done;
1775 else
1777 Lisp_Object keymap, local_map;
1778 EMACS_INT pt;
1780 pt = INTEGERP (position) ? XINT (position)
1781 : MARKERP (position) ? marker_position (position)
1782 : PT;
1784 local_map = get_local_map (pt, current_buffer, Qlocal_map);
1785 keymap = get_local_map (pt, current_buffer, Qkeymap);
1787 if (CONSP (position))
1789 Lisp_Object string;
1791 /* For a mouse click, get the local text-property keymap
1792 of the place clicked on, rather than point. */
1794 if (POSN_INBUFFER_P (position))
1796 Lisp_Object pos;
1798 pos = POSN_BUFFER_POSN (position);
1799 if (INTEGERP (pos)
1800 && XINT (pos) >= BEG && XINT (pos) <= Z)
1802 local_map = get_local_map (XINT (pos),
1803 current_buffer, Qlocal_map);
1805 keymap = get_local_map (XINT (pos),
1806 current_buffer, Qkeymap);
1810 /* If on a mode line string with a local keymap,
1811 or for a click on a string, i.e. overlay string or a
1812 string displayed via the `display' property,
1813 consider `local-map' and `keymap' properties of
1814 that string. */
1816 if (string = POSN_STRING (position),
1817 (CONSP (string) && STRINGP (XCAR (string))))
1819 Lisp_Object pos, map;
1821 pos = XCDR (string);
1822 string = XCAR (string);
1823 if (INTEGERP (pos)
1824 && XINT (pos) >= 0
1825 && XINT (pos) < SCHARS (string))
1827 map = Fget_text_property (pos, Qlocal_map, string);
1828 if (!NILP (map))
1829 local_map = map;
1831 map = Fget_text_property (pos, Qkeymap, string);
1832 if (!NILP (map))
1833 keymap = map;
1839 if (! NILP (keymap))
1841 value = Flookup_key (keymap, key, accept_default);
1842 if (! NILP (value) && !INTEGERP (value))
1843 goto done;
1846 nmaps = current_minor_maps (0, &maps);
1847 /* Note that all these maps are GCPRO'd
1848 in the places where we found them. */
1850 for (i = 0; i < nmaps; i++)
1851 if (! NILP (maps[i]))
1853 value = Flookup_key (maps[i], key, accept_default);
1854 if (! NILP (value) && !INTEGERP (value))
1855 goto done;
1858 if (! NILP (local_map))
1860 value = Flookup_key (local_map, key, accept_default);
1861 if (! NILP (value) && !INTEGERP (value))
1862 goto done;
1866 value = Flookup_key (current_global_map, key, accept_default);
1868 done:
1869 unbind_to (count, Qnil);
1871 UNGCPRO;
1872 if (NILP (value) || INTEGERP (value))
1873 return Qnil;
1875 /* If the result of the ordinary keymap lookup is an interactive
1876 command, look for a key binding (ie. remapping) for that command. */
1878 if (NILP (no_remap) && SYMBOLP (value))
1880 Lisp_Object value1;
1881 if (value1 = Fcommand_remapping (value, position, Qnil), !NILP (value1))
1882 value = value1;
1885 return value;
1888 /* GC is possible in this function if it autoloads a keymap. */
1890 DEFUN ("local-key-binding", Flocal_key_binding, Slocal_key_binding, 1, 2, 0,
1891 doc: /* Return the binding for command KEYS in current local keymap only.
1892 KEYS is a string or vector, a sequence of keystrokes.
1893 The binding is probably a symbol with a function definition.
1895 If optional argument ACCEPT-DEFAULT is non-nil, recognize default
1896 bindings; see the description of `lookup-key' for more details about this. */)
1897 (keys, accept_default)
1898 Lisp_Object keys, accept_default;
1900 register Lisp_Object map;
1901 map = current_buffer->keymap;
1902 if (NILP (map))
1903 return Qnil;
1904 return Flookup_key (map, keys, accept_default);
1907 /* GC is possible in this function if it autoloads a keymap. */
1909 DEFUN ("global-key-binding", Fglobal_key_binding, Sglobal_key_binding, 1, 2, 0,
1910 doc: /* Return the binding for command KEYS in current global keymap only.
1911 KEYS is a string or vector, a sequence of keystrokes.
1912 The binding is probably a symbol with a function definition.
1913 This function's return values are the same as those of `lookup-key'
1914 \(which see).
1916 If optional argument ACCEPT-DEFAULT is non-nil, recognize default
1917 bindings; see the description of `lookup-key' for more details about this. */)
1918 (keys, accept_default)
1919 Lisp_Object keys, accept_default;
1921 return Flookup_key (current_global_map, keys, accept_default);
1924 /* GC is possible in this function if it autoloads a keymap. */
1926 DEFUN ("minor-mode-key-binding", Fminor_mode_key_binding, Sminor_mode_key_binding, 1, 2, 0,
1927 doc: /* Find the visible minor mode bindings of KEY.
1928 Return an alist of pairs (MODENAME . BINDING), where MODENAME is
1929 the symbol which names the minor mode binding KEY, and BINDING is
1930 KEY's definition in that mode. In particular, if KEY has no
1931 minor-mode bindings, return nil. If the first binding is a
1932 non-prefix, all subsequent bindings will be omitted, since they would
1933 be ignored. Similarly, the list doesn't include non-prefix bindings
1934 that come after prefix bindings.
1936 If optional argument ACCEPT-DEFAULT is non-nil, recognize default
1937 bindings; see the description of `lookup-key' for more details about this. */)
1938 (key, accept_default)
1939 Lisp_Object key, accept_default;
1941 Lisp_Object *modes, *maps;
1942 int nmaps;
1943 Lisp_Object binding;
1944 int i, j;
1945 struct gcpro gcpro1, gcpro2;
1947 nmaps = current_minor_maps (&modes, &maps);
1948 /* Note that all these maps are GCPRO'd
1949 in the places where we found them. */
1951 binding = Qnil;
1952 GCPRO2 (key, binding);
1954 for (i = j = 0; i < nmaps; i++)
1955 if (!NILP (maps[i])
1956 && !NILP (binding = Flookup_key (maps[i], key, accept_default))
1957 && !INTEGERP (binding))
1959 if (KEYMAPP (binding))
1960 maps[j++] = Fcons (modes[i], binding);
1961 else if (j == 0)
1962 RETURN_UNGCPRO (Fcons (Fcons (modes[i], binding), Qnil));
1965 UNGCPRO;
1966 return Flist (j, maps);
1969 DEFUN ("define-prefix-command", Fdefine_prefix_command, Sdefine_prefix_command, 1, 3, 0,
1970 doc: /* Define COMMAND as a prefix command. COMMAND should be a symbol.
1971 A new sparse keymap is stored as COMMAND's function definition and its value.
1972 If a second optional argument MAPVAR is given, the map is stored as
1973 its value instead of as COMMAND's value; but COMMAND is still defined
1974 as a function.
1975 The third optional argument NAME, if given, supplies a menu name
1976 string for the map. This is required to use the keymap as a menu.
1977 This function returns COMMAND. */)
1978 (command, mapvar, name)
1979 Lisp_Object command, mapvar, name;
1981 Lisp_Object map;
1982 map = Fmake_sparse_keymap (name);
1983 Ffset (command, map);
1984 if (!NILP (mapvar))
1985 Fset (mapvar, map);
1986 else
1987 Fset (command, map);
1988 return command;
1991 DEFUN ("use-global-map", Fuse_global_map, Suse_global_map, 1, 1, 0,
1992 doc: /* Select KEYMAP as the global keymap. */)
1993 (keymap)
1994 Lisp_Object keymap;
1996 keymap = get_keymap (keymap, 1, 1);
1997 current_global_map = keymap;
1999 return Qnil;
2002 DEFUN ("use-local-map", Fuse_local_map, Suse_local_map, 1, 1, 0,
2003 doc: /* Select KEYMAP as the local keymap.
2004 If KEYMAP is nil, that means no local keymap. */)
2005 (keymap)
2006 Lisp_Object keymap;
2008 if (!NILP (keymap))
2009 keymap = get_keymap (keymap, 1, 1);
2011 current_buffer->keymap = keymap;
2013 return Qnil;
2016 DEFUN ("current-local-map", Fcurrent_local_map, Scurrent_local_map, 0, 0, 0,
2017 doc: /* Return current buffer's local keymap, or nil if it has none.
2018 Normally the local keymap is set by the major mode with `use-local-map'. */)
2021 return current_buffer->keymap;
2024 DEFUN ("current-global-map", Fcurrent_global_map, Scurrent_global_map, 0, 0, 0,
2025 doc: /* Return the current global keymap. */)
2028 return current_global_map;
2031 DEFUN ("current-minor-mode-maps", Fcurrent_minor_mode_maps, Scurrent_minor_mode_maps, 0, 0, 0,
2032 doc: /* Return a list of keymaps for the minor modes of the current buffer. */)
2035 Lisp_Object *maps;
2036 int nmaps = current_minor_maps (0, &maps);
2038 return Flist (nmaps, maps);
2041 /* Help functions for describing and documenting keymaps. */
2043 struct accessible_keymaps_data {
2044 Lisp_Object maps, tail, thisseq;
2045 /* Does the current sequence end in the meta-prefix-char? */
2046 int is_metized;
2049 static void
2050 accessible_keymaps_1 (key, cmd, args, data)
2051 Lisp_Object key, cmd, args;
2052 /* Use void* to be compatible with map_keymap_function_t. */
2053 void *data;
2055 struct accessible_keymaps_data *d = data; /* Cast! */
2056 Lisp_Object maps = d->maps;
2057 Lisp_Object tail = d->tail;
2058 Lisp_Object thisseq = d->thisseq;
2059 int is_metized = d->is_metized && INTEGERP (key);
2060 Lisp_Object tem;
2062 cmd = get_keymap (get_keyelt (cmd, 0), 0, 0);
2063 if (NILP (cmd))
2064 return;
2066 /* Look for and break cycles. */
2067 while (!NILP (tem = Frassq (cmd, maps)))
2069 Lisp_Object prefix = XCAR (tem);
2070 int lim = XINT (Flength (XCAR (tem)));
2071 if (lim <= XINT (Flength (thisseq)))
2072 { /* This keymap was already seen with a smaller prefix. */
2073 int i = 0;
2074 while (i < lim && EQ (Faref (prefix, make_number (i)),
2075 Faref (thisseq, make_number (i))))
2076 i++;
2077 if (i >= lim)
2078 /* `prefix' is a prefix of `thisseq' => there's a cycle. */
2079 return;
2081 /* This occurrence of `cmd' in `maps' does not correspond to a cycle,
2082 but maybe `cmd' occurs again further down in `maps', so keep
2083 looking. */
2084 maps = XCDR (Fmemq (tem, maps));
2087 /* If the last key in thisseq is meta-prefix-char,
2088 turn it into a meta-ized keystroke. We know
2089 that the event we're about to append is an
2090 ascii keystroke since we're processing a
2091 keymap table. */
2092 if (is_metized)
2094 int meta_bit = meta_modifier;
2095 Lisp_Object last = make_number (XINT (Flength (thisseq)) - 1);
2096 tem = Fcopy_sequence (thisseq);
2098 Faset (tem, last, make_number (XINT (key) | meta_bit));
2100 /* This new sequence is the same length as
2101 thisseq, so stick it in the list right
2102 after this one. */
2103 XSETCDR (tail,
2104 Fcons (Fcons (tem, cmd), XCDR (tail)));
2106 else
2108 tem = append_key (thisseq, key);
2109 nconc2 (tail, Fcons (Fcons (tem, cmd), Qnil));
2113 /* This function cannot GC. */
2115 DEFUN ("accessible-keymaps", Faccessible_keymaps, Saccessible_keymaps,
2116 1, 2, 0,
2117 doc: /* Find all keymaps accessible via prefix characters from KEYMAP.
2118 Returns a list of elements of the form (KEYS . MAP), where the sequence
2119 KEYS starting from KEYMAP gets you to MAP. These elements are ordered
2120 so that the KEYS increase in length. The first element is ([] . KEYMAP).
2121 An optional argument PREFIX, if non-nil, should be a key sequence;
2122 then the value includes only maps for prefixes that start with PREFIX. */)
2123 (keymap, prefix)
2124 Lisp_Object keymap, prefix;
2126 Lisp_Object maps, tail;
2127 int prefixlen = XINT (Flength (prefix));
2129 /* no need for gcpro because we don't autoload any keymaps. */
2131 if (!NILP (prefix))
2133 /* If a prefix was specified, start with the keymap (if any) for
2134 that prefix, so we don't waste time considering other prefixes. */
2135 Lisp_Object tem;
2136 tem = Flookup_key (keymap, prefix, Qt);
2137 /* Flookup_key may give us nil, or a number,
2138 if the prefix is not defined in this particular map.
2139 It might even give us a list that isn't a keymap. */
2140 tem = get_keymap (tem, 0, 0);
2141 /* If the keymap is autoloaded `tem' is not a cons-cell, but we still
2142 want to return it. */
2143 if (!NILP (tem))
2145 /* Convert PREFIX to a vector now, so that later on
2146 we don't have to deal with the possibility of a string. */
2147 if (STRINGP (prefix))
2149 int i, i_byte, c;
2150 Lisp_Object copy;
2152 copy = Fmake_vector (make_number (SCHARS (prefix)), Qnil);
2153 for (i = 0, i_byte = 0; i < SCHARS (prefix);)
2155 int i_before = i;
2157 FETCH_STRING_CHAR_ADVANCE (c, prefix, i, i_byte);
2158 if (SINGLE_BYTE_CHAR_P (c) && (c & 0200))
2159 c ^= 0200 | meta_modifier;
2160 ASET (copy, i_before, make_number (c));
2162 prefix = copy;
2164 maps = Fcons (Fcons (prefix, tem), Qnil);
2166 else
2167 return Qnil;
2169 else
2170 maps = Fcons (Fcons (Fmake_vector (make_number (0), Qnil),
2171 get_keymap (keymap, 1, 0)),
2172 Qnil);
2174 /* For each map in the list maps,
2175 look at any other maps it points to,
2176 and stick them at the end if they are not already in the list.
2178 This is a breadth-first traversal, where tail is the queue of
2179 nodes, and maps accumulates a list of all nodes visited. */
2181 for (tail = maps; CONSP (tail); tail = XCDR (tail))
2183 struct accessible_keymaps_data data;
2184 register Lisp_Object thismap = Fcdr (XCAR (tail));
2185 Lisp_Object last;
2187 data.thisseq = Fcar (XCAR (tail));
2188 data.maps = maps;
2189 data.tail = tail;
2190 last = make_number (XINT (Flength (data.thisseq)) - 1);
2191 /* Does the current sequence end in the meta-prefix-char? */
2192 data.is_metized = (XINT (last) >= 0
2193 /* Don't metize the last char of PREFIX. */
2194 && XINT (last) >= prefixlen
2195 && EQ (Faref (data.thisseq, last), meta_prefix_char));
2197 /* Since we can't run lisp code, we can't scan autoloaded maps. */
2198 if (CONSP (thismap))
2199 map_keymap (thismap, accessible_keymaps_1, Qnil, &data, 0);
2201 return maps;
2203 Lisp_Object Qsingle_key_description, Qkey_description;
2205 /* This function cannot GC. */
2207 DEFUN ("key-description", Fkey_description, Skey_description, 1, 2, 0,
2208 doc: /* Return a pretty description of key-sequence KEYS.
2209 Optional arg PREFIX is the sequence of keys leading up to KEYS.
2210 Control characters turn into "C-foo" sequences, meta into "M-foo",
2211 spaces are put between sequence elements, etc. */)
2212 (keys, prefix)
2213 Lisp_Object keys, prefix;
2215 int len = 0;
2216 int i, i_byte;
2217 Lisp_Object *args;
2218 int size = XINT (Flength (keys));
2219 Lisp_Object list;
2220 Lisp_Object sep = build_string (" ");
2221 Lisp_Object key;
2222 int add_meta = 0;
2224 if (!NILP (prefix))
2225 size += XINT (Flength (prefix));
2227 /* This has one extra element at the end that we don't pass to Fconcat. */
2228 args = (Lisp_Object *) alloca (size * 4 * sizeof (Lisp_Object));
2230 /* In effect, this computes
2231 (mapconcat 'single-key-description keys " ")
2232 but we shouldn't use mapconcat because it can do GC. */
2234 next_list:
2235 if (!NILP (prefix))
2236 list = prefix, prefix = Qnil;
2237 else if (!NILP (keys))
2238 list = keys, keys = Qnil;
2239 else
2241 if (add_meta)
2243 args[len] = Fsingle_key_description (meta_prefix_char, Qnil);
2244 len += 2;
2246 else if (len == 0)
2247 return empty_unibyte_string;
2248 return Fconcat (len - 1, args);
2251 if (STRINGP (list))
2252 size = SCHARS (list);
2253 else if (VECTORP (list))
2254 size = XVECTOR (list)->size;
2255 else if (CONSP (list))
2256 size = XINT (Flength (list));
2257 else
2258 wrong_type_argument (Qarrayp, list);
2260 i = i_byte = 0;
2262 while (i < size)
2264 if (STRINGP (list))
2266 int c;
2267 FETCH_STRING_CHAR_ADVANCE (c, list, i, i_byte);
2268 if (SINGLE_BYTE_CHAR_P (c) && (c & 0200))
2269 c ^= 0200 | meta_modifier;
2270 XSETFASTINT (key, c);
2272 else if (VECTORP (list))
2274 key = AREF (list, i++);
2276 else
2278 key = XCAR (list);
2279 list = XCDR (list);
2280 i++;
2283 if (add_meta)
2285 if (!INTEGERP (key)
2286 || EQ (key, meta_prefix_char)
2287 || (XINT (key) & meta_modifier))
2289 args[len++] = Fsingle_key_description (meta_prefix_char, Qnil);
2290 args[len++] = sep;
2291 if (EQ (key, meta_prefix_char))
2292 continue;
2294 else
2295 XSETINT (key, (XINT (key) | meta_modifier) & ~0x80);
2296 add_meta = 0;
2298 else if (EQ (key, meta_prefix_char))
2300 add_meta = 1;
2301 continue;
2303 args[len++] = Fsingle_key_description (key, Qnil);
2304 args[len++] = sep;
2306 goto next_list;
2310 char *
2311 push_key_description (c, p, force_multibyte)
2312 register unsigned int c;
2313 register char *p;
2314 int force_multibyte;
2316 unsigned c2;
2317 int valid_p;
2319 /* Clear all the meaningless bits above the meta bit. */
2320 c &= meta_modifier | ~ - meta_modifier;
2321 c2 = c & ~(alt_modifier | ctrl_modifier | hyper_modifier
2322 | meta_modifier | shift_modifier | super_modifier);
2324 valid_p = SINGLE_BYTE_CHAR_P (c2) || char_valid_p (c2, 0);
2325 if (! valid_p)
2327 /* KEY_DESCRIPTION_SIZE is large enough for this. */
2328 p += sprintf (p, "[%d]", c);
2329 return p;
2332 if (c & alt_modifier)
2334 *p++ = 'A';
2335 *p++ = '-';
2336 c -= alt_modifier;
2338 if ((c & ctrl_modifier) != 0
2339 || (c2 < ' ' && c2 != 27 && c2 != '\t' && c2 != Ctl ('M')))
2341 *p++ = 'C';
2342 *p++ = '-';
2343 c &= ~ctrl_modifier;
2345 if (c & hyper_modifier)
2347 *p++ = 'H';
2348 *p++ = '-';
2349 c -= hyper_modifier;
2351 if (c & meta_modifier)
2353 *p++ = 'M';
2354 *p++ = '-';
2355 c -= meta_modifier;
2357 if (c & shift_modifier)
2359 *p++ = 'S';
2360 *p++ = '-';
2361 c -= shift_modifier;
2363 if (c & super_modifier)
2365 *p++ = 's';
2366 *p++ = '-';
2367 c -= super_modifier;
2369 if (c < 040)
2371 if (c == 033)
2373 *p++ = 'E';
2374 *p++ = 'S';
2375 *p++ = 'C';
2377 else if (c == '\t')
2379 *p++ = 'T';
2380 *p++ = 'A';
2381 *p++ = 'B';
2383 else if (c == Ctl ('M'))
2385 *p++ = 'R';
2386 *p++ = 'E';
2387 *p++ = 'T';
2389 else
2391 /* `C-' already added above. */
2392 if (c > 0 && c <= Ctl ('Z'))
2393 *p++ = c + 0140;
2394 else
2395 *p++ = c + 0100;
2398 else if (c == 0177)
2400 *p++ = 'D';
2401 *p++ = 'E';
2402 *p++ = 'L';
2404 else if (c == ' ')
2406 *p++ = 'S';
2407 *p++ = 'P';
2408 *p++ = 'C';
2410 else if (c < 128
2411 || (NILP (current_buffer->enable_multibyte_characters)
2412 && SINGLE_BYTE_CHAR_P (c)
2413 && !force_multibyte))
2415 *p++ = c;
2417 else
2419 if (force_multibyte)
2421 if (SINGLE_BYTE_CHAR_P (c))
2422 c = unibyte_char_to_multibyte (c);
2423 p += CHAR_STRING (c, p);
2425 else if (NILP (current_buffer->enable_multibyte_characters))
2427 int bit_offset;
2428 *p++ = '\\';
2429 /* The biggest character code uses 19 bits. */
2430 for (bit_offset = 18; bit_offset >= 0; bit_offset -= 3)
2432 if (c >= (1 << bit_offset))
2433 *p++ = ((c & (7 << bit_offset)) >> bit_offset) + '0';
2436 else
2437 p += CHAR_STRING (c, p);
2440 return p;
2443 /* This function cannot GC. */
2445 DEFUN ("single-key-description", Fsingle_key_description,
2446 Ssingle_key_description, 1, 2, 0,
2447 doc: /* Return a pretty description of command character KEY.
2448 Control characters turn into C-whatever, etc.
2449 Optional argument NO-ANGLES non-nil means don't put angle brackets
2450 around function keys and event symbols. */)
2451 (key, no_angles)
2452 Lisp_Object key, no_angles;
2454 if (CONSP (key) && lucid_event_type_list_p (key))
2455 key = Fevent_convert_list (key);
2457 key = EVENT_HEAD (key);
2459 if (INTEGERP (key)) /* Normal character */
2461 unsigned int charset, c1, c2;
2462 int without_bits = XINT (key) & ~((-1) << CHARACTERBITS);
2464 if (SINGLE_BYTE_CHAR_P (without_bits))
2465 charset = 0;
2466 else
2467 SPLIT_CHAR (without_bits, charset, c1, c2);
2469 if (! CHAR_VALID_P (without_bits, 1))
2471 char buf[256];
2473 sprintf (buf, "Invalid char code %ld", (long) XINT (key));
2474 return build_string (buf);
2476 else if (charset
2477 && ((c1 == 0 && c2 == -1) || c2 == 0))
2479 /* Handle a generic character. */
2480 Lisp_Object name;
2481 char buf[256];
2483 name = CHARSET_TABLE_INFO (charset, CHARSET_SHORT_NAME_IDX);
2484 CHECK_STRING (name);
2485 if (c1 == 0)
2486 /* Only a charset is specified. */
2487 sprintf (buf, "Generic char %d: all of ", without_bits);
2488 else
2489 /* 1st code-point of 2-dimensional charset is specified. */
2490 sprintf (buf, "Generic char %d: row %d of ", without_bits, c1);
2491 return concat2 (build_string (buf), name);
2493 else
2495 char tem[KEY_DESCRIPTION_SIZE], *end;
2496 int nbytes, nchars;
2497 Lisp_Object string;
2499 end = push_key_description (XUINT (key), tem, 1);
2500 nbytes = end - tem;
2501 nchars = multibyte_chars_in_text (tem, nbytes);
2502 if (nchars == nbytes)
2504 *end = '\0';
2505 string = build_string (tem);
2507 else
2508 string = make_multibyte_string (tem, nchars, nbytes);
2509 return string;
2512 else if (SYMBOLP (key)) /* Function key or event-symbol */
2514 if (NILP (no_angles))
2516 char *buffer
2517 = (char *) alloca (SBYTES (SYMBOL_NAME (key)) + 5);
2518 sprintf (buffer, "<%s>", SDATA (SYMBOL_NAME (key)));
2519 return build_string (buffer);
2521 else
2522 return Fsymbol_name (key);
2524 else if (STRINGP (key)) /* Buffer names in the menubar. */
2525 return Fcopy_sequence (key);
2526 else
2527 error ("KEY must be an integer, cons, symbol, or string");
2528 return Qnil;
2531 char *
2532 push_text_char_description (c, p)
2533 register unsigned int c;
2534 register char *p;
2536 if (c >= 0200)
2538 *p++ = 'M';
2539 *p++ = '-';
2540 c -= 0200;
2542 if (c < 040)
2544 *p++ = '^';
2545 *p++ = c + 64; /* 'A' - 1 */
2547 else if (c == 0177)
2549 *p++ = '^';
2550 *p++ = '?';
2552 else
2553 *p++ = c;
2554 return p;
2557 /* This function cannot GC. */
2559 DEFUN ("text-char-description", Ftext_char_description, Stext_char_description, 1, 1, 0,
2560 doc: /* Return a pretty description of file-character CHARACTER.
2561 Control characters turn into "^char", etc. This differs from
2562 `single-key-description' which turns them into "C-char".
2563 Also, this function recognizes the 2**7 bit as the Meta character,
2564 whereas `single-key-description' uses the 2**27 bit for Meta.
2565 See Info node `(elisp)Describing Characters' for examples. */)
2566 (character)
2567 Lisp_Object character;
2569 /* Currently MAX_MULTIBYTE_LENGTH is 4 (< 6). */
2570 unsigned char str[6];
2571 int c;
2573 CHECK_NUMBER (character);
2575 c = XINT (character);
2576 if (!SINGLE_BYTE_CHAR_P (c))
2578 int len = CHAR_STRING (c, str);
2580 return make_multibyte_string (str, 1, len);
2583 *push_text_char_description (c & 0377, str) = 0;
2585 return build_string (str);
2588 /* Return non-zero if SEQ contains only ASCII characters, perhaps with
2589 a meta bit. */
2590 static int
2591 ascii_sequence_p (seq)
2592 Lisp_Object seq;
2594 int i;
2595 int len = XINT (Flength (seq));
2597 for (i = 0; i < len; i++)
2599 Lisp_Object ii, elt;
2601 XSETFASTINT (ii, i);
2602 elt = Faref (seq, ii);
2604 if (!INTEGERP (elt)
2605 || (XUINT (elt) & ~CHAR_META) >= 0x80)
2606 return 0;
2609 return 1;
2613 /* where-is - finding a command in a set of keymaps. */
2615 static Lisp_Object where_is_internal ();
2616 static void where_is_internal_1 P_ ((Lisp_Object key, Lisp_Object binding,
2617 Lisp_Object args, void *data));
2619 /* Like Flookup_key, but uses a list of keymaps SHADOW instead of a single map.
2620 Returns the first non-nil binding found in any of those maps. */
2622 static Lisp_Object
2623 shadow_lookup (shadow, key, flag)
2624 Lisp_Object shadow, key, flag;
2626 Lisp_Object tail, value;
2628 for (tail = shadow; CONSP (tail); tail = XCDR (tail))
2630 value = Flookup_key (XCAR (tail), key, flag);
2631 if (NATNUMP (value))
2633 value = Flookup_key (XCAR (tail),
2634 Fsubstring (key, make_number (0), value), flag);
2635 if (!NILP (value))
2636 return Qnil;
2638 else if (!NILP (value))
2639 return value;
2641 return Qnil;
2644 static Lisp_Object Vmouse_events;
2646 struct where_is_internal_data {
2647 Lisp_Object definition, noindirect, this, last;
2648 int last_is_meta;
2649 Lisp_Object sequences;
2652 /* This function can GC if Flookup_key autoloads any keymaps. */
2654 static Lisp_Object
2655 where_is_internal (definition, keymaps, firstonly, noindirect, no_remap)
2656 Lisp_Object definition, keymaps;
2657 Lisp_Object firstonly, noindirect, no_remap;
2659 Lisp_Object maps = Qnil;
2660 Lisp_Object found, sequences;
2661 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4, gcpro5;
2662 /* 1 means ignore all menu bindings entirely. */
2663 int nomenus = !NILP (firstonly) && !EQ (firstonly, Qnon_ascii);
2665 found = keymaps;
2666 while (CONSP (found))
2668 maps =
2669 nconc2 (maps,
2670 Faccessible_keymaps (get_keymap (XCAR (found), 1, 0), Qnil));
2671 found = XCDR (found);
2674 GCPRO5 (definition, keymaps, maps, found, sequences);
2675 found = Qnil;
2676 sequences = Qnil;
2678 /* If this command is remapped, then it has no key bindings
2679 of its own. */
2680 if (NILP (no_remap)
2681 && SYMBOLP (definition)
2682 && !NILP (Fcommand_remapping (definition, Qnil, keymaps)))
2683 RETURN_UNGCPRO (Qnil);
2685 for (; CONSP (maps); maps = XCDR (maps))
2687 /* Key sequence to reach map, and the map that it reaches */
2688 register Lisp_Object this, map, tem;
2689 struct where_is_internal_data data;
2691 /* In order to fold [META-PREFIX-CHAR CHAR] sequences into
2692 [M-CHAR] sequences, check if last character of the sequence
2693 is the meta-prefix char. */
2694 Lisp_Object last;
2695 int last_is_meta;
2697 this = Fcar (XCAR (maps));
2698 map = Fcdr (XCAR (maps));
2699 last = make_number (XINT (Flength (this)) - 1);
2700 last_is_meta = (XINT (last) >= 0
2701 && EQ (Faref (this, last), meta_prefix_char));
2703 /* if (nomenus && !ascii_sequence_p (this)) */
2704 if (nomenus && XINT (last) >= 0
2705 && SYMBOLP (tem = Faref (this, make_number (0)))
2706 && !NILP (Fmemq (XCAR (parse_modifiers (tem)), Vmouse_events)))
2707 /* If no menu entries should be returned, skip over the
2708 keymaps bound to `menu-bar' and `tool-bar' and other
2709 non-ascii prefixes like `C-down-mouse-2'. */
2710 continue;
2712 QUIT;
2714 data.definition = definition;
2715 data.noindirect = noindirect;
2716 data.this = this;
2717 data.last = last;
2718 data.last_is_meta = last_is_meta;
2719 data.sequences = Qnil;
2721 if (CONSP (map))
2722 map_keymap (map, where_is_internal_1, Qnil, &data, 0);
2724 sequences = data.sequences;
2726 while (CONSP (sequences))
2728 Lisp_Object sequence, remapped, function;
2730 sequence = XCAR (sequences);
2731 sequences = XCDR (sequences);
2733 /* If the current sequence is a command remapping with
2734 format [remap COMMAND], find the key sequences
2735 which run COMMAND, and use those sequences instead. */
2736 remapped = Qnil;
2737 if (NILP (no_remap)
2738 && VECTORP (sequence) && XVECTOR (sequence)->size == 2
2739 && EQ (AREF (sequence, 0), Qremap)
2740 && (function = AREF (sequence, 1), SYMBOLP (function)))
2742 Lisp_Object remapped1;
2744 remapped1 = where_is_internal (function, keymaps, firstonly, noindirect, Qt);
2745 if (CONSP (remapped1))
2747 /* Verify that this key binding actually maps to the
2748 remapped command (see below). */
2749 if (!EQ (shadow_lookup (keymaps, XCAR (remapped1), Qnil), function))
2750 continue;
2751 sequence = XCAR (remapped1);
2752 remapped = XCDR (remapped1);
2753 goto record_sequence;
2757 /* Verify that this key binding is not shadowed by another
2758 binding for the same key, before we say it exists.
2760 Mechanism: look for local definition of this key and if
2761 it is defined and does not match what we found then
2762 ignore this key.
2764 Either nil or number as value from Flookup_key
2765 means undefined. */
2766 if (!EQ (shadow_lookup (keymaps, sequence, Qnil), definition))
2767 continue;
2769 record_sequence:
2770 /* Don't annoy user with strings from a menu such as
2771 Select Paste. Change them all to "(any string)",
2772 so that there seems to be only one menu item
2773 to report. */
2774 if (! NILP (sequence))
2776 Lisp_Object tem;
2777 tem = Faref (sequence, make_number (XVECTOR (sequence)->size - 1));
2778 if (STRINGP (tem))
2779 Faset (sequence, make_number (XVECTOR (sequence)->size - 1),
2780 build_string ("(any string)"));
2783 /* It is a true unshadowed match. Record it, unless it's already
2784 been seen (as could happen when inheriting keymaps). */
2785 if (NILP (Fmember (sequence, found)))
2786 found = Fcons (sequence, found);
2788 /* If firstonly is Qnon_ascii, then we can return the first
2789 binding we find. If firstonly is not Qnon_ascii but not
2790 nil, then we should return the first ascii-only binding
2791 we find. */
2792 if (EQ (firstonly, Qnon_ascii))
2793 RETURN_UNGCPRO (sequence);
2794 else if (!NILP (firstonly) && ascii_sequence_p (sequence))
2795 RETURN_UNGCPRO (sequence);
2797 if (CONSP (remapped))
2799 sequence = XCAR (remapped);
2800 remapped = XCDR (remapped);
2801 goto record_sequence;
2806 UNGCPRO;
2808 found = Fnreverse (found);
2810 /* firstonly may have been t, but we may have gone all the way through
2811 the keymaps without finding an all-ASCII key sequence. So just
2812 return the best we could find. */
2813 if (!NILP (firstonly))
2814 return Fcar (found);
2816 return found;
2819 DEFUN ("where-is-internal", Fwhere_is_internal, Swhere_is_internal, 1, 5, 0,
2820 doc: /* Return list of keys that invoke DEFINITION.
2821 If KEYMAP is a keymap, search only KEYMAP and the global keymap.
2822 If KEYMAP is nil, search all the currently active keymaps.
2823 If KEYMAP is a list of keymaps, search only those keymaps.
2825 If optional 3rd arg FIRSTONLY is non-nil, return the first key sequence found,
2826 rather than a list of all possible key sequences.
2827 If FIRSTONLY is the symbol `non-ascii', return the first binding found,
2828 no matter what it is.
2829 If FIRSTONLY has another non-nil value, prefer sequences of ASCII characters
2830 \(or their meta variants) and entirely reject menu bindings.
2832 If optional 4th arg NOINDIRECT is non-nil, don't follow indirections
2833 to other keymaps or slots. This makes it possible to search for an
2834 indirect definition itself.
2836 If optional 5th arg NO-REMAP is non-nil, don't search for key sequences
2837 that invoke a command which is remapped to DEFINITION, but include the
2838 remapped command in the returned list. */)
2839 (definition, keymap, firstonly, noindirect, no_remap)
2840 Lisp_Object definition, keymap;
2841 Lisp_Object firstonly, noindirect, no_remap;
2843 Lisp_Object sequences, keymaps;
2844 /* 1 means ignore all menu bindings entirely. */
2845 int nomenus = !NILP (firstonly) && !EQ (firstonly, Qnon_ascii);
2846 Lisp_Object result;
2848 /* Find the relevant keymaps. */
2849 if (CONSP (keymap) && KEYMAPP (XCAR (keymap)))
2850 keymaps = keymap;
2851 else if (!NILP (keymap))
2852 keymaps = Fcons (keymap, Fcons (current_global_map, Qnil));
2853 else
2854 keymaps = Fcurrent_active_maps (Qnil, Qnil);
2856 /* Only use caching for the menubar (i.e. called with (def nil t nil).
2857 We don't really need to check `keymap'. */
2858 if (nomenus && NILP (noindirect) && NILP (keymap))
2860 Lisp_Object *defns;
2861 int i, j, n;
2862 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4, gcpro5;
2864 /* Check heuristic-consistency of the cache. */
2865 if (NILP (Fequal (keymaps, where_is_cache_keymaps)))
2866 where_is_cache = Qnil;
2868 if (NILP (where_is_cache))
2870 /* We need to create the cache. */
2871 Lisp_Object args[2];
2872 where_is_cache = Fmake_hash_table (0, args);
2873 where_is_cache_keymaps = Qt;
2875 /* Fill in the cache. */
2876 GCPRO5 (definition, keymaps, firstonly, noindirect, no_remap);
2877 where_is_internal (definition, keymaps, firstonly, noindirect, no_remap);
2878 UNGCPRO;
2880 where_is_cache_keymaps = keymaps;
2883 /* We want to process definitions from the last to the first.
2884 Instead of consing, copy definitions to a vector and step
2885 over that vector. */
2886 sequences = Fgethash (definition, where_is_cache, Qnil);
2887 n = XINT (Flength (sequences));
2888 defns = (Lisp_Object *) alloca (n * sizeof *defns);
2889 for (i = 0; CONSP (sequences); sequences = XCDR (sequences))
2890 defns[i++] = XCAR (sequences);
2892 /* Verify that the key bindings are not shadowed. Note that
2893 the following can GC. */
2894 GCPRO2 (definition, keymaps);
2895 result = Qnil;
2896 j = -1;
2897 for (i = n - 1; i >= 0; --i)
2898 if (EQ (shadow_lookup (keymaps, defns[i], Qnil), definition))
2900 if (ascii_sequence_p (defns[i]))
2901 break;
2902 else if (j < 0)
2903 j = i;
2906 result = i >= 0 ? defns[i] : (j >= 0 ? defns[j] : Qnil);
2907 UNGCPRO;
2909 else
2911 /* Kill the cache so that where_is_internal_1 doesn't think
2912 we're filling it up. */
2913 where_is_cache = Qnil;
2914 result = where_is_internal (definition, keymaps, firstonly, noindirect, no_remap);
2917 return result;
2920 /* This function can GC because get_keyelt can. */
2922 static void
2923 where_is_internal_1 (key, binding, args, data)
2924 Lisp_Object key, binding, args;
2925 void *data;
2927 struct where_is_internal_data *d = data; /* Cast! */
2928 Lisp_Object definition = d->definition;
2929 Lisp_Object noindirect = d->noindirect;
2930 Lisp_Object this = d->this;
2931 Lisp_Object last = d->last;
2932 int last_is_meta = d->last_is_meta;
2933 Lisp_Object sequence;
2935 /* Search through indirections unless that's not wanted. */
2936 if (NILP (noindirect))
2937 binding = get_keyelt (binding, 0);
2939 /* End this iteration if this element does not match
2940 the target. */
2942 if (!(!NILP (where_is_cache) /* everything "matches" during cache-fill. */
2943 || EQ (binding, definition)
2944 || (CONSP (definition) && !NILP (Fequal (binding, definition)))))
2945 /* Doesn't match. */
2946 return;
2948 /* We have found a match. Construct the key sequence where we found it. */
2949 if (INTEGERP (key) && last_is_meta)
2951 sequence = Fcopy_sequence (this);
2952 Faset (sequence, last, make_number (XINT (key) | meta_modifier));
2954 else
2955 sequence = append_key (this, key);
2957 if (!NILP (where_is_cache))
2959 Lisp_Object sequences = Fgethash (binding, where_is_cache, Qnil);
2960 Fputhash (binding, Fcons (sequence, sequences), where_is_cache);
2962 else
2963 d->sequences = Fcons (sequence, d->sequences);
2966 /* describe-bindings - summarizing all the bindings in a set of keymaps. */
2968 DEFUN ("describe-buffer-bindings", Fdescribe_buffer_bindings, Sdescribe_buffer_bindings, 1, 3, 0,
2969 doc: /* Insert the list of all defined keys and their definitions.
2970 The list is inserted in the current buffer, while the bindings are
2971 looked up in BUFFER.
2972 The optional argument PREFIX, if non-nil, should be a key sequence;
2973 then we display only bindings that start with that prefix.
2974 The optional argument MENUS, if non-nil, says to mention menu bindings.
2975 \(Ordinarily these are omitted from the output.) */)
2976 (buffer, prefix, menus)
2977 Lisp_Object buffer, prefix, menus;
2979 Lisp_Object outbuf, shadow;
2980 int nomenu = NILP (menus);
2981 register Lisp_Object start1;
2982 struct gcpro gcpro1;
2984 char *alternate_heading
2985 = "\
2986 Keyboard translations:\n\n\
2987 You type Translation\n\
2988 -------- -----------\n";
2990 CHECK_BUFFER (buffer);
2992 shadow = Qnil;
2993 GCPRO1 (shadow);
2995 outbuf = Fcurrent_buffer ();
2997 /* Report on alternates for keys. */
2998 if (STRINGP (current_kboard->Vkeyboard_translate_table) && !NILP (prefix))
3000 int c;
3001 const unsigned char *translate = SDATA (current_kboard->Vkeyboard_translate_table);
3002 int translate_len = SCHARS (current_kboard->Vkeyboard_translate_table);
3004 for (c = 0; c < translate_len; c++)
3005 if (translate[c] != c)
3007 char buf[KEY_DESCRIPTION_SIZE];
3008 char *bufend;
3010 if (alternate_heading)
3012 insert_string (alternate_heading);
3013 alternate_heading = 0;
3016 bufend = push_key_description (translate[c], buf, 1);
3017 insert (buf, bufend - buf);
3018 Findent_to (make_number (16), make_number (1));
3019 bufend = push_key_description (c, buf, 1);
3020 insert (buf, bufend - buf);
3022 insert ("\n", 1);
3024 /* Insert calls signal_after_change which may GC. */
3025 translate = SDATA (current_kboard->Vkeyboard_translate_table);
3028 insert ("\n", 1);
3031 if (!NILP (Vkey_translation_map))
3032 describe_map_tree (Vkey_translation_map, 0, Qnil, prefix,
3033 "Key translations", nomenu, 1, 0, 0);
3036 /* Print the (major mode) local map. */
3037 start1 = Qnil;
3038 if (!NILP (current_kboard->Voverriding_terminal_local_map))
3039 start1 = current_kboard->Voverriding_terminal_local_map;
3040 else if (!NILP (Voverriding_local_map))
3041 start1 = Voverriding_local_map;
3043 if (!NILP (start1))
3045 describe_map_tree (start1, 1, shadow, prefix,
3046 "\f\nOverriding Bindings", nomenu, 0, 0, 0);
3047 shadow = Fcons (start1, shadow);
3049 else
3051 /* Print the minor mode and major mode keymaps. */
3052 int i, nmaps;
3053 Lisp_Object *modes, *maps;
3055 /* Temporarily switch to `buffer', so that we can get that buffer's
3056 minor modes correctly. */
3057 Fset_buffer (buffer);
3059 nmaps = current_minor_maps (&modes, &maps);
3060 Fset_buffer (outbuf);
3062 start1 = get_local_map (BUF_PT (XBUFFER (buffer)),
3063 XBUFFER (buffer), Qkeymap);
3064 if (!NILP (start1))
3066 describe_map_tree (start1, 1, shadow, prefix,
3067 "\f\n`keymap' Property Bindings", nomenu,
3068 0, 0, 0);
3069 shadow = Fcons (start1, shadow);
3072 /* Print the minor mode maps. */
3073 for (i = 0; i < nmaps; i++)
3075 /* The title for a minor mode keymap
3076 is constructed at run time.
3077 We let describe_map_tree do the actual insertion
3078 because it takes care of other features when doing so. */
3079 char *title, *p;
3081 if (!SYMBOLP (modes[i]))
3082 abort();
3084 p = title = (char *) alloca (42 + SCHARS (SYMBOL_NAME (modes[i])));
3085 *p++ = '\f';
3086 *p++ = '\n';
3087 *p++ = '`';
3088 bcopy (SDATA (SYMBOL_NAME (modes[i])), p,
3089 SCHARS (SYMBOL_NAME (modes[i])));
3090 p += SCHARS (SYMBOL_NAME (modes[i]));
3091 *p++ = '\'';
3092 bcopy (" Minor Mode Bindings", p, sizeof (" Minor Mode Bindings") - 1);
3093 p += sizeof (" Minor Mode Bindings") - 1;
3094 *p = 0;
3096 describe_map_tree (maps[i], 1, shadow, prefix,
3097 title, nomenu, 0, 0, 0);
3098 shadow = Fcons (maps[i], shadow);
3101 start1 = get_local_map (BUF_PT (XBUFFER (buffer)),
3102 XBUFFER (buffer), Qlocal_map);
3103 if (!NILP (start1))
3105 if (EQ (start1, XBUFFER (buffer)->keymap))
3106 describe_map_tree (start1, 1, shadow, prefix,
3107 "\f\nMajor Mode Bindings", nomenu, 0, 0, 0);
3108 else
3109 describe_map_tree (start1, 1, shadow, prefix,
3110 "\f\n`local-map' Property Bindings",
3111 nomenu, 0, 0, 0);
3113 shadow = Fcons (start1, shadow);
3117 describe_map_tree (current_global_map, 1, shadow, prefix,
3118 "\f\nGlobal Bindings", nomenu, 0, 1, 0);
3120 /* Print the function-key-map translations under this prefix. */
3121 if (!NILP (current_kboard->Vlocal_function_key_map))
3122 describe_map_tree (current_kboard->Vlocal_function_key_map, 0, Qnil, prefix,
3123 "\f\nFunction key map translations", nomenu, 1, 0, 0);
3125 /* Print the input-decode-map translations under this prefix. */
3126 if (!NILP (current_kboard->Vinput_decode_map))
3127 describe_map_tree (current_kboard->Vinput_decode_map, 0, Qnil, prefix,
3128 "\f\nInput decoding map translations", nomenu, 1, 0, 0);
3130 UNGCPRO;
3131 return Qnil;
3134 /* Insert a description of the key bindings in STARTMAP,
3135 followed by those of all maps reachable through STARTMAP.
3136 If PARTIAL is nonzero, omit certain "uninteresting" commands
3137 (such as `undefined').
3138 If SHADOW is non-nil, it is a list of maps;
3139 don't mention keys which would be shadowed by any of them.
3140 PREFIX, if non-nil, says mention only keys that start with PREFIX.
3141 TITLE, if not 0, is a string to insert at the beginning.
3142 TITLE should not end with a colon or a newline; we supply that.
3143 If NOMENU is not 0, then omit menu-bar commands.
3145 If TRANSL is nonzero, the definitions are actually key translations
3146 so print strings and vectors differently.
3148 If ALWAYS_TITLE is nonzero, print the title even if there are no maps
3149 to look through.
3151 If MENTION_SHADOW is nonzero, then when something is shadowed by SHADOW,
3152 don't omit it; instead, mention it but say it is shadowed. */
3154 void
3155 describe_map_tree (startmap, partial, shadow, prefix, title, nomenu, transl,
3156 always_title, mention_shadow)
3157 Lisp_Object startmap, shadow, prefix;
3158 int partial;
3159 char *title;
3160 int nomenu;
3161 int transl;
3162 int always_title;
3163 int mention_shadow;
3165 Lisp_Object maps, orig_maps, seen, sub_shadows;
3166 struct gcpro gcpro1, gcpro2, gcpro3;
3167 int something = 0;
3168 char *key_heading
3169 = "\
3170 key binding\n\
3171 --- -------\n";
3173 orig_maps = maps = Faccessible_keymaps (startmap, prefix);
3174 seen = Qnil;
3175 sub_shadows = Qnil;
3176 GCPRO3 (maps, seen, sub_shadows);
3178 if (nomenu)
3180 Lisp_Object list;
3182 /* Delete from MAPS each element that is for the menu bar. */
3183 for (list = maps; CONSP (list); list = XCDR (list))
3185 Lisp_Object elt, prefix, tem;
3187 elt = XCAR (list);
3188 prefix = Fcar (elt);
3189 if (XVECTOR (prefix)->size >= 1)
3191 tem = Faref (prefix, make_number (0));
3192 if (EQ (tem, Qmenu_bar))
3193 maps = Fdelq (elt, maps);
3198 if (!NILP (maps) || always_title)
3200 if (title)
3202 insert_string (title);
3203 if (!NILP (prefix))
3205 insert_string (" Starting With ");
3206 insert1 (Fkey_description (prefix, Qnil));
3208 insert_string (":\n");
3210 insert_string (key_heading);
3211 something = 1;
3214 for (; CONSP (maps); maps = XCDR (maps))
3216 register Lisp_Object elt, prefix, tail;
3218 elt = XCAR (maps);
3219 prefix = Fcar (elt);
3221 sub_shadows = Qnil;
3223 for (tail = shadow; CONSP (tail); tail = XCDR (tail))
3225 Lisp_Object shmap;
3227 shmap = XCAR (tail);
3229 /* If the sequence by which we reach this keymap is zero-length,
3230 then the shadow map for this keymap is just SHADOW. */
3231 if ((STRINGP (prefix) && SCHARS (prefix) == 0)
3232 || (VECTORP (prefix) && XVECTOR (prefix)->size == 0))
3234 /* If the sequence by which we reach this keymap actually has
3235 some elements, then the sequence's definition in SHADOW is
3236 what we should use. */
3237 else
3239 shmap = Flookup_key (shmap, Fcar (elt), Qt);
3240 if (INTEGERP (shmap))
3241 shmap = Qnil;
3244 /* If shmap is not nil and not a keymap,
3245 it completely shadows this map, so don't
3246 describe this map at all. */
3247 if (!NILP (shmap) && !KEYMAPP (shmap))
3248 goto skip;
3250 if (!NILP (shmap))
3251 sub_shadows = Fcons (shmap, sub_shadows);
3254 /* Maps we have already listed in this loop shadow this map. */
3255 for (tail = orig_maps; !EQ (tail, maps); tail = XCDR (tail))
3257 Lisp_Object tem;
3258 tem = Fequal (Fcar (XCAR (tail)), prefix);
3259 if (!NILP (tem))
3260 sub_shadows = Fcons (XCDR (XCAR (tail)), sub_shadows);
3263 describe_map (Fcdr (elt), prefix,
3264 transl ? describe_translation : describe_command,
3265 partial, sub_shadows, &seen, nomenu, mention_shadow);
3267 skip: ;
3270 if (something)
3271 insert_string ("\n");
3273 UNGCPRO;
3276 static int previous_description_column;
3278 static void
3279 describe_command (definition, args)
3280 Lisp_Object definition, args;
3282 register Lisp_Object tem1;
3283 int column = (int) current_column (); /* iftc */
3284 int description_column;
3286 /* If column 16 is no good, go to col 32;
3287 but don't push beyond that--go to next line instead. */
3288 if (column > 30)
3290 insert_char ('\n');
3291 description_column = 32;
3293 else if (column > 14 || (column > 10 && previous_description_column == 32))
3294 description_column = 32;
3295 else
3296 description_column = 16;
3298 Findent_to (make_number (description_column), make_number (1));
3299 previous_description_column = description_column;
3301 if (SYMBOLP (definition))
3303 tem1 = SYMBOL_NAME (definition);
3304 insert1 (tem1);
3305 insert_string ("\n");
3307 else if (STRINGP (definition) || VECTORP (definition))
3308 insert_string ("Keyboard Macro\n");
3309 else if (KEYMAPP (definition))
3310 insert_string ("Prefix Command\n");
3311 else
3312 insert_string ("??\n");
3315 static void
3316 describe_translation (definition, args)
3317 Lisp_Object definition, args;
3319 register Lisp_Object tem1;
3321 Findent_to (make_number (16), make_number (1));
3323 if (SYMBOLP (definition))
3325 tem1 = SYMBOL_NAME (definition);
3326 insert1 (tem1);
3327 insert_string ("\n");
3329 else if (STRINGP (definition) || VECTORP (definition))
3331 insert1 (Fkey_description (definition, Qnil));
3332 insert_string ("\n");
3334 else if (KEYMAPP (definition))
3335 insert_string ("Prefix Command\n");
3336 else
3337 insert_string ("??\n");
3340 /* describe_map puts all the usable elements of a sparse keymap
3341 into an array of `struct describe_map_elt',
3342 then sorts them by the events. */
3344 struct describe_map_elt { Lisp_Object event; Lisp_Object definition; int shadowed; };
3346 /* qsort comparison function for sorting `struct describe_map_elt' by
3347 the event field. */
3349 static int
3350 describe_map_compare (aa, bb)
3351 const void *aa, *bb;
3353 const struct describe_map_elt *a = aa, *b = bb;
3354 if (INTEGERP (a->event) && INTEGERP (b->event))
3355 return ((XINT (a->event) > XINT (b->event))
3356 - (XINT (a->event) < XINT (b->event)));
3357 if (!INTEGERP (a->event) && INTEGERP (b->event))
3358 return 1;
3359 if (INTEGERP (a->event) && !INTEGERP (b->event))
3360 return -1;
3361 if (SYMBOLP (a->event) && SYMBOLP (b->event))
3362 return (!NILP (Fstring_lessp (a->event, b->event)) ? -1
3363 : !NILP (Fstring_lessp (b->event, a->event)) ? 1
3364 : 0);
3365 return 0;
3368 /* Describe the contents of map MAP, assuming that this map itself is
3369 reached by the sequence of prefix keys PREFIX (a string or vector).
3370 PARTIAL, SHADOW, NOMENU are as in `describe_map_tree' above. */
3372 static void
3373 describe_map (map, prefix, elt_describer, partial, shadow,
3374 seen, nomenu, mention_shadow)
3375 register Lisp_Object map;
3376 Lisp_Object prefix;
3377 void (*elt_describer) P_ ((Lisp_Object, Lisp_Object));
3378 int partial;
3379 Lisp_Object shadow;
3380 Lisp_Object *seen;
3381 int nomenu;
3382 int mention_shadow;
3384 Lisp_Object tail, definition, event;
3385 Lisp_Object tem;
3386 Lisp_Object suppress;
3387 Lisp_Object kludge;
3388 int first = 1;
3389 struct gcpro gcpro1, gcpro2, gcpro3;
3391 /* These accumulate the values from sparse keymap bindings,
3392 so we can sort them and handle them in order. */
3393 int length_needed = 0;
3394 struct describe_map_elt *vect;
3395 int slots_used = 0;
3396 int i;
3398 suppress = Qnil;
3400 if (partial)
3401 suppress = intern ("suppress-keymap");
3403 /* This vector gets used to present single keys to Flookup_key. Since
3404 that is done once per keymap element, we don't want to cons up a
3405 fresh vector every time. */
3406 kludge = Fmake_vector (make_number (1), Qnil);
3407 definition = Qnil;
3409 for (tail = map; CONSP (tail); tail = XCDR (tail))
3410 length_needed++;
3412 vect = ((struct describe_map_elt *)
3413 alloca (sizeof (struct describe_map_elt) * length_needed));
3415 GCPRO3 (prefix, definition, kludge);
3417 for (tail = map; CONSP (tail); tail = XCDR (tail))
3419 QUIT;
3421 if (VECTORP (XCAR (tail))
3422 || CHAR_TABLE_P (XCAR (tail)))
3423 describe_vector (XCAR (tail),
3424 prefix, Qnil, elt_describer, partial, shadow, map,
3425 (int *)0, 0, 1, mention_shadow);
3426 else if (CONSP (XCAR (tail)))
3428 int this_shadowed = 0;
3430 event = XCAR (XCAR (tail));
3432 /* Ignore bindings whose "prefix" are not really valid events.
3433 (We get these in the frames and buffers menu.) */
3434 if (!(SYMBOLP (event) || INTEGERP (event)))
3435 continue;
3437 if (nomenu && EQ (event, Qmenu_bar))
3438 continue;
3440 definition = get_keyelt (XCDR (XCAR (tail)), 0);
3442 /* Don't show undefined commands or suppressed commands. */
3443 if (NILP (definition)) continue;
3444 if (SYMBOLP (definition) && partial)
3446 tem = Fget (definition, suppress);
3447 if (!NILP (tem))
3448 continue;
3451 /* Don't show a command that isn't really visible
3452 because a local definition of the same key shadows it. */
3454 ASET (kludge, 0, event);
3455 if (!NILP (shadow))
3457 tem = shadow_lookup (shadow, kludge, Qt);
3458 if (!NILP (tem))
3460 /* If both bindings are keymaps, this key is a prefix key,
3461 so don't say it is shadowed. */
3462 if (KEYMAPP (definition) && KEYMAPP (tem))
3464 /* Avoid generating duplicate entries if the
3465 shadowed binding has the same definition. */
3466 else if (mention_shadow && !EQ (tem, definition))
3467 this_shadowed = 1;
3468 else
3469 continue;
3473 tem = Flookup_key (map, kludge, Qt);
3474 if (!EQ (tem, definition)) continue;
3476 vect[slots_used].event = event;
3477 vect[slots_used].definition = definition;
3478 vect[slots_used].shadowed = this_shadowed;
3479 slots_used++;
3481 else if (EQ (XCAR (tail), Qkeymap))
3483 /* The same keymap might be in the structure twice, if we're
3484 using an inherited keymap. So skip anything we've already
3485 encountered. */
3486 tem = Fassq (tail, *seen);
3487 if (CONSP (tem) && !NILP (Fequal (XCAR (tem), prefix)))
3488 break;
3489 *seen = Fcons (Fcons (tail, prefix), *seen);
3493 /* If we found some sparse map events, sort them. */
3495 qsort (vect, slots_used, sizeof (struct describe_map_elt),
3496 describe_map_compare);
3498 /* Now output them in sorted order. */
3500 for (i = 0; i < slots_used; i++)
3502 Lisp_Object start, end;
3504 if (first)
3506 previous_description_column = 0;
3507 insert ("\n", 1);
3508 first = 0;
3511 ASET (kludge, 0, vect[i].event);
3512 start = vect[i].event;
3513 end = start;
3515 definition = vect[i].definition;
3517 /* Find consecutive chars that are identically defined. */
3518 if (INTEGERP (vect[i].event))
3520 while (i + 1 < slots_used
3521 && EQ (vect[i+1].event, make_number (XINT (vect[i].event) + 1))
3522 && !NILP (Fequal (vect[i + 1].definition, definition))
3523 && vect[i].shadowed == vect[i + 1].shadowed)
3524 i++;
3525 end = vect[i].event;
3528 /* Now START .. END is the range to describe next. */
3530 /* Insert the string to describe the event START. */
3531 insert1 (Fkey_description (kludge, prefix));
3533 if (!EQ (start, end))
3535 insert (" .. ", 4);
3537 ASET (kludge, 0, end);
3538 /* Insert the string to describe the character END. */
3539 insert1 (Fkey_description (kludge, prefix));
3542 /* Print a description of the definition of this character.
3543 elt_describer will take care of spacing out far enough
3544 for alignment purposes. */
3545 (*elt_describer) (vect[i].definition, Qnil);
3547 if (vect[i].shadowed)
3549 SET_PT (PT - 1);
3550 insert_string ("\n (that binding is currently shadowed by another mode)");
3551 SET_PT (PT + 1);
3555 UNGCPRO;
3558 static void
3559 describe_vector_princ (elt, fun)
3560 Lisp_Object elt, fun;
3562 Findent_to (make_number (16), make_number (1));
3563 call1 (fun, elt);
3564 Fterpri (Qnil);
3567 DEFUN ("describe-vector", Fdescribe_vector, Sdescribe_vector, 1, 2, 0,
3568 doc: /* Insert a description of contents of VECTOR.
3569 This is text showing the elements of vector matched against indices.
3570 DESCRIBER is the output function used; nil means use `princ'. */)
3571 (vector, describer)
3572 Lisp_Object vector, describer;
3574 int count = SPECPDL_INDEX ();
3575 if (NILP (describer))
3576 describer = intern ("princ");
3577 specbind (Qstandard_output, Fcurrent_buffer ());
3578 CHECK_VECTOR_OR_CHAR_TABLE (vector);
3579 describe_vector (vector, Qnil, describer, describe_vector_princ, 0,
3580 Qnil, Qnil, (int *)0, 0, 0, 0);
3582 return unbind_to (count, Qnil);
3585 /* Insert in the current buffer a description of the contents of VECTOR.
3586 We call ELT_DESCRIBER to insert the description of one value found
3587 in VECTOR.
3589 ELT_PREFIX describes what "comes before" the keys or indices defined
3590 by this vector. This is a human-readable string whose size
3591 is not necessarily related to the situation.
3593 If the vector is in a keymap, ELT_PREFIX is a prefix key which
3594 leads to this keymap.
3596 If the vector is a chartable, ELT_PREFIX is the vector
3597 of bytes that lead to the character set or portion of a character
3598 set described by this chartable.
3600 If PARTIAL is nonzero, it means do not mention suppressed commands
3601 (that assumes the vector is in a keymap).
3603 SHADOW is a list of keymaps that shadow this map.
3604 If it is non-nil, then we look up the key in those maps
3605 and we don't mention it now if it is defined by any of them.
3607 ENTIRE_MAP is the keymap in which this vector appears.
3608 If the definition in effect in the whole map does not match
3609 the one in this vector, we ignore this one.
3611 When describing a sub-char-table, INDICES is a list of
3612 indices at higher levels in this char-table,
3613 and CHAR_TABLE_DEPTH says how many levels down we have gone.
3615 KEYMAP_P is 1 if vector is known to be a keymap, so map ESC to M-.
3617 ARGS is simply passed as the second argument to ELT_DESCRIBER. */
3619 static void
3620 describe_vector (vector, prefix, args, elt_describer,
3621 partial, shadow, entire_map,
3622 indices, char_table_depth, keymap_p,
3623 mention_shadow)
3624 register Lisp_Object vector;
3625 Lisp_Object prefix, args;
3626 void (*elt_describer) P_ ((Lisp_Object, Lisp_Object));
3627 int partial;
3628 Lisp_Object shadow;
3629 Lisp_Object entire_map;
3630 int *indices;
3631 int char_table_depth;
3632 int keymap_p;
3633 int mention_shadow;
3635 Lisp_Object definition;
3636 Lisp_Object tem2;
3637 Lisp_Object elt_prefix = Qnil;
3638 register int i;
3639 Lisp_Object suppress;
3640 Lisp_Object kludge;
3641 int first = 1;
3642 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4;
3643 /* Range of elements to be handled. */
3644 int from, to;
3645 /* A flag to tell if a leaf in this level of char-table is not a
3646 generic character (i.e. a complete multibyte character). */
3647 int complete_char;
3648 int character;
3649 int starting_i;
3651 suppress = Qnil;
3653 if (indices == 0)
3654 indices = (int *) alloca (3 * sizeof (int));
3656 definition = Qnil;
3658 if (!keymap_p)
3660 /* Call Fkey_description first, to avoid GC bug for the other string. */
3661 if (!NILP (prefix) && XFASTINT (Flength (prefix)) > 0)
3663 Lisp_Object tem;
3664 tem = Fkey_description (prefix, Qnil);
3665 elt_prefix = concat2 (tem, build_string (" "));
3667 prefix = Qnil;
3670 /* This vector gets used to present single keys to Flookup_key. Since
3671 that is done once per vector element, we don't want to cons up a
3672 fresh vector every time. */
3673 kludge = Fmake_vector (make_number (1), Qnil);
3674 GCPRO4 (elt_prefix, prefix, definition, kludge);
3676 if (partial)
3677 suppress = intern ("suppress-keymap");
3679 if (CHAR_TABLE_P (vector))
3681 if (char_table_depth == 0)
3683 /* VECTOR is a top level char-table. */
3684 complete_char = 1;
3685 from = 0;
3686 to = CHAR_TABLE_ORDINARY_SLOTS;
3688 else
3690 /* VECTOR is a sub char-table. */
3691 if (char_table_depth >= 3)
3692 /* A char-table is never that deep. */
3693 error ("Too deep char table");
3695 complete_char
3696 = (CHARSET_VALID_P (indices[0])
3697 && ((CHARSET_DIMENSION (indices[0]) == 1
3698 && char_table_depth == 1)
3699 || char_table_depth == 2));
3701 /* Meaningful elements are from 32th to 127th. */
3702 from = 32;
3703 to = SUB_CHAR_TABLE_ORDINARY_SLOTS;
3706 else
3708 /* This does the right thing for ordinary vectors. */
3710 complete_char = 1;
3711 from = 0;
3712 to = XVECTOR (vector)->size;
3715 for (i = from; i < to; i++)
3717 int this_shadowed = 0;
3718 QUIT;
3720 if (CHAR_TABLE_P (vector))
3722 if (char_table_depth == 0 && i >= CHAR_TABLE_SINGLE_BYTE_SLOTS)
3723 complete_char = 0;
3725 if (i >= CHAR_TABLE_SINGLE_BYTE_SLOTS
3726 && !CHARSET_DEFINED_P (i - 128))
3727 continue;
3729 definition
3730 = get_keyelt (XCHAR_TABLE (vector)->contents[i], 0);
3732 else
3733 definition = get_keyelt (AREF (vector, i), 0);
3735 if (NILP (definition)) continue;
3737 /* Don't mention suppressed commands. */
3738 if (SYMBOLP (definition) && partial)
3740 Lisp_Object tem;
3742 tem = Fget (definition, suppress);
3744 if (!NILP (tem)) continue;
3747 /* Set CHARACTER to the character this entry describes, if any.
3748 Also update *INDICES. */
3749 if (CHAR_TABLE_P (vector))
3751 indices[char_table_depth] = i;
3753 if (char_table_depth == 0)
3755 character = i;
3756 indices[0] = i - 128;
3758 else if (complete_char)
3760 character = MAKE_CHAR (indices[0], indices[1], indices[2]);
3762 else
3763 character = 0;
3765 else
3766 character = i;
3768 ASET (kludge, 0, make_number (character));
3770 /* If this binding is shadowed by some other map, ignore it. */
3771 if (!NILP (shadow) && complete_char)
3773 Lisp_Object tem;
3775 tem = shadow_lookup (shadow, kludge, Qt);
3777 if (!NILP (tem))
3779 if (mention_shadow)
3780 this_shadowed = 1;
3781 else
3782 continue;
3786 /* Ignore this definition if it is shadowed by an earlier
3787 one in the same keymap. */
3788 if (!NILP (entire_map) && complete_char)
3790 Lisp_Object tem;
3792 tem = Flookup_key (entire_map, kludge, Qt);
3794 if (!EQ (tem, definition))
3795 continue;
3798 if (first)
3800 if (char_table_depth == 0)
3801 insert ("\n", 1);
3802 first = 0;
3805 /* For a sub char-table, show the depth by indentation.
3806 CHAR_TABLE_DEPTH can be greater than 0 only for a char-table. */
3807 if (char_table_depth > 0)
3808 insert (" ", char_table_depth * 2); /* depth is 1 or 2. */
3810 /* Output the prefix that applies to every entry in this map. */
3811 if (!NILP (elt_prefix))
3812 insert1 (elt_prefix);
3814 /* Insert or describe the character this slot is for,
3815 or a description of what it is for. */
3816 if (SUB_CHAR_TABLE_P (vector))
3818 if (complete_char)
3819 insert_char (character);
3820 else
3822 /* We need an octal representation for this block of
3823 characters. */
3824 char work[16];
3825 sprintf (work, "(row %d)", i);
3826 insert (work, strlen (work));
3829 else if (CHAR_TABLE_P (vector))
3831 if (complete_char)
3832 insert1 (Fkey_description (kludge, prefix));
3833 else
3835 /* Print the information for this character set. */
3836 insert_string ("<");
3837 tem2 = CHARSET_TABLE_INFO (i - 128, CHARSET_SHORT_NAME_IDX);
3838 if (STRINGP (tem2))
3839 insert_from_string (tem2, 0, 0, SCHARS (tem2),
3840 SBYTES (tem2), 0);
3841 else
3842 insert ("?", 1);
3843 insert (">", 1);
3846 else
3848 insert1 (Fkey_description (kludge, prefix));
3851 /* If we find a sub char-table within a char-table,
3852 scan it recursively; it defines the details for
3853 a character set or a portion of a character set. */
3854 if (CHAR_TABLE_P (vector) && SUB_CHAR_TABLE_P (definition))
3856 insert ("\n", 1);
3857 describe_vector (definition, prefix, args, elt_describer,
3858 partial, shadow, entire_map,
3859 indices, char_table_depth + 1, keymap_p,
3860 mention_shadow);
3861 continue;
3864 starting_i = i;
3866 /* Find all consecutive characters or rows that have the same
3867 definition. But, for elements of a top level char table, if
3868 they are for charsets, we had better describe one by one even
3869 if they have the same definition. */
3870 if (CHAR_TABLE_P (vector))
3872 int limit = to;
3874 if (char_table_depth == 0)
3875 limit = CHAR_TABLE_SINGLE_BYTE_SLOTS;
3877 while (i + 1 < limit
3878 && (tem2 = get_keyelt (XCHAR_TABLE (vector)->contents[i + 1], 0),
3879 !NILP (tem2))
3880 && !NILP (Fequal (tem2, definition)))
3881 i++;
3883 else
3884 while (i + 1 < to
3885 && (tem2 = get_keyelt (AREF (vector, i + 1), 0),
3886 !NILP (tem2))
3887 && !NILP (Fequal (tem2, definition)))
3888 i++;
3891 /* If we have a range of more than one character,
3892 print where the range reaches to. */
3894 if (i != starting_i)
3896 insert (" .. ", 4);
3898 ASET (kludge, 0, make_number (i));
3900 if (!NILP (elt_prefix))
3901 insert1 (elt_prefix);
3903 if (CHAR_TABLE_P (vector))
3905 if (char_table_depth == 0)
3907 insert1 (Fkey_description (kludge, prefix));
3909 else if (complete_char)
3911 indices[char_table_depth] = i;
3912 character = MAKE_CHAR (indices[0], indices[1], indices[2]);
3913 insert_char (character);
3915 else
3917 /* We need an octal representation for this block of
3918 characters. */
3919 char work[16];
3920 sprintf (work, "(row %d)", i);
3921 insert (work, strlen (work));
3924 else
3926 insert1 (Fkey_description (kludge, prefix));
3930 /* Print a description of the definition of this character.
3931 elt_describer will take care of spacing out far enough
3932 for alignment purposes. */
3933 (*elt_describer) (definition, args);
3935 if (this_shadowed)
3937 SET_PT (PT - 1);
3938 insert_string (" (binding currently shadowed)");
3939 SET_PT (PT + 1);
3943 /* For (sub) char-table, print `defalt' slot at last. */
3944 if (CHAR_TABLE_P (vector) && !NILP (XCHAR_TABLE (vector)->defalt))
3946 insert (" ", char_table_depth * 2);
3947 insert_string ("<<default>>");
3948 (*elt_describer) (XCHAR_TABLE (vector)->defalt, args);
3951 UNGCPRO;
3954 /* Apropos - finding all symbols whose names match a regexp. */
3955 static Lisp_Object apropos_predicate;
3956 static Lisp_Object apropos_accumulate;
3958 static void
3959 apropos_accum (symbol, string)
3960 Lisp_Object symbol, string;
3962 register Lisp_Object tem;
3964 tem = Fstring_match (string, Fsymbol_name (symbol), Qnil);
3965 if (!NILP (tem) && !NILP (apropos_predicate))
3966 tem = call1 (apropos_predicate, symbol);
3967 if (!NILP (tem))
3968 apropos_accumulate = Fcons (symbol, apropos_accumulate);
3971 DEFUN ("apropos-internal", Fapropos_internal, Sapropos_internal, 1, 2, 0,
3972 doc: /* Show all symbols whose names contain match for REGEXP.
3973 If optional 2nd arg PREDICATE is non-nil, (funcall PREDICATE SYMBOL) is done
3974 for each symbol and a symbol is mentioned only if that returns non-nil.
3975 Return list of symbols found. */)
3976 (regexp, predicate)
3977 Lisp_Object regexp, predicate;
3979 Lisp_Object tem;
3980 CHECK_STRING (regexp);
3981 apropos_predicate = predicate;
3982 apropos_accumulate = Qnil;
3983 map_obarray (Vobarray, apropos_accum, regexp);
3984 tem = Fsort (apropos_accumulate, Qstring_lessp);
3985 apropos_accumulate = Qnil;
3986 apropos_predicate = Qnil;
3987 return tem;
3990 void
3991 syms_of_keymap ()
3993 Qkeymap = intern ("keymap");
3994 staticpro (&Qkeymap);
3995 staticpro (&apropos_predicate);
3996 staticpro (&apropos_accumulate);
3997 apropos_predicate = Qnil;
3998 apropos_accumulate = Qnil;
4000 /* Now we are ready to set up this property, so we can
4001 create char tables. */
4002 Fput (Qkeymap, Qchar_table_extra_slots, make_number (0));
4004 /* Initialize the keymaps standardly used.
4005 Each one is the value of a Lisp variable, and is also
4006 pointed to by a C variable */
4008 global_map = Fmake_keymap (Qnil);
4009 Fset (intern ("global-map"), global_map);
4011 current_global_map = global_map;
4012 staticpro (&global_map);
4013 staticpro (&current_global_map);
4015 meta_map = Fmake_keymap (Qnil);
4016 Fset (intern ("esc-map"), meta_map);
4017 Ffset (intern ("ESC-prefix"), meta_map);
4019 control_x_map = Fmake_keymap (Qnil);
4020 Fset (intern ("ctl-x-map"), control_x_map);
4021 Ffset (intern ("Control-X-prefix"), control_x_map);
4023 exclude_keys
4024 = Fcons (Fcons (build_string ("DEL"), build_string ("\\d")),
4025 Fcons (Fcons (build_string ("TAB"), build_string ("\\t")),
4026 Fcons (Fcons (build_string ("RET"), build_string ("\\r")),
4027 Fcons (Fcons (build_string ("ESC"), build_string ("\\e")),
4028 Fcons (Fcons (build_string ("SPC"), build_string (" ")),
4029 Qnil)))));
4030 staticpro (&exclude_keys);
4032 DEFVAR_LISP ("define-key-rebound-commands", &Vdefine_key_rebound_commands,
4033 doc: /* List of commands given new key bindings recently.
4034 This is used for internal purposes during Emacs startup;
4035 don't alter it yourself. */);
4036 Vdefine_key_rebound_commands = Qt;
4038 DEFVAR_LISP ("minibuffer-local-map", &Vminibuffer_local_map,
4039 doc: /* Default keymap to use when reading from the minibuffer. */);
4040 Vminibuffer_local_map = Fmake_sparse_keymap (Qnil);
4042 DEFVAR_LISP ("minibuffer-local-ns-map", &Vminibuffer_local_ns_map,
4043 doc: /* Local keymap for the minibuffer when spaces are not allowed. */);
4044 Vminibuffer_local_ns_map = Fmake_sparse_keymap (Qnil);
4045 Fset_keymap_parent (Vminibuffer_local_ns_map, Vminibuffer_local_map);
4047 DEFVAR_LISP ("minibuffer-local-completion-map", &Vminibuffer_local_completion_map,
4048 doc: /* Local keymap for minibuffer input with completion. */);
4049 Vminibuffer_local_completion_map = Fmake_sparse_keymap (Qnil);
4050 Fset_keymap_parent (Vminibuffer_local_completion_map, Vminibuffer_local_map);
4052 DEFVAR_LISP ("minibuffer-local-filename-completion-map",
4053 &Vminibuffer_local_filename_completion_map,
4054 doc: /* Local keymap for minibuffer input with completion for filenames. */);
4055 Vminibuffer_local_filename_completion_map = Fmake_sparse_keymap (Qnil);
4056 Fset_keymap_parent (Vminibuffer_local_filename_completion_map,
4057 Vminibuffer_local_completion_map);
4060 DEFVAR_LISP ("minibuffer-local-must-match-map", &Vminibuffer_local_must_match_map,
4061 doc: /* Local keymap for minibuffer input with completion, for exact match. */);
4062 Vminibuffer_local_must_match_map = Fmake_sparse_keymap (Qnil);
4063 Fset_keymap_parent (Vminibuffer_local_must_match_map,
4064 Vminibuffer_local_completion_map);
4066 DEFVAR_LISP ("minibuffer-local-must-match-filename-map",
4067 &Vminibuffer_local_must_match_filename_map,
4068 doc: /* Local keymap for minibuffer input with completion for filenames with exact match. */);
4069 Vminibuffer_local_must_match_filename_map = Fmake_sparse_keymap (Qnil);
4070 Fset_keymap_parent (Vminibuffer_local_must_match_filename_map,
4071 Vminibuffer_local_must_match_map);
4073 DEFVAR_LISP ("minor-mode-map-alist", &Vminor_mode_map_alist,
4074 doc: /* Alist of keymaps to use for minor modes.
4075 Each element looks like (VARIABLE . KEYMAP); KEYMAP is used to read
4076 key sequences and look up bindings if VARIABLE's value is non-nil.
4077 If two active keymaps bind the same key, the keymap appearing earlier
4078 in the list takes precedence. */);
4079 Vminor_mode_map_alist = Qnil;
4081 DEFVAR_LISP ("minor-mode-overriding-map-alist", &Vminor_mode_overriding_map_alist,
4082 doc: /* Alist of keymaps to use for minor modes, in current major mode.
4083 This variable is an alist just like `minor-mode-map-alist', and it is
4084 used the same way (and before `minor-mode-map-alist'); however,
4085 it is provided for major modes to bind locally. */);
4086 Vminor_mode_overriding_map_alist = Qnil;
4088 DEFVAR_LISP ("emulation-mode-map-alists", &Vemulation_mode_map_alists,
4089 doc: /* List of keymap alists to use for emulations modes.
4090 It is intended for modes or packages using multiple minor-mode keymaps.
4091 Each element is a keymap alist just like `minor-mode-map-alist', or a
4092 symbol with a variable binding which is a keymap alist, and it is used
4093 the same way. The "active" keymaps in each alist are used before
4094 `minor-mode-map-alist' and `minor-mode-overriding-map-alist'. */);
4095 Vemulation_mode_map_alists = Qnil;
4097 staticpro (&Vmouse_events);
4098 Vmouse_events = Fcons (intern ("menu-bar"),
4099 Fcons (intern ("tool-bar"),
4100 Fcons (intern ("header-line"),
4101 Fcons (intern ("mode-line"),
4102 Fcons (intern ("mouse-1"),
4103 Fcons (intern ("mouse-2"),
4104 Fcons (intern ("mouse-3"),
4105 Fcons (intern ("mouse-4"),
4106 Fcons (intern ("mouse-5"),
4107 Qnil)))))))));
4110 Qsingle_key_description = intern ("single-key-description");
4111 staticpro (&Qsingle_key_description);
4113 Qkey_description = intern ("key-description");
4114 staticpro (&Qkey_description);
4116 Qkeymapp = intern ("keymapp");
4117 staticpro (&Qkeymapp);
4119 Qnon_ascii = intern ("non-ascii");
4120 staticpro (&Qnon_ascii);
4122 Qmenu_item = intern ("menu-item");
4123 staticpro (&Qmenu_item);
4125 Qremap = intern ("remap");
4126 staticpro (&Qremap);
4128 command_remapping_vector = Fmake_vector (make_number (2), Qremap);
4129 staticpro (&command_remapping_vector);
4131 where_is_cache_keymaps = Qt;
4132 where_is_cache = Qnil;
4133 staticpro (&where_is_cache);
4134 staticpro (&where_is_cache_keymaps);
4136 defsubr (&Skeymapp);
4137 defsubr (&Skeymap_parent);
4138 defsubr (&Skeymap_prompt);
4139 defsubr (&Sset_keymap_parent);
4140 defsubr (&Smake_keymap);
4141 defsubr (&Smake_sparse_keymap);
4142 defsubr (&Smap_keymap);
4143 defsubr (&Scopy_keymap);
4144 defsubr (&Scommand_remapping);
4145 defsubr (&Skey_binding);
4146 defsubr (&Slocal_key_binding);
4147 defsubr (&Sglobal_key_binding);
4148 defsubr (&Sminor_mode_key_binding);
4149 defsubr (&Sdefine_key);
4150 defsubr (&Slookup_key);
4151 defsubr (&Sdefine_prefix_command);
4152 defsubr (&Suse_global_map);
4153 defsubr (&Suse_local_map);
4154 defsubr (&Scurrent_local_map);
4155 defsubr (&Scurrent_global_map);
4156 defsubr (&Scurrent_minor_mode_maps);
4157 defsubr (&Scurrent_active_maps);
4158 defsubr (&Saccessible_keymaps);
4159 defsubr (&Skey_description);
4160 defsubr (&Sdescribe_vector);
4161 defsubr (&Ssingle_key_description);
4162 defsubr (&Stext_char_description);
4163 defsubr (&Swhere_is_internal);
4164 defsubr (&Sdescribe_buffer_bindings);
4165 defsubr (&Sapropos_internal);
4168 void
4169 keys_of_keymap ()
4171 initial_define_key (global_map, 033, "ESC-prefix");
4172 initial_define_key (global_map, Ctl('X'), "Control-X-prefix");
4175 /* arch-tag: 6dd15c26-7cf1-41c4-b904-f42f7ddda463
4176 (do not change this comment) */