1 @c This is part of the Emacs manual.
2 @c Copyright (C) 1985, 1986, 1987, 1993, 1994, 1995, 1997, 2000, 2001,
3 @c 2002, 2003, 2004, 2005, 2006 Free Software Foundation, Inc.
4 @c See file emacs.texi for copying conditions.
6 @chapter Miscellaneous Commands
8 This chapter contains several brief topics that do not fit anywhere
9 else: reading netnews, running shell commands and shell subprocesses,
10 using a single shared Emacs for utilities that expect to run an editor
11 as a subprocess, printing hardcopy, sorting text, narrowing display to
12 part of the buffer, editing double-column files and binary files,
13 saving an Emacs session for later resumption, following hyperlinks,
14 browsing images, emulating other editors, and various diversions and
23 @node Gnus, Shell, Calendar/Diary, Top
26 @cindex reading netnews
28 Gnus is an Emacs package primarily designed for reading and posting
29 Usenet news. It can also be used to read and respond to messages from a
30 number of other sources---mail, remote directories, digests, and so on.
32 Here we introduce Gnus and describe several basic features.
34 For full details, see @ref{Top, Gnus,, gnus, The Gnus Manual}.
37 For full details on Gnus, type @kbd{M-x info} and then select the Gnus
42 To start Gnus, type @kbd{M-x gnus @key{RET}}.
45 * Buffers of Gnus:: The group, summary, and article buffers.
46 * Gnus Startup:: What you should know about starting Gnus.
47 * Summary of Gnus:: A short description of the basic Gnus commands.
51 @subsection Gnus Buffers
53 Unlike most Emacs packages, Gnus uses several buffers to display
54 information and to receive commands. The three Gnus buffers users use
55 most are the @dfn{group buffer}, the @dfn{summary buffer} and the
58 The @dfn{group buffer} contains a list of newsgroups. This is the
59 first buffer Gnus displays when it starts up. It normally displays
60 only the groups to which you subscribe and that contain unread
61 articles. Use this buffer to select a specific group.
63 The @dfn{summary buffer} lists one line for each article in a single
64 group. By default, the author, the subject and the line number are
65 displayed for each article, but this is customizable, like most aspects
66 of Gnus display. The summary buffer is created when you select a group
67 in the group buffer, and is killed when you exit the group. Use this
68 buffer to select an article.
70 The @dfn{article buffer} displays the article. In normal Gnus usage,
71 you see this buffer but you don't select it---all useful
72 article-oriented commands work in the summary buffer. But you can
73 select the article buffer, and execute all Gnus commands from that
74 buffer, if you want to.
77 @subsection When Gnus Starts Up
79 At startup, Gnus reads your @file{.newsrc} news initialization file
80 and attempts to communicate with the local news server, which is a
81 repository of news articles. The news server need not be the same
82 computer you are logged in on.
84 If you start Gnus and connect to the server, but do not see any
85 newsgroups listed in the group buffer, type @kbd{L} or @kbd{A k} to get
86 a listing of all the groups. Then type @kbd{u} to toggle
87 subscription to groups.
89 The first time you start Gnus, Gnus subscribes you to a few selected
90 groups. All other groups start out as @dfn{killed groups} for you; you
91 can list them with @kbd{A k}. All new groups that subsequently come to
92 exist at the news server become @dfn{zombie groups} for you; type @kbd{A
93 z} to list them. You can subscribe to a group shown in these lists
94 using the @kbd{u} command.
96 When you quit Gnus with @kbd{q}, it automatically records in your
97 @file{.newsrc} and @file{.newsrc.eld} initialization files the
98 subscribed or unsubscribed status of all groups. You should normally
99 not edit these files manually, but you may if you know how.
101 @node Summary of Gnus
102 @subsection Summary of Gnus Commands
104 Reading news is a two-step process:
108 Choose a group in the group buffer.
111 Select articles from the summary buffer. Each article selected is
112 displayed in the article buffer in a large window, below the summary
113 buffer in its small window.
116 Each Gnus buffer has its own special commands; the meanings of any
117 given key in the various Gnus buffers are usually analogous, even if
118 not identical. Here are commands for the group and summary buffers:
121 @kindex q @r{(Gnus Group mode)}
122 @findex gnus-group-exit
124 In the group buffer, update your @file{.newsrc} initialization file
127 In the summary buffer, exit the current group and return to the
128 group buffer. Thus, typing @kbd{q} twice quits Gnus.
130 @kindex L @r{(Gnus Group mode)}
131 @findex gnus-group-list-all-groups
133 In the group buffer, list all the groups available on your news
134 server (except those you have killed). This may be a long list!
136 @kindex l @r{(Gnus Group mode)}
137 @findex gnus-group-list-groups
139 In the group buffer, list only the groups to which you subscribe and
140 which contain unread articles.
142 @kindex u @r{(Gnus Group mode)}
143 @findex gnus-group-unsubscribe-current-group
144 @cindex subscribe groups
145 @cindex unsubscribe groups
147 In the group buffer, unsubscribe from (or subscribe to) the group listed
148 in the line that point is on. When you quit Gnus by typing @kbd{q},
149 Gnus lists in your @file{.newsrc} file which groups you have subscribed
150 to. The next time you start Gnus, you won't see this group,
151 because Gnus normally displays only subscribed-to groups.
153 @kindex C-k @r{(Gnus)}
154 @findex gnus-group-kill-group
156 In the group buffer, ``kill'' the current line's group---don't
157 even list it in @file{.newsrc} from now on. This affects future
158 Gnus sessions as well as the present session.
160 When you quit Gnus by typing @kbd{q}, Gnus writes information
161 in the file @file{.newsrc} describing all newsgroups except those you
164 @kindex SPC @r{(Gnus)}
165 @findex gnus-group-read-group
167 In the group buffer, select the group on the line under the cursor
168 and display the first unread article in that group.
171 In the summary buffer,
175 Select the article on the line under the cursor if none is selected.
178 Scroll the text of the selected article (if there is one).
181 Select the next unread article if at the end of the current article.
184 Thus, you can move through all the articles by repeatedly typing @key{SPC}.
186 @kindex DEL @r{(Gnus)}
188 In the group buffer, move point to the previous group containing
191 @findex gnus-summary-prev-page
192 In the summary buffer, scroll the text of the article backwards.
195 @findex gnus-group-next-unread-group
196 @findex gnus-summary-next-unread-article
198 Move point to the next unread group, or select the next unread article.
201 @findex gnus-group-prev-unread-group
202 @findex gnus-summary-prev-unread-article
204 Move point to the previous unread group, or select the previous
207 @kindex C-n @r{(Gnus Group mode)}
208 @findex gnus-group-next-group
209 @kindex C-p @r{(Gnus Group mode)}
210 @findex gnus-group-prev-group
211 @kindex C-n @r{(Gnus Summary mode)}
212 @findex gnus-summary-next-subject
213 @kindex C-p @r{(Gnus Summary mode)}
214 @findex gnus-summary-prev-subject
217 Move point to the next or previous item, even if it is marked as read.
218 This does not select the article or group on that line.
220 @kindex s @r{(Gnus Summary mode)}
221 @findex gnus-summary-isearch-article
223 In the summary buffer, do an incremental search of the current text in
224 the article buffer, just as if you switched to the article buffer and
227 @kindex M-s @r{(Gnus Summary mode)}
228 @findex gnus-summary-search-article-forward
229 @item M-s @var{regexp} @key{RET}
230 In the summary buffer, search forward for articles containing a match
237 @subsection Where to Look Further
239 @c Too many references to the name of the manual if done with xref in TeX!
240 Gnus is powerful and customizable. Here are references to a few
246 additional topics in @cite{The Gnus Manual}:
250 Follow discussions on specific topics.@*
251 See section ``Threading.''
254 Read digests. See section ``Document Groups.''
257 Refer to and jump to the parent of the current article.@*
258 See section ``Finding the Parent.''
261 Refer to articles by using Message-IDs included in the messages.@*
262 See section ``Article Keymap.''
265 Save articles. See section ``Saving Articles.''
268 Have Gnus score articles according to various criteria, like author
269 name, subject, or string in the body of the articles.@*
270 See section ``Scoring.''
273 Send an article to a newsgroup.@*
274 See section ``Composing Messages.''
280 Follow discussions on specific topics.@*
281 @xref{Threading, , Reading Based on Conversation Threads,
282 gnus, The Gnus Manual}.
285 Read digests. @xref{Document Groups, , , gnus, The Gnus Manual}.
288 Refer to and jump to the parent of the current article.@*
289 @xref{Finding the Parent, , , gnus, The Gnus Manual}.
292 Refer to articles by using Message-IDs included in the messages.@*
293 @xref{Article Keymap, , , gnus, The Gnus Manual}.
296 Save articles. @xref{Saving Articles, , , gnus, The Gnus Manual}.
299 Have Gnus score articles according to various criteria, like author
300 name, subject, or string in the body of the articles.@*
301 @xref{Scoring, , , gnus, The Gnus Manual}.
304 Send an article to a newsgroup.@*
305 @xref{Composing Messages, , , gnus, The Gnus Manual}.
310 @node Shell, Emacs Server, Gnus, Top
311 @section Running Shell Commands from Emacs
313 @cindex shell commands
315 Emacs has commands for passing single command lines to inferior shell
316 processes; it can also run a shell interactively with input and output
317 to an Emacs buffer named @samp{*shell*} or run a shell inside a terminal
321 @item M-! @var{cmd} @key{RET}
322 Run the shell command line @var{cmd} and display the output
323 (@code{shell-command}).
324 @item M-| @var{cmd} @key{RET}
325 Run the shell command line @var{cmd} with region contents as input;
326 optionally replace the region with the output
327 (@code{shell-command-on-region}).
329 Run a subshell with input and output through an Emacs buffer.
330 You can then give commands interactively.
332 Run a subshell with input and output through an Emacs buffer.
333 You can then give commands interactively.
334 Full terminal emulation is available.
337 @kbd{M-x eshell} invokes a shell implemented entirely in Emacs. It
338 is documented in a separate manual. @xref{Top,Eshell,Eshell, eshell,
339 Eshell: The Emacs Shell}.
342 * Single Shell:: How to run one shell command and return.
343 * Interactive Shell:: Permanent shell taking input via Emacs.
344 * Shell Mode:: Special Emacs commands used with permanent shell.
345 * Shell Prompts:: Two ways to recognize shell prompts.
346 * History: Shell History. Repeating previous commands in a shell buffer.
347 * Directory Tracking:: Keeping track when the subshell changes directory.
348 * Options: Shell Options. Options for customizing Shell mode.
349 * Terminal emulator:: An Emacs window as a terminal emulator.
350 * Term Mode:: Special Emacs commands used in Term mode.
351 * Paging in Term:: Paging in the terminal emulator.
352 * Remote Host:: Connecting to another computer.
356 @subsection Single Shell Commands
359 @findex shell-command
360 @kbd{M-!} (@code{shell-command}) reads a line of text using the
361 minibuffer and executes it as a shell command in a subshell made just
362 for that command. Standard input for the command comes from the null
363 device. If the shell command produces any output, the output appears
364 either in the echo area (if it is short), or in an Emacs buffer named
365 @samp{*Shell Command Output*}, which is displayed in another window
366 but not selected (if the output is long).
368 For instance, one way to decompress a file @file{foo.gz} from Emacs
369 is to type @kbd{M-! gunzip foo.gz @key{RET}}. That shell command
370 normally creates the file @file{foo} and produces no terminal output.
372 A numeric argument, as in @kbd{M-1 M-!}, says to insert terminal
373 output into the current buffer instead of a separate buffer. It puts
374 point before the output, and sets the mark after the output. For
375 instance, @kbd{M-1 M-! gunzip < foo.gz @key{RET}} would insert the
376 uncompressed equivalent of @file{foo.gz} into the current buffer.
378 If the shell command line ends in @samp{&}, it runs asynchronously.
379 For a synchronous shell command, @code{shell-command} returns the
380 command's exit status (0 means success), when it is called from a Lisp
381 program. You do not get any status information for an asynchronous
382 command, since it hasn't finished yet when @code{shell-command} returns.
385 @findex shell-command-on-region
386 @kbd{M-|} (@code{shell-command-on-region}) is like @kbd{M-!} but
387 passes the contents of the region as the standard input to the shell
388 command, instead of no input. With a numeric argument, meaning insert
389 the output in the current buffer, it deletes the old region and the
390 output replaces it as the contents of the region. It returns the
391 command's exit status, like @kbd{M-!}.
393 One use for @kbd{M-|} is to run @code{gpg} to see what keys are in
394 the buffer. For instance, if the buffer contains a GPG key, type
395 @kbd{C-x h M-| gpg @key{RET}} to feed the entire buffer contents to
396 the @code{gpg} program. That program will ignore everything except
397 the encoded keys, and will output a list of the keys the buffer
400 @vindex shell-file-name
401 Both @kbd{M-!} and @kbd{M-|} use @code{shell-file-name} to specify
402 the shell to use. This variable is initialized based on your
403 @env{SHELL} environment variable when Emacs is started. If the file
404 name is relative, Emacs searches the directories in the list
405 @code{exec-path}; this list is initialized based on the environment
406 variable @env{PATH} when Emacs is started. Your @file{.emacs} file
407 can override either or both of these default initializations.
409 Both @kbd{M-!} and @kbd{M-|} wait for the shell command to complete,
410 unless you end the command with @samp{&} to make it asynchronous. To
411 stop waiting, type @kbd{C-g} to quit; that terminates the shell
412 command with the signal @code{SIGINT}---the same signal that @kbd{C-c}
413 normally generates in the shell. Emacs then waits until the command
414 actually terminates. If the shell command doesn't stop (because it
415 ignores the @code{SIGINT} signal), type @kbd{C-g} again; this sends
416 the command a @code{SIGKILL} signal which is impossible to ignore.
418 Asynchronous commands ending in @samp{&} feed their output into
419 the buffer @samp{*Async Shell Command*}. Output arrives in that
420 buffer regardless of whether it is visible in a window.
422 To specify a coding system for @kbd{M-!} or @kbd{M-|}, use the command
423 @kbd{C-x @key{RET} c} immediately beforehand. @xref{Communication Coding}.
425 @vindex shell-command-default-error-buffer
426 Error output from these commands is normally intermixed with the
427 regular output. But if the variable
428 @code{shell-command-default-error-buffer} has a string as value, and
429 it's the name of a buffer, @kbd{M-!} and @kbd{M-|} insert error output
430 before point in that buffer.
432 @node Interactive Shell
433 @subsection Interactive Inferior Shell
436 To run a subshell interactively, putting its typescript in an Emacs
437 buffer, use @kbd{M-x shell}. This creates (or reuses) a buffer named
438 @samp{*shell*} and runs a subshell with input coming from and output going
439 to that buffer. That is to say, any ``terminal output'' from the subshell
440 goes into the buffer, advancing point, and any ``terminal input'' for
441 the subshell comes from text in the buffer. To give input to the subshell,
442 go to the end of the buffer and type the input, terminated by @key{RET}.
444 Emacs does not wait for the subshell to do anything. You can switch
445 windows or buffers and edit them while the shell is waiting, or while it is
446 running a command. Output from the subshell waits until Emacs has time to
447 process it; this happens whenever Emacs is waiting for keyboard input or
450 @cindex @code{comint-highlight-input} face
451 @cindex @code{comint-highlight-prompt} face
452 Input lines, once you submit them, are displayed using the face
453 @code{comint-highlight-input}, and prompts are displayed using the
454 face @code{comint-highlight-prompt}. This makes it easier to see
455 previous input lines in the buffer. @xref{Faces}.
457 To make multiple subshells, you can invoke @kbd{M-x shell} with a
458 prefix argument (e.g. @kbd{C-u M-x shell}), which will read a buffer
459 name and create (or reuse) a subshell in that buffer. You can also
460 rename the @samp{*shell*} buffer using @kbd{M-x rename-uniquely}, then
461 create a new @samp{*shell*} buffer using plain @kbd{M-x shell}.
462 Subshells in different buffers run independently and in parallel.
464 @vindex explicit-shell-file-name
465 @cindex environment variables for subshells
466 @cindex @env{ESHELL} environment variable
467 @cindex @env{SHELL} environment variable
468 The file name used to load the subshell is the value of the variable
469 @code{explicit-shell-file-name}, if that is non-@code{nil}. Otherwise,
470 the environment variable @env{ESHELL} is used, or the environment
471 variable @env{SHELL} if there is no @env{ESHELL}. If the file name
472 specified is relative, the directories in the list @code{exec-path} are
473 searched; this list is initialized based on the environment variable
474 @env{PATH} when Emacs is started. Your @file{.emacs} file can override
475 either or both of these default initializations.
477 Emacs sends the new shell the contents of the file
478 @file{~/.emacs_@var{shellname}} as input, if it exists, where
479 @var{shellname} is the name of the file that the shell was loaded
480 from. For example, if you use bash, the file sent to it is
481 @file{~/.emacs_bash}.
483 To specify a coding system for the shell, you can use the command
484 @kbd{C-x @key{RET} c} immediately before @kbd{M-x shell}. You can
485 also change the coding system for a running subshell by typing
486 @kbd{C-x @key{RET} p} in the shell buffer. @xref{Communication
489 @cindex @env{EMACS} environment variable
490 Unless the environment variable @env{EMACS} is already defined,
491 Emacs defines it in the subshell, with value @code{t}. A shell script
492 can check this variable to determine whether it has been run from an
496 @subsection Shell Mode
500 Shell buffers use Shell mode, which defines several special keys
501 attached to the @kbd{C-c} prefix. They are chosen to resemble the usual
502 editing and job control characters present in shells that are not under
503 Emacs, except that you must type @kbd{C-c} first. Here is a complete list
504 of the special key bindings of Shell mode:
508 @kindex RET @r{(Shell mode)}
509 @findex comint-send-input
510 At end of buffer send line as input; otherwise, copy current line to
511 end of buffer and send it (@code{comint-send-input}). Copying a line
512 in this way omits any prompt at the beginning of the line (text output
513 by programs preceding your input). @xref{Shell Prompts}, for how
514 Shell mode recognizes prompts.
517 @kindex TAB @r{(Shell mode)}
518 @findex comint-dynamic-complete
519 Complete the command name or file name before point in the shell buffer
520 (@code{comint-dynamic-complete}). @key{TAB} also completes history
521 references (@pxref{History References}) and environment variable names.
523 @vindex shell-completion-fignore
524 @vindex comint-completion-fignore
525 The variable @code{shell-completion-fignore} specifies a list of file
526 name extensions to ignore in Shell mode completion. The default
527 setting is @code{nil}, but some users prefer @code{("~" "#" "%")} to
528 ignore file names ending in @samp{~}, @samp{#} or @samp{%}. Other
529 related Comint modes use the variable @code{comint-completion-fignore}
533 @kindex M-? @r{(Shell mode)}
534 @findex comint-dynamic-list-filename@dots{}
535 Display temporarily a list of the possible completions of the file name
536 before point in the shell buffer
537 (@code{comint-dynamic-list-filename-completions}).
540 @kindex C-d @r{(Shell mode)}
541 @findex comint-delchar-or-maybe-eof
542 Either delete a character or send @acronym{EOF}
543 (@code{comint-delchar-or-maybe-eof}). Typed at the end of the shell
544 buffer, @kbd{C-d} sends @acronym{EOF} to the subshell. Typed at any other
545 position in the buffer, @kbd{C-d} deletes a character as usual.
548 @kindex C-c C-a @r{(Shell mode)}
549 @findex comint-bol-or-process-mark
550 Move to the beginning of the line, but after the prompt if any
551 (@code{comint-bol-or-process-mark}). If you repeat this command twice
552 in a row, the second time it moves back to the process mark, which is
553 the beginning of the input that you have not yet sent to the subshell.
554 (Normally that is the same place---the end of the prompt on this
555 line---but after @kbd{C-c @key{SPC}} the process mark may be in a
559 Accumulate multiple lines of input, then send them together. This
560 command inserts a newline before point, but does not send the preceding
561 text as input to the subshell---at least, not yet. Both lines, the one
562 before this newline and the one after, will be sent together (along with
563 the newline that separates them), when you type @key{RET}.
566 @kindex C-c C-u @r{(Shell mode)}
567 @findex comint-kill-input
568 Kill all text pending at end of buffer to be sent as input
569 (@code{comint-kill-input}). If point is not at end of buffer,
570 this only kills the part of this text that precedes point.
573 @kindex C-c C-w @r{(Shell mode)}
574 Kill a word before point (@code{backward-kill-word}).
577 @kindex C-c C-c @r{(Shell mode)}
578 @findex comint-interrupt-subjob
579 Interrupt the shell or its current subjob if any
580 (@code{comint-interrupt-subjob}). This command also kills
581 any shell input pending in the shell buffer and not yet sent.
584 @kindex C-c C-z @r{(Shell mode)}
585 @findex comint-stop-subjob
586 Stop the shell or its current subjob if any (@code{comint-stop-subjob}).
587 This command also kills any shell input pending in the shell buffer and
591 @findex comint-quit-subjob
592 @kindex C-c C-\ @r{(Shell mode)}
593 Send quit signal to the shell or its current subjob if any
594 (@code{comint-quit-subjob}). This command also kills any shell input
595 pending in the shell buffer and not yet sent.
598 @kindex C-c C-o @r{(Shell mode)}
599 @findex comint-delete-output
600 Delete the last batch of output from a shell command
601 (@code{comint-delete-output}). This is useful if a shell command spews
602 out lots of output that just gets in the way. This command used to be
603 called @code{comint-kill-output}.
606 @kindex C-c C-s @r{(Shell mode)}
607 @findex comint-write-output
608 Write the last batch of output from a shell command to a file
609 (@code{comint-write-output}). With a prefix argument, the file is
610 appended to instead. Any prompt at the end of the output is not
615 @kindex C-c C-r @r{(Shell mode)}
616 @kindex C-M-l @r{(Shell mode)}
617 @findex comint-show-output
618 Scroll to display the beginning of the last batch of output at the top
619 of the window; also move the cursor there (@code{comint-show-output}).
622 @kindex C-c C-e @r{(Shell mode)}
623 @findex comint-show-maximum-output
624 Scroll to put the end of the buffer at the bottom of the window
625 (@code{comint-show-maximum-output}).
628 @kindex C-c C-f @r{(Shell mode)}
629 @findex shell-forward-command
630 @vindex shell-command-regexp
631 Move forward across one shell command, but not beyond the current line
632 (@code{shell-forward-command}). The variable @code{shell-command-regexp}
633 specifies how to recognize the end of a command.
636 @kindex C-c C-b @r{(Shell mode)}
637 @findex shell-backward-command
638 Move backward across one shell command, but not beyond the current line
639 (@code{shell-backward-command}).
642 Ask the shell what its current directory is, so that Emacs can agree
645 @item M-x send-invisible @key{RET} @var{text} @key{RET}
646 @findex send-invisible
647 Send @var{text} as input to the shell, after reading it without
648 echoing. This is useful when a shell command runs a program that asks
651 Please note that Emacs will not echo passwords by default. If you
652 really want them to be echoed, evaluate the following Lisp
656 (remove-hook 'comint-output-filter-functions
657 'comint-watch-for-password-prompt)
660 @item M-x comint-continue-subjob
661 @findex comint-continue-subjob
662 Continue the shell process. This is useful if you accidentally suspend
663 the shell process.@footnote{You should not suspend the shell process.
664 Suspending a subjob of the shell is a completely different matter---that
665 is normal practice, but you must use the shell to continue the subjob;
666 this command won't do it.}
668 @item M-x comint-strip-ctrl-m
669 @findex comint-strip-ctrl-m
670 Discard all control-M characters from the current group of shell output.
671 The most convenient way to use this command is to make it run
672 automatically when you get output from the subshell. To do that,
673 evaluate this Lisp expression:
676 (add-hook 'comint-output-filter-functions
677 'comint-strip-ctrl-m)
680 @item M-x comint-truncate-buffer
681 @findex comint-truncate-buffer
682 This command truncates the shell buffer to a certain maximum number of
683 lines, specified by the variable @code{comint-buffer-maximum-size}.
684 Here's how to do this automatically each time you get output from the
688 (add-hook 'comint-output-filter-functions
689 'comint-truncate-buffer)
695 Shell mode is a derivative of Comint mode, a general-purpose mode for
696 communicating with interactive subprocesses. Most of the features of
697 Shell mode actually come from Comint mode, as you can see from the
698 command names listed above. The special features of Shell mode include
699 the directory tracking feature, and a few user commands.
701 Other Emacs features that use variants of Comint mode include GUD
702 (@pxref{Debuggers}) and @kbd{M-x run-lisp} (@pxref{External Lisp}).
705 You can use @kbd{M-x comint-run} to execute any program of your choice
706 in a subprocess using unmodified Comint mode---without the
707 specializations of Shell mode.
710 @subsection Shell Prompts
712 @vindex shell-prompt-pattern
713 @vindex comint-prompt-regexp
714 @vindex comint-use-prompt-regexp
715 @cindex prompt, shell
716 A prompt is text output by a program to show that it is ready to
717 accept new user input. Normally, Comint mode (and thus Shell mode)
718 considers the prompt to be any text output by a program at the
719 beginning of an input line. However, if the variable
720 @code{comint-use-prompt-regexp} is non-@code{nil}, then Comint mode
721 uses a regular expression to recognize prompts. In Shell mode,
722 @code{shell-prompt-pattern} specifies the regular expression.
724 The value of @code{comint-use-prompt-regexp} also affects many
725 motion and paragraph commands. If the value is non-@code{nil}, the
726 general Emacs motion commands behave as they normally do in buffers
727 without special text properties. However, if the value is @code{nil},
728 the default, then Comint mode divides the buffer into two types of
729 ``fields'' (ranges of consecutive characters having the same
730 @code{field} text property): input and output. Prompts are part of
731 the output. Most Emacs motion commands do not cross field boundaries,
732 unless they move over multiple lines. For instance, when point is in
733 input on the same line as a prompt, @kbd{C-a} puts point at the
734 beginning of the input if @code{comint-use-prompt-regexp} is
735 @code{nil} and at the beginning of the line otherwise.
737 In Shell mode, only shell prompts start new paragraphs. Thus, a
738 paragraph consists of a prompt and the input and output that follow
739 it. However, if @code{comint-use-prompt-regexp} is @code{nil}, the
740 default, most paragraph commands do not cross field boundaries. This
741 means that prompts, ranges of input, and ranges of non-prompt output
742 behave mostly like separate paragraphs; with this setting, numeric
743 arguments to most paragraph commands yield essentially undefined
744 behavior. For the purpose of finding paragraph boundaries, Shell mode
745 uses @code{shell-prompt-pattern}, regardless of
746 @code{comint-use-prompt-regexp}.
749 @subsection Shell Command History
751 Shell buffers support three ways of repeating earlier commands. You
752 can use keys like those used for the minibuffer history; these work
753 much as they do in the minibuffer, inserting text from prior commands
754 while point remains always at the end of the buffer. You can move
755 through the buffer to previous inputs in their original place, then
756 resubmit them or copy them to the end. Or you can use a
757 @samp{!}-style history reference.
760 * Ring: Shell Ring. Fetching commands from the history list.
761 * Copy: Shell History Copying. Moving to a command and then copying it.
762 * History References:: Expanding @samp{!}-style history references.
766 @subsubsection Shell History Ring
769 @findex comint-previous-input
770 @kindex M-p @r{(Shell mode)}
773 Fetch the next earlier old shell command.
775 @kindex M-n @r{(Shell mode)}
776 @findex comint-next-input
779 Fetch the next later old shell command.
781 @kindex M-r @r{(Shell mode)}
782 @kindex M-s @r{(Shell mode)}
783 @findex comint-previous-matching-input
784 @findex comint-next-matching-input
785 @item M-r @var{regexp} @key{RET}
786 @itemx M-s @var{regexp} @key{RET}
787 Search backwards or forwards for old shell commands that match @var{regexp}.
790 @kindex C-c C-x @r{(Shell mode)}
791 @findex comint-get-next-from-history
792 Fetch the next subsequent command from the history.
795 @kindex C-c . @r{(Shell mode)}
796 @findex comint-input-previous-argument
797 Fetch one argument from an old shell command.
800 @kindex C-c C-l @r{(Shell mode)}
801 @findex comint-dynamic-list-input-ring
802 Display the buffer's history of shell commands in another window
803 (@code{comint-dynamic-list-input-ring}).
806 Shell buffers provide a history of previously entered shell commands. To
807 reuse shell commands from the history, use the editing commands @kbd{M-p},
808 @kbd{M-n}, @kbd{M-r} and @kbd{M-s}. These work just like the minibuffer
809 history commands except that they operate on the text at the end of the
810 shell buffer, where you would normally insert text to send to the shell.
812 @kbd{M-p} fetches an earlier shell command to the end of the shell
813 buffer. Successive use of @kbd{M-p} fetches successively earlier
814 shell commands, each replacing any text that was already present as
815 potential shell input. @kbd{M-n} does likewise except that it finds
816 successively more recent shell commands from the buffer.
817 @kbd{C-@key{UP}} works like @kbd{M-p}, and @kbd{C-@key{DOWN}} like
820 The history search commands @kbd{M-r} and @kbd{M-s} read a regular
821 expression and search through the history for a matching command. Aside
822 from the choice of which command to fetch, they work just like @kbd{M-p}
823 and @kbd{M-n}. If you enter an empty regexp, these commands reuse the
824 same regexp used last time.
826 When you find the previous input you want, you can resubmit it by
827 typing @key{RET}, or you can edit it first and then resubmit it if you
828 wish. Any partial input you were composing before navigating the
829 history list is restored when you go to the beginning or end of the
832 Often it is useful to reexecute several successive shell commands that
833 were previously executed in sequence. To do this, first find and
834 reexecute the first command of the sequence. Then type @kbd{C-c C-x};
835 that will fetch the following command---the one that follows the command
836 you just repeated. Then type @key{RET} to reexecute this command. You
837 can reexecute several successive commands by typing @kbd{C-c C-x
838 @key{RET}} over and over.
840 The command @kbd{C-c .}@: (@code{comint-input-previous-argument})
841 copies an individual argument from a previous command, like @kbd{ESC
842 .} in Bash. The simplest use copies the last argument from the
843 previous shell command. With a prefix argument @var{n}, it copies the
844 @var{n}th argument instead. Repeating @kbd{C-c .} copies from an
845 earlier shell command instead, always using the same value of @var{n}
846 (don't give a prefix argument when you repeat the @kbd{C-c .}
849 These commands get the text of previous shell commands from a special
850 history list, not from the shell buffer itself. Thus, editing the shell
851 buffer, or even killing large parts of it, does not affect the history
852 that these commands access.
854 @vindex shell-input-ring-file-name
855 Some shells store their command histories in files so that you can
856 refer to commands from previous shell sessions. Emacs reads
857 the command history file for your chosen shell, to initialize its own
858 command history. The file name is @file{~/.bash_history} for bash,
859 @file{~/.sh_history} for ksh, and @file{~/.history} for other shells.
861 @node Shell History Copying
862 @subsubsection Shell History Copying
865 @kindex C-c C-p @r{(Shell mode)}
866 @findex comint-previous-prompt
868 Move point to the previous prompt (@code{comint-previous-prompt}).
870 @kindex C-c C-n @r{(Shell mode)}
871 @findex comint-next-prompt
873 Move point to the following prompt (@code{comint-next-prompt}).
875 @kindex C-c RET @r{(Shell mode)}
876 @findex comint-insert-input
878 Copy the input command which point is in, inserting the copy at the end
879 of the buffer (@code{comint-insert-input}). This is useful if you
880 move point back to a previous command. After you copy the command, you
881 can submit the copy as input with @key{RET}. If you wish, you can
882 edit the copy before resubmitting it.
885 Copy the input command that you click on, inserting the copy at the end
889 Moving to a previous input and then copying it with @kbd{C-c
890 @key{RET}} or @kbd{Mouse-2} produces the same results---the same
891 buffer contents---that you would get by using @kbd{M-p} enough times
892 to fetch that previous input from the history list. However, @kbd{C-c
893 @key{RET}} copies the text from the buffer, which can be different
894 from what is in the history list if you edit the input text in the
895 buffer after it has been sent.
897 @node History References
898 @subsubsection Shell History References
899 @cindex history reference
901 Various shells including csh and bash support @dfn{history
902 references} that begin with @samp{!} and @samp{^}. Shell mode
903 recognizes these constructs, and can perform the history substitution
906 If you insert a history reference and type @key{TAB}, this searches
907 the input history for a matching command, performs substitution if
908 necessary, and places the result in the buffer in place of the history
909 reference. For example, you can fetch the most recent command
910 beginning with @samp{mv} with @kbd{! m v @key{TAB}}. You can edit the
911 command if you wish, and then resubmit the command to the shell by
914 @vindex comint-input-autoexpand
915 @findex comint-magic-space
916 Shell mode can optionally expand history references in the buffer
917 when you send them to the shell. To request this, set the variable
918 @code{comint-input-autoexpand} to @code{input}. You can make
919 @key{SPC} perform history expansion by binding @key{SPC} to the
920 command @code{comint-magic-space}.
922 Shell mode recognizes history references when they follow a prompt.
923 @xref{Shell Prompts}, for how Shell mode recognizes prompts.
925 @node Directory Tracking
926 @subsection Directory Tracking
927 @cindex directory tracking
929 @vindex shell-pushd-regexp
930 @vindex shell-popd-regexp
931 @vindex shell-cd-regexp
932 Shell mode keeps track of @samp{cd}, @samp{pushd} and @samp{popd}
933 commands given to the inferior shell, so it can keep the
934 @samp{*shell*} buffer's default directory the same as the shell's
935 working directory. It recognizes these commands syntactically, by
936 examining lines of input that are sent.
938 If you use aliases for these commands, you can tell Emacs to
939 recognize them also. For example, if the value of the variable
940 @code{shell-pushd-regexp} matches the beginning of a shell command
941 line, that line is regarded as a @code{pushd} command. Change this
942 variable when you add aliases for @samp{pushd}. Likewise,
943 @code{shell-popd-regexp} and @code{shell-cd-regexp} are used to
944 recognize commands with the meaning of @samp{popd} and @samp{cd}.
945 These commands are recognized only at the beginning of a shell command
948 @ignore @c This seems to have been deleted long ago.
949 @vindex shell-set-directory-error-hook
950 If Emacs gets an error while trying to handle what it believes is a
951 @samp{cd}, @samp{pushd} or @samp{popd} command, it runs the hook
952 @code{shell-set-directory-error-hook} (@pxref{Hooks}).
956 If Emacs gets confused about changes in the current directory of the
957 subshell, use the command @kbd{M-x dirs} to ask the shell what its
958 current directory is. This command works for shells that support the
959 most common command syntax; it may not work for unusual shells.
961 @findex dirtrack-mode
962 You can also use @kbd{M-x dirtrack-mode} to enable (or disable) an
963 alternative and more aggressive method of tracking changes in the
967 @subsection Shell Mode Options
969 @vindex comint-scroll-to-bottom-on-input
970 If the variable @code{comint-scroll-to-bottom-on-input} is
971 non-@code{nil}, insertion and yank commands scroll the selected window
972 to the bottom before inserting. The default is @code{nil}.
974 @vindex comint-scroll-show-maximum-output
975 If @code{comint-scroll-show-maximum-output} is non-@code{nil}, then
976 arrival of output when point is at the end tries to place the last line of
977 text at the bottom line of the window, so as to show as much useful
978 text as possible. (This mimics the scrolling behavior of most
979 terminals.) The default is @code{t}.
981 @vindex comint-move-point-for-output
982 By setting @code{comint-move-point-for-output}, you can opt for
983 having point jump to the end of the buffer whenever output arrives---no
984 matter where in the buffer point was before. If the value is
985 @code{this}, point jumps in the selected window. If the value is
986 @code{all}, point jumps in each window that shows the Comint buffer. If
987 the value is @code{other}, point jumps in all nonselected windows that
988 show the current buffer. The default value is @code{nil}, which means
989 point does not jump to the end.
991 @vindex comint-prompt-read-only
992 If you set @code{comint-prompt-read-only}, the prompts in the Comint
993 buffer are read-only.
995 @vindex comint-input-ignoredups
996 The variable @code{comint-input-ignoredups} controls whether successive
997 identical inputs are stored in the input history. A non-@code{nil}
998 value means to omit an input that is the same as the previous input.
999 The default is @code{nil}, which means to store each input even if it is
1000 equal to the previous input.
1002 @vindex comint-completion-addsuffix
1003 @vindex comint-completion-recexact
1004 @vindex comint-completion-autolist
1005 Three variables customize file name completion. The variable
1006 @code{comint-completion-addsuffix} controls whether completion inserts a
1007 space or a slash to indicate a fully completed file or directory name
1008 (non-@code{nil} means do insert a space or slash).
1009 @code{comint-completion-recexact}, if non-@code{nil}, directs @key{TAB}
1010 to choose the shortest possible completion if the usual Emacs completion
1011 algorithm cannot add even a single character.
1012 @code{comint-completion-autolist}, if non-@code{nil}, says to list all
1013 the possible completions whenever completion is not exact.
1015 @vindex shell-completion-execonly
1016 Command completion normally considers only executable files.
1017 If you set @code{shell-completion-execonly} to @code{nil},
1018 it considers nonexecutable files as well.
1020 @findex shell-pushd-tohome
1021 @findex shell-pushd-dextract
1022 @findex shell-pushd-dunique
1023 You can configure the behavior of @samp{pushd}. Variables control
1024 whether @samp{pushd} behaves like @samp{cd} if no argument is given
1025 (@code{shell-pushd-tohome}), pop rather than rotate with a numeric
1026 argument (@code{shell-pushd-dextract}), and only add directories to the
1027 directory stack if they are not already on it
1028 (@code{shell-pushd-dunique}). The values you choose should match the
1029 underlying shell, of course.
1031 If you want Shell mode to handle color output from shell commands,
1032 you can enable ANSI Color mode. Here is how to do this:
1035 (add-hook 'shell-mode-hook 'ansi-color-for-comint-mode-on)
1038 @node Terminal emulator
1039 @subsection Emacs Terminal Emulator
1042 To run a subshell in a terminal emulator, putting its typescript in
1043 an Emacs buffer, use @kbd{M-x term}. This creates (or reuses) a
1044 buffer named @samp{*terminal*}, and runs a subshell with input coming
1045 from your keyboard, and output going to that buffer.
1047 The terminal emulator uses Term mode, which has two input modes. In
1048 line mode, Term basically acts like Shell mode; see @ref{Shell Mode}.
1050 In char mode, each character is sent directly to the inferior
1051 subshell, as ``terminal input.'' Any ``echoing'' of your input is the
1052 responsibility of the subshell. The sole exception is the terminal
1053 escape character, which by default is @kbd{C-c} (@pxref{Term Mode}).
1054 Any ``terminal output'' from the subshell goes into the buffer,
1057 Some programs (such as Emacs itself) need to control the appearance
1058 on the terminal screen in detail. They do this by sending special
1059 control codes. The exact control codes needed vary from terminal to
1060 terminal, but nowadays most terminals and terminal emulators
1061 (including @code{xterm}) understand the ANSI-standard (VT100-style)
1062 escape sequences. Term mode recognizes these escape sequences, and
1063 handles each one appropriately, changing the buffer so that the
1064 appearance of the window matches what it would be on a real terminal.
1065 You can actually run Emacs inside an Emacs Term window.
1067 The file name used to load the subshell is determined the same way
1068 as for Shell mode. To make multiple terminal emulators, rename the
1069 buffer @samp{*terminal*} to something different using @kbd{M-x
1070 rename-uniquely}, just as with Shell mode.
1072 Unlike Shell mode, Term mode does not track the current directory by
1073 examining your input. But some shells can tell Term what the current
1074 directory is. This is done automatically by @code{bash} version 1.15
1078 @subsection Term Mode
1082 The terminal emulator uses Term mode, which has two input modes. In
1083 line mode, Term basically acts like Shell mode; see @ref{Shell Mode}.
1084 In char mode, each character is sent directly to the inferior
1085 subshell, except for the Term escape character, normally @kbd{C-c}.
1087 To switch between line and char mode, use these commands:
1090 @kindex C-c C-j @r{(Term mode)}
1091 @findex term-char-mode
1093 Switch to line mode. Do nothing if already in line mode.
1095 @kindex C-c C-k @r{(Term mode)}
1096 @findex term-line-mode
1098 Switch to char mode. Do nothing if already in char mode.
1101 The following commands are only available in char mode:
1105 Send a literal @key{C-c} to the sub-shell.
1107 @item C-c @var{char}
1108 This is equivalent to @kbd{C-x @var{char}} in normal Emacs. For
1109 example, @kbd{C-c o} invokes the global binding of @kbd{C-x o}, which
1110 is normally @samp{other-window}.
1113 @node Paging in Term
1114 @subsection Page-At-A-Time Output
1115 @cindex page-at-a-time
1117 Term mode has a page-at-a-time feature. When enabled it makes
1118 output pause at the end of each screenful.
1121 @kindex C-c C-q @r{(Term mode)}
1122 @findex term-pager-toggle
1124 Toggle the page-at-a-time feature. This command works in both line
1125 and char modes. When page-at-a-time is enabled, the mode-line
1126 displays the word @samp{page}.
1129 With page-at-a-time enabled, whenever Term receives more than a
1130 screenful of output since your last input, it pauses, displaying
1131 @samp{**MORE**} in the mode-line. Type @key{SPC} to display the next
1132 screenful of output. Type @kbd{?} to see your other options. The
1133 interface is similar to the @code{more} program.
1136 @subsection Remote Host Shell
1138 @cindex connecting to remote host
1142 You can login to a remote computer, using whatever commands you
1143 would from a regular terminal (e.g.@: using the @code{telnet} or
1144 @code{rlogin} commands), from a Term window.
1146 A program that asks you for a password will normally suppress
1147 echoing of the password, so the password will not show up in the
1148 buffer. This will happen just as if you were using a real terminal,
1149 if the buffer is in char mode. If it is in line mode, the password is
1150 temporarily visible, but will be erased when you hit return. (This
1151 happens automatically; there is no special password processing.)
1153 When you log in to a different machine, you need to specify the type
1154 of terminal you're using, by setting the @env{TERM} environment
1155 variable in the environment for the remote login command. (If you use
1156 bash, you do that by writing the variable assignment before the remote
1157 login command, without separating comma.) Terminal types @samp{ansi}
1158 or @samp{vt100} will work on most systems.
1160 @c If you are talking to a Bourne-compatible
1161 @c shell, and your system understands the @env{TERMCAP} variable,
1162 @c you can use the command @kbd{M-x shell-send-termcap}, which
1163 @c sends a string specifying the terminal type and size.
1164 @c (This command is also useful after the window has changed size.)
1166 @c You can of course run @samp{gdb} on that remote computer. One useful
1167 @c trick: If you invoke gdb with the @code{--fullname} option,
1168 @c it will send special commands to Emacs that will cause Emacs to
1169 @c pop up the source files you're debugging. This will work
1170 @c whether or not gdb is running on a different computer than Emacs,
1171 @c as long as Emacs can access the source files specified by gdb.
1174 You cannot log in to a remote computer using the Shell mode.
1175 @c (This will change when Shell is re-written to use Term.)
1176 Instead, Emacs provides two commands for logging in to another computer
1177 and communicating with it through an Emacs buffer using Comint mode:
1180 @item M-x telnet @key{RET} @var{hostname} @key{RET}
1181 Set up a Telnet connection to the computer named @var{hostname}.
1182 @item M-x rlogin @key{RET} @var{hostname} @key{RET}
1183 Set up an Rlogin connection to the computer named @var{hostname}.
1187 Use @kbd{M-x telnet} to set up a Telnet connection to another
1188 computer. (Telnet is the standard Internet protocol for remote login.)
1189 It reads the host name of the other computer as an argument with the
1190 minibuffer. Once the connection is established, talking to the other
1191 computer works like talking to a subshell: you can edit input with the
1192 usual Emacs commands, and send it a line at a time by typing @key{RET}.
1193 The output is inserted in the Telnet buffer interspersed with the input.
1196 @vindex rlogin-explicit-args
1197 Use @kbd{M-x rlogin} to set up an Rlogin connection. Rlogin is
1198 another remote login communication protocol, essentially much like the
1199 Telnet protocol but incompatible with it, and supported only by certain
1200 systems. Rlogin's advantages are that you can arrange not to have to
1201 give your user name and password when communicating between two machines
1202 you frequently use, and that you can make an 8-bit-clean connection.
1203 (To do that in Emacs, set @code{rlogin-explicit-args} to @code{("-8")}
1204 before you run Rlogin.)
1206 @kbd{M-x rlogin} sets up the default file directory of the Emacs
1207 buffer to access the remote host via FTP (@pxref{File Names}), and it
1208 tracks the shell commands that change the current directory, just like
1211 @findex rlogin-directory-tracking-mode
1212 There are two ways of doing directory tracking in an Rlogin
1213 buffer---either with remote directory names
1214 @file{/@var{host}:@var{dir}/} or with local names (that works if the
1215 ``remote'' machine shares file systems with your machine of origin).
1216 You can use the command @code{rlogin-directory-tracking-mode} to switch
1217 modes. No argument means use remote directory names, a positive
1218 argument means use local names, and a negative argument means turn
1219 off directory tracking.
1223 @node Emacs Server, Printing, Shell, Top
1224 @section Using Emacs as a Server
1226 @cindex Emacs as a server
1227 @cindex server, using Emacs as
1228 @cindex @env{EDITOR} environment variable
1230 Various programs such as @code{mail} can invoke your choice of editor
1231 to edit a particular piece of text, such as a message that you are
1232 sending. By convention, most of these programs use the environment
1233 variable @env{EDITOR} to specify which editor to run. If you set
1234 @env{EDITOR} to @samp{emacs}, they invoke Emacs---but in an
1235 inconvenient fashion, by starting a new, separate Emacs process. This
1236 is inconvenient because it takes time and because the new Emacs process
1237 doesn't share the buffers in any existing Emacs process.
1239 You can arrange to use your existing Emacs process as the editor for
1240 programs like @code{mail} by using the Emacs client and Emacs server
1241 programs. Here is how.
1243 @cindex @env{TEXEDIT} environment variable
1244 First, the preparation. Within Emacs, call the function
1245 @code{server-start}. (Your @file{.emacs} file can do this automatically
1246 if you add the expression @code{(server-start)} to it.) Then, outside
1247 Emacs, set the @env{EDITOR} environment variable to @samp{emacsclient}.
1248 (Note that some programs use a different environment variable; for
1249 example, to make @TeX{} use @samp{emacsclient}, you should set the
1250 @env{TEXEDIT} environment variable to @samp{emacsclient +%d %s}.)
1254 Then, whenever any program invokes your specified @env{EDITOR}
1255 program, the effect is to send a message to your principal Emacs telling
1256 it to visit a file. (That's what the program @code{emacsclient} does.)
1257 Emacs displays the buffer immediately and you can immediately begin
1260 When you've finished editing that buffer, type @kbd{C-x #}
1261 (@code{server-edit}). This saves the file and sends a message back to
1262 the @code{emacsclient} program telling it to exit. The programs that
1263 use @env{EDITOR} wait for the ``editor'' (actually, @code{emacsclient})
1264 to exit. @kbd{C-x #} also checks for other pending external requests
1265 to edit various files, and selects the next such file.
1267 You can switch to a server buffer manually if you wish; you don't
1268 have to arrive at it with @kbd{C-x #}. But @kbd{C-x #} is the way to
1269 say that you are finished with one.
1271 @vindex server-kill-new-buffers
1272 @vindex server-temp-file-regexp
1273 Finishing with a server buffer also kills the buffer, unless it
1274 already existed in the Emacs session before the server asked to create
1275 it. However, if you set @code{server-kill-new-buffers} to @code{nil},
1276 then a different criterion is used: finishing with a server buffer
1277 kills it if the file name matches the regular expression
1278 @code{server-temp-file-regexp}. This is set up to distinguish certain
1279 ``temporary'' files.
1281 @vindex server-window
1282 If you set the variable @code{server-window} to a window or a frame,
1283 @kbd{C-x #} displays the server buffer in that window or in that frame.
1286 You can run multiple Emacs servers on the same machine by giving
1287 each one a unique ``server name'', using the variable
1288 @code{server-name}. For example, @kbd{M-x set-variable @key{RET}
1289 server-name @key{RET} foo @key{RET}} sets the server name to
1290 @samp{foo}. The @code{emacsclient} program can visit a server by name
1291 using the @samp{-s} option. @xref{Invoking emacsclient}.
1293 While @code{mail} or another application is waiting for
1294 @code{emacsclient} to finish, @code{emacsclient} does not read terminal
1295 input. So the terminal that @code{mail} was using is effectively
1296 blocked for the duration. In order to edit with your principal Emacs,
1297 you need to be able to use it without using that terminal. There are
1298 three ways to do this:
1302 Using a window system, run @code{mail} and the principal Emacs in two
1303 separate windows. While @code{mail} is waiting for @code{emacsclient},
1304 the window where it was running is blocked, but you can use Emacs by
1308 Using virtual terminals, run @code{mail} in one virtual terminal
1309 and run Emacs in another.
1312 Use Shell mode or Term mode in Emacs to run the other program such as
1313 @code{mail}; then, @code{emacsclient} blocks only the subshell under
1314 Emacs, and you can still use Emacs to edit the file.
1317 If you run @code{emacsclient} with the option @samp{--no-wait}, it
1318 returns immediately without waiting for you to ``finish'' the buffer
1319 in Emacs. Note that server buffers created in this way are not killed
1320 automatically when you finish with them.
1323 * Invoking emacsclient:: Emacs client startup options.
1326 @node Invoking emacsclient,, Emacs Server, Emacs Server
1327 @subsection Invoking @code{emacsclient}
1329 To run the @code{emacsclient} program, specify file names as arguments,
1330 and optionally line numbers as well. Do it like this:
1333 emacsclient @r{@{}@r{[}+@var{line}@r{[}@var{column}@r{]}@r{]} @var{filename}@r{@}}@dots{}
1337 This tells Emacs to visit each of the specified files; if you specify a
1338 line number for a certain file, Emacs moves to that line in the file.
1339 If you specify a column number as well, Emacs puts point on that column
1342 Ordinarily, @code{emacsclient} does not return until you use the
1343 @kbd{C-x #} command on each of these buffers. When that happens,
1344 Emacs sends a message to the @code{emacsclient} program telling it to
1347 But if you use the option @samp{-n} or @samp{--no-wait} when running
1348 @code{emacsclient}, then it returns immediately. (You can take as
1349 long as you like to edit the files in Emacs.)
1351 The option @samp{--alternate-editor=@var{command}} is useful when
1352 running @code{emacsclient} in a script. It specifies a command to run
1353 if @code{emacsclient} fails to contact Emacs. For example, the
1354 following setting for the @var{EDITOR} environment variable will
1355 always give you an editor, even if no Emacs server is running:
1358 EDITOR="emacsclient --alternate-editor emacs +%d %s"
1362 The environment variable @var{ALTERNATE_EDITOR} has the same effect, but
1363 the value of the @samp{--alternate-editor} takes precedence.
1366 Alternatively, the file @file{etc/emacs.bash} defines a bash
1367 function which will communicate with a running Emacs server, or start
1370 If you use several displays, you can tell Emacs on which display to
1371 open the given files with the option @samp{--display=@var{DISPLAY}}.
1372 This can be used typically when connecting from home to an Emacs
1373 server running on your machine at your workplace.
1375 If there is more than one Emacs server running, you can specify a
1376 server name with the option @samp{-s @var{name}}.
1378 You can also use @code{emacsclient} to execute any piece of Emacs Lisp
1379 code, using the option @samp{--eval}. When this option is given, the
1380 rest of the arguments is not taken as a list of files to visit but as
1381 a list of expressions to evaluate.
1383 @node Printing, Sorting, Emacs Server, Top
1384 @section Printing Hard Copies
1388 Emacs provides commands for printing hard copies of either an entire
1389 buffer or just part of one, with or without page headers. You can
1390 invoke the printing commands directly, as detailed in the following
1391 section, or using the @samp{File} menu on the menu bar. See also the
1392 hardcopy commands of Dired (@pxref{Misc File Ops}) and the diary
1393 (@pxref{Displaying the Diary}).
1396 @item M-x print-buffer
1397 Print hardcopy of current buffer with page headings containing the file
1398 name and page number.
1399 @item M-x lpr-buffer
1400 Print hardcopy of current buffer without page headings.
1401 @item M-x print-region
1402 Like @code{print-buffer} but print only the current region.
1403 @item M-x lpr-region
1404 Like @code{lpr-buffer} but print only the current region.
1407 @findex print-buffer
1408 @findex print-region
1411 @vindex lpr-switches
1412 The hardcopy commands (aside from the Postscript commands) pass extra
1413 switches to the @code{lpr} program based on the value of the variable
1414 @code{lpr-switches}. Its value should be a list of strings, each string
1415 an option starting with @samp{-}. For example, to specify a line width
1416 of 80 columns for all the printing you do in Emacs, set
1417 @code{lpr-switches} like this:
1420 (setq lpr-switches '("-w80"))
1423 @vindex printer-name
1424 You can specify the printer to use by setting the variable
1425 @code{printer-name}.
1427 @vindex lpr-headers-switches
1428 @vindex lpr-commands
1429 @vindex lpr-add-switches
1430 The variable @code{lpr-command} specifies the name of the printer
1431 program to run; the default value depends on your operating system type.
1432 On most systems, the default is @code{"lpr"}. The variable
1433 @code{lpr-headers-switches} similarly specifies the extra switches to
1434 use to make page headers. The variable @code{lpr-add-switches} controls
1435 whether to supply @samp{-T} and @samp{-J} options (suitable for
1436 @code{lpr}) to the printer program: @code{nil} means don't add them.
1437 @code{lpr-add-switches} should be @code{nil} if your printer program is
1438 not compatible with @code{lpr}.
1441 * PostScript:: Printing buffers or regions as PostScript.
1442 * PostScript Variables:: Customizing the PostScript printing commands.
1443 * Printing Package:: An optional advanced printing interface.
1446 @node PostScript, PostScript Variables,, Printing
1447 @section PostScript Hardcopy
1449 These commands convert buffer contents to PostScript,
1450 either printing it or leaving it in another Emacs buffer.
1453 @item M-x ps-print-buffer
1454 Print hardcopy of the current buffer in PostScript form.
1455 @item M-x ps-print-region
1456 Print hardcopy of the current region in PostScript form.
1457 @item M-x ps-print-buffer-with-faces
1458 Print hardcopy of the current buffer in PostScript form, showing the
1459 faces used in the text by means of PostScript features.
1460 @item M-x ps-print-region-with-faces
1461 Print hardcopy of the current region in PostScript form, showing the
1462 faces used in the text.
1463 @item M-x ps-spool-buffer
1464 Generate PostScript for the current buffer text.
1465 @item M-x ps-spool-region
1466 Generate PostScript for the current region.
1467 @item M-x ps-spool-buffer-with-faces
1468 Generate PostScript for the current buffer, showing the faces used.
1469 @item M-x ps-spool-region-with-faces
1470 Generate PostScript for the current region, showing the faces used.
1472 Generates/prints PostScript for the current buffer as if handwritten.
1475 @findex ps-print-region
1476 @findex ps-print-buffer
1477 @findex ps-print-region-with-faces
1478 @findex ps-print-buffer-with-faces
1479 The PostScript commands, @code{ps-print-buffer} and
1480 @code{ps-print-region}, print buffer contents in PostScript form. One
1481 command prints the entire buffer; the other, just the region. The
1482 corresponding @samp{-with-faces} commands,
1483 @code{ps-print-buffer-with-faces} and @code{ps-print-region-with-faces},
1484 use PostScript features to show the faces (fonts and colors) in the text
1485 properties of the text being printed.
1487 If you are using a color display, you can print a buffer of program
1488 code with color highlighting by turning on Font-Lock mode in that
1489 buffer, and using @code{ps-print-buffer-with-faces}.
1491 @findex ps-spool-region
1492 @findex ps-spool-buffer
1493 @findex ps-spool-region-with-faces
1494 @findex ps-spool-buffer-with-faces
1495 The commands whose names have @samp{spool} instead of @samp{print}
1496 generate the PostScript output in an Emacs buffer instead of sending
1501 @kbd{M-x handwrite} is more frivolous. It generates a PostScript
1502 rendition of the current buffer as a cursive handwritten document. It
1503 can be customized in group @code{handwrite}. This function only
1504 supports ISO 8859-1 characters.
1507 The following section describes variables for customizing these commands.
1510 @node PostScript Variables, Printing Package, PostScript, Printing
1511 @section Variables for PostScript Hardcopy
1513 @vindex ps-lpr-command
1514 @vindex ps-lpr-switches
1515 @vindex ps-printer-name
1516 All the PostScript hardcopy commands use the variables
1517 @code{ps-lpr-command} and @code{ps-lpr-switches} to specify how to print
1518 the output. @code{ps-lpr-command} specifies the command name to run,
1519 @code{ps-lpr-switches} specifies command line options to use, and
1520 @code{ps-printer-name} specifies the printer. If you don't set the
1521 first two variables yourself, they take their initial values from
1522 @code{lpr-command} and @code{lpr-switches}. If @code{ps-printer-name}
1523 is @code{nil}, @code{printer-name} is used.
1525 @vindex ps-print-header
1526 The variable @code{ps-print-header} controls whether these commands
1527 add header lines to each page---set it to @code{nil} to turn headers
1530 @cindex color emulation on black-and-white printers
1531 @vindex ps-print-color-p
1532 If your printer doesn't support colors, you should turn off color
1533 processing by setting @code{ps-print-color-p} to @code{nil}. By
1534 default, if the display supports colors, Emacs produces hardcopy output
1535 with color information; on black-and-white printers, colors are emulated
1536 with shades of gray. This might produce illegible output, even if your
1537 screen colors only use shades of gray.
1539 @vindex ps-use-face-background
1540 By default, PostScript printing ignores the background colors of the
1541 faces, unless the variable @code{ps-use-face-background} is
1542 non-@code{nil}. This is to avoid unwanted interference with the zebra
1543 stripes and background image/text.
1545 @vindex ps-paper-type
1546 @vindex ps-page-dimensions-database
1547 The variable @code{ps-paper-type} specifies which size of paper to
1548 format for; legitimate values include @code{a4}, @code{a3},
1549 @code{a4small}, @code{b4}, @code{b5}, @code{executive}, @code{ledger},
1550 @code{legal}, @code{letter}, @code{letter-small}, @code{statement},
1551 @code{tabloid}. The default is @code{letter}. You can define
1552 additional paper sizes by changing the variable
1553 @code{ps-page-dimensions-database}.
1555 @vindex ps-landscape-mode
1556 The variable @code{ps-landscape-mode} specifies the orientation of
1557 printing on the page. The default is @code{nil}, which stands for
1558 ``portrait'' mode. Any non-@code{nil} value specifies ``landscape''
1561 @vindex ps-number-of-columns
1562 The variable @code{ps-number-of-columns} specifies the number of
1563 columns; it takes effect in both landscape and portrait mode. The
1566 @vindex ps-font-family
1567 @vindex ps-font-size
1568 @vindex ps-font-info-database
1569 The variable @code{ps-font-family} specifies which font family to use
1570 for printing ordinary text. Legitimate values include @code{Courier},
1571 @code{Helvetica}, @code{NewCenturySchlbk}, @code{Palatino} and
1572 @code{Times}. The variable @code{ps-font-size} specifies the size of
1573 the font for ordinary text. It defaults to 8.5 points.
1575 @vindex ps-multibyte-buffer
1576 @cindex Intlfonts for PostScript printing
1577 @cindex fonts for PostScript printing
1578 Emacs supports more scripts and characters than a typical PostScript
1579 printer. Thus, some of the characters in your buffer might not be
1580 printable using the fonts built into your printer. You can augment
1581 the fonts supplied with the printer with those from the GNU Intlfonts
1582 package, or you can instruct Emacs to use Intlfonts exclusively. The
1583 variable @code{ps-multibyte-buffer} controls this: the default value,
1584 @code{nil}, is appropriate for printing @acronym{ASCII} and Latin-1
1585 characters; a value of @code{non-latin-printer} is for printers which
1586 have the fonts for @acronym{ASCII}, Latin-1, Japanese, and Korean
1587 characters built into them. A value of @code{bdf-font} arranges for
1588 the BDF fonts from the Intlfonts package to be used for @emph{all}
1589 characters. Finally, a value of @code{bdf-font-except-latin}
1590 instructs the printer to use built-in fonts for @acronym{ASCII} and Latin-1
1591 characters, and Intlfonts BDF fonts for the rest.
1593 @vindex bdf-directory-list
1594 To be able to use the BDF fonts, Emacs needs to know where to find
1595 them. The variable @code{bdf-directory-list} holds the list of
1596 directories where Emacs should look for the fonts; the default value
1597 includes a single directory @file{/usr/local/share/emacs/fonts/bdf}.
1599 Many other customization variables for these commands are defined and
1600 described in the Lisp files @file{ps-print.el} and @file{ps-mule.el}.
1602 @node Printing Package,, PostScript Variables, Printing
1603 @section Printing Package
1604 @cindex Printing package
1606 The basic Emacs facilities for printing hardcopy can be extended
1607 using the Printing package. This provides an easy-to-use interface
1608 for choosing what to print, previewing PostScript files before
1609 printing, and setting various printing options such as print headers,
1610 landscape or portrait modes, duplex modes, and so forth. On GNU/Linux
1611 or Unix systems, the Printing package relies on the @file{gs} and
1612 @file{gv} utilities, which are distributed as part of the GhostScript
1613 program. On MS-Windows, the @file{gstools} port of Ghostscript can be
1616 @findex pr-interface
1617 To use the Printing package, add @code{(require 'printing)} to your
1618 init file (@pxref{Init File}), followed by @code{(pr-update-menus)}.
1619 This function replaces the usual printing commands in the menu bar
1620 with a @samp{Printing} submenu that contains various printing options.
1621 You can also type @kbd{M-x pr-interface RET}; this creates a
1622 @samp{*Printing Interface*} buffer, similar to a customization buffer,
1623 where you can set the printing options. After selecting what and how
1624 to print, you start the print job using the @samp{Print} button (click
1625 @kbd{mouse-2} on it, or move point over it and type @kbd{RET}). For
1626 further information on the various options, use the @samp{Interface
1629 @node Sorting, Narrowing, Printing, Top
1630 @section Sorting Text
1633 Emacs provides several commands for sorting text in the buffer. All
1634 operate on the contents of the region.
1635 They divide the text of the region into many @dfn{sort records},
1636 identify a @dfn{sort key} for each record, and then reorder the records
1637 into the order determined by the sort keys. The records are ordered so
1638 that their keys are in alphabetical order, or, for numeric sorting, in
1639 numeric order. In alphabetic sorting, all upper-case letters `A' through
1640 `Z' come before lower-case `a', in accord with the @acronym{ASCII} character
1643 The various sort commands differ in how they divide the text into sort
1644 records and in which part of each record is used as the sort key. Most of
1645 the commands make each line a separate sort record, but some commands use
1646 paragraphs or pages as sort records. Most of the sort commands use each
1647 entire sort record as its own sort key, but some use only a portion of the
1648 record as the sort key.
1651 @findex sort-paragraphs
1654 @findex sort-numeric-fields
1655 @vindex sort-numeric-base
1657 @item M-x sort-lines
1658 Divide the region into lines, and sort by comparing the entire
1659 text of a line. A numeric argument means sort into descending order.
1661 @item M-x sort-paragraphs
1662 Divide the region into paragraphs, and sort by comparing the entire
1663 text of a paragraph (except for leading blank lines). A numeric
1664 argument means sort into descending order.
1666 @item M-x sort-pages
1667 Divide the region into pages, and sort by comparing the entire
1668 text of a page (except for leading blank lines). A numeric
1669 argument means sort into descending order.
1671 @item M-x sort-fields
1672 Divide the region into lines, and sort by comparing the contents of
1673 one field in each line. Fields are defined as separated by
1674 whitespace, so the first run of consecutive non-whitespace characters
1675 in a line constitutes field 1, the second such run constitutes field
1678 Specify which field to sort by with a numeric argument: 1 to sort by
1679 field 1, etc. A negative argument means count fields from the right
1680 instead of from the left; thus, minus 1 means sort by the last field.
1681 If several lines have identical contents in the field being sorted, they
1682 keep the same relative order that they had in the original buffer.
1684 @item M-x sort-numeric-fields
1685 Like @kbd{M-x sort-fields} except the specified field is converted
1686 to an integer for each line, and the numbers are compared. @samp{10}
1687 comes before @samp{2} when considered as text, but after it when
1688 considered as a number. By default, numbers are interpreted according
1689 to @code{sort-numeric-base}, but numbers beginning with @samp{0x} or
1690 @samp{0} are interpreted as hexadecimal and octal, respectively.
1692 @item M-x sort-columns
1693 Like @kbd{M-x sort-fields} except that the text within each line
1694 used for comparison comes from a fixed range of columns. See below
1697 @item M-x reverse-region
1698 Reverse the order of the lines in the region. This is useful for
1699 sorting into descending order by fields or columns, since those sort
1700 commands do not have a feature for doing that.
1703 For example, if the buffer contains this:
1706 On systems where clash detection (locking of files being edited) is
1707 implemented, Emacs also checks the first time you modify a buffer
1708 whether the file has changed on disk since it was last visited or
1709 saved. If it has, you are asked to confirm that you want to change
1714 applying @kbd{M-x sort-lines} to the entire buffer produces this:
1717 On systems where clash detection (locking of files being edited) is
1718 implemented, Emacs also checks the first time you modify a buffer
1719 saved. If it has, you are asked to confirm that you want to change
1721 whether the file has changed on disk since it was last visited or
1725 where the upper-case @samp{O} sorts before all lower-case letters. If
1726 you use @kbd{C-u 2 M-x sort-fields} instead, you get this:
1729 implemented, Emacs also checks the first time you modify a buffer
1730 saved. If it has, you are asked to confirm that you want to change
1732 On systems where clash detection (locking of files being edited) is
1733 whether the file has changed on disk since it was last visited or
1737 where the sort keys were @samp{Emacs}, @samp{If}, @samp{buffer},
1738 @samp{systems} and @samp{the}.
1740 @findex sort-columns
1741 @kbd{M-x sort-columns} requires more explanation. You specify the
1742 columns by putting point at one of the columns and the mark at the other
1743 column. Because this means you cannot put point or the mark at the
1744 beginning of the first line of the text you want to sort, this command
1745 uses an unusual definition of ``region'': all of the line point is in is
1746 considered part of the region, and so is all of the line the mark is in,
1747 as well as all the lines in between.
1749 For example, to sort a table by information found in columns 10 to 15,
1750 you could put the mark on column 10 in the first line of the table, and
1751 point on column 15 in the last line of the table, and then run
1752 @code{sort-columns}. Equivalently, you could run it with the mark on
1753 column 15 in the first line and point on column 10 in the last line.
1755 This can be thought of as sorting the rectangle specified by point and
1756 the mark, except that the text on each line to the left or right of the
1757 rectangle moves along with the text inside the rectangle.
1760 @vindex sort-fold-case
1761 Many of the sort commands ignore case differences when comparing, if
1762 @code{sort-fold-case} is non-@code{nil}.
1764 @node Narrowing, Two-Column, Sorting, Top
1769 @cindex accessible portion
1771 @dfn{Narrowing} means focusing in on some portion of the buffer,
1772 making the rest temporarily inaccessible. The portion which you can
1773 still get to is called the @dfn{accessible portion}. Canceling the
1774 narrowing, which makes the entire buffer once again accessible, is
1775 called @dfn{widening}. The amount of narrowing in effect in a buffer at
1776 any time is called the buffer's @dfn{restriction}.
1778 Narrowing can make it easier to concentrate on a single subroutine or
1779 paragraph by eliminating clutter. It can also be used to restrict the
1780 range of operation of a replace command or repeating keyboard macro.
1784 Narrow down to between point and mark (@code{narrow-to-region}).
1786 Widen to make the entire buffer accessible again (@code{widen}).
1788 Narrow down to the current page (@code{narrow-to-page}).
1790 Narrow down to the current defun (@code{narrow-to-defun}).
1793 When you have narrowed down to a part of the buffer, that part appears
1794 to be all there is. You can't see the rest, you can't move into it
1795 (motion commands won't go outside the accessible part), you can't change
1796 it in any way. However, it is not gone, and if you save the file all
1797 the inaccessible text will be saved. The word @samp{Narrow} appears in
1798 the mode line whenever narrowing is in effect.
1801 @findex narrow-to-region
1802 The primary narrowing command is @kbd{C-x n n} (@code{narrow-to-region}).
1803 It sets the current buffer's restrictions so that the text in the current
1804 region remains accessible, but all text before the region or after the
1805 region is inaccessible. Point and mark do not change.
1808 @findex narrow-to-page
1810 @findex narrow-to-defun
1811 Alternatively, use @kbd{C-x n p} (@code{narrow-to-page}) to narrow
1812 down to the current page. @xref{Pages}, for the definition of a page.
1813 @kbd{C-x n d} (@code{narrow-to-defun}) narrows down to the defun
1814 containing point (@pxref{Defuns}).
1818 The way to cancel narrowing is to widen with @kbd{C-x n w}
1819 (@code{widen}). This makes all text in the buffer accessible again.
1821 You can get information on what part of the buffer you are narrowed down
1822 to using the @kbd{C-x =} command. @xref{Position Info}.
1824 Because narrowing can easily confuse users who do not understand it,
1825 @code{narrow-to-region} is normally a disabled command. Attempting to use
1826 this command asks for confirmation and gives you the option of enabling it;
1827 if you enable the command, confirmation will no longer be required for
1828 it. @xref{Disabling}.
1830 @node Two-Column, Editing Binary Files, Narrowing, Top
1831 @section Two-Column Editing
1832 @cindex two-column editing
1833 @cindex splitting columns
1834 @cindex columns, splitting
1836 Two-column mode lets you conveniently edit two side-by-side columns of
1837 text. It uses two side-by-side windows, each showing its own
1840 There are three ways to enter two-column mode:
1843 @item @kbd{@key{F2} 2} or @kbd{C-x 6 2}
1846 @findex 2C-two-columns
1847 Enter two-column mode with the current buffer on the left, and on the
1848 right, a buffer whose name is based on the current buffer's name
1849 (@code{2C-two-columns}). If the right-hand buffer doesn't already
1850 exist, it starts out empty; the current buffer's contents are not
1853 This command is appropriate when the current buffer is empty or contains
1854 just one column and you want to add another column.
1856 @item @kbd{@key{F2} s} or @kbd{C-x 6 s}
1860 Split the current buffer, which contains two-column text, into two
1861 buffers, and display them side by side (@code{2C-split}). The current
1862 buffer becomes the left-hand buffer, but the text in the right-hand
1863 column is moved into the right-hand buffer. The current column
1864 specifies the split point. Splitting starts with the current line and
1865 continues to the end of the buffer.
1867 This command is appropriate when you have a buffer that already contains
1868 two-column text, and you wish to separate the columns temporarily.
1870 @item @kbd{@key{F2} b @var{buffer} @key{RET}}
1871 @itemx @kbd{C-x 6 b @var{buffer} @key{RET}}
1874 @findex 2C-associate-buffer
1875 Enter two-column mode using the current buffer as the left-hand buffer,
1876 and using buffer @var{buffer} as the right-hand buffer
1877 (@code{2C-associate-buffer}).
1880 @kbd{@key{F2} s} or @kbd{C-x 6 s} looks for a column separator, which
1881 is a string that appears on each line between the two columns. You can
1882 specify the width of the separator with a numeric argument to
1883 @kbd{@key{F2} s}; that many characters, before point, constitute the
1884 separator string. By default, the width is 1, so the column separator
1885 is the character before point.
1887 When a line has the separator at the proper place, @kbd{@key{F2} s}
1888 puts the text after the separator into the right-hand buffer, and
1889 deletes the separator. Lines that don't have the column separator at
1890 the proper place remain unsplit; they stay in the left-hand buffer, and
1891 the right-hand buffer gets an empty line to correspond. (This is the
1892 way to write a line that ``spans both columns while in two-column
1893 mode'': write it in the left-hand buffer, and put an empty line in the
1899 The command @kbd{C-x 6 @key{RET}} or @kbd{@key{F2} @key{RET}}
1900 (@code{2C-newline}) inserts a newline in each of the two buffers at
1901 corresponding positions. This is the easiest way to add a new line to
1902 the two-column text while editing it in split buffers.
1907 When you have edited both buffers as you wish, merge them with
1908 @kbd{@key{F2} 1} or @kbd{C-x 6 1} (@code{2C-merge}). This copies the
1909 text from the right-hand buffer as a second column in the other buffer.
1910 To go back to two-column editing, use @kbd{@key{F2} s}.
1914 @findex 2C-dissociate
1915 Use @kbd{@key{F2} d} or @kbd{C-x 6 d} to dissociate the two buffers,
1916 leaving each as it stands (@code{2C-dissociate}). If the other buffer,
1917 the one not current when you type @kbd{@key{F2} d}, is empty,
1918 @kbd{@key{F2} d} kills it.
1920 @node Editing Binary Files, Saving Emacs Sessions, Two-Column, Top
1921 @section Editing Binary Files
1925 @cindex editing binary files
1927 There is a special major mode for editing binary files: Hexl mode. To
1928 use it, use @kbd{M-x hexl-find-file} instead of @kbd{C-x C-f} to visit
1929 the file. This command converts the file's contents to hexadecimal and
1930 lets you edit the translation. When you save the file, it is converted
1931 automatically back to binary.
1933 You can also use @kbd{M-x hexl-mode} to translate an existing buffer
1934 into hex. This is useful if you visit a file normally and then discover
1935 it is a binary file.
1937 Ordinary text characters overwrite in Hexl mode. This is to reduce
1938 the risk of accidentally spoiling the alignment of data in the file.
1939 There are special commands for insertion. Here is a list of the
1940 commands of Hexl mode:
1942 @c I don't think individual index entries for these commands are useful--RMS.
1945 Insert a byte with a code typed in decimal.
1948 Insert a byte with a code typed in octal.
1951 Insert a byte with a code typed in hex.
1954 Move to the beginning of a 1k-byte ``page.''
1957 Move to the end of a 1k-byte ``page.''
1960 Move to an address specified in hex.
1963 Move to an address specified in decimal.
1966 Leave Hexl mode, going back to the major mode this buffer had before you
1967 invoked @code{hexl-mode}.
1971 Other Hexl commands let you insert strings (sequences) of binary
1972 bytes, move by @code{short}s or @code{int}s, etc.; type @kbd{C-h a
1973 hexl-@key{RET}} for details.
1976 @node Saving Emacs Sessions, Recursive Edit, Editing Binary Files, Top
1977 @section Saving Emacs Sessions
1978 @cindex saving sessions
1979 @cindex restore session
1980 @cindex remember editing session
1981 @cindex reload files
1984 Use the desktop library to save the state of Emacs from one session
1985 to another. Once you save the Emacs @dfn{desktop}---the buffers,
1986 their file names, major modes, buffer positions, and so on---then
1987 subsequent Emacs sessions reload the saved desktop.
1989 @findex desktop-save
1990 @vindex desktop-save-mode
1991 You can save the desktop manually with the command @kbd{M-x
1992 desktop-save}. You can also enable automatic desktop saving when
1993 you exit Emacs: use the Customization buffer (@pxref{Easy
1994 Customization}) to set @code{desktop-save-mode} to @code{t} for future
1995 sessions, or add this line in your @file{~/.emacs} file:
1998 (desktop-save-mode 1)
2001 @findex desktop-change-dir
2002 @findex desktop-revert
2003 When Emacs starts, it looks for a saved desktop in the current
2004 directory. Thus, you can have separate saved desktops in different
2005 directories, and the starting directory determines which one Emacs
2006 reloads. You can save the current desktop and reload one saved in
2007 another directory by typing @kbd{M-x desktop-change-dir}. Typing
2008 @kbd{M-x desktop-revert} reverts to the desktop previously reloaded.
2010 Specify the option @samp{--no-desktop} on the command line when you
2011 don't want it to reload any saved desktop. This turns off
2012 @code{desktop-save-mode} for the current session.
2014 @vindex desktop-restore-eager
2015 By default, all the buffers in the desktop are restored at one go.
2016 However, this may be slow if there are a lot of buffers in the
2017 desktop. You can specify the maximum number of buffers to restore
2018 immediately with the variable @code{desktop-restore-eager}; the
2019 remaining buffers are restored ``lazily,'' when Emacs is idle.
2021 @findex desktop-clear
2022 @vindex desktop-globals-to-clear
2023 @vindex desktop-clear-preserve-buffers-regexp
2024 Type @kbd{M-x desktop-clear} to empty the Emacs desktop. This kills
2025 all buffers except for internal ones, and clears the global variables
2026 listed in @code{desktop-globals-to-clear}. If you want this to
2027 preserve certain buffers, customize the variable
2028 @code{desktop-clear-preserve-buffers-regexp}, whose value is a regular
2029 expression matching the names of buffers not to kill.
2031 If you want to save minibuffer history from one session to
2032 another, use the @code{savehist} library.
2034 @node Recursive Edit, Emulation, Saving Emacs Sessions, Top
2035 @section Recursive Editing Levels
2036 @cindex recursive editing level
2037 @cindex editing level, recursive
2039 A @dfn{recursive edit} is a situation in which you are using Emacs
2040 commands to perform arbitrary editing while in the middle of another
2041 Emacs command. For example, when you type @kbd{C-r} inside of a
2042 @code{query-replace}, you enter a recursive edit in which you can change
2043 the current buffer. On exiting from the recursive edit, you go back to
2044 the @code{query-replace}.
2047 @findex exit-recursive-edit
2048 @cindex exiting recursive edit
2049 @dfn{Exiting} the recursive edit means returning to the unfinished
2050 command, which continues execution. The command to exit is @kbd{C-M-c}
2051 (@code{exit-recursive-edit}).
2053 You can also @dfn{abort} the recursive edit. This is like exiting,
2054 but also quits the unfinished command immediately. Use the command
2055 @kbd{C-]} (@code{abort-recursive-edit}) to do this. @xref{Quitting}.
2057 The mode line shows you when you are in a recursive edit by displaying
2058 square brackets around the parentheses that always surround the major and
2059 minor mode names. Every window's mode line shows this in the same way,
2060 since being in a recursive edit is true of Emacs as a whole rather than
2061 any particular window or buffer.
2063 It is possible to be in recursive edits within recursive edits. For
2064 example, after typing @kbd{C-r} in a @code{query-replace}, you may type a
2065 command that enters the debugger. This begins a recursive editing level
2066 for the debugger, within the recursive editing level for @kbd{C-r}.
2067 Mode lines display a pair of square brackets for each recursive editing
2068 level currently in progress.
2070 Exiting the inner recursive edit (such as with the debugger @kbd{c}
2071 command) resumes the command running in the next level up. When that
2072 command finishes, you can then use @kbd{C-M-c} to exit another recursive
2073 editing level, and so on. Exiting applies to the innermost level only.
2074 Aborting also gets out of only one level of recursive edit; it returns
2075 immediately to the command level of the previous recursive edit. If you
2076 wish, you can then abort the next recursive editing level.
2078 Alternatively, the command @kbd{M-x top-level} aborts all levels of
2079 recursive edits, returning immediately to the top-level command reader.
2081 The text being edited inside the recursive edit need not be the same text
2082 that you were editing at top level. It depends on what the recursive edit
2083 is for. If the command that invokes the recursive edit selects a different
2084 buffer first, that is the buffer you will edit recursively. In any case,
2085 you can switch buffers within the recursive edit in the normal manner (as
2086 long as the buffer-switching keys have not been rebound). You could
2087 probably do all the rest of your editing inside the recursive edit,
2088 visiting files and all. But this could have surprising effects (such as
2089 stack overflow) from time to time. So remember to exit or abort the
2090 recursive edit when you no longer need it.
2092 In general, we try to minimize the use of recursive editing levels in
2093 GNU Emacs. This is because they constrain you to ``go back'' in a
2094 particular order---from the innermost level toward the top level. When
2095 possible, we present different activities in separate buffers so that
2096 you can switch between them as you please. Some commands switch to a
2097 new major mode which provides a command to switch back. These
2098 approaches give you more flexibility to go back to unfinished tasks in
2099 the order you choose.
2101 @node Emulation, Hyperlinking, Recursive Edit, Top
2103 @cindex emulating other editors
2104 @cindex other editors
2107 @cindex PC key bindings
2108 @cindex scrolling all windows
2109 @cindex PC selection
2110 @cindex Motif key bindings
2111 @cindex Macintosh key bindings
2114 GNU Emacs can be programmed to emulate (more or less) most other
2115 editors. Standard facilities can emulate these:
2118 @item CRiSP/Brief (PC editor)
2120 @vindex crisp-override-meta-x
2121 @findex scroll-all-mode
2123 @cindex Brief emulation
2124 @cindex emulation of Brief
2126 You can turn on key bindings to emulate the CRiSP/Brief editor with
2127 @kbd{M-x crisp-mode}. Note that this rebinds @kbd{M-x} to exit Emacs
2128 unless you set the variable @code{crisp-override-meta-x}. You can
2129 also use the command @kbd{M-x scroll-all-mode} or set the variable
2130 @code{crisp-load-scroll-all} to emulate CRiSP's scroll-all feature
2131 (scrolling all windows together).
2133 @item EDT (DEC VMS editor)
2134 @findex edt-emulation-on
2135 @findex edt-emulation-off
2136 Turn on EDT emulation with @kbd{M-x edt-emulation-on}. @kbd{M-x
2137 edt-emulation-off} restores normal Emacs command bindings.
2139 Most of the EDT emulation commands are keypad keys, and most standard
2140 Emacs key bindings are still available. The EDT emulation rebindings
2141 are done in the global keymap, so there is no problem switching
2142 buffers or major modes while in EDT emulation.
2144 @item TPU (DEC VMS editor)
2147 @kbd{M-x tpu-edt-on} turns on emulation of the TPU editor emulating EDT.
2149 @item vi (Berkeley editor)
2151 Viper is the newest emulator for vi. It implements several levels of
2152 emulation; level 1 is closest to vi itself, while level 5 departs
2153 somewhat from strict emulation to take advantage of the capabilities of
2154 Emacs. To invoke Viper, type @kbd{M-x viper-mode}; it will guide you
2155 the rest of the way and ask for the emulation level. @inforef{Top,
2158 @item vi (another emulator)
2160 @kbd{M-x vi-mode} enters a major mode that replaces the previously
2161 established major mode. All of the vi commands that, in real vi, enter
2162 ``input'' mode are programmed instead to return to the previous major
2163 mode. Thus, ordinary Emacs serves as vi's ``input'' mode.
2165 Because vi emulation works through major modes, it does not work
2166 to switch buffers during emulation. Return to normal Emacs first.
2168 If you plan to use vi emulation much, you probably want to bind a key
2169 to the @code{vi-mode} command.
2171 @item vi (alternate emulator)
2173 @kbd{M-x vip-mode} invokes another vi emulator, said to resemble real vi
2174 more thoroughly than @kbd{M-x vi-mode}. ``Input'' mode in this emulator
2175 is changed from ordinary Emacs so you can use @key{ESC} to go back to
2176 emulated vi command mode. To get from emulated vi command mode back to
2177 ordinary Emacs, type @kbd{C-z}.
2179 This emulation does not work through major modes, and it is possible
2180 to switch buffers in various ways within the emulator. It is not
2181 so necessary to assign a key to the command @code{vip-mode} as
2182 it is with @code{vi-mode} because terminating insert mode does
2185 @inforef{Top, VIP, vip}, for full information.
2187 @item WordStar (old wordprocessor)
2188 @findex wordstar-mode
2189 @kbd{M-x wordstar-mode} provides a major mode with WordStar-like
2193 @node Hyperlinking, Thumbnails, Emulation, Top
2194 @section Hyperlinking and Navigation Features
2196 @cindex hyperlinking
2198 Various modes documented elsewhere have hypertext features so that
2199 you can follow links, usually by clicking @kbd{Mouse-2} on the link or
2200 typing @key{RET} while point is on the link. Clicking @kbd{Mouse-1}
2201 quickly on the link also follows it. (Hold @kbd{Mouse-1} for longer
2202 if you want to set point instead.)
2204 Info mode, Help mode and the Dired-like modes are examples of modes
2205 that have links in the buffer. The Tags facility links between uses
2206 and definitions in source files, see @ref{Tags}. Imenu provides
2207 navigation amongst items indexed in the current buffer, see
2208 @ref{Imenu}. Info-lookup provides mode-specific lookup of definitions
2209 in Info indexes, see @ref{Documentation}. Speedbar maintains a frame
2210 in which links to files, and locations in files are displayed, see
2213 Other non-mode-specific facilities described in this section enable
2214 following links from the current buffer in a context-sensitive
2218 * Browse-URL:: Following URLs.
2219 * Goto-address:: Activating URLs.
2220 * FFAP:: Finding files etc. at point.
2224 @subsection Following URLs
2225 @cindex World Wide Web
2228 @findex browse-url-at-point
2229 @findex browse-url-at-mouse
2234 @item M-x browse-url @key{RET} @var{url} @key{RET}
2235 Load a URL into a Web browser.
2238 The Browse-URL package provides facilities for following URLs specifying
2239 links on the World Wide Web. Usually this works by invoking a web
2240 browser, but you can, for instance, arrange to invoke @code{compose-mail}
2241 from @samp{mailto:} URLs.
2243 The general way to use this feature is to type @kbd{M-x browse-url},
2244 which displays a specified URL. If point is located near a plausible
2245 URL, that URL is used as the default. Other commands are available
2246 which you might like to bind to keys, such as
2247 @code{browse-url-at-point} and @code{browse-url-at-mouse}.
2249 @vindex browse-url-browser-function
2250 You can customize Browse-URL's behavior via various options in the
2251 @code{browse-url} Customize group, particularly
2252 @code{browse-url-browser-function}. You can invoke actions dependent
2253 on the type of URL by defining @code{browse-url-browser-function} as
2254 an association list. The package's commentary available via @kbd{C-h
2255 p} under the @samp{hypermedia} keyword provides more information.
2256 Packages with facilities for following URLs should always go through
2257 Browse-URL, so that the customization options for Browse-URL will
2258 affect all browsing in Emacs.
2261 @subsection Activating URLs
2262 @findex goto-address
2263 @cindex Goto-address
2264 @cindex URLs, activating
2267 @item M-x goto-address
2268 Activate URLs and e-mail addresses in the current buffer.
2271 You can make URLs in the current buffer active with @kbd{M-x
2272 goto-address}. This finds all the URLs in the buffer, and establishes
2273 bindings for @kbd{Mouse-2} and @kbd{C-c @key{RET}} on them. After
2274 activation, if you click on a URL with @kbd{Mouse-2}, or move to a URL
2275 and type @kbd{C-c @key{RET}}, that will display the web page that the URL
2276 specifies. For a @samp{mailto} URL, it sends mail instead, using your
2277 selected mail-composition method (@pxref{Mail Methods}).
2279 It can be useful to add @code{goto-address} to mode hooks and the
2280 hooks used to display an incoming message.
2281 @code{rmail-show-message-hook} is the appropriate hook for Rmail, and
2282 @code{mh-show-mode-hook} for MH-E. This is not needed for Gnus,
2283 which has a similar feature of its own.
2287 @subsection Finding Files and URLs at Point
2288 @findex find-file-at-point
2290 @findex dired-at-point
2293 @cindex finding file at point
2295 FFAP mode replaces certain key bindings for finding files, including
2296 @kbd{C-x C-f}, with commands that provide more sensitive defaults.
2297 These commands behave like the ordinary ones when given a prefix
2298 argument. Otherwise, they get the default file name or URL from the
2299 text around point. If what is found in the buffer has the form of a
2300 URL rather than a file name, the commands use @code{browse-url} to
2303 This feature is useful for following references in mail or news
2304 buffers, @file{README} files, @file{MANIFEST} files, and so on. The
2305 @samp{ffap} package's commentary available via @kbd{C-h p} under the
2306 @samp{files} keyword and the @code{ffap} Custom group provide details.
2308 @cindex FFAP minor mode
2310 You can turn on FFAP minor mode by calling @code{ffap-bindings} to
2311 make the following key bindings and to install hooks for using
2312 @code{ffap} in Rmail, Gnus and VM article buffers.
2315 @item C-x C-f @var{filename} @key{RET}
2316 @kindex C-x C-f @r{(FFAP)}
2317 Find @var{filename}, guessing a default from text around point
2318 (@code{find-file-at-point}).
2320 @kindex C-x C-r @r{(FFAP)}
2321 @code{ffap-read-only}, analogous to @code{find-file-read-only}.
2323 @kindex C-x C-v @r{(FFAP)}
2324 @code{ffap-alternate-file}, analogous to @code{find-alternate-file}.
2325 @item C-x d @var{directory} @key{RET}
2326 @kindex C-x d @r{(FFAP)}
2327 Start Dired on @var{directory}, defaulting to the directory name at
2328 point (@code{dired-at-point}).
2330 @code{ffap-list-directory}, analogous to @code{list-directory}.
2332 @kindex C-x 4 f @r{(FFAP)}
2333 @code{ffap-other-window}, analogous to @code{find-file-other-window}.
2335 @code{ffap-read-only-other-window}, analogous to
2336 @code{find-file-read-only-other-window}.
2338 @code{ffap-dired-other-window}, analogous to @code{dired-other-window}.
2340 @kindex C-x 5 f @r{(FFAP)}
2341 @code{ffap-other-frame}, analogous to @code{find-file-other-frame}.
2343 @code{ffap-read-only-other-frame}, analogous to
2344 @code{find-file-read-only-other-frame}.
2346 @code{ffap-dired-other-frame}, analogous to @code{dired-other-frame}.
2348 Search buffer for next file name or URL, then find that file or URL.
2350 @kindex S-Mouse-3 @r{(FFAP)}
2351 @code{ffap-at-mouse} finds the file guessed from text around the position
2354 @kindex C-S-Mouse-3 @r{(FFAP)}
2355 Display a menu of files and URLs mentioned in current buffer, then
2356 find the one you select (@code{ffap-menu}).
2359 @node Thumbnails, Dissociated Press, Hyperlinking, Top
2360 @section Viewing Images as Thumbnails
2364 Tumme is a facility for browsing image files. It provides viewing
2365 the images either as thumbnails or in full size, either inside Emacs
2366 or through an external viewer.
2368 To enter Tumme, type @kbd{M-x tumme}. It prompts for a directory;
2369 specify one that has images files. This creates thumbnails for all
2370 the images in that directory, and displays them all in the ``thumbnail
2371 buffer''. This takes a long time if the directory contains many image
2372 files, and it asks for confirmation if the number of image files
2373 exceeds @code{tumme-show-all-from-dir-max-files}.
2375 @kindex C-t d @r{(Tumme)}
2376 @findex tumme-display-thumbs
2377 You can also enter Tumme through Dired. Mark the image files you
2378 want to look at, using @kbd{m} as usual, then type @kbd{C-t d}
2379 (@code{tumme-display-thumbs}). This too creates and switches to
2380 a buffer containing thumbnails, corresponding to the marked files.
2382 With point in the thumbnail buffer, type @kbd{RET}
2383 (@code{tumme-display-thumbnail-original-image}) to display a sized
2384 version of it in another window. This sizes the image to fit the
2385 window. Use the arrow keys to move around in the buffer. For easy
2386 browing, type @kbd{SPC} (@code{tumme-display-next-thumbnail-original})
2387 to advance and display the next image. Typing @kbd{DEL}
2388 (@code{tumme-display-previous-thumbnail-original}) backs up to the
2389 previous thumbnail and displays that instead.
2391 @vindex tumme-external-viewer
2392 To view and the image in its original size, either provide a prefix
2393 argument (@kbd{C-u}) before pressing @kbd{RET}, or type @kbd{C-@key{RET}}
2394 (@code{tumme-thumbnail-display-external}) to display the image in an
2395 external viewer. You must first configure
2396 @code{tumme-external-viewer}.
2398 You can delete images through Tumme also. Type @kbd{d}
2399 (@code{tumme-flag-thumb-original-file}) to flag the image file for
2400 deletion in the Dired buffer. You can also delete the thumbnail image
2401 from the thumbnail buffer with @kbd{C-d} (@code{tumme-delete-char}).
2403 More advanced features include @dfn{image tags}, which are metadata
2404 used to categorize image files. The tags are stored in a plain text
2405 file configured by @code{tumme-db-file}.
2407 To tag image files, mark them in the dired buffer (you can also mark
2408 files in Dired from the thumbnail buffer by typing @kbd{m}) and type
2409 @kbd{C-t t} (@code{tumme-tag-files}). You will be prompted for a tag.
2410 To mark files having a certain tag, type @kbd{C-t f}
2411 (@code{tumme-mark-tagged-files}). After marking image files with a
2412 certain tag, you can use @kbd{C-t d} to view them.
2414 You can also tag a file directly from the thumbnail buffer by typing
2415 @kbd{t t} and you can remove a tag by typing @kbd{t r}. There is also
2416 a special ``tag'' called ``comment'' for each file (it is not a tag in
2417 the exact same sense as the other tags, it is handled slightly
2418 different). That is used to enter a comment or description about the
2419 image. You comment a file from the thumbnail buffer by typing
2420 @kbd{c}. You will be prompted for a comment. Type @kbd{C-t c} to add
2421 a comment from Dired (@code{tumme-dired-comment-files}).
2423 Tumme also provides simple image manipulation. In the thumbnail
2424 buffer, type @kbd{L} to rotate the original image 90 degrees anti
2425 clockwise, and @kbd{R} to rotate it 90 degrees clockwise. This
2426 rotation is lossless, and uses an external utility called JpegTRAN.
2428 @node Dissociated Press, Amusements, Thumbnails, Top
2429 @section Dissociated Press
2431 @findex dissociated-press
2432 @kbd{M-x dissociated-press} is a command for scrambling a file of text
2433 either word by word or character by character. Starting from a buffer of
2434 straight English, it produces extremely amusing output. The input comes
2435 from the current Emacs buffer. Dissociated Press writes its output in a
2436 buffer named @samp{*Dissociation*}, and redisplays that buffer after every
2437 couple of lines (approximately) so you can read the output as it comes out.
2439 Dissociated Press asks every so often whether to continue generating
2440 output. Answer @kbd{n} to stop it. You can also stop at any time by
2441 typing @kbd{C-g}. The dissociation output remains in the
2442 @samp{*Dissociation*} buffer for you to copy elsewhere if you wish.
2444 @cindex presidentagon
2445 Dissociated Press operates by jumping at random from one point in the
2446 buffer to another. In order to produce plausible output rather than
2447 gibberish, it insists on a certain amount of overlap between the end of
2448 one run of consecutive words or characters and the start of the next.
2449 That is, if it has just output `president' and then decides to jump
2450 to a different point in the file, it might spot the `ent' in `pentagon'
2451 and continue from there, producing `presidentagon'.@footnote{This
2452 dissociword actually appeared during the Vietnam War, when it was very
2453 appropriate. Bush has made it appropriate again.} Long sample texts
2454 produce the best results.
2456 @cindex againformation
2457 A positive argument to @kbd{M-x dissociated-press} tells it to operate
2458 character by character, and specifies the number of overlap characters. A
2459 negative argument tells it to operate word by word, and specifies the number
2460 of overlap words. In this mode, whole words are treated as the elements to
2461 be permuted, rather than characters. No argument is equivalent to an
2462 argument of two. For your againformation, the output goes only into the
2463 buffer @samp{*Dissociation*}. The buffer you start with is not changed.
2465 @cindex Markov chain
2467 @cindex techniquitous
2468 Dissociated Press produces results fairly like those of a Markov
2469 chain based on a frequency table constructed from the sample text. It
2470 is, however, an independent, ignoriginal invention. Dissociated Press
2471 techniquitously copies several consecutive characters from the sample
2472 between random choices, whereas a Markov chain would choose randomly
2473 for each word or character. This makes for more plausible sounding
2474 results, and runs faster.
2480 @cindex developediment
2482 It is a mustatement that too much use of Dissociated Press can be a
2483 developediment to your real work, sometimes to the point of outragedy.
2484 And keep dissociwords out of your documentation, if you want it to be well
2485 userenced and properbose. Have fun. Your buggestions are welcome.
2487 @node Amusements, Customization, Dissociated Press, Top
2488 @section Other Amusements
2493 @cindex tower of Hanoi
2495 If you are a little bit bored, you can try @kbd{M-x hanoi}. If you are
2496 considerably bored, give it a numeric argument. If you are very, very
2497 bored, try an argument of 9. Sit back and watch.
2500 If you want a little more personal involvement, try @kbd{M-x gomoku},
2501 which plays the game Go Moku with you.
2507 @kbd{M-x blackbox}, @kbd{M-x mpuz} and @kbd{M-x 5x5} are puzzles.
2508 @code{blackbox} challenges you to determine the location of objects
2509 inside a box by tomography. @code{mpuz} displays a multiplication
2510 puzzle with letters standing for digits in a code that you must
2511 guess---to guess a value, type a letter and then the digit you think it
2512 stands for. The aim of @code{5x5} is to fill in all the squares.
2516 @cindex cryptanalysis
2517 @kbd{M-x decipher} helps you to cryptanalyze a buffer which is encrypted
2518 in a simple monoalphabetic substitution cipher.
2521 @kbd{M-x dunnet} runs an adventure-style exploration game, which is
2522 a bigger sort of puzzle.
2525 @cindex landmark game
2526 @kbd{M-x lm} runs a relatively non-participatory game in which a robot
2527 attempts to maneuver towards a tree at the center of the window based on
2528 unique olfactory cues from each of the four directions.
2532 @kbd{M-x life} runs Conway's ``Life'' cellular automaton.
2534 @findex morse-region
2535 @findex unmorse-region
2537 @cindex --/---/.-./.../.
2538 @kbd{M-x morse-region} converts text in a region to Morse code and
2539 @kbd{M-x unmorse-region} converts it back. No cause for remorse.
2543 @kbd{M-x pong} plays a Pong-like game, bouncing the ball off opposing
2548 @kbd{M-x solitaire} plays a game of solitaire in which you jump pegs
2551 @findex studlify-region
2553 @kbd{M-x studlify-region} studlify-cases the region, producing
2557 M-x stUdlIfY-RegioN stUdlIfY-CaSeS thE region.
2564 @kbd{M-x tetris} runs an implementation of the well-known Tetris game.
2565 Likewise, @kbd{M-x snake} provides an implementation of Snake.
2567 When you are frustrated, try the famous Eliza program. Just do
2568 @kbd{M-x doctor}. End each input by typing @key{RET} twice.
2571 When you are feeling strange, type @kbd{M-x yow}.
2574 The command @kbd{M-x zone} plays games with the display when Emacs is
2582 arch-tag: 8f094220-c0d5-4e9e-af7d-3e0da8187474