(make-frame): Call `custom-initialize-frame'.
[emacs.git] / lisp / calendar / cal-dst.el
blob3e33f6cb9f355ab84c67efa33eca8957420eec3d
1 ;;; cal-dst.el --- calendar functions for daylight savings rules.
3 ;; Copyright (C) 1993, 1994, 1995, 1996 Free Software Foundation, Inc.
5 ;; Author: Paul Eggert <eggert@twinsun.com>
6 ;; Edward M. Reingold <reingold@cs.uiuc.edu>
7 ;; Keywords: calendar
8 ;; Human-Keywords: daylight savings time, calendar, diary, holidays
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 2, or (at your option)
15 ;; 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; see the file COPYING. If not, write to the
24 ;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
25 ;; Boston, MA 02111-1307, USA.
27 ;;; Commentary:
29 ;; This collection of functions implements the features of calendar.el and
30 ;; holiday.el that deal with daylight savings time.
32 ;; Comments, corrections, and improvements should be sent to
33 ;; Edward M. Reingold Department of Computer Science
34 ;; (217) 333-6733 University of Illinois at Urbana-Champaign
35 ;; reingold@cs.uiuc.edu 1304 West Springfield Avenue
36 ;; Urbana, Illinois 61801
38 ;;; Code:
40 (require 'calendar)
41 (require 'cal-persia)
43 (defvar calendar-current-time-zone-cache nil
44 "Cache for result of calendar-current-time-zone.")
46 (defvar calendar-system-time-basis
47 (calendar-absolute-from-gregorian '(1 1 1970))
48 "Absolute date of starting date of system clock.")
50 (defun calendar-absolute-from-time (x utc-diff)
51 "Absolute local date of time X; local time is UTC-DIFF seconds from UTC.
53 X is (HIGH . LOW) or (HIGH LOW . IGNORED) where HIGH and LOW are the
54 high and low 16 bits, respectively, of the number of seconds since
55 1970-01-01 00:00:00 UTC, ignoring leap seconds.
57 Returns the pair (ABS-DATE . SECONDS) where SECONDS after local midnight on
58 absolute date ABS-DATE is the equivalent moment to X."
59 (let* ((h (car x))
60 (xtail (cdr x))
61 (l (+ utc-diff (if (numberp xtail) xtail (car xtail))))
62 (u (+ (* 512 (mod h 675)) (floor l 128))))
63 ;; Overflow is a terrible thing!
64 (cons (+ calendar-system-time-basis
65 ;; floor((2^16 h +l) / (60*60*24))
66 (* 512 (floor h 675)) (floor u 675))
67 ;; (2^16 h +l) mod (60*60*24)
68 (+ (* (mod u 675) 128) (mod l 128)))))
70 (defun calendar-time-from-absolute (abs-date s)
71 "Time of absolute date ABS-DATE, S seconds after midnight.
73 Returns the pair (HIGH . LOW) where HIGH and LOW are the high and low
74 16 bits, respectively, of the number of seconds 1970-01-01 00:00:00 UTC,
75 ignoring leap seconds, that is the equivalent moment to S seconds after
76 midnight UTC on absolute date ABS-DATE."
77 (let* ((a (- abs-date calendar-system-time-basis))
78 (u (+ (* 163 (mod a 512)) (floor s 128))))
79 ;; Overflow is a terrible thing!
80 (cons
81 ;; floor((60*60*24*a + s) / 2^16)
82 (+ a (* 163 (floor a 512)) (floor u 512))
83 ;; (60*60*24*a + s) mod 2^16
84 (+ (* 128 (mod u 512)) (mod s 128)))))
86 (defun calendar-next-time-zone-transition (time)
87 "Return the time of the next time zone transition after TIME.
88 Both TIME and the result are acceptable arguments to current-time-zone.
89 Return nil if no such transition can be found."
90 (let* ((base 65536);; 2^16 = base of current-time output
91 (quarter-multiple 120);; approx = (seconds per quarter year) / base
92 (time-zone (current-time-zone time))
93 (time-utc-diff (car time-zone))
95 hi-zone
96 (hi-utc-diff time-utc-diff)
97 (quarters '(2 1 3)))
98 ;; Heuristic: probe the time zone offset in the next three calendar
99 ;; quarters, looking for a time zone offset different from TIME.
100 (while (and quarters (eq time-utc-diff hi-utc-diff))
101 (setq hi (cons (+ (car time) (* (car quarters) quarter-multiple)) 0))
102 (setq hi-zone (current-time-zone hi))
103 (setq hi-utc-diff (car hi-zone))
104 (setq quarters (cdr quarters)))
105 (and
106 time-utc-diff
107 hi-utc-diff
108 (not (eq time-utc-diff hi-utc-diff))
109 ;; Now HI is after the next time zone transition.
110 ;; Set LO to TIME, and then binary search to increase LO and decrease HI
111 ;; until LO is just before and HI is just after the time zone transition.
112 (let* ((tail (cdr time))
113 (lo (cons (car time) (if (numberp tail) tail (car tail))))
114 probe)
115 (while
116 ;; Set PROBE to halfway between LO and HI, rounding down.
117 ;; If PROBE equals LO, we are done.
118 (let* ((lsum (+ (cdr lo) (cdr hi)))
119 (hsum (+ (car lo) (car hi) (/ lsum base)))
120 (hsumodd (logand 1 hsum)))
121 (setq probe (cons (/ (- hsum hsumodd) 2)
122 (/ (+ (* hsumodd base) (% lsum base)) 2)))
123 (not (equal lo probe)))
124 ;; Set either LO or HI to PROBE, depending on probe results.
125 (if (eq (car (current-time-zone probe)) hi-utc-diff)
126 (setq hi probe)
127 (setq lo probe)))
128 hi))))
130 (defun calendar-time-zone-daylight-rules (abs-date utc-diff)
131 "Return daylight transition rule for ABS-DATE, UTC-DIFF sec offset from UTC.
132 ABS-DATE must specify a day that contains a daylight savings transition.
133 The result has the proper form for calendar-daylight-savings-starts'."
134 (let* ((date (calendar-gregorian-from-absolute abs-date))
135 (weekday (% abs-date 7))
136 (m (extract-calendar-month date))
137 (d (extract-calendar-day date))
138 (y (extract-calendar-year date))
139 (last (calendar-last-day-of-month m y))
140 (candidate-rules
141 (append
142 ;; Day D of month M.
143 (list (list 'list m d 'year))
144 ;; The first WEEKDAY of month M.
145 (if (< d 8)
146 (list (list 'calendar-nth-named-day 1 weekday m 'year)))
147 ;; The last WEEKDAY of month M.
148 (if (> d (- last 7))
149 (list (list 'calendar-nth-named-day -1 weekday m 'year)))
150 ;; The first WEEKDAY after day J of month M, for D-6 < J <= D.
151 (let (l)
152 (calendar-for-loop j from (max 2 (- d 6)) to (min d (- last 8)) do
153 (setq l
154 (cons
155 (list 'calendar-nth-named-day 1 weekday m 'year j)
156 l)))
158 ;; 01-01 and 07-01 for this year's Persian calendar.
159 (if (and (= m 3) (<= 20 d) (<= d 21))
160 '((calendar-gregorian-from-absolute
161 (calendar-absolute-from-persian
162 (list 1 1 (- year 621))))))
163 (if (and (= m 9) (<= 22 d) (<= d 23))
164 '((calendar-gregorian-from-absolute
165 (calendar-absolute-from-persian
166 (list 7 1 (- year 621))))))))
167 (prevday-sec (- -1 utc-diff)) ;; last sec of previous local day
168 (year (1+ y)))
169 ;; Scan through the next few years until only one rule remains.
170 (while
171 (let ((rules candidate-rules)
172 new-rules)
173 (while
174 (let*
175 ((rule (car rules))
176 (date
177 ;; The following is much faster than
178 ;; (calendar-absolute-from-gregorian (eval rule)).
179 (cond ((eq (car rule) 'calendar-nth-named-day)
180 (eval (cons 'calendar-nth-named-absday (cdr rule))))
181 ((eq (car rule) 'calendar-gregorian-from-absolute)
182 (eval (car (cdr rule))))
183 (t (let ((g (eval rule)))
184 (calendar-absolute-from-gregorian g))))))
185 (or (equal
186 (current-time-zone
187 (calendar-time-from-absolute date prevday-sec))
188 (current-time-zone
189 (calendar-time-from-absolute (1+ date) prevday-sec)))
190 (setq new-rules (cons rule new-rules)))
191 (setq rules (cdr rules))))
192 ;; If no rules remain, just use the first candidate rule;
193 ;; it's wrong in general, but it's right for at least one year.
194 (setq candidate-rules (if new-rules (nreverse new-rules)
195 (list (car candidate-rules))))
196 (setq year (1+ year))
197 (cdr candidate-rules)))
198 (car candidate-rules)))
200 (defun calendar-current-time-zone ()
201 "Return UTC difference, dst offset, names and rules for current time zone.
203 Returns (UTC-DIFF DST-OFFSET STD-ZONE DST-ZONE DST-STARTS DST-ENDS
204 DST-STARTS-TIME DST-ENDS-TIME), based on a heuristic probing of what the
205 system knows:
207 UTC-DIFF is an integer specifying the number of minutes difference between
208 standard time in the current time zone and Coordinated Universal Time
209 (Greenwich Mean Time). A negative value means west of Greenwich.
210 DST-OFFSET is an integer giving the daylight savings time offset in minutes.
211 STD-ZONE is a string giving the name of the time zone when no seasonal time
212 adjustment is in effect.
213 DST-ZONE is a string giving the name of the time zone when there is a seasonal
214 time adjustment in effect.
215 DST-STARTS and DST-ENDS are sexps in the variable `year' giving the daylight
216 savings time start and end rules, in the form expected by
217 `calendar-daylight-savings-starts'.
218 DST-STARTS-TIME and DST-ENDS-TIME are integers giving the number of minutes
219 after midnight that daylight savings time starts and ends.
221 If the local area does not use a seasonal time adjustment, STD-ZONE and
222 DST-ZONE are equal, and all the DST-* integer variables are 0.
224 Some operating systems cannot provide all this information to Emacs; in this
225 case, `calendar-current-time-zone' returns a list containing nil for the data
226 it can't find."
228 calendar-current-time-zone-cache
229 (setq
230 calendar-current-time-zone-cache
231 (let* ((t0 (current-time))
232 (t0-zone (current-time-zone t0))
233 (t0-utc-diff (car t0-zone))
234 (t0-name (car (cdr t0-zone))))
235 (if (not t0-utc-diff)
236 ;; Little or no time zone information is available.
237 (list nil nil t0-name t0-name nil nil nil nil)
238 (let* ((t1 (calendar-next-time-zone-transition t0))
239 (t2 (and t1 (calendar-next-time-zone-transition t1))))
240 (if (not t2)
241 ;; This locale does not have daylight savings time.
242 (list (/ t0-utc-diff 60) 0 t0-name t0-name nil nil 0 0)
243 ;; Use heuristics to find daylight savings parameters.
244 (let* ((t1-zone (current-time-zone t1))
245 (t1-utc-diff (car t1-zone))
246 (t1-name (car (cdr t1-zone)))
247 (t1-date-sec (calendar-absolute-from-time t1 t0-utc-diff))
248 (t2-date-sec (calendar-absolute-from-time t2 t1-utc-diff))
249 (t1-rules (calendar-time-zone-daylight-rules
250 (car t1-date-sec) t0-utc-diff))
251 (t2-rules (calendar-time-zone-daylight-rules
252 (car t2-date-sec) t1-utc-diff))
253 (t1-time (/ (cdr t1-date-sec) 60))
254 (t2-time (/ (cdr t2-date-sec) 60)))
255 (cons
256 (/ (min t0-utc-diff t1-utc-diff) 60)
257 (cons
258 (/ (abs (- t0-utc-diff t1-utc-diff)) 60)
259 (if (< t0-utc-diff t1-utc-diff)
260 (list t0-name t1-name t1-rules t2-rules t1-time t2-time)
261 (list t1-name t0-name t2-rules t1-rules t2-time t1-time)
262 )))))))))))
264 ;;; The following eight defvars relating to daylight savings time should NOT be
265 ;;; marked to go into loaddefs.el where they would be evaluated when Emacs is
266 ;;; dumped. These variables' appropriate values depend on the conditions under
267 ;;; which the code is INVOKED; so it's inappropriate to initialize them when
268 ;;; Emacs is dumped---they should be initialized when calendar.el is loaded.
269 ;;; They default to US Eastern time if time zone info is not available.
271 (calendar-current-time-zone)
273 (defvar calendar-time-zone (or (car calendar-current-time-zone-cache) -300)
274 "*Number of minutes difference between local standard time at
275 `calendar-location-name' and Coordinated Universal (Greenwich) Time. For
276 example, -300 for New York City, -480 for Los Angeles.")
278 (defvar calendar-daylight-time-offset
279 (or (car (cdr calendar-current-time-zone-cache)) 60)
280 "*Number of minutes difference between daylight savings and standard time.
282 If the locale never uses daylight savings time, set this to 0.")
284 (defvar calendar-standard-time-zone-name
285 (or (car (nthcdr 2 calendar-current-time-zone-cache)) "EST")
286 "*Abbreviated name of standard time zone at `calendar-location-name'.
287 For example, \"EST\" in New York City, \"PST\" for Los Angeles.")
289 (defvar calendar-daylight-time-zone-name
290 (or (car (nthcdr 3 calendar-current-time-zone-cache)) "EDT")
291 "*Abbreviated name of daylight-savings time zone at `calendar-location-name'.
292 For example, \"EDT\" in New York City, \"PDT\" for Los Angeles.")
294 ;;;###autoload
295 (put 'calendar-daylight-savings-starts 'risky-local-variable t)
296 (defvar calendar-daylight-savings-starts
297 (or (car (nthcdr 4 calendar-current-time-zone-cache))
298 (and (not (zerop calendar-daylight-time-offset))
299 '(calendar-nth-named-day 1 0 4 year)))
300 "*Sexp giving the date on which daylight savings time starts.
301 This is an expression in the variable `year' whose value gives the Gregorian
302 date in the form (month day year) on which daylight savings time starts. It is
303 used to determine the starting date of daylight savings time for the holiday
304 list and for correcting times of day in the solar and lunar calculations.
306 For example, if daylight savings time is mandated to start on October 1,
307 you would set `calendar-daylight-savings-starts' to
309 '(10 1 year)
311 If it starts on the first Sunday in April, you would set it to
313 '(calendar-nth-named-day 1 0 4 year)
315 If the locale never uses daylight savings time, set this to nil.")
317 ;;;###autoload
318 (put 'calendar-daylight-savings-ends 'risky-local-variable t)
319 (defvar calendar-daylight-savings-ends
320 (or (car (nthcdr 5 calendar-current-time-zone-cache))
321 (and (not (zerop calendar-daylight-time-offset))
322 '(calendar-nth-named-day -1 0 10 year)))
323 "*Sexp giving the date on which daylight savings time ends.
324 This is an expression in the variable `year' whose value gives the Gregorian
325 date in the form (month day year) on which daylight savings time ends. It is
326 used to determine the starting date of daylight savings time for the holiday
327 list and for correcting times of day in the solar and lunar calculations.
329 For example, if daylight savings time ends on the last Sunday in October:
331 '(calendar-nth-named-day -1 0 10 year)
333 If the locale never uses daylight savings time, set this to nil.")
335 (defvar calendar-daylight-savings-starts-time
336 (or (car (nthcdr 6 calendar-current-time-zone-cache)) 120)
337 "*Number of minutes after midnight that daylight savings time starts.")
339 (defvar calendar-daylight-savings-ends-time
340 (or (car (nthcdr 7 calendar-current-time-zone-cache))
341 calendar-daylight-savings-starts-time)
342 "*Number of minutes after midnight that daylight savings time ends.")
344 (defun dst-in-effect (date)
345 "True if on absolute DATE daylight savings time is in effect.
346 Fractional part of DATE is local standard time of day."
347 (let* ((year (extract-calendar-year
348 (calendar-gregorian-from-absolute (floor date))))
349 (dst-starts-gregorian (eval calendar-daylight-savings-starts))
350 (dst-ends-gregorian (eval calendar-daylight-savings-ends))
351 (dst-starts (and dst-starts-gregorian
352 (+ (calendar-absolute-from-gregorian
353 dst-starts-gregorian)
354 (/ calendar-daylight-savings-starts-time
355 60.0 24.0))))
356 (dst-ends (and dst-ends-gregorian
357 (+ (calendar-absolute-from-gregorian
358 dst-ends-gregorian)
359 (/ (- calendar-daylight-savings-ends-time
360 calendar-daylight-time-offset)
361 60.0 24.0)))))
362 (and dst-starts dst-ends
363 (if (< dst-starts dst-ends)
364 (and (<= dst-starts date) (< date dst-ends))
365 (or (<= dst-starts date) (< date dst-ends))))))
367 (defun dst-adjust-time (date time &optional style)
368 "Adjust, to account for dst on DATE, decimal fraction standard TIME.
369 Returns a list (date adj-time zone) where `date' and `adj-time' are the values
370 adjusted for `zone'; here `date' is a list (month day year), `adj-time' is a
371 decimal fraction time, and `zone' is a string.
373 Optional parameter STYLE forces the result time to be standard time when its
374 value is 'standard and daylight savings time (if available) when its value is
375 'daylight.
377 Conversion to daylight savings time is done according to
378 `calendar-daylight-savings-starts', `calendar-daylight-savings-ends',
379 `calendar-daylight-savings-starts-time',
380 `calendar-daylight-savings-ends-time', and
381 `calendar-daylight-savings-offset'."
383 (let* ((rounded-abs-date (+ (calendar-absolute-from-gregorian date)
384 (/ (round (* 60 time)) 60.0 24.0)))
385 (dst (dst-in-effect rounded-abs-date))
386 (time-zone (if dst
387 calendar-daylight-time-zone-name
388 calendar-standard-time-zone-name))
389 (time (+ rounded-abs-date
390 (if dst (/ calendar-daylight-time-offset 24.0 60.0) 0))))
391 (list (calendar-gregorian-from-absolute (truncate time))
392 (* 24.0 (- time (truncate time)))
393 time-zone)))
395 (provide 'cal-dst)
397 ;;; cal-dst.el ends here