This is ../info/xemacs.info, produced by makeinfo version 4.0b from xemacs/xemacs.texi. INFO-DIR-SECTION XEmacs Editor START-INFO-DIR-ENTRY * XEmacs: (xemacs). XEmacs Editor. END-INFO-DIR-ENTRY This file documents the XEmacs editor. Copyright (C) 1985, 1986, 1988 Richard M. Stallman. Copyright (C) 1991, 1992, 1993, 1994 Lucid, Inc. Copyright (C) 1993, 1994 Sun Microsystems, Inc. Copyright (C) 1995 Amdahl Corporation. Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies. Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided also that the sections entitled "The GNU Manifesto", "Distribution" and "GNU General Public License" are included exactly as in the original, and provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Permission is granted to copy and distribute translations of this manual into another language, under the above conditions for modified versions, except that the sections entitled "The GNU Manifesto", "Distribution" and "GNU General Public License" may be included in a translation approved by the author instead of in the original English.  File: xemacs.info, Node: Sunrise/Sunset, Next: Lunar Phases, Prev: Holidays, Up: Calendar/Diary Times of Sunrise and Sunset --------------------------- Special calendar commands can tell you, to within a minute or two, the times of sunrise and sunset for any date. `S' Display times of sunrise and sunset for the selected date (`calendar-sunrise-sunset'). `Button2 Sunrise/Sunset' Display times of sunrise and sunset for the date you click on. `M-x sunrise-sunset' Display times of sunrise and sunset for today's date. `C-u M-x sunrise-sunset' Display times of sunrise and sunset for a specified date. Within the calendar, to display the _local times_ of sunrise and sunset in the echo area, move point to the date you want, and type `S'. Alternatively, click `Button2' on the date, then choose `Sunrise/Sunset' from the menu that appears. The command `M-x sunrise-sunset' is available outside the calendar to display this information for today's date or a specified date. To specify a date other than today, use `C-u M-x sunrise-sunset', which prompts for the year, month, and day. You can display the times of sunrise and sunset for any location and any date with `C-u C-u M-x sunrise-sunset'. This asks you for a longitude, latitude, number of minutes difference from Coordinated Universal Time, and date, and then tells you the times of sunrise and sunset for that location on that date. Because the times of sunrise and sunset depend on the location on earth, you need to tell Emacs your latitude, longitude, and location name before using these commands. Here is an example of what to set: (setq calendar-latitude 40.1) (setq calendar-longitude -88.2) (setq calendar-location-name "Urbana, IL") Use one decimal place in the values of `calendar-latitude' and `calendar-longitude'. Your time zone also affects the local time of sunrise and sunset. Emacs usually gets time zone information from the operating system, but if these values are not what you want (or if the operating system does not supply them), you must set them yourself. Here is an example: (setq calendar-time-zone -360) (setq calendar-standard-time-zone-name "CST") (setq calendar-daylight-time-zone-name "CDT") The value of `calendar-time-zone' is the number of minutes difference between your local standard time and Coordinated Universal Time (Greenwich time). The values of `calendar-standard-time-zone-name' and `calendar-daylight-time-zone-name' are the abbreviations used in your time zone. Emacs displays the times of sunrise and sunset _corrected for daylight savings time_. *Note Daylight Savings::, for how daylight savings time is determined. As a user, you might find it convenient to set the calendar location variables for your usual physical location in your init file. And when you install Emacs on a machine, you can create a `default.el' file which sets them properly for the typical location of most users of that machine. *Note Init File::.  File: xemacs.info, Node: Lunar Phases, Next: Other Calendars, Prev: Sunrise/Sunset, Up: Calendar/Diary Phases of the Moon ------------------ These calendar commands display the dates and times of the phases of the moon (new moon, first quarter, full moon, last quarter). This feature is useful for debugging problems that "depend on the phase of the moon." `M' Display the dates and times for all the quarters of the moon for the three-month period shown (`calendar-phases-of-moon'). `M-x phases-of-moon' Display dates and times of the quarters of the moon for three months around today's date. Within the calendar, use the `M' command to display a separate buffer of the phases of the moon for the current three-month range. The dates and times listed are accurate to within a few minutes. Outside the calendar, use the command `M-x phases-of-moon' to display the list of the phases of the moon for the current month and the preceding and succeeding months. For information about a different month, use `C-u M-x phases-of-moon', which prompts for the month and year. The dates and times given for the phases of the moon are given in local time (corrected for daylight savings, when appropriate); but if the variable `calendar-time-zone' is void, Coordinated Universal Time (the Greenwich time zone) is used. *Note Daylight Savings::.  File: xemacs.info, Node: Other Calendars, Next: Calendar Systems, Prev: Lunar Phases, Up: Calendar/Diary Conversion To and From Other Calendars -------------------------------------- The Emacs calendar displayed is _always_ the Gregorian calendar, sometimes called the "new style" calendar, which is used in most of the world today. However, this calendar did not exist before the sixteenth century and was not widely used before the eighteenth century; it did not fully displace the Julian calendar and gain universal acceptance until the early twentieth century. The Emacs calendar can display any month since January, year 1 of the current era, but the calendar displayed is the Gregorian, even for a date at which the Gregorian calendar did not exist. While Emacs cannot display other calendars, it can convert dates to and from several other calendars. * Menu: * Calendar Systems:: The calendars Emacs understands (aside from Gregorian). * To Other Calendar:: Converting the selected date to various calendars. * From Other Calendar:: Moving to a date specified in another calendar. * Mayan Calendar:: Moving to a date specified in a Mayan calendar. If you are interested in these calendars, you can convert dates one at a time. Put point on the desired date of the Gregorian calendar and press the appropriate keys. The `p' is a mnemonic for "print" since Emacs "prints' the equivalent date in the echo area.  File: xemacs.info, Node: Calendar Systems, Next: To Other Calendar, Prev: Other Calendars, Up: Other Calendars Supported Calendar Systems ========================== The ISO commercial calendar is used largely in Europe. The Julian calendar, named after Julius Caesar, was the one used in Europe throughout medieval times, and in many countries up until the nineteenth century. Astronomers use a simple counting of days elapsed since noon, Monday, January 1, 4713 B.C. on the Julian calendar. The number of days elapsed is called the _Julian day number_ or the _Astronomical day number_. The Hebrew calendar is used by tradition in the Jewish religion. The Emacs calendar program uses the Hebrew calendar to determine the dates of Jewish holidays. Hebrew calendar dates begin and end at sunset. The Islamic calendar is used in many predominantly Islamic countries. Emacs uses it to determine the dates of Islamic holidays. There is no universal agreement in the Islamic world about the calendar; Emacs uses a widely accepted version, but the precise dates of Islamic holidays often depend on proclamation by religious authorities, not on calculations. As a consequence, the actual dates of observance can vary slightly from the dates computed by Emacs. Islamic calendar dates begin and end at sunset. The French Revolutionary calendar was created by the Jacobins after the 1789 revolution, to represent a more secular and nature-based view of the annual cycle, and to install a 10-day week in a rationalization measure similar to the metric system. The French government officially abandoned this calendar at the end of 1805. The Maya of Central America used three separate, overlapping calendar systems, the _long count_, the _tzolkin_, and the _haab_. Emacs knows about all three of these calendars. Experts dispute the exact correlation between the Mayan calendar and our calendar; Emacs uses the Goodman-Martinez-Thompson correlation in its calculations. The Copts use a calendar based on the ancient Egyptian solar calendar. Their calendar consists of twelve 30-day months followed by an extra five-day period. Once every fourth year they add a leap day to this extra period to make it six days. The Ethiopic calendar is identical in structure, but has different year numbers and month names. The Persians use a solar calendar based on a design of Omar Khayyam. Their calendar consists of twelve months of which the first six have 31 days, the next five have 30 days, and the last has 29 in ordinary years and 30 in leap years. Leap years occur in a complicated pattern every four or five years. The Chinese calendar is a complicated system of lunar months arranged into solar years. The years go in cycles of sixty, each year containing either twelve months in an ordinary year or thirteen months in a leap year; each month has either 29 or 30 days. Years, ordinary months, and days are named by combining one of ten "celestial stems" with one of twelve "terrestrial branches" for a total of sixty names that are repeated in a cycle of sixty.  File: xemacs.info, Node: To Other Calendar, Next: From Other Calendar, Prev: Calendar Systems, Up: Other Calendars Converting To Other Calendars ============================= The following commands describe the selected date (the date at point) in various other calendar systems: `Button2 Other Calendars' Display the date that you click on, expressed in various other calendars. `p c' Display ISO commercial calendar equivalent for selected day (`calendar-print-iso-date'). `p j' Display Julian date for selected day (`calendar-print-julian-date'). `p a' Display astronomical (Julian) day number for selected day (`calendar-print-astro-day-number'). `p h' Display Hebrew date for selected day (`calendar-print-hebrew-date'). `p i' Display Islamic date for selected day (`calendar-print-islamic-date'). `p f' Display French Revolutionary date for selected day (`calendar-print-french-date'). `p C' Display Chinese date for selected day (`calendar-print-chinese-date'). `p k' Display Coptic date for selected day (`calendar-print-coptic-date'). `p e' Display Ethiopic date for selected day (`calendar-print-ethiopic-date'). `p p' Display Persian date for selected day (`calendar-print-persian-date'). `p m' Display Mayan date for selected day (`calendar-print-mayan-date'). If you are using X, the easiest way to translate a date into other calendars is to click on it with `Button2', then choose `Other Calendars' from the menu that appears. This displays the equivalent forms of the date in all the calendars Emacs understands, in the form of a menu. (Choosing an alternative from this menu doesn't actually do anything--the menu is used only for display.) Put point on the desired date of the Gregorian calendar, then type the appropriate keys. The `p' is a mnemonic for "print" since Emacs "prints" the equivalent date in the echo area.  File: xemacs.info, Node: From Other Calendar, Next: Mayan Calendar, Prev: To Other Calendar, Up: Other Calendars Converting From Other Calendars =============================== You can use the other supported calendars to specify a date to move to. This section describes the commands for doing this using calendars other than Mayan; for the Mayan calendar, see the following section. `g c' Move to a date specified in the ISO commercial calendar (`calendar-goto-iso-date'). `g j' Move to a date specified in the Julian calendar (`calendar-goto-julian-date'). `g a' Move to a date specified in astronomical (Julian) day number (`calendar-goto-astro-day-number'). `g h' Move to a date specified in the Hebrew calendar (`calendar-goto-hebrew-date'). `g i' Move to a date specified in the Islamic calendar (`calendar-goto-islamic-date'). `g f' Move to a date specified in the French Revolutionary calendar (`calendar-goto-french-date'). `g C' Move to a date specified in the Chinese calendar (`calendar-goto-chinese-date'). `g p' Move to a date specified in the Persian calendar (`calendar-goto-persian-date'). `g k' Move to a date specified in the Coptic calendar (`calendar-goto-coptic-date'). `g e' Move to a date specified in the Ethiopic calendar (`calendar-goto-ethiopic-date'). These commands ask you for a date on the other calendar, move point to the Gregorian calendar date equivalent to that date, and display the other calendar's date in the echo area. Emacs uses strict completion (*note Completion::) whenever it asks you to type a month name, so you don't have to worry about the spelling of Hebrew, Islamic, or French names. One common question concerning the Hebrew calendar is the computation of the anniversary of a date of death, called a "yahrzeit." The Emacs calendar includes a facility for such calculations. If you are in the calendar, the command `M-x list-yahrzeit-dates' asks you for a range of years and then displays a list of the yahrzeit dates for those years for the date given by point. If you are not in the calendar, this command first asks you for the date of death and the range of years, and then displays the list of yahrzeit dates.  File: xemacs.info, Node: Mayan Calendar, Next: Diary, Prev: From Other Calendar, Up: Other Calendars Converting from the Mayan Calendar ---------------------------------- Here are the commands to select dates based on the Mayan calendar: `g m l' Move to a date specified by the long count calendar (`calendar-goto-mayan-long-count-date'). `g m n t' Move to the next occurrence of a place in the tzolkin calendar (`calendar-next-tzolkin-date'). `g m p t' Move to the previous occurrence of a place in the tzolkin calendar (`calendar-previous-tzolkin-date'). `g m n h' Move to the next occurrence of a place in the haab calendar (`calendar-next-haab-date'). `g m p h' Move to the previous occurrence of a place in the haab calendar (`calendar-previous-haab-date'). `g m n c' Move to the next occurrence of a place in the calendar round (`calendar-next-calendar-round-date'). `g m p c' Move to the previous occurrence of a place in the calendar round (`calendar-previous-calendar-round-date'). To understand these commands, you need to understand the Mayan calendars. The "long count" is a counting of days with these units: 1 kin = 1 day 1 uinal = 20 kin 1 tun = 18 uinal 1 katun = 20 tun 1 baktun = 20 katun Thus, the long count date 12.16.11.16.6 means 12 baktun, 16 katun, 11 tun, 16 uinal, and 6 kin. The Emacs calendar can handle Mayan long count dates as early as 7.17.18.13.1, but no earlier. When you use the `g m l' command, type the Mayan long count date with the baktun, katun, tun, uinal, and kin separated by periods. The Mayan tzolkin calendar is a cycle of 260 days formed by a pair of independent cycles of 13 and 20 days. Since this cycle repeats endlessly, Emacs provides commands to move backward and forward to the previous or next point in the cycle. Type `g m p t' to go to the previous tzolkin date; Emacs asks you for a tzolkin date and moves point to the previous occurrence of that date. Similarly, type `g m n t' to go to the next occurrence of a tzolkin date. The Mayan haab calendar is a cycle of 365 days arranged as 18 months of 20 days each, followed a 5-day monthless period. Like the tzolkin cycle, this cycle repeats endlessly, and there are commands to move backward and forward to the previous or next point in the cycle. Type `g m p h' to go to the previous haab date; Emacs asks you for a haab date and moves point to the previous occurrence of that date. Similarly, type `g m n h' to go to the next occurrence of a haab date. The Maya also used the combination of the tzolkin date and the haab date. This combination is a cycle of about 52 years called a _calendar round_. If you type `g m p c', Emacs asks you for both a haab and a tzolkin date and then moves point to the previous occurrence of that combination. Use `g m n c' to move point to the next occurrence of a combination. These commands signal an error if the haab/tzolkin date combination you have typed is impossible. Emacs uses strict completion (*note Completion::) whenever it asks you to type a Mayan name, so you don't have to worry about spelling.  File: xemacs.info, Node: Diary, Next: Calendar Customization, Prev: Mayan Calendar, Up: Calendar/Diary The Diary --------- The Emacs diary keeps track of appointments or other events on a daily basis, in conjunction with the calendar. To use the diary feature, you must first create a "diary file" containing a list of events and their dates. Then Emacs can automatically pick out and display the events for today, for the immediate future, or for any specified date. By default, Emacs uses `~/diary' as the diary file. This is the same file that the `calendar' utility uses. A sample `~/diary' file is: 12/22/1988 Twentieth wedding anniversary!! &1/1. Happy New Year! 10/22 Ruth's birthday. * 21, *: Payday Tuesday--weekly meeting with grad students at 10am Supowit, Shen, Bitner, and Kapoor to attend. 1/13/89 Friday the thirteenth!! &thu 4pm squash game with Lloyd. mar 16 Dad's birthday April 15, 1989 Income tax due. &* 15 time cards due. This example uses extra spaces to align the event descriptions of most of the entries. Such formatting is purely a matter of taste. Although you probably will start by creating a diary manually, Emacs provides a number of commands to let you view, add, and change diary entries. You can also share diary entries with other users (*note Included Diary Files::). * Menu: * Diary Commands:: Viewing diary entries and associated calendar dates. * Format of Diary File:: Entering events in your diary. * Date Formats:: Various ways you can specify dates. * Adding to Diary:: Commands to create diary entries. * Special Diary Entries:: Anniversaries, blocks of dates, cyclic entries, etc.  File: xemacs.info, Node: Diary Commands, Next: Format of Diary File, Prev: Diary, Up: Diary Commands Displaying Diary Entries --------------------------------- Once you have created a `~/diary' file, you can use the calendar to view it. You can also view today's events outside of Calendar mode. `d' Display all diary entries for the selected date (`view-diary-entries'). `Button2 Diary' Display all diary entries for the date you click on. `s' Display the entire diary file (`show-all-diary-entries'). `m' Mark all visible dates that have diary entries (`mark-diary-entries'). `u' Unmark the calendar window (`calendar-unmark'). `M-x print-diary-entries' Print hard copy of the diary display as it appears. `M-x diary' Display all diary entries for today's date. `M-x diary-mail-entries' Mail yourself email reminders about upcoming diary entries. Displaying the diary entries with `d' shows in a separate window the diary entries for the selected date in the calendar. The mode line of the new window shows the date of the diary entries and any holidays that fall on that date. If you specify a numeric argument with `d', it shows all the diary entries for that many successive days. Thus, `2 d' displays all the entries for the selected date and for the following day. Another way to display the diary entries for a date is to click `Button2' on the date, and then choose `Diary' from the menu that appears. To get a broader view of which days are mentioned in the diary, use the `m' command. This displays the dates that have diary entries in a different face (or places a `+' after these dates, if display with multiple faces is not available). The command applies both to the currently visible months and to other months that subsequently become visible by scrolling. To turn marking off and erase the current marks, type `u', which also turns off holiday marks (*note Holidays::). To see the full diary file, rather than just some of the entries, use the `s' command. Display of selected diary entries uses the selective display feature to hide entries that don't apply. The diary buffer as you see it is an illusion, so simply printing the buffer does not print what you see on your screen. There is a special command to print hard copy of the diary buffer _as it appears_; this command is `M-x print-diary-entries'. It sends the data directly to the printer. You can customize it like `lpr-region' (*note Hardcopy::). The command `M-x diary' displays the diary entries for the current date, independently of the calendar display, and optionally for the next few days as well; the variable `number-of-diary-entries' specifies how many days to include (*note Customization::). If you put `(diary)' in your init file, this automatically displays a window with the day's diary entries, when you enter Emacs. *Note Init File::. The mode line of the displayed window shows the date and any holidays that fall on that date. Many users like to receive notice of events in their diary as email. To send such mail to yourself, use the command `M-x diary-mail-entries'. A prefix argument specifies how many days (starting with today) to check; otherwise, the variable `diary-mail-days' says how many days.  File: xemacs.info, Node: Format of Diary File, Next: Date Formats, Prev: Diary Commands, Up: Diary The Diary File -------------- Your "diary file" is a file that records events associated with particular dates. The name of the diary file is specified by the variable `diary-file'; `~/diary' is the default. The `calendar' utility program supports a subset of the format allowed by the Emacs diary facilities, so you can use that utility to view the diary file, with reasonable results aside from the entries it cannot understand. Each entry in the diary file describes one event and consists of one or more lines. An entry always begins with a date specification at the left margin. The rest of the entry is simply text to describe the event. If the entry has more than one line, then the lines after the first must begin with whitespace to indicate they continue a previous entry. Lines that do not begin with valid dates and do not continue a preceding entry are ignored. You can inhibit the marking of certain diary entries in the calendar window; to do this, insert an ampersand (`&') at the beginning of the entry, before the date. This has no effect on display of the entry in the diary window; it affects only marks on dates in the calendar window. Nonmarking entries are especially useful for generic entries that would otherwise mark many different dates. If the first line of a diary entry consists only of the date or day name with no following blanks or punctuation, then the diary window display doesn't include that line; only the continuation lines appear. For example, this entry: 02/11/1989 Bill B. visits Princeton today 2pm Cognitive Studies Committee meeting 2:30-5:30 Liz at Lawrenceville 4:00pm Dentist appt 7:30pm Dinner at George's 8:00-10:00pm concert appears in the diary window without the date line at the beginning. This style of entry looks neater when you display just a single day's entries, but can cause confusion if you ask for more than one day's entries. You can edit the diary entries as they appear in the window, but it is important to remember that the buffer displayed contains the _entire_ diary file, with portions of it concealed from view. This means, for instance, that the `C-f' (`forward-char') command can put point at what appears to be the end of the line, but what is in reality the middle of some concealed line. _Be careful when editing the diary entries!_ Inserting additional lines or adding/deleting characters in the middle of a visible line cannot cause problems, but editing at the end of a line may not do what you expect. Deleting a line may delete other invisible entries that follow it. Before editing the diary, it is best to display the entire file with `s' (`show-all-diary-entries').  File: xemacs.info, Node: Date Formats, Next: Adding to Diary, Prev: Format of Diary File, Up: Diary Date Formats ------------ Here are some sample diary entries, illustrating different ways of formatting a date. The examples all show dates in American order (month, day, year), but Calendar mode supports European order (day, month, year) as an option. 4/20/93 Switch-over to new tabulation system apr. 25 Start tabulating annual results 4/30 Results for April are due */25 Monthly cycle finishes Friday Don't leave without backing up files The first entry appears only once, on April 20, 1993. The second and third appear every year on the specified dates, and the fourth uses a wildcard (asterisk) for the month, so it appears on the 25th of every month. The final entry appears every week on Friday. You can use just numbers to express a date, as in `MONTH/DAY' or `MONTH/DAY/YEAR'. This must be followed by a nondigit. In the date itself, MONTH and DAY are numbers of one or two digits. The optional YEAR is also a number, and may be abbreviated to the last two digits; that is, you can use `11/12/1989' or `11/12/89'. Dates can also have the form `MONTHNAME DAY' or `MONTHNAME DAY, YEAR', where the month's name can be spelled in full or abbreviated to three characters (with or without a period). Case is not significant. A date may be "generic"; that is, partially unspecified. Then the entry applies to all dates that match the specification. If the date does not contain a year, it is generic and applies to any year. Alternatively, MONTH, DAY, or YEAR can be a `*'; this matches any month, day, or year, respectively. Thus, a diary entry `3/*/*' matches any day in March of any year; so does `march *'. If you prefer the European style of writing dates--in which the day comes before the month--type `M-x european-calendar' while in the calendar, or set the variable `european-calendar-style' to `t' _before_ using any calendar or diary command. This mode interprets all dates in the diary in the European manner, and also uses European style for displaying diary dates. (Note that there is no comma after the MONTHNAME in the European style.) To go back to the (default) American style of writing dates, type `M-x american-calendar'. You can use the name of a day of the week as a generic date which applies to any date falling on that day of the week. You can abbreviate the day of the week to three letters (with or without a period) or spell it in full; case is not significant.  File: xemacs.info, Node: Adding to Diary, Next: Special Diary Entries, Prev: Date Formats, Up: Diary Commands to Add to the Diary ---------------------------- While in the calendar, there are several commands to create diary entries: `i d' Add a diary entry for the selected date (`insert-diary-entry'). `i w' Add a diary entry for the selected day of the week (`insert-weekly-diary-entry'). `i m' Add a diary entry for the selected day of the month (`insert-monthly-diary-entry'). `i y' Add a diary entry for the selected day of the year (`insert-yearly-diary-entry'). You can make a diary entry for a specific date by selecting that date in the calendar window and typing the `i d' command. This command displays the end of your diary file in another window and inserts the date; you can then type the rest of the diary entry. If you want to make a diary entry that applies to a specific day of the week, select that day of the week (any occurrence will do) and type `i w'. This inserts the day-of-week as a generic date; you can then type the rest of the diary entry. You can make a monthly diary entry in the same fashion. Select the day of the month, use the `i m' command, and type rest of the entry. Similarly, you can insert a yearly diary entry with the `i y' command. All of the above commands make marking diary entries by default. To make a nonmarking diary entry, give a numeric argument to the command. For example, `C-u i w' makes a nonmarking weekly diary entry. When you modify the diary file, be sure to save the file before exiting Emacs.  File: xemacs.info, Node: Special Diary Entries, Prev: Adding to Diary, Up: Diary Special Diary Entries --------------------- In addition to entries based on calendar dates, the diary file can contain "sexp entries" for regular events such as anniversaries. These entries are based on Lisp expressions (sexps) that Emacs evaluates as it scans the diary file. Instead of a date, a sexp entry contains `%%' followed by a Lisp expression which must begin and end with parentheses. The Lisp expression determines which dates the entry applies to. Calendar mode provides commands to insert certain commonly used sexp entries: `i a' Add an anniversary diary entry for the selected date (`insert-anniversary-diary-entry'). `i b' Add a block diary entry for the current region (`insert-block-diary-entry'). `i c' Add a cyclic diary entry starting at the date (`insert-cyclic-diary-entry'). If you want to make a diary entry that applies to the anniversary of a specific date, move point to that date and use the `i a' command. This displays the end of your diary file in another window and inserts the anniversary description; you can then type the rest of the diary entry. The entry looks like this: The effect of `i a' is to add a `diary-anniversary' sexp to your diary file. You can also add one manually, for instance: %%(diary-anniversary 10 31 1948) Arthur's birthday This entry applies to October 31 in any year after 1948; `10 31 1948' specifies the date. (If you are using the European calendar style, the month and day are interchanged.) The reason this expression requires a beginning year is that advanced diary functions can use it to calculate the number of elapsed years. A "block" diary entry applies to a specified range of consecutive dates. Here is a block diary entry that applies to all dates from June 24, 1990 through July 10, 1990: %%(diary-block 6 24 1990 7 10 1990) Vacation The `6 24 1990' indicates the starting date and the `7 10 1990' indicates the stopping date. (Again, if you are using the European calendar style, the month and day are interchanged.) To insert a block entry, place point and the mark on the two dates that begin and end the range, and type `i b'. This command displays the end of your diary file in another window and inserts the block description; you can then type the diary entry. "Cyclic" diary entries repeat after a fixed interval of days. To create one, select the starting date and use the `i c' command. The command prompts for the length of interval, then inserts the entry, which looks like this: %%(diary-cyclic 50 3 1 1990) Renew medication This entry applies to March 1, 1990 and every 50th day following; `3 1 1990' specifies the starting date. (If you are using the European calendar style, the month and day are interchanged.) All three of these commands make marking diary entries. To insert a nonmarking entry, give a numeric argument to the command. For example, `C-u i a' makes a nonmarking anniversary diary entry. Marking sexp diary entries in the calendar is _extremely_ time-consuming, since every date visible in the calendar window must be individually checked. So it's a good idea to make sexp diary entries nonmarking (with `&') when possible. Another sophisticated kind of sexp entry, a "floating" diary entry, specifies a regularly occurring event by offsets specified in days, weeks, and months. It is comparable to a crontab entry interpreted by the `cron' utility. Here is a nonmarking, floating diary entry that applies to the last Thursday in November: &%%(diary-float 11 4 -1) American Thanksgiving The 11 specifies November (the eleventh month), the 4 specifies Thursday (the fourth day of the week, where Sunday is numbered zero), and the -1 specifies "last" (1 would mean "first", 2 would mean "second", -2 would mean "second-to-last", and so on). The month can be a single month or a list of months. Thus you could change the 11 above to `'(1 2 3)' and have the entry apply to the last Thursday of January, February, and March. If the month is `t', the entry applies to all months of the year. The sexp feature of the diary allows you to specify diary entries based on any Emacs Lisp expression. You can use the library of built-in functions or you can write your own functions. The built-in functions include the ones shown in this section, plus a few others (*note Sexp Diary Entries::). The generality of sexps lets you specify any diary entry that you can describe algorithmically. Suppose you get paid on the 21st of the month if it is a weekday, and to the Friday before if the 21st is on a weekend. The diary entry &%%(let ((dayname (calendar-day-of-week date)) (day (car (cdr date)))) (or (and (= day 21) (memq dayname '(1 2 3 4 5))) (and (memq day '(19 20)) (= dayname 5))) ) Pay check deposited to just those dates. This example illustrates how the sexp can depend on the variable `date'; this variable is a list (MONTH DAY YEAR) that gives the Gregorian date for which the diary entries are being found. If the value of the sexp is `t', the entry applies to that date. If the sexp evaluates to `nil', the entry does _not_ apply to that date.  File: xemacs.info, Node: Calendar Customization, Prev: Diary, Up: Calendar/Diary Customizing the Calendar and Diary ---------------------------------- There are many customizations that you can use to make the calendar and diary suit your personal tastes. * Menu: * Calendar Customizing:: Defaults you can set. * Holiday Customizing:: Defining your own holidays. * Date Display Format:: Changing the format. * Time Display Format:: Changing the format. * Daylight Savings:: Changing the default. * Diary Customizing:: Defaults you can set. * Hebrew/Islamic Entries:: How to obtain them. * Fancy Diary Display:: Enhancing the diary display, sorting entries. * Included Diary Files:: Sharing a common diary file. * Sexp Diary Entries:: Fancy things you can do. * Appt Customizing:: Customizing appointment reminders.  File: xemacs.info, Node: Calendar Customizing, Next: Holiday Customizing, Up: Calendar Customization Customizing the Calendar ........................ If you set the variable `view-diary-entries-initially' to `t', calling up the calendar automatically displays the diary entries for the current date as well. The diary dates appear only if the current date is visible. If you add both of the following lines to your init file: (setq view-diary-entries-initially t) (calendar) this displays both the calendar and diary windows whenever you start Emacs. *Note Init File::. Similarly, if you set the variable `view-calendar-holidays-initially' to `t', entering the calendar automatically displays a list of holidays for the current three-month period. The holiday list appears in a separate window. You can set the variable `mark-diary-entries-in-calendar' to `t' in order to mark any dates with diary entries. This takes effect whenever the calendar window contents are recomputed. There are two ways of marking these dates: by changing the face (*note Faces::), if the display supports that, or by placing a plus sign (`+') beside the date otherwise. Similarly, setting the variable `mark-holidays-in-calendar' to `t' marks holiday dates, either with a change of face or with an asterisk (`*'). The variable `calendar-holiday-marker' specifies how to mark a date as being a holiday. Its value may be a character to insert next to the date, or a face name to use for displaying the date. Likewise, the variable `diary-entry-marker' specifies how to mark a date that has diary entries. The calendar creates faces named `holiday-face' and `diary-face' for these purposes; those symbols are the default values of these variables, when Emacs supports multiple faces on your terminal. The variable `calendar-load-hook' is a normal hook run when the calendar package is first loaded (before actually starting to display the calendar). Starting the calendar runs the normal hook `initial-calendar-window-hook'. Recomputation of the calendar display does not run this hook. But if you leave the calendar with the `q' command and reenter it, the hook runs again. The variable `today-visible-calendar-hook' is a normal hook run after the calendar buffer has been prepared with the calendar when the current date is visible in the window. One use of this hook is to replace today's date with asterisks; to do that, use the hook function `calendar-star-date'. (add-hook 'today-visible-calendar-hook 'calendar-star-date) Another standard hook function marks the current date, either by changing its face or by adding an asterisk. Here's how to use it: (add-hook 'today-visible-calendar-hook 'calendar-mark-today) The variable `calendar-today-marker' specifies how to mark today's date. Its value should be a character to insert next to the date or a face name to use for displaying the date. A face named `calendar-today-face' is provided for this purpose; that symbol is the default for this variable when Emacs supports multiple faces on your terminal. A similar normal hook, `today-invisible-calendar-hook' is run if the current date is _not_ visible in the window.  File: xemacs.info, Node: Holiday Customizing, Next: Date Display Format, Prev: Calendar Customizing, Up: Calendar Customization Customizing the Holidays ........................ Emacs knows about holidays defined by entries on one of several lists. You can customize these lists of holidays to your own needs, adding or deleting holidays. The lists of holidays that Emacs uses are for general holidays (`general-holidays'), local holidays (`local-holidays'), Christian holidays (`christian-holidays'), Hebrew (Jewish) holidays (`hebrew-holidays'), Islamic (Moslem) holidays (`islamic-holidays'), and other holidays (`other-holidays'). The general holidays are, by default, holidays common throughout the United States. To eliminate these holidays, set `general-holidays' to `nil'. There are no default local holidays (but sites may supply some). You can set the variable `local-holidays' to any list of holidays, as described below. By default, Emacs does not include all the holidays of the religions that it knows, only those commonly found in secular calendars. For a more extensive collection of religious holidays, you can set any (or all) of the variables `all-christian-calendar-holidays', `all-hebrew-calendar-holidays', or `all-islamic-calendar-holidays' to `t'. If you want to eliminate the religious holidays, set any or all of the corresponding variables `christian-holidays', `hebrew-holidays', and `islamic-holidays' to `nil'. You can set the variable `other-holidays' to any list of holidays. This list, normally empty, is intended for individual use. Each of the lists (`general-holidays', `local-holidays', `christian-holidays', `hebrew-holidays', `islamic-holidays', and `other-holidays') is a list of "holiday forms", each holiday form describing a holiday (or sometimes a list of holidays). Here is a table of the possible kinds of holiday form. Day numbers and month numbers count starting from 1, but "dayname" numbers count Sunday as 0. The element STRING is always the name of the holiday, as a string. `(holiday-fixed MONTH DAY STRING)' A fixed date on the Gregorian calendar. MONTH and DAY are numbers, STRING is the name of the holiday. `(holiday-float MONTH DAYNAME K STRING)' The Kth DAYNAME in MONTH on the Gregorian calendar (DAYNAME=0 for Sunday, and so on); negative K means count back from the end of the month. STRING is the name of the holiday. `(holiday-hebrew MONTH DAY STRING)' A fixed date on the Hebrew calendar. MONTH and DAY are numbers, STRING is the name of the holiday. `(holiday-islamic MONTH DAY STRING)' A fixed date on the Islamic calendar. MONTH and DAY are numbers, STRING is the name of the holiday. `(holiday-julian MONTH DAY STRING)' A fixed date on the Julian calendar. MONTH and DAY are numbers, STRING is the name of the holiday. `(holiday-sexp SEXP STRING)' A date calculated by the Lisp expression SEXP. The expression should use the variable `year' to compute and return the date of a holiday, or `nil' if the holiday doesn't happen this year. The value of SEXP must represent the date as a list of the form `(MONTH DAY YEAR)'. STRING is the name of the holiday. `(if CONDITION HOLIDAY-FORM &optional HOLIDAY-FORM)' A holiday that happens only if CONDITION is true. `(FUNCTION [ARGS])' A list of dates calculated by the function FUNCTION, called with arguments ARGS. For example, suppose you want to add Bastille Day, celebrated in France on July 14. You can do this by adding the following line to your init file: (setq other-holidays '((holiday-fixed 7 14 "Bastille Day"))) *Note Init File::. The holiday form `(holiday-fixed 7 14 "Bastille Day")' specifies the fourteenth day of the seventh month (July). Many holidays occur on a specific day of the week, at a specific time of month. Here is a holiday form describing Hurricane Supplication Day, celebrated in the Virgin Islands on the fourth Monday in August: (holiday-float 8 1 4 "Hurricane Supplication Day") Here the 8 specifies August, the 1 specifies Monday (Sunday is 0, Tuesday is 2, and so on), and the 4 specifies the fourth occurrence in the month (1 specifies the first occurrence, 2 the second occurrence, -1 the last occurrence, -2 the second-to-last occurrence, and so on). You can specify holidays that occur on fixed days of the Hebrew, Islamic, and Julian calendars too. For example, (setq other-holidays '((holiday-hebrew 10 2 "Last day of Hanukkah") (holiday-islamic 3 12 "Mohammed's Birthday") (holiday-julian 4 2 "Jefferson's Birthday"))) adds the last day of Hanukkah (since the Hebrew months are numbered with 1 starting from Nisan), the Islamic feast celebrating Mohammed's birthday (since the Islamic months are numbered from 1 starting with Muharram), and Thomas Jefferson's birthday, which is 2 April 1743 on the Julian calendar. To include a holiday conditionally, use either Emacs Lisp's `if' or the `holiday-sexp' form. For example, American presidential elections occur on the first Tuesday after the first Monday in November of years divisible by 4: (holiday-sexp (if (= 0 (% year 4)) (calendar-gregorian-from-absolute (1+ (calendar-dayname-on-or-before 1 (+ 6 (calendar-absolute-from-gregorian (list 11 1 year)))))) "US Presidential Election")) or (if (= 0 (% displayed-year 4)) (fixed 11 (extract-calendar-day (calendar-gregorian-from-absolute (1+ (calendar-dayname-on-or-before 1 (+ 6 (calendar-absolute-from-gregorian (list 11 1 displayed-year))))))) "US Presidential Election")) Some holidays just don't fit into any of these forms because special calculations are involved in their determination. In such cases you must write a Lisp function to do the calculation. To include eclipses, for example, add `(eclipses)' to `other-holidays' and write an Emacs Lisp function `eclipses' that returns a (possibly empty) list of the relevant Gregorian dates among the range visible in the calendar window, with descriptive strings, like this: (((6 27 1991) "Lunar Eclipse") ((7 11 1991) "Solar Eclipse") ... )  File: xemacs.info, Node: Date Display Format, Next: Time Display Format, Prev: Holiday Customizing, Up: Calendar Customization Date Display Format ................... You can customize the manner of displaying dates in the diary, in mode lines, and in messages by setting `calendar-date-display-form'. This variable holds a list of expressions that can involve the variables `month', `day', and `year', which are all numbers in string form, and `monthname' and `dayname', which are both alphabetic strings. In the American style, the default value of this list is as follows: ((if dayname (concat dayname ", ")) monthname " " day ", " year) while in the European style this value is the default: ((if dayname (concat dayname ", ")) day " " monthname " " year) + The ISO standard date representation is this: (year "-" month "-" day) This specifies a typical American format: (month "/" day "/" (substring year -2))  File: xemacs.info, Node: Time Display Format, Next: Daylight Savings, Prev: Date Display Format, Up: Calendar Customization Time Display Format ................... The calendar and diary by default display times of day in the conventional American style with the hours from 1 through 12, minutes, and either `am' or `pm'. If you prefer the European style, also known in the US as military, in which the hours go from 00 to 23, you can alter the variable `calendar-time-display-form'. This variable is a list of expressions that can involve the variables `12-hours', `24-hours', and `minutes', which are all numbers in string form, and `am-pm' and `time-zone', which are both alphabetic strings. The default value of `calendar-time-display-form' is as follows: (12-hours ":" minutes am-pm (if time-zone " (") time-zone (if time-zone ")")) Here is a value that provides European style times: (24-hours ":" minutes (if time-zone " (") time-zone (if time-zone ")")) gives military-style times like `21:07 (UT)' if time zone names are defined, and times like `21:07' if they are not.  File: xemacs.info, Node: Daylight Savings, Next: Diary Customizing, Prev: Time Display Format, Up: Calendar Customization Daylight Savings Time ..................... Emacs understands the difference between standard time and daylight savings time--the times given for sunrise, sunset, solstices, equinoxes, and the phases of the moon take that into account. The rules for daylight savings time vary from place to place and have also varied historically from year to year. To do the job properly, Emacs needs to know which rules to use. Some operating systems keep track of the rules that apply to the place where you are; on these systems, Emacs gets the information it needs from the system automatically. If some or all of this information is missing, Emacs fills in the gaps with the rules currently used in Cambridge, Massachusetts. If the resulting rules are not what you want, you can tell Emacs the rules to use by setting certain variables. If the default choice of rules is not appropriate for your location, you can tell Emacs the rules to use by setting the variables `calendar-daylight-savings-starts' and `calendar-daylight-savings-ends'. Their values should be Lisp expressions that refer to the variable `year', and evaluate to the Gregorian date on which daylight savings time starts or (respectively) ends, in the form of a list `(MONTH DAY YEAR)'. The values should be `nil' if your area does not use daylight savings time. Emacs uses these expressions to determine the starting date of daylight savings time for the holiday list and for correcting times of day in the solar and lunar calculations. The values for Cambridge, Massachusetts are as follows: (calendar-nth-named-day 1 0 4 year) (calendar-nth-named-day -1 0 10 year) That is, the first 0th day (Sunday) of the fourth month (April) in the year specified by `year', and the last Sunday of the tenth month (October) of that year. If daylight savings time were changed to start on October 1, you would set `calendar-daylight-savings-starts' to this: (list 10 1 year) For a more complex example, suppose daylight savings time begins on the first of Nisan on the Hebrew calendar. You should set `calendar-daylight-savings-starts' to this value: (calendar-gregorian-from-absolute (calendar-absolute-from-hebrew (list 1 1 (+ year 3760)))) because Nisan is the first month in the Hebrew calendar and the Hebrew year differs from the Gregorian year by 3760 at Nisan. If there is no daylight savings time at your location, or if you want all times in standard time, set `calendar-daylight-savings-starts' and `calendar-daylight-savings-ends' to `nil'. The variable `calendar-daylight-time-offset' specifies the difference between daylight savings time and standard time, measured in minutes. The value for Cambridge, Massachusetts is 60. The two variables `calendar-daylight-savings-starts-time' and `calendar-daylight-savings-ends-time' specify the number of minutes after midnight local time when the transition to and from daylight savings time should occur. For Cambridge, Massachusetts both variables' values are 120.