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476 lines
21 KiB
EmacsLisp
476 lines
21 KiB
EmacsLisp
;;; cal-china.el --- calendar functions for the Chinese calendar.
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;; Copyright (C) 1995 Free Software Foundation, Inc.
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;; Author: Edward M. Reingold <reingold@cs.uiuc.edu>
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;; Keywords: calendar
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;; Human-Keywords: Chinese calendar, calendar, holidays, diary
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software; you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation; either version 2, or (at your option)
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;; any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs; see the file COPYING. If not, write to the
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;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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;; Boston, MA 02111-1307, USA.
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;;; Commentary:
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;; This collection of functions implements the features of calendar.el,
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;; diary.el, and holidays.el that deal with the Chinese calendar. The rules
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;; used for the Chinese calendar are those of Baolin Liu (see L. E. Doggett's
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;; article "Calendars" in the Explanatory Supplement to the Astronomical
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;; Almanac, second edition, 1992) for the calendar as revised at the beginning
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;; of the Qing dynasty in 1644. The nature of the astronomical calculations
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;; is such that precise calculations cannot be made without great expense in
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;; time, so that the calendars produced may not agree perfectly with published
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;; tables--but no two pairs of published tables agree perfectly either! Liu's
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;; rules produce a calendar for 2033 which is not accepted by all authorities.
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;; The date of Chinese New Year is correct from 1644-2051.
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;; Comments, corrections, and improvements should be sent to
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;; Edward M. Reingold Department of Computer Science
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;; (217) 333-6733 University of Illinois at Urbana-Champaign
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;; reingold@cs.uiuc.edu 1304 West Springfield Avenue
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;; Urbana, Illinois 61801
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;;; Code:
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(require 'lunar)
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(defvar chinese-calendar-celestial-stem
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["Jia" "Yi" "Bing" "Ding" "Wu" "Ji" "Geng" "Xin" "Ren" "Gui"])
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(defvar chinese-calendar-terrestrial-branch
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["Zi" "Chou" "Yin" "Mao" "Chen" "Si" "Wu" "Wei" "Shen" "You" "Xu" "Hai"])
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(defcustom chinese-calendar-time-zone
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'(if (< year 1928)
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(+ 465 (/ 40.0 60.0))
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480)
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"*Number of minutes difference between local standard time for Chinese
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calendar and Coordinated Universal (Greenwich) Time. Default is for Beijing.
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This is an expression in `year' since it changed at 1928-01-01 00:00:00 from
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UT+7:45:40 to UT+8."
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:type 'sexp
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:group 'chinese-calendar)
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(defcustom chinese-calendar-location-name "Beijing"
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"*Name of location used for calculation of Chinese calendar."
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:type 'string
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:group 'chinese-calendar)
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(defcustom chinese-calendar-daylight-time-offset 0
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; The correct value is as follows, but the Chinese calendrical
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; authorities do NOT use DST in determining astronomical events:
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; 60
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"*Number of minutes difference between daylight savings and standard time
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for Chinese calendar. Default is for no daylight savings time."
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:type 'integer
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:group 'chinese-calendar)
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(defcustom chinese-calendar-standard-time-zone-name
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'(if (< year 1928)
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"PMT"
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"CST")
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"*Abbreviated name of standard time zone used for Chinese calendar.
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This is an expression depending on `year' because it changed
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at 1928-01-01 00:00:00 from `PMT' to `CST'."
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:type 'sexp
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:group 'chinese-calendar)
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(defcustom chinese-calendar-daylight-time-zone-name "CDT"
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"*Abbreviated name of daylight-savings time zone used for Chinese calendar."
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:type 'string
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:group 'chinese-calendar)
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(defcustom chinese-calendar-daylight-savings-starts nil
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; The correct value is as follows, but the Chinese calendrical
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; authorities do NOT use DST in determining astronomical events:
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; '(cond ((< 1986 year) (calendar-nth-named-day 1 0 4 year 10))
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; ((= 1986 year) '(5 4 1986))
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; (t nil))
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"*Sexp giving the date on which daylight savings time starts for Chinese
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calendar. Default is for no daylight savings time. See documentation of
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`calendar-daylight-savings-starts'."
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:type 'sexp
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:group 'chinese-calendar)
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(defcustom chinese-calendar-daylight-savings-ends nil
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; The correct value is as follows, but the Chinese calendrical
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; authorities do NOT use DST in determining astronomical events:
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; '(if (<= 1986 year) (calendar-nth-named-day 1 0 9 year 11))
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"*Sexp giving the date on which daylight savings time ends for Chinese
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calendar. Default is for no daylight savings time. See documentation of
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`calendar-daylight-savings-ends'."
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:type 'sexp
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:group 'chinese-calendar)
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(defcustom chinese-calendar-daylight-savings-starts-time 0
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"*Number of minutes after midnight that daylight savings time starts for
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Chinese calendar. Default is for no daylight savings time."
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:type 'integer
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:group 'chinese-calendar)
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(defcustom chinese-calendar-daylight-savings-ends-time 0
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"*Number of minutes after midnight that daylight savings time ends for
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Chinese calendar. Default is for no daylight savings time."
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:type 'integer
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:group 'chinese-calendar)
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(defun chinese-zodiac-sign-on-or-after (d)
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"Absolute date of first new Zodiac sign on or after absolute date d.
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The Zodiac signs begin when the sun's longitude is a multiple of 30 degrees."
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(let* ((year (extract-calendar-year
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(calendar-gregorian-from-absolute d)))
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(calendar-time-zone (eval chinese-calendar-time-zone))
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(calendar-daylight-time-offset
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chinese-calendar-daylight-time-offset)
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(calendar-standard-time-zone-name
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chinese-calendar-standard-time-zone-name)
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(calendar-daylight-time-zone-name
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chinese-calendar-daylight-time-zone-name)
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(calendar-calendar-daylight-savings-starts
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chinese-calendar-daylight-savings-starts)
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(calendar-daylight-savings-ends
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chinese-calendar-daylight-savings-ends)
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(calendar-daylight-savings-starts-time
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chinese-calendar-daylight-savings-starts-time)
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(calendar-daylight-savings-ends-time
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chinese-calendar-daylight-savings-ends-time))
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(floor
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(calendar-absolute-from-astro
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(solar-date-next-longitude
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(calendar-astro-from-absolute d)
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30)))))
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(defun chinese-new-moon-on-or-after (d)
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"Absolute date of first new moon on or after absolute date d."
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(let* ((year (extract-calendar-year
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(calendar-gregorian-from-absolute d)))
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(calendar-time-zone (eval chinese-calendar-time-zone))
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(calendar-daylight-time-offset
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chinese-calendar-daylight-time-offset)
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(calendar-standard-time-zone-name
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chinese-calendar-standard-time-zone-name)
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(calendar-daylight-time-zone-name
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chinese-calendar-daylight-time-zone-name)
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(calendar-calendar-daylight-savings-starts
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chinese-calendar-daylight-savings-starts)
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(calendar-daylight-savings-ends
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chinese-calendar-daylight-savings-ends)
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(calendar-daylight-savings-starts-time
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chinese-calendar-daylight-savings-starts-time)
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(calendar-daylight-savings-ends-time
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chinese-calendar-daylight-savings-ends-time))
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(floor
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(calendar-absolute-from-astro
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(lunar-new-moon-on-or-after
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(calendar-astro-from-absolute d))))))
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(defvar chinese-year-cache
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'((1989 (12 726110) (1 726139) (2 726169) (3 726198) (4 726227) (5 726257)
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(6 726286) (7 726316) (8 726345) (9 726375) (10 726404) (11 726434))
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(1990 (12 726464) (1 726494) (2 726523) (3 726553) (4 726582) (5 726611)
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(5.5 726641) (6 726670) (7 726699) (8 726729) (9 726758) (10 726788)
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(11 726818))
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(1991 (12 726848) (1 726878) (2 726907) (3 726937) (4 726966) (5 726995)
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(6 727025) (7 727054) (8 727083) (9 727113) (10 727142) (11 727172))
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(1992 (12 727202) (1 727232) (2 727261) (3 727291) (4 727321) (5 727350)
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(6 727379) (7 727409) (8 727438) (9 727467) (10 727497) (11 727526))
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(1993 (12 727556) (1 727586) (2 727615) (3 727645) (3.5 727675) (4 727704)
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(5 727734) (6 727763) (7 727793) (8 727822) (9 727851) (10 727881)
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(11 727910))
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(1994 (12 727940) (1 727969) (2 727999) (3 728029) (4 728059) (5 728088)
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(6 728118) (7 728147) (8 728177) (9 728206) (10 728235) (11 728265))
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(1995 (12 728294) (1 728324) (2 728353) (3 728383) (4 728413) (5 728442)
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(6 728472) (7 728501) (8 728531) (8.5 728561) (9 728590) (10 728619)
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(11 728649))
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(1996 (12 728678) (1 728708) (2 728737) (3 728767) (4 728796) (5 728826)
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(6 728856) (7 728885) (8 728915) (9 728944) (10 728974) (11 729004))
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(1997 (12 729033) (1 729062) (2 729092) (3 729121) (4 729151) (5 729180)
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(6 729210) (7 729239) (8 729269) (9 729299) (10 729328) (11 729358))
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(1998 (12 729388) (1 729417) (2 729447) (3 729476) (4 729505) (5 729535)
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(5.5 729564) (6 729593) (7 729623) (8 729653) (9 729682) (10 729712)
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(11 729742))
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(1999 (12 729771) (1 729801) (2 729831) (3 729860) (4 729889) (5 729919)
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(6 729948) (7 729977) (8 730007) (9 730036) (10 730066) (11 730096))
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(2000 (12 730126) (1 730155) (2 730185) (3 730215) (4 730244) (5 730273)
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(6 730303) (7 730332) (8 730361) (9 730391) (10 730420) (11 730450)))
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"An assoc list of Chinese year structures as determined by `chinese-year'.
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Values are computed as needed, but to save time, the initial value consists
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of the precomputed years 1989-2000. The code works just as well with this
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set to nil initially (which is how the value for 1989-2000 was computed).")
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(defun chinese-year (y)
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"The structure of the Chinese year for Gregorian year Y.
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The result is a list of pairs (i d), where month i begins on absolute date d,
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of the Chinese months from the Chinese month following the solstice in
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Gregorian year Y-1 to the Chinese month of the solstice of Gregorian year Y.
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The list is cached for further use."
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(let ((list (cdr (assoc y chinese-year-cache))))
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(if (not list)
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(progn
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(setq list (compute-chinese-year y))
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(setq chinese-year-cache
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(append chinese-year-cache (list (cons y list))))))
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list))
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(defun number-chinese-months (list start)
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"Assign month numbers to the lunar months in LIST, starting with START.
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Numbers are assigned sequentially, START, START+1, ..., 11, with half
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numbers used for leap months.
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First month of list will never be a leap month, nor will the last."
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(if list
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(if (zerop (- 12 start (length list)))
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;; List is too short for a leap month
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(cons (list start (car list))
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(number-chinese-months (cdr list) (1+ start)))
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(cons
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;; First month
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(list start (car list))
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;; Remaining months
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(if (and (cdr (cdr list));; at least two more months...
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(<= (car (cdr (cdr list)))
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(chinese-zodiac-sign-on-or-after (car (cdr list)))))
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;; Next month is a leap month
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(cons (list (+ start 0.5) (car (cdr list)))
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(number-chinese-months (cdr (cdr list)) (1+ start)))
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;; Next month is not a leap month
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(number-chinese-months (cdr list) (1+ start)))))))
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(defun chinese-month-list (start end)
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"List of starting dates of Chinese months from START to END."
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(if (<= start end)
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(let ((new-moon (chinese-new-moon-on-or-after start)))
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(if (<= new-moon end)
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(cons new-moon
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(chinese-month-list (1+ new-moon) end))))))
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(defun compute-chinese-year (y)
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"Compute the structure of the Chinese year for Gregorian year Y.
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The result is a list of pairs (i d), where month i begins on absolute date d,
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of the Chinese months from the Chinese month following the solstice in
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Gregorian year Y-1 to the Chinese month of the solstice of Gregorian year Y."
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(let* ((next-solstice (chinese-zodiac-sign-on-or-after
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(calendar-absolute-from-gregorian
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(list 12 15 y))))
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(list (chinese-month-list (1+ (chinese-zodiac-sign-on-or-after
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(calendar-absolute-from-gregorian
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(list 12 15 (1- y)))))
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next-solstice))
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(next-sign (chinese-zodiac-sign-on-or-after (car list))))
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(if (= (length list) 12)
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;; No room for a leap month, just number them 12, 1, 2, ..., 11
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(cons (list 12 (car list))
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(number-chinese-months (cdr list) 1))
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;; Now we can assign numbers to the list for y
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;; The first month or two are special
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(if (or (> (car list) next-sign) (>= next-sign (car (cdr list))))
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;; First month on list is a leap month, second is not
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(append (list (list 11.5 (car list))
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(list 12 (car (cdr list))))
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(number-chinese-months (cdr (cdr list)) 1))
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;; First month on list is not a leap month
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(append (list (list 12 (car list)))
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(if (>= (chinese-zodiac-sign-on-or-after (car (cdr list)))
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(car (cdr (cdr list))))
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;; Second month on list is a leap month
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(cons (list 12.5 (car (cdr list)))
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(number-chinese-months (cdr (cdr list)) 1))
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;; Second month on list is not a leap month
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(number-chinese-months (cdr list) 1)))))))
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(defun calendar-absolute-from-chinese (date)
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"The number of days elapsed between the Gregorian date 12/31/1 BC and DATE.
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The Gregorian date Sunday, December 31, 1 BC is imaginary."
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(let* ((cycle (car date))
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(year (car (cdr date)))
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(month (car (cdr (cdr date))))
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(day (car (cdr (cdr (cdr date)))))
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(g-year (+ (* (1- cycle) 60);; years in prior cycles
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(1- year) ;; prior years this cycle
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-2636))) ;; years before absolute date 0
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(+ (1- day);; prior days this month
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(car
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(cdr ;; absolute date of start of this month
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(assoc month (append (memq (assoc 1 (chinese-year g-year))
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(chinese-year g-year))
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(chinese-year (1+ g-year)))))))))
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(defun calendar-chinese-from-absolute (date)
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"Compute Chinese date (cycle year month day) corresponding to absolute DATE.
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The absolute date is the number of days elapsed since the (imaginary)
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Gregorian date Sunday, December 31, 1 BC."
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(let* ((g-year (extract-calendar-year
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(calendar-gregorian-from-absolute date)))
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(c-year (+ g-year 2695))
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(list (append (chinese-year (1- g-year))
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(chinese-year g-year)
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(chinese-year (1+ g-year)))))
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(while (<= (car (cdr (car (cdr list)))) date)
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;; the first month on the list is in Chinese year c-year
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;; date is on or after start of second month on list...
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(if (= 1 (car (car (cdr list))))
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;; second month on list is a new Chinese year
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(setq c-year (1+ c-year)))
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;; ...so first month on list is of no interest
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(setq list (cdr list)))
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(list (/ (1- c-year) 60)
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(calendar-mod c-year 60)
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(car (car list))
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(1+ (- date (car (cdr (car list))))))))
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(defun holiday-chinese-new-year ()
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"Date of Chinese New Year."
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(let ((m displayed-month)
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(y displayed-year))
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(increment-calendar-month m y 1)
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(if (< m 5)
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(let ((chinese-new-year
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(calendar-gregorian-from-absolute
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(car (cdr (assoc 1 (chinese-year y)))))))
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(if (calendar-date-is-visible-p chinese-new-year)
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(list
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(list chinese-new-year
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(format "Chinese New Year (%s)"
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(calendar-chinese-sexagesimal-name (+ y 57))))))))))
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(defun calendar-chinese-date-string (&optional date)
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"String of Chinese date of Gregorian DATE.
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Defaults to today's date if DATE is not given."
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(let* ((a-date (calendar-absolute-from-gregorian
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(or date (calendar-current-date))))
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(c-date (calendar-chinese-from-absolute a-date))
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(cycle (car c-date))
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(year (car (cdr c-date)))
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(month (car (cdr (cdr c-date))))
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(day (car (cdr (cdr (cdr c-date)))))
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(this-month (calendar-absolute-from-chinese
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(list cycle year month 1)))
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(next-month (calendar-absolute-from-chinese
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(list (if (= year 60) (1+ cycle) cycle)
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(if (= (floor month) 12) (1+ year) year)
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(calendar-mod (1+ (floor month)) 12)
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1)))
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(m-cycle (% (+ (* year 5) (floor month)) 60)))
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(format "Cycle %s, year %s (%s), %smonth %s%s, day %s (%s)"
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cycle
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year (calendar-chinese-sexagesimal-name year)
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(if (not (integerp month))
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"second "
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(if (< 30 (- next-month this-month))
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"first "
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""))
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(floor month)
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(if (integerp month)
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(format " (%s)" (calendar-chinese-sexagesimal-name
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(+ (* 12 year) month 50)))
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"")
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day (calendar-chinese-sexagesimal-name (+ a-date 15)))))
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(defun calendar-chinese-sexagesimal-name (n)
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"The N-th name of the Chinese sexagesimal cycle.
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N congruent to 1 gives the first name, N congruent to 2 gives the second name,
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..., N congruent to 60 gives the sixtieth name."
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(format "%s-%s"
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(aref chinese-calendar-celestial-stem (% (1- n) 10))
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(aref chinese-calendar-terrestrial-branch (% (1- n) 12))))
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(defun calendar-print-chinese-date ()
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"Show the Chinese date equivalents of date."
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(interactive)
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(message "Computing Chinese date...")
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(message "Chinese date: %s"
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(calendar-chinese-date-string (calendar-cursor-to-date t))))
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(defun calendar-goto-chinese-date (date &optional noecho)
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"Move cursor to Chinese date DATE.
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Echo Chinese date unless NOECHO is t."
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(interactive
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(let* ((c (calendar-chinese-from-absolute
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(calendar-absolute-from-gregorian
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(calendar-current-date))))
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(cycle (calendar-read
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"Chinese calendar cycle number (>44): "
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'(lambda (x) (> x 44))
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(int-to-string (car c))))
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(year (calendar-read
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"Year in Chinese cycle (1..60): "
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'(lambda (x) (and (<= 1 x) (<= x 60)))
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(int-to-string (car (cdr c)))))
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(month-list (make-chinese-month-assoc-list
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(chinese-months cycle year)))
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(month (cdr (assoc
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(completing-read "Chinese calendar month: "
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month-list nil t)
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month-list)))
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(last (if (= month
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(car (cdr (cdr
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(calendar-chinese-from-absolute
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(+ 29
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(calendar-absolute-from-chinese
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(list cycle year month 1))))))))
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30
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29))
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(day (calendar-read
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(format "Chinese calendar day (1-%d): " last)
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'(lambda (x) (and (<= 1 x) (<= x last))))))
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(list (list cycle year month day))))
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(calendar-goto-date (calendar-gregorian-from-absolute
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(calendar-absolute-from-chinese date)))
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(or noecho (calendar-print-chinese-date)))
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(defun chinese-months (c y)
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"A list of the months in cycle C, year Y of the Chinese calendar."
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(let* ((l (memq 1 (append
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(mapcar '(lambda (x)
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(car x))
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(chinese-year (extract-calendar-year
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(calendar-gregorian-from-absolute
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(calendar-absolute-from-chinese
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(list c y 1 1))))))
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(mapcar '(lambda (x)
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(if (> (car x) 11) (car x)))
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(chinese-year (extract-calendar-year
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(calendar-gregorian-from-absolute
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(calendar-absolute-from-chinese
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(list (if (= y 60) (1+ c) c)
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(if (= y 60) 1 y)
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1 1))))))))))
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l))
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(defun make-chinese-month-assoc-list (l)
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"Make list of months L into an assoc list."
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(if (and l (car l))
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(if (and (cdr l) (car (cdr l)))
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(if (= (car l) (floor (car (cdr l))))
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(append
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(list (cons (format "%s (first)" (car l)) (car l))
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(cons (format "%s (second)" (car l)) (car (cdr l))))
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(make-chinese-month-assoc-list (cdr (cdr l))))
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(append
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(list (cons (int-to-string (car l)) (car l)))
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(make-chinese-month-assoc-list (cdr l))))
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(list (cons (int-to-string (car l)) (car l))))))
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(defun diary-chinese-date ()
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"Chinese calendar equivalent of date diary entry."
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(format "Chinese date: %s" (calendar-chinese-date-string date)))
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(provide 'cal-china)
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;;; cal-china.el ends here
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