Warn against using `length' to compute display width of a string.
[emacs.git] / lisp / repeat.el
blob94efc717be5fbeb49c41a4e93becb10dccfe9997
1 ;;; repeat.el --- convenient way to repeat the previous command
3 ;; Copyright (C) 1998, 2001-2012 Free Software Foundation, Inc.
5 ;; Author: Will Mengarini <seldon@eskimo.com>
6 ;; Created: Mo 02 Mar 98
7 ;; Version: 0.51
8 ;; Keywords: convenience, vi, repeat
10 ;; This file is part of GNU Emacs.
12 ;; GNU Emacs is free software: you can redistribute it and/or modify
13 ;; it under the terms of the GNU General Public License as published by
14 ;; the Free Software Foundation, either version 3 of the License, or
15 ;; (at your option) any later version.
17 ;; GNU Emacs is distributed in the hope that it will be useful,
18 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
19 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 ;; GNU General Public License for more details.
22 ;; You should have received a copy of the GNU General Public License
23 ;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
25 ;;; Commentary:
27 ;; Sometimes the fastest way to get something done is just to lean on a key;
28 ;; moving forward through a series of words by leaning on M-f is an example.
29 ;; But 'forward-page is orthodoxly bound to C-x ], so moving forward through
30 ;; several pages requires
31 ;; Loop until desired page is reached:
32 ;; Hold down control key with left pinkie.
33 ;; Tap <x>.
34 ;; Lift left pinkie off control key.
35 ;; Tap <]>.
36 ;; This is a pain in the ass.
38 ;; This package defines a command that repeats the preceding command,
39 ;; whatever that was, including its arguments, whatever they were.
40 ;; This command is connected to the key C-x z.
41 ;; To repeat the previous command once, type C-x z.
42 ;; To repeat it a second time immediately after, type just z.
43 ;; By typing z again and again, you can repeat the command over and over.
45 ;; This works correctly inside a keyboard macro as far as recording and
46 ;; playback go, but `edit-kbd-macro' gets it wrong. That shouldn't really
47 ;; matter; if you need to edit something like
48 ;; C-x ] ;; forward-page
49 ;; C-x z ;; repeat
50 ;; zz ;; self-insert-command * 2
51 ;; C-x ;; Control-X-prefix
52 ;; you can just kill the bogus final 2 lines, then duplicate the repeat line
53 ;; as many times as it's really needed. Also, `edit-kbd-macro' works
54 ;; correctly if `repeat' is invoked through a rebinding to a single keystroke
55 ;; and the global variable repeat-on-final-keystroke is set to a value
56 ;; that doesn't include that keystroke. For example, the lines
57 ;; (global-set-key "\C-z" 'repeat)
58 ;; (setq repeat-on-final-keystroke "z")
59 ;; in your .emacs would allow `edit-kbd-macro' to work correctly when C-z was
60 ;; used in a keyboard macro to invoke `repeat', but would still allow C-x z
61 ;; to be used for `repeat' elsewhere. The real reason for documenting this
62 ;; isn't that anybody would need it for the `edit-kbd-macro' problem, but
63 ;; that there might be other unexpected ramifications of re-executing on
64 ;; repetitions of the final keystroke, and this shows how to do workarounds.
66 ;; If the preceding command had a prefix argument, that argument is applied
67 ;; to the repeat command, unless the repeat command is given a new prefix
68 ;; argument, in which case it applies that new prefix argument to the
69 ;; preceding command. This means a key sequence like C-u - C-x C-t can be
70 ;; repeated. (It shoves the preceding line upward in the buffer.)
72 ;; Here are some other key sequences with which repeat might be useful:
73 ;; C-u - C-t [shove preceding character backward in line]
74 ;; C-u - M-t [shove preceding word backward in sentence]
75 ;; C-x ^ enlarge-window [one line] (assuming frame has > 1 window)
76 ;; C-u - C-x ^ [shrink window one line]
77 ;; C-x ` next-error
78 ;; C-u - C-x ` [previous error]
79 ;; C-x DEL backward-kill-sentence
80 ;; C-x e call-last-kbd-macro
81 ;; C-x r i insert-register
82 ;; C-x r t string-rectangle
83 ;; C-x TAB indent-rigidly [one character]
84 ;; C-u - C-x TAB [outdent rigidly one character]
85 ;; C-x { shrink-window-horizontally
86 ;; C-x } enlarge-window-horizontally
88 ;; This command was first called `vi-dot', because
89 ;; it was inspired by the `.' command in the vi editor,
90 ;; but it was renamed to make its name more meaningful.
92 ;;; Code:
94 ;;;;; ************************* USER OPTIONS ************************** ;;;;;
96 (defcustom repeat-too-dangerous '(kill-this-buffer)
97 "Commands too dangerous to repeat with \\[repeat]."
98 :group 'convenience
99 :type '(repeat function))
101 ;; If the last command was self-insert-command, the char to be inserted was
102 ;; obtained by that command from last-command-event, which has now been
103 ;; clobbered by the command sequence that invoked `repeat'. We could get it
104 ;; from (recent-keys) & set last-command-event to that, "unclobbering" it, but
105 ;; this has the disadvantage that if the user types a sequence of different
106 ;; chars then invokes repeat, only the final char will be inserted. In vi,
107 ;; the dot command can reinsert the entire most-recently-inserted sequence.
109 (defvar repeat-message-function nil
110 "If non-nil, function used by `repeat' command to say what it's doing.
111 Message is something like \"Repeating command glorp\".
112 To disable such messages, set this variable to `ignore'. To customize
113 display, assign a function that takes one string as an arg and displays
114 it however you want.")
116 (defcustom repeat-on-final-keystroke t
117 "Allow `repeat' to re-execute for repeating lastchar of a key sequence.
118 If this variable is t, `repeat' determines what key sequence
119 it was invoked by, extracts the final character of that sequence, and
120 re-executes as many times as that final character is hit; so for example
121 if `repeat' is bound to C-x z, typing C-x z z z repeats the previous command
122 3 times. If this variable is a sequence of characters, then re-execution
123 only occurs if the final character by which `repeat' was invoked is a
124 member of that sequence. If this variable is nil, no re-execution occurs."
125 :group 'convenience
126 :type '(choice (const :tag "Repeat for all keys" t)
127 (const :tag "Don't repeat" nil)
128 (sexp :tag "Repeat for specific keys")))
130 ;;;;; ****************** HACKS TO THE REST OF EMACS ******************* ;;;;;
132 ;; The basic strategy is to use last-command, a variable built in to Emacs.
133 ;; There are 2 issues that complicate this strategy. The first is that
134 ;; last-command is given a bogus value when any kill command is executed;
135 ;; this is done to make it easy for `yank-pop' to know that it's being invoked
136 ;; after a kill command. The second is that the meaning of the command is
137 ;; often altered by the prefix arg, but although Emacs (19.34) has a
138 ;; builtin prefix-arg specifying the arg for the next command, as well as a
139 ;; builtin current-prefix-arg, it has no builtin last-prefix-arg.
141 ;; There's a builtin (this-command-keys), the return value of which could be
142 ;; executed with (command-execute), but there's no (last-command-keys).
143 ;; Using (last-command-keys) if it existed wouldn't be optimal, however,
144 ;; since it would complicate checking membership in repeat-too-dangerous.
146 ;; It would of course be trivial to implement last-prefix-arg &
147 ;; true-last-command by putting something in post-command-hook, but that
148 ;; entails a performance hit; the approach taken below avoids that.
150 ;; Coping with strings of self-insert commands gets hairy when they interact
151 ;; with auto-filling. Most problems are eliminated by remembering what we're
152 ;; self-inserting, so we only need to get it from the undo information once.
154 ;; With Emacs 22.2 the variable `last-repeatable-command' stores the
155 ;; most recently executed command that was not bound to an input event.
156 ;; `repeat' now repeats that command instead of `real-last-command' to
157 ;; avoid a "... must be bound to an event with parameters" error.
159 (defvar repeat-last-self-insert nil
160 "If last repeated command was `self-insert-command', it inserted this.")
162 ;; That'll require another keystroke count so we know we're in a string of
163 ;; repetitions of self-insert commands:
165 (defvar repeat-num-input-keys-at-self-insert -1
166 "# key sequences read in Emacs session when `self-insert-command' repeated.")
168 ;;;;; *************** ANALOGOUS HACKS TO `repeat' ITSELF **************** ;;;;;
170 ;; That mechanism of checking num-input-keys to figure out what's really
171 ;; going on can be useful to other commands that need to fine-tune their
172 ;; interaction with repeat. Instead of requiring them to advise repeat, we
173 ;; can just defvar the value they need here, & setq it in the repeat command:
175 (defvar repeat-num-input-keys-at-repeat -1
176 "# key sequences read in Emacs session when `repeat' last invoked.")
178 ;; Also, we can assign a name to the test for which that variable is
179 ;; intended, which thereby documents here how to use it, & makes code that
180 ;; uses it self-documenting:
182 (defsubst repeat-is-really-this-command ()
183 "Return t if this command is happening because user invoked `repeat'.
184 Usually, when a command is executing, the Emacs builtin variable
185 `this-command' identifies the command the user invoked. Some commands modify
186 that variable on the theory they're doing more good than harm; `repeat' does
187 that, and usually does do more good than harm. However, like all do-gooders,
188 sometimes `repeat' gets surprising results from its altruism. The value of
189 this function is always whether the value of `this-command' would've been
190 'repeat if `repeat' hadn't modified it."
191 (= repeat-num-input-keys-at-repeat num-input-keys))
193 ;; An example of the use of (repeat-is-really-this-command) may still be
194 ;; available in <http://www.eskimo.com/~seldon/dotemacs.el>; search for
195 ;; "defun wm-switch-buffer".
197 ;;;;; ******************* THE REPEAT COMMAND ITSELF ******************* ;;;;;
199 (defvar repeat-previous-repeated-command nil
200 "The previous repeated command.")
202 ;; The following variable counts repeated self-insertions. The idea is
203 ;; that repeating a self-insertion command and subsequently undoing it
204 ;; should have almost the same effect as if the characters were inserted
205 ;; manually. The basic difference is that we leave in one undo-boundary
206 ;; between the original insertion and its first repetition.
207 (defvar repeat-undo-count nil
208 "Number of self-insertions since last `undo-boundary'.")
210 ;;;###autoload
211 (defun repeat (repeat-arg)
212 "Repeat most recently executed command.
213 With prefix arg, apply new prefix arg to that command; otherwise,
214 use the prefix arg that was used before (if any).
215 This command is like the `.' command in the vi editor.
217 If this command is invoked by a multi-character key sequence, it
218 can then be repeated by repeating the final character of that
219 sequence. This behavior can be modified by the global variable
220 `repeat-on-final-keystroke'.
222 `repeat' ignores commands bound to input events. Hence the term
223 \"most recently executed command\" shall be read as \"most
224 recently executed command not bound to an input event\"."
225 ;; The most recently executed command could be anything, so surprises could
226 ;; result if it were re-executed in a context where new dynamically
227 ;; localized variables were shadowing global variables in a `let' clause in
228 ;; here. (Remember that GNU Emacs 19 is dynamically localized.)
229 ;; To avoid that, I tried the `lexical-let' of the Common Lisp extensions,
230 ;; but that entails a very noticeable performance hit, so instead I use the
231 ;; "repeat-" prefix, reserved by this package, for *local* variables that
232 ;; might be visible to re-executed commands, including this function's arg.
233 (interactive "P")
234 (when (eq last-repeatable-command 'repeat)
235 (setq last-repeatable-command repeat-previous-repeated-command))
236 (cond
237 ((null last-repeatable-command)
238 (error "There is nothing to repeat"))
239 ((eq last-repeatable-command 'mode-exit)
240 (error "last-repeatable-command is mode-exit & can't be repeated"))
241 ((memq last-repeatable-command repeat-too-dangerous)
242 (error "Command %S too dangerous to repeat automatically"
243 last-repeatable-command)))
244 (setq this-command last-repeatable-command
245 repeat-previous-repeated-command last-repeatable-command
246 repeat-num-input-keys-at-repeat num-input-keys)
247 (when (null repeat-arg)
248 (setq repeat-arg last-prefix-arg))
249 ;; Now determine whether to loop on repeated taps of the final character
250 ;; of the key sequence that invoked repeat. The Emacs global
251 ;; last-command-event contains the final character now, but may not still
252 ;; contain it after the previous command is repeated, so the character
253 ;; needs to be saved.
254 (let ((repeat-repeat-char
255 (if (eq repeat-on-final-keystroke t)
256 last-command-event
257 ;; allow only specified final keystrokes
258 (car (memq last-command-event
259 (listify-key-sequence
260 repeat-on-final-keystroke))))))
261 (if (memq last-repeatable-command '(exit-minibuffer
262 minibuffer-complete-and-exit
263 self-insert-and-exit))
264 (let ((repeat-command (car command-history)))
265 (repeat-message "Repeating %S" repeat-command)
266 (eval repeat-command))
267 (if (null repeat-arg)
268 (repeat-message "Repeating command %S" last-repeatable-command)
269 (setq current-prefix-arg repeat-arg)
270 (repeat-message
271 "Repeating command %S %S" repeat-arg last-repeatable-command))
272 (if (eq last-repeatable-command 'self-insert-command)
273 (let ((insertion
274 (if (<= (- num-input-keys
275 repeat-num-input-keys-at-self-insert)
277 repeat-last-self-insert
278 (let ((range (nth 1 buffer-undo-list)))
279 (condition-case nil
280 (setq repeat-last-self-insert
281 (buffer-substring (car range)
282 (cdr range)))
283 (error (error "%s %s %s" ;Danger, Will Robinson!
284 "repeat can't intuit what you"
285 "inserted before auto-fill"
286 "clobbered it, sorry")))))))
287 (setq repeat-num-input-keys-at-self-insert num-input-keys)
288 ;; If the self-insert had a repeat count, INSERTION
289 ;; includes that many copies of the same character.
290 ;; So use just the first character
291 ;; and repeat it the right number of times.
292 (setq insertion (substring insertion -1))
293 (let ((count (prefix-numeric-value repeat-arg))
294 (i 0))
295 ;; Run pre- and post-command hooks for self-insertion too.
296 (run-hooks 'pre-command-hook)
297 (cond
298 ((not repeat-undo-count))
299 ((< repeat-undo-count 20)
300 ;; Don't make an undo-boundary here.
301 (setq repeat-undo-count (1+ repeat-undo-count)))
303 ;; Make an undo-boundary after 20 repetitions only.
304 (undo-boundary)
305 (setq repeat-undo-count 1)))
306 (while (< i count)
307 (repeat-self-insert insertion)
308 (setq i (1+ i)))
309 (run-hooks 'post-command-hook)))
310 (let ((indirect (indirect-function last-repeatable-command)))
311 ;; Make each repetition undo separately.
312 (undo-boundary)
313 (if (or (stringp indirect)
314 (vectorp indirect))
315 ;; Bind real-last-command so that executing the macro does
316 ;; not alter it. Do the same for last-repeatable-command.
317 (let ((real-last-command real-last-command)
318 (last-repeatable-command last-repeatable-command))
319 (execute-kbd-macro last-repeatable-command))
320 (run-hooks 'pre-command-hook)
321 (call-interactively last-repeatable-command)
322 (run-hooks 'post-command-hook)))))
323 (when repeat-repeat-char
324 ;; A simple recursion here gets into trouble with max-lisp-eval-depth
325 ;; on long sequences of repetitions of a command like `forward-word'
326 ;; (only 32 repetitions are possible given the default value of 200 for
327 ;; max-lisp-eval-depth), but if I now locally disable the repeat char I
328 ;; can iterate indefinitely here around a single level of recursion.
329 (let (repeat-on-final-keystroke
330 ;; Bind `undo-inhibit-record-point' to t in order to avoid
331 ;; recording point in `buffer-undo-list' here. We have to
332 ;; do this since the command loop does not set the last
333 ;; position of point thus confusing the point recording
334 ;; mechanism when inserting or deleting text.
335 (undo-inhibit-record-point t))
336 (setq real-last-command 'repeat)
337 (setq repeat-undo-count 1)
338 (unwind-protect
339 (while (let ((evt (read-key)))
340 ;; For clicks, we need to strip the meta-data to
341 ;; check the underlying event name.
342 (eq (or (car-safe evt) evt)
343 (or (car-safe repeat-repeat-char)
344 repeat-repeat-char)))
345 (repeat repeat-arg))
346 ;; Make sure `repeat-undo-count' is reset.
347 (setq repeat-undo-count nil))
348 (setq unread-command-events (list last-input-event))))))
350 (defun repeat-self-insert (string)
351 (let ((i 0))
352 (while (< i (length string))
353 (let ((last-command-event (aref string i)))
354 (self-insert-command 1))
355 (setq i (1+ i)))))
357 (defun repeat-message (format &rest args)
358 "Like `message' but displays with `repeat-message-function' if non-nil."
359 (let ((message (apply 'format format args)))
360 (if repeat-message-function
361 (funcall repeat-message-function message)
362 (message "%s" message))))
364 ;; OK, there's one situation left where that doesn't work correctly: when the
365 ;; most recent self-insertion provoked an auto-fill. The problem is that
366 ;; unraveling the undo information after an auto-fill is too hard, since all
367 ;; kinds of stuff can get in there as a result of comment prefixes etc. It'd
368 ;; be possible to advise do-auto-fill to record the most recent
369 ;; self-insertion before it does its thing, but that's a performance hit on
370 ;; auto-fill, which already has performance problems; so it's better to just
371 ;; leave it like this. If text didn't provoke an auto-fill when the user
372 ;; typed it, this'll correctly repeat its self-insertion, even if the
373 ;; repetition does cause auto-fill.
375 ;; If you wanted perfection, probably it'd be necessary to hack do-auto-fill
376 ;; into 2 functions, maybe-do-auto-fill & really-do-auto-fill, because only
377 ;; really-do-auto-fill should be advised. As things are, either the undo
378 ;; information would need to be scanned on every do-auto-fill invocation, or
379 ;; the code at the top of do-auto-fill deciding whether filling is necessary
380 ;; would need to be duplicated in the advice, wasting execution time when
381 ;; filling does turn out to be necessary.
383 ;; I thought maybe this story had a moral, something about functional
384 ;; decomposition; but now I'm not even sure of that, since a function
385 ;; call per se is a performance hit, & even the code that would
386 ;; correspond to really-do-auto-fill has performance problems that
387 ;; can make it necessary to stop typing while Emacs catches up.
388 ;; Maybe the real moral is that perfection is a chimera.
390 ;; Ah, hell, it's all going to fall into a black hole someday anyway.
392 ;;;;; ************************* EMACS CONTROL ************************* ;;;;;
394 (provide 'repeat)
396 ;;; repeat.el ends here