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441 lines
16 KiB
EmacsLisp
441 lines
16 KiB
EmacsLisp
;;; time-date.el --- Date and time handling functions
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;; Copyright (C) 1998-2016 Free Software Foundation, Inc.
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;; Author: Lars Magne Ingebrigtsen <larsi@gnus.org>
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;; Masanobu Umeda <umerin@mse.kyutech.ac.jp>
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;; Keywords: mail news util
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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 3 of the License, or
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;; (at your option) 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. If not, see <http://www.gnu.org/licenses/>.
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;;; Commentary:
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;; Time values come in several formats. The oldest format is a cons
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;; cell of the form (HIGH . LOW). This format is obsolete, but still
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;; supported. The other formats are the lists (HIGH LOW), (HIGH LOW
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;; USEC), and (HIGH LOW USEC PSEC). These formats specify the time
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;; value equal to HIGH * 2^16 + LOW + USEC * 10^-6 + PSEC * 10^-12
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;; seconds, where missing components are treated as zero. HIGH can be
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;; negative, either because the value is a time difference, or because
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;; it represents a time stamp before the epoch. Typically, there are
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;; more time values than the underlying system time type supports,
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;; but the reverse can also be true.
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;;; Code:
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(defmacro with-decoded-time-value (varlist &rest body)
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"Decode a time value and bind it according to VARLIST, then eval BODY.
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The value of the last form in BODY is returned.
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Each element of the list VARLIST is a list of the form
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\(HIGH-SYMBOL LOW-SYMBOL MICRO-SYMBOL [PICO-SYMBOL [TYPE-SYMBOL]] TIME-VALUE).
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The time value TIME-VALUE is decoded and the result is bound to
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the symbols HIGH-SYMBOL, LOW-SYMBOL and MICRO-SYMBOL.
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The optional PICO-SYMBOL is bound to the picoseconds part.
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The optional TYPE-SYMBOL is bound to the type of the time value.
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Type 0 is the cons cell (HIGH . LOW), type 1 is the list (HIGH
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LOW), type 2 is the list (HIGH LOW MICRO), and type 3 is the
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list (HIGH LOW MICRO PICO)."
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(declare (indent 1)
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(debug ((&rest (symbolp symbolp symbolp
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&or [symbolp symbolp form] [symbolp form] form))
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body)))
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(if varlist
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(let* ((elt (pop varlist))
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(high (pop elt))
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(low (pop elt))
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(micro (pop elt))
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(pico (unless (<= (length elt) 2)
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(pop elt)))
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(type (unless (eq (length elt) 1)
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(pop elt)))
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(time-value (car elt))
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(gensym (make-symbol "time")))
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`(let* ,(append `((,gensym (or ,time-value (current-time)))
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(,gensym
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(cond
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((integerp ,gensym)
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(list (ash ,gensym -16)
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(logand ,gensym 65535)))
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((floatp ,gensym)
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(let* ((usec (* 1000000 (mod ,gensym 1)))
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(ps (round (* 1000000 (mod usec 1))))
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(us (floor usec))
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(lo (floor (mod ,gensym 65536)))
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(hi (floor ,gensym 65536)))
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(if (eq ps 1000000)
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(progn
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(setq ps 0)
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(setq us (1+ us))
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(if (eq us 1000000)
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(progn
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(setq us 0)
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(setq lo (1+ lo))
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(if (eq lo 65536)
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(progn
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(setq lo 0)
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(setq hi (1+ hi))))))))
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(list hi lo us ps)))
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(t ,gensym)))
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(,high (pop ,gensym))
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,low ,micro)
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(when pico `(,pico))
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(when type `(,type)))
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(if (consp ,gensym)
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(progn
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(setq ,low (pop ,gensym))
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(if ,gensym
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(progn
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(setq ,micro (car ,gensym))
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,(cond (pico
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`(if (cdr ,gensym)
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,(append `(setq ,pico (cadr ,gensym))
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(when type `(,type 3)))
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,(append `(setq ,pico 0)
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(when type `(,type 2)))))
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(type
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`(setq type 2))))
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,(append `(setq ,micro 0)
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(when pico `(,pico 0))
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(when type `(,type 1)))))
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,(append `(setq ,low ,gensym ,micro 0)
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(when pico `(,pico 0))
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(when type `(,type 0))))
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(with-decoded-time-value ,varlist ,@body)))
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`(progn ,@body)))
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(defun encode-time-value (high low micro pico &optional type)
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"Encode HIGH, LOW, MICRO, and PICO into a time value of type TYPE.
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Type 0 is the cons cell (HIGH . LOW), type 1 is the list (HIGH LOW),
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type 2 is (HIGH LOW MICRO), and type 3 is (HIGH LOW MICRO PICO).
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For backward compatibility, if only four arguments are given,
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it is assumed that PICO was omitted and should be treated as zero."
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(cond
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((eq type 0) (cons high low))
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((eq type 1) (list high low))
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((eq type 2) (list high low micro))
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((eq type 3) (list high low micro pico))
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((null type) (encode-time-value high low micro 0 pico))))
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(when (and (fboundp 'time-add) (subrp (symbol-function 'time-add)))
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(make-obsolete 'encode-time-value nil "25.1")
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(make-obsolete 'with-decoded-time-value nil "25.1"))
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(autoload 'parse-time-string "parse-time")
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(autoload 'timezone-make-date-arpa-standard "timezone")
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;;;###autoload
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;; `parse-time-string' isn't sufficiently general or robust. It fails
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;; to grok some of the formats that timezone does (e.g. dodgy
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;; post-2000 stuff from some Elms) and either fails or returns bogus
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;; values. timezone-make-date-arpa-standard should help.
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(defun date-to-time (date)
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"Parse a string DATE that represents a date-time and return a time value.
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If DATE lacks timezone information, GMT is assumed."
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(condition-case err
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(apply 'encode-time (parse-time-string date))
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(error
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(let ((overflow-error '(error "Specified time is not representable")))
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(if (equal err overflow-error)
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(apply 'signal err)
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(condition-case err
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(apply 'encode-time
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(parse-time-string
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(timezone-make-date-arpa-standard date)))
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(error
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(if (equal err overflow-error)
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(apply 'signal err)
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(error "Invalid date: %s" date)))))))))
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;; Bit of a mess. Emacs has float-time since at least 21.1.
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;; This file is synced to Gnus, and XEmacs packages may have been written
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;; using time-to-seconds from the Gnus library.
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;;;###autoload(if (or (featurep 'emacs)
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;;;###autoload (and (fboundp 'float-time)
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;;;###autoload (subrp (symbol-function 'float-time))))
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;;;###autoload (defalias 'time-to-seconds 'float-time)
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;;;###autoload (autoload 'time-to-seconds "time-date"))
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(eval-when-compile
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(or (featurep 'emacs)
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(and (fboundp 'float-time)
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(subrp (symbol-function 'float-time)))
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(defun time-to-seconds (&optional time)
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"Convert optional value TIME to a floating point number.
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TIME defaults to the current time."
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(with-decoded-time-value ((high low micro pico _type
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(or time (current-time))))
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(+ (* high 65536.0)
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low
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(/ (+ (* micro 1e6) pico) 1e12))))))
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;;;###autoload
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(defun seconds-to-time (seconds)
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"Convert SECONDS to a time value."
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(time-add 0 seconds))
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;;;###autoload
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(defun days-to-time (days)
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"Convert DAYS into a time value."
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(let ((time (condition-case nil (seconds-to-time (* 86400.0 days))
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(range-error (list most-positive-fixnum 65535)))))
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(if (integerp days)
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(setcdr (cdr time) nil))
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time))
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;;;###autoload
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(defun time-since (time)
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"Return the time elapsed since TIME.
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TIME should be either a time value or a date-time string."
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(when (stringp time)
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;; Convert date strings to internal time.
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(setq time (date-to-time time)))
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(time-subtract nil time))
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;;;###autoload
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(defalias 'subtract-time 'time-subtract)
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;; These autoloads do nothing in Emacs 25, where the functions are builtin.
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;;;###autoload(autoload 'time-add "time-date")
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;;;###autoload(autoload 'time-subtract "time-date")
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;;;###autoload(autoload 'time-less-p "time-date")
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(eval-and-compile
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(when (not (and (fboundp 'time-add) (subrp (symbol-function 'time-add))))
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(defun time-add (t1 t2)
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"Add two time values T1 and T2. One should represent a time difference."
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(with-decoded-time-value ((high low micro pico type t1)
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(high2 low2 micro2 pico2 type2 t2))
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(setq high (+ high high2)
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low (+ low low2)
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micro (+ micro micro2)
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pico (+ pico pico2)
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type (max type type2))
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(when (>= pico 1000000)
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(setq micro (1+ micro)
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pico (- pico 1000000)))
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(when (>= micro 1000000)
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(setq low (1+ low)
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micro (- micro 1000000)))
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(when (>= low 65536)
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(setq high (1+ high)
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low (- low 65536)))
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(encode-time-value high low micro pico type)))
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(defun time-subtract (t1 t2)
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"Subtract two time values, T1 minus T2.
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Return the difference in the format of a time value."
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(with-decoded-time-value ((high low micro pico type t1)
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(high2 low2 micro2 pico2 type2 t2))
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(setq high (- high high2)
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low (- low low2)
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micro (- micro micro2)
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pico (- pico pico2)
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type (max type type2))
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(when (< pico 0)
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(setq micro (1- micro)
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pico (+ pico 1000000)))
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(when (< micro 0)
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(setq low (1- low)
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micro (+ micro 1000000)))
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(when (< low 0)
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(setq high (1- high)
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low (+ low 65536)))
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(encode-time-value high low micro pico type)))
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(defun time-less-p (t1 t2)
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"Return non-nil if time value T1 is earlier than time value T2."
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(with-decoded-time-value ((high1 low1 micro1 pico1 _type1 t1)
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(high2 low2 micro2 pico2 _type2 t2))
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(or (< high1 high2)
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(and (= high1 high2)
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(or (< low1 low2)
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(and (= low1 low2)
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(or (< micro1 micro2)
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(and (= micro1 micro2)
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(< pico1 pico2)))))))))))
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;;;###autoload
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(defun date-to-day (date)
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"Return the number of days between year 1 and DATE.
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DATE should be a date-time string."
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(time-to-days (date-to-time date)))
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;;;###autoload
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(defun days-between (date1 date2)
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"Return the number of days between DATE1 and DATE2.
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DATE1 and DATE2 should be date-time strings."
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(- (date-to-day date1) (date-to-day date2)))
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;;;###autoload
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(defun date-leap-year-p (year)
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"Return t if YEAR is a leap year."
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(or (and (zerop (% year 4))
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(not (zerop (% year 100))))
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(zerop (% year 400))))
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(defun time-date--day-in-year (tim)
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"Return the day number within the year corresponding to the decoded time TIM."
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(let* ((month (nth 4 tim))
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(day (nth 3 tim))
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(year (nth 5 tim))
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(day-of-year (+ day (* 31 (1- month)))))
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(when (> month 2)
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(setq day-of-year (- day-of-year (/ (+ 23 (* 4 month)) 10)))
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(when (date-leap-year-p year)
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(setq day-of-year (1+ day-of-year))))
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day-of-year))
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;;;###autoload
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(defun time-to-day-in-year (time)
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"Return the day number within the year corresponding to TIME."
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(time-date--day-in-year (decode-time time)))
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;;;###autoload
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(defun time-to-days (time)
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"The number of days between the Gregorian date 0001-12-31bce and TIME.
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TIME should be a time value.
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The Gregorian date Sunday, December 31, 1bce is imaginary."
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(let* ((tim (decode-time time))
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(year (nth 5 tim)))
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(+ (time-date--day-in-year tim) ; Days this year
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(* 365 (1- year)) ; + Days in prior years
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(/ (1- year) 4) ; + Julian leap years
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(- (/ (1- year) 100)) ; - century years
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(/ (1- year) 400)))) ; + Gregorian leap years
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(defun time-to-number-of-days (time)
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"Return the number of days represented by TIME.
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Returns a floating point number."
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(/ (funcall (eval-when-compile
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(if (or (featurep 'emacs)
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(and (fboundp 'float-time)
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(subrp (symbol-function 'float-time))))
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'float-time
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'time-to-seconds)) time) (* 60 60 24)))
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;;;###autoload
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(defun safe-date-to-time (date)
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"Parse a string DATE that represents a date-time and return a time value.
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If DATE is malformed, return a time value of zeros."
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(condition-case ()
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(date-to-time date)
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(error '(0 0))))
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;;;###autoload
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(defun format-seconds (string seconds)
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"Use format control STRING to format the number SECONDS.
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The valid format specifiers are:
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%y is the number of (365-day) years.
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%d is the number of days.
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%h is the number of hours.
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%m is the number of minutes.
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%s is the number of seconds.
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%z is a non-printing control flag (see below).
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%% is a literal \"%\".
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Upper-case specifiers are followed by the unit-name (e.g. \"years\").
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Lower-case specifiers return only the unit.
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\"%\" may be followed by a number specifying a width, with an
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optional leading \".\" for zero-padding. For example, \"%.3Y\" will
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return something of the form \"001 year\".
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The \"%z\" specifier does not print anything. When it is used, specifiers
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must be given in order of decreasing size. To the left of \"%z\", nothing
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is output until the first non-zero unit is encountered.
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This function does not work for SECONDS greater than `most-positive-fixnum'."
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(let ((start 0)
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(units '(("y" "year" 31536000)
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("d" "day" 86400)
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("h" "hour" 3600)
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("m" "minute" 60)
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("s" "second" 1)
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("z")))
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(case-fold-search t)
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spec match usedunits zeroflag larger prev name unit num zeropos)
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(while (string-match "%\\.?[0-9]*\\(.\\)" string start)
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(setq start (match-end 0)
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spec (match-string 1 string))
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(unless (string-equal spec "%")
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(or (setq match (assoc (downcase spec) units))
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(error "Bad format specifier: `%s'" spec))
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(if (assoc (downcase spec) usedunits)
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(error "Multiple instances of specifier: `%s'" spec))
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(if (string-equal (car match) "z")
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(setq zeroflag t)
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(unless larger
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(setq unit (nth 2 match)
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larger (and prev (> unit prev))
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prev unit)))
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(push match usedunits)))
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(and zeroflag larger
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(error "Units are not in decreasing order of size"))
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(dolist (u units)
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(setq spec (car u)
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name (cadr u)
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unit (nth 2 u))
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(when (string-match (format "%%\\(\\.?[0-9]+\\)?\\(%s\\)" spec) string)
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(if (string-equal spec "z") ; must be last in units
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(setq string
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(replace-regexp-in-string
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"%z" ""
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(substring string (min (or zeropos (match-end 0))
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(match-beginning 0)))))
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;; Cf article-make-date-line in gnus-art.
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(setq num (floor seconds unit)
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seconds (- seconds (* num unit)))
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;; Start position of the first non-zero unit.
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(or zeropos
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(setq zeropos (unless (zerop num) (match-beginning 0))))
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(setq string
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(replace-match
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(format (concat "%" (match-string 1 string) "d%s") num
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(if (string-equal (match-string 2 string) spec)
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"" ; lower-case, no unit-name
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(format " %s%s" name
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(if (= num 1) "" "s"))))
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t t string))))))
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(replace-regexp-in-string "%%" "%" string))
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(defvar seconds-to-string
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(list (list 1 "ms" 0.001)
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(list 100 "s" 1)
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(list (* 60 100) "m" 60.0)
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(list (* 3600 30) "h" 3600.0)
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(list (* 3600 24 400) "d" (* 3600.0 24.0))
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(list nil "y" (* 365.25 24 3600)))
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"Formatting used by the function `seconds-to-string'.")
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;;;###autoload
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(defun seconds-to-string (delay)
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"Convert the time interval in seconds to a short string."
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(cond ((> 0 delay) (concat "-" (seconds-to-string (- delay))))
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((= 0 delay) "0s")
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(t (let ((sts seconds-to-string) here)
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(while (and (car (setq here (pop sts)))
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(<= (car here) delay)))
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(concat (format "%.2f" (/ delay (car (cddr here)))) (cadr here))))))
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(provide 'time-date)
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;;; time-date.el ends here
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