This is elisp, produced by makeinfo version 4.0f from ./elisp.texi. INFO-DIR-SECTION Editors START-INFO-DIR-ENTRY * Elisp: (elisp). The Emacs Lisp Reference Manual. END-INFO-DIR-ENTRY This Info file contains edition 2.8 of the GNU Emacs Lisp Reference Manual, corresponding to Emacs version 21.2. Published by the Free Software Foundation 59 Temple Place, Suite 330 Boston, MA 02111-1307 USA Copyright (C) 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1998, 1999, 2000, 2001, 2002 Free Software Foundation, Inc. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.1 or any later version published by the Free Software Foundation; with the Invariant Sections being "Copying", with the Front-Cover texts being "A GNU Manual", and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled "GNU Free Documentation License". (a) The FSF's Back-Cover Text is: "You have freedom to copy and modify this GNU Manual, like GNU software. Copies published by the Free Software Foundation raise funds for GNU development."  File: elisp, Node: Abbrev Expansion, Next: Standard Abbrev Tables, Prev: Abbrev Files, Up: Abbrevs Looking Up and Expanding Abbreviations ====================================== Abbrevs are usually expanded by certain interactive commands, including `self-insert-command'. This section describes the subroutines used in writing such commands, as well as the variables they use for communication. - Function: abbrev-symbol abbrev &optional table This function returns the symbol representing the abbrev named ABBREV. The value returned is `nil' if that abbrev is not defined. The optional second argument TABLE is the abbrev table to look it up in. If TABLE is `nil', this function tries first the current buffer's local abbrev table, and second the global abbrev table. - Function: abbrev-expansion abbrev &optional table This function returns the string that ABBREV would expand into (as defined by the abbrev tables used for the current buffer). The optional argument TABLE specifies the abbrev table to use, as in `abbrev-symbol'. - Command: expand-abbrev This command expands the abbrev before point, if any. If point does not follow an abbrev, this command does nothing. The command returns the abbrev symbol if it did expansion, `nil' otherwise. If the abbrev symbol has a hook function which is a symbol whose `no-self-insert' property is non-`nil', and if the hook function returns `nil' as its value, then `expand-abbrev' returns `nil' even though expansion did occur. - Command: abbrev-prefix-mark &optional arg Mark current point as the beginning of an abbrev. The next call to `expand-abbrev' will use the text from here to point (where it is then) as the abbrev to expand, rather than using the previous word as usual. - User Option: abbrev-all-caps When this is set non-`nil', an abbrev entered entirely in upper case is expanded using all upper case. Otherwise, an abbrev entered entirely in upper case is expanded by capitalizing each word of the expansion. - Variable: abbrev-start-location This is the buffer position for `expand-abbrev' to use as the start of the next abbrev to be expanded. (`nil' means use the word before point instead.) `abbrev-start-location' is set to `nil' each time `expand-abbrev' is called. This variable is also set by `abbrev-prefix-mark'. - Variable: abbrev-start-location-buffer The value of this variable is the buffer for which `abbrev-start-location' has been set. Trying to expand an abbrev in any other buffer clears `abbrev-start-location'. This variable is set by `abbrev-prefix-mark'. - Variable: last-abbrev This is the `abbrev-symbol' of the most recent abbrev expanded. This information is left by `expand-abbrev' for the sake of the `unexpand-abbrev' command (*note Expanding Abbrevs: (emacs)Expanding Abbrevs.). - Variable: last-abbrev-location This is the location of the most recent abbrev expanded. This contains information left by `expand-abbrev' for the sake of the `unexpand-abbrev' command. - Variable: last-abbrev-text This is the exact expansion text of the most recent abbrev expanded, after case conversion (if any). Its value is `nil' if the abbrev has already been unexpanded. This contains information left by `expand-abbrev' for the sake of the `unexpand-abbrev' command. - Variable: pre-abbrev-expand-hook This is a normal hook whose functions are executed, in sequence, just before any expansion of an abbrev. *Note Hooks::. Since it is a normal hook, the hook functions receive no arguments. However, they can find the abbrev to be expanded by looking in the buffer before point. Running the hook is the first thing that `expand-abbrev' does, and so a hook function can be used to change the current abbrev table before abbrev lookup happens. The following sample code shows a simple use of `pre-abbrev-expand-hook'. If the user terminates an abbrev with a punctuation character, the hook function asks for confirmation. Thus, this hook allows the user to decide whether to expand the abbrev, and aborts expansion if it is not confirmed. (add-hook 'pre-abbrev-expand-hook 'query-if-not-space) ;; This is the function invoked by `pre-abbrev-expand-hook'. ;; If the user terminated the abbrev with a space, the function does ;; nothing (that is, it returns so that the abbrev can expand). If the ;; user entered some other character, this function asks whether ;; expansion should continue. ;; If the user answers the prompt with `y', the function returns ;; `nil' (because of the `not' function), but that is ;; acceptable; the return value has no effect on expansion. (defun query-if-not-space () (if (/= ?\ (preceding-char)) (if (not (y-or-n-p "Do you want to expand this abbrev? ")) (error "Not expanding this abbrev"))))  File: elisp, Node: Standard Abbrev Tables, Prev: Abbrev Expansion, Up: Abbrevs Standard Abbrev Tables ====================== Here we list the variables that hold the abbrev tables for the preloaded major modes of Emacs. - Variable: global-abbrev-table This is the abbrev table for mode-independent abbrevs. The abbrevs defined in it apply to all buffers. Each buffer may also have a local abbrev table, whose abbrev definitions take precedence over those in the global table. - Variable: local-abbrev-table The value of this buffer-local variable is the (mode-specific) abbreviation table of the current buffer. - Variable: fundamental-mode-abbrev-table This is the local abbrev table used in Fundamental mode; in other words, it is the local abbrev table in all buffers in Fundamental mode. - Variable: text-mode-abbrev-table This is the local abbrev table used in Text mode. - Variable: lisp-mode-abbrev-table This is the local abbrev table used in Lisp mode and Emacs Lisp mode.  File: elisp, Node: Processes, Next: Display, Prev: Abbrevs, Up: Top Processes ********* In the terminology of operating systems, a "process" is a space in which a program can execute. Emacs runs in a process. Emacs Lisp programs can invoke other programs in processes of their own. These are called "subprocesses" or "child processes" of the Emacs process, which is their "parent process". A subprocess of Emacs may be "synchronous" or "asynchronous", depending on how it is created. When you create a synchronous subprocess, the Lisp program waits for the subprocess to terminate before continuing execution. When you create an asynchronous subprocess, it can run in parallel with the Lisp program. This kind of subprocess is represented within Emacs by a Lisp object which is also called a "process". Lisp programs can use this object to communicate with the subprocess or to control it. For example, you can send signals, obtain status information, receive output from the process, or send input to it. - Function: processp object This function returns `t' if OBJECT is a process, `nil' otherwise. * Menu: * Subprocess Creation:: Functions that start subprocesses. * Shell Arguments:: Quoting an argument to pass it to a shell. * Synchronous Processes:: Details of using synchronous subprocesses. * Asynchronous Processes:: Starting up an asynchronous subprocess. * Deleting Processes:: Eliminating an asynchronous subprocess. * Process Information:: Accessing run-status and other attributes. * Input to Processes:: Sending input to an asynchronous subprocess. * Signals to Processes:: Stopping, continuing or interrupting an asynchronous subprocess. * Output from Processes:: Collecting output from an asynchronous subprocess. * Sentinels:: Sentinels run when process run-status changes. * Transaction Queues:: Transaction-based communication with subprocesses. * Network:: Opening network connections.  File: elisp, Node: Subprocess Creation, Next: Shell Arguments, Up: Processes Functions that Create Subprocesses ================================== There are three functions that create a new subprocess in which to run a program. One of them, `start-process', creates an asynchronous process and returns a process object (*note Asynchronous Processes::). The other two, `call-process' and `call-process-region', create a synchronous process and do not return a process object (*note Synchronous Processes::). Synchronous and asynchronous processes are explained in the following sections. Since the three functions are all called in a similar fashion, their common arguments are described here. In all cases, the function's PROGRAM argument specifies the program to be run. An error is signaled if the file is not found or cannot be executed. If the file name is relative, the variable `exec-path' contains a list of directories to search. Emacs initializes `exec-path' when it starts up, based on the value of the environment variable `PATH'. The standard file name constructs, `~', `.', and `..', are interpreted as usual in `exec-path', but environment variable substitutions (`$HOME', etc.) are not recognized; use `substitute-in-file-name' to perform them (*note File Name Expansion::). Each of the subprocess-creating functions has a BUFFER-OR-NAME argument which specifies where the standard output from the program will go. It should be a buffer or a buffer name; if it is a buffer name, that will create the buffer if it does not already exist. It can also be `nil', which says to discard the output unless a filter function handles it. (*Note Filter Functions::, and *Note Read and Print::.) Normally, you should avoid having multiple processes send output to the same buffer because their output would be intermixed randomly. All three of the subprocess-creating functions have a `&rest' argument, ARGS. The ARGS must all be strings, and they are supplied to PROGRAM as separate command line arguments. Wildcard characters and other shell constructs have no special meanings in these strings, since the whole strings are passed directly to the specified program. *Please note:* The argument PROGRAM contains only the name of the program; it may not contain any command-line arguments. You must use ARGS to provide those. The subprocess gets its current directory from the value of `default-directory' (*note File Name Expansion::). The subprocess inherits its environment from Emacs, but you can specify overrides for it with `process-environment'. *Note System Environment::. - Variable: exec-directory The value of this variable is a string, the name of a directory that contains programs that come with GNU Emacs, programs intended for Emacs to invoke. The program `movemail' is an example of such a program; Rmail uses it to fetch new mail from an inbox. - User Option: exec-path The value of this variable is a list of directories to search for programs to run in subprocesses. Each element is either the name of a directory (i.e., a string), or `nil', which stands for the default directory (which is the value of `default-directory'). The value of `exec-path' is used by `call-process' and `start-process' when the PROGRAM argument is not an absolute file name.  File: elisp, Node: Shell Arguments, Next: Synchronous Processes, Prev: Subprocess Creation, Up: Processes Shell Arguments =============== Lisp programs sometimes need to run a shell and give it a command that contains file names that were specified by the user. These programs ought to be able to support any valid file name. But the shell gives special treatment to certain characters, and if these characters occur in the file name, they will confuse the shell. To handle these characters, use the function `shell-quote-argument': - Function: shell-quote-argument argument This function returns a string which represents, in shell syntax, an argument whose actual contents are ARGUMENT. It should work reliably to concatenate the return value into a shell command and then pass it to a shell for execution. Precisely what this function does depends on your operating system. The function is designed to work with the syntax of your system's standard shell; if you use an unusual shell, you will need to redefine this function. ;; This example shows the behavior on GNU and Unix systems. (shell-quote-argument "foo > bar") => "foo\\ \\>\\ bar" ;; This example shows the behavior on MS-DOS and MS-Windows systems. (shell-quote-argument "foo > bar") => "\"foo > bar\"" Here's an example of using `shell-quote-argument' to construct a shell command: (concat "diff -c " (shell-quote-argument oldfile) " " (shell-quote-argument newfile))  File: elisp, Node: Synchronous Processes, Next: Asynchronous Processes, Prev: Shell Arguments, Up: Processes Creating a Synchronous Process ============================== After a "synchronous process" is created, Emacs waits for the process to terminate before continuing. Starting Dired on GNU or Unix(1) is an example of this: it runs `ls' in a synchronous process, then modifies the output slightly. Because the process is synchronous, the entire directory listing arrives in the buffer before Emacs tries to do anything with it. While Emacs waits for the synchronous subprocess to terminate, the user can quit by typing `C-g'. The first `C-g' tries to kill the subprocess with a `SIGINT' signal; but it waits until the subprocess actually terminates before quitting. If during that time the user types another `C-g', that kills the subprocess instantly with `SIGKILL' and quits immediately (except on MS-DOS, where killing other processes doesn't work). *Note Quitting::. The synchronous subprocess functions return an indication of how the process terminated. The output from a synchronous subprocess is generally decoded using a coding system, much like text read from a file. The input sent to a subprocess by `call-process-region' is encoded using a coding system, much like text written into a file. *Note Coding Systems::. - Function: call-process program &optional infile destination display &rest args This function calls PROGRAM in a separate process and waits for it to finish. The standard input for the process comes from file INFILE if INFILE is not `nil', and from the null device otherwise. The argument DESTINATION says where to put the process output. Here are the possibilities: a buffer Insert the output in that buffer, before point. This includes both the standard output stream and the standard error stream of the process. a string Insert the output in a buffer with that name, before point. `t' Insert the output in the current buffer, before point. `nil' Discard the output. 0 Discard the output, and return `nil' immediately without waiting for the subprocess to finish. In this case, the process is not truly synchronous, since it can run in parallel with Emacs; but you can think of it as synchronous in that Emacs is essentially finished with the subprocess as soon as this function returns. MS-DOS doesn't support asynchronous subprocesses, so this option doesn't work there. `(REAL-DESTINATION ERROR-DESTINATION)' Keep the standard output stream separate from the standard error stream; deal with the ordinary output as specified by REAL-DESTINATION, and dispose of the error output according to ERROR-DESTINATION. If ERROR-DESTINATION is `nil', that means to discard the error output, `t' means mix it with the ordinary output, and a string specifies a file name to redirect error output into. You can't directly specify a buffer to put the error output in; that is too difficult to implement. But you can achieve this result by sending the error output to a temporary file and then inserting the file into a buffer. If DISPLAY is non-`nil', then `call-process' redisplays the buffer as output is inserted. (However, if the coding system chosen for decoding output is `undecided', meaning deduce the encoding from the actual data, then redisplay sometimes cannot continue once non-ASCII characters are encountered. There are fundamental reasons why it is hard to fix this; see *Note Output from Processes::.) Otherwise the function `call-process' does no redisplay, and the results become visible on the screen only when Emacs redisplays that buffer in the normal course of events. The remaining arguments, ARGS, are strings that specify command line arguments for the program. The value returned by `call-process' (unless you told it not to wait) indicates the reason for process termination. A number gives the exit status of the subprocess; 0 means success, and any other value means failure. If the process terminated with a signal, `call-process' returns a string describing the signal. In the examples below, the buffer `foo' is current. (call-process "pwd" nil t) => 0 ---------- Buffer: foo ---------- /usr/user/lewis/manual ---------- Buffer: foo ---------- (call-process "grep" nil "bar" nil "lewis" "/etc/passwd") => 0 ---------- Buffer: bar ---------- lewis:5LTsHm66CSWKg:398:21:Bil Lewis:/user/lewis:/bin/csh ---------- Buffer: bar ---------- Here is a good example of the use of `call-process', which used to be found in the definition of `insert-directory': (call-process insert-directory-program nil t nil SWITCHES (if full-directory-p (concat (file-name-as-directory file) ".") file)) - Function: call-process-region start end program &optional delete destination display &rest args This function sends the text from START to END as standard input to a process running PROGRAM. It deletes the text sent if DELETE is non-`nil'; this is useful when DESTINATION is `t', to insert the output in the current buffer in place of the input. The arguments DESTINATION and DISPLAY control what to do with the output from the subprocess, and whether to update the display as it comes in. For details, see the description of `call-process', above. If DESTINATION is the integer 0, `call-process-region' discards the output and returns `nil' immediately, without waiting for the subprocess to finish (this only works if asynchronous subprocesses are supported). The remaining arguments, ARGS, are strings that specify command line arguments for the program. The return value of `call-process-region' is just like that of `call-process': `nil' if you told it to return without waiting; otherwise, a number or string which indicates how the subprocess terminated. In the following example, we use `call-process-region' to run the `cat' utility, with standard input being the first five characters in buffer `foo' (the word `input'). `cat' copies its standard input into its standard output. Since the argument DESTINATION is `t', this output is inserted in the current buffer. ---------- Buffer: foo ---------- input-!- ---------- Buffer: foo ---------- (call-process-region 1 6 "cat" nil t) => 0 ---------- Buffer: foo ---------- inputinput-!- ---------- Buffer: foo ---------- The `shell-command-on-region' command uses `call-process-region' like this: (call-process-region start end shell-file-name ; Name of program. nil ; Do not delete region. buffer ; Send output to `buffer'. nil ; No redisplay during output. "-c" command) ; Arguments for the shell. - Function: shell-command-to-string command This function executes COMMAND (a string) as a shell command, then returns the command's output as a string. ---------- Footnotes ---------- (1) On other systems, Emacs uses a Lisp emulation of `ls'; see *Note Contents of Directories::.  File: elisp, Node: Asynchronous Processes, Next: Deleting Processes, Prev: Synchronous Processes, Up: Processes Creating an Asynchronous Process ================================ After an "asynchronous process" is created, Emacs and the subprocess both continue running immediately. The process thereafter runs in parallel with Emacs, and the two can communicate with each other using the functions described in the following sections. However, communication is only partially asynchronous: Emacs sends data to the process only when certain functions are called, and Emacs accepts data from the process only when Emacs is waiting for input or for a time delay. Here we describe how to create an asynchronous process. - Function: start-process name buffer-or-name program &rest args This function creates a new asynchronous subprocess and starts the program PROGRAM running in it. It returns a process object that stands for the new subprocess in Lisp. The argument NAME specifies the name for the process object; if a process with this name already exists, then NAME is modified (by appending `<1>', etc.) to be unique. The buffer BUFFER-OR-NAME is the buffer to associate with the process. The remaining arguments, ARGS, are strings that specify command line arguments for the program. In the example below, the first process is started and runs (rather, sleeps) for 100 seconds. Meanwhile, the second process is started, and given the name `my-process<1>' for the sake of uniqueness. It inserts the directory listing at the end of the buffer `foo', before the first process finishes. Then it finishes, and a message to that effect is inserted in the buffer. Much later, the first process finishes, and another message is inserted in the buffer for it. (start-process "my-process" "foo" "sleep" "100") => # (start-process "my-process" "foo" "ls" "-l" "/user/lewis/bin") => #> ---------- Buffer: foo ---------- total 2 lrwxrwxrwx 1 lewis 14 Jul 22 10:12 gnuemacs --> /emacs -rwxrwxrwx 1 lewis 19 Jul 30 21:02 lemon Process my-process<1> finished Process my-process finished ---------- Buffer: foo ---------- - Function: start-process-shell-command name buffer-or-name command &rest command-args This function is like `start-process' except that it uses a shell to execute the specified command. The argument COMMAND is a shell command name, and COMMAND-ARGS are the arguments for the shell command. The variable `shell-file-name' specifies which shell to use. The point of running a program through the shell, rather than directly with `start-process', is so that you can employ shell features such as wildcards in the arguments. It follows that if you include an arbitrary user-specified arguments in the command, you should quote it with `shell-quote-argument' first, so that any special shell characters do _not_ have their special shell meanings. *Note Shell Arguments::. - Variable: process-connection-type This variable controls the type of device used to communicate with asynchronous subprocesses. If it is non-`nil', then PTYs are used, when available. Otherwise, pipes are used. PTYs are usually preferable for processes visible to the user, as in Shell mode, because they allow job control (`C-c', `C-z', etc.) to work between the process and its children, whereas pipes do not. For subprocesses used for internal purposes by programs, it is often better to use a pipe, because they are more efficient. In addition, the total number of PTYs is limited on many systems and it is good not to waste them. The value of `process-connection-type' is used when `start-process' is called. So you can specify how to communicate with one subprocess by binding the variable around the call to `start-process'. (let ((process-connection-type nil)) ; Use a pipe. (start-process ...)) To determine whether a given subprocess actually got a pipe or a PTY, use the function `process-tty-name' (*note Process Information::).  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. 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. - User Option: 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, killing it with a `SIGHUP' signal. The argument NAME may be a process, the name of a process, a buffer, or the name of a buffer. (delete-process "*shell*") => nil - Function: process-kill-without-query process &optional do-query This function specifies whether Emacs should query the user if PROCESS is still running when Emacs is exited. If DO-QUERY is `nil', the process will be deleted silently. Otherwise, Emacs will query about killing it. The value is `t' if the process was formerly set up to require query, `nil' otherwise. A newly-created process always requires query. (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. In addition, it finally deletes any process whose status was `Exited' or `Signaled'. It returns `nil'. - Function: process-list This function returns a list of all processes that have not been deleted. (process-list) => (# #) - 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") => # - 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-id process This function returns the PID of PROCESS. This is an integer that 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-contact process This function returns `t' for an ordinary child process, and `(HOSTNAME SERVICE)' for a net connection (*note Network::). - Function: process-status process-name This function returns the status of PROCESS-NAME as a symbol. The argument 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: `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. `open' for a network connection that is open. `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. `nil' if PROCESS-NAME is not the name of an existing process. (process-status "shell") => run (process-status (get-buffer "*shell*")) => run x => #> (process-status x) => exit For a network connection, `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'. - Function: process-exit-status process This function returns the exit status of PROCESS or the signal number that killed it. (Use the result of `process-status' to determine which of those it is.) If PROCESS has not yet terminated, the value is 0. - Function: process-tty-name process This function returns the terminal name that PROCESS is using for its communication with Emacs--or `nil' if it is using pipes instead of a terminal (see `process-connection-type' in *Note Asynchronous Processes::). - Function: process-coding-system process This function returns a cons cell describing the coding systems in use for decoding output from PROCESS and for encoding input to PROCESS (*note Coding Systems::). The value has this form: (CODING-SYSTEM-FOR-DECODING . CODING-SYSTEM-FOR-ENCODING) - Function: set-process-coding-system process decoding-system encoding-system This function specifies the coding systems to use for subsequent output from and input to PROCESS. It will use DECODING-SYSTEM to decode subprocess output, and ENCODING-SYSTEM to encode subprocess input.  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, Emacs sends an EOF periodically amidst the other characters, to force them through. For most programs, these EOFs 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 `set-process-coding-system' to specify which coding system to use (*note Process Information::). Otherwise, the coding system comes from `coding-system-for-write', if that is non-`nil'; or else from the defaulting mechanism (*note 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. - 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. If it is `nil', the current buffer's process is used. 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* ---------- - Function: 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. (If it is `nil', the current buffer's process is used.) 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" - Function: 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 `t' if this is true, or if Emacs cannot tell; it is `nil' if Emacs can be certain that this is not so.  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. The set of signals and their names is defined by the operating system. 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. 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 `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 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 `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 signal `SIGINT'. Outside of Emacs, typing the "interrupt character" (normally `C-c' on some systems, and `DEL' on others) 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 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 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 signal `SIGTSTP'. Use `continue-process' to resume its execution. Outside of Emacs, on systems with job control, the "stop character" (usually `C-z') normally sends this signal. 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 signal `SIGCONT'. This presumes that PROCESS-NAME was stopped previously. - Function: signal-process pid signal This function sends a signal to process PID, which need not be a child of Emacs. The argument SIGNAL specifies which signal to send; it should be an integer.  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. 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 `sit-for' and `sleep-for' (*note Waiting::), and in `accept-process-output' (*note 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 `set-process-coding-system' to specify which coding system to use (*note Process Information::). Otherwise, the coding system comes from `coding-system-for-read', if that is non-`nil'; or else from the defaulting mechanism (*note Default Coding Systems::). *Warning:* Coding systems such as `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 `latin-1-unix', rather than `undecided' or `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.  File: elisp, Node: Process Buffers, Next: Filter Functions, 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', 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. - Function: process-buffer process This function returns the associated buffer of the process PROCESS. (process-buffer (get-process "shell")) => # - Function: process-mark process This function returns the process marker for PROCESS, which is the marker that says where to insert output from the process. If PROCESS does not have a buffer, `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 `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. - Function: set-process-buffer process buffer This function sets the buffer associated with PROCESS to BUFFER. If BUFFER is `nil', the process becomes associated with no 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. (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. (get-buffer-process "*shell*") => # Killing the process's buffer deletes the process, which kills the subprocess with a `SIGHUP' signal (*note Signals to Processes::).