2 @c This is part of the GNU Emacs Lisp Reference Manual.
3 @c Copyright (C) 1990-1995, 1998-1999, 2001-2011
4 @c Free Software Foundation, Inc.
5 @c See the file elisp.texi for copying conditions.
6 @setfilename ../../info/os
7 @node System Interface, Packaging, Display, Top
8 @chapter Operating System Interface
10 This chapter is about starting and getting out of Emacs, access to
11 values in the operating system environment, and terminal input, output,
14 @xref{Building Emacs}, for related information. @xref{Display}, for
15 additional operating system status information pertaining to the
16 terminal and the screen.
19 * Starting Up:: Customizing Emacs startup processing.
20 * Getting Out:: How exiting works (permanent or temporary).
21 * System Environment:: Distinguish the name and kind of system.
22 * User Identification:: Finding the name and user id of the user.
23 * Time of Day:: Getting the current time.
24 * Time Conversion:: Converting a time from numeric form to
25 calendrical data and vice versa.
26 * Time Parsing:: Converting a time from numeric form to text
28 * Processor Run Time:: Getting the run time used by Emacs.
29 * Time Calculations:: Adding, subtracting, comparing times, etc.
30 * Timers:: Setting a timer to call a function at a certain time.
31 * Idle Timers:: Setting a timer to call a function when Emacs has
32 been idle for a certain length of time.
33 * Terminal Input:: Accessing and recording terminal input.
34 * Terminal Output:: Controlling and recording terminal output.
35 * Sound Output:: Playing sounds on the computer's speaker.
36 * X11 Keysyms:: Operating on key symbols for X Windows.
37 * Batch Mode:: Running Emacs without terminal interaction.
38 * Session Management:: Saving and restoring state with X Session Management.
39 * Dynamic Libraries:: On-demand loading of support libraries.
43 @section Starting Up Emacs
45 This section describes what Emacs does when it is started, and how you
46 can customize these actions.
49 * Startup Summary:: Sequence of actions Emacs performs at startup.
50 * Init File:: Details on reading the init file.
51 * Terminal-Specific:: How the terminal-specific Lisp file is read.
52 * Command-Line Arguments:: How command-line arguments are processed,
53 and how you can customize them.
57 @subsection Summary: Sequence of Actions at Startup
58 @cindex initialization of Emacs
59 @cindex startup of Emacs
60 @cindex @file{startup.el}
62 When Emacs is started up, it performs the following operations
63 (which are defined in @file{startup.el}):
67 It adds subdirectories to @code{load-path}, by running the file named
68 @file{subdirs.el} in each directory in the list. Normally, this file
69 adds the directory's subdirectories to the list, and those are scanned
70 in their turn. The files @file{subdirs.el} are normally generated
71 automatically when Emacs is installed.
73 @vindex before-init-time
75 It sets the variable @code{before-init-time} to the value of
76 @code{current-time} (@pxref{Time of Day}). It also sets
77 @code{after-init-time} to @code{nil}, which signals to Lisp programs
78 that Emacs is being initialized.
80 @vindex initial-window-system@r{, and startup}
81 @vindex window-system-initialization-alist
83 It loads the initialization library for the window system specified by
84 the variable @code{initial-window-system} (@pxref{Window Systems,
85 initial-window-system}). This library's name is
86 @file{term/@var{windowsystem}-win.el}, where @var{windowsystem} is the
87 value of @code{initial-window-system}. From that library, it calls
88 the appropriate initialization function. The initialization function
89 for each supported window system is specified by
90 @code{window-system-initialization-alist}.
93 It sets the language environment and the terminal coding system,
94 if requested by environment variables such as @code{LANG}.
97 It processes the initial options. (Some of them are handled
98 even earlier than this.)
101 It runs the normal hook @code{before-init-hook}.
104 It initializes the window frame and faces, if appropriate, and turns
105 on the menu bar and tool bar, if the initial frame needs them.
108 It loads the library @file{site-start}, if it exists. This is not
109 done if the options @samp{-Q} or @samp{--no-site-file} were specified.
110 @cindex @file{site-start.el}
113 It loads your init file (@pxref{Init File}). This is not done if the
114 options @samp{-q}, @samp{-Q}, or @samp{--batch} were specified. If
115 the @samp{-u} option was specified, Emacs looks for the init file in
116 that user's home directory instead.
119 It loads the library @file{default}, if it exists. This is not done
120 if @code{inhibit-default-init} is non-@code{nil}, nor if the options
121 @samp{-q}, @samp{-Q}, or @samp{--batch} were specified.
122 @cindex @file{default.el}
125 It loads your abbrevs from the file specified by
126 @code{abbrev-file-name}, if that file exists and can be read
127 (@pxref{Abbrev Files, abbrev-file-name}). This is not done if the
128 option @samp{--batch} was specified.
130 @vindex after-init-time
132 It sets the variable @code{after-init-time} to the value of
133 @code{current-time}. This variable was set to @code{nil} earlier;
134 setting it to the current time signals that the initialization phase
135 is over, and, together with @code{before-init-time}, provides the
136 measurement of how long it took.
139 It runs the normal hook @code{after-init-hook}.
142 If the buffer @samp{*scratch*} exists and is still in Fundamental mode
143 (as it should be by default), it sets its major mode according to
144 @code{initial-major-mode}.
147 If started on a text-only terminal, it loads the terminal-specific
148 Lisp library, which is specified by the variable
149 @code{term-file-prefix} (@pxref{Terminal-Specific}). This is not done
150 in @code{--batch} mode, nor if @code{term-file-prefix} is @code{nil}.
153 It displays the initial echo area message, unless you have suppressed
154 that with @code{inhibit-startup-echo-area-message}.
157 It processes the action arguments from the command line.
160 It now exits if the option @code{--batch} was specified.
163 If @code{initial-buffer-choice} is a string, it visits the file with
164 that name. Furthermore, if the @samp{*scratch*} buffer exists and is
165 empty, it inserts @code{initial-scratch-message} into that buffer.
168 It runs @code{emacs-startup-hook} and then @code{term-setup-hook}.
171 It calls @code{frame-notice-user-settings}, which modifies the
172 parameters of the selected frame according to whatever the init files
176 It runs @code{window-setup-hook}. @xref{Window Systems}.
179 If the option @code{--daemon} was specified, it calls
180 @code{server-start} and detaches from the controlling terminal.
181 @xref{Emacs Server,,, emacs, The GNU Emacs Manual}.
184 It displays the @dfn{startup screen}, which is a special buffer that
185 contains information about copyleft and basic Emacs usage. This is
186 not done if @code{initial-buffer-choice} or
187 @code{inhibit-startup-screen} are @code{nil}, nor if the
188 @samp{--no-splash} or @samp{-Q} command-line options were specified.
191 If started by the X session manager, it calls
192 @code{emacs-session-restore} passing it as argument the ID of the
193 previous session. @xref{Session Management}.
196 @defopt inhibit-startup-screen
197 This variable, if non-@code{nil}, inhibits the startup screen. In
198 that case, Emacs typically displays the @samp{*scratch*} buffer; but
199 see @code{initial-buffer-choice}, below.
201 Do not set this variable in the init file of a new user, or in a way
202 that affects more than one user, as that would prevent new users from
203 receiving information about copyleft and basic Emacs usage.
205 @vindex inhibit-startup-message
206 @vindex inhibit-splash-screen
207 @code{inhibit-startup-message} and @code{inhibit-splash-screen} are
208 aliases for this variable.
211 @defopt initial-buffer-choice
212 This variable, if non-@code{nil}, determines a file or buffer for
213 Emacs to display after starting up, instead of the startup screen. If
214 its value is @code{t}, Emacs displays the @samp{*scratch*} buffer. If
215 its value is a string, that specifies the name of a file for Emacs to
219 @defopt inhibit-startup-echo-area-message
220 This variable controls the display of the startup echo area message.
221 You can suppress the startup echo area message by adding text with this
222 form to your init file:
225 (setq inhibit-startup-echo-area-message
226 "@var{your-login-name}")
229 Emacs explicitly checks for an expression as shown above in your init
230 file; your login name must appear in the expression as a Lisp string
231 constant. Other methods of setting
232 @code{inhibit-startup-echo-area-message} to the same value do not
233 inhibit the startup message. This way, you can easily inhibit the
234 message for yourself if you wish, but thoughtless copying of your init
235 file will not inhibit the message for someone else.
238 @defopt initial-scratch-message
239 This variable, if non-@code{nil}, should be a string, which is
240 inserted into the @samp{*scratch*} buffer when Emacs starts up. If it
241 is @code{nil}, the @samp{*scratch*} buffer is empty.
245 @subsection The Init File, @file{.emacs}
247 @cindex @file{.emacs}
249 When you start Emacs, it normally attempts to load your @dfn{init
250 file}. This is either a file named @file{.emacs} or @file{.emacs.el}
251 in your home directory, or a file named @file{init.el} in a
252 subdirectory named @file{.emacs.d} in your home directory. Whichever
253 place you use, you can also compile the file (@pxref{Byte
254 Compilation}); then the actual file loaded will be @file{.emacs.elc}
257 The command-line switches @samp{-q}, @samp{-Q}, and @samp{-u}
258 control whether and where to find the init file; @samp{-q} (and the
259 stronger @samp{-Q}) says not to load an init file, while @samp{-u
260 @var{user}} says to load @var{user}'s init file instead of yours.
261 @xref{Entering Emacs,,, emacs, The GNU Emacs Manual}. If neither
262 option is specified, Emacs uses the @code{LOGNAME} environment
263 variable, or the @code{USER} (most systems) or @code{USERNAME} (MS
264 systems) variable, to find your home directory and thus your init
265 file; this way, even if you have su'd, Emacs still loads your own init
266 file. If those environment variables are absent, though, Emacs uses
267 your user-id to find your home directory.
269 @cindex default init file
270 A site may have a @dfn{default init file}, which is the library
271 named @file{default.el}. Emacs finds the @file{default.el} file
272 through the standard search path for libraries (@pxref{How Programs Do
273 Loading}). The Emacs distribution does not come with this file; sites
274 may provide one for local customizations. If the default init file
275 exists, it is loaded whenever you start Emacs, except in batch mode or
276 if @samp{-q} (or @samp{-Q}) is specified. But your own personal init
277 file, if any, is loaded first; if it sets @code{inhibit-default-init}
278 to a non-@code{nil} value, then Emacs does not subsequently load the
279 @file{default.el} file.
281 Another file for site-customization is @file{site-start.el}. Emacs
282 loads this @emph{before} the user's init file. You can inhibit the
283 loading of this file with the option @samp{--no-site-file}.
285 @defopt site-run-file
286 This variable specifies the site-customization file to load before the
287 user's init file. Its normal value is @code{"site-start"}. The only
288 way you can change it with real effect is to do so before dumping
292 @xref{Init Examples,, Init File Examples, emacs, The GNU Emacs Manual}, for
293 examples of how to make various commonly desired customizations in your
296 @defopt inhibit-default-init
297 This variable prevents Emacs from loading the default initialization
298 library file for your session of Emacs. If its value is non-@code{nil},
299 then the default library is not loaded. The default value is
303 @defvar before-init-hook
304 This normal hook is run, once, just before loading all the init files
305 (the user's init file, @file{default.el}, and/or @file{site-start.el}).
306 (The only way to change it with real effect is before dumping Emacs.)
309 @defvar after-init-hook
310 This normal hook is run, once, just after loading all the init files
311 (the user's init file, @file{default.el}, and/or @file{site-start.el}),
312 before loading the terminal-specific library and processing the
313 command-line action arguments.
316 @defvar emacs-startup-hook
317 This normal hook is run, once, just after handling the command line
318 arguments, just before @code{term-setup-hook}.
321 @defvar user-init-file
322 This variable holds the absolute file name of the user's init file. If the
323 actual init file loaded is a compiled file, such as @file{.emacs.elc},
324 the value refers to the corresponding source file.
327 @defvar user-emacs-directory
328 This variable holds the name of the @file{.emacs.d} directory. It is
329 ordinarily @file{~/.emacs.d}, but differs on some platforms.
332 @node Terminal-Specific
333 @subsection Terminal-Specific Initialization
334 @cindex terminal-specific initialization
336 Each terminal type can have its own Lisp library that Emacs loads when
337 run on that type of terminal. The library's name is constructed by
338 concatenating the value of the variable @code{term-file-prefix} and the
339 terminal type (specified by the environment variable @code{TERM}).
340 Normally, @code{term-file-prefix} has the value
341 @code{"term/"}; changing this is not recommended. Emacs finds the file
342 in the normal manner, by searching the @code{load-path} directories, and
343 trying the @samp{.elc} and @samp{.el} suffixes.
346 The usual function of a terminal-specific library is to enable
347 special keys to send sequences that Emacs can recognize. It may also
348 need to set or add to @code{input-decode-map} if the Termcap or
349 Terminfo entry does not specify all the terminal's function keys.
350 @xref{Terminal Input}.
352 When the name of the terminal type contains a hyphen, and no library
353 is found whose name is identical to the terminal's name, Emacs strips
354 from the terminal's name the last hyphen and everything that follows
355 it, and tries again. This process is repeated until Emacs finds a
356 matching library or until there are no more hyphens in the name (the
357 latter means the terminal doesn't have any library specific to it).
358 Thus, for example, if there are no @samp{aaa-48} and @samp{aaa-30}
359 libraries, Emacs will try the same library @file{term/aaa.el} for
360 terminal types @samp{aaa-48} and @samp{aaa-30-rv}. If necessary, the
361 library can evaluate @code{(getenv "TERM")} to find the full name of
362 the terminal type.@refill
364 Your init file can prevent the loading of the
365 terminal-specific library by setting the variable
366 @code{term-file-prefix} to @code{nil}. This feature is useful when
367 experimenting with your own peculiar customizations.
369 You can also arrange to override some of the actions of the
370 terminal-specific library by setting the variable
371 @code{term-setup-hook}. This is a normal hook which Emacs runs using
372 @code{run-hooks} at the end of Emacs initialization, after loading both
373 your init file and any terminal-specific libraries. You can
374 use this variable to define initializations for terminals that do not
375 have their own libraries. @xref{Hooks}.
377 @defvar term-file-prefix
378 @cindex @code{TERM} environment variable
379 If the @code{term-file-prefix} variable is non-@code{nil}, Emacs loads
380 a terminal-specific initialization file as follows:
383 (load (concat term-file-prefix (getenv "TERM")))
387 You may set the @code{term-file-prefix} variable to @code{nil} in your
388 init file if you do not wish to load the
389 terminal-initialization file. To do this, put the following in
390 your init file: @code{(setq term-file-prefix nil)}.
392 On MS-DOS, if the environment variable @code{TERM} is not set, Emacs
393 uses @samp{internal} as the terminal type.
396 @defvar term-setup-hook
397 This variable is a normal hook that Emacs runs after loading your
398 init file, the default initialization file (if any) and the
399 terminal-specific Lisp file.
401 You can use @code{term-setup-hook} to override the definitions made by a
402 terminal-specific file.
405 See @code{window-setup-hook} in @ref{Window Systems}, for a related
408 @node Command-Line Arguments
409 @subsection Command-Line Arguments
410 @cindex command-line arguments
412 You can use command-line arguments to request various actions when you
413 start Emacs. Since you do not need to start Emacs more than once per
414 day, and will often leave your Emacs session running longer than that,
415 command-line arguments are hardly ever used. As a practical matter, it
416 is best to avoid making the habit of using them, since this habit would
417 encourage you to kill and restart Emacs unnecessarily often. These
418 options exist for two reasons: to be compatible with other editors (for
419 invocation by other programs) and to enable shell scripts to run
420 specific Lisp programs.
422 This section describes how Emacs processes command-line arguments,
423 and how you can customize them.
426 (Note that some other editors require you to start afresh each time
427 you want to edit a file. With this kind of editor, you will probably
428 specify the file as a command-line argument. The recommended way to
429 use GNU Emacs is to start it only once, just after you log in, and do
430 all your editing in the same Emacs process. Each time you want to edit
431 a different file, you visit it with the existing Emacs, which eventually
432 comes to have many files in it ready for editing. Usually you do not
433 kill the Emacs until you are about to log out.)
437 This function parses the command line that Emacs was called with,
438 processes it, loads the user's init file and displays the
442 @defvar command-line-processed
443 The value of this variable is @code{t} once the command line has been
446 If you redump Emacs by calling @code{dump-emacs}, you may wish to set
447 this variable to @code{nil} first in order to cause the new dumped Emacs
448 to process its new command-line arguments.
451 @defvar command-switch-alist
452 @cindex switches on command line
453 @cindex options on command line
454 @cindex command-line options
455 The value of this variable is an alist of user-defined command-line
456 options and associated handler functions. This variable exists so you
457 can add elements to it.
459 A @dfn{command-line option} is an argument on the command line, which
466 The elements of the @code{command-switch-alist} look like this:
469 (@var{option} . @var{handler-function})
472 The @sc{car}, @var{option}, is a string, the name of a command-line
473 option (not including the initial hyphen). The @var{handler-function}
474 is called to handle @var{option}, and receives the option name as its
477 In some cases, the option is followed in the command line by an
478 argument. In these cases, the @var{handler-function} can find all the
479 remaining command-line arguments in the variable
480 @code{command-line-args-left}. (The entire list of command-line
481 arguments is in @code{command-line-args}.)
483 The command-line arguments are parsed by the @code{command-line-1}
484 function in the @file{startup.el} file. See also @ref{Emacs
485 Invocation, , Command Line Arguments for Emacs Invocation, emacs, The
489 @defvar command-line-args
490 The value of this variable is the list of command-line arguments passed
494 @defvar command-line-args-left
496 The value of this variable is the list of command-line arguments that
497 have not yet been processed. @code{argv} is an alias for this.
500 @defvar command-line-functions
501 This variable's value is a list of functions for handling an
502 unrecognized command-line argument. Each time the next argument to be
503 processed has no special meaning, the functions in this list are called,
504 in order of appearance, until one of them returns a non-@code{nil}
507 These functions are called with no arguments. They can access the
508 command-line argument under consideration through the variable
509 @code{argi}, which is bound temporarily at this point. The remaining
510 arguments (not including the current one) are in the variable
511 @code{command-line-args-left}.
513 When a function recognizes and processes the argument in @code{argi}, it
514 should return a non-@code{nil} value to say it has dealt with that
515 argument. If it has also dealt with some of the following arguments, it
516 can indicate that by deleting them from @code{command-line-args-left}.
518 If all of these functions return @code{nil}, then the argument is used
519 as a file name to visit.
523 @section Getting Out of Emacs
524 @cindex exiting Emacs
526 There are two ways to get out of Emacs: you can kill the Emacs job,
527 which exits permanently, or you can suspend it, which permits you to
528 reenter the Emacs process later. As a practical matter, you seldom kill
529 Emacs---only when you are about to log out. Suspending is much more
533 * Killing Emacs:: Exiting Emacs irreversibly.
534 * Suspending Emacs:: Exiting Emacs reversibly.
538 @comment node-name, next, previous, up
539 @subsection Killing Emacs
540 @cindex killing Emacs
542 Killing Emacs means ending the execution of the Emacs process. The
543 parent process normally resumes control. The low-level primitive for
544 killing Emacs is @code{kill-emacs}.
546 @deffn Command kill-emacs &optional exit-data
547 This command exits the Emacs process and kills it.
549 If @var{exit-data} is an integer, then it is used as the exit status
550 of the Emacs process. (This is useful primarily in batch operation; see
553 If @var{exit-data} is a string, its contents are stuffed into the
554 terminal input buffer so that the shell (or whatever program next reads
555 input) can read them.
558 All the information in the Emacs process, aside from files that have
559 been saved, is lost when the Emacs process is killed. Because killing
560 Emacs inadvertently can lose a lot of work, Emacs queries for
561 confirmation before actually terminating if you have buffers that need
562 saving or subprocesses that are running. This is done in the function
563 @code{save-buffers-kill-emacs}, the higher level function from which
564 @code{kill-emacs} is usually called.
566 @defvar kill-emacs-query-functions
567 After asking the standard questions, @code{save-buffers-kill-emacs}
568 calls the functions in the list @code{kill-emacs-query-functions}, in
569 order of appearance, with no arguments. These functions can ask for
570 additional confirmation from the user. If any of them returns
571 @code{nil}, @code{save-buffers-kill-emacs} does not kill Emacs, and
572 does not run the remaining functions in this hook. Calling
573 @code{kill-emacs} directly does not run this hook.
576 @defvar kill-emacs-hook
577 This variable is a normal hook; once @code{save-buffers-kill-emacs} is
578 finished with all file saving and confirmation, it calls
579 @code{kill-emacs} which runs the functions in this hook.
581 @code{kill-emacs} may be invoked directly (that is not via
582 @code{save-buffers-kill-emacs}) if the terminal is disconnected, or in
583 similar situations where interaction with the user is not possible.
584 Thus, if your hook needs to interact with the user, put it on
585 @code{kill-emacs-query-functions}; if it needs to run regardless of
586 how Emacs is killed, put it on @code{kill-emacs-hook}.
589 @node Suspending Emacs
590 @subsection Suspending Emacs
591 @cindex suspending Emacs
593 On text-only terminals, it is possible to @dfn{suspend Emacs}, which
594 means stopping Emacs temporarily and returning control to its superior
595 process, which is usually the shell. This allows you to resume
596 editing later in the same Emacs process, with the same buffers, the
597 same kill ring, the same undo history, and so on. To resume Emacs,
598 use the appropriate command in the parent shell---most likely
601 @cindex controlling terminal
602 Suspending works only on a terminal device from which the Emacs
603 session was started. We call that device the @dfn{controlling
604 terminal} of the session. Suspending is not allowed if the
605 controlling terminal is a graphical terminal.
607 Some operating systems do not support suspension of jobs; on these
608 systems, ``suspension'' actually creates a new shell temporarily as a
609 subprocess of Emacs. Then you would exit the shell to return to Emacs.
611 @deffn Command suspend-emacs &optional string
612 This function stops Emacs and returns control to the superior process.
613 If and when the superior process resumes Emacs, @code{suspend-emacs}
614 returns @code{nil} to its caller in Lisp.
616 This function works only on the controlling terminal of the Emacs
617 session; to relinquish control of other tty devices, use
618 @code{suspend-tty} (see below). If the Emacs session uses more than
619 one terminal, you must delete the frames on all the other terminals
620 before suspending Emacs, or this function signals an error.
621 @xref{Multiple Terminals}.
623 If @var{string} is non-@code{nil}, its characters are sent to Emacs's
624 superior shell, to be read as terminal input. The characters in
625 @var{string} are not echoed by the superior shell; only the results
628 Before suspending, @code{suspend-emacs} runs the normal hook
629 @code{suspend-hook}. After the user resumes Emacs,
630 @code{suspend-emacs} runs the normal hook @code{suspend-resume-hook}.
633 The next redisplay after resumption will redraw the entire screen,
634 unless the variable @code{no-redraw-on-reenter} is non-@code{nil}.
635 @xref{Refresh Screen}.
637 In the following example, note that @samp{pwd} is not echoed after
638 Emacs is suspended. But it is read and executed by the shell.
647 (add-hook 'suspend-hook
651 (error "Suspend canceled")))))
652 @result{} (lambda nil
653 (or (y-or-n-p "Really suspend? ")
654 (error "Suspend canceled")))
657 (add-hook 'suspend-resume-hook
658 (function (lambda () (message "Resumed!"))))
659 @result{} (lambda nil (message "Resumed!"))
662 (suspend-emacs "pwd")
666 ---------- Buffer: Minibuffer ----------
667 Really suspend? @kbd{y}
668 ---------- Buffer: Minibuffer ----------
672 ---------- Parent Shell ----------
673 lewis@@slug[23] % /user/lewis/manual
678 ---------- Echo Area ----------
685 This variable is a normal hook that Emacs runs before suspending.
688 @defvar suspend-resume-hook
689 This variable is a normal hook that Emacs runs on resuming
693 @defun suspend-tty &optional tty
694 If @var{tty} specifies a terminal device used by Emacs, this function
695 relinquishes the device and restores it to its prior state. Frames
696 that used the device continue to exist, but are not updated and Emacs
697 doesn't read input from them. @var{tty} can be a terminal object, a
698 frame (meaning the terminal for that frame), or @code{nil} (meaning
699 the terminal for the selected frame). @xref{Multiple Terminals}.
701 If @var{tty} is already suspended, this function does nothing.
703 @vindex suspend-tty-functions
704 This function runs the hook @code{suspend-tty-functions}, passing the
705 terminal object as an argument to each function.
708 @defun resume-tty &optional tty
709 This function resumes the previously suspended terminal device
710 @var{tty}; @var{tty} can be a terminal object, a frame (meaning the
711 terminal for that frame), or @code{nil} (meaning the terminal for the
714 @vindex resume-tty-functions
715 This function reopens the terminal device, re-initializes it, and
716 redraws its with that terminal's selected frame. It then runs the
717 hook @code{resume-tty-functions}, passing the terminal object as an
718 argument to each function.
720 If the same device is already used by another Emacs terminal, this
721 function signals an error.
724 @defun controlling-tty-p &optional terminal
725 This function returns non-@code{nil} if @var{terminal} is the
726 controlling terminal of the Emacs session; @code{terminal} can be a
727 terminal object, a frame (meaning the terminal for that frame), or
728 @code{nil} (meaning the terminal for the selected frame).
731 @deffn Command suspend-frame
732 This command @dfn{suspends} a frame. For GUI frames, it calls
733 @code{iconify-frame} (@pxref{Visibility of Frames}); for text-only
734 frames, it calls either @code{suspend-emacs} or @code{suspend-tty},
735 depending on whether the frame is displayed on the controlling
736 terminal device or not.
739 @node System Environment
740 @section Operating System Environment
741 @cindex operating system environment
743 Emacs provides access to variables in the operating system environment
744 through various functions. These variables include the name of the
745 system, the user's @acronym{UID}, and so on.
747 @defvar system-configuration
748 This variable holds the standard GNU configuration name for the
749 hardware/software configuration of your system, as a string. The
750 convenient way to test parts of this string is with
754 @cindex system type and name
756 The value of this variable is a symbol indicating the type of operating
757 system Emacs is operating on. Here is a table of the possible values:
764 Berkeley BSD and its variants.
767 Cygwin, a Posix layer on top of MS-Windows.
773 The GNU system (using the GNU kernel, which consists of the HURD and Mach).
776 A GNU/Linux system---that is, a variant GNU system, using the Linux
777 kernel. (These systems are the ones people often call ``Linux,'' but
778 actually Linux is just the kernel, not the whole system.)
781 A GNU (glibc-based) system with a FreeBSD kernel.
784 Hewlett-Packard HPUX operating system.
787 Silicon Graphics Irix system.
790 Microsoft MS-DOS ``operating system.'' Emacs compiled with DJGPP for
791 MS-DOS binds @code{system-type} to @code{ms-dos} even when you run it on
798 Microsoft Windows NT and later. The same executable supports Windows
799 9X, but the value of @code{system-type} is @code{windows-nt} in either
804 We do not wish to add new symbols to make finer distinctions unless it
805 is absolutely necessary! In fact, we hope to eliminate some of these
806 alternatives in the future. We recommend using
807 @code{system-configuration} to distinguish between different operating
812 This function returns the name of the machine you are running on.
815 @result{} "www.gnu.org"
819 The symbol @code{system-name} is a variable as well as a function. In
820 fact, the function returns whatever value the variable
821 @code{system-name} currently holds. Thus, you can set the variable
822 @code{system-name} in case Emacs is confused about the name of your
823 system. The variable is also useful for constructing frame titles
824 (@pxref{Frame Titles}).
826 @defopt mail-host-address
827 If this variable is non-@code{nil}, it is used instead of
828 @code{system-name} for purposes of generating email addresses. For
829 example, it is used when constructing the default value of
830 @code{user-mail-address}. @xref{User Identification}. (Since this is
831 done when Emacs starts up, the value actually used is the one saved when
832 Emacs was dumped. @xref{Building Emacs}.)
835 @deffn Command getenv var &optional frame
836 @cindex environment variable access
837 This function returns the value of the environment variable @var{var},
838 as a string. @var{var} should be a string. If @var{var} is undefined
839 in the environment, @code{getenv} returns @code{nil}. If returns
840 @samp{""} if @var{var} is set but null. Within Emacs, the environment
841 variable values are kept in the Lisp variable @code{process-environment}.
850 lewis@@slug[10] % printenv
851 PATH=.:/user/lewis/bin:/usr/bin:/usr/local/bin
863 @deffn Command setenv variable &optional value
864 This command sets the value of the environment variable named
865 @var{variable} to @var{value}. @var{variable} should be a string.
866 Internally, Emacs Lisp can handle any string. However, normally
867 @var{variable} should be a valid shell identifier, that is, a sequence
868 of letters, digits and underscores, starting with a letter or
869 underscore. Otherwise, errors may occur if subprocesses of Emacs try
870 to access the value of @var{variable}. If @var{value} is omitted or
871 @code{nil}, @code{setenv} removes @var{variable} from the environment.
872 Otherwise, @var{value} should be a string.
874 @code{setenv} works by modifying @code{process-environment}; binding
875 that variable with @code{let} is also reasonable practice.
877 @code{setenv} returns the new value of @var{variable}, or @code{nil}
878 if it removed @var{variable} from the environment.
881 @defvar process-environment
882 This variable is a list of strings, each describing one environment
883 variable. The functions @code{getenv} and @code{setenv} work by means
889 @result{} ("l=/usr/stanford/lib/gnuemacs/lisp"
890 "PATH=.:/user/lewis/bin:/usr/class:/nfsusr/local/bin"
900 If @code{process-environment} contains ``duplicate'' elements that
901 specify the same environment variable, the first of these elements
902 specifies the variable, and the other ``duplicates'' are ignored.
905 @defvar initial-environment
906 This variable holds the list of environment variables Emacs inherited
907 from its parent process. It is computed during startup, see
908 @ref{Startup Summary}.
911 @defvar path-separator
912 This variable holds a string which says which character separates
913 directories in a search path (as found in an environment variable). Its
914 value is @code{":"} for Unix and GNU systems, and @code{";"} for MS-DOS
918 @defun parse-colon-path path
919 This function takes a search path string such as would be the value of
920 the @code{PATH} environment variable, and splits it at the separators,
921 returning a list of directory names. @code{nil} in this list stands for
922 ``use the current directory.'' Although the function's name says
923 ``colon,'' it actually uses the value of @code{path-separator}.
926 (parse-colon-path ":/foo:/bar")
927 @result{} (nil "/foo/" "/bar/")
931 @defvar invocation-name
932 This variable holds the program name under which Emacs was invoked. The
933 value is a string, and does not include a directory name.
936 @defvar invocation-directory
937 This variable holds the directory from which the Emacs executable was
938 invoked, or perhaps @code{nil} if that directory cannot be determined.
941 @defvar installation-directory
942 If non-@code{nil}, this is a directory within which to look for the
943 @file{lib-src} and @file{etc} subdirectories. This is non-@code{nil}
944 when Emacs can't find those directories in their standard installed
945 locations, but can find them in a directory related somehow to the one
946 containing the Emacs executable.
949 @defun load-average &optional use-float
950 This function returns the current 1-minute, 5-minute, and 15-minute load
953 By default, the values are integers that are 100 times the system load
954 averages, which indicate the average number of processes trying to run.
955 If @var{use-float} is non-@code{nil}, then they are returned
956 as floating point numbers and without multiplying by 100.
958 If it is impossible to obtain the load average, this function signals
959 an error. On some platforms, access to load averages requires
960 installing Emacs as setuid or setgid so that it can read kernel
961 information, and that usually isn't advisable.
963 If the 1-minute load average is available, but the 5- or 15-minute
964 averages are not, this function returns a shortened list containing
965 the available averages.
970 @result{} (169 48 36)
974 @result{} (1.69 0.48 0.36)
978 lewis@@rocky[5] % uptime
979 11:55am up 1 day, 19:37, 3 users,
980 load average: 1.69, 0.48, 0.36
986 This function returns the process @acronym{ID} of the Emacs process,
990 @defvar tty-erase-char
991 This variable holds the erase character that was selected
992 in the system's terminal driver, before Emacs was started.
993 The value is @code{nil} if Emacs is running under a window system.
996 @node User Identification
997 @section User Identification
998 @cindex user identification
1000 @defvar init-file-user
1001 This variable says which user's init files should be used by
1002 Emacs---or @code{nil} if none. @code{""} stands for the user who
1003 originally logged in. The value reflects command-line options such as
1004 @samp{-q} or @samp{-u @var{user}}.
1006 Lisp packages that load files of customizations, or any other sort of
1007 user profile, should obey this variable in deciding where to find it.
1008 They should load the profile of the user name found in this variable.
1009 If @code{init-file-user} is @code{nil}, meaning that the @samp{-q}
1010 option was used, then Lisp packages should not load any customization
1011 files or user profile.
1014 @defopt user-mail-address
1015 This holds the nominal email address of the user who is using Emacs.
1016 Emacs normally sets this variable to a default value after reading your
1017 init files, but not if you have already set it. So you can set the
1018 variable to some other value in your init file if you do not
1019 want to use the default value.
1022 @defun user-login-name &optional uid
1023 If you don't specify @var{uid}, this function returns the name under
1024 which the user is logged in. If the environment variable @code{LOGNAME}
1025 is set, that value is used. Otherwise, if the environment variable
1026 @code{USER} is set, that value is used. Otherwise, the value is based
1027 on the effective @acronym{UID}, not the real @acronym{UID}.
1029 If you specify @var{uid}, the value is the user name that corresponds
1030 to @var{uid} (which should be an integer), or @code{nil} if there is
1041 @defun user-real-login-name
1042 This function returns the user name corresponding to Emacs's real
1043 @acronym{UID}. This ignores the effective @acronym{UID} and ignores the
1044 environment variables @code{LOGNAME} and @code{USER}.
1047 @defun user-full-name &optional uid
1048 This function returns the full name of the logged-in user---or the value
1049 of the environment variable @code{NAME}, if that is set.
1051 @c "Bil" is the correct spelling.
1055 @result{} "Bil Lewis"
1059 If the Emacs job's user-id does not correspond to any known user (and
1060 provided @code{NAME} is not set), the value is @code{"unknown"}.
1062 If @var{uid} is non-@code{nil}, then it should be a number (a user-id)
1063 or a string (a login name). Then @code{user-full-name} returns the full
1064 name corresponding to that user-id or login name. If you specify a
1065 user-id or login name that isn't defined, it returns @code{nil}.
1068 @vindex user-full-name
1069 @vindex user-real-login-name
1070 @vindex user-login-name
1071 The symbols @code{user-login-name}, @code{user-real-login-name} and
1072 @code{user-full-name} are variables as well as functions. The functions
1073 return the same values that the variables hold. These variables allow
1074 you to ``fake out'' Emacs by telling the functions what to return. The
1075 variables are also useful for constructing frame titles (@pxref{Frame
1078 @defun user-real-uid
1079 This function returns the real @acronym{UID} of the user.
1080 The value may be a floating point number.
1091 This function returns the effective @acronym{UID} of the user.
1092 The value may be a floating point number.
1096 @section Time of Day
1098 This section explains how to determine the current time and the time
1101 @defun current-time-string &optional time-value
1102 This function returns the current time and date as a human-readable
1103 string. The format of the string is unvarying; the number of characters
1104 used for each part is always the same, so you can reliably use
1105 @code{substring} to extract pieces of it. It is wise to count the
1106 characters from the beginning of the string rather than from the end, as
1107 additional information may some day be added at the end.
1109 The argument @var{time-value}, if given, specifies a time to format
1110 instead of the current time. This argument should have the same form
1111 as the times obtained from @code{current-time} (see below) and from
1112 @code{file-attributes} (@pxref{Definition of file-attributes}). It
1113 should be a list whose first two elements are integers; a third
1114 (microsecond) element, if present, is ignored. @var{time-value} can
1115 also be a cons of two integers, but this usage is obsolete.
1119 (current-time-string)
1120 @result{} "Wed Oct 14 22:21:05 1987"
1126 This function returns the system's time value as a list of three
1127 integers: @code{(@var{high} @var{low} @var{microsec})}. The integers
1128 @var{high} and @var{low} combine to give the number of seconds since
1129 0:00 January 1, 1970 UTC (Coordinated Universal Time), which is
1131 @var{high} * 2**16 + @var{low}.
1137 The third element, @var{microsec}, gives the microseconds since the
1138 start of the current second (or 0 for systems that return time with
1139 the resolution of only one second).
1141 The first two elements can be compared with file time values such as you
1142 get with the function @code{file-attributes}.
1143 @xref{Definition of file-attributes}.
1146 @defun current-time-zone &optional time-value
1147 This function returns a list describing the time zone that the user is
1150 The value has the form @code{(@var{offset} @var{name})}. Here
1151 @var{offset} is an integer giving the number of seconds ahead of UTC
1152 (east of Greenwich). A negative value means west of Greenwich. The
1153 second element, @var{name}, is a string giving the name of the time
1154 zone. Both elements change when daylight saving time begins or ends;
1155 if the user has specified a time zone that does not use a seasonal time
1156 adjustment, then the value is constant through time.
1158 If the operating system doesn't supply all the information necessary to
1159 compute the value, the unknown elements of the list are @code{nil}.
1161 The argument @var{time-value}, if given, specifies a time to analyze
1162 instead of the current time. The argument should have the same form
1163 as for @code{current-time-string} (see above). Thus, you can use
1164 times obtained from @code{current-time} (see above) and from
1165 @code{file-attributes}. @xref{Definition of file-attributes}.
1168 @defun set-time-zone-rule tz
1169 This function specifies the local time zone according to @var{tz}. If
1170 @var{tz} is @code{nil}, that means to use an implementation-defined
1171 default time zone. If @var{tz} is @code{t}, that means to use
1172 Universal Time. Otherwise, @var{tz} should be a string specifying a
1176 @defun float-time &optional time-value
1177 This function returns the current time as a floating-point number of
1178 seconds since the epoch. The argument @var{time-value}, if given,
1179 specifies a time to convert instead of the current time. The argument
1180 should have the same form as for @code{current-time-string} (see
1181 above). Thus, it accepts the output of @code{current-time} and
1182 @code{file-attributes} (@pxref{Definition of file-attributes}).
1184 @emph{Warning}: Since the result is floating point, it may not be
1185 exact. Do not use this function if precise time stamps are required.
1188 @node Time Conversion
1189 @section Time Conversion
1191 These functions convert time values (lists of two or three integers)
1192 to calendrical information and vice versa. You can get time values
1193 from the functions @code{current-time} (@pxref{Time of Day}) and
1194 @code{file-attributes} (@pxref{Definition of file-attributes}).
1196 Many 32-bit operating systems are limited to time values that contain 32 bits
1197 of information; these systems typically handle only the times from
1198 1901-12-13 20:45:52 UTC through 2038-01-19 03:14:07 UTC. However, 64-bit
1199 and some 32-bit operating systems have larger time values, and can
1200 represent times far in the past or future.
1202 Time conversion functions always use the Gregorian calendar, even
1203 for dates before the Gregorian calendar was introduced. Year numbers
1204 count the number of years since the year 1 B.C., and do not skip zero
1205 as traditional Gregorian years do; for example, the year number
1206 @minus{}37 represents the Gregorian year 38 B.C@.
1208 @defun decode-time &optional time
1209 This function converts a time value into calendrical information. If
1210 you don't specify @var{time}, it decodes the current time. The return
1211 value is a list of nine elements, as follows:
1214 (@var{seconds} @var{minutes} @var{hour} @var{day} @var{month} @var{year} @var{dow} @var{dst} @var{zone})
1217 Here is what the elements mean:
1221 The number of seconds past the minute, as an integer between 0 and 59.
1222 On some operating systems, this is 60 for leap seconds.
1224 The number of minutes past the hour, as an integer between 0 and 59.
1226 The hour of the day, as an integer between 0 and 23.
1228 The day of the month, as an integer between 1 and 31.
1230 The month of the year, as an integer between 1 and 12.
1232 The year, an integer typically greater than 1900.
1234 The day of week, as an integer between 0 and 6, where 0 stands for
1237 @code{t} if daylight saving time is effect, otherwise @code{nil}.
1239 An integer indicating the time zone, as the number of seconds east of
1243 @strong{Common Lisp Note:} Common Lisp has different meanings for
1244 @var{dow} and @var{zone}.
1247 @defun encode-time seconds minutes hour day month year &optional zone
1248 This function is the inverse of @code{decode-time}. It converts seven
1249 items of calendrical data into a time value. For the meanings of the
1250 arguments, see the table above under @code{decode-time}.
1252 Year numbers less than 100 are not treated specially. If you want them
1253 to stand for years above 1900, or years above 2000, you must alter them
1254 yourself before you call @code{encode-time}.
1256 The optional argument @var{zone} defaults to the current time zone and
1257 its daylight saving time rules. If specified, it can be either a list
1258 (as you would get from @code{current-time-zone}), a string as in the
1259 @code{TZ} environment variable, @code{t} for Universal Time, or an
1260 integer (as you would get from @code{decode-time}). The specified
1261 zone is used without any further alteration for daylight saving time.
1263 If you pass more than seven arguments to @code{encode-time}, the first
1264 six are used as @var{seconds} through @var{year}, the last argument is
1265 used as @var{zone}, and the arguments in between are ignored. This
1266 feature makes it possible to use the elements of a list returned by
1267 @code{decode-time} as the arguments to @code{encode-time}, like this:
1270 (apply 'encode-time (decode-time @dots{}))
1273 You can perform simple date arithmetic by using out-of-range values for
1274 the @var{seconds}, @var{minutes}, @var{hour}, @var{day}, and @var{month}
1275 arguments; for example, day 0 means the day preceding the given month.
1277 The operating system puts limits on the range of possible time values;
1278 if you try to encode a time that is out of range, an error results.
1279 For instance, years before 1970 do not work on some systems;
1280 on others, years as early as 1901 do work.
1284 @section Parsing and Formatting Times
1286 These functions convert time values (lists of two or three integers)
1287 to text in a string, and vice versa.
1289 @defun date-to-time string
1290 This function parses the time-string @var{string} and returns the
1291 corresponding time value.
1294 @defun format-time-string format-string &optional time universal
1295 This function converts @var{time} (or the current time, if @var{time} is
1296 omitted) to a string according to @var{format-string}. The argument
1297 @var{format-string} may contain @samp{%}-sequences which say to
1298 substitute parts of the time. Here is a table of what the
1299 @samp{%}-sequences mean:
1303 This stands for the abbreviated name of the day of week.
1305 This stands for the full name of the day of week.
1307 This stands for the abbreviated name of the month.
1309 This stands for the full name of the month.
1311 This is a synonym for @samp{%x %X}.
1313 This has a locale-specific meaning. In the default locale (named C), it
1314 is equivalent to @samp{%A, %B %e, %Y}.
1316 This stands for the day of month, zero-padded.
1318 This is a synonym for @samp{%m/%d/%y}.
1320 This stands for the day of month, blank-padded.
1322 This is a synonym for @samp{%b}.
1324 This stands for the hour (00-23).
1326 This stands for the hour (01-12).
1328 This stands for the day of the year (001-366).
1330 This stands for the hour (0-23), blank padded.
1332 This stands for the hour (1-12), blank padded.
1334 This stands for the month (01-12).
1336 This stands for the minute (00-59).
1338 This stands for a newline.
1340 This stands for the nanoseconds (000000000-999999999). To ask for
1341 fewer digits, use @samp{%3N} for milliseconds, @samp{%6N} for
1342 microseconds, etc. Any excess digits are discarded, without rounding.
1343 Currently Emacs time stamps are at best microsecond resolution so the
1344 last three digits generated by plain @samp{%N} are always zero.
1346 This stands for @samp{AM} or @samp{PM}, as appropriate.
1348 This is a synonym for @samp{%I:%M:%S %p}.
1350 This is a synonym for @samp{%H:%M}.
1352 This stands for the seconds (00-59).
1354 This stands for a tab character.
1356 This is a synonym for @samp{%H:%M:%S}.
1358 This stands for the week of the year (01-52), assuming that weeks
1361 This stands for the numeric day of week (0-6). Sunday is day 0.
1363 This stands for the week of the year (01-52), assuming that weeks
1366 This has a locale-specific meaning. In the default locale (named
1367 @samp{C}), it is equivalent to @samp{%D}.
1369 This has a locale-specific meaning. In the default locale (named
1370 @samp{C}), it is equivalent to @samp{%T}.
1372 This stands for the year without century (00-99).
1374 This stands for the year with century.
1376 This stands for the time zone abbreviation (e.g., @samp{EST}).
1378 This stands for the time zone numerical offset (e.g., @samp{-0500}).
1381 You can also specify the field width and type of padding for any of
1382 these @samp{%}-sequences. This works as in @code{printf}: you write
1383 the field width as digits in the middle of a @samp{%}-sequences. If you
1384 start the field width with @samp{0}, it means to pad with zeros. If you
1385 start the field width with @samp{_}, it means to pad with spaces.
1387 For example, @samp{%S} specifies the number of seconds since the minute;
1388 @samp{%03S} means to pad this with zeros to 3 positions, @samp{%_3S} to
1389 pad with spaces to 3 positions. Plain @samp{%3S} pads with zeros,
1390 because that is how @samp{%S} normally pads to two positions.
1392 The characters @samp{E} and @samp{O} act as modifiers when used between
1393 @samp{%} and one of the letters in the table above. @samp{E} specifies
1394 using the current locale's ``alternative'' version of the date and time.
1395 In a Japanese locale, for example, @code{%Ex} might yield a date format
1396 based on the Japanese Emperors' reigns. @samp{E} is allowed in
1397 @samp{%Ec}, @samp{%EC}, @samp{%Ex}, @samp{%EX}, @samp{%Ey}, and
1400 @samp{O} means to use the current locale's ``alternative''
1401 representation of numbers, instead of the ordinary decimal digits. This
1402 is allowed with most letters, all the ones that output numbers.
1404 If @var{universal} is non-@code{nil}, that means to describe the time as
1405 Universal Time; @code{nil} means describe it using what Emacs believes
1406 is the local time zone (see @code{current-time-zone}).
1408 This function uses the C library function @code{strftime}
1409 (@pxref{Formatting Calendar Time,,, libc, The GNU C Library Reference
1410 Manual}) to do most of the work. In order to communicate with that
1411 function, it first encodes its argument using the coding system
1412 specified by @code{locale-coding-system} (@pxref{Locales}); after
1413 @code{strftime} returns the resulting string,
1414 @code{format-time-string} decodes the string using that same coding
1418 @defun seconds-to-time seconds
1419 This function converts @var{seconds}, a floating point number of
1420 seconds since the epoch, to a time value and returns that. To perform
1421 the inverse conversion, use @code{float-time}.
1424 @defun format-seconds format-string seconds
1425 This function converts its argument @var{seconds} into a string of
1426 years, days, hours, etc., according to @var{format-string}. The
1427 argument @var{format-string} may contain @samp{%}-sequences which
1428 control the conversion. Here is a table of what the
1429 @samp{%}-sequences mean:
1434 The integer number of 365-day years.
1437 The integer number of days.
1440 The integer number of hours.
1443 The integer number of minutes.
1446 The integer number of seconds.
1448 Non-printing control flag. When it is used, other specifiers must be
1449 given in the order of decreasing size, i.e.@: years before days, hours
1450 before minutes, etc. Nothing will be produced in the result string to
1451 the left of @samp{%z} until the first non-zero conversion is
1452 encountered. For example, the default format used by
1453 @code{emacs-uptime} (@pxref{Processor Run Time, emacs-uptime})
1454 @w{@code{"%Y, %D, %H, %M, %z%S"}} means that the number of seconds
1455 will always be produced, but years, days, hours, and minutes will only
1456 be shown if they are non-zero.
1458 Produces a literal @samp{%}.
1461 Upper-case format sequences produce the units in addition to the
1462 numbers, lower-case formats produce only the numbers.
1464 You can also specify the field width by following the @samp{%} with a
1465 number; shorter numbers will be padded with blanks. An optional
1466 period before the width requests zero-padding instead. For example,
1467 @code{"%.3Y"} might produce @code{"004 years"}.
1469 @emph{Warning:} This function works only with values of @var{seconds}
1470 that don't exceed @code{most-positive-fixnum} (@pxref{Integer Basics,
1471 most-positive-fixnum}).
1474 @node Processor Run Time
1475 @section Processor Run time
1476 @cindex processor run time
1477 @cindex Emacs process run time
1479 Emacs provides several functions and primitives that return time,
1480 both elapsed and processor time, used by the Emacs process.
1482 @deffn Command emacs-uptime &optional format
1483 This function returns a string representing the Emacs
1484 @dfn{uptime}---the elapsed wall-clock time this instance of Emacs is
1485 running. The string is formatted by @code{format-seconds} according
1486 to the optional argument @var{format}. For the available format
1487 descriptors, see @ref{Time Parsing, format-seconds}. If @var{format}
1488 is @code{nil} or omitted, it defaults to @code{"%Y, %D, %H, %M,
1491 When called interactively, it prints the uptime in the echo area.
1494 @defun get-internal-run-time
1495 This function returns the processor run time used by Emacs as a list
1496 of three integers: @code{(@var{high} @var{low} @var{microsec})}. The
1497 integers @var{high} and @var{low} combine to give the number of
1500 @var{high} * 2**16 + @var{low}.
1506 The third element, @var{microsec}, gives the microseconds (or 0 for
1507 systems that return time with the resolution of only one second).
1509 Note that the time returned by this function excludes the time Emacs
1510 was not using the processor, and if the Emacs process has several
1511 threads, the returned value is the sum of the processor times used up
1512 by all Emacs threads.
1514 If the system doesn't provide a way to determine the processor run
1515 time, @code{get-internal-run-time} returns the same time as
1516 @code{current-time}.
1519 @deffn Command emacs-init-time
1520 This function returns the duration of the Emacs initialization
1521 (@pxref{Startup Summary}) in seconds, as a string. When called
1522 interactively, it prints the duration in the echo area.
1525 @node Time Calculations
1526 @section Time Calculations
1528 These functions perform calendrical computations using time values
1529 (the kind of list that @code{current-time} returns).
1531 @defun time-less-p t1 t2
1532 This returns @code{t} if time value @var{t1} is less than time value
1536 @defun time-subtract t1 t2
1537 This returns the time difference @var{t1} @minus{} @var{t2} between
1538 two time values, in the same format as a time value.
1541 @defun time-add t1 t2
1542 This returns the sum of two time values, one of which ought to
1543 represent a time difference rather than a point in time.
1544 Here is how to add a number of seconds to a time value:
1547 (time-add @var{time} (seconds-to-time @var{seconds}))
1551 @defun time-to-days time
1552 This function returns the number of days between the beginning of year
1556 @defun time-to-day-in-year time
1557 This returns the day number within the year corresponding to @var{time}.
1560 @defun date-leap-year-p year
1561 This function returns @code{t} if @var{year} is a leap year.
1565 @section Timers for Delayed Execution
1568 You can set up a @dfn{timer} to call a function at a specified
1569 future time or after a certain length of idleness.
1571 Emacs cannot run timers at any arbitrary point in a Lisp program; it
1572 can run them only when Emacs could accept output from a subprocess:
1573 namely, while waiting or inside certain primitive functions such as
1574 @code{sit-for} or @code{read-event} which @emph{can} wait. Therefore, a
1575 timer's execution may be delayed if Emacs is busy. However, the time of
1576 execution is very precise if Emacs is idle.
1578 Emacs binds @code{inhibit-quit} to @code{t} before calling the timer
1579 function, because quitting out of many timer functions can leave
1580 things in an inconsistent state. This is normally unproblematical
1581 because most timer functions don't do a lot of work. Indeed, for a
1582 timer to call a function that takes substantial time to run is likely
1583 to be annoying. If a timer function needs to allow quitting, it
1584 should use @code{with-local-quit} (@pxref{Quitting}). For example, if
1585 a timer function calls @code{accept-process-output} to receive output
1586 from an external process, that call should be wrapped inside
1587 @code{with-local-quit}, to ensure that @kbd{C-g} works if the external
1590 It is usually a bad idea for timer functions to alter buffer
1591 contents. When they do, they usually should call @code{undo-boundary}
1592 both before and after changing the buffer, to separate the timer's
1593 changes from user commands' changes and prevent a single undo entry
1594 from growing to be quite large.
1596 Timer functions should also avoid calling functions that cause Emacs
1597 to wait, such as @code{sit-for} (@pxref{Waiting}). This can lead to
1598 unpredictable effects, since other timers (or even the same timer) can
1599 run while waiting. If a timer function needs to perform an action
1600 after a certain time has elapsed, it can do this by scheduling a new
1603 If a timer function calls functions that can change the match data,
1604 it should save and restore the match data. @xref{Saving Match Data}.
1606 @deffn Command run-at-time time repeat function &rest args
1607 This sets up a timer that calls the function @var{function} with
1608 arguments @var{args} at time @var{time}. If @var{repeat} is a number
1609 (integer or floating point), the timer is scheduled to run again every
1610 @var{repeat} seconds after @var{time}. If @var{repeat} is @code{nil},
1611 the timer runs only once.
1613 @var{time} may specify an absolute or a relative time.
1615 Absolute times may be specified using a string with a limited variety
1616 of formats, and are taken to be times @emph{today}, even if already in
1617 the past. The recognized forms are @samp{@var{xxxx}},
1618 @samp{@var{x}:@var{xx}}, or @samp{@var{xx}:@var{xx}} (military time),
1619 and @samp{@var{xx}am}, @samp{@var{xx}AM}, @samp{@var{xx}pm},
1620 @samp{@var{xx}PM}, @samp{@var{xx}:@var{xx}am},
1621 @samp{@var{xx}:@var{xx}AM}, @samp{@var{xx}:@var{xx}pm}, or
1622 @samp{@var{xx}:@var{xx}PM}. A period can be used instead of a colon
1623 to separate the hour and minute parts.
1625 To specify a relative time as a string, use numbers followed by units.
1630 denotes 1 minute from now.
1632 denotes 65 seconds from now.
1633 @item 1 min 2 sec 3 hour 4 day 5 week 6 fortnight 7 month 8 year
1634 denotes exactly 103 months, 123 days, and 10862 seconds from now.
1637 For relative time values, Emacs considers a month to be exactly thirty
1638 days, and a year to be exactly 365.25 days.
1640 Not all convenient formats are strings. If @var{time} is a number
1641 (integer or floating point), that specifies a relative time measured in
1642 seconds. The result of @code{encode-time} can also be used to specify
1643 an absolute value for @var{time}.
1645 In most cases, @var{repeat} has no effect on when @emph{first} call
1646 takes place---@var{time} alone specifies that. There is one exception:
1647 if @var{time} is @code{t}, then the timer runs whenever the time is a
1648 multiple of @var{repeat} seconds after the epoch. This is useful for
1649 functions like @code{display-time}.
1651 The function @code{run-at-time} returns a timer value that identifies
1652 the particular scheduled future action. You can use this value to call
1653 @code{cancel-timer} (see below).
1656 A repeating timer nominally ought to run every @var{repeat} seconds,
1657 but remember that any invocation of a timer can be late. Lateness of
1658 one repetition has no effect on the scheduled time of the next
1659 repetition. For instance, if Emacs is busy computing for long enough
1660 to cover three scheduled repetitions of the timer, and then starts to
1661 wait, it will immediately call the timer function three times in
1662 immediate succession (presuming no other timers trigger before or
1663 between them). If you want a timer to run again no less than @var{n}
1664 seconds after the last invocation, don't use the @var{repeat} argument.
1665 Instead, the timer function should explicitly reschedule the timer.
1667 @defvar timer-max-repeats
1668 This variable's value specifies the maximum number of times to repeat
1669 calling a timer function in a row, when many previously scheduled
1670 calls were unavoidably delayed.
1673 @defmac with-timeout (seconds timeout-forms@dots{}) body@dots{}
1674 Execute @var{body}, but give up after @var{seconds} seconds. If
1675 @var{body} finishes before the time is up, @code{with-timeout} returns
1676 the value of the last form in @var{body}. If, however, the execution of
1677 @var{body} is cut short by the timeout, then @code{with-timeout}
1678 executes all the @var{timeout-forms} and returns the value of the last
1681 This macro works by setting a timer to run after @var{seconds} seconds. If
1682 @var{body} finishes before that time, it cancels the timer. If the
1683 timer actually runs, it terminates execution of @var{body}, then
1684 executes @var{timeout-forms}.
1686 Since timers can run within a Lisp program only when the program calls a
1687 primitive that can wait, @code{with-timeout} cannot stop executing
1688 @var{body} while it is in the midst of a computation---only when it
1689 calls one of those primitives. So use @code{with-timeout} only with a
1690 @var{body} that waits for input, not one that does a long computation.
1693 The function @code{y-or-n-p-with-timeout} provides a simple way to use
1694 a timer to avoid waiting too long for an answer. @xref{Yes-or-No
1697 @defun cancel-timer timer
1698 This cancels the requested action for @var{timer}, which should be a
1699 timer---usually, one previously returned by @code{run-at-time} or
1700 @code{run-with-idle-timer}. This cancels the effect of that call to
1701 one of these functions; the arrival of the specified time will not
1702 cause anything special to happen.
1706 @section Idle Timers
1708 Here is how to set up a timer that runs when Emacs is idle for a
1709 certain length of time. Aside from how to set them up, idle timers
1710 work just like ordinary timers.
1712 @deffn Command run-with-idle-timer secs repeat function &rest args
1713 Set up a timer which runs when Emacs has been idle for @var{secs}
1714 seconds. The value of @var{secs} may be an integer or a floating point
1715 number; a value of the type returned by @code{current-idle-time}
1718 If @var{repeat} is @code{nil}, the timer runs just once, the first time
1719 Emacs remains idle for a long enough time. More often @var{repeat} is
1720 non-@code{nil}, which means to run the timer @emph{each time} Emacs
1721 remains idle for @var{secs} seconds.
1723 The function @code{run-with-idle-timer} returns a timer value which you
1724 can use in calling @code{cancel-timer} (@pxref{Timers}).
1728 Emacs becomes ``idle'' when it starts waiting for user input, and it
1729 remains idle until the user provides some input. If a timer is set for
1730 five seconds of idleness, it runs approximately five seconds after Emacs
1731 first becomes idle. Even if @var{repeat} is non-@code{nil}, this timer
1732 will not run again as long as Emacs remains idle, because the duration
1733 of idleness will continue to increase and will not go down to five
1736 Emacs can do various things while idle: garbage collect, autosave or
1737 handle data from a subprocess. But these interludes during idleness do
1738 not interfere with idle timers, because they do not reset the clock of
1739 idleness to zero. An idle timer set for 600 seconds will run when ten
1740 minutes have elapsed since the last user command was finished, even if
1741 subprocess output has been accepted thousands of times within those ten
1742 minutes, and even if there have been garbage collections and autosaves.
1744 When the user supplies input, Emacs becomes non-idle while executing the
1745 input. Then it becomes idle again, and all the idle timers that are
1746 set up to repeat will subsequently run another time, one by one.
1749 @defun current-idle-time
1750 If Emacs is idle, this function returns the length of time Emacs has
1751 been idle, as a list of three integers: @code{(@var{high} @var{low}
1752 @var{microsec})}. The integers @var{high} and @var{low} combine to
1753 give the number of seconds of idleness, which is
1755 @var{high} * 2**16 + @var{low}.
1761 The third element, @var{microsec}, gives the microseconds since the
1762 start of the current second (or 0 for systems that return time with
1763 the resolution of only one second).
1765 When Emacs is not idle, @code{current-idle-time} returns @code{nil}.
1766 This is a convenient way to test whether Emacs is idle.
1768 The main use of this function is when an idle timer function wants to
1769 ``take a break'' for a while. It can set up another idle timer to
1770 call the same function again, after a few seconds more idleness.
1774 (defvar resume-timer nil
1775 "Timer that `timer-function' used to reschedule itself, or nil.")
1777 (defun timer-function ()
1778 ;; @r{If the user types a command while @code{resume-timer}}
1779 ;; @r{is active, the next time this function is called from}
1780 ;; @r{its main idle timer, deactivate @code{resume-timer}.}
1782 (cancel-timer resume-timer))
1783 ...@var{do the work for a while}...
1784 (when @var{taking-a-break}
1786 (run-with-idle-timer
1787 ;; Compute an idle time @var{break-length}
1788 ;; more than the current value.
1789 (time-add (current-idle-time)
1790 (seconds-to-time @var{break-length}))
1796 Some idle timer functions in user Lisp packages have a loop that
1797 does a certain amount of processing each time around, and exits when
1798 @code{(input-pending-p)} is non-@code{nil}. That approach seems very
1799 natural but has two problems:
1803 It blocks out all process output (since Emacs accepts process output
1804 only while waiting).
1807 It blocks out any idle timers that ought to run during that time.
1811 To avoid these problems, don't use that technique. Instead, write
1812 such idle timers to reschedule themselves after a brief pause, using
1813 the method in the @code{timer-function} example above.
1815 @node Terminal Input
1816 @section Terminal Input
1817 @cindex terminal input
1819 This section describes functions and variables for recording or
1820 manipulating terminal input. See @ref{Display}, for related
1824 * Input Modes:: Options for how input is processed.
1825 * Recording Input:: Saving histories of recent or all input events.
1829 @subsection Input Modes
1831 @cindex terminal input modes
1833 @defun set-input-mode interrupt flow meta &optional quit-char
1834 This function sets the mode for reading keyboard input. If
1835 @var{interrupt} is non-null, then Emacs uses input interrupts. If it is
1836 @code{nil}, then it uses @sc{cbreak} mode. The default setting is
1837 system-dependent. Some systems always use @sc{cbreak} mode regardless
1838 of what is specified.
1840 When Emacs communicates directly with X, it ignores this argument and
1841 uses interrupts if that is the way it knows how to communicate.
1843 If @var{flow} is non-@code{nil}, then Emacs uses @sc{xon/xoff}
1844 (@kbd{C-q}, @kbd{C-s}) flow control for output to the terminal. This
1845 has no effect except in @sc{cbreak} mode.
1848 The argument @var{meta} controls support for input character codes
1849 above 127. If @var{meta} is @code{t}, Emacs converts characters with
1850 the 8th bit set into Meta characters. If @var{meta} is @code{nil},
1851 Emacs disregards the 8th bit; this is necessary when the terminal uses
1852 it as a parity bit. If @var{meta} is neither @code{t} nor @code{nil},
1853 Emacs uses all 8 bits of input unchanged. This is good for terminals
1854 that use 8-bit character sets.
1857 If @var{quit-char} is non-@code{nil}, it specifies the character to
1858 use for quitting. Normally this character is @kbd{C-g}.
1862 The @code{current-input-mode} function returns the input mode settings
1863 Emacs is currently using.
1866 @defun current-input-mode
1867 This function returns the current mode for reading keyboard input. It
1868 returns a list, corresponding to the arguments of @code{set-input-mode},
1869 of the form @code{(@var{interrupt} @var{flow} @var{meta} @var{quit})} in
1873 is non-@code{nil} when Emacs is using interrupt-driven input. If
1874 @code{nil}, Emacs is using @sc{cbreak} mode.
1876 is non-@code{nil} if Emacs uses @sc{xon/xoff} (@kbd{C-q}, @kbd{C-s})
1877 flow control for output to the terminal. This value is meaningful only
1878 when @var{interrupt} is @code{nil}.
1880 is @code{t} if Emacs treats the eighth bit of input characters as
1881 the meta bit; @code{nil} means Emacs clears the eighth bit of every
1882 input character; any other value means Emacs uses all eight bits as the
1883 basic character code.
1885 is the character Emacs currently uses for quitting, usually @kbd{C-g}.
1889 @node Recording Input
1890 @subsection Recording Input
1891 @cindex recording input
1894 This function returns a vector containing the last 300 input events from
1895 the keyboard or mouse. All input events are included, whether or not
1896 they were used as parts of key sequences. Thus, you always get the last
1897 100 input events, not counting events generated by keyboard macros.
1898 (These are excluded because they are less interesting for debugging; it
1899 should be enough to see the events that invoked the macros.)
1901 A call to @code{clear-this-command-keys} (@pxref{Command Loop Info})
1902 causes this function to return an empty vector immediately afterward.
1905 @deffn Command open-dribble-file filename
1906 @cindex dribble file
1907 This function opens a @dfn{dribble file} named @var{filename}. When a
1908 dribble file is open, each input event from the keyboard or mouse (but
1909 not those from keyboard macros) is written in that file. A
1910 non-character event is expressed using its printed representation
1911 surrounded by @samp{<@dots{}>}.
1913 You close the dribble file by calling this function with an argument
1916 This function is normally used to record the input necessary to
1917 trigger an Emacs bug, for the sake of a bug report.
1921 (open-dribble-file "~/dribble")
1927 See also the @code{open-termscript} function (@pxref{Terminal Output}).
1929 @node Terminal Output
1930 @section Terminal Output
1931 @cindex terminal output
1933 The terminal output functions send output to a text terminal, or keep
1934 track of output sent to the terminal. The variable @code{baud-rate}
1935 tells you what Emacs thinks is the output speed of the terminal.
1938 This variable's value is the output speed of the terminal, as far as
1939 Emacs knows. Setting this variable does not change the speed of actual
1940 data transmission, but the value is used for calculations such as
1943 It also affects decisions about whether to scroll part of the
1944 screen or repaint on text terminals. @xref{Forcing Redisplay},
1945 for the corresponding functionality on graphical terminals.
1947 The value is measured in baud.
1950 If you are running across a network, and different parts of the
1951 network work at different baud rates, the value returned by Emacs may be
1952 different from the value used by your local terminal. Some network
1953 protocols communicate the local terminal speed to the remote machine, so
1954 that Emacs and other programs can get the proper value, but others do
1955 not. If Emacs has the wrong value, it makes decisions that are less
1956 than optimal. To fix the problem, set @code{baud-rate}.
1958 @defun send-string-to-terminal string &optional terminal
1959 This function sends @var{string} to @var{terminal} without alteration.
1960 Control characters in @var{string} have terminal-dependent effects.
1961 This function operates only on text terminals. @var{terminal} may be
1962 a terminal object, a frame, or @code{nil} for the selected frame's
1963 terminal. In batch mode, @var{string} is sent to @code{stdout} when
1964 @var{terminal} is @code{nil}.
1966 One use of this function is to define function keys on terminals that
1967 have downloadable function key definitions. For example, this is how (on
1968 certain terminals) to define function key 4 to move forward four
1969 characters (by transmitting the characters @kbd{C-u C-f} to the
1974 (send-string-to-terminal "\eF4\^U\^F")
1980 @deffn Command open-termscript filename
1981 @cindex termscript file
1982 This function is used to open a @dfn{termscript file} that will record
1983 all the characters sent by Emacs to the terminal. It returns
1984 @code{nil}. Termscript files are useful for investigating problems
1985 where Emacs garbles the screen, problems that are due to incorrect
1986 Termcap entries or to undesirable settings of terminal options more
1987 often than to actual Emacs bugs. Once you are certain which characters
1988 were actually output, you can determine reliably whether they correspond
1989 to the Termcap specifications in use.
1991 You close the termscript file by calling this function with an
1992 argument of @code{nil}.
1994 See also @code{open-dribble-file} in @ref{Recording Input}.
1998 (open-termscript "../junk/termscript")
2005 @section Sound Output
2008 To play sound using Emacs, use the function @code{play-sound}. Only
2009 certain systems are supported; if you call @code{play-sound} on a system
2010 which cannot really do the job, it gives an error. Emacs version 20 and
2011 earlier did not support sound at all.
2013 The sound must be stored as a file in RIFF-WAVE format (@samp{.wav})
2014 or Sun Audio format (@samp{.au}).
2016 @defun play-sound sound
2017 This function plays a specified sound. The argument, @var{sound}, has
2018 the form @code{(sound @var{properties}...)}, where the @var{properties}
2019 consist of alternating keywords (particular symbols recognized
2020 specially) and values corresponding to them.
2022 Here is a table of the keywords that are currently meaningful in
2023 @var{sound}, and their meanings:
2026 @item :file @var{file}
2027 This specifies the file containing the sound to play.
2028 If the file name is not absolute, it is expanded against
2029 the directory @code{data-directory}.
2031 @item :data @var{data}
2032 This specifies the sound to play without need to refer to a file. The
2033 value, @var{data}, should be a string containing the same bytes as a
2034 sound file. We recommend using a unibyte string.
2036 @item :volume @var{volume}
2037 This specifies how loud to play the sound. It should be a number in the
2038 range of 0 to 1. The default is to use whatever volume has been
2041 @item :device @var{device}
2042 This specifies the system device on which to play the sound, as a
2043 string. The default device is system-dependent.
2046 Before actually playing the sound, @code{play-sound}
2047 calls the functions in the list @code{play-sound-functions}.
2048 Each function is called with one argument, @var{sound}.
2051 @defun play-sound-file file &optional volume device
2052 This function is an alternative interface to playing a sound @var{file}
2053 specifying an optional @var{volume} and @var{device}.
2056 @defvar play-sound-functions
2057 A list of functions to be called before playing a sound. Each function
2058 is called with one argument, a property list that describes the sound.
2062 @section Operating on X11 Keysyms
2065 To define system-specific X11 keysyms, set the variable
2066 @code{system-key-alist}.
2068 @defvar system-key-alist
2069 This variable's value should be an alist with one element for each
2070 system-specific keysym. Each element has the form @code{(@var{code}
2071 . @var{symbol})}, where @var{code} is the numeric keysym code (not
2072 including the ``vendor specific'' bit,
2079 and @var{symbol} is the name for the function key.
2081 For example @code{(168 . mute-acute)} defines a system-specific key (used
2082 by HP X servers) whose numeric code is
2091 It is not crucial to exclude from the alist the keysyms of other X
2092 servers; those do no harm, as long as they don't conflict with the ones
2093 used by the X server actually in use.
2095 The variable is always local to the current terminal, and cannot be
2096 buffer-local. @xref{Multiple Terminals}.
2099 You can specify which keysyms Emacs should use for the Meta, Alt, Hyper, and Super modifiers by setting these variables:
2101 @defvar x-alt-keysym
2102 @defvarx x-meta-keysym
2103 @defvarx x-hyper-keysym
2104 @defvarx x-super-keysym
2105 The name of the keysym that should stand for the Alt modifier
2106 (respectively, for Meta, Hyper, and Super). For example, here is
2107 how to swap the Meta and Alt modifiers within Emacs:
2109 (setq x-alt-keysym 'meta)
2110 (setq x-meta-keysym 'alt)
2118 The command-line option @samp{-batch} causes Emacs to run
2119 noninteractively. In this mode, Emacs does not read commands from the
2120 terminal, it does not alter the terminal modes, and it does not expect
2121 to be outputting to an erasable screen. The idea is that you specify
2122 Lisp programs to run; when they are finished, Emacs should exit. The
2123 way to specify the programs to run is with @samp{-l @var{file}}, which
2124 loads the library named @var{file}, or @samp{-f @var{function}}, which
2125 calls @var{function} with no arguments, or @samp{--eval @var{form}}.
2127 Any Lisp program output that would normally go to the echo area,
2128 either using @code{message}, or using @code{prin1}, etc., with @code{t}
2129 as the stream, goes instead to Emacs's standard error descriptor when
2130 in batch mode. Similarly, input that would normally come from the
2131 minibuffer is read from the standard input descriptor.
2132 Thus, Emacs behaves much like a noninteractive
2133 application program. (The echo area output that Emacs itself normally
2134 generates, such as command echoing, is suppressed entirely.)
2136 @defvar noninteractive
2137 This variable is non-@code{nil} when Emacs is running in batch mode.
2140 @node Session Management
2141 @section Session Management
2142 @cindex session manager
2144 Emacs supports the X Session Management Protocol, which is used to
2145 suspend and restart applications. In the X Window System, a program
2146 called the @dfn{session manager} is responsible for keeping track of
2147 the applications that are running. When the X server shuts down, the
2148 session manager asks applications to save their state, and delays the
2149 actual shutdown until they respond. An application can also cancel
2152 When the session manager restarts a suspended session, it directs
2153 these applications to individually reload their saved state. It does
2154 this by specifying a special command-line argument that says what
2155 saved session to restore. For Emacs, this argument is @samp{--smid
2158 @defvar emacs-save-session-functions
2159 Emacs supports saving state via a hook called
2160 @code{emacs-save-session-functions}. Emacs runs this hook when the
2161 session manager tells it that the window system is shutting down. The
2162 functions are called with no arguments, and with the current buffer
2163 set to a temporary buffer. Each function can use @code{insert} to add
2164 Lisp code to this buffer. At the end, Emacs saves the buffer in a
2165 file, called the @dfn{session file}.
2167 @findex emacs-session-restore
2168 Subsequently, when the session manager restarts Emacs, it loads the
2169 session file automatically (@pxref{Loading}). This is performed by a
2170 function named @code{emacs-session-restore}, which is called during
2171 startup. @xref{Startup Summary}.
2173 If a function in @code{emacs-save-session-functions} returns
2174 non-@code{nil}, Emacs tells the session manager to cancel the
2178 Here is an example that just inserts some text into @samp{*scratch*} when
2179 Emacs is restarted by the session manager.
2183 (add-hook 'emacs-save-session-functions 'save-yourself-test)
2187 (defun save-yourself-test ()
2188 (insert "(save-current-buffer
2189 (switch-to-buffer \"*scratch*\")
2190 (insert \"I am restored\"))")
2195 @node Dynamic Libraries
2196 @section Dynamically Loaded Libraries
2197 @cindex dynamic libraries
2199 A @dfn{dynamically loaded library} is a library that is loaded on
2200 demand, when its facilities are first needed. Emacs supports such
2201 on-demand loading of support libraries for some of its features.
2203 @defvar dynamic-library-alist
2204 This is an alist of dynamic libraries and external library files
2207 Each element is a list of the form
2208 @w{@code{(@var{library} @var{files}@dots{})}}, where the @code{car} is
2209 a symbol representing a supported external library, and the rest are
2210 strings giving alternate filenames for that library.
2212 Emacs tries to load the library from the files in the order they
2213 appear in the list; if none is found, the running session of Emacs
2214 won't have access to that library, and the features that depend on the
2215 library will be unavailable.
2217 Image support on some platforms uses this facility. Here's an example
2218 of setting this variable for supporting images on MS-Windows:
2221 (setq dynamic-library-alist
2222 '((xpm "libxpm.dll" "xpm4.dll" "libXpm-nox4.dll")
2223 (png "libpng12d.dll" "libpng12.dll" "libpng.dll"
2224 "libpng13d.dll" "libpng13.dll")
2225 (jpeg "jpeg62.dll" "libjpeg.dll" "jpeg-62.dll" "jpeg.dll")
2226 (tiff "libtiff3.dll" "libtiff.dll")
2227 (gif "giflib4.dll" "libungif4.dll" "libungif.dll")
2228 (svg "librsvg-2-2.dll")
2229 (gdk-pixbuf "libgdk_pixbuf-2.0-0.dll")
2230 (glib "libglib-2.0-0.dll")
2231 (gobject "libgobject-2.0-0.dll")))
2234 Note that image types @code{pbm} and @code{xbm} do not need entries in
2235 this variable because they do not depend on external libraries and are
2236 always available in Emacs.
2238 Also note that this variable is not meant to be a generic facility for
2239 accessing external libraries; only those already known by Emacs can
2240 be loaded through it.
2242 This variable is ignored if the given @var{library} is statically