* insdel.c (count_size_as_multibyte): Check for string overflow.
[emacs.git] / lisp / emacs-lisp / timer.el
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1 ;;; timer.el --- run a function with args at some time in future
3 ;; Copyright (C) 1996, 2001-2011 Free Software Foundation, Inc.
5 ;; Maintainer: FSF
6 ;; Package: emacs
8 ;; This file is part of GNU Emacs.
10 ;; GNU Emacs is free software: you can redistribute it and/or modify
11 ;; it under the terms of the GNU General Public License as published by
12 ;; the Free Software Foundation, either version 3 of the License, or
13 ;; (at your option) any later version.
15 ;; GNU Emacs is distributed in the hope that it will be useful,
16 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
17 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 ;; GNU General Public License for more details.
20 ;; You should have received a copy of the GNU General Public License
21 ;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
23 ;;; Commentary:
25 ;; This package gives you the capability to run Emacs Lisp commands at
26 ;; specified times in the future, either as one-shots or periodically.
28 ;;; Code:
30 ;; Layout of a timer vector:
31 ;; [triggered-p high-seconds low-seconds usecs repeat-delay
32 ;; function args idle-delay]
33 ;; triggered-p is nil if the timer is active (waiting to be triggered),
34 ;; t if it is inactive ("already triggered", in theory)
36 (eval-when-compile (require 'cl))
38 (defstruct (timer
39 (:constructor nil)
40 (:copier nil)
41 (:constructor timer-create ())
42 (:type vector)
43 (:conc-name timer--))
44 (triggered t)
45 high-seconds low-seconds usecs repeat-delay function args idle-delay)
47 (defun timerp (object)
48 "Return t if OBJECT is a timer."
49 (and (vectorp object) (= (length object) 8)))
51 ;; Pseudo field `time'.
52 (defun timer--time (timer)
53 (list (timer--high-seconds timer)
54 (timer--low-seconds timer)
55 (timer--usecs timer)))
57 (defsetf timer--time
58 (lambda (timer time)
59 (or (timerp timer) (error "Invalid timer"))
60 (setf (timer--high-seconds timer) (pop time))
61 (setf (timer--low-seconds timer)
62 (if (consp time) (car time) time))
63 (setf (timer--usecs timer) (or (and (consp time) (consp (cdr time))
64 (cadr time))
65 0))))
68 (defun timer-set-time (timer time &optional delta)
69 "Set the trigger time of TIMER to TIME.
70 TIME must be in the internal format returned by, e.g., `current-time'.
71 If optional third argument DELTA is a positive number, make the timer
72 fire repeatedly that many seconds apart."
73 (setf (timer--time timer) time)
74 (setf (timer--repeat-delay timer) (and (numberp delta) (> delta 0) delta))
75 timer)
77 (defun timer-set-idle-time (timer secs &optional repeat)
78 "Set the trigger idle time of TIMER to SECS.
79 SECS may be an integer, floating point number, or the internal
80 time format (HIGH LOW USECS) returned by, e.g., `current-idle-time'.
81 If optional third argument REPEAT is non-nil, make the timer
82 fire each time Emacs is idle for that many seconds."
83 (if (consp secs)
84 (setf (timer--time timer) secs)
85 (setf (timer--time timer) '(0 0 0))
86 (timer-inc-time timer secs))
87 (setf (timer--repeat-delay timer) repeat)
88 timer)
90 (defun timer-next-integral-multiple-of-time (time secs)
91 "Yield the next value after TIME that is an integral multiple of SECS.
92 More precisely, the next value, after TIME, that is an integral multiple
93 of SECS seconds since the epoch. SECS may be a fraction."
94 (let ((time-base (ash 1 16)))
95 ;; Use floating point, taking care to not lose precision.
96 (let* ((float-time-base (float time-base))
97 (million 1000000.0)
98 (time-usec (+ (* million
99 (+ (* float-time-base (nth 0 time))
100 (nth 1 time)))
101 (nth 2 time)))
102 (secs-usec (* million secs))
103 (mod-usec (mod time-usec secs-usec))
104 (next-usec (+ (- time-usec mod-usec) secs-usec))
105 (time-base-million (* float-time-base million)))
106 (list (floor next-usec time-base-million)
107 (floor (mod next-usec time-base-million) million)
108 (floor (mod next-usec million))))))
110 (defun timer-relative-time (time secs &optional usecs)
111 "Advance TIME by SECS seconds and optionally USECS microseconds.
112 SECS may be either an integer or a floating point number."
113 ;; FIXME: we should just use (time-add time (list 0 secs usecs))
114 (let ((high (car time))
115 (low (if (consp (cdr time)) (nth 1 time) (cdr time)))
116 (micro (if (numberp (car-safe (cdr-safe (cdr time))))
117 (nth 2 time)
118 0)))
119 ;; Add
120 (if usecs (setq micro (+ micro usecs)))
121 (if (floatp secs)
122 (setq micro (+ micro (floor (* 1000000 (- secs (floor secs)))))))
123 (setq low (+ low (floor secs)))
125 ;; Normalize
126 ;; `/' rounds towards zero while `mod' returns a positive number,
127 ;; so we can't rely on (= a (+ (* 100 (/ a 100)) (mod a 100))).
128 (setq low (+ low (/ micro 1000000) (if (< micro 0) -1 0)))
129 (setq micro (mod micro 1000000))
130 (setq high (+ high (/ low 65536) (if (< low 0) -1 0)))
131 (setq low (logand low 65535))
133 (list high low (and (/= micro 0) micro))))
135 (defun timer--time-less-p (t1 t2)
136 "Say whether time value T1 is less than time value T2."
137 ;; FIXME just use time-less-p.
138 (destructuring-bind (high1 low1 micro1) (timer--time t1)
139 (destructuring-bind (high2 low2 micro2) (timer--time t2)
140 (or (< high1 high2)
141 (and (= high1 high2)
142 (or (< low1 low2)
143 (and (= low1 low2)
144 (< micro1 micro2))))))))
146 (defun timer-inc-time (timer secs &optional usecs)
147 "Increment the time set in TIMER by SECS seconds and USECS microseconds.
148 SECS may be a fraction. If USECS is omitted, that means it is zero."
149 (setf (timer--time timer)
150 (timer-relative-time (timer--time timer) secs usecs)))
152 (defun timer-set-time-with-usecs (timer time usecs &optional delta)
153 "Set the trigger time of TIMER to TIME plus USECS.
154 TIME must be in the internal format returned by, e.g., `current-time'.
155 The microsecond count from TIME is ignored, and USECS is used instead.
156 If optional fourth argument DELTA is a positive number, make the timer
157 fire repeatedly that many seconds apart."
158 (setf (timer--time timer) time)
159 (setf (timer--usecs timer) usecs)
160 (setf (timer--repeat-delay timer) (and (numberp delta) (> delta 0) delta))
161 timer)
162 (make-obsolete 'timer-set-time-with-usecs
163 "use `timer-set-time' and `timer-inc-time' instead."
164 "22.1")
166 (defun timer-set-function (timer function &optional args)
167 "Make TIMER call FUNCTION with optional ARGS when triggering."
168 (or (timerp timer)
169 (error "Invalid timer"))
170 (setf (timer--function timer) function)
171 (setf (timer--args timer) args)
172 timer)
174 (defun timer--activate (timer &optional triggered-p reuse-cell idle)
175 (if (and (timerp timer)
176 (integerp (timer--high-seconds timer))
177 (integerp (timer--low-seconds timer))
178 (integerp (timer--usecs timer))
179 (timer--function timer))
180 (let ((timers (if idle timer-idle-list timer-list))
181 last)
182 ;; Skip all timers to trigger before the new one.
183 (while (and timers (timer--time-less-p (car timers) timer))
184 (setq last timers
185 timers (cdr timers)))
186 (if reuse-cell
187 (progn
188 (setcar reuse-cell timer)
189 (setcdr reuse-cell timers))
190 (setq reuse-cell (cons timer timers)))
191 ;; Insert new timer after last which possibly means in front of queue.
192 (if last
193 (setcdr last reuse-cell)
194 (if idle
195 (setq timer-idle-list reuse-cell)
196 (setq timer-list reuse-cell)))
197 (setf (timer--triggered timer) triggered-p)
198 (setf (timer--idle-delay timer) idle)
199 nil)
200 (error "Invalid or uninitialized timer")))
202 (defun timer-activate (timer &optional triggered-p reuse-cell idle)
203 "Put TIMER on the list of active timers.
205 If TRIGGERED-P is t, that means to make the timer inactive
206 \(put it on the list, but mark it as already triggered).
207 To remove from the list, use `cancel-timer'.
209 REUSE-CELL, if non-nil, is a cons cell to reuse instead
210 of allocating a new one."
211 (timer--activate timer triggered-p reuse-cell nil))
213 (defun timer-activate-when-idle (timer &optional dont-wait reuse-cell)
214 "Arrange to activate TIMER whenever Emacs is next idle.
215 If optional argument DONT-WAIT is non-nil, then enable the
216 timer to activate immediately, or at the right time, if Emacs
217 is already idle.
219 REUSE-CELL, if non-nil, is a cons cell to reuse instead
220 of allocating a new one."
221 (timer--activate timer (not dont-wait) reuse-cell 'idle))
223 (defalias 'disable-timeout 'cancel-timer)
225 (defun cancel-timer (timer)
226 "Remove TIMER from the list of active timers."
227 (or (timerp timer)
228 (error "Invalid timer"))
229 (setq timer-list (delq timer timer-list))
230 (setq timer-idle-list (delq timer timer-idle-list))
231 nil)
233 (defun cancel-timer-internal (timer)
234 "Remove TIMER from the list of active timers or idle timers.
235 Only to be used in this file. It returns the cons cell
236 that was removed from the timer list."
237 (let ((cell1 (memq timer timer-list))
238 (cell2 (memq timer timer-idle-list)))
239 (if cell1
240 (setq timer-list (delq timer timer-list)))
241 (if cell2
242 (setq timer-idle-list (delq timer timer-idle-list)))
243 (or cell1 cell2)))
245 (defun cancel-function-timers (function)
246 "Cancel all timers which would run FUNCTION.
247 This affects ordinary timers such as are scheduled by `run-at-time',
248 and idle timers such as are scheduled by `run-with-idle-timer'."
249 (interactive "aCancel timers of function: ")
250 (dolist (timer timer-list)
251 (if (eq (timer--function timer) function)
252 (setq timer-list (delq timer timer-list))))
253 (dolist (timer timer-idle-list)
254 (if (eq (timer--function timer) function)
255 (setq timer-idle-list (delq timer timer-idle-list)))))
257 ;; Record the last few events, for debugging.
258 (defvar timer-event-last nil
259 "Last timer that was run.")
260 (defvar timer-event-last-1 nil
261 "Next-to-last timer that was run.")
262 (defvar timer-event-last-2 nil
263 "Third-to-last timer that was run.")
265 (defvar timer-max-repeats 10
266 "*Maximum number of times to repeat a timer, if many repeats are delayed.
267 Timer invocations can be delayed because Emacs is suspended or busy,
268 or because the system's time changes. If such an occurrence makes it
269 appear that many invocations are overdue, this variable controls
270 how many will really happen.")
272 (defun timer-until (timer time)
273 "Calculate number of seconds from when TIMER will run, until TIME.
274 TIMER is a timer, and stands for the time when its next repeat is scheduled.
275 TIME is a time-list."
276 ;; FIXME: (float-time (time-subtract (timer--time timer) time))
277 (let ((high (- (car time) (timer--high-seconds timer)))
278 (low (- (nth 1 time) (timer--low-seconds timer))))
279 (+ low (* high 65536))))
281 (defun timer-event-handler (timer)
282 "Call the handler for the timer TIMER.
283 This function is called, by name, directly by the C code."
284 (setq timer-event-last-2 timer-event-last-1)
285 (setq timer-event-last-1 timer-event-last)
286 (setq timer-event-last timer)
287 (let ((inhibit-quit t))
288 (if (timerp timer)
289 (let (retrigger cell)
290 ;; Delete from queue. Record the cons cell that was used.
291 (setq cell (cancel-timer-internal timer))
292 ;; Re-schedule if requested.
293 (if (timer--repeat-delay timer)
294 (if (timer--idle-delay timer)
295 (timer-activate-when-idle timer nil cell)
296 (timer-inc-time timer (timer--repeat-delay timer) 0)
297 ;; If real time has jumped forward,
298 ;; perhaps because Emacs was suspended for a long time,
299 ;; limit how many times things get repeated.
300 (if (and (numberp timer-max-repeats)
301 (< 0 (timer-until timer (current-time))))
302 (let ((repeats (/ (timer-until timer (current-time))
303 (timer--repeat-delay timer))))
304 (if (> repeats timer-max-repeats)
305 (timer-inc-time timer (* (timer--repeat-delay timer)
306 repeats)))))
307 (timer-activate timer t cell)
308 (setq retrigger t)))
309 ;; Run handler.
310 ;; We do this after rescheduling so that the handler function
311 ;; can cancel its own timer successfully with cancel-timer.
312 (condition-case nil
313 ;; Timer functions should not change the current buffer.
314 ;; If they do, all kinds of nasty surprises can happen,
315 ;; and it can be hellish to track down their source.
316 (save-current-buffer
317 (apply (timer--function timer) (timer--args timer)))
318 (error nil))
319 (if retrigger
320 (setf (timer--triggered timer) nil)))
321 (error "Bogus timer event"))))
323 ;; This function is incompatible with the one in levents.el.
324 (defun timeout-event-p (event)
325 "Non-nil if EVENT is a timeout event."
326 (and (listp event) (eq (car event) 'timer-event)))
329 (declare-function diary-entry-time "diary-lib" (s))
331 (defun run-at-time (time repeat function &rest args)
332 "Perform an action at time TIME.
333 Repeat the action every REPEAT seconds, if REPEAT is non-nil.
334 TIME should be one of: a string giving an absolute time like
335 \"11:23pm\" (the acceptable formats are those recognized by
336 `diary-entry-time'; note that such times are interpreted as times
337 today, even if in the past); a string giving a relative time like
338 \"2 hours 35 minutes\" (the acceptable formats are those
339 recognized by `timer-duration'); nil meaning now; a number of
340 seconds from now; a value from `encode-time'; or t (with non-nil
341 REPEAT) meaning the next integral multiple of REPEAT. REPEAT may
342 be an integer or floating point number. The action is to call
343 FUNCTION with arguments ARGS.
345 This function returns a timer object which you can use in `cancel-timer'."
346 (interactive "sRun at time: \nNRepeat interval: \naFunction: ")
348 (or (null repeat)
349 (and (numberp repeat) (< 0 repeat))
350 (error "Invalid repetition interval"))
352 ;; Special case: nil means "now" and is useful when repeating.
353 (if (null time)
354 (setq time (current-time)))
356 ;; Special case: t means the next integral multiple of REPEAT.
357 (if (and (eq time t) repeat)
358 (setq time (timer-next-integral-multiple-of-time (current-time) repeat)))
360 ;; Handle numbers as relative times in seconds.
361 (if (numberp time)
362 (setq time (timer-relative-time (current-time) time)))
364 ;; Handle relative times like "2 hours 35 minutes"
365 (if (stringp time)
366 (let ((secs (timer-duration time)))
367 (if secs
368 (setq time (timer-relative-time (current-time) secs)))))
370 ;; Handle "11:23pm" and the like. Interpret it as meaning today
371 ;; which admittedly is rather stupid if we have passed that time
372 ;; already. (Though only Emacs hackers hack Emacs at that time.)
373 (if (stringp time)
374 (progn
375 (require 'diary-lib)
376 (let ((hhmm (diary-entry-time time))
377 (now (decode-time)))
378 (if (>= hhmm 0)
379 (setq time
380 (encode-time 0 (% hhmm 100) (/ hhmm 100) (nth 3 now)
381 (nth 4 now) (nth 5 now) (nth 8 now)))))))
383 (or (consp time)
384 (error "Invalid time format"))
386 (let ((timer (timer-create)))
387 (timer-set-time timer time repeat)
388 (timer-set-function timer function args)
389 (timer-activate timer)
390 timer))
392 (defun run-with-timer (secs repeat function &rest args)
393 "Perform an action after a delay of SECS seconds.
394 Repeat the action every REPEAT seconds, if REPEAT is non-nil.
395 SECS and REPEAT may be integers or floating point numbers.
396 The action is to call FUNCTION with arguments ARGS.
398 This function returns a timer object which you can use in `cancel-timer'."
399 (interactive "sRun after delay (seconds): \nNRepeat interval: \naFunction: ")
400 (apply 'run-at-time secs repeat function args))
402 (defun add-timeout (secs function object &optional repeat)
403 "Add a timer to run SECS seconds from now, to call FUNCTION on OBJECT.
404 If REPEAT is non-nil, repeat the timer every REPEAT seconds.
405 This function is for compatibility; see also `run-with-timer'."
406 (run-with-timer secs repeat function object))
408 (defun run-with-idle-timer (secs repeat function &rest args)
409 "Perform an action the next time Emacs is idle for SECS seconds.
410 The action is to call FUNCTION with arguments ARGS.
411 SECS may be an integer, a floating point number, or the internal
412 time format (HIGH LOW USECS) returned by, e.g., `current-idle-time'.
413 If Emacs is currently idle, and has been idle for N seconds (N < SECS),
414 then it will call FUNCTION in SECS - N seconds from now.
416 If REPEAT is non-nil, do the action each time Emacs has been idle for
417 exactly SECS seconds (that is, only once for each time Emacs becomes idle).
419 This function returns a timer object which you can use in `cancel-timer'."
420 (interactive
421 (list (read-from-minibuffer "Run after idle (seconds): " nil nil t)
422 (y-or-n-p "Repeat each time Emacs is idle? ")
423 (intern (completing-read "Function: " obarray 'fboundp t))))
424 (let ((timer (timer-create)))
425 (timer-set-function timer function args)
426 (timer-set-idle-time timer secs repeat)
427 (timer-activate-when-idle timer t)
428 timer))
430 (defun with-timeout-handler (tag)
431 "This is the timer function used for the timer made by `with-timeout'."
432 (throw tag 'timeout))
434 (defvar with-timeout-timers nil
435 "List of all timers used by currently pending `with-timeout' calls.")
437 (defmacro with-timeout (list &rest body)
438 "Run BODY, but if it doesn't finish in SECONDS seconds, give up.
439 If we give up, we run the TIMEOUT-FORMS and return the value of the last one.
440 The timeout is checked whenever Emacs waits for some kind of external
441 event (such as keyboard input, input from subprocesses, or a certain time);
442 if the program loops without waiting in any way, the timeout will not
443 be detected.
444 \n(fn (SECONDS TIMEOUT-FORMS...) BODY)"
445 (declare (indent 1))
446 (let ((seconds (car list))
447 (timeout-forms (cdr list)))
448 `(let ((with-timeout-tag (cons nil nil))
449 with-timeout-value with-timeout-timer
450 (with-timeout-timers with-timeout-timers))
451 (if (catch with-timeout-tag
452 (progn
453 (setq with-timeout-timer
454 (run-with-timer ,seconds nil
455 'with-timeout-handler
456 with-timeout-tag))
457 (push with-timeout-timer with-timeout-timers)
458 (setq with-timeout-value (progn . ,body))
459 nil))
460 (progn . ,timeout-forms)
461 (cancel-timer with-timeout-timer)
462 with-timeout-value))))
464 (defun with-timeout-suspend ()
465 "Stop the clock for `with-timeout'. Used by debuggers.
466 The idea is that the time you spend in the debugger should not
467 count against these timeouts.
469 The value is a list that the debugger can pass to `with-timeout-unsuspend'
470 when it exits, to make these timers start counting again."
471 (mapcar (lambda (timer)
472 (cancel-timer timer)
473 (list timer (time-subtract (timer--time timer) (current-time))))
474 with-timeout-timers))
476 (defun with-timeout-unsuspend (timer-spec-list)
477 "Restart the clock for `with-timeout'.
478 The argument should be a value previously returned by `with-timeout-suspend'."
479 (dolist (elt timer-spec-list)
480 (let ((timer (car elt))
481 (delay (cadr elt)))
482 (timer-set-time timer (time-add (current-time) delay))
483 (timer-activate timer))))
485 (defun y-or-n-p-with-timeout (prompt seconds default-value)
486 "Like (y-or-n-p PROMPT), with a timeout.
487 If the user does not answer after SECONDS seconds, return DEFAULT-VALUE."
488 (with-timeout (seconds default-value)
489 (y-or-n-p prompt)))
491 (defconst timer-duration-words
492 (list (cons "microsec" 0.000001)
493 (cons "microsecond" 0.000001)
494 (cons "millisec" 0.001)
495 (cons "millisecond" 0.001)
496 (cons "sec" 1)
497 (cons "second" 1)
498 (cons "min" 60)
499 (cons "minute" 60)
500 (cons "hour" (* 60 60))
501 (cons "day" (* 24 60 60))
502 (cons "week" (* 7 24 60 60))
503 (cons "fortnight" (* 14 24 60 60))
504 (cons "month" (* 30 24 60 60)) ; Approximation
505 (cons "year" (* 365.25 24 60 60)) ; Approximation
507 "Alist mapping temporal words to durations in seconds.")
509 (defun timer-duration (string)
510 "Return number of seconds specified by STRING, or nil if parsing fails."
511 (let ((secs 0)
512 (start 0)
513 (case-fold-search t))
514 (while (string-match
515 "[ \t]*\\([0-9.]+\\)?[ \t]*\\([a-z]+[a-rt-z]\\)s?[ \t]*"
516 string start)
517 (let ((count (if (match-beginning 1)
518 (string-to-number (match-string 1 string))
520 (itemsize (cdr (assoc (match-string 2 string)
521 timer-duration-words))))
522 (if itemsize
523 (setq start (match-end 0)
524 secs (+ secs (* count itemsize)))
525 (setq secs nil
526 start (length string)))))
527 (if (= start (length string))
528 secs
529 (if (string-match-p "\\`[0-9.]+\\'" string)
530 (string-to-number string)))))
532 (provide 'timer)
534 ;;; timer.el ends here