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1364 lines
52 KiB
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1364 lines
52 KiB
Plaintext
@c -*-texinfo-*-
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@c This is part of the GNU Emacs Lisp Reference Manual.
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@c Copyright (C) 1990, 1991, 1992, 1993, 1994, 1995, 1998, 1999
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@c Free Software Foundation, Inc.
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@c See the file elisp.texi for copying conditions.
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@setfilename ../info/processes
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@node Processes, Display, Abbrevs, Top
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@chapter Processes
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@cindex child process
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@cindex parent process
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@cindex subprocess
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@cindex process
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In the terminology of operating systems, a @dfn{process} is a space in
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which a program can execute. Emacs runs in a process. Emacs Lisp
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programs can invoke other programs in processes of their own. These are
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called @dfn{subprocesses} or @dfn{child processes} of the Emacs process,
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which is their @dfn{parent process}.
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A subprocess of Emacs may be @dfn{synchronous} or @dfn{asynchronous},
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depending on how it is created. When you create a synchronous
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subprocess, the Lisp program waits for the subprocess to terminate
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before continuing execution. When you create an asynchronous
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subprocess, it can run in parallel with the Lisp program. This kind of
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subprocess is represented within Emacs by a Lisp object which is also
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called a ``process''. Lisp programs can use this object to communicate
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with the subprocess or to control it. For example, you can send
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signals, obtain status information, receive output from the process, or
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send input to it.
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@defun processp object
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This function returns @code{t} if @var{object} is a process,
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@code{nil} otherwise.
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@end defun
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@menu
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* Subprocess Creation:: Functions that start subprocesses.
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* Shell Arguments:: Quoting an argument to pass it to a shell.
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* Synchronous Processes:: Details of using synchronous subprocesses.
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* Asynchronous Processes:: Starting up an asynchronous subprocess.
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* Deleting Processes:: Eliminating an asynchronous subprocess.
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* Process Information:: Accessing run-status and other attributes.
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* Input to Processes:: Sending input to an asynchronous subprocess.
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* Signals to Processes:: Stopping, continuing or interrupting
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an asynchronous subprocess.
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* Output from Processes:: Collecting output from an asynchronous subprocess.
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* Sentinels:: Sentinels run when process run-status changes.
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* Transaction Queues:: Transaction-based communication with subprocesses.
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* Network:: Opening network connections.
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@end menu
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@node Subprocess Creation
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@section Functions that Create Subprocesses
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There are three functions that create a new subprocess in which to run
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a program. One of them, @code{start-process}, creates an asynchronous
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process and returns a process object (@pxref{Asynchronous Processes}).
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The other two, @code{call-process} and @code{call-process-region},
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create a synchronous process and do not return a process object
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(@pxref{Synchronous Processes}).
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Synchronous and asynchronous processes are explained in the following
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sections. Since the three functions are all called in a similar
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fashion, their common arguments are described here.
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@cindex execute program
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@cindex @code{PATH} environment variable
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@cindex @code{HOME} environment variable
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In all cases, the function's @var{program} argument specifies the
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program to be run. An error is signaled if the file is not found or
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cannot be executed. If the file name is relative, the variable
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@code{exec-path} contains a list of directories to search. Emacs
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initializes @code{exec-path} when it starts up, based on the value of
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the environment variable @code{PATH}. The standard file name
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constructs, @samp{~}, @samp{.}, and @samp{..}, are interpreted as usual
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in @code{exec-path}, but environment variable substitutions
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(@samp{$HOME}, etc.) are not recognized; use
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@code{substitute-in-file-name} to perform them (@pxref{File Name
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Expansion}).
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Each of the subprocess-creating functions has a @var{buffer-or-name}
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argument which specifies where the standard output from the program will
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go. It should be a buffer or a buffer name; if it is a buffer name,
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that will create the buffer if it does not already exist. It can also
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be @code{nil}, which says to discard the output unless a filter function
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handles it. (@xref{Filter Functions}, and @ref{Read and Print}.)
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Normally, you should avoid having multiple processes send output to the
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same buffer because their output would be intermixed randomly.
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@cindex program arguments
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All three of the subprocess-creating functions have a @code{&rest}
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argument, @var{args}. The @var{args} must all be strings, and they are
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supplied to @var{program} as separate command line arguments. Wildcard
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characters and other shell constructs have no special meanings in these
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strings, since the whole strings are passed directly to the specified
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program.
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@strong{Please note:} The argument @var{program} contains only the
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name of the program; it may not contain any command-line arguments. You
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must use @var{args} to provide those.
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The subprocess gets its current directory from the value of
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@code{default-directory} (@pxref{File Name Expansion}).
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@cindex environment variables, subprocesses
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The subprocess inherits its environment from Emacs, but you can
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specify overrides for it with @code{process-environment}. @xref{System
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Environment}.
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@defvar exec-directory
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@pindex movemail
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The value of this variable is a string, the name of a directory that
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contains programs that come with GNU Emacs, programs intended for Emacs
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to invoke. The program @code{movemail} is an example of such a program;
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Rmail uses it to fetch new mail from an inbox.
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@end defvar
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@defopt exec-path
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The value of this variable is a list of directories to search for
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programs to run in subprocesses. Each element is either the name of a
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directory (i.e., a string), or @code{nil}, which stands for the default
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directory (which is the value of @code{default-directory}).
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@cindex program directories
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The value of @code{exec-path} is used by @code{call-process} and
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@code{start-process} when the @var{program} argument is not an absolute
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file name.
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@end defopt
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@node Shell Arguments
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@section Shell Arguments
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Lisp programs sometimes need to run a shell and give it a command
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that contains file names that were specified by the user. These
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programs ought to be able to support any valid file name. But the shell
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gives special treatment to certain characters, and if these characters
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occur in the file name, they will confuse the shell. To handle these
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characters, use the function @code{shell-quote-argument}:
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@defun shell-quote-argument argument
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This function returns a string which represents, in shell syntax,
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an argument whose actual contents are @var{argument}. It should
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work reliably to concatenate the return value into a shell command
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and then pass it to a shell for execution.
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Precisely what this function does depends on your operating system. The
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function is designed to work with the syntax of your system's standard
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shell; if you use an unusual shell, you will need to redefine this
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function.
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@example
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;; @r{This example shows the behavior on GNU and Unix systems.}
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(shell-quote-argument "foo > bar")
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@result{} "foo\\ \\>\\ bar"
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;; @r{This example shows the behavior on MS-DOS and MS-Windows systems.}
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(shell-quote-argument "foo > bar")
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@result{} "\"foo > bar\""
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@end example
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Here's an example of using @code{shell-quote-argument} to construct
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a shell command:
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@example
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(concat "diff -c "
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(shell-quote-argument oldfile)
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" "
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(shell-quote-argument newfile))
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@end example
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@end defun
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@node Synchronous Processes
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@section Creating a Synchronous Process
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@cindex synchronous subprocess
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After a @dfn{synchronous process} is created, Emacs waits for the
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process to terminate before continuing. Starting Dired on GNU or
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Unix@footnote{On other systems, Emacs uses a Lisp emulation of
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@code{ls}; see @ref{Contents of Directories}.} is an example of this: it
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runs @code{ls} in a synchronous process, then modifies the output
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slightly. Because the process is synchronous, the entire directory
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listing arrives in the buffer before Emacs tries to do anything with it.
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While Emacs waits for the synchronous subprocess to terminate, the
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user can quit by typing @kbd{C-g}. The first @kbd{C-g} tries to kill
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the subprocess with a @code{SIGINT} signal; but it waits until the
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subprocess actually terminates before quitting. If during that time the
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user types another @kbd{C-g}, that kills the subprocess instantly with
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@code{SIGKILL} and quits immediately (except on MS-DOS, where killing
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other processes doesn't work). @xref{Quitting}.
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The synchronous subprocess functions return an indication of how the
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process terminated.
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The output from a synchronous subprocess is generally decoded using a
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coding system, much like text read from a file. The input sent to a
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subprocess by @code{call-process-region} is encoded using a coding
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system, much like text written into a file. @xref{Coding Systems}.
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@defun call-process program &optional infile destination display &rest args
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This function calls @var{program} in a separate process and waits for
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it to finish.
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The standard input for the process comes from file @var{infile} if
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@var{infile} is not @code{nil}, and from the null device otherwise.
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The argument @var{destination} says where to put the process output.
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Here are the possibilities:
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@table @asis
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@item a buffer
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Insert the output in that buffer, before point. This includes both the
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standard output stream and the standard error stream of the process.
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@item a string
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Insert the output in a buffer with that name, before point.
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@item @code{t}
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Insert the output in the current buffer, before point.
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@item @code{nil}
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Discard the output.
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@item 0
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Discard the output, and return @code{nil} immediately without waiting
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for the subprocess to finish.
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In this case, the process is not truly synchronous, since it can run in
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parallel with Emacs; but you can think of it as synchronous in that
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Emacs is essentially finished with the subprocess as soon as this
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function returns.
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MS-DOS doesn't support asynchronous subprocesses, so this option doesn't
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work there.
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@item @code{(@var{real-destination} @var{error-destination})}
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Keep the standard output stream separate from the standard error stream;
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deal with the ordinary output as specified by @var{real-destination},
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and dispose of the error output according to @var{error-destination}.
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If @var{error-destination} is @code{nil}, that means to discard the
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error output, @code{t} means mix it with the ordinary output, and a
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string specifies a file name to redirect error output into.
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You can't directly specify a buffer to put the error output in; that is
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too difficult to implement. But you can achieve this result by sending
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the error output to a temporary file and then inserting the file into a
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buffer.
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@end table
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If @var{display} is non-@code{nil}, then @code{call-process} redisplays
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the buffer as output is inserted. (However, if the coding system chosen
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for decoding output is @code{undecided}, meaning deduce the encoding
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from the actual data, then redisplay sometimes cannot continue once
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non-@sc{ascii} characters are encountered. There are fundamental
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reasons why it is hard to fix this; see @ref{Output from Processes}.)
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Otherwise the function @code{call-process} does no redisplay, and the
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results become visible on the screen only when Emacs redisplays that
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buffer in the normal course of events.
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The remaining arguments, @var{args}, are strings that specify command
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line arguments for the program.
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The value returned by @code{call-process} (unless you told it not to
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wait) indicates the reason for process termination. A number gives the
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exit status of the subprocess; 0 means success, and any other value
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means failure. If the process terminated with a signal,
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@code{call-process} returns a string describing the signal.
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In the examples below, the buffer @samp{foo} is current.
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@smallexample
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@group
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(call-process "pwd" nil t)
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@result{} 0
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---------- Buffer: foo ----------
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/usr/user/lewis/manual
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---------- Buffer: foo ----------
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@end group
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@group
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(call-process "grep" nil "bar" nil "lewis" "/etc/passwd")
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@result{} 0
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---------- Buffer: bar ----------
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lewis:5LTsHm66CSWKg:398:21:Bil Lewis:/user/lewis:/bin/csh
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---------- Buffer: bar ----------
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@end group
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@end smallexample
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Here is a good example of the use of @code{call-process}, which used to
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be found in the definition of @code{insert-directory}:
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@smallexample
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@group
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(call-process insert-directory-program nil t nil @var{switches}
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(if full-directory-p
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(concat (file-name-as-directory file) ".")
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file))
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@end group
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@end smallexample
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@end defun
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@defun call-process-region start end program &optional delete destination display &rest args
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This function sends the text from @var{start} to @var{end} as
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standard input to a process running @var{program}. It deletes the text
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sent if @var{delete} is non-@code{nil}; this is useful when
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@var{destination} is @code{t}, to insert the output in the current
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buffer in place of the input.
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The arguments @var{destination} and @var{display} control what to do
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with the output from the subprocess, and whether to update the display
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as it comes in. For details, see the description of
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@code{call-process}, above. If @var{destination} is the integer 0,
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@code{call-process-region} discards the output and returns @code{nil}
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immediately, without waiting for the subprocess to finish (this only
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works if asynchronous subprocesses are supported).
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The remaining arguments, @var{args}, are strings that specify command
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line arguments for the program.
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The return value of @code{call-process-region} is just like that of
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@code{call-process}: @code{nil} if you told it to return without
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waiting; otherwise, a number or string which indicates how the
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subprocess terminated.
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In the following example, we use @code{call-process-region} to run the
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@code{cat} utility, with standard input being the first five characters
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in buffer @samp{foo} (the word @samp{input}). @code{cat} copies its
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standard input into its standard output. Since the argument
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@var{destination} is @code{t}, this output is inserted in the current
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buffer.
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@smallexample
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@group
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---------- Buffer: foo ----------
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input@point{}
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---------- Buffer: foo ----------
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@end group
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@group
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(call-process-region 1 6 "cat" nil t)
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@result{} 0
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---------- Buffer: foo ----------
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inputinput@point{}
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---------- Buffer: foo ----------
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@end group
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@end smallexample
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The @code{shell-command-on-region} command uses
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@code{call-process-region} like this:
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@smallexample
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@group
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(call-process-region
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start end
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shell-file-name ; @r{Name of program.}
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nil ; @r{Do not delete region.}
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buffer ; @r{Send output to @code{buffer}.}
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nil ; @r{No redisplay during output.}
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"-c" command) ; @r{Arguments for the shell.}
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@end group
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@end smallexample
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@end defun
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@defun shell-command-to-string command
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This function executes @var{command} (a string) as a shell command,
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then returns the command's output as a string.
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@end defun
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@node Asynchronous Processes
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@section Creating an Asynchronous Process
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@cindex asynchronous subprocess
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After an @dfn{asynchronous process} is created, Emacs and the subprocess
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both continue running immediately. The process thereafter runs
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in parallel with Emacs, and the two can communicate with each other
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using the functions described in the following sections. However,
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communication is only partially asynchronous: Emacs sends data to the
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process only when certain functions are called, and Emacs accepts data
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from the process only when Emacs is waiting for input or for a time
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delay.
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Here we describe how to create an asynchronous process.
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@defun start-process name buffer-or-name program &rest args
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This function creates a new asynchronous subprocess and starts the
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program @var{program} running in it. It returns a process object that
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stands for the new subprocess in Lisp. The argument @var{name}
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specifies the name for the process object; if a process with this name
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already exists, then @var{name} is modified (by appending @samp{<1>},
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etc.) to be unique. The buffer @var{buffer-or-name} is the buffer to
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associate with the process.
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The remaining arguments, @var{args}, are strings that specify command
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line arguments for the program.
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In the example below, the first process is started and runs (rather,
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sleeps) for 100 seconds. Meanwhile, the second process is started, and
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given the name @samp{my-process<1>} for the sake of uniqueness. It
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inserts the directory listing at the end of the buffer @samp{foo},
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before the first process finishes. Then it finishes, and a message to
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that effect is inserted in the buffer. Much later, the first process
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finishes, and another message is inserted in the buffer for it.
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@smallexample
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@group
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(start-process "my-process" "foo" "sleep" "100")
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@result{} #<process my-process>
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@end group
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@group
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(start-process "my-process" "foo" "ls" "-l" "/user/lewis/bin")
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@result{} #<process my-process<1>>
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---------- Buffer: foo ----------
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total 2
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lrwxrwxrwx 1 lewis 14 Jul 22 10:12 gnuemacs --> /emacs
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-rwxrwxrwx 1 lewis 19 Jul 30 21:02 lemon
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Process my-process<1> finished
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Process my-process finished
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---------- Buffer: foo ----------
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@end group
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@end smallexample
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@end defun
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@defun start-process-shell-command name buffer-or-name command &rest command-args
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This function is like @code{start-process} except that it uses a shell
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to execute the specified command. The argument @var{command} is a shell
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command name, and @var{command-args} are the arguments for the shell
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command. The variable @code{shell-file-name} specifies which shell to
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use.
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The point of running a program through the shell, rather than directly
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with @code{start-process}, is so that you can employ shell features such
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as wildcards in the arguments. It follows that if you include an
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arbitrary user-specified arguments in the command, you should quote it
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with @code{shell-quote-argument} first, so that any special shell
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characters do @emph{not} have their special shell meanings. @xref{Shell
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Arguments}.
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@end defun
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@defvar process-connection-type
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@cindex pipes
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@cindex @sc{pty}s
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This variable controls the type of device used to communicate with
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asynchronous subprocesses. If it is non-@code{nil}, then @sc{pty}s are
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used, when available. Otherwise, pipes are used.
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@sc{pty}s are usually preferable for processes visible to the user, as
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in Shell mode, because they allow job control (@kbd{C-c}, @kbd{C-z},
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etc.) to work between the process and its children, whereas pipes do
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not. For subprocesses used for internal purposes by programs, it is
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often better to use a pipe, because they are more efficient. In
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addition, the total number of @sc{pty}s is limited on many systems and
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it is good not to waste them.
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The value of @code{process-connection-type} is used when
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@code{start-process} is called. So you can specify how to communicate
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with one subprocess by binding the variable around the call to
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@code{start-process}.
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@smallexample
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@group
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|
(let ((process-connection-type nil)) ; @r{Use a pipe.}
|
|
(start-process @dots{}))
|
|
@end group
|
|
@end smallexample
|
|
|
|
To determine whether a given subprocess actually got a pipe or a
|
|
@sc{pty}, use the function @code{process-tty-name} (@pxref{Process
|
|
Information}).
|
|
@end defvar
|
|
|
|
@node Deleting Processes
|
|
@section Deleting Processes
|
|
@cindex deleting processes
|
|
|
|
@dfn{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. The
|
|
process mark continues to point to the same place as before (usually
|
|
into a buffer where output from the process was being inserted).
|
|
|
|
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.
|
|
|
|
@defopt delete-exited-processes
|
|
This variable controls automatic deletion of processes that have
|
|
terminated (due to calling @code{exit} or to a signal). If it is
|
|
@code{nil}, then they continue to exist until the user runs
|
|
@code{list-processes}. Otherwise, they are deleted immediately after
|
|
they exit.
|
|
@end defopt
|
|
|
|
@defun delete-process name
|
|
This function deletes the process associated with @var{name}, killing it
|
|
with a @code{SIGHUP} signal. The argument @var{name} may be a process,
|
|
the name of a process, a buffer, or the name of a buffer.
|
|
|
|
@smallexample
|
|
@group
|
|
(delete-process "*shell*")
|
|
@result{} nil
|
|
@end group
|
|
@end smallexample
|
|
@end defun
|
|
|
|
@defun process-kill-without-query process &optional do-query
|
|
This function specifies whether Emacs should query the user if
|
|
@var{process} is still running when Emacs is exited. If @var{do-query}
|
|
is @code{nil}, the process will be deleted silently.
|
|
Otherwise, Emacs will query about killing it.
|
|
|
|
The value is @code{t} if the process was formerly set up to require
|
|
query, @code{nil} otherwise. A newly-created process always requires
|
|
query.
|
|
|
|
@smallexample
|
|
@group
|
|
(process-kill-without-query (get-process "shell"))
|
|
@result{} t
|
|
@end group
|
|
@end smallexample
|
|
@end defun
|
|
|
|
@node Process Information
|
|
@section Process Information
|
|
|
|
Several functions return information about processes.
|
|
@code{list-processes} is provided for interactive use.
|
|
|
|
@deffn Command list-processes
|
|
This command displays a listing of all living processes. In addition,
|
|
it finally deletes any process whose status was @samp{Exited} or
|
|
@samp{Signaled}. It returns @code{nil}.
|
|
@end deffn
|
|
|
|
@defun process-list
|
|
This function returns a list of all processes that have not been deleted.
|
|
|
|
@smallexample
|
|
@group
|
|
(process-list)
|
|
@result{} (#<process display-time> #<process shell>)
|
|
@end group
|
|
@end smallexample
|
|
@end defun
|
|
|
|
@defun get-process name
|
|
This function returns the process named @var{name}, or @code{nil} if
|
|
there is none. An error is signaled if @var{name} is not a string.
|
|
|
|
@smallexample
|
|
@group
|
|
(get-process "shell")
|
|
@result{} #<process shell>
|
|
@end group
|
|
@end smallexample
|
|
@end defun
|
|
|
|
@defun process-command process
|
|
This function returns the command that was executed to start
|
|
@var{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.
|
|
|
|
@smallexample
|
|
@group
|
|
(process-command (get-process "shell"))
|
|
@result{} ("/bin/csh" "-i")
|
|
@end group
|
|
@end smallexample
|
|
@end defun
|
|
|
|
@defun process-id process
|
|
This function returns the @sc{pid} of @var{process}. This is an
|
|
integer that distinguishes the process @var{process} from all other
|
|
processes running on the same computer at the current time. The
|
|
@sc{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.
|
|
@end defun
|
|
|
|
@defun process-name process
|
|
This function returns the name of @var{process}.
|
|
@end defun
|
|
|
|
@defun process-contact process
|
|
This function returns @code{t} for an ordinary child process, and
|
|
@code{(@var{hostname} @var{service})} for a net connection
|
|
(@pxref{Network}).
|
|
@end defun
|
|
|
|
@defun process-status process-name
|
|
This function returns the status of @var{process-name} as a symbol.
|
|
The argument @var{process-name} must be a process, a buffer, a
|
|
process name (string) or a buffer name (string).
|
|
|
|
The possible values for an actual subprocess are:
|
|
|
|
@table @code
|
|
@item run
|
|
for a process that is running.
|
|
@item stop
|
|
for a process that is stopped but continuable.
|
|
@item exit
|
|
for a process that has exited.
|
|
@item signal
|
|
for a process that has received a fatal signal.
|
|
@item open
|
|
for a network connection that is open.
|
|
@item closed
|
|
for a network connection that is closed. Once a connection
|
|
is closed, you cannot reopen it, though you might be able to open
|
|
a new connection to the same place.
|
|
@item nil
|
|
if @var{process-name} is not the name of an existing process.
|
|
@end table
|
|
|
|
@smallexample
|
|
@group
|
|
(process-status "shell")
|
|
@result{} run
|
|
@end group
|
|
@group
|
|
(process-status (get-buffer "*shell*"))
|
|
@result{} run
|
|
@end group
|
|
@group
|
|
x
|
|
@result{} #<process xx<1>>
|
|
(process-status x)
|
|
@result{} exit
|
|
@end group
|
|
@end smallexample
|
|
|
|
For a network connection, @code{process-status} returns one of the symbols
|
|
@code{open} or @code{closed}. The latter means that the other side
|
|
closed the connection, or Emacs did @code{delete-process}.
|
|
@end defun
|
|
|
|
@defun process-exit-status process
|
|
This function returns the exit status of @var{process} or the signal
|
|
number that killed it. (Use the result of @code{process-status} to
|
|
determine which of those it is.) If @var{process} has not yet
|
|
terminated, the value is 0.
|
|
@end defun
|
|
|
|
@defun process-tty-name process
|
|
This function returns the terminal name that @var{process} is using for
|
|
its communication with Emacs---or @code{nil} if it is using pipes
|
|
instead of a terminal (see @code{process-connection-type} in
|
|
@ref{Asynchronous Processes}).
|
|
@end defun
|
|
|
|
@defun process-coding-system process
|
|
This function returns a cons cell describing the coding systems in use
|
|
for decoding output from @var{process} and for encoding input to
|
|
@var{process} (@pxref{Coding Systems}). The value has this form:
|
|
|
|
@example
|
|
(@var{coding-system-for-decoding} . @var{coding-system-for-encoding})
|
|
@end example
|
|
@end defun
|
|
|
|
@defun set-process-coding-system process decoding-system encoding-system
|
|
This function specifies the coding systems to use for subsequent output
|
|
from and input to @var{process}. It will use @var{decoding-system} to
|
|
decode subprocess output, and @var{encoding-system} to encode subprocess
|
|
input.
|
|
@end defun
|
|
|
|
@node Input to Processes
|
|
@section Sending Input to Processes
|
|
@cindex process input
|
|
|
|
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
|
|
@sc{pty}. On these systems, Emacs sends an @sc{eof} periodically amidst
|
|
the other characters, to force them through. For most programs,
|
|
these @sc{eof}s do no harm.
|
|
|
|
Subprocess input is normally encoded using a coding system before the
|
|
subprocess receives it, much like text written into a file. You can use
|
|
@code{set-process-coding-system} to specify which coding system to use
|
|
(@pxref{Process Information}). Otherwise, the coding system comes from
|
|
@code{coding-system-for-write}, if that is non-@code{nil}; or else from
|
|
the defaulting mechanism (@pxref{Default Coding Systems}).
|
|
|
|
Sometimes the system is unable to accept input for that process,
|
|
because the input buffer is full. When this happens, the send functions
|
|
wait a short while, accepting output from subprocesses, and then try
|
|
again. This gives the subprocess a chance to read more of its pending
|
|
input and make space in the buffer. It also allows filters, sentinels
|
|
and timers to run---so take account of that in writing your code.
|
|
|
|
@defun process-send-string process-name string
|
|
This function sends @var{process-name} the contents of @var{string} as
|
|
standard input. The argument @var{process-name} must be a process or
|
|
the name of a process. If it is @code{nil}, the current buffer's
|
|
process is used.
|
|
|
|
The function returns @code{nil}.
|
|
|
|
@smallexample
|
|
@group
|
|
(process-send-string "shell<1>" "ls\n")
|
|
@result{} nil
|
|
@end group
|
|
|
|
|
|
@group
|
|
---------- Buffer: *shell* ----------
|
|
...
|
|
introduction.texi syntax-tables.texi~
|
|
introduction.texi~ text.texi
|
|
introduction.txt text.texi~
|
|
...
|
|
---------- Buffer: *shell* ----------
|
|
@end group
|
|
@end smallexample
|
|
@end defun
|
|
|
|
@defun process-send-region process-name start end
|
|
This function sends the text in the region defined by @var{start} and
|
|
@var{end} as standard input to @var{process-name}, which is a process or
|
|
a process name. (If it is @code{nil}, the current buffer's process is
|
|
used.)
|
|
|
|
An error is signaled unless both @var{start} and @var{end} are
|
|
integers or markers that indicate positions in the current buffer. (It
|
|
is unimportant which number is larger.)
|
|
@end defun
|
|
|
|
@defun process-send-eof &optional process-name
|
|
This function makes @var{process-name} see an end-of-file in its
|
|
input. The @sc{eof} comes after any text already sent to it.
|
|
|
|
If @var{process-name} is not supplied, or if it is @code{nil}, then
|
|
this function sends the @sc{eof} to the current buffer's process. An
|
|
error is signaled if the current buffer has no process.
|
|
|
|
The function returns @var{process-name}.
|
|
|
|
@smallexample
|
|
@group
|
|
(process-send-eof "shell")
|
|
@result{} "shell"
|
|
@end group
|
|
@end smallexample
|
|
@end defun
|
|
|
|
@defun process-running-child-p process
|
|
@tindex process-running-child-p process
|
|
This function will tell you whether a subprocess has given control of
|
|
its terminal to its own child process. The value is @code{t} if this is
|
|
true, or if Emacs cannot tell; it is @code{nil} if Emacs can be certain
|
|
that this is not so.
|
|
@end defun
|
|
|
|
@node Signals to Processes
|
|
@section Sending Signals to Processes
|
|
@cindex process signals
|
|
@cindex sending signals
|
|
@cindex signals
|
|
|
|
@dfn{Sending a signal} to a subprocess is a way of interrupting its
|
|
activities. There are several different signals, each with its own
|
|
meaning. The set of signals and their names is defined by the operating
|
|
system. For example, the signal @code{SIGINT} means that the user has
|
|
typed @kbd{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.
|
|
|
|
You can send signals explicitly by calling the functions in this
|
|
section. Emacs also sends signals automatically at certain times:
|
|
killing a buffer sends a @code{SIGHUP} signal to all its associated
|
|
processes; killing Emacs sends a @code{SIGHUP} signal to all remaining
|
|
processes. (@code{SIGHUP} is a signal that usually indicates that the
|
|
user hung up the phone.)
|
|
|
|
Each of the signal-sending functions takes two optional arguments:
|
|
@var{process-name} and @var{current-group}.
|
|
|
|
The argument @var{process-name} must be either a process, the name of
|
|
one, or @code{nil}. If it is @code{nil}, the process defaults to the
|
|
process associated with the current buffer. An error is signaled if
|
|
@var{process-name} does not identify a process.
|
|
|
|
The argument @var{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-@code{nil}, then the signal is sent to the current process-group
|
|
of the terminal that 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 @code{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 @var{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
|
|
@code{process-connection-type} in @ref{Asynchronous Processes}.
|
|
|
|
@defun interrupt-process &optional process-name current-group
|
|
This function interrupts the process @var{process-name} by sending the
|
|
signal @code{SIGINT}. Outside of Emacs, typing the ``interrupt
|
|
character'' (normally @kbd{C-c} on some systems, and @code{DEL} on
|
|
others) sends this signal. When the argument @var{current-group} is
|
|
non-@code{nil}, you can think of this function as ``typing @kbd{C-c}''
|
|
on the terminal by which Emacs talks to the subprocess.
|
|
@end defun
|
|
|
|
@defun kill-process &optional process-name current-group
|
|
This function kills the process @var{process-name} by sending the
|
|
signal @code{SIGKILL}. This signal kills the subprocess immediately,
|
|
and cannot be handled by the subprocess.
|
|
@end defun
|
|
|
|
@defun quit-process &optional process-name current-group
|
|
This function sends the signal @code{SIGQUIT} to the process
|
|
@var{process-name}. This signal is the one sent by the ``quit
|
|
character'' (usually @kbd{C-b} or @kbd{C-\}) when you are not inside
|
|
Emacs.
|
|
@end defun
|
|
|
|
@defun stop-process &optional process-name current-group
|
|
This function stops the process @var{process-name} by sending the
|
|
signal @code{SIGTSTP}. Use @code{continue-process} to resume its
|
|
execution.
|
|
|
|
Outside of Emacs, on systems with job control, the ``stop character''
|
|
(usually @kbd{C-z}) normally sends this signal. When
|
|
@var{current-group} is non-@code{nil}, you can think of this function as
|
|
``typing @kbd{C-z}'' on the terminal Emacs uses to communicate with the
|
|
subprocess.
|
|
@end defun
|
|
|
|
@defun continue-process &optional process-name current-group
|
|
This function resumes execution of the process @var{process} by sending
|
|
it the signal @code{SIGCONT}. This presumes that @var{process-name} was
|
|
stopped previously.
|
|
@end defun
|
|
|
|
@c Emacs 19 feature
|
|
@defun signal-process pid signal
|
|
This function sends a signal to process @var{pid}, which need not be
|
|
a child of Emacs. The argument @var{signal} specifies which signal
|
|
to send; it should be an integer.
|
|
@end defun
|
|
|
|
@node Output from Processes
|
|
@section Receiving Output from Processes
|
|
@cindex process output
|
|
@cindex 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 @dfn{filter function} can be called to act on the output. If
|
|
the process has no buffer and no filter function, its output is
|
|
discarded.
|
|
|
|
Output from a subprocess can arrive only while Emacs is waiting: when
|
|
reading terminal input, in @code{sit-for} and @code{sleep-for}
|
|
(@pxref{Waiting}), and in @code{accept-process-output} (@pxref{Accepting
|
|
Output}). This minimizes the problem of timing errors that usually
|
|
plague parallel programming. For example, you can safely create a
|
|
process and only then specify its buffer or filter function; no output
|
|
can arrive before you finish, if the code in between does not call any
|
|
primitive that waits.
|
|
|
|
It is impossible to separate the standard output and standard error
|
|
streams of the subprocess, because Emacs normally spawns the subprocess
|
|
inside a pseudo-TTY, and a pseudo-TTY has only one output channel. If
|
|
you want to keep the output to those streams separate, you should
|
|
redirect one of them to a file--for example, by using an appropriate
|
|
shell command.
|
|
|
|
Subprocess output is normally decoded using a coding system before the
|
|
buffer or filter function receives it, much like text read from a file.
|
|
You can use @code{set-process-coding-system} to specify which coding
|
|
system to use (@pxref{Process Information}). Otherwise, the coding
|
|
system comes from @code{coding-system-for-read}, if that is
|
|
non-@code{nil}; or else from the defaulting mechanism (@pxref{Default
|
|
Coding Systems}).
|
|
|
|
@strong{Warning:} Coding systems such as @code{undecided} which
|
|
determine the coding system from the data do not work entirely reliably
|
|
with asynchronous subprocess output. This is because Emacs has to
|
|
process asynchronous subprocess output in batches, as it arrives. Emacs
|
|
must try to detect the proper coding system from one batch at a time,
|
|
and this does not always work. Therefore, if at all possible, use a
|
|
coding system which determines both the character code conversion and
|
|
the end of line conversion---that is, one like @code{latin-1-unix},
|
|
rather than @code{undecided} or @code{latin-1}.
|
|
|
|
@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.
|
|
@end menu
|
|
|
|
@node Process Buffers
|
|
@subsection Process Buffers
|
|
|
|
A process can (and usually does) have an @dfn{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 (@pxref{Filter Functions}),
|
|
its output is inserted in the associated buffer. The position to insert
|
|
the output is determined by the @code{process-mark}, which is then
|
|
updated to point to the end of the text just inserted. Usually, but not
|
|
always, the @code{process-mark} is at the end of the buffer.
|
|
|
|
@defun process-buffer process
|
|
This function returns the associated buffer of the process
|
|
@var{process}.
|
|
|
|
@smallexample
|
|
@group
|
|
(process-buffer (get-process "shell"))
|
|
@result{} #<buffer *shell*>
|
|
@end group
|
|
@end smallexample
|
|
@end defun
|
|
|
|
@defun process-mark process
|
|
This function returns the process marker for @var{process}, which is the
|
|
marker that says where to insert output from the process.
|
|
|
|
If @var{process} does not have a buffer, @code{process-mark} returns a
|
|
marker that points nowhere.
|
|
|
|
Insertion of process output in a buffer uses this marker to decide where
|
|
to insert, and updates it to point after the inserted text. That is why
|
|
successive batches of output are inserted consecutively.
|
|
|
|
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 @code{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 separates the new input
|
|
from previous output.
|
|
@end defun
|
|
|
|
@defun set-process-buffer process buffer
|
|
This function sets the buffer associated with @var{process} to
|
|
@var{buffer}. If @var{buffer} is @code{nil}, the process becomes
|
|
associated with no buffer.
|
|
@end defun
|
|
|
|
@defun get-buffer-process buffer-or-name
|
|
This function returns the process associated with @var{buffer-or-name}.
|
|
If there are several processes associated with it, then one is chosen.
|
|
(Currently, 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.
|
|
|
|
@smallexample
|
|
@group
|
|
(get-buffer-process "*shell*")
|
|
@result{} #<process shell>
|
|
@end group
|
|
@end smallexample
|
|
|
|
Killing the process's buffer deletes the process, which kills the
|
|
subprocess with a @code{SIGHUP} signal (@pxref{Signals to Processes}).
|
|
@end defun
|
|
|
|
@node Filter Functions
|
|
@subsection Process Filter Functions
|
|
@cindex filter function
|
|
@cindex process filter
|
|
|
|
A process @dfn{filter function} is a function that receives the
|
|
standard output from the associated process. If a process has a filter,
|
|
then @emph{all} output from that process is passed to the filter. The
|
|
process buffer is used directly for output from the process only when
|
|
there is no filter.
|
|
|
|
The filter function can only be called when Emacs is waiting for
|
|
something, because process output arrives only at such times. Emacs
|
|
waits when reading terminal input, in @code{sit-for} and
|
|
@code{sleep-for} (@pxref{Waiting}), and in @code{accept-process-output}
|
|
(@pxref{Accepting Output}).
|
|
|
|
A filter function must accept two arguments: the associated process
|
|
and a string, which is output just received from it. The function is
|
|
then free to do whatever it chooses with the output.
|
|
|
|
Quitting is normally inhibited within a filter function---otherwise,
|
|
the effect of typing @kbd{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 @code{inhibit-quit} to @code{nil}.
|
|
@xref{Quitting}.
|
|
|
|
If an error happens during execution of a filter function, it is
|
|
caught automatically, so that it doesn't stop the execution of whatever
|
|
program was running when the filter function was started. However, if
|
|
@code{debug-on-error} is non-@code{nil}, the error-catching is turned
|
|
off. This makes it possible to use the Lisp debugger to debug the
|
|
filter function. @xref{Debugger}.
|
|
|
|
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 @code{set-buffer} in order to
|
|
be sure to insert in that buffer. To avoid setting the current buffer
|
|
semipermanently, these filter functions must save and restore the
|
|
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:
|
|
|
|
@smallexample
|
|
@group
|
|
(defun ordinary-insertion-filter (proc string)
|
|
(with-current-buffer (process-buffer proc)
|
|
(let ((moving (= (point) (process-mark proc))))
|
|
@end group
|
|
@group
|
|
(save-excursion
|
|
;; @r{Insert the text, advancing the process marker.}
|
|
(goto-char (process-mark proc))
|
|
(insert string)
|
|
(set-marker (process-mark proc) (point)))
|
|
(if moving (goto-char (process-mark proc))))))
|
|
@end group
|
|
@end smallexample
|
|
|
|
@noindent
|
|
The reason to use @code{with-current-buffer}, rather than using
|
|
@code{save-excursion} to save and restore the current buffer, is so as
|
|
to preserve the change in point made by the second call to
|
|
@code{goto-char}.
|
|
|
|
To make the filter force the process buffer to be visible whenever new
|
|
text arrives, insert the following line just before the
|
|
@code{with-current-buffer} construct:
|
|
|
|
@smallexample
|
|
(display-buffer (process-buffer proc))
|
|
@end smallexample
|
|
|
|
To force point to the end of the new output, no matter where it was
|
|
previously, eliminate the variable @code{moving} and call
|
|
@code{goto-char} unconditionally.
|
|
|
|
In earlier Emacs versions, every filter function that did regular
|
|
expression searching or matching had to explicitly save and restore the
|
|
match data. Now Emacs does this automatically for filter functions;
|
|
they never need to do it explicitly. @xref{Match Data}.
|
|
|
|
A filter function that writes the output into the buffer of the
|
|
process should check whether the buffer is still alive. If it tries to
|
|
insert into a dead buffer, it will get an error. The expression
|
|
@code{(buffer-name (process-buffer @var{process}))} returns @code{nil}
|
|
if the buffer is dead.
|
|
|
|
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. If
|
|
the filter looks for certain text strings in the subprocess output, make
|
|
sure to handle the case where one of these strings is split across two
|
|
or more batches of output.
|
|
|
|
@defun set-process-filter process filter
|
|
This function gives @var{process} the filter function @var{filter}. If
|
|
@var{filter} is @code{nil}, it gives the process no filter.
|
|
@end defun
|
|
|
|
@defun process-filter process
|
|
This function returns the filter function of @var{process}, or @code{nil}
|
|
if it has none.
|
|
@end defun
|
|
|
|
Here is an example of use of a filter function:
|
|
|
|
@smallexample
|
|
@group
|
|
(defun keep-output (process output)
|
|
(setq kept (cons output kept)))
|
|
@result{} keep-output
|
|
@end group
|
|
@group
|
|
(setq kept nil)
|
|
@result{} nil
|
|
@end group
|
|
@group
|
|
(set-process-filter (get-process "shell") 'keep-output)
|
|
@result{} keep-output
|
|
@end group
|
|
@group
|
|
(process-send-string "shell" "ls ~/other\n")
|
|
@result{} nil
|
|
kept
|
|
@result{} ("lewis@@slug[8] % "
|
|
@end group
|
|
@group
|
|
"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
|
|
")
|
|
@end group
|
|
@end smallexample
|
|
|
|
@ignore @c The code in this example doesn't show the right way to do things.
|
|
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:
|
|
|
|
@smallexample
|
|
@group
|
|
;; @r{Insert input in the buffer specified by @code{my-shell-buffer}}
|
|
;; @r{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)
|
|
@end group
|
|
@group
|
|
(goto-char (point-max))
|
|
(insert str)
|
|
(set-marker (process-mark proc) (point-max))
|
|
(select-window cur)))
|
|
@end group
|
|
@end smallexample
|
|
@end ignore
|
|
|
|
@node Accepting Output
|
|
@subsection 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.
|
|
|
|
@defun accept-process-output &optional process seconds millisec
|
|
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 @var{process} is non-@code{nil} then this function does
|
|
not return until some output has been received from @var{process}.
|
|
|
|
@c Emacs 19 feature
|
|
The arguments @var{seconds} and @var{millisec} let you specify timeout
|
|
periods. The former specifies a period measured in seconds and the
|
|
latter specifies one measured in milliseconds. The two time periods
|
|
thus specified are added together, and @code{accept-process-output}
|
|
returns after that much time whether or not there has been any
|
|
subprocess output.
|
|
|
|
The argument @var{seconds} need not be an integer. If it is a floating
|
|
point number, this function waits for a fractional number of seconds.
|
|
Some systems support only a whole number of seconds; on these systems,
|
|
@var{seconds} is rounded down.
|
|
|
|
Not all operating systems support waiting periods other than multiples
|
|
of a second; on those that do not, you get an error if you specify
|
|
nonzero @var{millisec}.
|
|
|
|
The function @code{accept-process-output} returns non-@code{nil} if it
|
|
did get some output, or @code{nil} if the timeout expired before output
|
|
arrived.
|
|
@end defun
|
|
|
|
@node Sentinels
|
|
@section Sentinels: Detecting Process Status Changes
|
|
@cindex process sentinel
|
|
@cindex sentinel
|
|
|
|
A @dfn{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:
|
|
|
|
@itemize @bullet
|
|
@item
|
|
@code{"finished\n"}.
|
|
|
|
@item
|
|
@code{"exited abnormally with code @var{exitcode}\n"}.
|
|
|
|
@item
|
|
@code{"@var{name-of-signal}\n"}.
|
|
|
|
@item
|
|
@code{"@var{name-of-signal} (core dumped)\n"}.
|
|
@end itemize
|
|
|
|
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. A program can wait, so that sentinels
|
|
will run, by calling @code{sit-for} or @code{sleep-for}
|
|
(@pxref{Waiting}), or @code{accept-process-output} (@pxref{Accepting
|
|
Output}). Emacs also allows sentinels to run when the command loop is
|
|
reading input.
|
|
|
|
Quitting is normally inhibited within a sentinel---otherwise, the
|
|
effect of typing @kbd{C-g} at command level or to quit a user command
|
|
would be unpredictable. If you want to permit quitting inside a
|
|
sentinel, bind @code{inhibit-quit} to @code{nil}. @xref{Quitting}.
|
|
|
|
A sentinel that writes the output into the buffer of the process
|
|
should check whether the buffer is still alive. If it tries to insert
|
|
into a dead buffer, it will get an error. If the buffer is dead,
|
|
@code{(buffer-name (process-buffer @var{process}))} returns @code{nil}.
|
|
|
|
If an error happens during execution of a sentinel, it is caught
|
|
automatically, so that it doesn't stop the execution of whatever
|
|
programs was running when the sentinel was started. However, if
|
|
@code{debug-on-error} is non-@code{nil}, the error-catching is turned
|
|
off. This makes it possible to use the Lisp debugger to debug the
|
|
sentinel. @xref{Debugger}.
|
|
|
|
In earlier Emacs versions, every sentinel that did regular expression
|
|
searching or matching had to explicitly save and restore the match data.
|
|
Now Emacs does this automatically for sentinels; they never need to do
|
|
it explicitly. @xref{Match Data}.
|
|
|
|
@defun set-process-sentinel process sentinel
|
|
This function associates @var{sentinel} with @var{process}. If
|
|
@var{sentinel} is @code{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.
|
|
|
|
@smallexample
|
|
@group
|
|
(defun msg-me (process event)
|
|
(princ
|
|
(format "Process: %s had the event `%s'" process event)))
|
|
(set-process-sentinel (get-process "shell") 'msg-me)
|
|
@result{} msg-me
|
|
@end group
|
|
@group
|
|
(kill-process (get-process "shell"))
|
|
@print{} Process: #<process shell> had the event `killed'
|
|
@result{} #<process shell>
|
|
@end group
|
|
@end smallexample
|
|
@end defun
|
|
|
|
@defun process-sentinel process
|
|
This function returns the sentinel of @var{process}, or @code{nil} if it
|
|
has none.
|
|
@end defun
|
|
|
|
@defun waiting-for-user-input-p
|
|
While a sentinel or filter function is running, this function returns
|
|
non-@code{nil} if Emacs was waiting for keyboard input from the user at
|
|
the time the sentinel or filter function was called, @code{nil} if it
|
|
was not.
|
|
@end defun
|
|
|
|
@node Transaction Queues
|
|
@section Transaction Queues
|
|
@cindex transaction queue
|
|
|
|
You can use a @dfn{transaction queue} to communicate with a subprocess
|
|
using transactions. First use @code{tq-create} to create a transaction
|
|
queue communicating with a specified process. Then you can call
|
|
@code{tq-enqueue} to send a transaction.
|
|
|
|
@defun tq-create process
|
|
This function creates and returns a transaction queue communicating with
|
|
@var{process}. The argument @var{process} should be a subprocess
|
|
capable of sending and receiving streams of bytes. It may be a child
|
|
process, or it may be a TCP connection to a server, possibly on another
|
|
machine.
|
|
@end defun
|
|
|
|
@defun tq-enqueue queue question regexp closure fn
|
|
This function sends a transaction to queue @var{queue}. Specifying the
|
|
queue has the effect of specifying the subprocess to talk to.
|
|
|
|
The argument @var{question} is the outgoing message that starts the
|
|
transaction. The argument @var{fn} is the function to call when the
|
|
corresponding answer comes back; it is called with two arguments:
|
|
@var{closure}, and the answer received.
|
|
|
|
The argument @var{regexp} is a regular expression that should match the
|
|
entire answer, but nothing less; that's how @code{tq-enqueue} determines
|
|
where the answer ends.
|
|
|
|
The return value of @code{tq-enqueue} itself is not meaningful.
|
|
@end defun
|
|
|
|
@defun tq-close queue
|
|
Shut down transaction queue @var{queue}, waiting for all pending transactions
|
|
to complete, and then terminate the connection or child process.
|
|
@end defun
|
|
|
|
Transaction queues are implemented by means of a filter function.
|
|
@xref{Filter Functions}.
|
|
|
|
@node Network
|
|
@section Network Connections
|
|
@cindex network connection
|
|
@cindex TCP
|
|
|
|
Emacs Lisp programs can open TCP network 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. @code{delete-process} closes the connection,
|
|
but does not kill the process at the other end; that process must decide
|
|
what to do about closure of the connection.
|
|
|
|
You can distinguish process objects representing network connections
|
|
from those representing subprocesses with the @code{process-status}
|
|
function. It always returns either @code{open} or @code{closed} for a
|
|
network connection, and it never returns either of those values for a
|
|
real subprocess. @xref{Process Information}.
|
|
|
|
@defun 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 @var{name} argument specifies the name for the process object. It
|
|
is modified as necessary to make it unique.
|
|
|
|
The @var{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
|
|
@var{buffer-or-name} is @code{nil}, it means that the connection is not
|
|
associated with any buffer.
|
|
|
|
The arguments @var{host} and @var{service} specify where to connect to;
|
|
@var{host} is the host name (a string), and @var{service} is the name of
|
|
a defined network service (a string) or a port number (an integer).
|
|
@end defun
|