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Info file elisp, produced by Makeinfo, -*- Text -*- from input file
elisp.texi.
This file documents GNU Emacs Lisp.
This is edition 1.03 of the GNU Emacs Lisp Reference Manual, for
Emacs Version 18.
Published by the Free Software Foundation, 675 Massachusetts
Avenue, Cambridge, MA 02139 USA
Copyright (C) 1990 Free Software Foundation, Inc.
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 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 this permission notice may be stated in a
translation approved by the Foundation.
File: elisp, Node: Deleting Processes, Next: Process Information, Prev: Asynchronous Processes, Up: Processes
Deleting Processes
==================
"Deleting a process" disconnects Emacs immediately from the
subprocess, and removes it from the list of active processes. It
sends a signal to the subprocess to make the subprocess terminate,
but this is not guaranteed to happen immediately. (The process
object itself continues to exist as long as other Lisp objects point
to it.)
You can delete a process explicitly at any time. Processes are
deleted automatically after they terminate, but not necessarily right
away. If you delete a terminated process explicitly before it is
deleted automatically, no harm results.
* Variable: delete-exited-processes
This variable controls automatic deletion of processes that have
terminated (due to calling `exit' or to a signal). If it is
`nil', then they continue to exist until the user runs
`list-processes'. Otherwise, they are deleted immediately after
they exit.
* Function: delete-process NAME
This function deletes the process associated with NAME. The
argument NAME may be a process, the name of a process, a buffer,
or the name of a buffer. The subprocess is killed with a
`SIGHUP' signal.
(delete-process "*shell*")
=> nil
* Function: process-kill-without-query PROCESS
This function declares that Emacs need not query the user if
PROCESS is still running when Emacs is exited. The process will
be deleted silently. The value is `t'.
(process-kill-without-query (get-process "shell"))
=> t
File: elisp, Node: Process Information, Next: Input to Processes, Prev: Deleting Processes, Up: Processes
Process Information
===================
Several functions return information about processes.
`list-processes' is provided for interactive use.
* Command: list-processes
This command displays a listing of all living processes. (Any
processes listed as `Exited' or `Signaled' are actually
eliminated after the listing is made.) This function returns
`nil'.
* Function: process-list
This function returns a list of all processes that have not been
deleted.
(process-list)
=> (#<process display-time> #<process shell>)
* Function: get-process NAME
This function returns the process named NAME, or `nil' if there
is none. An error is signaled if NAME is not a string.
(get-process "shell")
=> #<process shell>
* Function: process-command PROCESS
This function returns the command that was executed to start
PROCESS. This is a list of strings, the first string being the
program executed and the rest of the strings being the arguments
that were given to the program.
(process-command (get-process "shell"))
=> ("/bin/csh" "-i")
* Function: process-exit-status PROCESS
This function returns the exit status of PROCESS or the signal
number that killed it. If PROCESS has not yet terminated, the
value is 0.
* Function: process-id PROCESS
This function returns the PID of PROCESS. This is an integer
which distinguishes the process PROCESS from all other processes
running on the same computer at the current time. The PID of a
process is chosen by the operating system kernel when the
process is started and remains constant as long as the process
exists.
* Function: process-name PROCESS
This function returns the name of PROCESS.
* Function: process-status PROCESS-NAME
This function returns the status of PROCESS-NAME as a symbol.
The argument PROCESS-NAME must be either a process or a string.
If it is a string, it need not name an actual process.
The possible values for an actual subprocess are:
`run'
for a process that is running.
`stop'
for a process that is stopped but continuable.
`exit'
for a process that has exited.
`signal'
for a process that has received a fatal signal.
`nil'
if PROCESS-NAME is not the name of an existing process.
(process-status "shell")
=> run
(process-status "never-existed")
=> nil
x
=> #<process xx<1>>
(process-status x)
=> exit
For a network stream, `process-status' returns one of the
symbols `open' or `closed'. The latter means that the other
side closed the connection, or Emacs did `delete-process'.
File: elisp, Node: Input to Processes, Next: Signals to Processes, Prev: Process Information, Up: Processes
Sending Input to Processes
==========================
Asynchronous subprocesses receive input when it is sent to them by
Emacs, which is done with the functions in this section. You must
specify the process to send input to, and the input data to send.
The data appears on the "standard input" of the subprocess.
Some operating systems have limited space for buffered input in a
PTY. On these systems, the subprocess will cease to read input
correctly if you send an input line longer than the system can handle.
You cannot avoid the problem by breaking the input into pieces and
sending them separately, for the operating system will still have to
put all the pieces together in the input buffer before it lets the
subprocess read the line. The only solution is to put the input in a
temporary file, and send the process a brief command to read that file.
* Function: process-send-string PROCESS-NAME STRING
This function sends PROCESS-NAME the contents of STRING as
standard input. The argument PROCESS-NAME must be a process or
the name of a process.
The function returns `nil'.
(process-send-string "shell<1>" "ls\n")
=> nil
---------- Buffer: *shell* ----------
...
introduction.texi syntax-tables.texi~
introduction.texi~ text.texi
introduction.txt text.texi~
...
---------- Buffer: *shell* ----------
* Command: process-send-region PROCESS-NAME START END
This function sends the text in the region defined by START and
END as standard input to PROCESS-NAME, which is a process or a
process name.
An error is signaled unless both START and END are integers or
markers that indicate positions in the current buffer. (It is
unimportant which number is larger.)
* Function: process-send-eof &optional PROCESS-NAME
This function makes PROCESS-NAME see an end-of-file in its
input. The EOF comes after any text already sent to it.
If PROCESS-NAME is not supplied, or if it is `nil', then this
function sends the EOF to the current buffer's process. An
error is signaled if the current buffer has no process.
The function returns PROCESS-NAME.
(process-send-eof "shell")
=> "shell"
File: elisp, Node: Signals to Processes, Next: Output from Processes, Prev: Input to Processes, Up: Processes
Sending Signals to Processes
============================
"Sending a signal" to a subprocess is a way of interrupting its
activities. There are several different signals, each with its own
meaning. For example, the signal `SIGINT' means that the user has
typed `C-c', or that some analogous thing has happened.
Each signal has a standard effect on the subprocess. Most signals
kill the subprocess, but some stop or resume execution instead. Most
signals can optionally be handled by programs; if the program handles
the signal, then we can say nothing in general about its effects.
The set of signals and their names is defined by the operating
system; Emacs has facilities for sending only a few of the signals
that are defined. Emacs can send signals only to its own subprocesses.
You can send signals explicitly by calling the function in this
section. Emacs also sends signals automatically at certain times:
killing a buffer sends a `SIGHUP' signal to all its associated
processes; killing Emacs sends a `SIGHUP' signal to all remaining
processes. (`SIGHUP' is a signal that usually indicates that the
user hung up the phone.)
Each of the signal-sending functions takes two optional arguments:
PROCESS-NAME and CURRENT-GROUP.
The argument PROCESS-NAME must be either a process, the name of
one, or `nil'. If it is `nil', the process defaults to the process
associated with the current buffer. An error is signaled if
PROCESS-NAME does not identify a process.
The argument CURRENT-GROUP is a flag that makes a difference when
you are running a job-control shell as an Emacs subprocess. If it is
non-`nil', then the signal is sent to the current process-group of
the terminal which Emacs uses to communicate with the subprocess. If
the process is a job-control shell, this means the shell's current
subjob. If it is `nil', the signal is sent to the process group of
the immediate subprocess of Emacs. If the subprocess is a
job-control shell, this is the shell itself.
The flag CURRENT-GROUP has no effect when a pipe is used to
communicate with the subprocess, because the operating system does
not support the distinction in the case of pipes. For the same
reason, job-control shells won't work when a pipe is used. See
`process-connection-type' in *Note Asynchronous Processes::.
* Function: interrupt-process &optional PROCESS-NAME CURRENT-GROUP
This function interrupts the process PROCESS-NAME by sending the
Unix signal `SIGINT'. Outside of Emacs, typing the "interrupt
character" (usually `C-c' on Berkeley Unix) sends this signal.
When the argument CURRENT-GROUP is non-`nil', you can think of
this function as "typing `C-c'" on the terminal by which Emacs
talks to the subprocess.
* Function: kill-process &optional PROCESS-NAME CURRENT-GROUP
This function kills the process PROCESS-NAME by sending the Unix
signal `SIGKILL'. This signal kills the subprocess immediately,
and cannot be handled by the subprocess.
* Function: quit-process &optional PROCESS-NAME CURRENT-GROUP
This function sends the Unix signal `SIGQUIT' to the process
PROCESS-NAME. This signal is the one sent by the "quit
character" (usually `C-b' or `C-\') when you are not inside Emacs.
* Function: stop-process &optional PROCESS-NAME CURRENT-GROUP
This function stops the process PROCESS-NAME by sending the Unix
signal `SIGTSTP'. Use `continue-process' to resume its execution.
On systems with job control, the "stop character" (usually
`C-z') sends this signal (outside of Emacs). When CURRENT-GROUP
is non-`nil', you can think of this function as "typing `C-z'"
on the terminal Emacs uses to communicate with the subprocess.
* Function: continue-process &optional PROCESS-NAME CURRENT-GROUP
This function resumes execution of the process PROCESS by
sending it the Unix signal `SIGCONT'. This presumes that
PROCESS-NAME was stopped previously.
File: elisp, Node: Output from Processes, Next: Sentinels, Prev: Signals to Processes, Up: Processes
Receiving Output from Processes
===============================
There are two ways to receive the output that a subprocess writes
to its standard output stream. The output can be inserted in a
buffer, which is called the associated buffer of the process, or a
function called the "filter function" can be called to act on the
output.
* Menu:
* Process Buffers:: If no filter, output is put in a buffer.
* Filter Functions:: Filter functions accept output from the process.
* Accepting Output:: Explicitly permitting subprocess output.
Waiting for subprocess output.
File: elisp, Node: Process Buffers, Next: Filter Functions, Prev: Output from Processes, Up: Output from Processes
Process Buffers
---------------
A process can (and usually does) have an "associated buffer",
which is an ordinary Emacs buffer that is used for two purposes:
storing the output from the process, and deciding when to kill the
process. You can also use the buffer to identify a process to
operate on, since in normal practice only one process is associated
with any given buffer. Many applications of processes also use the
buffer for editing input to be sent to the process, but this is not
built into Emacs Lisp.
Unless the process has a filter function (*note Filter
Functions::.), its output is inserted in the associated buffer. The
position to insert the output is determined by the `process-mark'
(*note Process Information::.), which is then updated to point to the
end of the text just inserted. Usually, but not always, the
`process-mark' is at the end of the buffer. If the process has no
buffer and no filter function, its output is discarded.
* Function: process-buffer PROCESS
This function returns the associated buffer of the process
PROCESS.
(process-buffer (get-process "shell"))
=> #<buffer *shell*>
* Function: process-mark PROCESS
This function returns the marker which controls where additional
output from the process will be inserted in the process buffer
(*note Process Buffers::.). When output is inserted, the marker
is updated to point at the end of the output. This causes
successive batches of output to be inserted consecutively.
If PROCESS does not insert its output into a buffer, then
`process-mark' returns a marker that points nowhere.
Filter functions normally should use this marker in the same
fashion as is done by direct insertion of output in the buffer.
A good example of a filter function that uses `process-mark' is
found at the end of the following section.
When the user is expected to enter input in the process buffer
for transmission to the process, the process marker is useful
for distinguishing the new input from previous output.
* Function: set-process-buffer PROCESS BUFFER
This function sets the buffer associated with PROCESS to BUFFER.
If BUFFER is `nil', the process will not be associated with any
buffer.
* Function: get-buffer-process BUFFER-OR-NAME
This function returns the process associated with BUFFER-OR-NAME.
If there are several processes associated with it, then one is
chosen. (Presently, the one chosen is the one most recently
created.) It is usually a bad idea to have more than one
process associated with the same buffer.
(get-buffer-process "*shell*")
=> #<process shell>
If the process's buffer is killed, the actual child process is
killed with a `SIGHUP' signal (*note Signals to Processes::.).
File: elisp, Node: Filter Functions, Next: Accepting Output, Prev: Process Buffers, Up: Output from Processes
Process Filter Functions
------------------------
A process "filter function" is a function that receives the
standard output from the associated process. If a process has a
filter, then *all* standard output from that process is passed to the
filter rather than be inserted into a buffer or discarded. The
process buffer is used for output from the process only when there is
no filter.
A filter function must accept two arguments: the associated
process and a string, which is the output. The function is then free
to do whatever it chooses with the output.
A filter function runs only while Emacs is waiting (e.g., for
terminal input, or for time to elapse, or for process output). This
avoids the timing errors that could result from running filters at
random places in the middle of other Lisp programs. You may
explicitly cause Emacs to wait, so that filter functions will run, by
calling `sit-for', `sleep-for' or `accept-process-output' (*note
Accepting Output::.). Emacs is also waiting when the command loop is
reading input.
Quitting is normally inhibited within a filter
function--otherwise, the effect of typing `C-g' at command level or
to quit a user command would be unpredictable. If you want to permit
quitting inside a filter function, bind `inhibit-quit' to `nil'.
*Note Quitting::.
Many filter functions sometimes or always insert the text in the
process's buffer, mimicking the actions of Emacs when there is no
filter. Such filter functions need to use `set-buffer' in order to
be sure to insert in that buffer. To avoid setting the current
buffer semipermanently, these filter functions must use
`unwind-protect' to make sure to restore the previous current buffer.
They should also update the process marker, and in some cases update
the value of point. Here is how to do these things:
(defun ordinary-insertion-filter (proc string)
(let ((old-buffer (current-buffer)))
(unwind-protect
(let (moving)
(set-buffer (process-buffer proc))
(setq moving (= (point) (process-mark proc)))
(save-excursion
;; Insert the text, moving the process-marker.
(goto-char (process-mark proc))
(insert string)
(set-marker (process-mark proc) (point)))
(if moving (goto-char (process-mark proc))))
(set-buffer old-buffer))))
The reason to use an explicit `unwind-protect' rather than letting
`save-excursion' restore the current buffer is so as to preserve the
change in point made by `goto-char'.
To make the filter force the process buffer to be visible whenever
new text arrives, insert the following line just before the
`unwind-protect':
(display-buffer (process-buffer proc))
To force point to move to the end of the new output no matter
where it was previously, eliminate the variable `moving' and call
`goto-char' unconditionally.
All filter functions that do regexp searching or matching should
save and restore the match data. Otherwise, a filter function that
runs during a call to `sit-for' might clobber the match data of the
program that called `sit-for'. *Note Match Data::.
The output to the function may come in chunks of any size. A
program that produces the same output twice in a row may send it as
one batch of 200 characters one time, and five batches of 40
characters the next.
* Function: set-process-filter PROCESS FILTER
This function gives PROCESS the filter function FILTER. If
FILTER is `nil', then the process will have no filter.
* Function: process-filter PROCESS
This function returns the filter function of PROCESS, or `nil'
if it has none.
Here is an example of use of a filter function:
(defun keep-output (process output)
(setq kept (cons output kept)))
=> keep-output
(setq kept nil)
=> nil
(set-process-filter (get-process "shell") 'keep-output)
=> keep-output
(process-send-string "shell" "ls ~/other\n")
=> nil
kept
=> ("lewis@slug[8] % "
"FINAL-W87-SHORT.MSS backup.otl kolstad.mss~
address.txt backup.psf kolstad.psf
backup.bib~ david.mss resume-Dec-86.mss~
backup.err david.psf resume-Dec.psf
backup.mss dland syllabus.mss
"
"#backups.mss# backup.mss~ kolstad.mss
")
Here is another, more realistic example, which demonstrates how to
use the process mark to do insertion in the same fashion as is done
when there is no filter function:
;; Insert input in the buffer specified by `my-shell-buffer'
;; and make sure that buffer is shown in some window.
(defun my-process-filter (proc str)
(let ((cur (selected-window))
(pop-up-windows t))
(pop-to-buffer my-shell-buffer)
(goto-char (point-max))
(insert str)
(set-marker (process-mark proc) (point-max))
(select-window cur)))
File: elisp, Node: Accepting Output, Prev: Filter Functions, Up: Output from Processes
Accepting Output from Processes
-------------------------------
Output from asynchronous subprocesses normally arrives only while
Emacs is waiting for some sort of external event, such as elapsed
time or terminal input. Occasionally it is useful in a Lisp program
to explicitly permit output to arrive at a specific point, or even to
wait until output arrives from a process.
* Function: accept-process-output &optional PROCESS
This function allows Emacs to read pending output from
processes. The output is inserted in the associated buffers or
given to their filter functions. If PROCESS is non-`nil' then
this function does not return until some output has been
received from PROCESS.
File: elisp, Node: Sentinels, Next: VMS Subprocesses, Prev: Output from Processes, Up: Processes
Sentinels: Detecting Process Status Changes
-------------------------------------------
A "process sentinel" is a function that is called whenever the
associated process changes status for any reason, including signals
(whether sent by Emacs or caused by the process's own actions) that
terminate, stop, or continue the process. The process sentinel is
also called if the process exits. The sentinel receives two
arguments: the process for which the event occurred, and a string
describing the type of event.
The string describing the event looks like one of the following:
* `"finished\n"'.
* `"exited abnormally with code EXITCODE\n"'.
* `"NAME-OF-SIGNAL\n"'.
* `"NAME-OF-SIGNAL (core dumped)\n"'.
A sentinel runs only while Emacs is waiting (e.g., for terminal
input, or for time to elapse, or for process output). This avoids
the timing errors that could result from running them at random
places in the middle of other Lisp programs. You may explicitly
cause Emacs to wait, so that sentinels will run, by calling
`sit-for', `sleep-for' or `accept-process-output' (*note Accepting
Output::.). Emacs is also waiting when the command loop is reading
input.
Quitting is normally inhibited within a sentinel--otherwise, the
effect of typing `C-g' at command level or to quit a user command
would be unpredictable. If you want to permit quitting inside a
sentinel, bind `inhibit-quit' to `nil'. *Note Quitting::.
All sentinels that do regexp searching or matching should save and
restore the match data. Otherwise, a sentinel that runs during a
call to `sit-for' might clobber the match data of the program that
called `sit-for'. *Note Match Data::.
* Function: set-process-sentinel PROCESS SENTINEL
This function associates SENTINEL with PROCESS. If SENTINEL is
`nil', then the process will have no sentinel. The default
behavior when there is no sentinel is to insert a message in the
process's buffer when the process status changes.
(defun msg-me (process event)
(princ
(format "Process: %s had the event `%s'" process event)))
(set-process-sentinel (get-process "shell") 'msg-me)
=> msg-me
(kill-process (get-process "shell"))
-| Process: #<process shell> had the event `killed'
=> #<process shell>
* Function: process-sentinel PROCESS
This function returns the sentinel of PROCESS, or `nil' if it
has none.
* Function: waiting-for-user-input-p
While a sentinel or filter function is running, this function
returns non-`nil' if Emacs was waiting for keyboard input from
the user at the time the sentinel or filter function was called,
`nil' if it was not.
File: elisp, Node: VMS Subprocesses, Next: TCP, Prev: Sentinels, Up: Processes
Subprocess Functions for VMS
============================
The ordinary subprocess functions do not work on VMS in version 18.
Instead, these functions are available.
* Function: default-subprocess-input-handler
This function is the default input handler for input from
spawned subprocesses.
* Function: spawn-subprocess INTEGER &optional FILTER SENTINEL
This function spawns an asynchronous VMS subprocess for command
processing. The arguments are INTEGER, an integer to identify
the subprocess in future operations; FILTER, a function to be
called when output arrives from the subprocess; and SENTINEL, a
function to be called when the subprocess terminates.
If FILTER is `nil', output is inserted in the current buffer.
If SENTINEL is `nil', nothing special is done when the
subprocess terminates.
When the filter is called, it receives two arguments; INTEGER to
identify the process, and a string containing the output.
When the sentinel is called, it receives just one argument,
INTEGER.
* Function: send-command-to-subprocess INTEGER COMMAND
This function sends the string COMMAND to a VMS subprocess
numbered INTEGER.
* Function: stop-subprocess INTEGER
This function terminates the VMS subprocess numbered INTEGER.
In version 19, these functions have been eliminated, and the
ordinary subprocess functions are implemented on VMS.
File: elisp, Node: TCP, Prev: VMS Subprocesses, Up: Processes
TCP
===
Emacs Lisp programs can open TCP connections to other processes on
the same machine or other machines. A network connection is handled
by Lisp much like a subprocess, and is represented by a process object.
However, the process you are communicating with is not a child of the
Emacs process, so you can't kill it or send it signals. All you can
do is send and receive data. `delete-process' closes the connection,
but does not kill the process at the other end of it.
You can distinguish process objects representing network
connections from those representing subprocesses with the
`process-status' function.
* Function: open-network-stream NAME BUFFER-OR-NAME HOST SERVICE
This function opens a TCP connection for a service to a host.
It returns a process object to represent the connection.
The NAME argument specifies the name for the process object. It
is modified as necessary to make it unique.
The BUFFER-OR-NAME argument is the buffer to associate with the
connection. Output from the connection is inserted in the
buffer, unless you specify a filter function to handle the
output. If BUFFER-OR-NAME is `nil', it means that the
connection is not associated with any buffer.
The arguments HOST and SERVICE specify where to connect to; HOST
is the host name (a string), and SERVICE is the name of the
service desired (a string) or an integer specifying a port
number to connect to.
File: elisp, Node: System Interface, Next: Emacs Display, Prev: Processes, Up: Top
Operating System Interface
**************************
This chapter is about starting and getting out of Emacs, access to
values in the operating system environment, and terminal input,
output and flow control.
*Note Building Emacs::, for related information. See also *Note
Emacs Display::, for additional operating system status information
which pertain to the terminal and the screen.
* Menu:
* Starting Up:: Customizing Emacs start-up processing.
* Getting Out:: How exiting works (permanent or temporary).
* System Environment:: Distinguish the name and kind of system.
* Terminal Input:: Recording terminal input for debugging.
* Terminal Output:: Recording terminal output for debugging.
* Flow Control:: How to turn output flow control on or off.
* Batch Mode:: Running Emacs without terminal interaction.
File: elisp, Node: Starting Up, Next: Getting Out, Prev: System Interface, Up: System Interface
Starting Up Emacs
=================
This section describes what Emacs does when it is started, and how
you can customize these actions.
* Menu:
* Start-up Summary:: Sequence of actions Emacs performs at start-up.
* Init File:: Details on reading the init file (`.emacs').
* Terminal-Specific:: How the terminal-specific Lisp file is read.
* Command Line Arguments:: How command line arguments are processed,
and how you can customize them.
File: elisp, Node: Start-up Summary, Next: Init File, Prev: Starting Up, Up: Starting Up
Summary: Sequence of Actions at Start Up
----------------------------------------
The order of operations performed (in `startup.el') by Emacs when
it is started up is as follows:
1. It loads `.emacs' unless `-q' was specified on command line.
(This is not done in `-batch' mode.) `.emacs' is found in the
user's home directory; the `-u' option can specify the user name
whose home directory should be used.
2. It loads `default.el' unless `inhibit-default-init' is
non-`nil'. (This is not done in `-batch' mode or if `-q' was
specified on command line.)
3. It loads the terminal-specific Lisp file, if any, except when in
batch mode.
4. It runs `term-setup-hook'.
5. It runs `window-setup-hook'.
6. It displays copyleft and nonwarranty, plus basic use
information, unless the value of `inhibit-startup-message' is
non-`nil'.
This display is also inhibited in batch mode, and if the
current buffer is not `*scratch*'.
7. It processes any remaining command line arguments.
* User Option: inhibit-startup-message
This variable inhibits the initial startup messages (the
nonwarranty, etc.). If it is non-`nil', then the messages are
not printed.
This variable exists so you can set it in your personal init
file, once you are familiar with the contents of the startup
message. Do not set this variable in the init file of a new
user, or in a way that affects more than one user, because that
would prevent new users from receiving the information they are
supposed to see.
File: elisp, Node: Init File, Next: Terminal-Specific, Prev: Start-Up Summary, Up: Starting Up
The Init File: `.emacs'
-----------------------
When you start Emacs, it normally attempts to load the file
`.emacs' from your home directory. This file, if it exists, must
contain Lisp code. It is called your "init file". The command line
switches `-q' and `-u' can be used to control the use of the init
file; `-q' says not to load an init file, and `-u' says to load a
specified user's init file instead of yours. *Note : (emacs)Entering
Emacs.
Emacs may also have a "default init file", which is the library
named `default.el'. Emacs finds the `default.el' file through the
standard search path for libraries (*note How Programs Do
Loading::.). The Emacs distribution does not have any such file; you
may create one at your site for local customizations. If the default
init file exists, it is loaded whenever you start Emacs, except in
batch mode or if `-q' is specified. But your own personal init file,
if any, is loaded first; if it sets `inhibit-default-init' to a
non-`nil' value, then Emacs will not load the `default.el' file.
If there is a great deal of code in your `.emacs' file, you should
move it into another file named `SOMETHING.el', byte-compile it
(*note Byte Compilation::.), and make your `.emacs' file load the
other file using `load' (*note Loading::.).
*Note : (emacs)Init File Examples, for examples of how to make
various commonly desired customizations in your `.emacs' file.
* User Option: inhibit-default-init
This variable prevents Emacs from loading the default
initialization library file for your session of Emacs. If its
value is non-`nil', then the default library is not loaded. The
default value is `nil'.
File: elisp, Node: Terminal-Specific, Next: Command Line Arguments, Prev: Init File, Up: Starting Up
Terminal-Specific Initialization
--------------------------------
Each terminal type can have its own Lisp library that Emacs will
load when run on that type of terminal. For a terminal type named
TERMTYPE, the library is called `term/TERMTYPE'. Emacs finds the
file by searching the `load-path' directories as it does for other
files, and trying the `.elc' and `.el' suffixes. Normally,
terminal-specific Lisp library is located in `emacs/lisp/term', a
subdirectory of the `emacs/lisp' directory in which most Emacs Lisp
libraries are kept.
The library's name is constructed by concatenating the value of
the variable `term-file-prefix' and the terminal type. Normally,
`term-file-prefix' has the value `"term/"'; changing this is not
recommended.
The usual purpose of a terminal-specific library is to define the
escape sequences used by a terminal's function keys. See the file
`term/vt100.el' for an example of a terminal-specific library.
Function keys are handled by a two-level procedure. The first
level is dependent on the specific type of terminal and maps Emacs's
input sequences to the function keys that they represent. The second
level is independent of terminal type and is customized by users;
function keys are mapped into meanings at this level. The
terminal-specific library handles the first level of the process and
the library `keypad.el' handles the second level of mapping.
When the name of the terminal type contains a hyphen, only the
part of the name before the first hyphen is significant in choosing
the library name. Thus, terminal types `aaa-48' and `aaa-30-rv' both
use the `term/aaa' library. If necessary, the library can evaluate
`(getenv "TERM")' to find the full name of the terminal type.
Your `.emacs' file can prevent the loading of the
terminal-specific library by setting `term-file-prefix' to `nil'.
This feature is very useful when experimenting with your own peculiar
customizations.
You can also arrange to override some of the actions of the
terminal-specific library by setting the variable `term-setup-hook'.
If it is not `nil', Emacs calls the value of the variable
`term-setup-hook' as a function of no arguments at the end of Emacs
initialization, after Emacs has already loaded both your `.emacs'
file and any terminal-specific libraries. You can use this variable
to define initializations for terminals that do not have their own
libraries.
* Variable: term-file-prefix
If the `term-file-prefix' variable is non-`nil', Emacs loads a
terminal-specific initialization file as follows:
(load (concat term-file-prefix (getenv "TERM")))
You may set the `term-file-prefix' variable to `nil' in your
`.emacs' file if you do not wish to load the
terminal-initialization file. To do this, put the following in
your `.emacs' file: `(setq term-file-prefix nil)'.
* Variable: term-setup-hook
The value of this variable is either `nil' or a function to be
called by Emacs after loading your `.emacs' file, the default
initialization file (if any) and after loading terminal-specific
Lisp code. The function is called with no arguments.
You can use `term-setup-hook' to override the definitions made
by a terminal-specific file.
See also `window-setup-hook' in *Note Window Systems::.
File: elisp, Node: Command Line Arguments, Prev: Terminal-Specific, Up: Starting Up
Command Line Arguments
----------------------
You can use command line arguments to request various actions when
you start Emacs. Since you do not need to start Emacs more than once
per day, and will often leave your Emacs session running longer than
that, command line arguments are hardly ever used. As a practical
matter, it is best to avoid making the habit of using them, since
this habit would encourage you to kill and restart Emacs
unnecessarily often. These options exist for two reasons: to be
compatible with other editors (for invocation by other programs) and
to enable shell scripts to run specific Lisp programs.
* Function: command-line
This function parses the command line which Emacs was called
with, processes it, loads the user's `.emacs' file and displays
the initial nonwarranty information, etc.
* Variable: command-line-processed
The value of this variable is `t' once the command line has been
processed.
If you redump Emacs by calling `dump-emacs', you must set this
variable to `nil' first in order to cause the new dumped Emacs
to process its new command line arguments.
* Variable: command-switch-alist
The value of this variable is an alist of user-defined
command-line options and associated handler functions. This
variable exists so you can add elements to it.
A "command line option" is an argument on the command line of
the form:
-OPTION
The elements of the `command-switch-alist' look like this:
(OPTION . HANDLER-FUNCTION)
For each element, the HANDLER-FUNCTION receives the switch name
as its sole argument.
In some cases, the option is followed in the command line by an
argument. In these cases, the HANDLER-FUNCTION can find all the
remaining command-line arguments in the variable
`command-line-args-left'. (The entire list of command-line
arguments is in `command-line-args'.)
The command line arguments are parsed by the `command-line-1'
function in the `startup.el' file. See also *Note :
(emacs)Command Switches.
* Variable: command-line-args
The value of this variable is the arguments passed by the shell
to Emacs, as a list of strings.
File: elisp, Node: Getting Out, Next: System Environment, Prev: Starting Up, Up: System Interface
Getting out of Emacs
====================
There are two ways to get out of Emacs: you can kill the Emacs
job, which exits permanently, or you can suspend it, which permits
you to reenter the Emacs process later. As a practical matter, you
seldom kill Emacs--only when you are about to log out. Suspending is
much more common.
* Menu:
* Killing Emacs:: Exiting Emacs irreversibly.
* Suspending Emacs:: Exiting Emacs reversibly.
File: elisp, Node: Killing Emacs, Next: Suspending Emacs, Prev: Getting Out, Up: Getting Out
Killing Emacs
-------------
Killing Emacs means ending the execution of the Emacs process. It
will return to its superior process.
All the information in the Emacs process, aside from files that
have been saved, is lost when the Emacs is killed. Because killing
Emacs inadvertently can lose a lot of work, Emacs will query for
confirmation before actually terminating if you have buffers that
need saving or subprocesses that are running.
* Function: kill-emacs &optional NO-QUERY
This function exits the Emacs process and kills it.
Normally, if there are modified files or if there are running
processes, `kill-emacs' asks the user for confirmation before
exiting. However, if NO-QUERY is supplied and non-`nil', then
Emacs exits without confirmation.
If NO-QUERY is an integer, then it is used as the exit status of
the Emacs process. (This is useful primarily in batch
operation; see *Note Batch Mode::.)
If NO-QUERY is a string, its contents are stuffed into the
terminal input buffer so that the shell (or whatever program
next reads input) can read them.
* Variable: kill-emacs-hook
The value of the `kill-emacs-hook' variable is either `nil' or
is that of a function to be called by `kill-emacs'. The hook is
called before anything else is done by `kill-emacs'.
File: elisp, Node: Suspending Emacs, Prev: Killing Emacs, Up: Getting Out
Suspending Emacs
----------------
"Suspending Emacs" means stopping Emacs temporarily and returning
control to its superior process, which is usually the shell. This
allows you to resume editing later in the same Emacs process, with
the same buffers, the same kill ring, the same undo history, and so
on. To resume Emacs, use the appropriate command in the parent
shell--most likely `fg'.
Some operating systems do not support suspension of jobs; on these
systems, "suspension" actually creates a new shell temporarily as a
subprocess of Emacs. Then you would exit the shell to return to Emacs.
Suspension is not useful with window systems such as X Windows,
because the Emacs job may not have a parent that can resume it again,
and in any case you can give input to some other job such as a shell
merely by moving to a different window. Therefore, suspending is not
allowed under X Windows.
* Function: suspend-emacs STRING
This function stops Emacs and returns to the superior process.
It returns `nil'.
If STRING is non-`nil', its characters are sent to be read as
terminal input by Emacs's superior shell. The characters in
STRING will not be echoed by the superior shell; just the
results will appear.
Before suspending, Emacs examines the symbol `suspend-hook'. If
it is bound, and its value is non-`nil', then the value is
called as a function of no arguments. If the function returns
non-`nil', then `suspend-emacs' returns immediately and
suspension does not occur.
After Emacs resumes, the symbol `suspend-resume-hook' is
examined. If it is bound and non-`nil', then the value is
called as a function of no arguments.
The next redisplay after resumption will redraw the entire
screen, unless `no-redraw-on-reenter' is set (*note Screen
Attributes::.).
In the following example, note that `pwd' is not echoed after
Emacs is suspended. But it is read and executed by the shell.
(suspend-emacs)
=> nil
(setq suspend-hook
(function (lambda ()
(not (y-or-n-p "Really suspend? ")))))
=> (lambda nil (not (y-or-n-p "Really suspend? ")))
(setq suspend-resume-hook
(function (lambda () (message "Resumed!"))))
=> (lambda nil (message "Resumed!"))
(suspend-emacs "pwd")
=> nil
---------- Buffer: Minibuffer ----------
Really suspend? `y'
---------- Parent Shell ----------
lewis@slug[23] % /user/lewis/manual
lewis@slug[24] % fg
---------- Echo Area ----------
Resumed!
* Variable: suspend-hook
The value of the `suspend-hook' variable, if not `nil', is
called as a function with no arguments by `suspend-emacs' before
Emacs is actually suspended. If the function returns non-`nil',
then suspension does not take place.
* Variable: suspend-resume-hook
The value of the `suspend-resume-hook' variable, if not `nil',
is called as a function with no arguments after resumption of an
Emacs session that was suspended with `suspend-emacs'.
File: elisp, Node: System Environment, Next: Terminal Input, Prev: Getting Out, Up: System Interface
Operating System Environment
============================
Emacs provides access to variables in the operating system
environment through various functions. These variables include the
name of the system, the user's UID, and so on.
* Variable: system-type
The value of this variable is a symbol indicating the type of
operating system Emacs is operating on. Here is a table of the
symbols for the operating systems that Emacs can run on up to
version 18.51.
`berkeley-unix'
Berkeley BSD 4.1, 4.2, or 4.3.
`hpux'
Hewlett-Packard operating system, version 5, 6, or 7.
`silicon-graphics-unix'
Silicon Graphics Iris 3.5 or 3.6.
`rtu'
RTU 3.0, UCB universe.
`unisoft-unix'
UniSoft's UniPlus 5.0 or 5.2.
`usg-unix-v'
AT&T's System V.0, System V Release 2.0, 2.2, or 3.
`vax-vms'
VMS VMS version 4 or 5.
`xenix'
SCO Xenix 386 Release 2.2.
We do not wish to add new symbols to make finer distinctions
unless it is absolutely necessary! In fact, it would be nice to
eliminate a couple of possibilities in the future.
* Function: getenv VAR
This function returns the value of the environment variable VAR,
as a string.
(getenv "USER")
=> "lewis"
lewis@slug[10] % printenv
PATH=.:/user/lewis/bin:/usr/bin:/usr/local/bin
USER=lewis
TERM=ibmapa16
SHELL=/bin/csh
HOME=/user/lewis
* Function: user-login-name
This function returns the name under which the user is logged in.
This is based on the effective UID, not the real UID.
(user-login-name)
=> "lewis"
* Function: user-real-login-name
This function returns the name under which the user logged in.
This is based on the real UID, not the effective UID. This
differs from `user-login-name' only when running with the setuid
bit.
* Function: user-full-name
This function returns the full name of the user.
(user-full-name)
=> "Bil Lewis"
* Function: user-real-uid
This function returns the real UID of the user.
(user-real-uid)
=> 19
* Function: user-uid
This function returns the effective UID of the user.
* Function: system-name
This function returns the name of the machine you are running on.
(system-name)
=> "prep.ai.mit.edu"
* Function: current-time-string
This function returns the current time and date as a
humanly-readable string. The format of the string is unvarying;
the number of characters used for each part is always the same,
so you can reliably use `substring' to extract pieces of it.
However, it would be wise to count the characters from the
beginning of the string rather than from the end, as additional
information describing the time zone may be added in version 19.
(current-time-string)
=> "Wed Oct 14 22:21:05 1987"
* Function: load-average
This function returns the current 1 minute, 5 minute and 15
minute load averages in a list. The values are integers that
are 100 times the system load averages. (The load averages
indicate the number of processes trying to run.)
(load-average)
=> (169 48 36)
lewis@rocky[5] % uptime
11:55am up 1 day, 19:37, 3 users, load average: 1.69, 0.48, 0.36
* Function: setprv PRIVILEGE-NAME &optional SETP GETPRV
This function sets or resets a VMS privilege. (It does not
exist on Unix.) The first arg is the privilege name, as a
string. The second argument, SETP, is `t' or `nil', indicating
whether the privilege is to be turned on or off. Its default is
`nil'. The function returns `t' if success, `nil' if not.
If the third argument, GETPRV, is non-`nil', `setprv' does not
change the privilege, but returns `t' or `nil' indicating
whether the privilege is currently enabled.