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1081 lines
38 KiB
EmacsLisp
1081 lines
38 KiB
EmacsLisp
;;; timeclock.el --- mode for keeping track of how much you work
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;; Copyright (C) 1999, 2000 Free Software Foundation, Inc.
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;; Author: John Wiegley <johnw@gnu.org>
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;; Created: 25 Mar 1999
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;; Version: 2.3
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;; Keywords: calendar data
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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 mode is for keeping track of time intervals. You can use it
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;; for whatever purpose you like, but the typical scenario is to keep
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;; track of how much time you spend working on certain projects.
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;;
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;; Use `timeclock-in' when you start on a project, and `timeclock-out'
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;; when you're done. Once you've collected some data, you can use
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;; `timeclock-workday-remaining' to see how much time is left to be
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;; worked today (assuming a typical average of 8 hours a day), and
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;; `timeclock-when-to-leave' which will calculate when you're free.
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;; You'll probably want to bind the timeclock commands to some handy
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;; keystrokes. At the moment, C-x t is unused in Emacs 20:
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;;
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;; (require 'timeclock)
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;;
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;; (define-key ctl-x-map "ti" 'timeclock-in)
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;; (define-key ctl-x-map "to" 'timeclock-out)
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;; (define-key ctl-x-map "tc" 'timeclock-change)
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;; (define-key ctl-x-map "tr" 'timeclock-reread-log)
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;; (define-key ctl-x-map "tu" 'timeclock-update-modeline)
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;; (define-key ctl-x-map "tw" 'timeclock-when-to-leave-string)
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;; If you want Emacs to display the amount of time "left" to your
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;; workday in the modeline, you can either set the value of
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;; `timeclock-modeline-display' to t using M-x customize, or you
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;; can add this code to your .emacs file:
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;;
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;; (require 'timeclock)
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;; (timeclock-modeline-display)
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;;
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;; To cancel this modeline display at any time, just call
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;; `timeclock-modeline-display' again.
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;; You may also want Emacs to ask you before exiting, if you are
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;; current working on a project. This can be done either by setting
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;; `timeclock-ask-before-exiting' to t using M-x customize (this is
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;; the default), or by adding the following to your .emacs file:
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;;
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;; (add-hook 'kill-emacs-hook 'timeclock-query-out)
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;; NOTE: If you change your .timelog file without using timeclock's
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;; functions, or if you change the value of any of timeclock's
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;; customizable variables, you should run the command
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;; `timeclock-reread-log'. This will recompute any discrepancies in
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;; your average working time, and will make sure that the various
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;; display functions return the correct value.
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;;; History:
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;;; Code:
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(defgroup timeclock nil
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"Keeping track time of the time that gets spent."
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:group 'data)
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;;; User Variables:
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(defcustom timeclock-file (convert-standard-filename "~/.timelog")
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"*The file used to store timeclock data in."
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:type 'file
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:group 'timeclock)
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(defcustom timeclock-workday (* 8 60 60)
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"*The length of a work period."
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:type 'integer
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:group 'timeclock)
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(defcustom timeclock-relative t
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"*When reporting time, make it relative to `timeclock-workday'?
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For example, if the length of a normal workday is eight hours, and you
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work four hours on Monday, then the amount of time \"remaining\" on
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Tuesday is twelve hours -- relative to an averaged work period of
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eight hours -- or eight hours, non-relative. So relative time takes
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into account any discrepancy of time under-worked or overworked on
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previous days."
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:type 'boolean
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:group 'timeclock)
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(defcustom timeclock-get-project-function 'timeclock-ask-for-project
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"*The function used to determine the name of the current project.
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When clocking in, and no project is specified, this function will be
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called to determine what the current project to be worked on is.
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If this variable is nil, no questions will be asked."
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:type 'function
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:group 'timeclock)
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(defcustom timeclock-get-reason-function 'timeclock-ask-for-reason
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"*A function used to determine the reason for clocking out.
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When clocking out, and no reason is specified, this function will be
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called to determine what the reason is.
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If this variable is nil, no questions will be asked."
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:type 'function
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:group 'timeclock)
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(defcustom timeclock-get-workday-function nil
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"*A function used to determine the length of today's workday.
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The first time that a user clocks in each day, this function will be
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called to determine what the length of the current workday is. If
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nil, or equal to `timeclock-workday', nothing special will be done.
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If it is a quantity different from `timeclock-workday', however, a
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record will be output to the timelog file to note the fact that that
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day has a different length from the norm."
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:type 'function
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:group 'timeclock)
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(defcustom timeclock-ask-before-exiting t
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"*If non-nil, ask if the user wants to clock out before exiting Emacs."
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:set (lambda (symbol value)
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(if value
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(add-hook 'kill-emacs-hook 'timeclock-query-out)
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(remove-hook 'kill-emacs-hook 'timeclock-query-out))
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(setq timeclock-ask-before-exiting value))
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:type 'boolean
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:group 'timeclock)
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(defvar timeclock-update-timer nil
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"The timer used to update `timeclock-mode-string'.")
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(defcustom timeclock-use-display-time t
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"*If non-nil, use `display-time-hook' for doing modeline updates.
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The advantage to this is that it means one less timer has to be set
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running amok in Emacs' process space. The disadvantage is that it
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requires you to have `display-time' running. If you don't want to use
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`display-time', but still want the modeline to show how much time is
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left, set this variable to nil. You will need to restart Emacs (or
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toggle the value of `timeclock-modeline-display') for the change to
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take effect."
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:set (lambda (symbol value)
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(let ((currently-displaying
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(and (boundp 'timeclock-modeline-display)
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timeclock-modeline-display)))
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;; if we're changing to the state that
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;; `timeclock-modeline-display' is already using, don't
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;; bother toggling it. This happens on the initial loading
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;; of timeclock.el.
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(if (and currently-displaying
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(or (and value
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(boundp 'display-time-hook)
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(memq 'timeclock-update-modeline
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display-time-hook))
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(and (not value)
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timeclock-update-timer)))
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(setq currently-displaying nil))
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(and currently-displaying
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(set-variable timeclock-modeline-display nil))
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(setq timeclock-use-display-time value)
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(and currently-displaying
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(set-variable timeclock-modeline-display t))
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timeclock-use-display-time))
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:type 'boolean
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:group 'timeclock
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:require 'time)
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(defcustom timeclock-first-in-hook nil
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"*A hook run for the first \"in\" event each day.
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Note that this hook is run before recording any events. Thus the
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value of `timeclock-hours-today', `timeclock-last-event' and the
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return value of function `timeclock-last-period' are relative previous
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to today."
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:type 'hook
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:group 'timeclock)
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(defcustom timeclock-load-hook nil
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"*Hook that gets run after timeclock has been loaded."
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:type 'hook
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:group 'timeclock)
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(defcustom timeclock-in-hook nil
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"*A hook run every time an \"in\" event is recorded."
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:type 'hook
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:group 'timeclock)
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(defcustom timeclock-day-over-hook nil
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"*A hook that is run when the workday has been completed.
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This hook is only run if the current time remaining is being display
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in the modeline. See the variable `timeclock-modeline-display'."
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:type 'hook
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:group 'timeclock)
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(defcustom timeclock-out-hook nil
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"*A hook run every time an \"out\" event is recorded."
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:type 'hook
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:group 'timeclock)
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(defcustom timeclock-done-hook nil
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"*A hook run every time a project is marked as completed."
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:type 'hook
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:group 'timeclock)
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(defcustom timeclock-event-hook nil
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"*A hook run every time any event is recorded."
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:type 'hook
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:group 'timeclock)
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(defvar timeclock-last-event nil
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"A list containing the last event that was recorded.
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The format of this list is (CODE TIME PROJECT).")
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(defvar timeclock-last-event-workday nil
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"The number of seconds in the workday of `timeclock-last-event'.")
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;;; Internal Variables:
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(defvar timeclock-discrepancy nil
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"A variable containing the time discrepancy before the last event.
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Normally, timeclock assumes that you intend to work for
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`timeclock-workday' seconds every day. Any days in which you work
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more or less than this amount is considered either a positive or
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negative discrepancy. If you work in such a manner that the
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discrepancy is always brought back to zero, then you will by
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definition have worked an average amount equal to `timeclock-workday'
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each day.")
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(defvar timeclock-elapsed nil
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"A variable containing the time elapsed for complete periods today.
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This value is not accurate enough to be useful by itself. Rather,
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call `timeclock-workday-elapsed', to determine how much time has been
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worked so far today. Also, if `timeclock-relative' is nil, this value
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will be the same as `timeclock-discrepancy'.")
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(defvar timeclock-last-period nil
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"Integer representing the number of seconds in the last period.
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Note that you shouldn't access this value, but should use the function
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`timeclock-last-period' instead.")
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(defvar timeclock-mode-string nil
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"The timeclock string (optionally) displayed in the modeline.")
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(defvar timeclock-day-over nil
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"The date of the last day when notified \"day over\" for.")
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;;; User Functions:
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;;;###autoload
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(defun timeclock-modeline-display (&optional arg)
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"Toggle display of the amount of time left today in the modeline.
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If `timeclock-use-display-time' is non-nil, the modeline will be
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updated whenever the time display is updated. Otherwise, the
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timeclock will use its own sixty second timer to do its updating.
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With prefix ARG, turn modeline display on if and only if ARG is
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positive. Returns the new status of timeclock modeline display
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\(non-nil means on)."
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(interactive "P")
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(let ((on-p (if arg
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(> (prefix-numeric-value arg) 0)
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(not timeclock-modeline-display))))
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(if on-p
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(let ((list-entry (memq 'global-mode-string
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mode-line-format)))
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(unless (memq 'timeclock-mode-string mode-line-format)
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(setcdr list-entry
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(cons 'timeclock-mode-string
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(cdr list-entry))))
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(unless (memq 'timeclock-update-modeline timeclock-event-hook)
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(add-hook 'timeclock-event-hook 'timeclock-update-modeline))
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(when timeclock-update-timer
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(cancel-timer timeclock-update-timer)
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(setq timeclock-update-timer nil))
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(if (boundp 'display-time-hook)
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(remove-hook 'display-time-hook 'timeclock-update-modeline))
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(if timeclock-use-display-time
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(add-hook 'display-time-hook 'timeclock-update-modeline)
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(setq timeclock-update-timer
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(run-at-time nil 60 'timeclock-update-modeline))))
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(setq mode-line-format
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(delq 'timeclock-mode-string mode-line-format))
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(remove-hook 'timeclock-event-hook 'timeclock-update-modeline)
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(if (boundp 'display-time-hook)
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(remove-hook 'display-time-hook
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'timeclock-update-modeline))
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(when timeclock-update-timer
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(cancel-timer timeclock-update-timer)
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(setq timeclock-update-timer nil)))
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(force-mode-line-update)
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on-p))
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;; This has to be here so that the function definition of
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;; `timeclock-modeline-display' is known to the "set" function.
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(defcustom timeclock-modeline-display nil
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"Toggle modeline display of time remaining.
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You must modify via \\[customize] for this variable to have an effect."
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:set (lambda (symbol value)
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(setq timeclock-modeline-display
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(timeclock-modeline-display (or value 0))))
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:type 'boolean
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:group 'timeclock
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:require 'timeclock)
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;;;###autoload
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(defun timeclock-in (&optional arg project find-project)
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"Clock in, recording the current time moment in the timelog.
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With a numeric prefix ARG, record the fact that today has only that
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many hours in it to be worked. If arg is a non-numeric prefix arg
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\(non-nil, but not a number), 0 is assumed (working on a holiday or
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weekend). *If not called interactively, ARG should be the number of
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_seconds_ worked today*. This feature only has effect the first time
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this function is called within a day.
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PROJECT as the project being clocked into. If PROJECT is nil, and
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FIND-PROJECT is non-nil -- or the user calls `timeclock-in'
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interactively -- call the function `timeclock-get-project-function' to
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discover the name of the project."
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(interactive
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(list (and current-prefix-arg
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(if (numberp current-prefix-arg)
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(* current-prefix-arg 60 60)
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0))))
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(if (equal (car timeclock-last-event) "i")
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(error "You've already clocked in!")
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(unless timeclock-last-event
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(timeclock-reread-log))
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(unless (equal (timeclock-time-to-date
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(cadr timeclock-last-event))
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(timeclock-time-to-date (current-time)))
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(let ((workday (or (and (numberp arg) arg)
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(and arg 0)
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(and timeclock-get-workday-function
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(funcall timeclock-get-workday-function))
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timeclock-workday)))
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(run-hooks 'timeclock-first-in-hook)
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;; settle the discrepancy for the new day
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(setq timeclock-discrepancy
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(- timeclock-discrepancy workday))
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(if (not (= workday timeclock-workday))
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(timeclock-log "h" (and (numberp arg)
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(number-to-string arg))))))
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(timeclock-log "i" (or project
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(and timeclock-get-project-function
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(or find-project (interactive-p))
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(funcall timeclock-get-project-function))))
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(run-hooks 'timeclock-in-hook)))
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;;;###autoload
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(defun timeclock-out (&optional arg reason find-reason)
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"Clock out, recording the current time moment in the timelog.
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If a prefix ARG is given, the user has completed the project that was
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begun during the last time segment.
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REASON is the user's reason for clocking out. If REASON is nil, and
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FIND-REASON is non-nil -- or the user calls `timeclock-out'
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interactively -- call the function `timeclock-get-reason-function' to
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discover the reason."
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(interactive "P")
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(if (equal (downcase (car timeclock-last-event)) "o")
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(error "You've already clocked out!")
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(timeclock-log
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(if arg "O" "o")
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(or reason
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(and timeclock-get-reason-function
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(or find-reason (interactive-p))
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(funcall timeclock-get-reason-function))))
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(run-hooks 'timeclock-out-hook)
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(if arg
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(run-hooks 'timeclock-done-hook))))
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;;;###autoload
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(defun timeclock-status-string (&optional show-seconds today-only)
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"Report the overall timeclock status at the present moment."
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(interactive "P")
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(let* ((remainder (timeclock-workday-remaining))
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(last-in (equal (car timeclock-last-event) "i"))
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status)
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(setq status
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(format "Currently %s since %s (%s), %s %s, leave at %s"
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(if last-in "IN" "OUT")
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(if show-seconds
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(format-time-string "%-I:%M:%S %p"
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(nth 1 timeclock-last-event))
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(format-time-string "%-I:%M %p"
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(nth 1 timeclock-last-event)))
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(or (nth 2 timeclock-last-event)
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(if last-in "**UNKNOWN**" "workday over"))
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(timeclock-seconds-to-string remainder show-seconds t)
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(if (> remainder 0)
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"remaining" "over")
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(timeclock-when-to-leave-string show-seconds today-only)))
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(if (interactive-p)
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(message status)
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status)))
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;;;###autoload
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(defun timeclock-change (&optional arg project)
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"Change to working on a different project, by clocking in then out.
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With a prefix ARG, consider the previous project as having been
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finished at the time of changeover. PROJECT is the name of the last
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project you were working on."
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(interactive "P")
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(timeclock-out arg)
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(timeclock-in nil project (interactive-p)))
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;;;###autoload
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(defun timeclock-query-out ()
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"Ask the user before clocking out.
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This is a useful function for adding to `kill-emacs-hook'."
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(if (and (equal (car timeclock-last-event) "i")
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(y-or-n-p "You're currently clocking time, clock out? "))
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(timeclock-out)))
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;;;###autoload
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(defun timeclock-reread-log ()
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"Re-read the timeclock, to account for external changes.
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Returns the new value of `timeclock-discrepancy'."
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(interactive)
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(setq timeclock-discrepancy nil)
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(timeclock-find-discrep)
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(if timeclock-modeline-display
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(timeclock-update-modeline))
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timeclock-discrepancy)
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(defun timeclock-seconds-to-string (seconds &optional show-seconds
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reverse-leader)
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"Convert SECONDS into a compact time string.
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If SHOW-SECONDS is non-nil, make the resolution of the return string
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include the second count. If REVERSE-LEADER is non-nil, it means to
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output a \"+\" if the time value is negative, rather than a \"-\".
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This is used when negative time values have an inverted meaning (such
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as with time remaining, where negative time really means overtime)."
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(if show-seconds
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(format "%s%d:%02d:%02d"
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(if (< seconds 0) (if reverse-leader "+" "-") "")
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(truncate (/ (abs seconds) 60 60))
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(% (truncate (/ (abs seconds) 60)) 60)
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(% (truncate (abs seconds)) 60))
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(format "%s%d:%02d"
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(if (< seconds 0) (if reverse-leader "+" "-") "")
|
|
(truncate (/ (abs seconds) 60 60))
|
|
(% (truncate (/ (abs seconds) 60)) 60))))
|
|
|
|
(defsubst timeclock-workday-remaining (&optional today-only)
|
|
"Return a the number of seconds until the workday is complete.
|
|
The amount returned is relative to the value of `timeclock-workday'.
|
|
If TODAY-ONLY is non-nil, the value returned will be relative only to
|
|
the time worked today, and not to past time. This argument only makes
|
|
a difference if `timeclock-relative' is non-nil."
|
|
(- (timeclock-find-discrep today-only)))
|
|
|
|
(defsubst timeclock-currently-in-p ()
|
|
"Return non-nil if the user is currently clocked in."
|
|
(equal (car timeclock-last-event) "i"))
|
|
|
|
;;;###autoload
|
|
(defun timeclock-workday-remaining-string (&optional show-seconds
|
|
today-only)
|
|
"Return a string representing the amount of time left today.
|
|
Display second resolution if SHOW-SECONDS is non-nil. If TODAY-ONLY
|
|
is non-nil, the display will be relative only to time worked today.
|
|
See `timeclock-relative' for more information about the meaning of
|
|
\"relative to today\"."
|
|
(interactive)
|
|
(let ((string (timeclock-seconds-to-string
|
|
(timeclock-workday-remaining today-only)
|
|
show-seconds t)))
|
|
(if (interactive-p)
|
|
(message string)
|
|
string)))
|
|
|
|
(defsubst timeclock-workday-elapsed (&optional relative)
|
|
"Return a the number of seconds worked so far today.
|
|
If RELATIVE is non-nil, the amount returned will be relative to past
|
|
time worked. The default is to return only the time that has elapsed
|
|
so far today."
|
|
(+ timeclock-workday
|
|
(timeclock-find-discrep (not relative))))
|
|
|
|
;;;###autoload
|
|
(defun timeclock-workday-elapsed-string (&optional show-seconds
|
|
relative)
|
|
"Return a string representing the amount of time worked today.
|
|
Display seconds resolution if SHOW-SECONDS is non-nil. If RELATIVE is
|
|
non-nil, the amount returned will be relative to past time worked."
|
|
(interactive)
|
|
(let ((string (timeclock-seconds-to-string
|
|
(timeclock-workday-elapsed relative)
|
|
show-seconds)))
|
|
(if (interactive-p)
|
|
(message string)
|
|
string)))
|
|
|
|
(defsubst timeclock-when-to-leave (&optional today-only)
|
|
"Return a time value representing at when the workday ends today.
|
|
If TODAY-ONLY is non-nil, the value returned will be relative only to
|
|
the time worked today, and not to past time. This argument only makes
|
|
a difference if `timeclock-relative' is non-nil."
|
|
(timeclock-seconds-to-time
|
|
(- (timeclock-time-to-seconds (current-time))
|
|
(timeclock-find-discrep today-only))))
|
|
|
|
;;;###autoload
|
|
(defun timeclock-when-to-leave-string (&optional show-seconds
|
|
today-only)
|
|
"Return a string representing at what time the workday ends today.
|
|
This string is relative to the value of `timeclock-workday'. If
|
|
NO-MESSAGE is non-nil, no messages will be displayed in the
|
|
minibuffer. If SHOW-SECONDS is non-nil, the value printed/returned
|
|
will include seconds. If TODAY-ONLY is non-nil, the value returned
|
|
will be relative only to the time worked today, and not to past time.
|
|
This argument only makes a difference if `timeclock-relative' is
|
|
non-nil."
|
|
(interactive)
|
|
(let* ((then (timeclock-when-to-leave today-only))
|
|
(string
|
|
(if show-seconds
|
|
(format-time-string "%-I:%M:%S %p" then)
|
|
(format-time-string "%-I:%M %p" then))))
|
|
(if (interactive-p)
|
|
(message string)
|
|
string)))
|
|
|
|
;;; Internal Functions:
|
|
|
|
(defvar timeclock-project-list nil)
|
|
(defvar timeclock-last-project nil)
|
|
|
|
(defun timeclock-ask-for-project ()
|
|
"Ask the user for the project they are clocking into."
|
|
(completing-read (format "Clock into which project (default \"%s\"): "
|
|
(or timeclock-last-project
|
|
(car timeclock-project-list)))
|
|
(mapcar 'list timeclock-project-list)
|
|
nil nil nil nil (or timeclock-last-project
|
|
(car timeclock-project-list))))
|
|
|
|
(defvar timeclock-reason-list nil)
|
|
|
|
(defun timeclock-ask-for-reason ()
|
|
"Ask the user for the reason they are clocking out."
|
|
(completing-read "Reason for clocking out: "
|
|
(mapcar 'list timeclock-reason-list)))
|
|
|
|
(defun timeclock-update-modeline ()
|
|
"Update the `timeclock-mode-string' displayed in the modeline."
|
|
(interactive)
|
|
(let* ((remainder (timeclock-workday-remaining))
|
|
(last-in (equal (car timeclock-last-event) "i")))
|
|
(when (and (< remainder 0)
|
|
(not (and timeclock-day-over
|
|
(equal timeclock-day-over
|
|
(timeclock-time-to-date
|
|
(current-time))))))
|
|
(setq timeclock-day-over
|
|
(timeclock-time-to-date (current-time)))
|
|
(run-hooks 'timeclock-day-over-hook))
|
|
(setq timeclock-mode-string
|
|
(format " %c%s%c"
|
|
(if last-in ?< ?[)
|
|
(timeclock-seconds-to-string remainder nil t)
|
|
(if last-in ?> ?])))))
|
|
|
|
(defun timeclock-log (code &optional project)
|
|
"Log the event CODE to the timeclock log, at the time of call.
|
|
If PROJECT is a string, it represents the project which the event is
|
|
being logged for. Normally only \"in\" events specify a project."
|
|
(with-current-buffer (find-file-noselect timeclock-file)
|
|
(goto-char (point-max))
|
|
(if (not (bolp))
|
|
(insert "\n"))
|
|
(let ((now (current-time)))
|
|
(insert code " "
|
|
(format-time-string "%Y/%m/%d %H:%M:%S" now)
|
|
(or (and project
|
|
(stringp project)
|
|
(> (length project) 0)
|
|
(concat " " project))
|
|
"")
|
|
"\n")
|
|
(if (equal (downcase code) "o")
|
|
(setq timeclock-last-period
|
|
(- (timeclock-time-to-seconds now)
|
|
(timeclock-time-to-seconds
|
|
(cadr timeclock-last-event)))
|
|
timeclock-discrepancy
|
|
(+ timeclock-discrepancy
|
|
timeclock-last-period)))
|
|
(setq timeclock-last-event (list code now project)))
|
|
(save-buffer)
|
|
(run-hooks 'timeclock-event-hook)
|
|
(kill-buffer (current-buffer))))
|
|
|
|
(defvar timeclock-moment-regexp
|
|
(concat "\\([bhioO]\\)\\s-+"
|
|
"\\([0-9]+\\)/\\([0-9]+\\)/\\([0-9]+\\)\\s-+"
|
|
"\\([0-9]+\\):\\([0-9]+\\):\\([0-9]+\\)[ \t]*" "\\([^\n]*\\)"))
|
|
|
|
(defsubst timeclock-read-moment ()
|
|
"Read the moment under point from the timelog."
|
|
(if (looking-at timeclock-moment-regexp)
|
|
(let ((code (match-string 1))
|
|
(year (string-to-number (match-string 2)))
|
|
(mon (string-to-number (match-string 3)))
|
|
(mday (string-to-number (match-string 4)))
|
|
(hour (string-to-number (match-string 5)))
|
|
(min (string-to-number (match-string 6)))
|
|
(sec (string-to-number (match-string 7)))
|
|
(project (match-string 8)))
|
|
(list code (encode-time sec min hour mday mon year) project))))
|
|
|
|
(defsubst timeclock-time-to-seconds (time)
|
|
"Convert TIME to a floating point number."
|
|
(+ (* (car time) 65536.0)
|
|
(cadr time)
|
|
(/ (or (car (cdr (cdr time))) 0) 1000000.0)))
|
|
|
|
(defsubst timeclock-seconds-to-time (seconds)
|
|
"Convert SECONDS (a floating point number) to an Emacs time structure."
|
|
(list (floor seconds 65536)
|
|
(floor (mod seconds 65536))
|
|
(floor (* (- seconds (ffloor seconds)) 1000000))))
|
|
|
|
(defsubst timeclock-time-to-date (time)
|
|
"Convert the TIME value to a textual date string."
|
|
(format-time-string "%Y/%m/%d" time))
|
|
|
|
(defun timeclock-last-period (&optional moment)
|
|
"Return the value of the last event period.
|
|
If the last event was a clock-in, the period will be open ended, and
|
|
growing every second. Otherwise, it is a fixed amount which has been
|
|
recorded to disk. If MOMENT is non-nil, use that as the current time.
|
|
This is only provided for coherency when used by
|
|
`timeclock-discrepancy'."
|
|
(if (equal (car timeclock-last-event) "i")
|
|
(- (timeclock-time-to-seconds (or moment (current-time)))
|
|
(timeclock-time-to-seconds
|
|
(cadr timeclock-last-event)))
|
|
timeclock-last-period))
|
|
|
|
(defsubst timeclock-entry-length (entry)
|
|
(- (timeclock-time-to-seconds (cadr entry))
|
|
(timeclock-time-to-seconds (car entry))))
|
|
|
|
(defsubst timeclock-entry-begin (entry)
|
|
(car entry))
|
|
|
|
(defsubst timeclock-entry-end (entry)
|
|
(cadr entry))
|
|
|
|
(defsubst timeclock-entry-project (entry)
|
|
(nth 2 entry))
|
|
|
|
(defsubst timeclock-entry-comment (entry)
|
|
(nth 3 entry))
|
|
|
|
|
|
(defsubst timeclock-entry-list-length (entry-list)
|
|
(let ((length 0))
|
|
(while entry-list
|
|
(setq length (+ length (timeclock-entry-length (car entry-list))))
|
|
(setq entry-list (cdr entry-list)))
|
|
length))
|
|
|
|
(defsubst timeclock-entry-list-begin (entry-list)
|
|
(timeclock-entry-begin (car entry-list)))
|
|
|
|
(defsubst timeclock-entry-list-end (entry-list)
|
|
(timeclock-entry-end (car (last entry-list))))
|
|
|
|
(defsubst timeclock-entry-list-span (entry-list)
|
|
(- (timeclock-time-to-seconds (timeclock-entry-list-end entry-list))
|
|
(timeclock-time-to-seconds (timeclock-entry-list-begin entry-list))))
|
|
|
|
(defsubst timeclock-entry-list-break (entry-list)
|
|
(- (timeclock-entry-list-span entry-list)
|
|
(timeclock-entry-list-length entry-list)))
|
|
|
|
(defsubst timeclock-entry-list-projects (entry-list)
|
|
(let (projects)
|
|
(while entry-list
|
|
(let ((project (timeclock-entry-project (car entry-list))))
|
|
(if projects
|
|
(add-to-list 'projects project)
|
|
(setq projects (list project))))
|
|
(setq entry-list (cdr entry-list)))
|
|
projects))
|
|
|
|
|
|
(defsubst timeclock-day-required (day)
|
|
(car day))
|
|
|
|
(defsubst timeclock-day-length (day)
|
|
(timeclock-entry-list-length (cdr day)))
|
|
|
|
(defsubst timeclock-day-debt (day)
|
|
(- (timeclock-day-required day)
|
|
(timeclock-day-length day)))
|
|
|
|
(defsubst timeclock-day-begin (day)
|
|
(timeclock-entry-list-begin (cdr day)))
|
|
|
|
(defsubst timeclock-day-end (day)
|
|
(timeclock-entry-list-end (cdr day)))
|
|
|
|
(defsubst timeclock-day-span (day)
|
|
(timeclock-entry-list-span (cdr day)))
|
|
|
|
(defsubst timeclock-day-break (day)
|
|
(timeclock-entry-list-break (cdr day)))
|
|
|
|
(defsubst timeclock-day-projects (day)
|
|
(timeclock-entry-list-projects (cdr day)))
|
|
|
|
(defmacro timeclock-day-list-template (func)
|
|
`(let ((length 0))
|
|
(while day-list
|
|
(setq length (+ length (,(eval func) (car day-list))))
|
|
(setq day-list (cdr day-list)))
|
|
length))
|
|
|
|
(defun timeclock-day-list-required (day-list)
|
|
(timeclock-day-list-template 'timeclock-day-required))
|
|
|
|
(defun timeclock-day-list-length (day-list)
|
|
(timeclock-day-list-template 'timeclock-day-length))
|
|
|
|
(defun timeclock-day-list-debt (day-list)
|
|
(timeclock-day-list-template 'timeclock-day-debt))
|
|
|
|
(defsubst timeclock-day-list-begin (day-list)
|
|
(timeclock-day-begin (car day-list)))
|
|
|
|
(defsubst timeclock-day-list-end (day-list)
|
|
(timeclock-day-end (car (last day-list))))
|
|
|
|
(defun timeclock-day-list-span (day-list)
|
|
(timeclock-day-list-template 'timeclock-day-span))
|
|
|
|
(defun timeclock-day-list-break (day-list)
|
|
(timeclock-day-list-template 'timeclock-day-break))
|
|
|
|
(defun timeclock-day-list-projects (day-list)
|
|
(let (projects)
|
|
(while day-list
|
|
(let ((projs (timeclock-day-projects (car day-list))))
|
|
(while projs
|
|
(if projects
|
|
(add-to-list 'projects (car projs))
|
|
(setq projects (list (car projs))))
|
|
(setq projs (cdr projs))))
|
|
(setq day-list (cdr day-list)))
|
|
projects))
|
|
|
|
|
|
(defsubst timeclock-current-debt (&optional log-data)
|
|
(nth 0 (or log-data (timeclock-log-data))))
|
|
|
|
(defsubst timeclock-day-alist (&optional log-data)
|
|
(nth 1 (or log-data (timeclock-log-data))))
|
|
|
|
(defun timeclock-day-list (&optional log-data)
|
|
(let ((alist (timeclock-day-alist log-data))
|
|
day-list)
|
|
(while alist
|
|
(setq day-list (cons (cdar alist) day-list)
|
|
alist (cdr alist)))
|
|
day-list))
|
|
|
|
(defsubst timeclock-project-alist (&optional log-data)
|
|
(nth 2 (or log-data (timeclock-log-data))))
|
|
|
|
|
|
(defun timeclock-log-data (&optional recent-only filename)
|
|
"Return the contents of the timelog file, in a useful format.
|
|
A timelog contains data in the form of a single entry per line.
|
|
Each entry has the form:
|
|
|
|
CODE YYYY/MM/DD HH:MM:SS [COMMENT]
|
|
|
|
CODE is one of: b, h, i, o or O. COMMENT is optional when the code is
|
|
i, o or O. The meanings of the codes are:
|
|
|
|
b Set the current time balance, or \"time debt\". Useful when
|
|
archiving old log data, when a debt must be carried forward.
|
|
The COMMENT here is the number of seconds of debt.
|
|
|
|
h Set the required working time for the given day. This must
|
|
be the first entry for that day. The COMMENT in this case is
|
|
the number of hours that must be worked. Floating point
|
|
amounts are allowed.
|
|
|
|
i Clock in. The COMMENT in this case should be the name of the
|
|
project worked on.
|
|
|
|
o Clock out. COMMENT is unnecessary, but can be used to provide
|
|
a description of how the period went, for example.
|
|
|
|
O Final clock out. Whatever project was being worked on, it is
|
|
now finished. Useful for creating summary reports.
|
|
|
|
When this function is called, it will return a data structure with the
|
|
following format:
|
|
|
|
(DEBT ENTRIES-BY-DAY ENTRIES-BY-PROJECT)
|
|
|
|
DEBT is a floating point number representing the number of seconds
|
|
\"owed\" before any work was done. For a new file (one without a 'b'
|
|
entry), this is always zero.
|
|
|
|
The two entries lists have similar formats. They are both alists,
|
|
where the CAR is the index, and the CDR is a list of time entries.
|
|
For ENTRIES-BY-DAY, the CAR is a textual date string, of the form
|
|
YYYY/MM/DD. For ENTRIES-BY-PROJECT, it is the name of the project
|
|
worked on, or t for the default project.
|
|
|
|
The CDR for ENTRIES-BY-DAY is slightly different than for
|
|
ENTRIES-BY-PROJECT. It has the following form:
|
|
|
|
(DAY-LENGTH TIME-ENTRIES...)
|
|
|
|
For ENTRIES-BY-PROJECT, there is no DAY-LENGTH member. It is simply a
|
|
list of TIME-ENTRIES. Note that if DAY-LENGTH is nil, it means
|
|
whatever is the default should be used.
|
|
|
|
A TIME-ENTRY is a recorded time interval. It has the following format
|
|
\(although generally one does not have to manipulate these entries
|
|
directly; see below):
|
|
|
|
(BEGIN-TIME END-TIME PROJECT [COMMENT] [FINAL-P])
|
|
|
|
Anyway, suffice it to say there are a lot of structures. Typically
|
|
the user is expected to manipulate to the day(s) or project(s) that he
|
|
or she wants, at which point the following helper functions may be
|
|
used:
|
|
|
|
timeclock-day-required
|
|
timeclock-day-length
|
|
timeclock-day-debt
|
|
timeclock-day-begin
|
|
timeclock-day-end
|
|
timeclock-day-span
|
|
timeclock-day-break
|
|
timeclock-day-projects
|
|
|
|
timeclock-day-list-required
|
|
timeclock-day-list-length
|
|
timeclock-day-list-debt
|
|
timeclock-day-list-begin
|
|
timeclock-day-list-end
|
|
timeclock-day-list-span
|
|
timeclock-day-list-break
|
|
timeclock-day-list-projects
|
|
|
|
timeclock-entry-length
|
|
timeclock-entry-begin
|
|
timeclock-entry-end
|
|
timeclock-entry-project
|
|
timeclock-entry-comment
|
|
|
|
timeclock-entry-list-length
|
|
timeclock-entry-list-begin
|
|
timeclock-entry-list-end
|
|
timeclock-entry-list-span
|
|
timeclock-entry-list-break
|
|
timeclock-entry-list-projects
|
|
|
|
A few comments should make the use of the above functions obvious:
|
|
|
|
`required' is the amount of time that must be spent during a day, or
|
|
sequence of days, in order to have no debt.
|
|
|
|
`length' is the actual amount of time that was spent.
|
|
|
|
`debt' is the difference between required time and length. A
|
|
negative debt signifies overtime.
|
|
|
|
`begin' is the earliest moment at which work began.
|
|
|
|
`end' is the final moment work was done.
|
|
|
|
`span' is the difference between begin and end.
|
|
|
|
`break' is the difference between span and length.
|
|
|
|
`project' is the project that was worked on, and `projects' is a
|
|
list of all the projects that were worked on during a given period.
|
|
|
|
`comment', where it applies, could mean anything.
|
|
|
|
There are a few more functions available, for locating day and entry
|
|
lists:
|
|
|
|
timeclock-day-alist LOG-DATA
|
|
timeclock-project-alist LOG-DATA
|
|
timeclock-current-debt LOG-DATA
|
|
|
|
See the documentation for the given function if more info is needed."
|
|
(let* ((log-data (list 0.0 nil nil))
|
|
(now (current-time))
|
|
(todays-date (timeclock-time-to-date now))
|
|
last-date-limited last-date-seconds last-date
|
|
(line 0) last beg day entry)
|
|
(with-temp-buffer
|
|
(insert-file-contents (or filename timeclock-file))
|
|
(when recent-only
|
|
(goto-char (point-max))
|
|
(unless (re-search-backward "^b\\s-+" nil t)
|
|
(goto-char (point-min))))
|
|
(while (or (setq event (timeclock-read-moment))
|
|
(and beg (not last)
|
|
(setq last t event (list "o" now))))
|
|
(setq line (1+ line))
|
|
(cond ((equal (car event) "b")
|
|
(setcar log-data (string-to-number (nth 2 event))))
|
|
((equal (car event) "h")
|
|
(setq last-date-limited (timeclock-time-to-date (cadr event))
|
|
last-date-seconds (* (string-to-number (nth 2 event))
|
|
3600.0)))
|
|
((equal (car event) "i")
|
|
(if beg
|
|
(error "Error in format of timelog file, line %d" line)
|
|
(setq beg t))
|
|
(setq entry (list (cadr event) nil
|
|
(and (> (length (nth 2 event)) 0)
|
|
(nth 2 event))))
|
|
(let ((date (timeclock-time-to-date (cadr event))))
|
|
(if (and last-date
|
|
(not (equal date last-date)))
|
|
(setcar (cdr log-data)
|
|
(cons (cons last-date day)
|
|
(cadr log-data)))
|
|
(setq day (list (and last-date-limited
|
|
last-date-seconds))))
|
|
(setq last-date date
|
|
last-date-limited nil)))
|
|
((equal (downcase (car event)) "o")
|
|
(if (not beg)
|
|
(error "Error in format of timelog file, line %d" line)
|
|
(setq beg nil))
|
|
(setcar (cdr entry) (cadr event))
|
|
(let ((desc (and (> (length (nth 2 event)) 0)
|
|
(nth 2 event))))
|
|
(if desc
|
|
(nconc entry (list (nth 2 event))))
|
|
(if (equal (car event) "O")
|
|
(nconc entry (if desc
|
|
(list t)
|
|
(list nil t))))
|
|
(nconc day (list entry))
|
|
(setq desc (nth 2 entry))
|
|
(let ((proj (assoc desc (nth 2 log-data))))
|
|
(if (not proj)
|
|
(setcar (cddr log-data)
|
|
(cons (cons desc (list entry))
|
|
(car (cddr log-data))))
|
|
(nconc (cdr proj) (list entry)))))))
|
|
(forward-line))
|
|
(if day
|
|
(setcar (cdr log-data)
|
|
(cons (cons last-date day)
|
|
(cadr log-data))))
|
|
log-data)))
|
|
|
|
(defun timeclock-find-discrep (&optional today-only)
|
|
"Find overall discrepancy from `timeclock-workday' (in seconds).
|
|
If TODAY-ONLY is non-nil, the discrepancy will be not be relative, and
|
|
will correspond only to the amount of time elapsed today. This is
|
|
identical to what would be return if `timeclock-relative' were nil."
|
|
;; This is not implemented in terms of the functions above, because
|
|
;; it's a bit wasteful to read all of that data in, just to throw
|
|
;; away more than 90% of the information afterwards.
|
|
(let* ((now (current-time))
|
|
(todays-date (timeclock-time-to-date now))
|
|
(first t) (accum 0)
|
|
event beg last-date avg
|
|
last-date-limited last-date-seconds)
|
|
(unless timeclock-discrepancy
|
|
(setq timeclock-project-list nil
|
|
timeclock-last-project nil
|
|
timeclock-reason-list nil
|
|
timeclock-elapsed 0)
|
|
(with-temp-buffer
|
|
(insert-file-contents timeclock-file)
|
|
(goto-char (point-max))
|
|
(unless (re-search-backward "^b\\s-+" nil t)
|
|
(goto-char (point-min)))
|
|
(while (setq event (timeclock-read-moment))
|
|
(cond ((equal (car event) "b")
|
|
(setq accum (string-to-number (nth 2 event))))
|
|
((equal (car event) "h")
|
|
(setq last-date-limited
|
|
(timeclock-time-to-date (cadr event))
|
|
last-date-seconds
|
|
(* (string-to-number (nth 2 event)) 3600.0)))
|
|
((equal (car event) "i")
|
|
(when (and (nth 2 event)
|
|
(> (length (nth 2 event)) 0))
|
|
(add-to-list 'timeclock-project-list (nth 2 event))
|
|
(setq timeclock-last-project (nth 2 event)))
|
|
(let ((date (timeclock-time-to-date (cadr event))))
|
|
(if (and timeclock-relative
|
|
(if last-date
|
|
(not (equal date last-date))
|
|
first))
|
|
(setq first nil
|
|
accum (- accum
|
|
(if last-date-limited
|
|
last-date-seconds
|
|
timeclock-workday))))
|
|
(setq last-date date
|
|
last-date-limited nil)
|
|
(if beg
|
|
(error "Error in format of timelog file!")
|
|
(setq beg (timeclock-time-to-seconds (cadr event))))))
|
|
((equal (downcase (car event)) "o")
|
|
(if (and (nth 2 event)
|
|
(> (length (nth 2 event)) 0))
|
|
(add-to-list 'timeclock-reason-list (nth 2 event)))
|
|
(if (or timeclock-relative
|
|
(equal last-date todays-date))
|
|
(if (not beg)
|
|
(error "Error in format of timelog file!")
|
|
(setq timeclock-last-period
|
|
(- (timeclock-time-to-seconds (cadr event)) beg)
|
|
accum (+ timeclock-last-period accum)
|
|
beg nil)))
|
|
(if (equal last-date todays-date)
|
|
(setq timeclock-elapsed
|
|
(+ timeclock-last-period timeclock-elapsed)))))
|
|
(setq timeclock-last-event event
|
|
timeclock-last-event-workday
|
|
(if (equal (timeclock-time-to-date now)
|
|
last-date-limited)
|
|
last-date-seconds
|
|
timeclock-workday))
|
|
(forward-line))
|
|
(setq timeclock-discrepancy accum)))
|
|
(setq accum (if today-only
|
|
timeclock-elapsed
|
|
timeclock-discrepancy))
|
|
(if timeclock-last-event
|
|
(if (equal (car timeclock-last-event) "i")
|
|
(setq accum (+ accum (timeclock-last-period now)))
|
|
(if (not (equal (timeclock-time-to-date
|
|
(cadr timeclock-last-event))
|
|
(timeclock-time-to-date now)))
|
|
(setq accum (- accum timeclock-last-event-workday)))))
|
|
(setq accum
|
|
(- accum
|
|
(if (and timeclock-last-event
|
|
(equal (timeclock-time-to-date
|
|
(cadr timeclock-last-event))
|
|
(timeclock-time-to-date now)))
|
|
timeclock-last-event-workday
|
|
timeclock-workday)))))
|
|
|
|
(provide 'timeclock)
|
|
|
|
(run-hooks 'timeclock-load-hook)
|
|
|
|
;; make sure we know the list of reasons, projects, and have computed
|
|
;; the last event and current discrepancy.
|
|
(if (file-readable-p timeclock-file)
|
|
(timeclock-reread-log))
|
|
|
|
;;; timeclock.el ends here
|