-This is ../info/lispref.info, produced by makeinfo version 4.0 from
+This is ../info/lispref.info, produced by makeinfo version 4.0b from
lispref/lispref.texi.
INFO-DIR-SECTION XEmacs Editor
Foundation instead of in the original English.
\1f
-File: lispref.info, Node: Time of Day, Next: Time Conversion, Prev: User Identification, Up: System Interface
-
-Time of Day
-===========
-
- This section explains how to determine the current time and the time
-zone.
-
- - Function: current-time-string &optional time-value
- This function returns the current time and date as a
- humanly-readable string. The format of the string is unvarying;
- the number of characters used for each part is always the same, so
- you can reliably use `substring' to extract pieces of it. It is
- wise to count the characters from the beginning of the string
- rather than from the end, as additional information may be added
- at the end.
-
- The argument TIME-VALUE, if given, specifies a time to format
- instead of the current time. The argument should be a list whose
- first two elements are integers. Thus, you can use times obtained
- from `current-time' (see below) and from `file-attributes' (*note
- File Attributes::).
-
- (current-time-string)
- => "Wed Oct 14 22:21:05 1987"
-
- - Function: current-time
- This function returns the system's time value as a list of three
- integers: `(HIGH LOW MICROSEC)'. The integers HIGH and LOW
- combine to give the number of seconds since 0:00 January 1, 1970,
- which is HIGH * 2**16 + LOW.
-
- The third element, MICROSEC, gives the microseconds since the
- start of the current second (or 0 for systems that return time
- only on the resolution of a second).
-
- The first two elements can be compared with file time values such
- as you get with the function `file-attributes'. *Note File
- Attributes::.
-
- - Function: current-time-zone &optional time-value
- This function returns a list describing the time zone that the
- user is in.
-
- The value has the form `(OFFSET NAME)'. Here OFFSET is an integer
- giving the number of seconds ahead of UTC (east of Greenwich). A
- negative value means west of Greenwich. The second element, NAME
- is a string giving the name of the time zone. Both elements
- change when daylight savings time begins or ends; if the user has
- specified a time zone that does not use a seasonal time
- adjustment, then the value is constant through time.
-
- If the operating system doesn't supply all the information
- necessary to compute the value, both elements of the list are
- `nil'.
-
- The argument TIME-VALUE, if given, specifies a time to analyze
- instead of the current time. The argument should be a cons cell
- containing two integers, or a list whose first two elements are
- integers. Thus, you can use times obtained from `current-time'
- (see above) and from `file-attributes' (*note File Attributes::).
+File: lispref.info, Node: Input to Processes, Next: Signals to Processes, Prev: Process Information, Up: Processes
-\1f
-File: lispref.info, Node: Time Conversion, Next: Timers, Prev: Time of Day, Up: System Interface
-
-Time Conversion
-===============
-
- These functions convert time values (lists of two or three integers)
-to strings or to calendrical information. There is also a function to
-convert calendrical information to a time value. You can get time
-values from the functions `current-time' (*note Time of Day::) and
-`file-attributes' (*note File Attributes::).
-
- - Function: format-time-string format-string &optional time
- This function converts TIME to a string according to
- FORMAT-STRING. If TIME is omitted, it defaults to the current
- time. The argument FORMAT-STRING may contain `%'-sequences which
- say to substitute parts of the time. Here is a table of what the
- `%'-sequences mean:
-
- `%a'
- This stands for the abbreviated name of the day of week.
-
- `%A'
- This stands for the full name of the day of week.
-
- `%b'
- This stands for the abbreviated name of the month.
-
- `%B'
- This stands for the full name of the month.
-
- `%c'
- This is a synonym for `%x %X'.
-
- `%C'
- This has a locale-specific meaning. In the default locale
- (named C), it is equivalent to `%A, %B %e, %Y'.
-
- `%d'
- This stands for the day of month, zero-padded.
-
- `%D'
- This is a synonym for `%m/%d/%y'.
-
- `%e'
- This stands for the day of month, blank-padded.
-
- `%h'
- This is a synonym for `%b'.
-
- `%H'
- This stands for the hour (00-23).
-
- `%I'
- This stands for the hour (00-12).
-
- `%j'
- This stands for the day of the year (001-366).
-
- `%k'
- This stands for the hour (0-23), blank padded.
+Sending Input to Processes
+==========================
- `%l'
- This stands for the hour (1-12), blank padded.
+ Asynchronous subprocesses receive input when it is sent to them by
+XEmacs, 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.
- `%m'
- This stands for the month (01-12).
+ Some operating systems have limited space for buffered input in a
+PTY. On these systems, XEmacs sends long input in chunks, with EOF
+characters added amidst the other characters, to force the operating
+system to periodically drain the input buffer. For most programs,
+these EOFs do no harm.
- `%M'
- This stands for the minute (00-59).
+ - Function: process-send-string process string &optional start end
+ This function sends PROCESS the contents of STRING as standard
+ input.
- `%n'
- This stands for a newline.
+ The argument PROCESS may be a process or the name of a process, or
+ a buffer or the name of a buffer, in which case the buffer's
+ process is used. If it is `nil', the current buffer's process is
+ used.
- `%p'
- This stands for `AM' or `PM', as appropriate.
+ Optional arguments START and END specify part of STRING; see
+ `substring'.
- `%r'
- This is a synonym for `%I:%M:%S %p'.
+ The function returns `nil'.
- `%R'
- This is a synonym for `%H:%M'.
-
- `%S'
- This stands for the seconds (00-60).
-
- `%t'
- This stands for a tab character.
-
- `%T'
- This is a synonym for `%H:%M:%S'.
-
- `%U'
- This stands for the week of the year (01-52), assuming that
- weeks start on Sunday.
+ (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 start end &optional buffer
+ This function sends the text in the region defined by START and
+ END as standard input to PROCESS.
+
+ The argument PROCESS may be a process or the name of a process, or
+ a buffer or the name of a buffer, in which case the buffer's
+ process is used. 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
+ This function makes PROCESS see an end-of-file in its input. The
+ EOF comes after any text already sent to it.
+
+ PROCESS may be a process, a buffer, the name of a process or
+ buffer, or `nil', indicating the current buffer's process. An
+ error is signaled if PROCESS does not identify any process.
+
+ The function returns the process object identified by PROCESS.
+
+ (process-send-eof "shell")
+ => "shell"
- `%w'
- This stands for the numeric day of week (0-6). Sunday is day
- 0.
+\1f
+File: lispref.info, Node: Signals to Processes, Next: Output from Processes, Prev: Input to Processes, Up: Processes
- `%W'
- This stands for the week of the year (01-52), assuming that
- weeks start on Monday.
+Sending Signals to Processes
+============================
- `%x'
- This has a locale-specific meaning. In the default locale
- (named C), it is equivalent to `%D'.
+ "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.
+
+ The set of signals and their names is defined by the operating
+system; XEmacs has facilities for sending only a few of the signals
+that are defined. XEmacs can send signals only to its own subprocesses.
+
+ You can send signals explicitly by calling the functions in this
+section. XEmacs also sends signals automatically at certain times:
+killing a buffer sends a `SIGHUP' signal to all its associated
+processes; killing XEmacs sends a `SIGHUP' signal to all remaining
+processes. (`SIGHUP' is a signal that indicates that the connection
+between the user and the process is broken, for example if a connection
+via a telephone line is hung up.)
+
+ Each of the signal-sending functions takes two optional arguments:
+PROCESS and CURRENT-GROUP.
+
+ The argument PROCESS must be either a process or a buffer, 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
+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 XEmacs subprocess. If it is
+non-`nil', then the signal is sent to the current foreground process
+group of the terminal that XEmacs 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 XEmacs. 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::.
+
+ Some of the functions below take a SIGNAL argument, which identifies
+a signal to be sent. It must be either an integer or a symbol which
+names the signal, like `SIGSEGV'.
+
+ - Function: process-send-signal signal &optional process current-group
+ This function sends the signal SIGNAL to the process PROCESS. The
+ following functions can be implemented in terms of
+ `process-send-signal'.
+
+ - Function: interrupt-process &optional process current-group
+ This function interrupts the process PROCESS by sending the signal
+ `SIGINT'. Outside of XEmacs, typing the "interrupt character"
+ (normally `C-c') 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 XEmacs talks to the
+ subprocess.
+
+ - Function: kill-process &optional process current-group
+ This function kills the process PROCESS by sending the signal
+ `SIGKILL'. This signal kills the subprocess immediately, and
+ cannot be handled by the subprocess.
+
+ - Function: quit-process &optional process current-group
+ This function sends the signal `SIGQUIT' to the process PROCESS.
+ This signal is the one sent by the "quit character" (usually
+ `C-\') when you are not inside XEmacs.
+
+ - Function: stop-process &optional process current-group
+ This function stops the process PROCESS by sending the signal
+ `SIGTSTP'. Use `continue-process' to resume its execution.
+
+ On systems with job control, the "stop character" (usually `C-z')
+ sends this signal (outside of XEmacs). When CURRENT-GROUP is
+ non-`nil', you can think of this function as "typing `C-z'" on the
+ terminal XEmacs uses to communicate with the subprocess.
+
+ - Function: continue-process &optional process current-group
+ This function resumes execution of the process PROCESS by sending
+ it the signal `SIGCONT'. This presumes that PROCESS was stopped
+ previously.
+
+ - Command: signal-process pid signal
+ This function sends a signal to the process with process id PID,
+ which need not be a child of XEmacs. The argument SIGNAL
+ specifies which signal to send.
- `%X'
- This has a locale-specific meaning. In the default locale
- (named C), it is equivalent to `%T'.
+\1f
+File: lispref.info, Node: Output from Processes, Next: Sentinels, Prev: Signals to Processes, Up: Processes
- `%y'
- This stands for the year without century (00-99).
+Receiving Output from Processes
+===============================
- `%Y'
- This stands for the year with century.
+ 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.
- `%Z'
- This stands for the time zone abbreviation.
+* Menu:
- - Function: decode-time time
- This function converts a time value into calendrical information.
- The return value is a list of nine elements, as follows:
+* 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.
- (SECONDS MINUTES HOUR DAY MONTH YEAR DOW DST ZONE)
+\1f
+File: lispref.info, Node: Process Buffers, Next: Filter Functions, Up: Output from Processes
- Here is what the elements mean:
+Process Buffers
+---------------
- SEC
- The number of seconds past the minute, as an integer between
- 0 and 59.
+ 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 XEmacs Lisp.
- MINUTE
- The number of minutes past the hour, as an integer between 0
- and 59.
+ 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.
- HOUR
- The hour of the day, as an integer between 0 and 23.
+ - Function: process-buffer process
+ This function returns the associated buffer of the process PROCESS.
- DAY
- The day of the month, as an integer between 1 and 31.
+ (process-buffer (get-process "shell"))
+ => #<buffer *shell*>
- MONTH
- The month of the year, as an integer between 1 and 12.
+ - 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.
- YEAR
- The year, an integer typically greater than 1900.
+ If PROCESS does not have a buffer, `process-mark' returns a marker
+ that points nowhere.
- DOW
- The day of week, as an integer between 0 and 6, where 0
- stands for Sunday.
+ 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.
- DST
- `t' if daylight savings time is effect, otherwise `nil'.
+ 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.
- ZONE
- An integer indicating the time zone, as the number of seconds
- east of Greenwich.
+ When the user is expected to enter input in the process buffer for
+ transmission to the process, the process marker is useful for
+ distinguishing the new input from previous output.
- Note that Common Lisp has different meanings for DOW and ZONE.
+ - 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: encode-time seconds minutes hour day month year &optional
- zone
- This function is the inverse of `decode-time'. It converts seven
- items of calendrical data into a time value. For the meanings of
- the arguments, see the table above under `decode-time'.
+ - Function: get-buffer-process buffer-or-name
+ This function returns the process associated with BUFFER-OR-NAME.
+ If there are several processes associated with BUFFER-OR-NAME,
+ then one is chosen. (Presently, the one chosen is the one most
+ recently created.) It is usually a bad idea to have more than one
+ process associated with the same buffer.
- Year numbers less than 100 are treated just like other year
- numbers. If you want them to stand for years above 1900, you must
- alter them yourself before you call `encode-time'.
+ (get-buffer-process "*shell*")
+ => #<process shell>
- The optional argument ZONE defaults to the current time zone and
- its daylight savings time rules. If specified, it can be either a
- list (as you would get from `current-time-zone') or an integer (as
- you would get from `decode-time'). The specified zone is used
- without any further alteration for daylight savings time.
+ Killing the process's buffer deletes the process, which kills the
+ subprocess with a `SIGHUP' signal (*note Signals to Processes::).
\1f
-File: lispref.info, Node: Timers, Next: Terminal Input, Prev: Time Conversion, Up: System Interface
+File: lispref.info, Node: Filter Functions, Next: Accepting Output, Prev: Process Buffers, Up: Output from Processes
-Timers for Delayed Execution
-============================
+Process Filter Functions
+------------------------
- You can set up a timer to call a function at a specified future time.
-
- - Function: add-timeout secs function object &optional resignal
- This function adds a timeout, to be signaled after the timeout
- period has elapsed. SECS is a number of seconds, expressed as an
- integer or a float. FUNCTION will be called after that many
- seconds have elapsed, with one argument, the given OBJECT. If the
- optional RESIGNAL argument is provided, then after this timeout
- expires, `add-timeout' will automatically be called again with
- RESIGNAL as the first argument.
-
- This function returns an object which is the "id" of this
- particular timeout. You can pass that object to `disable-timeout'
- to turn off the timeout before it has been signalled.
-
- The number of seconds may be expressed as a floating-point number,
- in which case some fractional part of a second will be used.
- Caveat: the usable timeout granularity will vary from system to
- system.
-
- Adding a timeout causes a timeout event to be returned by
- `next-event', and the function will be invoked by
- `dispatch-event', so if XEmacs is in a tight loop, the function
- will not be invoked until the next call to sit-for or until the
- return to top-level (the same is true of process filters).
-
- WARNING: if you are thinking of calling add-timeout from inside of
- a callback function as a way of resignalling a timeout, think
- again. There is a race condition. That's why the RESIGNAL
- argument exists.
-
- (NOTE: In FSF Emacs, this function is called `run-at-time' and has
- different semantics.)
-
- - Function: disable-timeout id
- Cancel the requested action for ID, which should be a value
- previously returned by `add-timeout'. This cancels the effect of
- that call to `add-timeout'; the arrival of the specified time will
- not cause anything special to happen. (NOTE: In FSF Emacs, this
- function is called `cancel-timer'.)
+ A process "filter function" is a function that receives the standard
+output from the associated process. If a process has a filter, then
+_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.
+
+ A filter function must accept two arguments: the associated process
+and a string, which is the output. The function is then free to do
+whatever it chooses with the output.
+
+ A filter function runs only while XEmacs is waiting (e.g., for
+terminal input, or for time to elapse, or for process output). This
+avoids the timing errors that could result from running filters at
+random places in the middle of other Lisp programs. You may explicitly
+cause Emacs to wait, so that filter functions will run, by calling
+`sit-for' or `sleep-for' (*note Waiting::), or `accept-process-output'
+(*note Accepting Output::). Emacs is also waiting when the command loop
+is reading input.
+
+ Quitting is normally inhibited within a filter function--otherwise,
+the effect of typing `C-g' at command level or to quit a user command
+would be unpredictable. If you want to permit quitting inside a filter
+function, bind `inhibit-quit' to `nil'. *Note Quitting::.
+
+ 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
+`debug-on-error' is non-`nil', the error-catching is turned off. This
+makes it possible to use the Lisp debugger to debug the filter
+function. *Note Debugger::.
+
+ Many filter functions sometimes or always insert the text in the
+process's buffer, mimicking the actions of XEmacs when there is no
+filter. Such filter functions need to use `set-buffer' in order to be
+sure to insert in that buffer. To avoid setting the current buffer
+semipermanently, these filter functions must use `unwind-protect' to
+make sure to restore the previous current buffer. They should also
+update the process marker, and in some cases update the value of point.
+Here is how to do these things:
+
+ (defun ordinary-insertion-filter (process string)
+ (let ((old-buffer (current-buffer)))
+ (unwind-protect
+ (let (moving)
+ (set-buffer (process-buffer process))
+ (setq moving (= (point) (process-mark process)))
+ (save-excursion
+ ;; Insert the text, moving the process-marker.
+ (goto-char (process-mark process))
+ (insert string)
+ (set-marker (process-mark process) (point)))
+ (if moving (goto-char (process-mark process))))
+ (set-buffer old-buffer))))
+
+The reason to use an explicit `unwind-protect' rather than letting
+`save-excursion' restore the current buffer is so as to preserve the
+change in point made by `goto-char'.
+
+ To make the filter force the process buffer to be visible whenever
+new text arrives, insert the following line just before the
+`unwind-protect':
+
+ (display-buffer (process-buffer process))
+
+ To force point to move to the end of the new output no matter where
+it was previously, eliminate the variable `moving' and call `goto-char'
+unconditionally.
+
+ In earlier Emacs versions, every filter function that did regexp
+searching or matching had to explicitly save and restore the match data.
+Now Emacs does this automatically; filter functions never need to do it
+explicitly. *Note 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. If the buffer is dead,
+`(buffer-name (process-buffer PROCESS))' returns `nil'.
+
+ The output to the function may come in chunks of any size. A program
+that produces the same output twice in a row may send it as one batch
+of 200 characters one time, and five batches of 40 characters the next.
+
+ - Function: set-process-filter process filter
+ This function gives PROCESS the filter function FILTER. If FILTER
+ is `nil', then the process will have no filter. If FILTER is `t',
+ then no output from the process will be accepted until the filter
+ is changed. (Output received during this time is not discarded,
+ but is queued, and will be processed as soon as the filter is
+ changed.)
+
+ - Function: process-filter process
+ This function returns the filter function of PROCESS, or `nil' if
+ it has none. `t' means that output processing has been stopped.
+
+ Here is an example of use of a filter function:
+
+ (defun keep-output (process output)
+ (setq kept (cons output kept)))
+ => keep-output
+ (setq kept nil)
+ => nil
+ (set-process-filter (get-process "shell") 'keep-output)
+ => keep-output
+ (process-send-string "shell" "ls ~/other\n")
+ => nil
+ kept
+ => ("lewis@slug[8] % "
+ "FINAL-W87-SHORT.MSS backup.otl kolstad.mss~
+ address.txt backup.psf kolstad.psf
+ backup.bib~ david.mss resume-Dec-86.mss~
+ backup.err david.psf resume-Dec.psf
+ backup.mss dland syllabus.mss
+ "
+ "#backups.mss# backup.mss~ kolstad.mss
+ ")
\1f
-File: lispref.info, Node: Terminal Input, Next: Terminal Output, Prev: Timers, Up: System Interface
-
-Terminal Input
-==============
-
- This section describes functions and variables for recording or
-manipulating terminal input. See *Note Display::, for related
-functions.
-
-* Menu:
-
-* Input Modes:: Options for how input is processed.
-* Translating Input:: Low level conversion of some characters or events
- into others.
-* Recording Input:: Saving histories of recent or all input events.
+File: lispref.info, Node: Accepting Output, Prev: Filter Functions, Up: Output from Processes
+
+Accepting Output from Processes
+-------------------------------
+
+ Output from asynchronous subprocesses normally arrives only while
+XEmacs is waiting for some sort of external event, such as elapsed time
+or terminal input. Occasionally it is useful in a Lisp program to
+explicitly permit output to arrive at a specific point, or even to wait
+until output arrives from a process.
+
+ - Function: accept-process-output &optional process seconds millisec
+ This function allows XEmacs to read pending output from processes.
+ The output is inserted in the associated buffers or given to
+ their filter functions. If PROCESS is non-`nil' then this
+ function does not return until some output has been received from
+ PROCESS.
+
+ The arguments SECONDS and 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
+ `accept-process-output' returns after that much time whether or
+ not there has been any subprocess output. Note that SECONDS is
+ allowed to be a floating-point number; thus, there is no need to
+ ever use MILLISEC. (It is retained for compatibility purposes.)
+
+ The function `accept-process-output' returns non-`nil' if it did
+ get some output, or `nil' if the timeout expired before output
+ arrived.
\1f
-File: lispref.info, Node: Input Modes, Next: Translating Input, Up: Terminal Input
-
-Input Modes
------------
-
- - Function: set-input-mode interrupt flow meta quit-char
- This function sets the mode for reading keyboard input. If
- INTERRUPT is non-null, then XEmacs uses input interrupts. If it is
- `nil', then it uses CBREAK mode. When XEmacs communicates
- directly with X, it ignores this argument and uses interrupts if
- that is the way it knows how to communicate.
-
- If FLOW is non-`nil', then XEmacs uses XON/XOFF (`C-q', `C-s')
- flow control for output to the terminal. This has no effect except
- in CBREAK mode. *Note Flow Control::.
-
- The default setting is system dependent. Some systems always use
- CBREAK mode regardless of what is specified.
-
- The argument META controls support for input character codes above
- 127. If META is `t', XEmacs converts characters with the 8th bit
- set into Meta characters. If META is `nil', XEmacs disregards the
- 8th bit; this is necessary when the terminal uses it as a parity
- bit. If META is neither `t' nor `nil', XEmacs uses all 8 bits of
- input unchanged. This is good for terminals using European 8-bit
- character sets.
-
- If QUIT-CHAR is non-`nil', it specifies the character to use for
- quitting. Normally this character is `C-g'. *Note Quitting::.
-
- The `current-input-mode' function returns the input mode settings
-XEmacs is currently using.
-
- - Function: current-input-mode
- This function returns current mode for reading keyboard input. It
- returns a list, corresponding to the arguments of `set-input-mode',
- of the form `(INTERRUPT FLOW META QUIT)' in which:
- INTERRUPT
- is non-`nil' when XEmacs is using interrupt-driven input. If
- `nil', Emacs is using CBREAK mode.
-
- FLOW
- is non-`nil' if XEmacs uses XON/XOFF (`C-q', `C-s') flow
- control for output to the terminal. This value has no effect
- unless INTERRUPT is non-`nil'.
-
- META
- is `t' if XEmacs treats the eighth bit of input characters as
- the meta bit; `nil' means XEmacs clears the eighth bit of
- every input character; any other value means XEmacs uses all
- eight bits as the basic character code.
-
- QUIT
- is the character XEmacs currently uses for quitting, usually
- `C-g'.
+File: lispref.info, Node: Sentinels, Next: Process Window Size, Prev: Output from Processes, Up: Processes
+
+Sentinels: Detecting Process Status Changes
+===========================================
+
+ A "process sentinel" is a function that is called whenever the
+associated process changes status for any reason, including signals
+(whether sent by XEmacs or caused by the process's own actions) that
+terminate, stop, or continue the process. The process sentinel is also
+called if the process exits. The sentinel receives two arguments: the
+process for which the event occurred, and a string describing the type
+of event.
+
+ The string describing the event looks like one of the following:
+
+ * `"finished\n"'.
+
+ * `"exited abnormally with code EXITCODE\n"'.
+
+ * `"NAME-OF-SIGNAL\n"'.
+
+ * `"NAME-OF-SIGNAL (core dumped)\n"'.
+
+ A sentinel runs only while XEmacs 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 `sit-for' or `sleep-for' (*note
+Waiting::), or `accept-process-output' (*note Accepting Output::).
+Emacs is also waiting when the command loop is reading input.
+
+ Quitting is normally inhibited within a sentinel--otherwise, the
+effect of typing `C-g' at command level or to quit a user command would
+be unpredictable. If you want to permit quitting inside a sentinel,
+bind `inhibit-quit' to `nil'. *Note Quitting::.
+
+ 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,
+`(buffer-name (process-buffer PROCESS))' returns `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
+`debug-on-error' is non-`nil', the error-catching is turned off. This
+makes it possible to use the Lisp debugger to debug the sentinel.
+*Note Debugger::.
+
+ In earlier Emacs versions, every sentinel that did regexp searching
+or matching had to explicitly save and restore the match data. Now
+Emacs does this automatically; sentinels never need to do it explicitly.
+*Note Match Data::.
+
+ - Function: set-process-sentinel process sentinel
+ This function associates SENTINEL with PROCESS. If SENTINEL is
+ `nil', then the process will have no sentinel. The default
+ behavior when there is no sentinel is to insert a message in the
+ process's buffer when the process status changes.
+
+ (defun msg-me (process event)
+ (princ
+ (format "Process: %s had the event `%s'" process event)))
+ (set-process-sentinel (get-process "shell") 'msg-me)
+ => msg-me
+ (kill-process (get-process "shell"))
+ -| Process: #<process shell> had the event `killed'
+ => #<process shell>
+
+ - Function: process-sentinel process
+ This function returns the sentinel of PROCESS, or `nil' if it has
+ none.
+
+ - Function: waiting-for-user-input-p
+ While a sentinel or filter function is running, this function
+ returns non-`nil' if XEmacs was waiting for keyboard input from
+ the user at the time the sentinel or filter function was called,
+ `nil' if it was not.
\1f
-File: lispref.info, Node: Translating Input, Next: Recording Input, Prev: Input Modes, Up: Terminal Input
+File: lispref.info, Node: Process Window Size, Next: Transaction Queues, Prev: Sentinels, Up: Processes
-Translating Input Events
-------------------------
+Process Window Size
+===================
- This section describes features for translating input events into
-other input events before they become part of key sequences.
-
- - Variable: function-key-map
- This variable holds a keymap that describes the character sequences
- sent by function keys on an ordinary character terminal. This
- keymap uses the same data structure as other keymaps, but is used
- differently: it specifies translations to make while reading
- events.
-
- If `function-key-map' "binds" a key sequence K to a vector V, then
- when K appears as a subsequence _anywhere_ in a key sequence, it
- is replaced with the events in V.
-
- For example, VT100 terminals send `<ESC> O P' when the keypad PF1
- key is pressed. Therefore, we want XEmacs to translate that
- sequence of events into the single event `pf1'. We accomplish
- this by "binding" `<ESC> O P' to `[pf1]' in `function-key-map',
- when using a VT100.
-
- Thus, typing `C-c <PF1>' sends the character sequence `C-c <ESC> O
- P'; later the function `read-key-sequence' translates this back
- into `C-c <PF1>', which it returns as the vector `[?\C-c pf1]'.
-
- Entries in `function-key-map' are ignored if they conflict with
- bindings made in the minor mode, local, or global keymaps. The
- intent is that the character sequences that function keys send
- should not have command bindings in their own right.
-
- The value of `function-key-map' is usually set up automatically
- according to the terminal's Terminfo or Termcap entry, but
- sometimes those need help from terminal-specific Lisp files.
- XEmacs comes with terminal-specific files for many common
- terminals; their main purpose is to make entries in
- `function-key-map' beyond those that can be deduced from Termcap
- and Terminfo. *Note Terminal-Specific::.
-
- Emacs versions 18 and earlier used totally different means of
- detecting the character sequences that represent function keys.
-
- - Variable: key-translation-map
- This variable is another keymap used just like `function-key-map'
- to translate input events into other events. It differs from
- `function-key-map' in two ways:
-
- * `key-translation-map' goes to work after `function-key-map' is
- finished; it receives the results of translation by
- `function-key-map'.
-
- * `key-translation-map' overrides actual key bindings.
-
- The intent of `key-translation-map' is for users to map one
- character set to another, including ordinary characters normally
- bound to `self-insert-command'.
-
- You can use `function-key-map' or `key-translation-map' for more
-than simple aliases, by using a function, instead of a key sequence, as
-the "translation" of a key. Then this function is called to compute
-the translation of that key.
-
- The key translation function receives one argument, which is the
-prompt that was specified in `read-key-sequence'--or `nil' if the key
-sequence is being read by the editor command loop. In most cases you
-can ignore the prompt value.
-
- If the function reads input itself, it can have the effect of
-altering the event that follows. For example, here's how to define
-`C-c h' to turn the character that follows into a Hyper character:
-
- (defun hyperify (prompt)
- (let ((e (read-event)))
- (vector (if (numberp e)
- (logior (lsh 1 20) e)
- (if (memq 'hyper (event-modifiers e))
- e
- (add-event-modifier "H-" e))))))
-
- (defun add-event-modifier (string e)
- (let ((symbol (if (symbolp e) e (car e))))
- (setq symbol (intern (concat string
- (symbol-name symbol))))
- (if (symbolp e)
- symbol
- (cons symbol (cdr e)))))
-
- (define-key function-key-map "\C-ch" 'hyperify)
-
- The `iso-transl' library uses this feature to provide a way of
-inputting non-ASCII Latin-1 characters.
+ - Function: set-process-window-size process height width
+ This function tells PROCESS that its logical window size is HEIGHT
+ by WIDTH characters. This is principally useful with pty's.
\1f
-File: lispref.info, Node: Recording Input, Prev: Translating Input, Up: Terminal Input
-
-Recording Input
----------------
+File: lispref.info, Node: Transaction Queues, Next: Network, Prev: Process Window Size, Up: Processes
- - Function: recent-keys &optional number
- This function returns a vector containing recent input events from
- the keyboard or mouse. By default, 100 events are recorded, which
- is how many `recent-keys' returns.
+Transaction Queues
+==================
- All input events are included, whether or not they were used as
- parts of key sequences. Thus, you always get the last 100 inputs,
- not counting keyboard macros. (Events from keyboard macros are
- excluded because they are less interesting for debugging; it
- should be enough to see the events that invoked the macros.)
+ You can use a "transaction queue" for more convenient communication
+with subprocesses using transactions. First use `tq-create' to create
+a transaction queue communicating with a specified process. Then you
+can call `tq-enqueue' to send a transaction.
- If NUMBER is specified, not more than NUMBER events will be
- returned. You may change the number of stored events using
- `set-recent-keys-ring-size'.
+ - Function: tq-create process
+ This function creates and returns a transaction queue
+ communicating with PROCESS. The argument 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.
- - Function: recent-keys-ring-size
- This function returns the number of recent events stored
- internally. This is also the maximum number of events
- `recent-keys' can return. By default, 100 events are stored.
+ - Function: tq-enqueue queue question regexp closure fn
+ This function sends a transaction to queue QUEUE. Specifying the
+ queue has the effect of specifying the subprocess to talk to.
- - Function: set-recent-keys-ring-size size
- This function changes the number of events stored by XEmacs and
- returned by `recent-keys'.
+ The argument QUESTION is the outgoing message that starts the
+ transaction. The argument FN is the function to call when the
+ corresponding answer comes back; it is called with two arguments:
+ CLOSURE, and the answer received.
- For example, `(set-recent-keys-ring-size 250)' will make XEmacs
- remember last 250 events and will make `recent-keys' return last
- 250 events by default.
+ The argument REGEXP is a regular expression that should match the
+ entire answer, but nothing less; that's how `tq-enqueue' determines
+ where the answer ends.
- - Command: open-dribble-file filename
- This function opens a "dribble file" named FILENAME. When a
- dribble file is open, each input event from the keyboard or mouse
- (but not those from keyboard macros) is written in that file. A
- non-character event is expressed using its printed representation
- surrounded by `<...>'.
+ The return value of `tq-enqueue' itself is not meaningful.
- You close the dribble file by calling this function with an
- argument of `nil'.
+ - Function: tq-close queue
+ Shut down transaction queue QUEUE, waiting for all pending
+ transactions to complete, and then terminate the connection or
+ child process.
- This function is normally used to record the input necessary to
- trigger an XEmacs bug, for the sake of a bug report.
-
- (open-dribble-file "~/dribble")
- => nil
-
- See also the `open-termscript' function (*note Terminal Output::).
+ Transaction queues are implemented by means of a filter function.
+*Note Filter Functions::.
\1f
-File: lispref.info, Node: Terminal Output, Next: Flow Control, Prev: Terminal Input, Up: System Interface
-
-Terminal Output
-===============
-
- The terminal output functions send output to the terminal or keep
-track of output sent to the terminal. The function `device-baud-rate'
-tells you what XEmacs thinks is the output speed of the terminal.
-
- - Function: device-baud-rate &optional device
- This function's value is the output speed of the terminal
- associated with DEVICE, as far as XEmacs knows. DEVICE defaults
- to the selected device (usually the only device) if omitted.
- Changing this value does not change the speed of actual data
- transmission, but the value is used for calculations such as
- padding. This value has no effect for window-system devices.
- (This is different in FSF Emacs, where the baud rate also affects
- decisions about whether to scroll part of the screen or repaint,
- even when using a window system.)
-
- The value is measured in bits per second.
-
- XEmacs attempts to automatically initialize the baud rate by querying
-the terminal. If you are running across a network, however, and
-different parts of the network work are at different baud rates, the
-value returned by XEmacs may be different from the value used by your
-local terminal. Some network protocols communicate the local terminal
-speed to the remote machine, so that XEmacs and other programs can get
-the proper value, but others do not. If XEmacs has the wrong value, it
-makes decisions that are less than optimal. To fix the problem, use
-`set-device-baud-rate'.
-
- - Function: set-device-baud-rate &optional device
- This function sets the output speed of DEVICE. See
- `device-baud-rate'. DEVICE defaults to the selected device
- (usually the only device) if omitted.
-
- - Function: send-string-to-terminal char-or-string &optional stdout-p
- device
- This function sends CHAR-OR-STRING to the terminal without
- alteration. Control characters in CHAR-OR-STRING have
- terminal-dependent effects.
-
- If DEVICE is `nil', this function writes to XEmacs's stderr, or to
- stdout if STDOUT-P is non-`nil'. Otherwise, DEVICE should be a
- tty or stream device, and the function writes to the device's
- normal or error output, according to STDOUT-P.
-
- One use of this function is to define function keys on terminals
- that have downloadable function key definitions. For example,
- this is how on certain terminals to define function key 4 to move
- forward four characters (by transmitting the characters `C-u C-f'
- to the computer):
-
- (send-string-to-terminal "\eF4\^U\^F")
- => nil
+File: lispref.info, Node: Network, Prev: Transaction Queues, Up: Processes
+
+Network Connections
+===================
+
+ XEmacs 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 XEmacs process, so you can't kill it or send it signals.
+All you can do is send and receive data. `delete-process' closes the
+connection, but does not kill the process at the other end; 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 `process-status'
+function. It always returns either `open' or `closed' for a network
+connection, and it never returns either of those values for a real
+subprocess. *Note Process Information::.
+
+ - Function: open-network-stream name buffer-or-name host service
+ &optional protocol
+ This function opens a TCP connection for a service to a host. It
+ returns a process object to represent the connection.
+
+ Input and output work as for other process objects.
+ `delete-process' closes the connection.
+
+ The NAME argument specifies the name for the process object. It
+ is modified as necessary to make it unique.
+
+ The BUFFER-OR-NAME argument is the buffer to associate with the
+ connection. It can be a buffer or the name of one. Output from
+ the connection is inserted in the buffer, unless you specify a
+ filter function to handle the output. If BUFFER-OR-NAME is `nil',
+ it means that the connection is not associated with any buffer.
+
+ The arguments HOST and SERVICE specify where to connect to; HOST
+ is the host name or IP address (a string), and SERVICE is the name
+ of a defined network service (a string) or a port number (an
+ integer).
+
+ Optional fifth arg PROTOCOL is the network protocol to use.
+ Currently only `tcp' (Transmission Control Protocol) and `udp'
+ (User Datagram Protocol) are supported. When omitted, `tcp' is
+ assumed.
+
+ Output via `process-send-string' and input via buffer or filter
+ (see `set-process-filter') are stream-oriented. That means UDP
+ datagrams are not guaranteed to be sent and received in discrete
+ packets. (But small datagrams around 500 bytes that are not
+ truncated by `process-send-string' are usually fine.) Note further
+ that the UDP protocol does not guard against lost packets.
- - Command: open-termscript filename
- This function is used to open a "termscript file" that will record
- all the characters sent by XEmacs to the terminal. (If there are
- multiple tty or stream devices, all characters sent to all such
- devices are recorded.) The function returns `nil'. Termscript
- files are useful for investigating problems where XEmacs garbles
- the screen, problems that are due to incorrect Termcap entries or
- to undesirable settings of terminal options more often than to
- actual XEmacs bugs. Once you are certain which characters were
- actually output, you can determine reliably whether they
- correspond to the Termcap specifications in use.
-
- A `nil' value for FILENAME stops recording terminal output.
+\1f
+File: lispref.info, Node: System Interface, Next: X-Windows, Prev: Processes, Up: Top
- See also `open-dribble-file' in *Note Terminal Input::.
+Operating System Interface
+**************************
- (open-termscript "../junk/termscript")
- => nil
+ This chapter is about starting and getting out of Emacs, access to
+values in the operating system environment, and terminal input, output,
+and flow control.
-\1f
-File: lispref.info, Node: Flow Control, Next: Batch Mode, Prev: Terminal Output, Up: System Interface
-
-Flow Control
-============
-
- This section attempts to answer the question "Why does XEmacs choose
-to use flow-control characters in its command character set?" For a
-second view on this issue, read the comments on flow control in the
-`emacs/INSTALL' file from the distribution; for help with Termcap
-entries and DEC terminal concentrators, see `emacs/etc/TERMS'.
-
- At one time, most terminals did not need flow control, and none used
-`C-s' and `C-q' for flow control. Therefore, the choice of `C-s' and
-`C-q' as command characters was uncontroversial. XEmacs, for economy
-of keystrokes and portability, used nearly all the ASCII control
-characters, with mnemonic meanings when possible; thus, `C-s' for
-search and `C-q' for quote.
-
- Later, some terminals were introduced which required these characters
-for flow control. They were not very good terminals for full-screen
-editing, so XEmacs maintainers did not pay attention. In later years,
-flow control with `C-s' and `C-q' became widespread among terminals,
-but by this time it was usually an option. And the majority of users,
-who can turn flow control off, were unwilling to switch to less
-mnemonic key bindings for the sake of flow control.
-
- So which usage is "right", XEmacs's or that of some terminal and
-concentrator manufacturers? This question has no simple answer.
-
- One reason why we are reluctant to cater to the problems caused by
-`C-s' and `C-q' is that they are gratuitous. There are other
-techniques (albeit less common in practice) for flow control that
-preserve transparency of the character stream. Note also that their use
-for flow control is not an official standard. Interestingly, on the
-model 33 teletype with a paper tape punch (which is very old), `C-s'
-and `C-q' were sent by the computer to turn the punch on and off!
-
- As X servers and other window systems replace character-only
-terminals, this problem is gradually being cured. For the mean time,
-XEmacs provides a convenient way of enabling flow control if you want
-it: call the function `enable-flow-control'.
-
- - Function: enable-flow-control
- This function enables use of `C-s' and `C-q' for output flow
- control, and provides the characters `C-\' and `C-^' as aliases
- for them using `keyboard-translate-table' (*note Translating
- Input::).
-
- You can use the function `enable-flow-control-on' in your `.emacs'
-file to enable flow control automatically on certain terminal types.
-
- - Function: enable-flow-control-on &rest termtypes
- This function enables flow control, and the aliases `C-\' and
- `C-^', if the terminal type is one of TERMTYPES. For example:
-
- (enable-flow-control-on "vt200" "vt300" "vt101" "vt131")
-
- Here is how `enable-flow-control' does its job:
-
- 1. It sets CBREAK mode for terminal input, and tells the operating
- system to handle flow control, with `(set-input-mode nil t)'.
-
- 2. It sets up `keyboard-translate-table' to translate `C-\' and `C-^'
- into `C-s' and `C-q'. Except at its very lowest level, XEmacs
- never knows that the characters typed were anything but `C-s' and
- `C-q', so you can in effect type them as `C-\' and `C-^' even when
- they are input for other commands. *Note Translating Input::.
-
- If the terminal is the source of the flow control characters, then
-once you enable kernel flow control handling, you probably can make do
-with less padding than normal for that terminal. You can reduce the
-amount of padding by customizing the Termcap entry. You can also
-reduce it by setting `baud-rate' to a smaller value so that XEmacs uses
-a smaller speed when calculating the padding needed. *Note Terminal
-Output::.
+ *Note Building XEmacs::, for related information. See also *Note
+Display::, for additional operating system status information
+pertaining to the terminal and the screen.
-\1f
-File: lispref.info, Node: Batch Mode, Prev: Flow Control, Up: System Interface
-
-Batch Mode
-==========
-
- The command line option `-batch' causes XEmacs to run
-noninteractively. In this mode, XEmacs does not read commands from the
-terminal, it does not alter the terminal modes, and it does not expect
-to be outputting to an erasable screen. The idea is that you specify
-Lisp programs to run; when they are finished, XEmacs should exit. The
-way to specify the programs to run is with `-l FILE', which loads the
-library named FILE, and `-f FUNCTION', which calls FUNCTION with no
-arguments.
-
- Any Lisp program output that would normally go to the echo area,
-either using `message' or using `prin1', etc., with `t' as the stream,
-goes instead to XEmacs's standard error descriptor when in batch mode.
-Thus, XEmacs behaves much like a noninteractive application program.
-(The echo area output that XEmacs itself normally generates, such as
-command echoing, is suppressed entirely.)
-
- - Function: noninteractive
- This function returns non-`nil' when XEmacs is running in batch
- mode.
+* Menu:
- - Variable: noninteractive
- This variable is non-`nil' when XEmacs is running in batch mode.
- Setting this variable to `nil', however, will not change whether
- XEmacs is running in batch mode, and will not change the return
- value of the `noninteractive' function.
+* Starting Up:: Customizing XEmacs start-up processing.
+* Getting Out:: How exiting works (permanent or temporary).
+* System Environment:: Distinguish the name and kind of system.
+* User Identification:: Finding the name and user id of the user.
+* Time of Day:: Getting the current time.
+* Time Conversion:: Converting a time from numeric form to a string, or
+ to calendrical data (or vice versa).
+* Timers:: Setting a timer to call a function at a certain time.
+* Terminal Input:: Recording terminal input for debugging.
+* Terminal Output:: Recording terminal output for debugging.
+* Flow Control:: How to turn output flow control on or off.
+* Batch Mode:: Running XEmacs without terminal interaction.
\1f
-File: lispref.info, Node: X-Windows, Next: ToolTalk Support, Prev: System Interface, Up: Top
+File: lispref.info, Node: Starting Up, Next: Getting Out, Up: System Interface
-Functions Specific to the X Window System
-*****************************************
+Starting Up XEmacs
+==================
- XEmacs provides the concept of "devices", which generalizes
-connections to an X server, a TTY device, etc. Most information about
-an X server that XEmacs is connected to can be determined through
-general console and device functions. *Note Consoles and Devices::.
-However, there are some features of the X Window System that do not
-generalize well, and they are covered specially here.
+ This section describes what XEmacs does when it is started, and how
+you can customize these actions.
* Menu:
-* X Selections:: Transferring text to and from other X clients.
-* X Server:: Information about the X server connected to
- a particular device.
-* X Miscellaneous:: Other X-specific functions and variables.
+* Start-up Summary:: Sequence of actions XEmacs performs at start-up.
+* Init File:: Details on reading the init file (`.emacs').
+* Terminal-Specific:: How the terminal-specific Lisp file is read.
+* Command Line Arguments:: How command line arguments are processed,
+ and how you can customize them.
\1f
-File: lispref.info, Node: X Selections, Next: X Server, Up: X-Windows
-
-X Selections
-============
-
- The X server records a set of "selections" which permit transfer of
-data between application programs. The various selections are
-distinguished by "selection types", represented in XEmacs by symbols.
-X clients including XEmacs can read or set the selection for any given
-type.
-
- - Function: x-own-selection data &optional type
- This function sets a "selection" in the X server. It takes two
- arguments: a value, DATA, and the selection type TYPE to assign it
- to. DATA may be a string, a cons of two markers, or an extent.
- In the latter cases, the selection is considered to be the text
- between the markers, or between the extent's endpoints.
-
- Each possible TYPE has its own selection value, which changes
- independently. The usual values of TYPE are `PRIMARY' and
- `SECONDARY'; these are symbols with upper-case names, in accord
- with X Windows conventions. The default is `PRIMARY'.
-
- (In FSF Emacs, this function is called `x-set-selection' and takes
- different arguments.)
-
- - Function: x-get-selection
- This function accesses selections set up by XEmacs or by other X
- clients. It returns the value of the current primary selection.
-
- - Function: x-disown-selection &optional secondary-p
- Assuming we own the selection, this function disowns it. If
- SECONDARY-P is non-`nil', the secondary selection instead of the
- primary selection is discarded.
-
- The X server also has a set of numbered "cut buffers" which can
-store text or other data being moved between applications. Cut buffers
-are considered obsolete, but XEmacs supports them for the sake of X
-clients that still use them.
-
- - Function: x-get-cutbuffer &optional n
- This function returns the contents of cut buffer number N. (This
- function is called `x-get-cut-buffer' in FSF Emacs.)
-
- - Function: x-store-cutbuffer string
- This function stores STRING into the first cut buffer (cut buffer
- 0), moving the other values down through the series of cut buffers,
- kill-ring-style. (This function is called `x-set-cut-buffer' in FSF
- Emacs.)
+File: lispref.info, Node: Start-up Summary, Next: Init File, Up: Starting Up
-\1f
-File: lispref.info, Node: X Server, Next: X Miscellaneous, Prev: X Selections, Up: X-Windows
+Summary: Sequence of Actions at Start Up
+----------------------------------------
-X Server
-========
+ The order of operations performed (in `startup.el') by XEmacs when
+it is started up is as follows:
- This section describes how to access and change the overall status of
-the X server XEmacs is using.
+ 1. It loads the initialization library for the window system, if you
+ are using a window system. This library's name is
+ `term/WINDOWSYSTEM-win.el'.
-* Menu:
+ 2. It processes the initial options. (Some of them are handled even
+ earlier than this.)
-* Resources:: Getting resource values from the server.
-* Server Data:: Getting info about the X server.
-* Grabs:: Restricting access to the server by other apps.
+ 3. It initializes the X window frame and faces, if appropriate.
-\1f
-File: lispref.info, Node: Resources, Next: Server Data, Up: X Server
+ 4. It runs the normal hook `before-init-hook'.
-Resources
----------
+ 5. It loads the library `site-start', unless the option
+ `-no-site-file' was specified. The library's file name is usually
+ `site-start.el'.
- - Function: default-x-device
- This function return the default X device for resourcing. This is
- the first-created X device that still exists.
+ 6. It loads the file `~/.emacs' unless `-q' was specified on the
+ command line. (This is not done in `-batch' mode.) The `-u'
+ option can specify the user name whose home directory should be
+ used instead of `~'.
- - Function: x-get-resource name class type &optional locale device
- noerror
- This function retrieves a resource value from the X resource
- manager.
+ 7. It loads the library `default' unless `inhibit-default-init' is
+ non-`nil'. (This is not done in `-batch' mode or if `-q' was
+ specified on the command line.) The library's file name is
+ usually `default.el'.
- * The first arg is the name of the resource to retrieve, such as
- `"font"'.
+ 8. It runs the normal hook `after-init-hook'.
- * The second arg is the class of the resource to retrieve, like
- `"Font"'.
+ 9. It sets the major mode according to `initial-major-mode', provided
+ the buffer `*scratch*' is still current and still in Fundamental
+ mode.
- * The third arg should be one of the symbols `string',
- `integer', `natnum', or `boolean', specifying the type of
- object that the database is searched for.
+ 10. It loads the terminal-specific Lisp file, if any, except when in
+ batch mode or using a window system.
- * The fourth arg is the locale to search for the resources on,
- and can currently be a a buffer, a frame, a device, or the
- symbol `global'. If omitted, it defaults to `global'.
+ 11. It displays the initial echo area message, unless you have
+ suppressed that with `inhibit-startup-echo-area-message'.
- * The fifth arg is the device to search for the resources on.
- (The resource database for a particular device is constructed
- by combining non-device- specific resources such any
- command-line resources specified and any app-defaults files
- found [or the fallback resources supplied by XEmacs, if no
- app-defaults file is found] with device-specific resources
- such as those supplied using `xrdb'.) If omitted, it defaults
- to the device of LOCALE, if a device can be derived (i.e. if
- LOCALE is a frame or device), and otherwise defaults to the
- value of `default-x-device'.
+ 12. It processes the action arguments from the command line.
- * The sixth arg NOERROR, if non-`nil', means do not signal an
- error if a bogus resource specification was retrieved (e.g.
- if a non-integer was given when an integer was requested).
- In this case, a warning is issued instead.
+ 13. It runs `term-setup-hook'.
- The resource names passed to this function are looked up relative
- to the locale.
+ 14. It calls `frame-notice-user-settings', which modifies the
+ parameters of the selected frame according to whatever the init
+ files specify.
- If you want to search for a subresource, you just need to specify
- the resource levels in NAME and CLASS. For example, NAME could be
- `"modeline.attributeFont"', and CLASS `"Face.AttributeFont"'.
+ 15. It runs `window-setup-hook'. *Note Terminal-Specific::.
- Specifically,
+ 16. It displays copyleft, nonwarranty, and basic use information,
+ provided there were no remaining command line arguments (a few
+ steps above) and the value of `inhibit-startup-message' is `nil'.
- 1. If LOCALE is a buffer, a call
+ - User Option: inhibit-startup-message
+ This variable inhibits the initial startup messages (the
+ nonwarranty, etc.). If it is non-`nil', then the messages are not
+ printed.
- `(x-get-resource "foreground" "Foreground" 'string SOME-BUFFER)'
+ This variable exists so you can set it in your personal init file,
+ once you are familiar with the contents of the startup message.
+ Do not set this variable in the init file of a new user, or in a
+ way that affects more than one user, because that would prevent
+ new users from receiving the information they are supposed to see.
- is an interface to a C call something like
+ - User Option: inhibit-startup-echo-area-message
+ This variable controls the display of the startup echo area
+ message. You can suppress the startup echo area message by adding
+ text with this form to your `.emacs' file:
- `XrmGetResource (db, "xemacs.buffer.BUFFER-NAME.foreground",
- "Emacs.EmacsLocaleType.EmacsBuffer.Foreground",
- "String");'
+ (setq inhibit-startup-echo-area-message
+ "YOUR-LOGIN-NAME")
- 2. If LOCALE is a frame, a call
+ Simply setting `inhibit-startup-echo-area-message' to your login
+ name is not sufficient to inhibit the message; Emacs explicitly
+ checks whether `.emacs' contains an expression as shown above.
+ Your login name must appear in the expression as a Lisp string
+ constant.
- `(x-get-resource "foreground" "Foreground" 'string SOME-FRAME)'
+ This way, you can easily inhibit the message for yourself if you
+ wish, but thoughtless copying of your `.emacs' file will not
+ inhibit the message for someone else.
- is an interface to a C call something like
+\1f
+File: lispref.info, Node: Init File, Next: Terminal-Specific, Prev: Start-up Summary, Up: Starting Up
- `XrmGetResource (db, "xemacs.frame.FRAME-NAME.foreground",
- "Emacs.EmacsLocaleType.EmacsFrame.Foreground",
- "String");'
+The Init File: `.emacs'
+-----------------------
- 3. If LOCALE is a device, a call
+ When you start XEmacs, it normally attempts to load the file
+`.emacs' from your home directory. This file, if it exists, must
+contain Lisp code. It is called your "init file". The command line
+switches `-q' and `-u' affect the use of the init file; `-q' says not
+to load an init file, and `-u' says to load a specified user's init
+file instead of yours. *Note Entering XEmacs: (xemacs)Entering XEmacs.
+
+ A site may have a "default init file", which is the library named
+`default.el'. XEmacs finds the `default.el' file through the standard
+search path for libraries (*note How Programs Do Loading::). The
+XEmacs distribution does not come with this file; sites may provide one
+for local customizations. If the default init file exists, it is
+loaded whenever you start Emacs, except in batch mode or if `-q' is
+specified. But your own personal init file, if any, is loaded first; if
+it sets `inhibit-default-init' to a non-`nil' value, then XEmacs does
+not subsequently load the `default.el' file.
+
+ Another file for site-customization is `site-start.el'. Emacs loads
+this _before_ the user's init file. You can inhibit the loading of
+this file with the option `-no-site-file'.
+
+ - Variable: site-run-file
+ This variable specifies the site-customization file to load before
+ the user's init file. Its normal value is `"site-start"'.
+
+ If there is a great deal of code in your `.emacs' file, you should
+move it into another file named `SOMETHING.el', byte-compile it (*note
+Byte Compilation::), and make your `.emacs' file load the other file
+using `load' (*note Loading::).
+
+ *Note Init File Examples: (xemacs)Init File Examples, for examples
+of how to make various commonly desired customizations in your `.emacs'
+file.
+
+ - User Option: inhibit-default-init
+ This variable prevents XEmacs from loading the default
+ initialization library file for your session of XEmacs. If its
+ value is non-`nil', then the default library is not loaded. The
+ default value is `nil'.
+
+ - Variable: before-init-hook
+ - Variable: after-init-hook
+ These two normal hooks are run just before, and just after,
+ loading of the user's init file, `default.el', and/or
+ `site-start.el'.
- `(x-get-resource "foreground" "Foreground" 'string SOME-DEVICE)'
+\1f
+File: lispref.info, Node: Terminal-Specific, Next: Command Line Arguments, Prev: Init File, Up: Starting Up
+
+Terminal-Specific Initialization
+--------------------------------
+
+ Each terminal type can have its own Lisp library that XEmacs loads
+when run on that type of terminal. For a terminal type named TERMTYPE,
+the library is called `term/TERMTYPE'. XEmacs finds the file by
+searching the `load-path' directories as it does for other files, and
+trying the `.elc' and `.el' suffixes. Normally, terminal-specific Lisp
+library is located in `emacs/lisp/term', a subdirectory of the
+`emacs/lisp' directory in which most XEmacs Lisp libraries are kept.
+
+ The library's name is constructed by concatenating the value of the
+variable `term-file-prefix' and the terminal type. Normally,
+`term-file-prefix' has the value `"term/"'; changing this is not
+recommended.
+
+ The usual function of a terminal-specific library is to enable
+special keys to send sequences that XEmacs can recognize. It may also
+need to set or add to `function-key-map' if the Termcap entry does not
+specify all the terminal's function keys. *Note Terminal Input::.
+
+ When the name of the terminal type contains a hyphen, only the part
+of the name before the first hyphen is significant in choosing the
+library name. Thus, terminal types `aaa-48' and `aaa-30-rv' both use
+the `term/aaa' library. If necessary, the library can evaluate
+`(getenv "TERM")' to find the full name of the terminal type.
+
+ Your `.emacs' file can prevent the loading of the terminal-specific
+library by setting the variable `term-file-prefix' to `nil'. This
+feature is useful when experimenting with your own peculiar
+customizations.
+
+ You can also arrange to override some of the actions of the
+terminal-specific library by setting the variable `term-setup-hook'.
+This is a normal hook which XEmacs runs using `run-hooks' at the end of
+XEmacs initialization, after loading both your `.emacs' file and any
+terminal-specific libraries. You can use this variable to define
+initializations for terminals that do not have their own libraries.
+*Note Hooks::.
+
+ - Variable: term-file-prefix
+ If the `term-file-prefix' variable is non-`nil', XEmacs loads a
+ terminal-specific initialization file as follows:
+
+ (load (concat term-file-prefix (getenv "TERM")))
+
+ You may set the `term-file-prefix' variable to `nil' in your
+ `.emacs' file if you do not wish to load the
+ terminal-initialization file. To do this, put the following in
+ your `.emacs' file: `(setq term-file-prefix nil)'.
+
+ - Variable: term-setup-hook
+ This variable is a normal hook that XEmacs runs after loading your
+ `.emacs' file, the default initialization file (if any) and the
+ terminal-specific Lisp file.
+
+ You can use `term-setup-hook' to override the definitions made by a
+ terminal-specific file.
+
+ - Variable: window-setup-hook
+ This variable is a normal hook which XEmacs runs after loading your
+ `.emacs' file and the default initialization file (if any), after
+ loading terminal-specific Lisp code, and after running the hook
+ `term-setup-hook'.
- is an interface to a C call something like
+\1f
+File: lispref.info, Node: Command Line Arguments, Prev: Terminal-Specific, Up: Starting Up
- `XrmGetResource (db, "xemacs.device.DEVICE-NAME.foreground",
- "Emacs.EmacsLocaleType.EmacsDevice.Foreground",
- "String");'
+Command Line Arguments
+----------------------
- 4. If LOCALE is the symbol `global', a call
+ You can use command line arguments to request various actions when
+you start XEmacs. Since you do not need to start XEmacs more than once
+per day, and will often leave your XEmacs session running longer than
+that, command line arguments are hardly ever used. As a practical
+matter, it is best to avoid making the habit of using them, since this
+habit would encourage you to kill and restart XEmacs unnecessarily
+often. These options exist for two reasons: to be compatible with
+other editors (for invocation by other programs) and to enable shell
+scripts to run specific Lisp programs.
- `(x-get-resource "foreground" "Foreground" 'string 'global)'
+ This section describes how Emacs processes command line arguments,
+and how you can customize them.
- is an interface to a C call something like
+ - Function: command-line
+ This function parses the command line that XEmacs was called with,
+ processes it, loads the user's `.emacs' file and displays the
+ startup messages.
- `XrmGetResource (db, "xemacs.foreground",
- "Emacs.Foreground",
- "String");'
+ - Variable: command-line-processed
+ The value of this variable is `t' once the command line has been
+ processed.
- Note that for `global', no prefix is added other than that of the
- application itself; thus, you can use this locale to retrieve
- arbitrary application resources, if you really want to.
+ If you redump XEmacs by calling `dump-emacs', you may wish to set
+ this variable to `nil' first in order to cause the new dumped
+ XEmacs to process its new command line arguments.
- The returned value of this function is `nil' if the queried
- resource is not found. If TYPE is `string', a string is returned,
- and if it is `integer', an integer is returned. If TYPE is
- `boolean', then the returned value is the list `(t)' for true,
- `(nil)' for false, and is `nil' to mean "unspecified".
+ - Variable: command-switch-alist
+ The value of this variable is an alist of user-defined command-line
+ options and associated handler functions. This variable exists so
+ you can add elements to it.
- - Function: x-put-resource resource-line &optional device
- This function adds a resource to the resource database for DEVICE.
- RESOURCE-LINE specifies the resource to add and should be a
- standard resource specification.
+ A "command line option" is an argument on the command line of the
+ form:
- - Variable: x-emacs-application-class
- This variable holds The X application class of the XEmacs process.
- This controls, among other things, the name of the "app-defaults"
- file that XEmacs will use. For changes to this variable to take
- effect, they must be made before the connection to the X server is
- initialized, that is, this variable may only be changed before
- XEmacs is dumped, or by setting it in the file
- `lisp/term/x-win.el'.
+ -OPTION
- By default, this variable is nil at startup. When the connection
- to the X server is first initialized, the X resource database will
- be consulted and the value will be set according to whether any
- resources are found for the application class "XEmacs".
+ The elements of the `command-switch-alist' look like this:
-\1f
-File: lispref.info, Node: Server Data, Next: Grabs, Prev: Resources, Up: X Server
+ (OPTION . HANDLER-FUNCTION)
-Data about the X Server
------------------------
+ The HANDLER-FUNCTION is called to handle OPTION and receives the
+ option name as its sole argument.
- This section describes functions and a variable that you can use to
-get information about the capabilities and origin of the X server
-corresponding to a particular device. The device argument is generally
-optional and defaults to the selected device.
+ In some cases, the option is followed in the command line by an
+ argument. In these cases, the HANDLER-FUNCTION can find all the
+ remaining command-line arguments in the variable
+ `command-line-args-left'. (The entire list of command-line
+ arguments is in `command-line-args'.)
- - Function: x-server-version &optional device
- This function returns the list of version numbers of the X server
- DEVICE is on. The returned value is a list of three integers: the
- major and minor version numbers of the X protocol in use, and the
- vendor-specific release number.
+ The command line arguments are parsed by the `command-line-1'
+ function in the `startup.el' file. See also *Note Command Line
+ Switches and Arguments: (xemacs)Command Switches.
- - Function: x-server-vendor &optional device
- This function returns the vendor supporting the X server DEVICE is
- on.
+ - Variable: command-line-args
+ The value of this variable is the list of command line arguments
+ passed to XEmacs.
- - Function: x-display-visual-class &optional device
- This function returns the visual class of the display DEVICE is
- on. The value is one of the symbols `static-gray', `gray-scale',
- `static-color', `pseudo-color', `true-color', and `direct-color'.
- (Note that this is different from previous versions of XEmacs,
- which returned `StaticGray', `GrayScale', etc.)
+ - Variable: command-line-functions
+ This variable's value is a list of functions for handling an
+ unrecognized command-line argument. Each time the next argument
+ to be processed has no special meaning, the functions in this list
+ are called, in order of appearance, until one of them returns a
+ non-`nil' value.
-\1f
-File: lispref.info, Node: Grabs, Prev: Server Data, Up: X Server
-
-Restricting Access to the Server by Other Apps
-----------------------------------------------
-
- - Function: x-grab-keyboard &optional device
- This function grabs the keyboard on the given device (defaulting
- to the selected one). So long as the keyboard is grabbed, all
- keyboard events will be delivered to XEmacs--it is not possible
- for other X clients to eavesdrop on them. Ungrab the keyboard
- with `x-ungrab-keyboard' (use an `unwind-protect'). Returns `t'
- if the grab was successful; `nil' otherwise.
-
- - Function: x-ungrab-keyboard &optional device
- This function releases a keyboard grab made with `x-grab-keyboard'.
-
- - Function: x-grab-pointer &optional device cursor ignore-keyboard
- This function grabs the pointer and restricts it to its current
- window. If optional DEVICE argument is `nil', the selected device
- will be used. If optional CURSOR argument is non-`nil', change
- the pointer shape to that until `x-ungrab-pointer' is called (it
- should be an object returned by the `make-cursor' function). If
- the second optional argument IGNORE-KEYBOARD is non-`nil', ignore
- all keyboard events during the grab. Returns `t' if the grab is
- successful, `nil' otherwise.
-
- - Function: x-ungrab-pointer &optional device
- This function releases a pointer grab made with `x-grab-pointer'.
- If optional first arg DEVICE is `nil' the selected device is used.
- If it is `t' the pointer will be released on all X devices.
+ These functions are called with no arguments. They can access the
+ command-line argument under consideration through the variable
+ `argi'. The remaining arguments (not including the current one)
+ are in the variable `command-line-args-left'.
-\1f
-File: lispref.info, Node: X Miscellaneous, Prev: X Server, Up: X-Windows
-
-Miscellaneous X Functions and Variables
-=======================================
-
- - Variable: x-bitmap-file-path
- This variable holds a list of the directories in which X bitmap
- files may be found. If `nil', this is initialized from the
- `"*bitmapFilePath"' resource. This is used by the
- `make-image-instance' function (however, note that if the
- environment variable `XBMLANGPATH' is set, it is consulted first).
-
- - Variable: x-library-search-path
- This variable holds the search path used by `read-color' to find
- `rgb.txt'.
-
- - Function: x-valid-keysym-name-p keysym
- This function returns true if KEYSYM names a keysym that the X
- library knows about. Valid keysyms are listed in the files
- `/usr/include/X11/keysymdef.h' and in `/usr/lib/X11/XKeysymDB', or
- whatever the equivalents are on your system.
-
- - Function: x-window-id &optional frame
- This function returns the ID of the X11 window. This gives us a
- chance to manipulate the Emacs window from within a different
- program. Since the ID is an unsigned long, we return it as a
- string.
-
- - Variable: x-allow-sendevents
- If non-`nil', synthetic events are allowed. `nil' means they are
- ignored. Beware: allowing XEmacs to process SendEvents opens a
- big security hole.
-
- - Function: x-debug-mode arg &optional device
- With a true arg, make the connection to the X server synchronous.
- With false, make it asynchronous. Synchronous connections are
- much slower, but are useful for debugging. (If you get X errors,
- make the connection synchronous, and use a debugger to set a
- breakpoint on `x_error_handler'. Your backtrace of the C stack
- will now be useful. In asynchronous mode, the stack above
- `x_error_handler' isn't helpful because of buffering.) If DEVICE
- is not specified, the selected device is assumed.
-
- Calling this function is the same as calling the C function
- `XSynchronize', or starting the program with the `-sync' command
- line argument.
-
- - Variable: x-debug-events
- If non-zero, debug information about events that XEmacs sees is
- displayed. Information is displayed on stderr. Currently defined
- values are:
-
- * 1 == non-verbose output
-
- * 2 == verbose output
+ When a function recognizes and processes the argument in `argi', it
+ should return a non-`nil' value to say it has dealt with that
+ argument. If it has also dealt with some of the following
+ arguments, it can indicate that by deleting them from
+ `command-line-args-left'.
+
+ If all of these functions return `nil', then the argument is used
+ as a file name to visit.
\1f
-File: lispref.info, Node: ToolTalk Support, Next: LDAP Support, Prev: X-Windows, Up: Top
+File: lispref.info, Node: Getting Out, Next: System Environment, Prev: Starting Up, Up: System Interface
-ToolTalk Support
-****************
+Getting out of XEmacs
+=====================
+
+ There are two ways to get out of XEmacs: you can kill the XEmacs job,
+which exits permanently, or you can suspend it, which permits you to
+reenter the XEmacs process later. As a practical matter, you seldom
+kill XEmacs--only when you are about to log out. Suspending is much
+more common.
* Menu:
-* XEmacs ToolTalk API Summary::
-* Sending Messages::
-* Receiving Messages::
+* Killing XEmacs:: Exiting XEmacs irreversibly.
+* Suspending XEmacs:: Exiting XEmacs reversibly.
\1f
-File: lispref.info, Node: XEmacs ToolTalk API Summary, Next: Sending Messages, Up: ToolTalk Support
-
-XEmacs ToolTalk API Summary
-===========================
-
- The XEmacs Lisp interface to ToolTalk is similar, at least in spirit,
-to the standard C ToolTalk API. Only the message and pattern parts of
-the API are supported at present; more of the API could be added if
-needed. The Lisp interface departs from the C API in a few ways:
-
- * ToolTalk is initialized automatically at XEmacs startup-time.
- Messages can only be sent other ToolTalk applications connected to
- the same X11 server that XEmacs is running on.
+File: lispref.info, Node: Killing XEmacs, Next: Suspending XEmacs, Up: Getting Out
- * There are fewer entry points; polymorphic functions with keyword
- arguments are used instead.
+Killing XEmacs
+--------------
- * The callback interface is simpler and marginally less functional.
- A single callback may be associated with a message or a pattern;
- the callback is specified with a Lisp symbol (the symbol should
- have a function binding).
+ Killing XEmacs means ending the execution of the XEmacs process. The
+parent process normally resumes control. The low-level primitive for
+killing XEmacs is `kill-emacs'.
- * The session attribute for messages and patterns is always
- initialized to the default session.
+ - Command: kill-emacs &optional exit-data
+ This function exits the XEmacs process and kills it.
- * Anywhere a ToolTalk enum constant, e.g. `TT_SESSION', is valid, one
- can substitute the corresponding symbol, e.g. `'TT_SESSION'. This
- simplifies building lists that represent messages and patterns.
+ If EXIT-DATA is an integer, then it is used as the exit status of
+ the XEmacs process. (This is useful primarily in batch operation;
+ see *Note Batch Mode::.)
-\1f
-File: lispref.info, Node: Sending Messages, Next: Receiving Messages, Prev: XEmacs ToolTalk API Summary, Up: ToolTalk Support
+ If EXIT-DATA is a string, its contents are stuffed into the
+ terminal input buffer so that the shell (or whatever program next
+ reads input) can read them.
-Sending Messages
-================
+ All the information in the XEmacs process, aside from files that have
+been saved, is lost when the XEmacs is killed. Because killing XEmacs
+inadvertently can lose a lot of work, XEmacs queries for confirmation
+before actually terminating if you have buffers that need saving or
+subprocesses that are running. This is done in the function
+`save-buffers-kill-emacs'.
-* Menu:
+ - Variable: kill-emacs-query-functions
+ After asking the standard questions, `save-buffers-kill-emacs'
+ calls the functions in the list `kill-buffer-query-functions', in
+ order of appearance, with no arguments. These functions can ask
+ for additional confirmation from the user. If any of them returns
+ non-`nil', XEmacs is not killed.
-* Example of Sending Messages::
-* Elisp Interface for Sending Messages::
+ - Variable: kill-emacs-hook
+ This variable is a normal hook; once `save-buffers-kill-emacs' is
+ finished with all file saving and confirmation, it runs the
+ functions in this hook.
\1f
-File: lispref.info, Node: Example of Sending Messages, Next: Elisp Interface for Sending Messages, Up: Sending Messages
-
-Example of Sending Messages
----------------------------
-
- Here's a simple example that sends a query to another application
-and then displays its reply. Both the query and the reply are stored
-in the first argument of the message.
-
- (defun tooltalk-random-query-handler (msg)
- (let ((state (get-tooltalk-message-attribute msg 'state)))
- (cond
- ((eq state 'TT_HANDLED)
- (message (get-tooltalk-message-attribute msg arg_val 0)))
- ((memq state '(TT_FAILED TT_REJECTED))
- (message "Random query turns up nothing")))))
-
- (defvar random-query-message
- '( class TT_REQUEST
- scope TT_SESSION
- address TT_PROCEDURE
- op "random-query"
- args '((TT_INOUT "?" "string"))
- callback tooltalk-random-query-handler))
-
- (let ((m (make-tooltalk-message random-query-message)))
- (send-tooltalk-message m))
+File: lispref.info, Node: Suspending XEmacs, Prev: Killing XEmacs, Up: Getting Out
+
+Suspending XEmacs
+-----------------
+
+ "Suspending XEmacs" means stopping XEmacs temporarily and returning
+control to its superior process, which is usually the shell. This
+allows you to resume editing later in the same XEmacs process, with the
+same buffers, the same kill ring, the same undo history, and so on. To
+resume XEmacs, use the appropriate command in the parent shell--most
+likely `fg'.
+
+ Some operating systems do not support suspension of jobs; on these
+systems, "suspension" actually creates a new shell temporarily as a
+subprocess of XEmacs. Then you would exit the shell to return to
+XEmacs.
+
+ Suspension is not useful with window systems such as X, because the
+XEmacs job may not have a parent that can resume it again, and in any
+case you can give input to some other job such as a shell merely by
+moving to a different window. Therefore, suspending is not allowed
+when XEmacs is an X client.
+
+ - Command: suspend-emacs &optional stuffstring
+ This function stops XEmacs and returns control to the superior
+ process. If and when the superior process resumes XEmacs,
+ `suspend-emacs' returns `nil' to its caller in Lisp.
+
+ If optional arg STUFFSTRING is non-`nil', its characters are sent
+ to be read as terminal input by XEmacs's superior shell. The
+ characters in STUFFSTRING are not echoed by the superior shell;
+ only the results appear.
+
+ Before suspending, `suspend-emacs' runs the normal hook
+ `suspend-hook'. In Emacs version 18, `suspend-hook' was not a
+ normal hook; its value was a single function, and if its value was
+ non-`nil', then `suspend-emacs' returned immediately without
+ actually suspending anything.
+
+ After the user resumes XEmacs, `suspend-emacs' runs the normal hook
+ `suspend-resume-hook'. *Note Hooks::.
+
+ The next redisplay after resumption will redraw the entire screen,
+ unless the variable `no-redraw-on-reenter' is non-`nil' (*note
+ Refresh Screen::).
+
+ In the following example, note that `pwd' is not echoed after
+ XEmacs is suspended. But it is read and executed by the shell.
+
+ (suspend-emacs)
+ => nil
+
+ (add-hook 'suspend-hook
+ (function (lambda ()
+ (or (y-or-n-p
+ "Really suspend? ")
+ (error "Suspend cancelled")))))
+ => (lambda nil
+ (or (y-or-n-p "Really suspend? ")
+ (error "Suspend cancelled")))
+ (add-hook 'suspend-resume-hook
+ (function (lambda () (message "Resumed!"))))
+ => (lambda nil (message "Resumed!"))
+ (suspend-emacs "pwd")
+ => nil
+ ---------- Buffer: Minibuffer ----------
+ Really suspend? y
+ ---------- Buffer: Minibuffer ----------
+
+ ---------- Parent Shell ----------
+ lewis@slug[23] % /user/lewis/manual
+ lewis@slug[24] % fg
+
+ ---------- Echo Area ----------
+ Resumed!
+
+ - Variable: suspend-hook
+ This variable is a normal hook run before suspending.
+
+ - Variable: suspend-resume-hook
+ This variable is a normal hook run after suspending.