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1 ;;; subr.el --- basic lisp subroutines for Emacs
3 ;; Copyright (C) 1985, 1986, 1992, 1994, 1995, 1999, 2000, 2001, 2002, 2003,
4 ;; 2004, 2005 Free Software Foundation, Inc.
6 ;; Maintainer: FSF
7 ;; Keywords: internal
9 ;; This file is part of GNU Emacs.
11 ;; GNU Emacs is free software; you can redistribute it and/or modify
12 ;; it under the terms of the GNU General Public License as published by
13 ;; the Free Software Foundation; either version 2, or (at your option)
14 ;; any later version.
16 ;; GNU Emacs is distributed in the hope that it will be useful,
17 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
18 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19 ;; GNU General Public License for more details.
21 ;; You should have received a copy of the GNU General Public License
22 ;; along with GNU Emacs; see the file COPYING. If not, write to the
23 ;; Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
24 ;; Boston, MA 02110-1301, USA.
26 ;;; Commentary:
28 ;;; Code:
29 (defvar custom-declare-variable-list nil
30 "Record `defcustom' calls made before `custom.el' is loaded to handle them.
31 Each element of this list holds the arguments to one call to `defcustom'.")
33 ;; Use this, rather than defcustom, in subr.el and other files loaded
34 ;; before custom.el.
35 (defun custom-declare-variable-early (&rest arguments)
36 (setq custom-declare-variable-list
37 (cons arguments custom-declare-variable-list)))
40 ;;;; Basic Lisp macros.
42 (defalias 'not 'null)
44 (defmacro noreturn (form)
45 "Evaluate FORM, expecting it not to return.
46 If FORM does return, signal an error."
47 `(prog1 ,form
48 (error "Form marked with `noreturn' did return")))
50 (defmacro 1value (form)
51 "Evaluate FORM, expecting a constant return value.
52 This is the global do-nothing version. There is also `testcover-1value'
53 that complains if FORM ever does return differing values."
54 form)
56 (defmacro lambda (&rest cdr)
57 "Return a lambda expression.
58 A call of the form (lambda ARGS DOCSTRING INTERACTIVE BODY) is
59 self-quoting; the result of evaluating the lambda expression is the
60 expression itself. The lambda expression may then be treated as a
61 function, i.e., stored as the function value of a symbol, passed to
62 `funcall' or `mapcar', etc.
64 ARGS should take the same form as an argument list for a `defun'.
65 DOCSTRING is an optional documentation string.
66 If present, it should describe how to call the function.
67 But documentation strings are usually not useful in nameless functions.
68 INTERACTIVE should be a call to the function `interactive', which see.
69 It may also be omitted.
70 BODY should be a list of Lisp expressions.
72 \(fn ARGS [DOCSTRING] [INTERACTIVE] BODY)"
73 ;; Note that this definition should not use backquotes; subr.el should not
74 ;; depend on backquote.el.
75 (list 'function (cons 'lambda cdr)))
77 (defmacro push (newelt listname)
78 "Add NEWELT to the list stored in the symbol LISTNAME.
79 This is equivalent to (setq LISTNAME (cons NEWELT LISTNAME)).
80 LISTNAME must be a symbol."
81 (declare (debug (form sexp)))
82 (list 'setq listname
83 (list 'cons newelt listname)))
85 (defmacro pop (listname)
86 "Return the first element of LISTNAME's value, and remove it from the list.
87 LISTNAME must be a symbol whose value is a list.
88 If the value is nil, `pop' returns nil but does not actually
89 change the list."
90 (declare (debug (sexp)))
91 (list 'car
92 (list 'prog1 listname
93 (list 'setq listname (list 'cdr listname)))))
95 (defmacro when (cond &rest body)
96 "If COND yields non-nil, do BODY, else return nil."
97 (declare (indent 1) (debug t))
98 (list 'if cond (cons 'progn body)))
100 (defmacro unless (cond &rest body)
101 "If COND yields nil, do BODY, else return nil."
102 (declare (indent 1) (debug t))
103 (cons 'if (cons cond (cons nil body))))
105 (defmacro dolist (spec &rest body)
106 "Loop over a list.
107 Evaluate BODY with VAR bound to each car from LIST, in turn.
108 Then evaluate RESULT to get return value, default nil.
110 \(fn (VAR LIST [RESULT]) BODY...)"
111 (declare (indent 1) (debug ((symbolp form &optional form) body)))
112 (let ((temp (make-symbol "--dolist-temp--")))
113 `(let ((,temp ,(nth 1 spec))
114 ,(car spec))
115 (while ,temp
116 (setq ,(car spec) (car ,temp))
117 (setq ,temp (cdr ,temp))
118 ,@body)
119 ,@(if (cdr (cdr spec))
120 `((setq ,(car spec) nil) ,@(cdr (cdr spec)))))))
122 (defmacro dotimes (spec &rest body)
123 "Loop a certain number of times.
124 Evaluate BODY with VAR bound to successive integers running from 0,
125 inclusive, to COUNT, exclusive. Then evaluate RESULT to get
126 the return value (nil if RESULT is omitted).
128 \(fn (VAR COUNT [RESULT]) BODY...)"
129 (declare (indent 1) (debug dolist))
130 (let ((temp (make-symbol "--dotimes-temp--"))
131 (start 0)
132 (end (nth 1 spec)))
133 `(let ((,temp ,end)
134 (,(car spec) ,start))
135 (while (< ,(car spec) ,temp)
136 ,@body
137 (setq ,(car spec) (1+ ,(car spec))))
138 ,@(cdr (cdr spec)))))
140 (defmacro declare (&rest specs)
141 "Do not evaluate any arguments and return nil.
142 Treated as a declaration when used at the right place in a
143 `defmacro' form. \(See Info anchor `(elisp)Definition of declare'.)"
144 nil)
146 ;;;; Basic Lisp functions.
148 (defun ignore (&rest ignore)
149 "Do nothing and return nil.
150 This function accepts any number of arguments, but ignores them."
151 (interactive)
152 nil)
154 (defun error (&rest args)
155 "Signal an error, making error message by passing all args to `format'.
156 In Emacs, the convention is that error messages start with a capital
157 letter but *do not* end with a period. Please follow this convention
158 for the sake of consistency."
159 (while t
160 (signal 'error (list (apply 'format args)))))
162 ;; We put this here instead of in frame.el so that it's defined even on
163 ;; systems where frame.el isn't loaded.
164 (defun frame-configuration-p (object)
165 "Return non-nil if OBJECT seems to be a frame configuration.
166 Any list whose car is `frame-configuration' is assumed to be a frame
167 configuration."
168 (and (consp object)
169 (eq (car object) 'frame-configuration)))
171 (defun functionp (object)
172 "Non-nil if OBJECT is any kind of function or a special form.
173 Also non-nil if OBJECT is a symbol and its function definition is
174 \(recursively) a function or special form. This does not include
175 macros."
176 (or (and (symbolp object) (fboundp object)
177 (condition-case nil
178 (setq object (indirect-function object))
179 (error nil))
180 (eq (car-safe object) 'autoload)
181 (not (car-safe (cdr-safe (cdr-safe (cdr-safe (cdr-safe object)))))))
182 (subrp object) (byte-code-function-p object)
183 (eq (car-safe object) 'lambda)))
185 ;;;; List functions.
187 (defsubst caar (x)
188 "Return the car of the car of X."
189 (car (car x)))
191 (defsubst cadr (x)
192 "Return the car of the cdr of X."
193 (car (cdr x)))
195 (defsubst cdar (x)
196 "Return the cdr of the car of X."
197 (cdr (car x)))
199 (defsubst cddr (x)
200 "Return the cdr of the cdr of X."
201 (cdr (cdr x)))
203 (defun last (list &optional n)
204 "Return the last link of LIST. Its car is the last element.
205 If LIST is nil, return nil.
206 If N is non-nil, return the Nth-to-last link of LIST.
207 If N is bigger than the length of LIST, return LIST."
208 (if n
209 (let ((m 0) (p list))
210 (while (consp p)
211 (setq m (1+ m) p (cdr p)))
212 (if (<= n 0) p
213 (if (< n m) (nthcdr (- m n) list) list)))
214 (while (consp (cdr list))
215 (setq list (cdr list)))
216 list))
218 (defun butlast (list &optional n)
219 "Return a copy of LIST with the last N elements removed."
220 (if (and n (<= n 0)) list
221 (nbutlast (copy-sequence list) n)))
223 (defun nbutlast (list &optional n)
224 "Modifies LIST to remove the last N elements."
225 (let ((m (length list)))
226 (or n (setq n 1))
227 (and (< n m)
228 (progn
229 (if (> n 0) (setcdr (nthcdr (- (1- m) n) list) nil))
230 list))))
232 (defun delete-dups (list)
233 "Destructively remove `equal' duplicates from LIST.
234 Store the result in LIST and return it. LIST must be a proper list.
235 Of several `equal' occurrences of an element in LIST, the first
236 one is kept."
237 (let ((tail list))
238 (while tail
239 (setcdr tail (delete (car tail) (cdr tail)))
240 (setq tail (cdr tail))))
241 list)
243 (defun number-sequence (from &optional to inc)
244 "Return a sequence of numbers from FROM to TO (both inclusive) as a list.
245 INC is the increment used between numbers in the sequence and defaults to 1.
246 So, the Nth element of the list is \(+ FROM \(* N INC)) where N counts from
247 zero. TO is only included if there is an N for which TO = FROM + N * INC.
248 If TO is nil or numerically equal to FROM, return \(FROM).
249 If INC is positive and TO is less than FROM, or INC is negative
250 and TO is larger than FROM, return nil.
251 If INC is zero and TO is neither nil nor numerically equal to
252 FROM, signal an error.
254 This function is primarily designed for integer arguments.
255 Nevertheless, FROM, TO and INC can be integer or float. However,
256 floating point arithmetic is inexact. For instance, depending on
257 the machine, it may quite well happen that
258 \(number-sequence 0.4 0.6 0.2) returns the one element list \(0.4),
259 whereas \(number-sequence 0.4 0.8 0.2) returns a list with three
260 elements. Thus, if some of the arguments are floats and one wants
261 to make sure that TO is included, one may have to explicitly write
262 TO as \(+ FROM \(* N INC)) or use a variable whose value was
263 computed with this exact expression. Alternatively, you can,
264 of course, also replace TO with a slightly larger value
265 \(or a slightly more negative value if INC is negative)."
266 (if (or (not to) (= from to))
267 (list from)
268 (or inc (setq inc 1))
269 (when (zerop inc) (error "The increment can not be zero"))
270 (let (seq (n 0) (next from))
271 (if (> inc 0)
272 (while (<= next to)
273 (setq seq (cons next seq)
274 n (1+ n)
275 next (+ from (* n inc))))
276 (while (>= next to)
277 (setq seq (cons next seq)
278 n (1+ n)
279 next (+ from (* n inc)))))
280 (nreverse seq))))
282 (defun copy-tree (tree &optional vecp)
283 "Make a copy of TREE.
284 If TREE is a cons cell, this recursively copies both its car and its cdr.
285 Contrast to `copy-sequence', which copies only along the cdrs. With second
286 argument VECP, this copies vectors as well as conses."
287 (if (consp tree)
288 (let (result)
289 (while (consp tree)
290 (let ((newcar (car tree)))
291 (if (or (consp (car tree)) (and vecp (vectorp (car tree))))
292 (setq newcar (copy-tree (car tree) vecp)))
293 (push newcar result))
294 (setq tree (cdr tree)))
295 (nconc (nreverse result) tree))
296 (if (and vecp (vectorp tree))
297 (let ((i (length (setq tree (copy-sequence tree)))))
298 (while (>= (setq i (1- i)) 0)
299 (aset tree i (copy-tree (aref tree i) vecp)))
300 tree)
301 tree)))
303 ;;;; Various list-search functions.
305 (defun assoc-default (key alist &optional test default)
306 "Find object KEY in a pseudo-alist ALIST.
307 ALIST is a list of conses or objects. Each element (or the element's car,
308 if it is a cons) is compared with KEY by evaluating (TEST (car elt) KEY).
309 If that is non-nil, the element matches;
310 then `assoc-default' returns the element's cdr, if it is a cons,
311 or DEFAULT if the element is not a cons.
313 If no element matches, the value is nil.
314 If TEST is omitted or nil, `equal' is used."
315 (let (found (tail alist) value)
316 (while (and tail (not found))
317 (let ((elt (car tail)))
318 (when (funcall (or test 'equal) (if (consp elt) (car elt) elt) key)
319 (setq found t value (if (consp elt) (cdr elt) default))))
320 (setq tail (cdr tail)))
321 value))
323 (make-obsolete 'assoc-ignore-case 'assoc-string)
324 (defun assoc-ignore-case (key alist)
325 "Like `assoc', but ignores differences in case and text representation.
326 KEY must be a string. Upper-case and lower-case letters are treated as equal.
327 Unibyte strings are converted to multibyte for comparison."
328 (assoc-string key alist t))
330 (make-obsolete 'assoc-ignore-representation 'assoc-string)
331 (defun assoc-ignore-representation (key alist)
332 "Like `assoc', but ignores differences in text representation.
333 KEY must be a string.
334 Unibyte strings are converted to multibyte for comparison."
335 (assoc-string key alist nil))
337 (defun member-ignore-case (elt list)
338 "Like `member', but ignores differences in case and text representation.
339 ELT must be a string. Upper-case and lower-case letters are treated as equal.
340 Unibyte strings are converted to multibyte for comparison.
341 Non-strings in LIST are ignored."
342 (while (and list
343 (not (and (stringp (car list))
344 (eq t (compare-strings elt 0 nil (car list) 0 nil t)))))
345 (setq list (cdr list)))
346 list)
348 (defun assq-delete-all (key alist)
349 "Delete from ALIST all elements whose car is `eq' to KEY.
350 Return the modified alist.
351 Elements of ALIST that are not conses are ignored."
352 (while (and (consp (car alist))
353 (eq (car (car alist)) key))
354 (setq alist (cdr alist)))
355 (let ((tail alist) tail-cdr)
356 (while (setq tail-cdr (cdr tail))
357 (if (and (consp (car tail-cdr))
358 (eq (car (car tail-cdr)) key))
359 (setcdr tail (cdr tail-cdr))
360 (setq tail tail-cdr))))
361 alist)
363 (defun rassq-delete-all (value alist)
364 "Delete from ALIST all elements whose cdr is `eq' to VALUE.
365 Return the modified alist.
366 Elements of ALIST that are not conses are ignored."
367 (while (and (consp (car alist))
368 (eq (cdr (car alist)) value))
369 (setq alist (cdr alist)))
370 (let ((tail alist) tail-cdr)
371 (while (setq tail-cdr (cdr tail))
372 (if (and (consp (car tail-cdr))
373 (eq (cdr (car tail-cdr)) value))
374 (setcdr tail (cdr tail-cdr))
375 (setq tail tail-cdr))))
376 alist)
378 (defun remove (elt seq)
379 "Return a copy of SEQ with all occurrences of ELT removed.
380 SEQ must be a list, vector, or string. The comparison is done with `equal'."
381 (if (nlistp seq)
382 ;; If SEQ isn't a list, there's no need to copy SEQ because
383 ;; `delete' will return a new object.
384 (delete elt seq)
385 (delete elt (copy-sequence seq))))
387 (defun remq (elt list)
388 "Return LIST with all occurrences of ELT removed.
389 The comparison is done with `eq'. Contrary to `delq', this does not use
390 side-effects, and the argument LIST is not modified."
391 (if (memq elt list)
392 (delq elt (copy-sequence list))
393 list))
395 ;;;; Keymap support.
397 (defmacro kbd (keys)
398 "Convert KEYS to the internal Emacs key representation.
399 KEYS should be a string constant in the format used for
400 saving keyboard macros (see `edmacro-mode')."
401 (read-kbd-macro keys))
403 (defun undefined ()
404 (interactive)
405 (ding))
407 ;; Prevent the \{...} documentation construct
408 ;; from mentioning keys that run this command.
409 (put 'undefined 'suppress-keymap t)
411 (defun suppress-keymap (map &optional nodigits)
412 "Make MAP override all normally self-inserting keys to be undefined.
413 Normally, as an exception, digits and minus-sign are set to make prefix args,
414 but optional second arg NODIGITS non-nil treats them like other chars."
415 (define-key map [remap self-insert-command] 'undefined)
416 (or nodigits
417 (let (loop)
418 (define-key map "-" 'negative-argument)
419 ;; Make plain numbers do numeric args.
420 (setq loop ?0)
421 (while (<= loop ?9)
422 (define-key map (char-to-string loop) 'digit-argument)
423 (setq loop (1+ loop))))))
425 (defun define-key-after (keymap key definition &optional after)
426 "Add binding in KEYMAP for KEY => DEFINITION, right after AFTER's binding.
427 This is like `define-key' except that the binding for KEY is placed
428 just after the binding for the event AFTER, instead of at the beginning
429 of the map. Note that AFTER must be an event type (like KEY), NOT a command
430 \(like DEFINITION).
432 If AFTER is t or omitted, the new binding goes at the end of the keymap.
433 AFTER should be a single event type--a symbol or a character, not a sequence.
435 Bindings are always added before any inherited map.
437 The order of bindings in a keymap matters when it is used as a menu."
438 (unless after (setq after t))
439 (or (keymapp keymap)
440 (signal 'wrong-type-argument (list 'keymapp keymap)))
441 (setq key
442 (if (<= (length key) 1) (aref key 0)
443 (setq keymap (lookup-key keymap
444 (apply 'vector
445 (butlast (mapcar 'identity key)))))
446 (aref key (1- (length key)))))
447 (let ((tail keymap) done inserted)
448 (while (and (not done) tail)
449 ;; Delete any earlier bindings for the same key.
450 (if (eq (car-safe (car (cdr tail))) key)
451 (setcdr tail (cdr (cdr tail))))
452 ;; If we hit an included map, go down that one.
453 (if (keymapp (car tail)) (setq tail (car tail)))
454 ;; When we reach AFTER's binding, insert the new binding after.
455 ;; If we reach an inherited keymap, insert just before that.
456 ;; If we reach the end of this keymap, insert at the end.
457 (if (or (and (eq (car-safe (car tail)) after)
458 (not (eq after t)))
459 (eq (car (cdr tail)) 'keymap)
460 (null (cdr tail)))
461 (progn
462 ;; Stop the scan only if we find a parent keymap.
463 ;; Keep going past the inserted element
464 ;; so we can delete any duplications that come later.
465 (if (eq (car (cdr tail)) 'keymap)
466 (setq done t))
467 ;; Don't insert more than once.
468 (or inserted
469 (setcdr tail (cons (cons key definition) (cdr tail))))
470 (setq inserted t)))
471 (setq tail (cdr tail)))))
473 (defun map-keymap-internal (function keymap &optional sort-first)
474 "Implement `map-keymap' with sorting.
475 Don't call this function; it is for internal use only."
476 (if sort-first
477 (let (list)
478 (map-keymap (lambda (a b) (push (cons a b) list))
479 keymap)
480 (setq list (sort list
481 (lambda (a b)
482 (setq a (car a) b (car b))
483 (if (integerp a)
484 (if (integerp b) (< a b)
486 (if (integerp b) t
487 (string< a b))))))
488 (dolist (p list)
489 (funcall function (car p) (cdr p))))
490 (map-keymap function keymap)))
492 (put 'keyboard-translate-table 'char-table-extra-slots 0)
494 (defun keyboard-translate (from to)
495 "Translate character FROM to TO at a low level.
496 This function creates a `keyboard-translate-table' if necessary
497 and then modifies one entry in it."
498 (or (char-table-p keyboard-translate-table)
499 (setq keyboard-translate-table
500 (make-char-table 'keyboard-translate-table nil)))
501 (aset keyboard-translate-table from to))
503 ;;;; Key binding commands.
505 (defun global-set-key (key command)
506 "Give KEY a global binding as COMMAND.
507 COMMAND is the command definition to use; usually it is
508 a symbol naming an interactively-callable function.
509 KEY is a key sequence; noninteractively, it is a string or vector
510 of characters or event types, and non-ASCII characters with codes
511 above 127 (such as ISO Latin-1) can be included if you use a vector.
513 Note that if KEY has a local binding in the current buffer,
514 that local binding will continue to shadow any global binding
515 that you make with this function."
516 (interactive "KSet key globally: \nCSet key %s to command: ")
517 (or (vectorp key) (stringp key)
518 (signal 'wrong-type-argument (list 'arrayp key)))
519 (define-key (current-global-map) key command))
521 (defun local-set-key (key command)
522 "Give KEY a local binding as COMMAND.
523 COMMAND is the command definition to use; usually it is
524 a symbol naming an interactively-callable function.
525 KEY is a key sequence; noninteractively, it is a string or vector
526 of characters or event types, and non-ASCII characters with codes
527 above 127 (such as ISO Latin-1) can be included if you use a vector.
529 The binding goes in the current buffer's local map,
530 which in most cases is shared with all other buffers in the same major mode."
531 (interactive "KSet key locally: \nCSet key %s locally to command: ")
532 (let ((map (current-local-map)))
533 (or map
534 (use-local-map (setq map (make-sparse-keymap))))
535 (or (vectorp key) (stringp key)
536 (signal 'wrong-type-argument (list 'arrayp key)))
537 (define-key map key command)))
539 (defun global-unset-key (key)
540 "Remove global binding of KEY.
541 KEY is a string or vector representing a sequence of keystrokes."
542 (interactive "kUnset key globally: ")
543 (global-set-key key nil))
545 (defun local-unset-key (key)
546 "Remove local binding of KEY.
547 KEY is a string or vector representing a sequence of keystrokes."
548 (interactive "kUnset key locally: ")
549 (if (current-local-map)
550 (local-set-key key nil))
551 nil)
553 ;;;; substitute-key-definition and its subroutines.
555 (defvar key-substitution-in-progress nil
556 "Used internally by `substitute-key-definition'.")
558 (defun substitute-key-definition (olddef newdef keymap &optional oldmap prefix)
559 "Replace OLDDEF with NEWDEF for any keys in KEYMAP now defined as OLDDEF.
560 In other words, OLDDEF is replaced with NEWDEF where ever it appears.
561 Alternatively, if optional fourth argument OLDMAP is specified, we redefine
562 in KEYMAP as NEWDEF those keys which are defined as OLDDEF in OLDMAP.
564 For most uses, it is simpler and safer to use command remappping like this:
565 \(define-key KEYMAP [remap OLDDEF] NEWDEF)"
566 ;; Don't document PREFIX in the doc string because we don't want to
567 ;; advertise it. It's meant for recursive calls only. Here's its
568 ;; meaning
570 ;; If optional argument PREFIX is specified, it should be a key
571 ;; prefix, a string. Redefined bindings will then be bound to the
572 ;; original key, with PREFIX added at the front.
573 (or prefix (setq prefix ""))
574 (let* ((scan (or oldmap keymap))
575 (prefix1 (vconcat prefix [nil]))
576 (key-substitution-in-progress
577 (cons scan key-substitution-in-progress)))
578 ;; Scan OLDMAP, finding each char or event-symbol that
579 ;; has any definition, and act on it with hack-key.
580 (map-keymap
581 (lambda (char defn)
582 (aset prefix1 (length prefix) char)
583 (substitute-key-definition-key defn olddef newdef prefix1 keymap))
584 scan)))
586 (defun substitute-key-definition-key (defn olddef newdef prefix keymap)
587 (let (inner-def skipped menu-item)
588 ;; Find the actual command name within the binding.
589 (if (eq (car-safe defn) 'menu-item)
590 (setq menu-item defn defn (nth 2 defn))
591 ;; Skip past menu-prompt.
592 (while (stringp (car-safe defn))
593 (push (pop defn) skipped))
594 ;; Skip past cached key-equivalence data for menu items.
595 (if (consp (car-safe defn))
596 (setq defn (cdr defn))))
597 (if (or (eq defn olddef)
598 ;; Compare with equal if definition is a key sequence.
599 ;; That is useful for operating on function-key-map.
600 (and (or (stringp defn) (vectorp defn))
601 (equal defn olddef)))
602 (define-key keymap prefix
603 (if menu-item
604 (let ((copy (copy-sequence menu-item)))
605 (setcar (nthcdr 2 copy) newdef)
606 copy)
607 (nconc (nreverse skipped) newdef)))
608 ;; Look past a symbol that names a keymap.
609 (setq inner-def
610 (and defn
611 (condition-case nil (indirect-function defn) (error defn))))
612 ;; For nested keymaps, we use `inner-def' rather than `defn' so as to
613 ;; avoid autoloading a keymap. This is mostly done to preserve the
614 ;; original non-autoloading behavior of pre-map-keymap times.
615 (if (and (keymapp inner-def)
616 ;; Avoid recursively scanning
617 ;; where KEYMAP does not have a submap.
618 (let ((elt (lookup-key keymap prefix)))
619 (or (null elt) (natnump elt) (keymapp elt)))
620 ;; Avoid recursively rescanning keymap being scanned.
621 (not (memq inner-def key-substitution-in-progress)))
622 ;; If this one isn't being scanned already, scan it now.
623 (substitute-key-definition olddef newdef keymap inner-def prefix)))))
626 ;;;; The global keymap tree.
628 ;;; global-map, esc-map, and ctl-x-map have their values set up in
629 ;;; keymap.c; we just give them docstrings here.
631 (defvar global-map nil
632 "Default global keymap mapping Emacs keyboard input into commands.
633 The value is a keymap which is usually (but not necessarily) Emacs's
634 global map.")
636 (defvar esc-map nil
637 "Default keymap for ESC (meta) commands.
638 The normal global definition of the character ESC indirects to this keymap.")
640 (defvar ctl-x-map nil
641 "Default keymap for C-x commands.
642 The normal global definition of the character C-x indirects to this keymap.")
644 (defvar ctl-x-4-map (make-sparse-keymap)
645 "Keymap for subcommands of C-x 4.")
646 (defalias 'ctl-x-4-prefix ctl-x-4-map)
647 (define-key ctl-x-map "4" 'ctl-x-4-prefix)
649 (defvar ctl-x-5-map (make-sparse-keymap)
650 "Keymap for frame commands.")
651 (defalias 'ctl-x-5-prefix ctl-x-5-map)
652 (define-key ctl-x-map "5" 'ctl-x-5-prefix)
655 ;;;; Event manipulation functions.
657 ;; The call to `read' is to ensure that the value is computed at load time
658 ;; and not compiled into the .elc file. The value is negative on most
659 ;; machines, but not on all!
660 (defconst listify-key-sequence-1 (logior 128 (read "?\\M-\\^@")))
662 (defun listify-key-sequence (key)
663 "Convert a key sequence to a list of events."
664 (if (vectorp key)
665 (append key nil)
666 (mapcar (function (lambda (c)
667 (if (> c 127)
668 (logxor c listify-key-sequence-1)
669 c)))
670 key)))
672 (defsubst eventp (obj)
673 "True if the argument is an event object."
674 (or (and (integerp obj)
675 ;; Filter out integers too large to be events.
676 ;; M is the biggest modifier.
677 (zerop (logand obj (lognot (1- (lsh ?\M-\^@ 1)))))
678 (char-valid-p (event-basic-type obj)))
679 (and (symbolp obj)
680 (get obj 'event-symbol-elements))
681 (and (consp obj)
682 (symbolp (car obj))
683 (get (car obj) 'event-symbol-elements))))
685 (defun event-modifiers (event)
686 "Return a list of symbols representing the modifier keys in event EVENT.
687 The elements of the list may include `meta', `control',
688 `shift', `hyper', `super', `alt', `click', `double', `triple', `drag',
689 and `down'.
690 EVENT may be an event or an event type. If EVENT is a symbol
691 that has never been used in an event that has been read as input
692 in the current Emacs session, then this function can return nil,
693 even when EVENT actually has modifiers."
694 (let ((type event))
695 (if (listp type)
696 (setq type (car type)))
697 (if (symbolp type)
698 (cdr (get type 'event-symbol-elements))
699 (let ((list nil)
700 (char (logand type (lognot (logior ?\M-\^@ ?\C-\^@ ?\S-\^@
701 ?\H-\^@ ?\s-\^@ ?\A-\^@)))))
702 (if (not (zerop (logand type ?\M-\^@)))
703 (push 'meta list))
704 (if (or (not (zerop (logand type ?\C-\^@)))
705 (< char 32))
706 (push 'control list))
707 (if (or (not (zerop (logand type ?\S-\^@)))
708 (/= char (downcase char)))
709 (push 'shift list))
710 (or (zerop (logand type ?\H-\^@))
711 (push 'hyper list))
712 (or (zerop (logand type ?\s-\^@))
713 (push 'super list))
714 (or (zerop (logand type ?\A-\^@))
715 (push 'alt list))
716 list))))
718 (defun event-basic-type (event)
719 "Return the basic type of the given event (all modifiers removed).
720 The value is a printing character (not upper case) or a symbol.
721 EVENT may be an event or an event type. If EVENT is a symbol
722 that has never been used in an event that has been read as input
723 in the current Emacs session, then this function may return nil."
724 (if (consp event)
725 (setq event (car event)))
726 (if (symbolp event)
727 (car (get event 'event-symbol-elements))
728 (let* ((base (logand event (1- ?\A-\^@)))
729 (uncontrolled (if (< base 32) (logior base 64) base)))
730 ;; There are some numbers that are invalid characters and
731 ;; cause `downcase' to get an error.
732 (condition-case ()
733 (downcase uncontrolled)
734 (error uncontrolled)))))
736 (defsubst mouse-movement-p (object)
737 "Return non-nil if OBJECT is a mouse movement event."
738 (eq (car-safe object) 'mouse-movement))
740 (defsubst event-start (event)
741 "Return the starting position of EVENT.
742 If EVENT is a mouse or key press or a mouse click, this returns the location
743 of the event.
744 If EVENT is a drag, this returns the drag's starting position.
745 The return value is of the form
746 (WINDOW AREA-OR-POS (X . Y) TIMESTAMP OBJECT POS (COL . ROW)
747 IMAGE (DX . DY) (WIDTH . HEIGHT))
748 The `posn-' functions access elements of such lists."
749 (if (consp event) (nth 1 event)
750 (list (selected-window) (point) '(0 . 0) 0)))
752 (defsubst event-end (event)
753 "Return the ending location of EVENT.
754 EVENT should be a click, drag, or key press event.
755 If EVENT is a click event, this function is the same as `event-start'.
756 The return value is of the form
757 (WINDOW AREA-OR-POS (X . Y) TIMESTAMP OBJECT POS (COL . ROW)
758 IMAGE (DX . DY) (WIDTH . HEIGHT))
759 The `posn-' functions access elements of such lists."
760 (if (consp event) (nth (if (consp (nth 2 event)) 2 1) event)
761 (list (selected-window) (point) '(0 . 0) 0)))
763 (defsubst event-click-count (event)
764 "Return the multi-click count of EVENT, a click or drag event.
765 The return value is a positive integer."
766 (if (and (consp event) (integerp (nth 2 event))) (nth 2 event) 1))
768 ;;;; Extracting fields of the positions in an event.
770 (defsubst posn-window (position)
771 "Return the window in POSITION.
772 POSITION should be a list of the form returned by the `event-start'
773 and `event-end' functions."
774 (nth 0 position))
776 (defsubst posn-area (position)
777 "Return the window area recorded in POSITION, or nil for the text area.
778 POSITION should be a list of the form returned by the `event-start'
779 and `event-end' functions."
780 (let ((area (if (consp (nth 1 position))
781 (car (nth 1 position))
782 (nth 1 position))))
783 (and (symbolp area) area)))
785 (defsubst posn-point (position)
786 "Return the buffer location in POSITION.
787 POSITION should be a list of the form returned by the `event-start'
788 and `event-end' functions."
789 (or (nth 5 position)
790 (if (consp (nth 1 position))
791 (car (nth 1 position))
792 (nth 1 position))))
794 (defun posn-set-point (position)
795 "Move point to POSITION.
796 Select the corresponding window as well."
797 (if (not (windowp (posn-window position)))
798 (error "Position not in text area of window"))
799 (select-window (posn-window position))
800 (if (numberp (posn-point position))
801 (goto-char (posn-point position))))
803 (defsubst posn-x-y (position)
804 "Return the x and y coordinates in POSITION.
805 POSITION should be a list of the form returned by the `event-start'
806 and `event-end' functions."
807 (nth 2 position))
809 (defun posn-col-row (position)
810 "Return the nominal column and row in POSITION, measured in characters.
811 The column and row values are approximations calculated from the x
812 and y coordinates in POSITION and the frame's default character width
813 and height.
814 For a scroll-bar event, the result column is 0, and the row
815 corresponds to the vertical position of the click in the scroll bar.
816 POSITION should be a list of the form returned by the `event-start'
817 and `event-end' functions."
818 (let* ((pair (posn-x-y position))
819 (window (posn-window position))
820 (area (posn-area position)))
821 (cond
822 ((null window)
823 '(0 . 0))
824 ((eq area 'vertical-scroll-bar)
825 (cons 0 (scroll-bar-scale pair (1- (window-height window)))))
826 ((eq area 'horizontal-scroll-bar)
827 (cons (scroll-bar-scale pair (window-width window)) 0))
829 (let* ((frame (if (framep window) window (window-frame window)))
830 (x (/ (car pair) (frame-char-width frame)))
831 (y (/ (cdr pair) (+ (frame-char-height frame)
832 (or (frame-parameter frame 'line-spacing)
833 default-line-spacing
834 0)))))
835 (cons x y))))))
837 (defun posn-actual-col-row (position)
838 "Return the actual column and row in POSITION, measured in characters.
839 These are the actual row number in the window and character number in that row.
840 Return nil if POSITION does not contain the actual position; in that case
841 `posn-col-row' can be used to get approximate values.
842 POSITION should be a list of the form returned by the `event-start'
843 and `event-end' functions."
844 (nth 6 position))
846 (defsubst posn-timestamp (position)
847 "Return the timestamp of POSITION.
848 POSITION should be a list of the form returned by the `event-start'
849 and `event-end' functions."
850 (nth 3 position))
852 (defsubst posn-string (position)
853 "Return the string object of POSITION, or nil if a buffer position.
854 POSITION should be a list of the form returned by the `event-start'
855 and `event-end' functions."
856 (nth 4 position))
858 (defsubst posn-image (position)
859 "Return the image object of POSITION, or nil if a not an image.
860 POSITION should be a list of the form returned by the `event-start'
861 and `event-end' functions."
862 (nth 7 position))
864 (defsubst posn-object (position)
865 "Return the object (image or string) of POSITION.
866 POSITION should be a list of the form returned by the `event-start'
867 and `event-end' functions."
868 (or (posn-image position) (posn-string position)))
870 (defsubst posn-object-x-y (position)
871 "Return the x and y coordinates relative to the object of POSITION.
872 POSITION should be a list of the form returned by the `event-start'
873 and `event-end' functions."
874 (nth 8 position))
876 (defsubst posn-object-width-height (position)
877 "Return the pixel width and height of the object of POSITION.
878 POSITION should be a list of the form returned by the `event-start'
879 and `event-end' functions."
880 (nth 9 position))
883 ;;;; Obsolescent names for functions.
885 (define-obsolete-function-alias 'window-dot 'window-point "22.1")
886 (define-obsolete-function-alias 'set-window-dot 'set-window-point "22.1")
887 (define-obsolete-function-alias 'read-input 'read-string "22.1")
888 (define-obsolete-function-alias 'show-buffer 'set-window-buffer "22.1")
889 (define-obsolete-function-alias 'eval-current-buffer 'eval-buffer "22.1")
890 (define-obsolete-function-alias 'string-to-int 'string-to-number "22.1")
892 (make-obsolete 'char-bytes "now always returns 1." "20.4")
894 (defun insert-string (&rest args)
895 "Mocklisp-compatibility insert function.
896 Like the function `insert' except that any argument that is a number
897 is converted into a string by expressing it in decimal."
898 (dolist (el args)
899 (insert (if (integerp el) (number-to-string el) el))))
900 (make-obsolete 'insert-string 'insert "22.1")
902 (defun makehash (&optional test) (make-hash-table :test (or test 'eql)))
903 (make-obsolete 'makehash 'make-hash-table "22.1")
905 ;; Some programs still use this as a function.
906 (defun baud-rate ()
907 "Return the value of the `baud-rate' variable."
908 baud-rate)
909 (make-obsolete 'baud-rate "use the `baud-rate' variable instead." "before 19.15")
911 ;; These are used by VM and some old programs
912 (defalias 'focus-frame 'ignore "")
913 (make-obsolete 'focus-frame "it does nothing." "22.1")
914 (defalias 'unfocus-frame 'ignore "")
915 (make-obsolete 'unfocus-frame "it does nothing." "22.1")
918 ;;;; Obsolescence declarations for variables, and aliases.
920 (make-obsolete-variable 'directory-sep-char "do not use it." "21.1")
921 (make-obsolete-variable 'mode-line-inverse-video "use the appropriate faces instead." "21.1")
922 (make-obsolete-variable 'unread-command-char
923 "use `unread-command-events' instead. That variable is a list of events to reread, so it now uses nil to mean `no event', instead of -1."
924 "before 19.15")
926 ;; Lisp manual only updated in 22.1.
927 (define-obsolete-variable-alias 'executing-macro 'executing-kbd-macro
928 "before 19.34")
930 (defvaralias 'x-lost-selection-hooks 'x-lost-selection-functions)
931 (make-obsolete-variable 'x-lost-selection-hooks 'x-lost-selection-functions "22.1")
932 (defvaralias 'x-sent-selection-hooks 'x-sent-selection-functions)
933 (make-obsolete-variable 'x-sent-selection-hooks 'x-sent-selection-functions "22.1")
935 (defvaralias 'messages-buffer-max-lines 'message-log-max)
937 ;;;; Alternate names for functions - these are not being phased out.
939 (defalias 'send-string 'process-send-string)
940 (defalias 'send-region 'process-send-region)
941 (defalias 'string= 'string-equal)
942 (defalias 'string< 'string-lessp)
943 (defalias 'move-marker 'set-marker)
944 (defalias 'rplaca 'setcar)
945 (defalias 'rplacd 'setcdr)
946 (defalias 'beep 'ding) ;preserve lingual purity
947 (defalias 'indent-to-column 'indent-to)
948 (defalias 'backward-delete-char 'delete-backward-char)
949 (defalias 'search-forward-regexp (symbol-function 're-search-forward))
950 (defalias 'search-backward-regexp (symbol-function 're-search-backward))
951 (defalias 'int-to-string 'number-to-string)
952 (defalias 'store-match-data 'set-match-data)
953 (defalias 'make-variable-frame-localizable 'make-variable-frame-local)
954 ;; These are the XEmacs names:
955 (defalias 'point-at-eol 'line-end-position)
956 (defalias 'point-at-bol 'line-beginning-position)
958 (defalias 'user-original-login-name 'user-login-name)
961 ;;;; Hook manipulation functions.
963 (defun make-local-hook (hook)
964 "Make the hook HOOK local to the current buffer.
965 The return value is HOOK.
967 You never need to call this function now that `add-hook' does it for you
968 if its LOCAL argument is non-nil.
970 When a hook is local, its local and global values
971 work in concert: running the hook actually runs all the hook
972 functions listed in *either* the local value *or* the global value
973 of the hook variable.
975 This function works by making t a member of the buffer-local value,
976 which acts as a flag to run the hook functions in the default value as
977 well. This works for all normal hooks, but does not work for most
978 non-normal hooks yet. We will be changing the callers of non-normal
979 hooks so that they can handle localness; this has to be done one by
980 one.
982 This function does nothing if HOOK is already local in the current
983 buffer.
985 Do not use `make-local-variable' to make a hook variable buffer-local."
986 (if (local-variable-p hook)
988 (or (boundp hook) (set hook nil))
989 (make-local-variable hook)
990 (set hook (list t)))
991 hook)
992 (make-obsolete 'make-local-hook "not necessary any more." "21.1")
994 (defun add-hook (hook function &optional append local)
995 "Add to the value of HOOK the function FUNCTION.
996 FUNCTION is not added if already present.
997 FUNCTION is added (if necessary) at the beginning of the hook list
998 unless the optional argument APPEND is non-nil, in which case
999 FUNCTION is added at the end.
1001 The optional fourth argument, LOCAL, if non-nil, says to modify
1002 the hook's buffer-local value rather than its default value.
1003 This makes the hook buffer-local if needed, and it makes t a member
1004 of the buffer-local value. That acts as a flag to run the hook
1005 functions in the default value as well as in the local value.
1007 HOOK should be a symbol, and FUNCTION may be any valid function. If
1008 HOOK is void, it is first set to nil. If HOOK's value is a single
1009 function, it is changed to a list of functions."
1010 (or (boundp hook) (set hook nil))
1011 (or (default-boundp hook) (set-default hook nil))
1012 (if local (unless (local-variable-if-set-p hook)
1013 (set (make-local-variable hook) (list t)))
1014 ;; Detect the case where make-local-variable was used on a hook
1015 ;; and do what we used to do.
1016 (unless (and (consp (symbol-value hook)) (memq t (symbol-value hook)))
1017 (setq local t)))
1018 (let ((hook-value (if local (symbol-value hook) (default-value hook))))
1019 ;; If the hook value is a single function, turn it into a list.
1020 (when (or (not (listp hook-value)) (eq (car hook-value) 'lambda))
1021 (setq hook-value (list hook-value)))
1022 ;; Do the actual addition if necessary
1023 (unless (member function hook-value)
1024 (setq hook-value
1025 (if append
1026 (append hook-value (list function))
1027 (cons function hook-value))))
1028 ;; Set the actual variable
1029 (if local (set hook hook-value) (set-default hook hook-value))))
1031 (defun remove-hook (hook function &optional local)
1032 "Remove from the value of HOOK the function FUNCTION.
1033 HOOK should be a symbol, and FUNCTION may be any valid function. If
1034 FUNCTION isn't the value of HOOK, or, if FUNCTION doesn't appear in the
1035 list of hooks to run in HOOK, then nothing is done. See `add-hook'.
1037 The optional third argument, LOCAL, if non-nil, says to modify
1038 the hook's buffer-local value rather than its default value."
1039 (or (boundp hook) (set hook nil))
1040 (or (default-boundp hook) (set-default hook nil))
1041 ;; Do nothing if LOCAL is t but this hook has no local binding.
1042 (unless (and local (not (local-variable-p hook)))
1043 ;; Detect the case where make-local-variable was used on a hook
1044 ;; and do what we used to do.
1045 (when (and (local-variable-p hook)
1046 (not (and (consp (symbol-value hook))
1047 (memq t (symbol-value hook)))))
1048 (setq local t))
1049 (let ((hook-value (if local (symbol-value hook) (default-value hook))))
1050 ;; Remove the function, for both the list and the non-list cases.
1051 (if (or (not (listp hook-value)) (eq (car hook-value) 'lambda))
1052 (if (equal hook-value function) (setq hook-value nil))
1053 (setq hook-value (delete function (copy-sequence hook-value))))
1054 ;; If the function is on the global hook, we need to shadow it locally
1055 ;;(when (and local (member function (default-value hook))
1056 ;; (not (member (cons 'not function) hook-value)))
1057 ;; (push (cons 'not function) hook-value))
1058 ;; Set the actual variable
1059 (if (not local)
1060 (set-default hook hook-value)
1061 (if (equal hook-value '(t))
1062 (kill-local-variable hook)
1063 (set hook hook-value))))))
1065 (defun add-to-list (list-var element &optional append)
1066 "Add ELEMENT to the value of LIST-VAR if it isn't there yet.
1067 The test for presence of ELEMENT is done with `equal'.
1068 If ELEMENT is added, it is added at the beginning of the list,
1069 unless the optional argument APPEND is non-nil, in which case
1070 ELEMENT is added at the end.
1072 The return value is the new value of LIST-VAR.
1074 If you want to use `add-to-list' on a variable that is not defined
1075 until a certain package is loaded, you should put the call to `add-to-list'
1076 into a hook function that will be run only after loading the package.
1077 `eval-after-load' provides one way to do this. In some cases
1078 other hooks, such as major mode hooks, can do the job."
1079 (if (member element (symbol-value list-var))
1080 (symbol-value list-var)
1081 (set list-var
1082 (if append
1083 (append (symbol-value list-var) (list element))
1084 (cons element (symbol-value list-var))))))
1087 (defun add-to-ordered-list (list-var element &optional order)
1088 "Add ELEMENT to the value of LIST-VAR if it isn't there yet.
1089 The test for presence of ELEMENT is done with `eq'.
1091 The resulting list is reordered so that the elements are in the
1092 order given by each element's numeric list order. Elements
1093 without a numeric list order are placed at the end of the list.
1095 If the third optional argument ORDER is a number (integer or
1096 float), set the element's list order to the given value. If
1097 ORDER is nil or omitted, do not change the numeric order of
1098 ELEMENT. If ORDER has any other value, remove the numeric order
1099 of ELEMENT if it has one.
1101 The list order for each element is stored in LIST-VAR's
1102 `list-order' property.
1104 The return value is the new value of LIST-VAR."
1105 (let ((ordering (get list-var 'list-order)))
1106 (unless ordering
1107 (put list-var 'list-order
1108 (setq ordering (make-hash-table :weakness 'key :test 'eq))))
1109 (when order
1110 (puthash element (and (numberp order) order) ordering))
1111 (unless (memq element (symbol-value list-var))
1112 (set list-var (cons element (symbol-value list-var))))
1113 (set list-var (sort (symbol-value list-var)
1114 (lambda (a b)
1115 (let ((oa (gethash a ordering))
1116 (ob (gethash b ordering)))
1117 (if (and oa ob)
1118 (< oa ob)
1119 oa)))))))
1121 ;;;; Mode hooks.
1123 (defvar delay-mode-hooks nil
1124 "If non-nil, `run-mode-hooks' should delay running the hooks.")
1125 (defvar delayed-mode-hooks nil
1126 "List of delayed mode hooks waiting to be run.")
1127 (make-variable-buffer-local 'delayed-mode-hooks)
1128 (put 'delay-mode-hooks 'permanent-local t)
1130 (defvar after-change-major-mode-hook nil
1131 "Normal hook run at the very end of major mode functions.")
1133 (defun run-mode-hooks (&rest hooks)
1134 "Run mode hooks `delayed-mode-hooks' and HOOKS, or delay HOOKS.
1135 Execution is delayed if `delay-mode-hooks' is non-nil.
1136 If `delay-mode-hooks' is nil, run `after-change-major-mode-hook'
1137 after running the mode hooks.
1138 Major mode functions should use this."
1139 (if delay-mode-hooks
1140 ;; Delaying case.
1141 (dolist (hook hooks)
1142 (push hook delayed-mode-hooks))
1143 ;; Normal case, just run the hook as before plus any delayed hooks.
1144 (setq hooks (nconc (nreverse delayed-mode-hooks) hooks))
1145 (setq delayed-mode-hooks nil)
1146 (apply 'run-hooks hooks)
1147 (run-hooks 'after-change-major-mode-hook)))
1149 (defmacro delay-mode-hooks (&rest body)
1150 "Execute BODY, but delay any `run-mode-hooks'.
1151 These hooks will be executed by the first following call to
1152 `run-mode-hooks' that occurs outside any `delayed-mode-hooks' form.
1153 Only affects hooks run in the current buffer."
1154 (declare (debug t) (indent 0))
1155 `(progn
1156 (make-local-variable 'delay-mode-hooks)
1157 (let ((delay-mode-hooks t))
1158 ,@body)))
1160 ;; PUBLIC: find if the current mode derives from another.
1162 (defun derived-mode-p (&rest modes)
1163 "Non-nil if the current major mode is derived from one of MODES.
1164 Uses the `derived-mode-parent' property of the symbol to trace backwards."
1165 (let ((parent major-mode))
1166 (while (and (not (memq parent modes))
1167 (setq parent (get parent 'derived-mode-parent))))
1168 parent))
1170 ;;;; Minor modes.
1172 ;; If a minor mode is not defined with define-minor-mode,
1173 ;; add it here explicitly.
1174 ;; isearch-mode is deliberately excluded, since you should
1175 ;; not call it yourself.
1176 (defvar minor-mode-list '(auto-save-mode auto-fill-mode abbrev-mode
1177 overwrite-mode view-mode
1178 hs-minor-mode)
1179 "List of all minor mode functions.")
1181 (defun add-minor-mode (toggle name &optional keymap after toggle-fun)
1182 "Register a new minor mode.
1184 This is an XEmacs-compatibility function. Use `define-minor-mode' instead.
1186 TOGGLE is a symbol which is the name of a buffer-local variable that
1187 is toggled on or off to say whether the minor mode is active or not.
1189 NAME specifies what will appear in the mode line when the minor mode
1190 is active. NAME should be either a string starting with a space, or a
1191 symbol whose value is such a string.
1193 Optional KEYMAP is the keymap for the minor mode that will be added
1194 to `minor-mode-map-alist'.
1196 Optional AFTER specifies that TOGGLE should be added after AFTER
1197 in `minor-mode-alist'.
1199 Optional TOGGLE-FUN is an interactive function to toggle the mode.
1200 It defaults to (and should by convention be) TOGGLE.
1202 If TOGGLE has a non-nil `:included' property, an entry for the mode is
1203 included in the mode-line minor mode menu.
1204 If TOGGLE has a `:menu-tag', that is used for the menu item's label."
1205 (unless (memq toggle minor-mode-list)
1206 (push toggle minor-mode-list))
1208 (unless toggle-fun (setq toggle-fun toggle))
1209 (unless (eq toggle-fun toggle)
1210 (put toggle :minor-mode-function toggle-fun))
1211 ;; Add the name to the minor-mode-alist.
1212 (when name
1213 (let ((existing (assq toggle minor-mode-alist)))
1214 (if existing
1215 (setcdr existing (list name))
1216 (let ((tail minor-mode-alist) found)
1217 (while (and tail (not found))
1218 (if (eq after (caar tail))
1219 (setq found tail)
1220 (setq tail (cdr tail))))
1221 (if found
1222 (let ((rest (cdr found)))
1223 (setcdr found nil)
1224 (nconc found (list (list toggle name)) rest))
1225 (setq minor-mode-alist (cons (list toggle name)
1226 minor-mode-alist)))))))
1227 ;; Add the toggle to the minor-modes menu if requested.
1228 (when (get toggle :included)
1229 (define-key mode-line-mode-menu
1230 (vector toggle)
1231 (list 'menu-item
1232 (concat
1233 (or (get toggle :menu-tag)
1234 (if (stringp name) name (symbol-name toggle)))
1235 (let ((mode-name (if (symbolp name) (symbol-value name))))
1236 (if (and (stringp mode-name) (string-match "[^ ]+" mode-name))
1237 (concat " (" (match-string 0 mode-name) ")"))))
1238 toggle-fun
1239 :button (cons :toggle toggle))))
1241 ;; Add the map to the minor-mode-map-alist.
1242 (when keymap
1243 (let ((existing (assq toggle minor-mode-map-alist)))
1244 (if existing
1245 (setcdr existing keymap)
1246 (let ((tail minor-mode-map-alist) found)
1247 (while (and tail (not found))
1248 (if (eq after (caar tail))
1249 (setq found tail)
1250 (setq tail (cdr tail))))
1251 (if found
1252 (let ((rest (cdr found)))
1253 (setcdr found nil)
1254 (nconc found (list (cons toggle keymap)) rest))
1255 (setq minor-mode-map-alist (cons (cons toggle keymap)
1256 minor-mode-map-alist))))))))
1258 ;;; Load history
1260 ;;; (defvar symbol-file-load-history-loaded nil
1261 ;;; "Non-nil means we have loaded the file `fns-VERSION.el' in `exec-directory'.
1262 ;;; That file records the part of `load-history' for preloaded files,
1263 ;;; which is cleared out before dumping to make Emacs smaller.")
1265 ;;; (defun load-symbol-file-load-history ()
1266 ;;; "Load the file `fns-VERSION.el' in `exec-directory' if not already done.
1267 ;;; That file records the part of `load-history' for preloaded files,
1268 ;;; which is cleared out before dumping to make Emacs smaller."
1269 ;;; (unless symbol-file-load-history-loaded
1270 ;;; (load (expand-file-name
1271 ;;; ;; fns-XX.YY.ZZ.el does not work on DOS filesystem.
1272 ;;; (if (eq system-type 'ms-dos)
1273 ;;; "fns.el"
1274 ;;; (format "fns-%s.el" emacs-version))
1275 ;;; exec-directory)
1276 ;;; ;; The file name fns-%s.el already has a .el extension.
1277 ;;; nil nil t)
1278 ;;; (setq symbol-file-load-history-loaded t)))
1280 (defun symbol-file (symbol &optional type)
1281 "Return the input source in which SYMBOL was defined.
1282 The value is an absolute file name.
1283 It can also be nil, if the definition is not associated with any file.
1285 If TYPE is nil, then any kind of definition is acceptable.
1286 If TYPE is `defun' or `defvar', that specifies function
1287 definition only or variable definition only.
1288 `defface' specifies a face definition only."
1289 (if (and (or (null type) (eq type 'defun))
1290 (symbolp symbol) (fboundp symbol)
1291 (eq 'autoload (car-safe (symbol-function symbol))))
1292 (nth 1 (symbol-function symbol))
1293 (let ((files load-history)
1294 file)
1295 (while files
1296 (if (if type
1297 (if (eq type 'defvar)
1298 ;; Variables are present just as their names.
1299 (member symbol (cdr (car files)))
1300 ;; Other types are represented as (TYPE . NAME).
1301 (member (cons type symbol) (cdr (car files))))
1302 ;; We accept all types, so look for variable def
1303 ;; and then for any other kind.
1304 (or (member symbol (cdr (car files)))
1305 (rassq symbol (cdr (car files)))))
1306 (setq file (car (car files)) files nil))
1307 (setq files (cdr files)))
1308 file)))
1310 ;;;###autoload
1311 (defun locate-library (library &optional nosuffix path interactive-call)
1312 "Show the precise file name of Emacs library LIBRARY.
1313 This command searches the directories in `load-path' like `\\[load-library]'
1314 to find the file that `\\[load-library] RET LIBRARY RET' would load.
1315 Optional second arg NOSUFFIX non-nil means don't add suffixes `load-suffixes'
1316 to the specified name LIBRARY.
1318 If the optional third arg PATH is specified, that list of directories
1319 is used instead of `load-path'.
1321 When called from a program, the file name is normaly returned as a
1322 string. When run interactively, the argument INTERACTIVE-CALL is t,
1323 and the file name is displayed in the echo area."
1324 (interactive (list (completing-read "Locate library: "
1325 'locate-file-completion
1326 (cons load-path load-suffixes))
1327 nil nil
1329 (let ((file (locate-file library
1330 (or path load-path)
1331 (append (unless nosuffix load-suffixes) '("")))))
1332 (if interactive-call
1333 (if file
1334 (message "Library is file %s" (abbreviate-file-name file))
1335 (message "No library %s in search path" library)))
1336 file))
1339 ;;;; Specifying things to do later.
1341 (defmacro eval-at-startup (&rest body)
1342 "Make arrangements to evaluate BODY when Emacs starts up.
1343 If this is run after Emacs startup, evaluate BODY immediately.
1344 Always returns nil.
1346 This works by adding a function to `before-init-hook'.
1347 That function's doc string says which file created it."
1348 `(progn
1349 (if command-line-processed
1350 (progn . ,body)
1351 (add-hook 'before-init-hook
1352 '(lambda () ,(concat "From " (or load-file-name "no file"))
1353 . ,body)
1355 nil))
1357 (defun eval-after-load (file form)
1358 "Arrange that, if FILE is ever loaded, FORM will be run at that time.
1359 This makes or adds to an entry on `after-load-alist'.
1360 If FILE is already loaded, evaluate FORM right now.
1361 It does nothing if FORM is already on the list for FILE.
1362 FILE must match exactly. Normally FILE is the name of a library,
1363 with no directory or extension specified, since that is how `load'
1364 is normally called.
1365 FILE can also be a feature (i.e. a symbol), in which case FORM is
1366 evaluated whenever that feature is `provide'd."
1367 (let ((elt (assoc file after-load-alist)))
1368 ;; Make sure there is an element for FILE.
1369 (unless elt (setq elt (list file)) (push elt after-load-alist))
1370 ;; Add FORM to the element if it isn't there.
1371 (unless (member form (cdr elt))
1372 (nconc elt (list form))
1373 ;; If the file has been loaded already, run FORM right away.
1374 (if (if (symbolp file)
1375 (featurep file)
1376 ;; Make sure `load-history' contains the files dumped with
1377 ;; Emacs for the case that FILE is one of them.
1378 ;; (load-symbol-file-load-history)
1379 (when (locate-library file)
1380 (assoc (locate-library file) load-history)))
1381 (eval form))))
1382 form)
1384 (defun eval-next-after-load (file)
1385 "Read the following input sexp, and run it whenever FILE is loaded.
1386 This makes or adds to an entry on `after-load-alist'.
1387 FILE should be the name of a library, with no directory name."
1388 (eval-after-load file (read)))
1390 ;;;; Process stuff.
1392 ;; open-network-stream is a wrapper around make-network-process.
1394 (when (featurep 'make-network-process)
1395 (defun open-network-stream (name buffer host service)
1396 "Open a TCP connection for a service to a host.
1397 Returns a subprocess-object to represent the connection.
1398 Input and output work as for subprocesses; `delete-process' closes it.
1400 Args are NAME BUFFER HOST SERVICE.
1401 NAME is name for process. It is modified if necessary to make it unique.
1402 BUFFER is the buffer (or buffer name) to associate with the process.
1403 Process output goes at end of that buffer, unless you specify
1404 an output stream or filter function to handle the output.
1405 BUFFER may be also nil, meaning that this process is not associated
1406 with any buffer.
1407 HOST is name of the host to connect to, or its IP address.
1408 SERVICE is name of the service desired, or an integer specifying
1409 a port number to connect to."
1410 (make-network-process :name name :buffer buffer
1411 :host host :service service)))
1413 ;; compatibility
1415 (make-obsolete 'process-kill-without-query
1416 "use `process-query-on-exit-flag' or `set-process-query-on-exit-flag'."
1417 "22.1")
1418 (defun process-kill-without-query (process &optional flag)
1419 "Say no query needed if PROCESS is running when Emacs is exited.
1420 Optional second argument if non-nil says to require a query.
1421 Value is t if a query was formerly required."
1422 (let ((old (process-query-on-exit-flag process)))
1423 (set-process-query-on-exit-flag process nil)
1424 old))
1426 ;; process plist management
1428 (defun process-get (process propname)
1429 "Return the value of PROCESS' PROPNAME property.
1430 This is the last value stored with `(process-put PROCESS PROPNAME VALUE)'."
1431 (plist-get (process-plist process) propname))
1433 (defun process-put (process propname value)
1434 "Change PROCESS' PROPNAME property to VALUE.
1435 It can be retrieved with `(process-get PROCESS PROPNAME)'."
1436 (set-process-plist process
1437 (plist-put (process-plist process) propname value)))
1440 ;;;; Input and display facilities.
1442 (defvar read-quoted-char-radix 8
1443 "*Radix for \\[quoted-insert] and other uses of `read-quoted-char'.
1444 Legitimate radix values are 8, 10 and 16.")
1446 (custom-declare-variable-early
1447 'read-quoted-char-radix 8
1448 "*Radix for \\[quoted-insert] and other uses of `read-quoted-char'.
1449 Legitimate radix values are 8, 10 and 16."
1450 :type '(choice (const 8) (const 10) (const 16))
1451 :group 'editing-basics)
1453 (defun read-quoted-char (&optional prompt)
1454 "Like `read-char', but do not allow quitting.
1455 Also, if the first character read is an octal digit,
1456 we read any number of octal digits and return the
1457 specified character code. Any nondigit terminates the sequence.
1458 If the terminator is RET, it is discarded;
1459 any other terminator is used itself as input.
1461 The optional argument PROMPT specifies a string to use to prompt the user.
1462 The variable `read-quoted-char-radix' controls which radix to use
1463 for numeric input."
1464 (let ((message-log-max nil) done (first t) (code 0) char translated)
1465 (while (not done)
1466 (let ((inhibit-quit first)
1467 ;; Don't let C-h get the help message--only help function keys.
1468 (help-char nil)
1469 (help-form
1470 "Type the special character you want to use,
1471 or the octal character code.
1472 RET terminates the character code and is discarded;
1473 any other non-digit terminates the character code and is then used as input."))
1474 (setq char (read-event (and prompt (format "%s-" prompt)) t))
1475 (if inhibit-quit (setq quit-flag nil)))
1476 ;; Translate TAB key into control-I ASCII character, and so on.
1477 ;; Note: `read-char' does it using the `ascii-character' property.
1478 ;; We could try and use read-key-sequence instead, but then C-q ESC
1479 ;; or C-q C-x might not return immediately since ESC or C-x might be
1480 ;; bound to some prefix in function-key-map or key-translation-map.
1481 (setq translated char)
1482 (let ((translation (lookup-key function-key-map (vector char))))
1483 (if (arrayp translation)
1484 (setq translated (aref translation 0))))
1485 (cond ((null translated))
1486 ((not (integerp translated))
1487 (setq unread-command-events (list char)
1488 done t))
1489 ((/= (logand translated ?\M-\^@) 0)
1490 ;; Turn a meta-character into a character with the 0200 bit set.
1491 (setq code (logior (logand translated (lognot ?\M-\^@)) 128)
1492 done t))
1493 ((and (<= ?0 translated) (< translated (+ ?0 (min 10 read-quoted-char-radix))))
1494 (setq code (+ (* code read-quoted-char-radix) (- translated ?0)))
1495 (and prompt (setq prompt (message "%s %c" prompt translated))))
1496 ((and (<= ?a (downcase translated))
1497 (< (downcase translated) (+ ?a -10 (min 36 read-quoted-char-radix))))
1498 (setq code (+ (* code read-quoted-char-radix)
1499 (+ 10 (- (downcase translated) ?a))))
1500 (and prompt (setq prompt (message "%s %c" prompt translated))))
1501 ((and (not first) (eq translated ?\C-m))
1502 (setq done t))
1503 ((not first)
1504 (setq unread-command-events (list char)
1505 done t))
1506 (t (setq code translated
1507 done t)))
1508 (setq first nil))
1509 code))
1511 (defun read-passwd (prompt &optional confirm default)
1512 "Read a password, prompting with PROMPT, and return it.
1513 If optional CONFIRM is non-nil, read the password twice to make sure.
1514 Optional DEFAULT is a default password to use instead of empty input.
1516 This function echoes `.' for each character that the user types.
1517 The user ends with RET, LFD, or ESC. DEL or C-h rubs out. C-u kills line.
1518 C-g quits; if `inhibit-quit' was non-nil around this function,
1519 then it returns nil if the user types C-g.
1521 Once the caller uses the password, it can erase the password
1522 by doing (clear-string STRING)."
1523 (with-local-quit
1524 (if confirm
1525 (let (success)
1526 (while (not success)
1527 (let ((first (read-passwd prompt nil default))
1528 (second (read-passwd "Confirm password: " nil default)))
1529 (if (equal first second)
1530 (progn
1531 (and (arrayp second) (clear-string second))
1532 (setq success first))
1533 (and (arrayp first) (clear-string first))
1534 (and (arrayp second) (clear-string second))
1535 (message "Password not repeated accurately; please start over")
1536 (sit-for 1))))
1537 success)
1538 (let ((pass nil)
1539 (c 0)
1540 (echo-keystrokes 0)
1541 (cursor-in-echo-area t))
1542 (add-text-properties 0 (length prompt)
1543 minibuffer-prompt-properties prompt)
1544 (while (progn (message "%s%s"
1545 prompt
1546 (make-string (length pass) ?.))
1547 (setq c (read-char-exclusive nil t))
1548 (and (/= c ?\r) (/= c ?\n) (/= c ?\e)))
1549 (clear-this-command-keys)
1550 (if (= c ?\C-u)
1551 (progn
1552 (and (arrayp pass) (clear-string pass))
1553 (setq pass ""))
1554 (if (and (/= c ?\b) (/= c ?\177))
1555 (let* ((new-char (char-to-string c))
1556 (new-pass (concat pass new-char)))
1557 (and (arrayp pass) (clear-string pass))
1558 (clear-string new-char)
1559 (setq c ?\0)
1560 (setq pass new-pass))
1561 (if (> (length pass) 0)
1562 (let ((new-pass (substring pass 0 -1)))
1563 (and (arrayp pass) (clear-string pass))
1564 (setq pass new-pass))))))
1565 (message nil)
1566 (or pass default "")))))
1568 ;; This should be used by `call-interactively' for `n' specs.
1569 (defun read-number (prompt &optional default)
1570 (let ((n nil))
1571 (when default
1572 (setq prompt
1573 (if (string-match "\\(\\):[ \t]*\\'" prompt)
1574 (replace-match (format " (default %s)" default) t t prompt 1)
1575 (replace-regexp-in-string "[ \t]*\\'"
1576 (format " (default %s) " default)
1577 prompt t t))))
1578 (while
1579 (progn
1580 (let ((str (read-from-minibuffer prompt nil nil nil nil
1581 (and default
1582 (number-to-string default)))))
1583 (setq n (cond
1584 ((zerop (length str)) default)
1585 ((stringp str) (read str)))))
1586 (unless (numberp n)
1587 (message "Please enter a number.")
1588 (sit-for 1)
1589 t)))
1592 ;;; Atomic change groups.
1594 (defmacro atomic-change-group (&rest body)
1595 "Perform BODY as an atomic change group.
1596 This means that if BODY exits abnormally,
1597 all of its changes to the current buffer are undone.
1598 This works regardless of whether undo is enabled in the buffer.
1600 This mechanism is transparent to ordinary use of undo;
1601 if undo is enabled in the buffer and BODY succeeds, the
1602 user can undo the change normally."
1603 (declare (indent 0) (debug t))
1604 (let ((handle (make-symbol "--change-group-handle--"))
1605 (success (make-symbol "--change-group-success--")))
1606 `(let ((,handle (prepare-change-group))
1607 (,success nil))
1608 (unwind-protect
1609 (progn
1610 ;; This is inside the unwind-protect because
1611 ;; it enables undo if that was disabled; we need
1612 ;; to make sure that it gets disabled again.
1613 (activate-change-group ,handle)
1614 ,@body
1615 (setq ,success t))
1616 ;; Either of these functions will disable undo
1617 ;; if it was disabled before.
1618 (if ,success
1619 (accept-change-group ,handle)
1620 (cancel-change-group ,handle))))))
1622 (defun prepare-change-group (&optional buffer)
1623 "Return a handle for the current buffer's state, for a change group.
1624 If you specify BUFFER, make a handle for BUFFER's state instead.
1626 Pass the handle to `activate-change-group' afterward to initiate
1627 the actual changes of the change group.
1629 To finish the change group, call either `accept-change-group' or
1630 `cancel-change-group' passing the same handle as argument. Call
1631 `accept-change-group' to accept the changes in the group as final;
1632 call `cancel-change-group' to undo them all. You should use
1633 `unwind-protect' to make sure the group is always finished. The call
1634 to `activate-change-group' should be inside the `unwind-protect'.
1635 Once you finish the group, don't use the handle again--don't try to
1636 finish the same group twice. For a simple example of correct use, see
1637 the source code of `atomic-change-group'.
1639 The handle records only the specified buffer. To make a multibuffer
1640 change group, call this function once for each buffer you want to
1641 cover, then use `nconc' to combine the returned values, like this:
1643 (nconc (prepare-change-group buffer-1)
1644 (prepare-change-group buffer-2))
1646 You can then activate that multibuffer change group with a single
1647 call to `activate-change-group' and finish it with a single call
1648 to `accept-change-group' or `cancel-change-group'."
1650 (if buffer
1651 (list (cons buffer (with-current-buffer buffer buffer-undo-list)))
1652 (list (cons (current-buffer) buffer-undo-list))))
1654 (defun activate-change-group (handle)
1655 "Activate a change group made with `prepare-change-group' (which see)."
1656 (dolist (elt handle)
1657 (with-current-buffer (car elt)
1658 (if (eq buffer-undo-list t)
1659 (setq buffer-undo-list nil)))))
1661 (defun accept-change-group (handle)
1662 "Finish a change group made with `prepare-change-group' (which see).
1663 This finishes the change group by accepting its changes as final."
1664 (dolist (elt handle)
1665 (with-current-buffer (car elt)
1666 (if (eq elt t)
1667 (setq buffer-undo-list t)))))
1669 (defun cancel-change-group (handle)
1670 "Finish a change group made with `prepare-change-group' (which see).
1671 This finishes the change group by reverting all of its changes."
1672 (dolist (elt handle)
1673 (with-current-buffer (car elt)
1674 (setq elt (cdr elt))
1675 (let ((old-car
1676 (if (consp elt) (car elt)))
1677 (old-cdr
1678 (if (consp elt) (cdr elt))))
1679 ;; Temporarily truncate the undo log at ELT.
1680 (when (consp elt)
1681 (setcar elt nil) (setcdr elt nil))
1682 (unless (eq last-command 'undo) (undo-start))
1683 ;; Make sure there's no confusion.
1684 (when (and (consp elt) (not (eq elt (last pending-undo-list))))
1685 (error "Undoing to some unrelated state"))
1686 ;; Undo it all.
1687 (while (listp pending-undo-list) (undo-more 1))
1688 ;; Reset the modified cons cell ELT to its original content.
1689 (when (consp elt)
1690 (setcar elt old-car)
1691 (setcdr elt old-cdr))
1692 ;; Revert the undo info to what it was when we grabbed the state.
1693 (setq buffer-undo-list elt)))))
1695 ;;;; Display-related functions.
1697 ;; For compatibility.
1698 (defalias 'redraw-modeline 'force-mode-line-update)
1700 (defun force-mode-line-update (&optional all)
1701 "Force redisplay of the current buffer's mode line and header line.
1702 With optional non-nil ALL, force redisplay of all mode lines and
1703 header lines. This function also forces recomputation of the
1704 menu bar menus and the frame title."
1705 (if all (save-excursion (set-buffer (other-buffer))))
1706 (set-buffer-modified-p (buffer-modified-p)))
1708 (defun momentary-string-display (string pos &optional exit-char message)
1709 "Momentarily display STRING in the buffer at POS.
1710 Display remains until next event is input.
1711 Optional third arg EXIT-CHAR can be a character, event or event
1712 description list. EXIT-CHAR defaults to SPC. If the input is
1713 EXIT-CHAR it is swallowed; otherwise it is then available as
1714 input (as a command if nothing else).
1715 Display MESSAGE (optional fourth arg) in the echo area.
1716 If MESSAGE is nil, instructions to type EXIT-CHAR are displayed there."
1717 (or exit-char (setq exit-char ?\ ))
1718 (let ((inhibit-read-only t)
1719 ;; Don't modify the undo list at all.
1720 (buffer-undo-list t)
1721 (modified (buffer-modified-p))
1722 (name buffer-file-name)
1723 insert-end)
1724 (unwind-protect
1725 (progn
1726 (save-excursion
1727 (goto-char pos)
1728 ;; defeat file locking... don't try this at home, kids!
1729 (setq buffer-file-name nil)
1730 (insert-before-markers string)
1731 (setq insert-end (point))
1732 ;; If the message end is off screen, recenter now.
1733 (if (< (window-end nil t) insert-end)
1734 (recenter (/ (window-height) 2)))
1735 ;; If that pushed message start off the screen,
1736 ;; scroll to start it at the top of the screen.
1737 (move-to-window-line 0)
1738 (if (> (point) pos)
1739 (progn
1740 (goto-char pos)
1741 (recenter 0))))
1742 (message (or message "Type %s to continue editing.")
1743 (single-key-description exit-char))
1744 (let (char)
1745 (if (integerp exit-char)
1746 (condition-case nil
1747 (progn
1748 (setq char (read-char))
1749 (or (eq char exit-char)
1750 (setq unread-command-events (list char))))
1751 (error
1752 ;; `exit-char' is a character, hence it differs
1753 ;; from char, which is an event.
1754 (setq unread-command-events (list char))))
1755 ;; `exit-char' can be an event, or an event description
1756 ;; list.
1757 (setq char (read-event))
1758 (or (eq char exit-char)
1759 (eq char (event-convert-list exit-char))
1760 (setq unread-command-events (list char))))))
1761 (if insert-end
1762 (save-excursion
1763 (delete-region pos insert-end)))
1764 (setq buffer-file-name name)
1765 (set-buffer-modified-p modified))))
1768 ;;;; Overlay operations
1770 (defun copy-overlay (o)
1771 "Return a copy of overlay O."
1772 (let ((o1 (make-overlay (overlay-start o) (overlay-end o)
1773 ;; FIXME: there's no easy way to find the
1774 ;; insertion-type of the two markers.
1775 (overlay-buffer o)))
1776 (props (overlay-properties o)))
1777 (while props
1778 (overlay-put o1 (pop props) (pop props)))
1779 o1))
1781 (defun remove-overlays (&optional beg end name val)
1782 "Clear BEG and END of overlays whose property NAME has value VAL.
1783 Overlays might be moved and/or split.
1784 BEG and END default respectively to the beginning and end of buffer."
1785 (unless beg (setq beg (point-min)))
1786 (unless end (setq end (point-max)))
1787 (if (< end beg)
1788 (setq beg (prog1 end (setq end beg))))
1789 (save-excursion
1790 (dolist (o (overlays-in beg end))
1791 (when (eq (overlay-get o name) val)
1792 ;; Either push this overlay outside beg...end
1793 ;; or split it to exclude beg...end
1794 ;; or delete it entirely (if it is contained in beg...end).
1795 (if (< (overlay-start o) beg)
1796 (if (> (overlay-end o) end)
1797 (progn
1798 (move-overlay (copy-overlay o)
1799 (overlay-start o) beg)
1800 (move-overlay o end (overlay-end o)))
1801 (move-overlay o (overlay-start o) beg))
1802 (if (> (overlay-end o) end)
1803 (move-overlay o end (overlay-end o))
1804 (delete-overlay o)))))))
1806 ;;;; Miscellanea.
1808 (defvar suspend-hook nil
1809 "Normal hook run by `suspend-emacs', before suspending.")
1811 (defvar suspend-resume-hook nil
1812 "Normal hook run by `suspend-emacs', after Emacs is continued.")
1814 (defvar temp-buffer-show-hook nil
1815 "Normal hook run by `with-output-to-temp-buffer' after displaying the buffer.
1816 When the hook runs, the temporary buffer is current, and the window it
1817 was displayed in is selected. This hook is normally set up with a
1818 function to make the buffer read only, and find function names and
1819 variable names in it, provided the major mode is still Help mode.")
1821 (defvar temp-buffer-setup-hook nil
1822 "Normal hook run by `with-output-to-temp-buffer' at the start.
1823 When the hook runs, the temporary buffer is current.
1824 This hook is normally set up with a function to put the buffer in Help
1825 mode.")
1827 ;; Avoid compiler warnings about this variable,
1828 ;; which has a special meaning on certain system types.
1829 (defvar buffer-file-type nil
1830 "Non-nil if the visited file is a binary file.
1831 This variable is meaningful on MS-DOG and Windows NT.
1832 On those systems, it is automatically local in every buffer.
1833 On other systems, this variable is normally always nil.")
1835 ;;;; Misc. useful functions.
1837 (defun find-tag-default ()
1838 "Determine default tag to search for, based on text at point.
1839 If there is no plausible default, return nil."
1840 (save-excursion
1841 (while (looking-at "\\sw\\|\\s_")
1842 (forward-char 1))
1843 (if (or (re-search-backward "\\sw\\|\\s_"
1844 (save-excursion (beginning-of-line) (point))
1846 (re-search-forward "\\(\\sw\\|\\s_\\)+"
1847 (save-excursion (end-of-line) (point))
1849 (progn
1850 (goto-char (match-end 0))
1851 (condition-case nil
1852 (buffer-substring-no-properties
1853 (point)
1854 (progn (forward-sexp -1)
1855 (while (looking-at "\\s'")
1856 (forward-char 1))
1857 (point)))
1858 (error nil)))
1859 nil)))
1861 (defun play-sound (sound)
1862 "SOUND is a list of the form `(sound KEYWORD VALUE...)'.
1863 The following keywords are recognized:
1865 :file FILE - read sound data from FILE. If FILE isn't an
1866 absolute file name, it is searched in `data-directory'.
1868 :data DATA - read sound data from string DATA.
1870 Exactly one of :file or :data must be present.
1872 :volume VOL - set volume to VOL. VOL must an integer in the
1873 range 0..100 or a float in the range 0..1.0. If not specified,
1874 don't change the volume setting of the sound device.
1876 :device DEVICE - play sound on DEVICE. If not specified,
1877 a system-dependent default device name is used."
1878 (if (fboundp 'play-sound-internal)
1879 (play-sound-internal sound)
1880 (error "This Emacs binary lacks sound support")))
1882 (defun shell-quote-argument (argument)
1883 "Quote an argument for passing as argument to an inferior shell."
1884 (if (eq system-type 'ms-dos)
1885 ;; Quote using double quotes, but escape any existing quotes in
1886 ;; the argument with backslashes.
1887 (let ((result "")
1888 (start 0)
1889 end)
1890 (if (or (null (string-match "[^\"]" argument))
1891 (< (match-end 0) (length argument)))
1892 (while (string-match "[\"]" argument start)
1893 (setq end (match-beginning 0)
1894 result (concat result (substring argument start end)
1895 "\\" (substring argument end (1+ end)))
1896 start (1+ end))))
1897 (concat "\"" result (substring argument start) "\""))
1898 (if (eq system-type 'windows-nt)
1899 (concat "\"" argument "\"")
1900 (if (equal argument "")
1901 "''"
1902 ;; Quote everything except POSIX filename characters.
1903 ;; This should be safe enough even for really weird shells.
1904 (let ((result "") (start 0) end)
1905 (while (string-match "[^-0-9a-zA-Z_./]" argument start)
1906 (setq end (match-beginning 0)
1907 result (concat result (substring argument start end)
1908 "\\" (substring argument end (1+ end)))
1909 start (1+ end)))
1910 (concat result (substring argument start)))))))
1912 ;;;; Support for yanking and text properties.
1914 (defvar yank-excluded-properties)
1916 (defun remove-yank-excluded-properties (start end)
1917 "Remove `yank-excluded-properties' between START and END positions.
1918 Replaces `category' properties with their defined properties."
1919 (let ((inhibit-read-only t))
1920 ;; Replace any `category' property with the properties it stands for.
1921 (unless (memq yank-excluded-properties '(t nil))
1922 (save-excursion
1923 (goto-char start)
1924 (while (< (point) end)
1925 (let ((cat (get-text-property (point) 'category))
1926 run-end)
1927 (setq run-end
1928 (next-single-property-change (point) 'category nil end))
1929 (when cat
1930 (let (run-end2 original)
1931 (remove-list-of-text-properties (point) run-end '(category))
1932 (while (< (point) run-end)
1933 (setq run-end2 (next-property-change (point) nil run-end))
1934 (setq original (text-properties-at (point)))
1935 (set-text-properties (point) run-end2 (symbol-plist cat))
1936 (add-text-properties (point) run-end2 original)
1937 (goto-char run-end2))))
1938 (goto-char run-end)))))
1939 (if (eq yank-excluded-properties t)
1940 (set-text-properties start end nil)
1941 (remove-list-of-text-properties start end yank-excluded-properties))))
1943 (defvar yank-undo-function)
1945 (defun insert-for-yank (string)
1946 "Calls `insert-for-yank-1' repetitively for each `yank-handler' segment.
1948 See `insert-for-yank-1' for more details."
1949 (let (to)
1950 (while (setq to (next-single-property-change 0 'yank-handler string))
1951 (insert-for-yank-1 (substring string 0 to))
1952 (setq string (substring string to))))
1953 (insert-for-yank-1 string))
1955 (defun insert-for-yank-1 (string)
1956 "Insert STRING at point, stripping some text properties.
1958 Strip text properties from the inserted text according to
1959 `yank-excluded-properties'. Otherwise just like (insert STRING).
1961 If STRING has a non-nil `yank-handler' property on the first character,
1962 the normal insert behavior is modified in various ways. The value of
1963 the yank-handler property must be a list with one to four elements
1964 with the following format: (FUNCTION PARAM NOEXCLUDE UNDO).
1965 When FUNCTION is present and non-nil, it is called instead of `insert'
1966 to insert the string. FUNCTION takes one argument--the object to insert.
1967 If PARAM is present and non-nil, it replaces STRING as the object
1968 passed to FUNCTION (or `insert'); for example, if FUNCTION is
1969 `yank-rectangle', PARAM may be a list of strings to insert as a
1970 rectangle.
1971 If NOEXCLUDE is present and non-nil, the normal removal of the
1972 yank-excluded-properties is not performed; instead FUNCTION is
1973 responsible for removing those properties. This may be necessary
1974 if FUNCTION adjusts point before or after inserting the object.
1975 If UNDO is present and non-nil, it is a function that will be called
1976 by `yank-pop' to undo the insertion of the current object. It is
1977 called with two arguments, the start and end of the current region.
1978 FUNCTION may set `yank-undo-function' to override the UNDO value."
1979 (let* ((handler (and (stringp string)
1980 (get-text-property 0 'yank-handler string)))
1981 (param (or (nth 1 handler) string))
1982 (opoint (point)))
1983 (setq yank-undo-function t)
1984 (if (nth 0 handler) ;; FUNCTION
1985 (funcall (car handler) param)
1986 (insert param))
1987 (unless (nth 2 handler) ;; NOEXCLUDE
1988 (remove-yank-excluded-properties opoint (point)))
1989 (if (eq yank-undo-function t) ;; not set by FUNCTION
1990 (setq yank-undo-function (nth 3 handler))) ;; UNDO
1991 (if (nth 4 handler) ;; COMMAND
1992 (setq this-command (nth 4 handler)))))
1994 (defun insert-buffer-substring-no-properties (buffer &optional start end)
1995 "Insert before point a substring of BUFFER, without text properties.
1996 BUFFER may be a buffer or a buffer name.
1997 Arguments START and END are character positions specifying the substring.
1998 They default to the values of (point-min) and (point-max) in BUFFER."
1999 (let ((opoint (point)))
2000 (insert-buffer-substring buffer start end)
2001 (let ((inhibit-read-only t))
2002 (set-text-properties opoint (point) nil))))
2004 (defun insert-buffer-substring-as-yank (buffer &optional start end)
2005 "Insert before point a part of BUFFER, stripping some text properties.
2006 BUFFER may be a buffer or a buffer name.
2007 Arguments START and END are character positions specifying the substring.
2008 They default to the values of (point-min) and (point-max) in BUFFER.
2009 Strip text properties from the inserted text according to
2010 `yank-excluded-properties'."
2011 ;; Since the buffer text should not normally have yank-handler properties,
2012 ;; there is no need to handle them here.
2013 (let ((opoint (point)))
2014 (insert-buffer-substring buffer start end)
2015 (remove-yank-excluded-properties opoint (point))))
2018 ;;;; Synchronous shell commands.
2020 (defun start-process-shell-command (name buffer &rest args)
2021 "Start a program in a subprocess. Return the process object for it.
2022 NAME is name for process. It is modified if necessary to make it unique.
2023 BUFFER is the buffer (or buffer name) to associate with the process.
2024 Process output goes at end of that buffer, unless you specify
2025 an output stream or filter function to handle the output.
2026 BUFFER may be also nil, meaning that this process is not associated
2027 with any buffer
2028 COMMAND is the name of a shell command.
2029 Remaining arguments are the arguments for the command.
2030 Wildcards and redirection are handled as usual in the shell.
2032 \(fn NAME BUFFER COMMAND &rest COMMAND-ARGS)"
2033 (cond
2034 ((eq system-type 'vax-vms)
2035 (apply 'start-process name buffer args))
2036 ;; We used to use `exec' to replace the shell with the command,
2037 ;; but that failed to handle (...) and semicolon, etc.
2039 (start-process name buffer shell-file-name shell-command-switch
2040 (mapconcat 'identity args " ")))))
2042 (defun call-process-shell-command (command &optional infile buffer display
2043 &rest args)
2044 "Execute the shell command COMMAND synchronously in separate process.
2045 The remaining arguments are optional.
2046 The program's input comes from file INFILE (nil means `/dev/null').
2047 Insert output in BUFFER before point; t means current buffer;
2048 nil for BUFFER means discard it; 0 means discard and don't wait.
2049 BUFFER can also have the form (REAL-BUFFER STDERR-FILE); in that case,
2050 REAL-BUFFER says what to do with standard output, as above,
2051 while STDERR-FILE says what to do with standard error in the child.
2052 STDERR-FILE may be nil (discard standard error output),
2053 t (mix it with ordinary output), or a file name string.
2055 Fourth arg DISPLAY non-nil means redisplay buffer as output is inserted.
2056 Remaining arguments are strings passed as additional arguments for COMMAND.
2057 Wildcards and redirection are handled as usual in the shell.
2059 If BUFFER is 0, `call-process-shell-command' returns immediately with value nil.
2060 Otherwise it waits for COMMAND to terminate and returns a numeric exit
2061 status or a signal description string.
2062 If you quit, the process is killed with SIGINT, or SIGKILL if you quit again."
2063 (cond
2064 ((eq system-type 'vax-vms)
2065 (apply 'call-process command infile buffer display args))
2066 ;; We used to use `exec' to replace the shell with the command,
2067 ;; but that failed to handle (...) and semicolon, etc.
2069 (call-process shell-file-name
2070 infile buffer display
2071 shell-command-switch
2072 (mapconcat 'identity (cons command args) " ")))))
2074 ;;;; Lisp macros to do various things temporarily.
2076 (defmacro with-current-buffer (buffer &rest body)
2077 "Execute the forms in BODY with BUFFER as the current buffer.
2078 The value returned is the value of the last form in BODY.
2079 See also `with-temp-buffer'."
2080 (declare (indent 1) (debug t))
2081 `(save-current-buffer
2082 (set-buffer ,buffer)
2083 ,@body))
2085 (defmacro with-selected-window (window &rest body)
2086 "Execute the forms in BODY with WINDOW as the selected window.
2087 The value returned is the value of the last form in BODY.
2089 This macro saves and restores the current buffer, since otherwise
2090 its normal operation could potentially make a different
2091 buffer current. It does not alter the buffer list ordering.
2093 This macro saves and restores the selected window, as well as
2094 the selected window in each frame. If the previously selected
2095 window of some frame is no longer live at the end of BODY, that
2096 frame's selected window is left alone. If the selected window is
2097 no longer live, then whatever window is selected at the end of
2098 BODY remains selected.
2099 See also `with-temp-buffer'."
2100 (declare (indent 1) (debug t))
2101 ;; Most of this code is a copy of save-selected-window.
2102 `(let ((save-selected-window-window (selected-window))
2103 ;; It is necessary to save all of these, because calling
2104 ;; select-window changes frame-selected-window for whatever
2105 ;; frame that window is in.
2106 (save-selected-window-alist
2107 (mapcar (lambda (frame) (list frame (frame-selected-window frame)))
2108 (frame-list))))
2109 (save-current-buffer
2110 (unwind-protect
2111 (progn (select-window ,window 'norecord)
2112 ,@body)
2113 (dolist (elt save-selected-window-alist)
2114 (and (frame-live-p (car elt))
2115 (window-live-p (cadr elt))
2116 (set-frame-selected-window (car elt) (cadr elt))))
2117 (if (window-live-p save-selected-window-window)
2118 (select-window save-selected-window-window 'norecord))))))
2120 (defmacro with-temp-file (file &rest body)
2121 "Create a new buffer, evaluate BODY there, and write the buffer to FILE.
2122 The value returned is the value of the last form in BODY.
2123 See also `with-temp-buffer'."
2124 (declare (debug t))
2125 (let ((temp-file (make-symbol "temp-file"))
2126 (temp-buffer (make-symbol "temp-buffer")))
2127 `(let ((,temp-file ,file)
2128 (,temp-buffer
2129 (get-buffer-create (generate-new-buffer-name " *temp file*"))))
2130 (unwind-protect
2131 (prog1
2132 (with-current-buffer ,temp-buffer
2133 ,@body)
2134 (with-current-buffer ,temp-buffer
2135 (widen)
2136 (write-region (point-min) (point-max) ,temp-file nil 0)))
2137 (and (buffer-name ,temp-buffer)
2138 (kill-buffer ,temp-buffer))))))
2140 (defmacro with-temp-message (message &rest body)
2141 "Display MESSAGE temporarily if non-nil while BODY is evaluated.
2142 The original message is restored to the echo area after BODY has finished.
2143 The value returned is the value of the last form in BODY.
2144 MESSAGE is written to the message log buffer if `message-log-max' is non-nil.
2145 If MESSAGE is nil, the echo area and message log buffer are unchanged.
2146 Use a MESSAGE of \"\" to temporarily clear the echo area."
2147 (declare (debug t))
2148 (let ((current-message (make-symbol "current-message"))
2149 (temp-message (make-symbol "with-temp-message")))
2150 `(let ((,temp-message ,message)
2151 (,current-message))
2152 (unwind-protect
2153 (progn
2154 (when ,temp-message
2155 (setq ,current-message (current-message))
2156 (message "%s" ,temp-message))
2157 ,@body)
2158 (and ,temp-message
2159 (if ,current-message
2160 (message "%s" ,current-message)
2161 (message nil)))))))
2163 (defmacro with-temp-buffer (&rest body)
2164 "Create a temporary buffer, and evaluate BODY there like `progn'.
2165 See also `with-temp-file' and `with-output-to-string'."
2166 (declare (indent 0) (debug t))
2167 (let ((temp-buffer (make-symbol "temp-buffer")))
2168 `(let ((,temp-buffer (generate-new-buffer " *temp*")))
2169 (unwind-protect
2170 (with-current-buffer ,temp-buffer
2171 ,@body)
2172 (and (buffer-name ,temp-buffer)
2173 (kill-buffer ,temp-buffer))))))
2175 (defmacro with-output-to-string (&rest body)
2176 "Execute BODY, return the text it sent to `standard-output', as a string."
2177 (declare (indent 0) (debug t))
2178 `(let ((standard-output
2179 (get-buffer-create (generate-new-buffer-name " *string-output*"))))
2180 (let ((standard-output standard-output))
2181 ,@body)
2182 (with-current-buffer standard-output
2183 (prog1
2184 (buffer-string)
2185 (kill-buffer nil)))))
2187 (defmacro with-local-quit (&rest body)
2188 "Execute BODY, allowing quits to terminate BODY but not escape further.
2189 When a quit terminates BODY, `with-local-quit' returns nil but
2190 requests another quit. That quit will be processed, the next time quitting
2191 is allowed once again."
2192 (declare (debug t) (indent 0))
2193 `(condition-case nil
2194 (let ((inhibit-quit nil))
2195 ,@body)
2196 (quit (setq quit-flag t) nil)))
2198 (defmacro while-no-input (&rest body)
2199 "Execute BODY only as long as there's no pending input.
2200 If input arrives, that ends the execution of BODY,
2201 and `while-no-input' returns t. Quitting makes it return nil.
2202 If BODY finishes, `while-no-input' returns whatever value BODY produced."
2203 (declare (debug t) (indent 0))
2204 (let ((catch-sym (make-symbol "input")))
2205 `(with-local-quit
2206 (catch ',catch-sym
2207 (let ((throw-on-input ',catch-sym))
2208 (or (not (sit-for 0 0 t))
2209 ,@body))))))
2211 (defmacro combine-after-change-calls (&rest body)
2212 "Execute BODY, but don't call the after-change functions till the end.
2213 If BODY makes changes in the buffer, they are recorded
2214 and the functions on `after-change-functions' are called several times
2215 when BODY is finished.
2216 The return value is the value of the last form in BODY.
2218 If `before-change-functions' is non-nil, then calls to the after-change
2219 functions can't be deferred, so in that case this macro has no effect.
2221 Do not alter `after-change-functions' or `before-change-functions'
2222 in BODY."
2223 (declare (indent 0) (debug t))
2224 `(unwind-protect
2225 (let ((combine-after-change-calls t))
2226 . ,body)
2227 (combine-after-change-execute)))
2229 ;;;; Constructing completion tables.
2231 (defmacro dynamic-completion-table (fun)
2232 "Use function FUN as a dynamic completion table.
2233 FUN is called with one argument, the string for which completion is required,
2234 and it should return an alist containing all the intended possible
2235 completions. This alist may be a full list of possible completions so that FUN
2236 can ignore the value of its argument. If completion is performed in the
2237 minibuffer, FUN will be called in the buffer from which the minibuffer was
2238 entered.
2240 The result of the `dynamic-completion-table' form is a function
2241 that can be used as the ALIST argument to `try-completion' and
2242 `all-completion'. See Info node `(elisp)Programmed Completion'."
2243 (declare (debug (lambda-expr)))
2244 (let ((win (make-symbol "window"))
2245 (string (make-symbol "string"))
2246 (predicate (make-symbol "predicate"))
2247 (mode (make-symbol "mode")))
2248 `(lambda (,string ,predicate ,mode)
2249 (with-current-buffer (let ((,win (minibuffer-selected-window)))
2250 (if (window-live-p ,win) (window-buffer ,win)
2251 (current-buffer)))
2252 (cond
2253 ((eq ,mode t) (all-completions ,string (,fun ,string) ,predicate))
2254 ((not ,mode) (try-completion ,string (,fun ,string) ,predicate))
2255 (t (test-completion ,string (,fun ,string) ,predicate)))))))
2257 (defmacro lazy-completion-table (var fun)
2258 ;; We used to have `&rest args' where `args' were evaluated late (at the
2259 ;; time of the call to `fun'), which was counter intuitive. But to get
2260 ;; them to be evaluated early, we have to either use lexical-let (which is
2261 ;; not available in subr.el) or use `(lambda (,str) ...) which prevents the use
2262 ;; of lexical-let in the callers.
2263 ;; So we just removed the argument. Callers can then simply use either of:
2264 ;; (lazy-completion-table var (lambda () (fun x y)))
2265 ;; or
2266 ;; (lazy-completion-table var `(lambda () (fun ',x ',y)))
2267 ;; or
2268 ;; (lexical-let ((x x)) ((y y))
2269 ;; (lazy-completion-table var (lambda () (fun x y))))
2270 ;; depending on the behavior they want.
2271 "Initialize variable VAR as a lazy completion table.
2272 If the completion table VAR is used for the first time (e.g., by passing VAR
2273 as an argument to `try-completion'), the function FUN is called with no
2274 arguments. FUN must return the completion table that will be stored in VAR.
2275 If completion is requested in the minibuffer, FUN will be called in the buffer
2276 from which the minibuffer was entered. The return value of
2277 `lazy-completion-table' must be used to initialize the value of VAR."
2278 (declare (debug (symbol lambda-expr)))
2279 (let ((str (make-symbol "string")))
2280 `(dynamic-completion-table
2281 (lambda (,str)
2282 (when (functionp ,var)
2283 (setq ,var (,fun)))
2284 ,var))))
2286 (defmacro complete-in-turn (a b)
2287 "Create a completion table that first tries completion in A and then in B.
2288 A and B should not be costly (or side-effecting) expressions."
2289 (declare (debug (def-form def-form)))
2290 `(lambda (string predicate mode)
2291 (cond
2292 ((eq mode t)
2293 (or (all-completions string ,a predicate)
2294 (all-completions string ,b predicate)))
2295 ((eq mode nil)
2296 (or (try-completion string ,a predicate)
2297 (try-completion string ,b predicate)))
2299 (or (test-completion string ,a predicate)
2300 (test-completion string ,b predicate))))))
2302 ;;; Matching and match data.
2304 (defvar save-match-data-internal)
2306 ;; We use save-match-data-internal as the local variable because
2307 ;; that works ok in practice (people should not use that variable elsewhere).
2308 ;; We used to use an uninterned symbol; the compiler handles that properly
2309 ;; now, but it generates slower code.
2310 (defmacro save-match-data (&rest body)
2311 "Execute the BODY forms, restoring the global value of the match data.
2312 The value returned is the value of the last form in BODY."
2313 ;; It is better not to use backquote here,
2314 ;; because that makes a bootstrapping problem
2315 ;; if you need to recompile all the Lisp files using interpreted code.
2316 (declare (indent 0) (debug t))
2317 (list 'let
2318 '((save-match-data-internal (match-data)))
2319 (list 'unwind-protect
2320 (cons 'progn body)
2321 ;; It is safe to free (evaporate) markers immediately here,
2322 ;; as Lisp programs should not copy from save-match-data-internal.
2323 '(set-match-data save-match-data-internal 'evaporate))))
2325 (defun match-string (num &optional string)
2326 "Return string of text matched by last search.
2327 NUM specifies which parenthesized expression in the last regexp.
2328 Value is nil if NUMth pair didn't match, or there were less than NUM pairs.
2329 Zero means the entire text matched by the whole regexp or whole string.
2330 STRING should be given if the last search was by `string-match' on STRING."
2331 (if (match-beginning num)
2332 (if string
2333 (substring string (match-beginning num) (match-end num))
2334 (buffer-substring (match-beginning num) (match-end num)))))
2336 (defun match-string-no-properties (num &optional string)
2337 "Return string of text matched by last search, without text properties.
2338 NUM specifies which parenthesized expression in the last regexp.
2339 Value is nil if NUMth pair didn't match, or there were less than NUM pairs.
2340 Zero means the entire text matched by the whole regexp or whole string.
2341 STRING should be given if the last search was by `string-match' on STRING."
2342 (if (match-beginning num)
2343 (if string
2344 (substring-no-properties string (match-beginning num)
2345 (match-end num))
2346 (buffer-substring-no-properties (match-beginning num)
2347 (match-end num)))))
2349 (defun looking-back (regexp &optional limit greedy)
2350 "Return non-nil if text before point matches regular expression REGEXP.
2351 Like `looking-at' except matches before point, and is slower.
2352 LIMIT if non-nil speeds up the search by specifying how far back the
2353 match can start.
2355 If GREEDY is non-nil, extend the match backwards as far as possible,
2356 stopping when a single additional previous character cannot be part
2357 of a match for REGEXP."
2358 (let ((start (point))
2359 (pos
2360 (save-excursion
2361 (and (re-search-backward (concat "\\(?:" regexp "\\)\\=") limit t)
2362 (point)))))
2363 (if (and greedy pos)
2364 (save-restriction
2365 (narrow-to-region (point-min) start)
2366 (while (and (> pos (point-min))
2367 (save-excursion
2368 (goto-char pos)
2369 (backward-char 1)
2370 (looking-at (concat "\\(?:" regexp "\\)\\'"))))
2371 (setq pos (1- pos)))
2372 (save-excursion
2373 (goto-char pos)
2374 (looking-at (concat "\\(?:" regexp "\\)\\'")))))
2375 (not (null pos))))
2377 (defun subregexp-context-p (regexp pos &optional start)
2378 "Return non-nil if POS is in a normal subregexp context in REGEXP.
2379 A subregexp context is one where a sub-regexp can appear.
2380 A non-subregexp context is for example within brackets, or within a
2381 repetition bounds operator `\\=\\{...\\}', or right after a `\\'.
2382 If START is non-nil, it should be a position in REGEXP, smaller
2383 than POS, and known to be in a subregexp context."
2384 ;; Here's one possible implementation, with the great benefit that it
2385 ;; reuses the regexp-matcher's own parser, so it understands all the
2386 ;; details of the syntax. A disadvantage is that it needs to match the
2387 ;; error string.
2388 (condition-case err
2389 (progn
2390 (string-match (substring regexp (or start 0) pos) "")
2392 (invalid-regexp
2393 (not (member (cadr err) '("Unmatched [ or [^"
2394 "Unmatched \\{"
2395 "Trailing backslash")))))
2396 ;; An alternative implementation:
2397 ;; (defconst re-context-re
2398 ;; (let* ((harmless-ch "[^\\[]")
2399 ;; (harmless-esc "\\\\[^{]")
2400 ;; (class-harmless-ch "[^][]")
2401 ;; (class-lb-harmless "[^]:]")
2402 ;; (class-lb-colon-maybe-charclass ":\\([a-z]+:]\\)?")
2403 ;; (class-lb (concat "\\[\\(" class-lb-harmless
2404 ;; "\\|" class-lb-colon-maybe-charclass "\\)"))
2405 ;; (class
2406 ;; (concat "\\[^?]?"
2407 ;; "\\(" class-harmless-ch
2408 ;; "\\|" class-lb "\\)*"
2409 ;; "\\[?]")) ; special handling for bare [ at end of re
2410 ;; (braces "\\\\{[0-9,]+\\\\}"))
2411 ;; (concat "\\`\\(" harmless-ch "\\|" harmless-esc
2412 ;; "\\|" class "\\|" braces "\\)*\\'"))
2413 ;; "Matches any prefix that corresponds to a normal subregexp context.")
2414 ;; (string-match re-context-re (substring regexp (or start 0) pos))
2417 ;;;; split-string
2419 (defconst split-string-default-separators "[ \f\t\n\r\v]+"
2420 "The default value of separators for `split-string'.
2422 A regexp matching strings of whitespace. May be locale-dependent
2423 \(as yet unimplemented). Should not match non-breaking spaces.
2425 Warning: binding this to a different value and using it as default is
2426 likely to have undesired semantics.")
2428 ;; The specification says that if both SEPARATORS and OMIT-NULLS are
2429 ;; defaulted, OMIT-NULLS should be treated as t. Simplifying the logical
2430 ;; expression leads to the equivalent implementation that if SEPARATORS
2431 ;; is defaulted, OMIT-NULLS is treated as t.
2432 (defun split-string (string &optional separators omit-nulls)
2433 "Split STRING into substrings bounded by matches for SEPARATORS.
2435 The beginning and end of STRING, and each match for SEPARATORS, are
2436 splitting points. The substrings matching SEPARATORS are removed, and
2437 the substrings between the splitting points are collected as a list,
2438 which is returned.
2440 If SEPARATORS is non-nil, it should be a regular expression matching text
2441 which separates, but is not part of, the substrings. If nil it defaults to
2442 `split-string-default-separators', normally \"[ \\f\\t\\n\\r\\v]+\", and
2443 OMIT-NULLS is forced to t.
2445 If OMIT-NULLS is t, zero-length substrings are omitted from the list \(so
2446 that for the default value of SEPARATORS leading and trailing whitespace
2447 are effectively trimmed). If nil, all zero-length substrings are retained,
2448 which correctly parses CSV format, for example.
2450 Note that the effect of `(split-string STRING)' is the same as
2451 `(split-string STRING split-string-default-separators t)'). In the rare
2452 case that you wish to retain zero-length substrings when splitting on
2453 whitespace, use `(split-string STRING split-string-default-separators)'.
2455 Modifies the match data; use `save-match-data' if necessary."
2456 (let ((keep-nulls (not (if separators omit-nulls t)))
2457 (rexp (or separators split-string-default-separators))
2458 (start 0)
2459 notfirst
2460 (list nil))
2461 (while (and (string-match rexp string
2462 (if (and notfirst
2463 (= start (match-beginning 0))
2464 (< start (length string)))
2465 (1+ start) start))
2466 (< start (length string)))
2467 (setq notfirst t)
2468 (if (or keep-nulls (< start (match-beginning 0)))
2469 (setq list
2470 (cons (substring string start (match-beginning 0))
2471 list)))
2472 (setq start (match-end 0)))
2473 (if (or keep-nulls (< start (length string)))
2474 (setq list
2475 (cons (substring string start)
2476 list)))
2477 (nreverse list)))
2479 ;;;; Replacement in strings.
2481 (defun subst-char-in-string (fromchar tochar string &optional inplace)
2482 "Replace FROMCHAR with TOCHAR in STRING each time it occurs.
2483 Unless optional argument INPLACE is non-nil, return a new string."
2484 (let ((i (length string))
2485 (newstr (if inplace string (copy-sequence string))))
2486 (while (> i 0)
2487 (setq i (1- i))
2488 (if (eq (aref newstr i) fromchar)
2489 (aset newstr i tochar)))
2490 newstr))
2492 (defun replace-regexp-in-string (regexp rep string &optional
2493 fixedcase literal subexp start)
2494 "Replace all matches for REGEXP with REP in STRING.
2496 Return a new string containing the replacements.
2498 Optional arguments FIXEDCASE, LITERAL and SUBEXP are like the
2499 arguments with the same names of function `replace-match'. If START
2500 is non-nil, start replacements at that index in STRING.
2502 REP is either a string used as the NEWTEXT arg of `replace-match' or a
2503 function. If it is a function, it is called with the actual text of each
2504 match, and its value is used as the replacement text. When REP is called,
2505 the match-data are the result of matching REGEXP against a substring
2506 of STRING.
2508 To replace only the first match (if any), make REGEXP match up to \\'
2509 and replace a sub-expression, e.g.
2510 (replace-regexp-in-string \"\\\\(foo\\\\).*\\\\'\" \"bar\" \" foo foo\" nil nil 1)
2511 => \" bar foo\"
2514 ;; To avoid excessive consing from multiple matches in long strings,
2515 ;; don't just call `replace-match' continually. Walk down the
2516 ;; string looking for matches of REGEXP and building up a (reversed)
2517 ;; list MATCHES. This comprises segments of STRING which weren't
2518 ;; matched interspersed with replacements for segments that were.
2519 ;; [For a `large' number of replacements it's more efficient to
2520 ;; operate in a temporary buffer; we can't tell from the function's
2521 ;; args whether to choose the buffer-based implementation, though it
2522 ;; might be reasonable to do so for long enough STRING.]
2523 (let ((l (length string))
2524 (start (or start 0))
2525 matches str mb me)
2526 (save-match-data
2527 (while (and (< start l) (string-match regexp string start))
2528 (setq mb (match-beginning 0)
2529 me (match-end 0))
2530 ;; If we matched the empty string, make sure we advance by one char
2531 (when (= me mb) (setq me (min l (1+ mb))))
2532 ;; Generate a replacement for the matched substring.
2533 ;; Operate only on the substring to minimize string consing.
2534 ;; Set up match data for the substring for replacement;
2535 ;; presumably this is likely to be faster than munging the
2536 ;; match data directly in Lisp.
2537 (string-match regexp (setq str (substring string mb me)))
2538 (setq matches
2539 (cons (replace-match (if (stringp rep)
2541 (funcall rep (match-string 0 str)))
2542 fixedcase literal str subexp)
2543 (cons (substring string start mb) ; unmatched prefix
2544 matches)))
2545 (setq start me))
2546 ;; Reconstruct a string from the pieces.
2547 (setq matches (cons (substring string start l) matches)) ; leftover
2548 (apply #'concat (nreverse matches)))))
2550 ;;;; invisibility specs
2552 (defun add-to-invisibility-spec (element)
2553 "Add ELEMENT to `buffer-invisibility-spec'.
2554 See documentation for `buffer-invisibility-spec' for the kind of elements
2555 that can be added."
2556 (if (eq buffer-invisibility-spec t)
2557 (setq buffer-invisibility-spec (list t)))
2558 (setq buffer-invisibility-spec
2559 (cons element buffer-invisibility-spec)))
2561 (defun remove-from-invisibility-spec (element)
2562 "Remove ELEMENT from `buffer-invisibility-spec'."
2563 (if (consp buffer-invisibility-spec)
2564 (setq buffer-invisibility-spec (delete element buffer-invisibility-spec))))
2566 ;;;; Syntax tables.
2568 (defmacro with-syntax-table (table &rest body)
2569 "Evaluate BODY with syntax table of current buffer set to TABLE.
2570 The syntax table of the current buffer is saved, BODY is evaluated, and the
2571 saved table is restored, even in case of an abnormal exit.
2572 Value is what BODY returns."
2573 (declare (debug t))
2574 (let ((old-table (make-symbol "table"))
2575 (old-buffer (make-symbol "buffer")))
2576 `(let ((,old-table (syntax-table))
2577 (,old-buffer (current-buffer)))
2578 (unwind-protect
2579 (progn
2580 (set-syntax-table ,table)
2581 ,@body)
2582 (save-current-buffer
2583 (set-buffer ,old-buffer)
2584 (set-syntax-table ,old-table))))))
2586 (defun make-syntax-table (&optional oldtable)
2587 "Return a new syntax table.
2588 Create a syntax table which inherits from OLDTABLE (if non-nil) or
2589 from `standard-syntax-table' otherwise."
2590 (let ((table (make-char-table 'syntax-table nil)))
2591 (set-char-table-parent table (or oldtable (standard-syntax-table)))
2592 table))
2594 (defun syntax-after (pos)
2595 "Return the raw syntax of the char after POS.
2596 If POS is outside the buffer's accessible portion, return nil."
2597 (unless (or (< pos (point-min)) (>= pos (point-max)))
2598 (let ((st (if parse-sexp-lookup-properties
2599 (get-char-property pos 'syntax-table))))
2600 (if (consp st) st
2601 (aref (or st (syntax-table)) (char-after pos))))))
2603 (defun syntax-class (syntax)
2604 "Return the syntax class part of the syntax descriptor SYNTAX.
2605 If SYNTAX is nil, return nil."
2606 (and syntax (logand (car syntax) 65535)))
2608 ;;;; Text clones
2610 (defun text-clone-maintain (ol1 after beg end &optional len)
2611 "Propagate the changes made under the overlay OL1 to the other clones.
2612 This is used on the `modification-hooks' property of text clones."
2613 (when (and after (not undo-in-progress) (overlay-start ol1))
2614 (let ((margin (if (overlay-get ol1 'text-clone-spreadp) 1 0)))
2615 (setq beg (max beg (+ (overlay-start ol1) margin)))
2616 (setq end (min end (- (overlay-end ol1) margin)))
2617 (when (<= beg end)
2618 (save-excursion
2619 (when (overlay-get ol1 'text-clone-syntax)
2620 ;; Check content of the clone's text.
2621 (let ((cbeg (+ (overlay-start ol1) margin))
2622 (cend (- (overlay-end ol1) margin)))
2623 (goto-char cbeg)
2624 (save-match-data
2625 (if (not (re-search-forward
2626 (overlay-get ol1 'text-clone-syntax) cend t))
2627 ;; Mark the overlay for deletion.
2628 (overlay-put ol1 'text-clones nil)
2629 (when (< (match-end 0) cend)
2630 ;; Shrink the clone at its end.
2631 (setq end (min end (match-end 0)))
2632 (move-overlay ol1 (overlay-start ol1)
2633 (+ (match-end 0) margin)))
2634 (when (> (match-beginning 0) cbeg)
2635 ;; Shrink the clone at its beginning.
2636 (setq beg (max (match-beginning 0) beg))
2637 (move-overlay ol1 (- (match-beginning 0) margin)
2638 (overlay-end ol1)))))))
2639 ;; Now go ahead and update the clones.
2640 (let ((head (- beg (overlay-start ol1)))
2641 (tail (- (overlay-end ol1) end))
2642 (str (buffer-substring beg end))
2643 (nothing-left t)
2644 (inhibit-modification-hooks t))
2645 (dolist (ol2 (overlay-get ol1 'text-clones))
2646 (let ((oe (overlay-end ol2)))
2647 (unless (or (eq ol1 ol2) (null oe))
2648 (setq nothing-left nil)
2649 (let ((mod-beg (+ (overlay-start ol2) head)))
2650 ;;(overlay-put ol2 'modification-hooks nil)
2651 (goto-char (- (overlay-end ol2) tail))
2652 (unless (> mod-beg (point))
2653 (save-excursion (insert str))
2654 (delete-region mod-beg (point)))
2655 ;;(overlay-put ol2 'modification-hooks '(text-clone-maintain))
2656 ))))
2657 (if nothing-left (delete-overlay ol1))))))))
2659 (defun text-clone-create (start end &optional spreadp syntax)
2660 "Create a text clone of START...END at point.
2661 Text clones are chunks of text that are automatically kept identical:
2662 changes done to one of the clones will be immediately propagated to the other.
2664 The buffer's content at point is assumed to be already identical to
2665 the one between START and END.
2666 If SYNTAX is provided it's a regexp that describes the possible text of
2667 the clones; the clone will be shrunk or killed if necessary to ensure that
2668 its text matches the regexp.
2669 If SPREADP is non-nil it indicates that text inserted before/after the
2670 clone should be incorporated in the clone."
2671 ;; To deal with SPREADP we can either use an overlay with `nil t' along
2672 ;; with insert-(behind|in-front-of)-hooks or use a slightly larger overlay
2673 ;; (with a one-char margin at each end) with `t nil'.
2674 ;; We opted for a larger overlay because it behaves better in the case
2675 ;; where the clone is reduced to the empty string (we want the overlay to
2676 ;; stay when the clone's content is the empty string and we want to use
2677 ;; `evaporate' to make sure those overlays get deleted when needed).
2679 (let* ((pt-end (+ (point) (- end start)))
2680 (start-margin (if (or (not spreadp) (bobp) (<= start (point-min)))
2681 0 1))
2682 (end-margin (if (or (not spreadp)
2683 (>= pt-end (point-max))
2684 (>= start (point-max)))
2685 0 1))
2686 (ol1 (make-overlay (- start start-margin) (+ end end-margin) nil t))
2687 (ol2 (make-overlay (- (point) start-margin) (+ pt-end end-margin) nil t))
2688 (dups (list ol1 ol2)))
2689 (overlay-put ol1 'modification-hooks '(text-clone-maintain))
2690 (when spreadp (overlay-put ol1 'text-clone-spreadp t))
2691 (when syntax (overlay-put ol1 'text-clone-syntax syntax))
2692 ;;(overlay-put ol1 'face 'underline)
2693 (overlay-put ol1 'evaporate t)
2694 (overlay-put ol1 'text-clones dups)
2696 (overlay-put ol2 'modification-hooks '(text-clone-maintain))
2697 (when spreadp (overlay-put ol2 'text-clone-spreadp t))
2698 (when syntax (overlay-put ol2 'text-clone-syntax syntax))
2699 ;;(overlay-put ol2 'face 'underline)
2700 (overlay-put ol2 'evaporate t)
2701 (overlay-put ol2 'text-clones dups)))
2703 ;;;; Mail user agents.
2705 ;; Here we include just enough for other packages to be able
2706 ;; to define them.
2708 (defun define-mail-user-agent (symbol composefunc sendfunc
2709 &optional abortfunc hookvar)
2710 "Define a symbol to identify a mail-sending package for `mail-user-agent'.
2712 SYMBOL can be any Lisp symbol. Its function definition and/or
2713 value as a variable do not matter for this usage; we use only certain
2714 properties on its property list, to encode the rest of the arguments.
2716 COMPOSEFUNC is program callable function that composes an outgoing
2717 mail message buffer. This function should set up the basics of the
2718 buffer without requiring user interaction. It should populate the
2719 standard mail headers, leaving the `to:' and `subject:' headers blank
2720 by default.
2722 COMPOSEFUNC should accept several optional arguments--the same
2723 arguments that `compose-mail' takes. See that function's documentation.
2725 SENDFUNC is the command a user would run to send the message.
2727 Optional ABORTFUNC is the command a user would run to abort the
2728 message. For mail packages that don't have a separate abort function,
2729 this can be `kill-buffer' (the equivalent of omitting this argument).
2731 Optional HOOKVAR is a hook variable that gets run before the message
2732 is actually sent. Callers that use the `mail-user-agent' may
2733 install a hook function temporarily on this hook variable.
2734 If HOOKVAR is nil, `mail-send-hook' is used.
2736 The properties used on SYMBOL are `composefunc', `sendfunc',
2737 `abortfunc', and `hookvar'."
2738 (put symbol 'composefunc composefunc)
2739 (put symbol 'sendfunc sendfunc)
2740 (put symbol 'abortfunc (or abortfunc 'kill-buffer))
2741 (put symbol 'hookvar (or hookvar 'mail-send-hook)))
2743 ;;;; Progress reporters.
2745 ;; Progress reporter has the following structure:
2747 ;; (NEXT-UPDATE-VALUE . [NEXT-UPDATE-TIME
2748 ;; MIN-VALUE
2749 ;; MAX-VALUE
2750 ;; MESSAGE
2751 ;; MIN-CHANGE
2752 ;; MIN-TIME])
2754 ;; This weirdeness is for optimization reasons: we want
2755 ;; `progress-reporter-update' to be as fast as possible, so
2756 ;; `(car reporter)' is better than `(aref reporter 0)'.
2758 ;; NEXT-UPDATE-TIME is a float. While `float-time' loses a couple
2759 ;; digits of precision, it doesn't really matter here. On the other
2760 ;; hand, it greatly simplifies the code.
2762 (defsubst progress-reporter-update (reporter value)
2763 "Report progress of an operation in the echo area.
2764 However, if the change since last echo area update is too small
2765 or not enough time has passed, then do nothing (see
2766 `make-progress-reporter' for details).
2768 First parameter, REPORTER, should be the result of a call to
2769 `make-progress-reporter'. Second, VALUE, determines the actual
2770 progress of operation; it must be between MIN-VALUE and MAX-VALUE
2771 as passed to `make-progress-reporter'.
2773 This function is very inexpensive, you may not bother how often
2774 you call it."
2775 (when (>= value (car reporter))
2776 (progress-reporter-do-update reporter value)))
2778 (defun make-progress-reporter (message min-value max-value
2779 &optional current-value
2780 min-change min-time)
2781 "Return progress reporter object to be used with `progress-reporter-update'.
2783 MESSAGE is shown in the echo area. When at least 1% of operation
2784 is complete, the exact percentage will be appended to the
2785 MESSAGE. When you call `progress-reporter-done', word \"done\"
2786 is printed after the MESSAGE. You can change MESSAGE of an
2787 existing progress reporter with `progress-reporter-force-update'.
2789 MIN-VALUE and MAX-VALUE designate starting (0% complete) and
2790 final (100% complete) states of operation. The latter should be
2791 larger; if this is not the case, then simply negate all values.
2792 Optional CURRENT-VALUE specifies the progress by the moment you
2793 call this function. You should omit it or set it to nil in most
2794 cases since it defaults to MIN-VALUE.
2796 Optional MIN-CHANGE determines the minimal change in percents to
2797 report (default is 1%.) Optional MIN-TIME specifies the minimal
2798 time before echo area updates (default is 0.2 seconds.) If
2799 `float-time' function is not present, then time is not tracked
2800 at all. If OS is not capable of measuring fractions of seconds,
2801 then this parameter is effectively rounded up."
2803 (unless min-time
2804 (setq min-time 0.2))
2805 (let ((reporter
2806 (cons min-value ;; Force a call to `message' now
2807 (vector (if (and (fboundp 'float-time)
2808 (>= min-time 0.02))
2809 (float-time) nil)
2810 min-value
2811 max-value
2812 message
2813 (if min-change (max (min min-change 50) 1) 1)
2814 min-time))))
2815 (progress-reporter-update reporter (or current-value min-value))
2816 reporter))
2818 (defun progress-reporter-force-update (reporter value &optional new-message)
2819 "Report progress of an operation in the echo area unconditionally.
2821 First two parameters are the same as for
2822 `progress-reporter-update'. Optional NEW-MESSAGE allows you to
2823 change the displayed message."
2824 (let ((parameters (cdr reporter)))
2825 (when new-message
2826 (aset parameters 3 new-message))
2827 (when (aref parameters 0)
2828 (aset parameters 0 (float-time)))
2829 (progress-reporter-do-update reporter value)))
2831 (defun progress-reporter-do-update (reporter value)
2832 (let* ((parameters (cdr reporter))
2833 (min-value (aref parameters 1))
2834 (max-value (aref parameters 2))
2835 (one-percent (/ (- max-value min-value) 100.0))
2836 (percentage (if (= max-value min-value)
2838 (truncate (/ (- value min-value) one-percent))))
2839 (update-time (aref parameters 0))
2840 (current-time (float-time))
2841 (enough-time-passed
2842 ;; See if enough time has passed since the last update.
2843 (or (not update-time)
2844 (when (>= current-time update-time)
2845 ;; Calculate time for the next update
2846 (aset parameters 0 (+ update-time (aref parameters 5)))))))
2848 ;; Calculate NEXT-UPDATE-VALUE. If we are not going to print
2849 ;; message this time because not enough time has passed, then use
2850 ;; 1 instead of MIN-CHANGE. This makes delays between echo area
2851 ;; updates closer to MIN-TIME.
2852 (setcar reporter
2853 (min (+ min-value (* (+ percentage
2854 (if enough-time-passed
2855 (aref parameters 4) ;; MIN-CHANGE
2857 one-percent))
2858 max-value))
2859 (when (integerp value)
2860 (setcar reporter (ceiling (car reporter))))
2862 ;; Only print message if enough time has passed
2863 (when enough-time-passed
2864 (if (> percentage 0)
2865 (message "%s%d%%" (aref parameters 3) percentage)
2866 (message "%s" (aref parameters 3))))))
2868 (defun progress-reporter-done (reporter)
2869 "Print reporter's message followed by word \"done\" in echo area."
2870 (message "%sdone" (aref (cdr reporter) 3)))
2872 (defmacro dotimes-with-progress-reporter (spec message &rest body)
2873 "Loop a certain number of times and report progress in the echo area.
2874 Evaluate BODY with VAR bound to successive integers running from
2875 0, inclusive, to COUNT, exclusive. Then evaluate RESULT to get
2876 the return value (nil if RESULT is omitted).
2878 At each iteration MESSAGE followed by progress percentage is
2879 printed in the echo area. After the loop is finished, MESSAGE
2880 followed by word \"done\" is printed. This macro is a
2881 convenience wrapper around `make-progress-reporter' and friends.
2883 \(fn (VAR COUNT [RESULT]) MESSAGE BODY...)"
2884 (declare (indent 2) (debug ((symbolp form &optional form) form body)))
2885 (let ((temp (make-symbol "--dotimes-temp--"))
2886 (temp2 (make-symbol "--dotimes-temp2--"))
2887 (start 0)
2888 (end (nth 1 spec)))
2889 `(let ((,temp ,end)
2890 (,(car spec) ,start)
2891 (,temp2 (make-progress-reporter ,message ,start ,end)))
2892 (while (< ,(car spec) ,temp)
2893 ,@body
2894 (progress-reporter-update ,temp2
2895 (setq ,(car spec) (1+ ,(car spec)))))
2896 (progress-reporter-done ,temp2)
2897 nil ,@(cdr (cdr spec)))))
2900 ;;;; Comparing version strings.
2902 (defvar version-separator "."
2903 "*Specify the string used to separate the version elements.
2905 Usually the separator is \".\", but it can be any other string.")
2908 (defvar version-regexp-alist
2909 '(("^[-_+ ]?a\\(lpha\\)?$" . -3)
2910 ("^[-_+]$" . -3) ; treat "1.2.3-20050920" and "1.2-3" as alpha releases
2911 ("^[-_+ ]cvs$" . -3) ; treat "1.2.3-CVS" as alpha release
2912 ("^[-_+ ]?b\\(eta\\)?$" . -2)
2913 ("^[-_+ ]?\\(pre\\|rc\\)$" . -1))
2914 "*Specify association between non-numeric version part and a priority.
2916 This association is used to handle version string like \"1.0pre2\",
2917 \"0.9alpha1\", etc. It's used by `version-to-list' (which see) to convert the
2918 non-numeric part to an integer. For example:
2920 String Version Integer List Version
2921 \"1.0pre2\" (1 0 -1 2)
2922 \"1.0PRE2\" (1 0 -1 2)
2923 \"22.8beta3\" (22 8 -2 3)
2924 \"22.8 Beta3\" (22 8 -2 3)
2925 \"0.9alpha1\" (0 9 -3 1)
2926 \"0.9AlphA1\" (0 9 -3 1)
2927 \"0.9 alpha\" (0 9 -3)
2929 Each element has the following form:
2931 (REGEXP . PRIORITY)
2933 Where:
2935 REGEXP regexp used to match non-numeric part of a version string.
2936 It should begin with a `^' anchor and end with a `$' to
2937 prevent false hits. Letter-case is ignored while matching
2938 REGEXP.
2940 PRIORITY negative integer which indicate the non-numeric priority.")
2943 (defun version-to-list (ver)
2944 "Convert version string VER into an integer list.
2946 The version syntax is given by the following EBNF:
2948 VERSION ::= NUMBER ( SEPARATOR NUMBER )*.
2950 NUMBER ::= (0|1|2|3|4|5|6|7|8|9)+.
2952 SEPARATOR ::= `version-separator' (which see)
2953 | `version-regexp-alist' (which see).
2955 The NUMBER part is optional if SEPARATOR is a match for an element
2956 in `version-regexp-alist'.
2958 As an example of valid version syntax:
2960 1.0pre2 1.0.7.5 22.8beta3 0.9alpha1 6.9.30Beta
2962 As an example of invalid version syntax:
2964 1.0prepre2 1.0..7.5 22.8X3 alpha3.2 .5
2966 As an example of version convertion:
2968 String Version Integer List Version
2969 \"1.0.7.5\" (1 0 7 5)
2970 \"1.0pre2\" (1 0 -1 2)
2971 \"1.0PRE2\" (1 0 -1 2)
2972 \"22.8beta3\" (22 8 -2 3)
2973 \"22.8Beta3\" (22 8 -2 3)
2974 \"0.9alpha1\" (0 9 -3 1)
2975 \"0.9AlphA1\" (0 9 -3 1)
2976 \"0.9alpha\" (0 9 -3)
2978 See documentation for `version-separator' and `version-regexp-alist'."
2979 (or (and (stringp ver) (> (length ver) 0))
2980 (error "Invalid version string: '%s'" ver))
2981 ;; Change .x.y to 0.x.y
2982 (if (and (>= (length ver) (length version-separator))
2983 (string-equal (substring ver 0 (length version-separator))
2984 version-separator))
2985 (setq ver (concat "0" ver)))
2986 (save-match-data
2987 (let ((i 0)
2988 (case-fold-search t) ; ignore case in matching
2989 lst s al)
2990 (while (and (setq s (string-match "[0-9]+" ver i))
2991 (= s i))
2992 ;; handle numeric part
2993 (setq lst (cons (string-to-number (substring ver i (match-end 0)))
2994 lst)
2995 i (match-end 0))
2996 ;; handle non-numeric part
2997 (when (and (setq s (string-match "[^0-9]+" ver i))
2998 (= s i))
2999 (setq s (substring ver i (match-end 0))
3000 i (match-end 0))
3001 ;; handle alpha, beta, pre, etc. separator
3002 (unless (string= s version-separator)
3003 (setq al version-regexp-alist)
3004 (while (and al (not (string-match (caar al) s)))
3005 (setq al (cdr al)))
3006 (or al (error "Invalid version syntax: '%s'" ver))
3007 (setq lst (cons (cdar al) lst)))))
3008 (if (null lst)
3009 (error "Invalid version syntax: '%s'" ver)
3010 (nreverse lst)))))
3013 (defun version-list-< (l1 l2)
3014 "Return t if integer list L1 is lesser than L2.
3016 Note that integer list (1) is equal to (1 0), (1 0 0), (1 0 0 0),
3017 etc. That is, the trailing zeroes are irrelevant. Also, integer
3018 list (1) is greater than (1 -1) which is greater than (1 -2)
3019 which is greater than (1 -3)."
3020 (while (and l1 l2 (= (car l1) (car l2)))
3021 (setq l1 (cdr l1)
3022 l2 (cdr l2)))
3023 (cond
3024 ;; l1 not null and l2 not null
3025 ((and l1 l2) (< (car l1) (car l2)))
3026 ;; l1 null and l2 null ==> l1 length = l2 length
3027 ((and (null l1) (null l2)) nil)
3028 ;; l1 not null and l2 null ==> l1 length > l2 length
3029 (l1 (< (version-list-not-zero l1) 0))
3030 ;; l1 null and l2 not null ==> l2 length > l1 length
3031 (t (< 0 (version-list-not-zero l2)))))
3034 (defun version-list-= (l1 l2)
3035 "Return t if integer list L1 is equal to L2.
3037 Note that integer list (1) is equal to (1 0), (1 0 0), (1 0 0 0),
3038 etc. That is, the trailing zeroes are irrelevant. Also, integer
3039 list (1) is greater than (1 -1) which is greater than (1 -2)
3040 which is greater than (1 -3)."
3041 (while (and l1 l2 (= (car l1) (car l2)))
3042 (setq l1 (cdr l1)
3043 l2 (cdr l2)))
3044 (cond
3045 ;; l1 not null and l2 not null
3046 ((and l1 l2) nil)
3047 ;; l1 null and l2 null ==> l1 length = l2 length
3048 ((and (null l1) (null l2)))
3049 ;; l1 not null and l2 null ==> l1 length > l2 length
3050 (l1 (zerop (version-list-not-zero l1)))
3051 ;; l1 null and l2 not null ==> l2 length > l1 length
3052 (t (zerop (version-list-not-zero l2)))))
3055 (defun version-list-<= (l1 l2)
3056 "Return t if integer list L1 is lesser than or equal to L2.
3058 Note that integer list (1) is equal to (1 0), (1 0 0), (1 0 0 0),
3059 etc. That is, the trailing zeroes are irrelevant. Also, integer
3060 list (1) is greater than (1 -1) which is greater than (1 -2)
3061 which is greater than (1 -3)."
3062 (while (and l1 l2 (= (car l1) (car l2)))
3063 (setq l1 (cdr l1)
3064 l2 (cdr l2)))
3065 (cond
3066 ;; l1 not null and l2 not null
3067 ((and l1 l2) (< (car l1) (car l2)))
3068 ;; l1 null and l2 null ==> l1 length = l2 length
3069 ((and (null l1) (null l2)))
3070 ;; l1 not null and l2 null ==> l1 length > l2 length
3071 (l1 (<= (version-list-not-zero l1) 0))
3072 ;; l1 null and l2 not null ==> l2 length > l1 length
3073 (t (<= 0 (version-list-not-zero l2)))))
3075 (defun version-list-not-zero (lst)
3076 "Return the first non-zero element of integer list LST.
3078 If all LST elements are zeroes or LST is nil, return zero."
3079 (while (and lst (zerop (car lst)))
3080 (setq lst (cdr lst)))
3081 (if lst
3082 (car lst)
3083 ;; there is no element different of zero
3087 (defun version< (v1 v2)
3088 "Return t if version V1 is lesser than V2.
3090 Note that version string \"1\" is equal to \"1.0\", \"1.0.0\", \"1.0.0.0\",
3091 etc. That is, the trailing \".0\"s are irrelevant. Also, version string \"1\"
3092 is greater than \"1pre\" which is greater than \"1beta\" which is greater than
3093 \"1alpha\"."
3094 (version-list-< (version-to-list v1) (version-to-list v2)))
3097 (defun version<= (v1 v2)
3098 "Return t if version V1 is lesser than or equal to V2.
3100 Note that version string \"1\" is equal to \"1.0\", \"1.0.0\", \"1.0.0.0\",
3101 etc. That is, the trailing \".0\"s are irrelevant. Also, version string \"1\"
3102 is greater than \"1pre\" which is greater than \"1beta\" which is greater than
3103 \"1alpha\"."
3104 (version-list-<= (version-to-list v1) (version-to-list v2)))
3106 (defun version= (v1 v2)
3107 "Return t if version V1 is equal to V2.
3109 Note that version string \"1\" is equal to \"1.0\", \"1.0.0\", \"1.0.0.0\",
3110 etc. That is, the trailing \".0\"s are irrelevant. Also, version string \"1\"
3111 is greater than \"1pre\" which is greater than \"1beta\" which is greater than
3112 \"1alpha\"."
3113 (version-list-= (version-to-list v1) (version-to-list v2)))
3117 ;; arch-tag: f7e0e6e5-70aa-4897-ae72-7a3511ec40bc
3118 ;;; subr.el ends here