1 @c This is part of the Emacs manual.
2 @c Copyright (C) 1985,86,87,93,94,95,97,2000,2001,2002
3 @c Free Software Foundation, Inc.
4 @c See file emacs.texi for copying conditions.
5 @node Customization, Quitting, Amusements, Top
9 This chapter talks about various topics relevant to adapting the
10 behavior of Emacs in minor ways. See @cite{The Emacs Lisp Reference
11 Manual} for how to make more far-reaching changes. @xref{X Resources},
12 for information on using X resources to customize Emacs.
14 Customization that you do within Emacs normally affects only the
15 particular Emacs session that you do it in--it does not persist
16 between sessions unless you save the customization in a file such as
17 @file{.emacs} or @file{.Xdefaults} that will affect future sessions.
18 @xref{Init File}. In the customization buffer, when you save
19 customizations for future sessions, this actually works by editing
20 @file{.emacs} for you.
22 Another means of customization is the keyboard macro, which is a
23 sequence of keystrokes to be replayed with a single command.
24 @xref{Keyboard Macros}, for full instruction how to record, manage, and
25 replay sequences of keys.
28 * Minor Modes:: Each minor mode is one feature you can turn on
29 independently of any others.
30 * Variables:: Many Emacs commands examine Emacs variables
31 to decide what to do; by setting variables,
32 you can control their functioning.
33 * Key Bindings:: The keymaps say what command each key runs.
34 By changing them, you can "redefine keys".
35 * Keyboard Translations::
36 If your keyboard passes an undesired code
37 for a key, you can tell Emacs to
38 substitute another code.
39 * Syntax:: The syntax table controls how words and
40 expressions are parsed.
41 * Init File:: How to write common customizations in the
50 Minor modes are optional features which you can turn on or off. For
51 example, Auto Fill mode is a minor mode in which @key{SPC} breaks lines
52 between words as you type. All the minor modes are independent of each
53 other and of the selected major mode. Most minor modes say in the mode
54 line when they are on; for example, @samp{Fill} in the mode line means
55 that Auto Fill mode is on.
57 Append @code{-mode} to the name of a minor mode to get the name of a
58 command function that turns the mode on or off. Thus, the command to
59 enable or disable Auto Fill mode is called @kbd{M-x auto-fill-mode}. These
60 commands are usually invoked with @kbd{M-x}, but you can bind keys to them
61 if you wish. With no argument, the function turns the mode on if it was
62 off and off if it was on. This is known as @dfn{toggling}. A positive
63 argument always turns the mode on, and an explicit zero argument or a
64 negative argument always turns it off.
66 Some minor modes are global: while enabled, they affect everything
67 you do in the Emacs session, in all buffers. Other minor modes are
68 buffer-local; they apply only to the current buffer, so you can enable
69 the mode in certain buffers and not others.
71 For most minor modes, the command name is also the name of a
72 variable which directly controls the mode. The mode is enabled
73 whenever this variable's value is non-@code{nil}, and the minor-mode
74 command works by setting the variable. For example, the command
75 @code{outline-minor-mode} works by setting the value of
76 @code{outline-minor-mode} as a variable; it is this variable that
77 directly turns Outline minor mode on and off. To check whether a
78 given minor mode works this way, use @kbd{C-h v} to ask for
79 documentation on the variable name.
81 These minor-mode variables provide a good way for Lisp programs to turn
82 minor modes on and off; they are also useful in a file's local variables
83 list. But please think twice before setting minor modes with a local
84 variables list, because most minor modes are matter of user
85 preference---other users editing the same file might not want the same
86 minor modes you prefer.
88 The buffer-local minor modes include Abbrev mode, Auto Fill mode,
89 Auto Save mode, Font-Lock mode, Glasses mode, ISO Accents mode,
90 Outline minor mode, Overwrite mode, and Binary Overwrite mode.
92 Abbrev mode allows you to define abbreviations that automatically expand
93 as you type them. For example, @samp{amd} might expand to @samp{abbrev
94 mode}. @xref{Abbrevs}, for full information.
96 Auto Fill mode allows you to enter filled text without breaking lines
97 explicitly. Emacs inserts newlines as necessary to prevent lines from
98 becoming too long. @xref{Filling}.
100 Auto Save mode causes the contents of a buffer to be saved
101 periodically to reduce the amount of work you can lose in case of a
102 system crash. @xref{Auto Save}.
104 Enriched mode enables editing and saving of formatted text.
105 @xref{Formatted Text}.
107 Flyspell mode automatically highlights misspelled words.
110 Font-Lock mode automatically highlights certain textual units found in
111 programs, such as comments, strings, and function names being defined.
112 This requires a window system that can display multiple fonts.
115 ISO Accents mode makes the characters @samp{`}, @samp{'}, @samp{"},
116 @samp{^}, @samp{/} and @samp{~} combine with the following letter, to
117 produce an accented letter in the ISO Latin-1 character set. The
118 newer and more general feature of input methods more or less
119 supersedes ISO Accents mode. @xref{Single-Byte Character Support}.
121 Outline minor mode provides the same facilities as the major mode
122 called Outline mode; but since it is a minor mode instead, you can
123 combine it with any major mode. @xref{Outline Mode}.
125 @cindex Overwrite mode
126 @cindex mode, Overwrite
127 Overwrite mode causes ordinary printing characters to replace existing
128 text instead of shoving it to the right. For example, if point is in
129 front of the @samp{B} in @samp{FOOBAR}, then in Overwrite mode typing a
130 @kbd{G} changes it to @samp{FOOGAR}, instead of producing @samp{FOOGBAR}
131 as usual. In Overwrite mode, the command @kbd{C-q} inserts the next
132 character whatever it may be, even if it is a digit---this gives you a
133 way to insert a character instead of replacing an existing character.
135 @findex overwrite-mode
137 The command @code{overwrite-mode} is an exception to the rule that
138 commands which toggle minor modes are normally not bound to keys: it is
139 bound to the @key{INSERT} function key. This is because many other
140 programs bind @key{INSERT} to similar functions.
142 @findex binary-overwrite-mode
143 Binary Overwrite mode is a variant of Overwrite mode for editing
144 binary files; it treats newlines and tabs like other characters, so that
145 they overwrite other characters and can be overwritten by them.
146 In Binary Overwrite mode, digits after @kbd{C-q} specify an
147 octal character code, as usual.
149 The following minor modes normally apply to all buffers at once.
150 Since each is enabled or disabled by the value of a variable, you
151 @emph{can} set them differently for particular buffers, by explicitly
152 making the corresponding variables local in those buffers.
155 Icomplete mode displays an indication of available completions when
156 you are in the minibuffer and completion is active. @xref{Completion
159 Line Number mode enables continuous display in the mode line of the
160 line number of point, and Column Number mode enables display of the
161 column number. @xref{Mode Line}.
163 Scroll Bar mode gives each window a scroll bar (@pxref{Scroll Bars}).
164 Menu Bar mode gives each frame a menu bar (@pxref{Menu Bars}). Both of
165 these modes are enabled by default when you use the X Window System.
167 In Transient Mark mode, every change in the buffer contents
168 ``deactivates'' the mark, so that commands that operate on the region
169 will get an error. This means you must either set the mark, or
170 explicitly ``reactivate'' it, before each command that uses the region.
171 The advantage of Transient Mark mode is that Emacs can display the
172 region highlighted (currently only when using X). @xref{Mark}.
180 A @dfn{variable} is a Lisp symbol which has a value. The symbol's
181 name is also called the name of the variable. A variable name can
182 contain any characters that can appear in a file, but conventionally
183 variable names consist of words separated by hyphens. A variable can
184 have a documentation string which describes what kind of value it should
185 have and how the value will be used.
187 Lisp allows any variable to have any kind of value, but most variables
188 that Emacs uses require a value of a certain type. Often the value should
189 always be a string, or should always be a number. Sometimes we say that a
190 certain feature is turned on if a variable is ``non-@code{nil},'' meaning
191 that if the variable's value is @code{nil}, the feature is off, but the
192 feature is on for @emph{any} other value. The conventional value to use to
193 turn on the feature---since you have to pick one particular value when you
194 set the variable---is @code{t}.
196 Emacs uses many Lisp variables for internal record keeping, as any
197 Lisp program must, but the most interesting variables for you are the
198 ones that exist for the sake of customization. Emacs does not (usually)
199 change the values of these variables; instead, you set the values, and
200 thereby alter and control the behavior of certain Emacs commands. These
201 variables are called @dfn{user options}. Most user options are
202 documented in this manual, and appear in the Variable Index
203 (@pxref{Variable Index}).
205 One example of a variable which is a user option is @code{fill-column}, which
206 specifies the position of the right margin (as a number of characters from
207 the left margin) to be used by the fill commands (@pxref{Filling}).
210 * Examining:: Examining or setting one variable's value.
211 * Easy Customization::
212 Convenient and easy customization of variables.
213 * Hooks:: Hook variables let you specify programs for parts
214 of Emacs to run on particular occasions.
215 * Locals:: Per-buffer values of variables.
216 * File Variables:: How files can specify variable values.
220 @subsection Examining and Setting Variables
221 @cindex setting variables
224 @item C-h v @var{var} @key{RET}
225 Display the value and documentation of variable @var{var}
226 (@code{describe-variable}).
227 @item M-x set-variable @key{RET} @var{var} @key{RET} @var{value} @key{RET}
228 Change the value of variable @var{var} to @var{value}.
231 To examine the value of a single variable, use @kbd{C-h v}
232 (@code{describe-variable}), which reads a variable name using the
233 minibuffer, with completion. It displays both the value and the
234 documentation of the variable. For example,
237 C-h v fill-column @key{RET}
241 displays something like this:
244 fill-column's value is 70
247 *Column beyond which automatic line-wrapping should happen.
248 Automatically becomes buffer-local when set in any fashion.
252 The star at the beginning of the documentation indicates that this
253 variable is a user option. @kbd{C-h v} is not restricted to user
254 options; it allows any variable name.
257 The most convenient way to set a specific user option is with @kbd{M-x
258 set-variable}. This reads the variable name with the minibuffer (with
259 completion), and then reads a Lisp expression for the new value using
260 the minibuffer a second time. For example,
263 M-x set-variable @key{RET} fill-column @key{RET} 75 @key{RET}
267 sets @code{fill-column} to 75.
269 @kbd{M-x set-variable} is limited to user option variables, but you can
270 set any variable with a Lisp expression, using the function @code{setq}.
271 Here is a @code{setq} expression to set @code{fill-column}:
274 (setq fill-column 75)
277 To execute an expression like this one, go to the @samp{*scratch*}
278 buffer, type in the expression, and then type @kbd{C-j}. @xref{Lisp
281 Setting variables, like all means of customizing Emacs except where
282 otherwise stated, affects only the current Emacs session.
284 @node Easy Customization
285 @subsection Easy Customization Interface
288 @cindex customization buffer
289 A convenient way to find the user option variables that you want to
290 change, and then change them, is with @kbd{M-x customize}. This
291 command creates a @dfn{customization buffer} with which you can browse
292 through the Emacs user options in a logically organized structure,
293 then edit and set their values. You can also use the customization
294 buffer to save settings permanently in your @file{~/.emacs} file
297 The appearance of the example buffers in the following is typically
298 different under a window system where faces can be used to indicate the
299 active fields and other features.
302 * Groups: Customization Groups.
303 How options are classified in a structure.
304 * Changing an Option:: How to edit a value and set an option.
305 * Saving Customizations:: Details of saving customizations.
306 * Face Customization:: How to edit the attributes of a face.
307 * Specific Customization:: Making a customization buffer for specific
308 options, faces, or groups.
311 @node Customization Groups
312 @subsubsection Customization Groups
313 @cindex customization groups
315 For customization purposes, user options are organized into
316 @dfn{groups} to help you find them. Groups are collected into bigger
317 groups, all the way up to a master group called @code{Emacs}.
319 @kbd{M-x customize} creates a customization buffer that shows the
320 top-level @code{Emacs} group and the second-level groups immediately
321 under it. It looks like this, in part:
324 /- Emacs group: ---------------------------------------------------\
325 [State]: visible group members are all at standard settings.
326 Customization of the One True Editor.
329 Confirm Kill Emacs: [Hide] [Value Menu] Don't confirm
330 [State]: this option is unchanged from its standard setting.
331 How to ask for confirmation when leaving Emacs. [More]
333 Editing group: [Go to Group]
334 Basic text editing facilities.
336 External group: [Go to Group]
337 Interfacing to external utilities.
339 @var{more second-level groups}
341 \- Emacs group end ------------------------------------------------/
346 This says that the buffer displays the contents of the @code{Emacs}
347 group. The other groups are listed because they are its contents. But
348 they are listed differently, without indentation and dashes, because
349 @emph{their} contents are not included. Each group has a single-line
350 documentation string; the @code{Emacs} group also has a @samp{[State]}
353 @cindex editable fields (customization buffer)
354 @cindex active fields (customization buffer)
355 Most of the text in the customization buffer is read-only, but it
356 typically includes some @dfn{editable fields} that you can edit. There
357 are also @dfn{active fields}; this means a field that does something
358 when you @dfn{invoke} it. To invoke an active field, either click on it
359 with @kbd{Mouse-1}, or move point to it and type @key{RET}.
361 For example, the phrase @samp{[Go to Group]} that appears in a
362 second-level group is an active field. Invoking the @samp{[Go to
363 Group]} field for a group creates a new customization buffer, which
364 shows that group and its contents. This field is a kind of hypertext
365 link to another group.
367 The @code{Emacs} group includes a few user options itself, but
368 mainly it contains other groups, which contain more groups, which
369 contain the user options. By browsing the hierarchy of groups, you
370 will eventually find the feature you are interested in customizing.
371 Then you can use the customization buffer to set the options and faces
372 pertaining to that feature. You can also go straight to a particular
373 group by name, using the command @kbd{M-x customize-group}.
375 @findex customize-browse
376 You can view the structure of customization groups on a larger scale
377 with @kbd{M-x customize-browse}. This command creates a special kind of
378 customization buffer which shows only the names of the groups (and
379 options and faces), and their structure.
381 In this buffer, you can show the contents of a group by invoking
382 @samp{[+]}. When the group contents are visible, this button changes to
383 @samp{[-]}; invoking that hides the group contents.
385 Each group, option or face name in this buffer has an active field
386 which says @samp{[Group]}, @samp{[Option]} or @samp{[Face]}. Invoking
387 that active field creates an ordinary customization buffer showing just
388 that group and its contents, just that option, or just that face.
389 This is the way to set values in it.
391 @node Changing an Option
392 @subsubsection Changing an Option
394 Here is an example of what a user option looks like in the
395 customization buffer:
398 Kill Ring Max: [Hide] 60
399 [State]: this option is unchanged from its standard setting.
400 Maximum length of kill ring before oldest elements are thrown away.
403 The text following @samp{[Hide]}, @samp{60} in this case, indicates
404 the current value of the option. If you see @samp{[Show]} instead of
405 @samp{[Hide]}, it means that the value is hidden; the customization
406 buffer initially hides values that take up several lines. Invoke
407 @samp{[Show]} to show the value.
409 The line after the option name indicates the @dfn{customization state}
410 of the option: in the example above, it says you have not changed the
411 option yet. The word @samp{[State]} at the beginning of this line is
412 active; you can get a menu of various operations by invoking it with
413 @kbd{Mouse-1} or @key{RET}. These operations are essential for
414 customizing the variable.
416 The line after the @samp{[State]} line displays the beginning of the
417 option's documentation string. If there are more lines of
418 documentation, this line ends with @samp{[More]}; invoke this to show
419 the full documentation string.
421 To enter a new value for @samp{Kill Ring Max}, move point to the value
422 and edit it textually. For example, you can type @kbd{M-d}, then insert
425 When you begin to alter the text, you will see the @samp{[State]} line
426 change to say that you have edited the value:
429 [State]: you have edited the value as text, but not set the option.
432 @cindex setting option value
433 Editing the value does not actually set the option variable. To do
434 that, you must @dfn{set} the option. To do this, invoke the word
435 @samp{[State]} and choose @samp{Set for Current Session}.
437 The state of the option changes visibly when you set it:
440 [State]: you have set this option, but not saved it for future sessions.
443 You don't have to worry about specifying a value that is not valid;
444 setting the option checks for validity and will not really install an
447 @kindex M-TAB @r{(customization buffer)}
448 @findex widget-complete
449 While editing a value or field that is a file name, directory name,
450 command name, or anything else for which completion is defined, you can
451 type @kbd{M-@key{TAB}} (@code{widget-complete}) to do completion.
453 Some options have a small fixed set of possible legitimate values.
454 These options don't let you edit the value textually. Instead, an
455 active field @samp{[Value Menu]} appears before the value; invoke this
456 field to edit the value. For a boolean ``on or off'' value, the active
457 field says @samp{[Toggle]}, and it changes to the other value.
458 @samp{[Value Menu]} and @samp{[Toggle]} edit the buffer; the changes
459 take effect when you use the @samp{Set for Current Session} operation.
461 Some options have values with complex structure. For example, the
462 value of @code{file-coding-system-alist} is an association list. Here
463 is how it appears in the customization buffer:
466 File Coding System Alist: [Hide]
467 [INS] [DEL] File regexp: \.elc\'
468 Choice: [Value Menu] Encoding/decoding pair:
471 [INS] [DEL] File regexp: \(\`\|/\)loaddefs.el\'
472 Choice: [Value Menu] Encoding/decoding pair:
474 Encoding: raw-text-unix
475 [INS] [DEL] File regexp: \.tar\'
476 Choice: [Value Menu] Encoding/decoding pair:
477 Decoding: no-conversion
478 Encoding: no-conversion
479 [INS] [DEL] File regexp:
480 Choice: [Value Menu] Encoding/decoding pair:
484 [State]: this option is unchanged from its standard setting.
485 Alist to decide a coding system to use for a file I/O operation. [Hide]
486 The format is ((PATTERN . VAL) ...),
487 where PATTERN is a regular expression matching a file name,
488 @r{[@dots{}more lines of documentation@dots{}]}
492 Each association in the list appears on four lines, with several
493 editable or ``active'' fields. You can edit the regexps and coding
494 systems using ordinary editing commands. You can also invoke
495 @samp{[Value Menu]} to switch to a kind of value---for instance, to
496 specify a function instead of a pair of coding systems.
498 To delete an association from the list, invoke the @samp{[DEL]} button
499 for that item. To add an association, invoke @samp{[INS]} at the
500 position where you want to add it. There is an @samp{[INS]} button
501 between each pair of association, another at the beginning and another
502 at the end, so you can add the new association at any position in the
505 @kindex TAB @r{(customization buffer)}
506 @kindex S-TAB @r{(customization buffer)}
507 @findex widget-forward
508 @findex widget-backward
509 Two special commands, @key{TAB} and @kbd{S-@key{TAB}}, are useful for
510 moving through the customization buffer. @key{TAB}
511 (@code{widget-forward}) moves forward to the next active or editable
512 field; @kbd{S-@key{TAB}} (@code{widget-backward}) moves backward to the
513 previous active or editable field.
515 Typing @key{RET} on an editable field also moves forward, just like
516 @key{TAB}. We set it up this way because people often type @key{RET}
517 when they are finished editing a field. To insert a newline within an
518 editable field, use @kbd{C-o} or @kbd{C-q C-j}.
520 @cindex saving option value
521 @cindex customized options, saving
522 Setting the option changes its value in the current Emacs session;
523 @dfn{saving} the value changes it for future sessions as well. To
524 save the option, invoke @samp{[State]} and select the @samp{Save for
525 Future Sessions} operation. This works by writing code so as to set
526 the option variable again each time you start Emacs (@pxref{Saving
529 You can also restore the option to its standard value by invoking
530 @samp{[State]} and selecting the @samp{Erase Customization} operation.
531 There are actually three reset operations:
535 If you have made some modifications and not yet set the option,
536 this restores the text in the customization buffer to match
540 This restores the value of the option to the last saved value,
541 and updates the text accordingly.
543 @item Erase Customization
544 This sets the option to its standard value, and updates the text
545 accordingly. This also eliminates any saved value for the option,
546 so that you will get the standard value in future Emacs sessions.
548 @item Use Backup Value
549 This sets the option to a previous value that was set in the
550 customization buffer in this session. If you customize a variable
551 and then reset the variable, which discards the customized value,
552 you can get the customized value back again with this operation.
555 @cindex comments on customized options
556 Sometimes it is useful to record a comment about a specific
557 customization. Use the @samp{Add Comment} item from the
558 @samp{[State]} menu to create a field for entering the comment. The
559 comment you enter will be saved, and displayed again if you again view
560 the same option in a customization buffer, even in another session.
562 The state of a group indicates whether anything in that group has been
563 edited, set or saved. You can select @samp{Set for Current Session},
564 @samp{Save for Future Sessions} and the various kinds of @samp{Reset}
565 operation for the group; these operations on the group apply to all
566 options in the group and its subgroups.
568 Near the top of the customization buffer there are two lines
569 containing several active fields:
572 [Set for Current Session] [Save for Future Sessions]
573 [Reset] [Reset to Saved] [Erase Customization] [Finish]
576 @vindex custom-buffer-done-function
578 Invoking @samp{[Finish]} either buries or kills this customization
579 buffer according to the setting of the option
580 @code{custom-buffer-done-function}; the default is to bury the buffer.
581 Each of the other fields performs an operation---set, save or
582 reset---on each of the items in the buffer that could meaningfully be
585 @node Saving Customizations
586 @subsubsection Saving Customizations
589 The customization buffer normally saves customizations in
590 @file{~/.emacs}. If you wish, you can save customizations in another
591 file instead. To make this work, your @file{~/.emacs} should set
592 @code{custom-file} to the name of that file. Emacs loads the file
593 right after your @file{.emacs} if you did not load it already. For
597 (setq custom-file "~/.emacs-custom")
600 The variable @code{custom-file} is useful if you want to have
601 different customizations for different Emacs versions:
604 (if (< emacs-major-version 21)
605 ;; @r{Emacs 20 customization.}
606 (setq custom-file "~/.custom-20.el")
607 ;; @r{Emacs 21 customization.}
608 (setq custom-file "~/.custom-21.el"))
611 If Emacs was invoked with the @option{-q} or @option{--no-init-file}
612 options (@pxref{Initial Options}), it will not let you save your
613 customizations in your @file{~/.emacs} init file. This is because
614 saving customizations from such a session would wipe out all the other
615 customizations you might have on your init file.
617 @node Face Customization
618 @subsubsection Customizing Faces
619 @cindex customizing faces
622 @cindex fonts and faces
624 In addition to user options, some customization groups also include
625 faces. When you show the contents of a group, both the user options and
626 the faces in the group appear in the customization buffer. Here is an
627 example of how a face looks:
630 Custom Changed Face:(sample) [Hide]
631 [State]: this face is unchanged from its standard setting.
632 Face used when the customize item has been changed.
633 Parent groups: => Custom Magic Faces
634 Attributes: [ ] Font Family: *
641 [ ] Strike-through: *
642 [ ] Box around text: *
644 [X] Foreground: white (sample)
645 [X] Background: blue (sample)
650 Each face attribute has its own line. The @samp{[@var{x}]} field
651 before the attribute name indicates whether the attribute is
652 @dfn{enabled}; @samp{X} means that it is. You can enable or disable the
653 attribute by invoking that field. When the attribute is enabled, you
654 can change the attribute value in the usual ways.
656 On a black-and-white display, the colors you can use for the
657 background are @samp{black}, @samp{white}, @samp{gray}, @samp{gray1},
658 and @samp{gray3}. Emacs supports these shades of gray by using
659 background stipple patterns instead of a color.
661 Setting, saving and resetting a face work like the same operations for
662 options (@pxref{Changing an Option}).
664 A face can specify different appearances for different types of
665 display. For example, a face can make text red on a color display, but
666 use a bold font on a monochrome display. To specify multiple
667 appearances for a face, select @samp{Show all display specs} in the menu you
668 get from invoking @samp{[State]}.
671 Another more basic way to set the attributes of a specific face is
672 with @kbd{M-x modify-face}. This command reads the name of a face, then
673 reads the attributes one by one. For the color and stipple attributes,
674 the attribute's current value is the default---type just @key{RET} if
675 you don't want to change that attribute. Type @samp{none} if you want
676 to clear out the attribute.
678 @node Specific Customization
679 @subsubsection Customizing Specific Items
681 Instead of finding the options you want to change by moving down
682 through the structure of groups, you can specify the particular option,
683 face or group that you want to customize.
686 @item M-x customize-option @key{RET} @var{option} @key{RET}
687 Set up a customization buffer with just one option, @var{option}.
688 @item M-x customize-face @key{RET} @var{face} @key{RET}
689 Set up a customization buffer with just one face, @var{face}.
690 @item M-x customize-group @key{RET} @var{group} @key{RET}
691 Set up a customization buffer with just one group, @var{group}.
692 @item M-x customize-apropos @key{RET} @var{regexp} @key{RET}
693 Set up a customization buffer with all the options, faces and groups
694 that match @var{regexp}.
695 @item M-x customize-changed-options @key{RET} @var{version} @key{RET}
696 Set up a customization buffer with all the options, faces and groups
697 whose meaning has changed since Emacs version @var{version}.
698 @item M-x customize-saved
699 Set up a customization buffer containing all options and faces that you
700 have saved with customization buffers.
701 @item M-x customize-customized
702 Set up a customization buffer containing all options and faces that you
703 have customized but not saved.
706 @findex customize-option
707 If you want to alter a particular user option variable with the
708 customization buffer, and you know its name, you can use the command
709 @kbd{M-x customize-option} and specify the option name. This sets up
710 the customization buffer with just one option---the one that you asked
711 for. Editing, setting and saving the value work as described above, but
712 only for the specified option.
714 @findex customize-face
715 Likewise, you can modify a specific face, chosen by name, using
716 @kbd{M-x customize-face}. By default it operates on the face used
717 on the character after point.
719 @findex customize-group
720 You can also set up the customization buffer with a specific group,
721 using @kbd{M-x customize-group}. The immediate contents of the chosen
722 group, including option variables, faces, and other groups, all appear
723 as well. However, these subgroups' own contents start out hidden. You
724 can show their contents in the usual way, by invoking @samp{[Show]}.
726 @findex customize-apropos
727 To control more precisely what to customize, you can use @kbd{M-x
728 customize-apropos}. You specify a regular expression as argument; then
729 all options, faces and groups whose names match this regular expression
730 are set up in the customization buffer. If you specify an empty regular
731 expression, this includes @emph{all} groups, options and faces in the
732 customization buffer (but that takes a long time).
734 @findex customize-changed-options
735 When you upgrade to a new Emacs version, you might want to customize
736 new options and options whose meanings or default values have changed.
737 To do this, use @kbd{M-x customize-changed-options} and specify a
738 previous Emacs version number using the minibuffer. It creates a
739 customization buffer which shows all the options (and groups) whose
740 definitions have been changed since the specified version.
742 @findex customize-saved
743 @findex customize-customized
744 If you change option values and then decide the change was a mistake,
745 you can use two special commands to revisit your previous changes. Use
746 @kbd{M-x customize-saved} to look at the options and faces that you have
747 saved. Use @kbd{M-x customize-customized} to look at the options and
748 faces that you have set but not saved.
753 @cindex running a hook
755 @dfn{Hooks} are an important mechanism for customization of Emacs. A
756 hook is a Lisp variable which holds a list of functions, to be called on
757 some well-defined occasion. (This is called @dfn{running the hook}.)
758 The individual functions in the list are called the @dfn{hook functions}
759 of the hook. With rare exceptions, hooks in Emacs are empty when Emacs
760 starts up, so the only hook functions in any given hook are the ones you
761 explicitly put there as customization.
763 Most major modes run one or more @dfn{mode hooks} as the last step of
764 initialization. This makes it easy for you to customize the behavior of
765 the mode, by setting up a hook function to override the local variable
766 assignments already made by the mode. But hooks are also used in other
767 contexts. For example, the hook @code{suspend-hook} runs just before
768 Emacs suspends itself (@pxref{Exiting}).
771 Most Emacs hooks are @dfn{normal hooks}. This means that running the
772 hook operates by calling all the hook functions, unconditionally, with
773 no arguments. We have made an effort to keep most hooks normal so that
774 you can use them in a uniform way. Every variable in Emacs whose name
775 ends in @samp{-hook} is a normal hook.
777 @cindex abnormal hook
778 There are also a few @dfn{abnormal hooks}. These variables' names end
779 in @samp{-hooks} or @samp{-functions}, instead of @samp{-hook}. What
780 makes these hooks abnormal is that there is something peculiar about the
781 way its functions are called---perhaps they are given arguments, or
782 perhaps the values they return are used in some way. For example,
783 @code{find-file-not-found-functions} (@pxref{Visiting}) is abnormal because
784 as soon as one hook function returns a non-@code{nil} value, the rest
785 are not called at all. The documentation of each abnormal hook variable
786 explains in detail what is peculiar about it.
788 The recommended way to add a hook function to a hook (either normal or
789 abnormal) is by calling @code{add-hook}. You can use any valid Lisp
790 function as the hook function, provided it can handle the proper number
791 of arguments (zero arguments, in the case of a normal hook). Of course,
792 not every Lisp function is @emph{useful} in any particular hook.
794 For example, here's how to set up a hook to turn on Auto Fill mode
795 when entering Text mode and other modes based on Text mode:
798 (add-hook 'text-mode-hook 'turn-on-auto-fill)
801 The next example shows how to use a hook to customize the indentation
802 of C code. (People often have strong personal preferences for one
803 format compared to another.) Here the hook function is an anonymous
809 '((c-comment-only-line-offset . 4)
812 (c-cleanup-list . (scope-operator
817 (c-offsets-alist . ((arglist-close . c-lineup-arglist)
818 (substatement-open . 0)))))
822 (add-hook 'c-mode-common-hook
824 (c-add-style "my-style" my-c-style t)))
828 It is best to design your hook functions so that the order in which
829 they are executed does not matter. Any dependence on the order is
830 ``asking for trouble.'' However, the order is predictable: the most
831 recently added hook functions are executed first.
834 @subsection Local Variables
837 @item M-x make-local-variable @key{RET} @var{var} @key{RET}
838 Make variable @var{var} have a local value in the current buffer.
839 @item M-x kill-local-variable @key{RET} @var{var} @key{RET}
840 Make variable @var{var} use its global value in the current buffer.
841 @item M-x make-variable-buffer-local @key{RET} @var{var} @key{RET}
842 Mark variable @var{var} so that setting it will make it local to the
843 buffer that is current at that time.
846 @cindex local variables
847 Almost any variable can be made @dfn{local} to a specific Emacs
848 buffer. This means that its value in that buffer is independent of its
849 value in other buffers. A few variables are always local in every
850 buffer. Every other Emacs variable has a @dfn{global} value which is in
851 effect in all buffers that have not made the variable local.
853 @findex make-local-variable
854 @kbd{M-x make-local-variable} reads the name of a variable and makes it
855 local to the current buffer. Further changes in this buffer will not
856 affect others, and further changes in the global value will not affect this
859 @findex make-variable-buffer-local
860 @cindex per-buffer variables
861 @kbd{M-x make-variable-buffer-local} reads the name of a variable and
862 changes the future behavior of the variable so that it will become local
863 automatically when it is set. More precisely, once a variable has been
864 marked in this way, the usual ways of setting the variable automatically
865 do @code{make-local-variable} first. We call such variables
866 @dfn{per-buffer} variables.
868 Major modes (@pxref{Major Modes}) always make variables local to the
869 buffer before setting the variables. This is why changing major modes
870 in one buffer has no effect on other buffers. Minor modes also work by
871 setting variables---normally, each minor mode has one controlling
872 variable which is non-@code{nil} when the mode is enabled (@pxref{Minor
873 Modes}). For most minor modes, the controlling variable is per buffer.
875 Emacs contains a number of variables that are always per-buffer.
876 These include @code{abbrev-mode}, @code{auto-fill-function},
877 @code{case-fold-search}, @code{comment-column}, @code{ctl-arrow},
878 @code{fill-column}, @code{fill-prefix}, @code{indent-tabs-mode},
879 @code{left-margin}, @code{mode-line-format}, @code{overwrite-mode},
880 @code{selective-display-ellipses}, @code{selective-display},
881 @code{tab-width}, and @code{truncate-lines}. Some other variables are
882 always local in every buffer, but they are used for internal
885 A few variables cannot be local to a buffer because they are always
886 local to each display instead (@pxref{Multiple Displays}). If you try to
887 make one of these variables buffer-local, you'll get an error message.
889 @findex kill-local-variable
890 @kbd{M-x kill-local-variable} reads the name of a variable and makes
891 it cease to be local to the current buffer. The global value of the
892 variable henceforth is in effect in this buffer. Setting the major mode
893 kills all the local variables of the buffer except for a few variables
894 specially marked as @dfn{permanent locals}.
897 To set the global value of a variable, regardless of whether the
898 variable has a local value in the current buffer, you can use the Lisp
899 construct @code{setq-default}. This construct is used just like
900 @code{setq}, but it sets variables' global values instead of their local
901 values (if any). When the current buffer does have a local value, the
902 new global value may not be visible until you switch to another buffer.
906 (setq-default fill-column 75)
910 @code{setq-default} is the only way to set the global value of a variable
911 that has been marked with @code{make-variable-buffer-local}.
913 @findex default-value
914 Lisp programs can use @code{default-value} to look at a variable's
915 default value. This function takes a symbol as argument and returns its
916 default value. The argument is evaluated; usually you must quote it
917 explicitly. For example, here's how to obtain the default value of
921 (default-value 'fill-column)
925 @subsection Local Variables in Files
926 @cindex local variables in files
927 @cindex file local variables
929 A file can specify local variable values for use when you edit the
930 file with Emacs. Visiting the file checks for local variable
931 specifications; it automatically makes these variables local to the
932 buffer, and sets them to the values specified in the file.
934 There are two ways to specify local variable values: in the first
935 line, or with a local variables list. Here's how to specify them in the
939 -*- mode: @var{modename}; @var{var}: @var{value}; @dots{} -*-
943 You can specify any number of variables/value pairs in this way, each
944 pair with a colon and semicolon as shown above. @code{mode:
945 @var{modename};} specifies the major mode; this should come first in the
946 line. The @var{value}s are not evaluated; they are used literally.
947 Here is an example that specifies Lisp mode and sets two variables with
951 ;; -*- mode: Lisp; fill-column: 75; comment-column: 50; -*-
954 You can also specify the coding system for a file in this way: just
955 specify a value for the ``variable'' named @code{coding}. The ``value''
956 must be a coding system name that Emacs recognizes. @xref{Coding
959 The @code{eval} pseudo-variable, described below, can be specified in
960 the first line as well.
962 @cindex shell scripts, and local file variables
963 In shell scripts, the first line is used to identify the script
964 interpreter, so you cannot put any local variables there. To accommodate
965 for this, when Emacs visits a shell script, it looks for local variable
966 specifications in the @emph{second} line.
968 A @dfn{local variables list} goes near the end of the file, in the
969 last page. (It is often best to put it on a page by itself.) The local
970 variables list starts with a line containing the string @samp{Local
971 Variables:}, and ends with a line containing the string @samp{End:}. In
972 between come the variable names and values, one set per line, as
973 @samp{@var{variable}:@: @var{value}}. The @var{value}s are not
974 evaluated; they are used literally. If a file has both a local
975 variables list and a @samp{-*-} line, Emacs processes @emph{everything}
976 in the @samp{-*-} line first, and @emph{everything} in the local
977 variables list afterward.
979 Here is an example of a local variables list:
982 ;;; Local Variables: ***
984 ;;; comment-column:0 ***
985 ;;; comment-start: ";;; " ***
986 ;;; comment-end:"***" ***
990 As you see, each line starts with the prefix @samp{;;; } and each line
991 ends with the suffix @samp{ ***}. Emacs recognizes these as the prefix
992 and suffix based on the first line of the list, by finding them
993 surrounding the magic string @samp{Local Variables:}; then it
994 automatically discards them from the other lines of the list.
996 The usual reason for using a prefix and/or suffix is to embed the
997 local variables list in a comment, so it won't confuse other programs
998 that the file is intended as input for. The example above is for a
999 language where comment lines start with @samp{;;; } and end with
1000 @samp{***}; the local values for @code{comment-start} and
1001 @code{comment-end} customize the rest of Emacs for this unusual syntax.
1002 Don't use a prefix (or a suffix) if you don't need one.
1004 Two ``variable names'' have special meanings in a local variables
1005 list: a value for the variable @code{mode} really sets the major mode,
1006 and a value for the variable @code{eval} is simply evaluated as an
1007 expression and the value is ignored. @code{mode} and @code{eval} are
1008 not real variables; setting variables named @code{mode} and @code{eval}
1009 in any other context has no special meaning. @emph{If @code{mode} is
1010 used to set a major mode, it should be the first ``variable'' in the
1011 list.} Otherwise, the entries that precede it in the list of the local
1012 variables are likely to be ignored, since most modes kill all local
1013 variables as part of their initialization.
1015 You can use the @code{mode} ``variable'' to set minor modes as well as
1016 major modes; in fact, you can use it more than once, first to set the
1017 major mode and then to set minor modes which are specific to particular
1018 buffers. But most minor modes should not be specified in the file in
1019 any fashion, because they represent user preferences.
1021 For example, you may be tempted to try to turn on Auto Fill mode with
1022 a local variable list. That is a mistake. The choice of Auto Fill mode
1023 or not is a matter of individual taste, not a matter of the contents of
1024 particular files. If you want to use Auto Fill, set up major mode hooks
1025 with your @file{.emacs} file to turn it on (when appropriate) for you
1026 alone (@pxref{Init File}). Don't use a local variable list to impose
1027 your taste on everyone.
1029 The start of the local variables list must be no more than 3000
1030 characters from the end of the file, and must be in the last page if the
1031 file is divided into pages. Otherwise, Emacs will not notice it is
1032 there. The purpose of this rule is so that a stray @samp{Local
1033 Variables:}@: not in the last page does not confuse Emacs, and so that
1034 visiting a long file that is all one page and has no local variables
1035 list need not take the time to search the whole file.
1037 Use the command @code{normal-mode} to reset the local variables and
1038 major mode of a buffer according to the file name and contents,
1039 including the local variables list if any. @xref{Choosing Modes}.
1041 @findex enable-local-variables
1042 The variable @code{enable-local-variables} controls whether to process
1043 local variables in files, and thus gives you a chance to override them.
1044 Its default value is @code{t}, which means do process local variables in
1045 files. If you set the value to @code{nil}, Emacs simply ignores local
1046 variables in files. Any other value says to query you about each file
1047 that has local variables, showing you the local variable specifications
1050 @findex enable-local-eval
1051 The @code{eval} ``variable,'' and certain actual variables, create a
1052 special risk; when you visit someone else's file, local variable
1053 specifications for these could affect your Emacs in arbitrary ways.
1054 Therefore, the option @code{enable-local-eval} controls whether Emacs
1055 processes @code{eval} variables, as well variables with names that end
1056 in @samp{-hook}, @samp{-hooks}, @samp{-function} or @samp{-functions},
1057 and certain other variables. The three possibilities for the option's
1058 value are @code{t}, @code{nil}, and anything else, just as for
1059 @code{enable-local-variables}. The default is @code{maybe}, which is
1060 neither @code{t} nor @code{nil}, so normally Emacs does ask for
1061 confirmation about file settings for these variables.
1064 @section Customizing Key Bindings
1065 @cindex key bindings
1067 This section describes @dfn{key bindings}, which map keys to commands,
1068 and @dfn{keymaps}, which record key bindings. It also explains how
1069 to customize key bindings.
1071 Recall that a command is a Lisp function whose definition provides for
1072 interactive use. Like every Lisp function, a command has a function
1073 name which usually consists of lower-case letters and hyphens.
1076 * Keymaps:: Generalities. The global keymap.
1077 * Prefix Keymaps:: Keymaps for prefix keys.
1078 * Local Keymaps:: Major and minor modes have their own keymaps.
1079 * Minibuffer Maps:: The minibuffer uses its own local keymaps.
1080 * Rebinding:: How to redefine one key's meaning conveniently.
1081 * Init Rebinding:: Rebinding keys with your init file, @file{.emacs}.
1082 * Function Keys:: Rebinding terminal function keys.
1083 * Named ASCII Chars:: Distinguishing @key{TAB} from @kbd{C-i}, and so on.
1084 * Non-ASCII Rebinding:: Rebinding non-@acronym{ASCII} characters such as Latin-1.
1085 * Mouse Buttons:: Rebinding mouse buttons in Emacs.
1086 * Disabling:: Disabling a command means confirmation is required
1087 before it can be executed. This is done to protect
1088 beginners from surprises.
1095 The bindings between key sequences and command functions are recorded
1096 in data structures called @dfn{keymaps}. Emacs has many of these, each
1097 used on particular occasions.
1099 Recall that a @dfn{key sequence} (@dfn{key}, for short) is a sequence
1100 of @dfn{input events} that have a meaning as a unit. Input events
1101 include characters, function keys and mouse buttons---all the inputs
1102 that you can send to the computer with your terminal. A key sequence
1103 gets its meaning from its @dfn{binding}, which says what command it
1104 runs. The function of keymaps is to record these bindings.
1106 @cindex global keymap
1107 The @dfn{global} keymap is the most important keymap because it is
1108 always in effect. The global keymap defines keys for Fundamental mode;
1109 most of these definitions are common to most or all major modes. Each
1110 major or minor mode can have its own keymap which overrides the global
1111 definitions of some keys.
1113 For example, a self-inserting character such as @kbd{g} is
1114 self-inserting because the global keymap binds it to the command
1115 @code{self-insert-command}. The standard Emacs editing characters such
1116 as @kbd{C-a} also get their standard meanings from the global keymap.
1117 Commands to rebind keys, such as @kbd{M-x global-set-key}, actually work
1118 by storing the new binding in the proper place in the global map.
1121 Meta characters work differently; Emacs translates each Meta
1122 character into a pair of characters starting with @key{ESC}. When you
1123 type the character @kbd{M-a} in a key sequence, Emacs replaces it with
1124 @kbd{@key{ESC} a}. A meta key comes in as a single input event, but
1125 becomes two events for purposes of key bindings. The reason for this is
1126 historical, and we might change it someday.
1128 @cindex function key
1129 Most modern keyboards have function keys as well as character keys.
1130 Function keys send input events just as character keys do, and keymaps
1131 can have bindings for them.
1133 On many terminals, typing a function key actually sends the computer a
1134 sequence of characters; the precise details of the sequence depends on
1135 which function key and on the model of terminal you are using. (Often
1136 the sequence starts with @kbd{@key{ESC} [}.) If Emacs understands your
1137 terminal type properly, it recognizes the character sequences forming
1138 function keys wherever they occur in a key sequence (not just at the
1139 beginning). Thus, for most purposes, you can pretend the function keys
1140 reach Emacs directly and ignore their encoding as character sequences.
1143 Mouse buttons also produce input events. These events come with other
1144 data---the window and position where you pressed or released the button,
1145 and a time stamp. But only the choice of button matters for key
1146 bindings; the other data matters only if a command looks at it.
1147 (Commands designed for mouse invocation usually do look at the other
1150 A keymap records definitions for single events. Interpreting a key
1151 sequence of multiple events involves a chain of keymaps. The first
1152 keymap gives a definition for the first event; this definition is
1153 another keymap, which is used to look up the second event in the
1154 sequence, and so on.
1156 Key sequences can mix function keys and characters. For example,
1157 @kbd{C-x @key{SELECT}} is meaningful. If you make @key{SELECT} a prefix
1158 key, then @kbd{@key{SELECT} C-n} makes sense. You can even mix mouse
1159 events with keyboard events, but we recommend against it, because such
1160 key sequences are inconvenient to use.
1162 As a user, you can redefine any key; but it is usually best to stick
1163 to key sequences that consist of @kbd{C-c} followed by a letter (upper
1164 or lower case). These keys are ``reserved for users,'' so they won't
1165 conflict with any properly designed Emacs extension. The function
1166 keys @key{F5} through @key{F9} are also reserved for users. If you
1167 redefine some other key, your definition may be overridden by certain
1168 extensions or major modes which redefine the same key.
1170 @node Prefix Keymaps
1171 @subsection Prefix Keymaps
1173 A prefix key such as @kbd{C-x} or @key{ESC} has its own keymap,
1174 which holds the definition for the event that immediately follows
1177 The definition of a prefix key is usually the keymap to use for
1178 looking up the following event. The definition can also be a Lisp
1179 symbol whose function definition is the following keymap; the effect is
1180 the same, but it provides a command name for the prefix key that can be
1181 used as a description of what the prefix key is for. Thus, the binding
1182 of @kbd{C-x} is the symbol @code{Ctl-X-Prefix}, whose function
1183 definition is the keymap for @kbd{C-x} commands. The definitions of
1184 @kbd{C-c}, @kbd{C-x}, @kbd{C-h} and @key{ESC} as prefix keys appear in
1185 the global map, so these prefix keys are always available.
1187 Aside from ordinary prefix keys, there is a fictitious ``prefix key''
1188 which represents the menu bar; see @ref{Menu Bar,,,elisp, The Emacs Lisp
1189 Reference Manual}, for special information about menu bar key bindings.
1190 Mouse button events that invoke pop-up menus are also prefix keys; see
1191 @ref{Menu Keymaps,,,elisp, The Emacs Lisp Reference Manual}, for more
1194 Some prefix keymaps are stored in variables with names:
1199 @code{ctl-x-map} is the variable name for the map used for characters that
1203 @code{help-map} is for characters that follow @kbd{C-h}.
1206 @code{esc-map} is for characters that follow @key{ESC}. Thus, all Meta
1207 characters are actually defined by this map.
1210 @code{ctl-x-4-map} is for characters that follow @kbd{C-x 4}.
1212 @vindex mode-specific-map
1213 @code{mode-specific-map} is for characters that follow @kbd{C-c}.
1217 @subsection Local Keymaps
1219 @cindex local keymap
1220 So far we have explained the ins and outs of the global map. Major
1221 modes customize Emacs by providing their own key bindings in @dfn{local
1222 keymaps}. For example, C mode overrides @key{TAB} to make it indent the
1223 current line for C code. Portions of text in the buffer can specify
1224 their own keymaps to substitute for the keymap of the buffer's major
1227 @cindex minor mode keymap
1228 Minor modes can also have local keymaps. Whenever a minor mode is
1229 in effect, the definitions in its keymap override both the major
1230 mode's local keymap and the global keymap.
1233 @vindex lisp-mode-map
1234 The local keymaps for Lisp mode and several other major modes always
1235 exist even when not in use. These are kept in variables named
1236 @code{lisp-mode-map} and so on. For major modes less often used, the
1237 local keymap is normally constructed only when the mode is used for the
1238 first time in a session. This is to save space. If you wish to change
1239 one of these keymaps, you must use the major mode's @dfn{mode
1242 All minor mode keymaps are created in advance. There is no way to
1243 defer their creation until the first time the minor mode is enabled.
1245 A local keymap can locally redefine a key as a prefix key by defining
1246 it as a prefix keymap. If the key is also defined globally as a prefix,
1247 then its local and global definitions (both keymaps) effectively
1248 combine: both of them are used to look up the event that follows the
1249 prefix key. Thus, if the mode's local keymap defines @kbd{C-c} as
1250 another keymap, and that keymap defines @kbd{C-z} as a command, this
1251 provides a local meaning for @kbd{C-c C-z}. This does not affect other
1252 sequences that start with @kbd{C-c}; if those sequences don't have their
1253 own local bindings, their global bindings remain in effect.
1255 Another way to think of this is that Emacs handles a multi-event key
1256 sequence by looking in several keymaps, one by one, for a binding of the
1257 whole key sequence. First it checks the minor mode keymaps for minor
1258 modes that are enabled, then it checks the major mode's keymap, and then
1259 it checks the global keymap. This is not precisely how key lookup
1260 works, but it's good enough for understanding ordinary circumstances.
1262 @cindex rebinding major mode keys
1264 To change the local bindings of a major mode, you must change the
1265 mode's local keymap. Normally you must wait until the first time the
1266 mode is used, because most major modes don't create their keymaps until
1267 then. If you want to specify something in your @file{~/.emacs} file to
1268 change a major mode's bindings, you must use the mode's mode hook to
1269 delay the change until the mode is first used.
1271 For example, the command @code{texinfo-mode} to select Texinfo mode
1272 runs the hook @code{texinfo-mode-hook}. Here's how you can use the hook
1273 to add local bindings (not very useful, we admit) for @kbd{C-c n} and
1274 @kbd{C-c p} in Texinfo mode:
1277 (add-hook 'texinfo-mode-hook
1279 (define-key texinfo-mode-map "\C-cp"
1280 'backward-paragraph)
1281 (define-key texinfo-mode-map "\C-cn"
1282 'forward-paragraph)))
1287 @node Minibuffer Maps
1288 @subsection Minibuffer Keymaps
1290 @cindex minibuffer keymaps
1291 @vindex minibuffer-local-map
1292 @vindex minibuffer-local-ns-map
1293 @vindex minibuffer-local-completion-map
1294 @vindex minibuffer-local-must-match-map
1295 The minibuffer has its own set of local keymaps; they contain various
1296 completion and exit commands.
1300 @code{minibuffer-local-map} is used for ordinary input (no completion).
1302 @code{minibuffer-local-ns-map} is similar, except that @key{SPC} exits
1303 just like @key{RET}. This is used mainly for Mocklisp compatibility.
1305 @code{minibuffer-local-completion-map} is for permissive completion.
1307 @code{minibuffer-local-must-match-map} is for strict completion and
1308 for cautious completion.
1312 @subsection Changing Key Bindings Interactively
1313 @cindex key rebinding, this session
1314 @cindex redefining keys, this session
1316 The way to redefine an Emacs key is to change its entry in a keymap.
1317 You can change the global keymap, in which case the change is effective in
1318 all major modes (except those that have their own overriding local
1319 definitions for the same key). Or you can change the current buffer's
1320 local map, which affects all buffers using the same major mode.
1322 @findex global-set-key
1323 @findex local-set-key
1324 @findex global-unset-key
1325 @findex local-unset-key
1327 @item M-x global-set-key @key{RET} @var{key} @var{cmd} @key{RET}
1328 Define @var{key} globally to run @var{cmd}.
1329 @item M-x local-set-key @key{RET} @var{key} @var{cmd} @key{RET}
1330 Define @var{key} locally (in the major mode now in effect) to run
1332 @item M-x global-unset-key @key{RET} @var{key}
1333 Make @var{key} undefined in the global map.
1334 @item M-x local-unset-key @key{RET} @var{key}
1335 Make @var{key} undefined locally (in the major mode now in effect).
1338 For example, suppose you like to execute commands in a subshell within
1339 an Emacs buffer, instead of suspending Emacs and executing commands in
1340 your login shell. Normally, @kbd{C-z} is bound to the function
1341 @code{suspend-emacs} (when not using the X Window System), but you can
1342 change @kbd{C-z} to invoke an interactive subshell within Emacs, by
1343 binding it to @code{shell} as follows:
1346 M-x global-set-key @key{RET} C-z shell @key{RET}
1350 @code{global-set-key} reads the command name after the key. After you
1351 press the key, a message like this appears so that you can confirm that
1352 you are binding the key you want:
1355 Set key C-z to command:
1358 You can redefine function keys and mouse events in the same way; just
1359 type the function key or click the mouse when it's time to specify the
1362 You can rebind a key that contains more than one event in the same
1363 way. Emacs keeps reading the key to rebind until it is a complete key
1364 (that is, not a prefix key). Thus, if you type @kbd{C-f} for
1365 @var{key}, that's the end; the minibuffer is entered immediately to
1366 read @var{cmd}. But if you type @kbd{C-x}, another character is read;
1367 if that is @kbd{4}, another character is read, and so on. For
1371 M-x global-set-key @key{RET} C-x 4 $ spell-other-window @key{RET}
1375 redefines @kbd{C-x 4 $} to run the (fictitious) command
1376 @code{spell-other-window}.
1378 The two-character keys consisting of @kbd{C-c} followed by a letter
1379 are reserved for user customizations. Lisp programs are not supposed to
1380 define these keys, so the bindings you make for them will be available
1381 in all major modes and will never get in the way of anything.
1383 You can remove the global definition of a key with
1384 @code{global-unset-key}. This makes the key @dfn{undefined}; if you
1385 type it, Emacs will just beep. Similarly, @code{local-unset-key} makes
1386 a key undefined in the current major mode keymap, which makes the global
1387 definition (or lack of one) come back into effect in that major mode.
1389 If you have redefined (or undefined) a key and you subsequently wish
1390 to retract the change, undefining the key will not do the job---you need
1391 to redefine the key with its standard definition. To find the name of
1392 the standard definition of a key, go to a Fundamental mode buffer and
1393 use @kbd{C-h c}. The documentation of keys in this manual also lists
1394 their command names.
1396 If you want to prevent yourself from invoking a command by mistake, it
1397 is better to disable the command than to undefine the key. A disabled
1398 command is less work to invoke when you really want to.
1401 @node Init Rebinding
1402 @subsection Rebinding Keys in Your Init File
1404 If you have a set of key bindings that you like to use all the time,
1405 you can specify them in your @file{.emacs} file by using their Lisp
1406 syntax. (@xref{Init File}.)
1408 The simplest method for doing this works for @acronym{ASCII} characters and
1409 Meta-modified @acronym{ASCII} characters only. This method uses a string to
1410 represent the key sequence you want to rebind. For example, here's how
1411 to bind @kbd{C-z} to @code{shell}:
1414 (global-set-key "\C-z" 'shell)
1418 This example uses a string constant containing one character, @kbd{C-z}.
1419 The single-quote before the command name, @code{shell}, marks it as a
1420 constant symbol rather than a variable. If you omit the quote, Emacs
1421 would try to evaluate @code{shell} immediately as a variable. This
1422 probably causes an error; it certainly isn't what you want.
1424 Here is another example that binds a key sequence two characters long:
1427 (global-set-key "\C-xl" 'make-symbolic-link)
1430 To put @key{TAB}, @key{RET}, @key{ESC}, or @key{DEL} in the
1431 string, you can use the Emacs Lisp escape sequences, @samp{\t},
1432 @samp{\r}, @samp{\e}, and @samp{\d}. Here is an example which binds
1433 @kbd{C-x @key{TAB}}:
1436 (global-set-key "\C-x\t" 'indent-rigidly)
1439 These examples show how to write some other special @acronym{ASCII} characters
1440 in strings for key bindings:
1443 (global-set-key "\r" 'newline) ;; @key{RET}
1444 (global-set-key "\d" 'delete-backward-char) ;; @key{DEL}
1445 (global-set-key "\C-x\e\e" 'repeat-complex-command) ;; @key{ESC}
1448 When the key sequence includes function keys or mouse button events,
1449 or non-@acronym{ASCII} characters such as @code{C-=} or @code{H-a}, you must use
1450 the more general method of rebinding, which uses a vector to specify the
1453 The way to write a vector in Emacs Lisp is with square brackets around
1454 the vector elements. Use spaces to separate the elements. If an
1455 element is a symbol, simply write the symbol's name---no other
1456 delimiters or punctuation are needed. If a vector element is a
1457 character, write it as a Lisp character constant: @samp{?} followed by
1458 the character as it would appear in a string.
1460 Here are examples of using vectors to rebind @kbd{C-=} (a control
1461 character not in @acronym{ASCII}), @kbd{C-M-=} (not in @acronym{ASCII} because @kbd{C-=}
1462 is not), @kbd{H-a} (a Hyper character; @acronym{ASCII} doesn't have Hyper at
1463 all), @key{F7} (a function key), and @kbd{C-Mouse-1} (a
1464 keyboard-modified mouse button):
1467 (global-set-key [?\C-=] 'make-symbolic-link)
1468 (global-set-key [?\M-\C-=] 'make-symbolic-link)
1469 (global-set-key [?\H-a] 'make-symbolic-link)
1470 (global-set-key [f7] 'make-symbolic-link)
1471 (global-set-key [C-mouse-1] 'make-symbolic-link)
1474 You can use a vector for the simple cases too. Here's how to
1475 rewrite the first three examples above, using vectors to bind
1476 @kbd{C-z}, @kbd{C-x l}, and @kbd{C-x @key{TAB}}:
1479 (global-set-key [?\C-z] 'shell)
1480 (global-set-key [?\C-x ?l] 'make-symbolic-link)
1481 (global-set-key [?\C-x ?\t] 'indent-rigidly)
1482 (global-set-key [?\r] 'newline)
1483 (global-set-key [?\d] 'delete-backward-char)
1484 (global-set-key [?\C-x ?\e ?\e] 'repeat-complex-command)
1488 As you see, you represent a multi-character key sequence with a vector
1489 by listing each of the characters within the square brackets that
1492 Language and coding systems can cause problems with key bindings
1493 for non-@acronym{ASCII} characters. @xref{Non-ASCII Rebinding}.
1496 @subsection Rebinding Function Keys
1498 Key sequences can contain function keys as well as ordinary
1499 characters. Just as Lisp characters (actually integers) represent
1500 keyboard characters, Lisp symbols represent function keys. If the
1501 function key has a word as its label, then that word is also the name of
1502 the corresponding Lisp symbol. Here are the conventional Lisp names for
1503 common function keys:
1506 @item @code{left}, @code{up}, @code{right}, @code{down}
1509 @item @code{begin}, @code{end}, @code{home}, @code{next}, @code{prior}
1510 Other cursor repositioning keys.
1512 @item @code{select}, @code{print}, @code{execute}, @code{backtab}
1513 @itemx @code{insert}, @code{undo}, @code{redo}, @code{clearline}
1514 @itemx @code{insertline}, @code{deleteline}, @code{insertchar}, @code{deletechar}
1515 Miscellaneous function keys.
1517 @item @code{f1}, @code{f2}, @dots{} @code{f35}
1518 Numbered function keys (across the top of the keyboard).
1520 @item @code{kp-add}, @code{kp-subtract}, @code{kp-multiply}, @code{kp-divide}
1521 @itemx @code{kp-backtab}, @code{kp-space}, @code{kp-tab}, @code{kp-enter}
1522 @itemx @code{kp-separator}, @code{kp-decimal}, @code{kp-equal}
1523 Keypad keys (to the right of the regular keyboard), with names or punctuation.
1525 @item @code{kp-0}, @code{kp-1}, @dots{} @code{kp-9}
1526 Keypad keys with digits.
1528 @item @code{kp-f1}, @code{kp-f2}, @code{kp-f3}, @code{kp-f4}
1532 These names are conventional, but some systems (especially when using
1533 X) may use different names. To make certain what symbol is used for a
1534 given function key on your terminal, type @kbd{C-h c} followed by that
1537 A key sequence which contains function key symbols (or anything but
1538 @acronym{ASCII} characters) must be a vector rather than a string. The vector
1539 syntax uses spaces between the elements, and square brackets around the
1540 whole vector. Thus, to bind function key @samp{f1} to the command
1541 @code{rmail}, write the following:
1544 (global-set-key [f1] 'rmail)
1548 To bind the right-arrow key to the command @code{forward-char}, you can
1549 use this expression:
1552 (global-set-key [right] 'forward-char)
1556 This uses the Lisp syntax for a vector containing the symbol
1557 @code{right}. (This binding is present in Emacs by default.)
1559 @xref{Init Rebinding}, for more information about using vectors for
1562 You can mix function keys and characters in a key sequence. This
1563 example binds @kbd{C-x @key{NEXT}} to the command @code{forward-page}.
1566 (global-set-key [?\C-x next] 'forward-page)
1570 where @code{?\C-x} is the Lisp character constant for the character
1571 @kbd{C-x}. The vector element @code{next} is a symbol and therefore
1572 does not take a question mark.
1574 You can use the modifier keys @key{CTRL}, @key{META}, @key{HYPER},
1575 @key{SUPER}, @key{ALT} and @key{SHIFT} with function keys. To represent
1576 these modifiers, add the strings @samp{C-}, @samp{M-}, @samp{H-},
1577 @samp{s-}, @samp{A-} and @samp{S-} at the front of the symbol name.
1578 Thus, here is how to make @kbd{Hyper-Meta-@key{RIGHT}} move forward a
1582 (global-set-key [H-M-right] 'forward-word)
1585 @node Named ASCII Chars
1586 @subsection Named @acronym{ASCII} Control Characters
1588 @key{TAB}, @key{RET}, @key{BS}, @key{LFD}, @key{ESC} and @key{DEL}
1589 started out as names for certain @acronym{ASCII} control characters, used so often
1590 that they have special keys of their own. Later, users found it
1591 convenient to distinguish in Emacs between these keys and the ``same''
1592 control characters typed with the @key{CTRL} key.
1594 Emacs distinguishes these two kinds of input, when the keyboard
1595 reports these keys to Emacs. It treats the ``special'' keys as function
1596 keys named @code{tab}, @code{return}, @code{backspace}, @code{linefeed},
1597 @code{escape}, and @code{delete}. These function keys translate
1598 automatically into the corresponding @acronym{ASCII} characters @emph{if} they
1599 have no bindings of their own. As a result, neither users nor Lisp
1600 programs need to pay attention to the distinction unless they care to.
1602 If you do not want to distinguish between (for example) @key{TAB} and
1603 @kbd{C-i}, make just one binding, for the @acronym{ASCII} character @key{TAB}
1604 (octal code 011). If you do want to distinguish, make one binding for
1605 this @acronym{ASCII} character, and another for the ``function key'' @code{tab}.
1607 With an ordinary @acronym{ASCII} terminal, there is no way to distinguish
1608 between @key{TAB} and @kbd{C-i} (and likewise for other such pairs),
1609 because the terminal sends the same character in both cases.
1611 @node Non-ASCII Rebinding
1612 @subsection Non-@acronym{ASCII} Characters on the Keyboard
1613 @cindex rebinding non-@acronym{ASCII} keys
1614 @cindex non-@acronym{ASCII} keys, binding
1616 If your keyboard has keys that send non-@acronym{ASCII} characters, such as
1617 accented letters, rebinding these keys is a bit tricky. There are two
1618 solutions you can use. One is to specify a keyboard coding system,
1619 using @code{set-keyboard-coding-system} (@pxref{Specify Coding}).
1620 Then you can bind these keys in the usual way@footnote{Note that you
1621 should avoid the string syntax for binding 8-bit characters, since
1622 they will be interpreted as meta keys. @xref{Strings of
1623 Events,,,elisp, The Emacs Lisp Reference Manual}.}, like this:
1626 (global-set-key [?@var{char}] 'some-function)
1630 Type @kbd{C-q} followed by the key you want to bind, to insert @var{char}.
1632 Since this puts a non-@acronym{ASCII} character in the @file{.emacs}, you should
1633 specify the proper coding system for that file. @xref{Init Syntax}.
1634 Specify the same coding system for the file that you use for your
1637 If you don't specify a keyboard coding system, that approach won't
1638 work. Instead, you need to find out the actual code that the terminal
1639 sends. The easiest way to do this in Emacs is to create an empty
1640 buffer with @kbd{C-x b temp @key{RET}}, make it unibyte with @kbd{M-x
1641 toggle-enable-multibyte-characters @key{RET}}, then type the key to
1642 insert the character into this buffer.
1644 Move point before the character, then type @kbd{C-x =}. This
1645 displays a message in the minibuffer, showing the character code in
1646 three ways, octal, decimal and hexadecimal, all within a set of
1647 parentheses. Use the second of the three numbers, the decimal one,
1648 inside the vector to bind:
1651 (global-set-key [@var{decimal-code}] 'some-function)
1654 If you bind 8-bit characters like this in your init file, you may find it
1655 convenient to specify that it is unibyte. @xref{Enabling Multibyte}.
1658 @subsection Rebinding Mouse Buttons
1659 @cindex mouse button events
1660 @cindex rebinding mouse buttons
1661 @cindex click events
1664 @cindex button down events
1666 Emacs uses Lisp symbols to designate mouse buttons, too. The ordinary
1667 mouse events in Emacs are @dfn{click} events; these happen when you
1668 press a button and release it without moving the mouse. You can also
1669 get @dfn{drag} events, when you move the mouse while holding the button
1670 down. Drag events happen when you finally let go of the button.
1672 The symbols for basic click events are @code{mouse-1} for the leftmost
1673 button, @code{mouse-2} for the next, and so on. Here is how you can
1674 redefine the second mouse button to split the current window:
1677 (global-set-key [mouse-2] 'split-window-vertically)
1680 The symbols for drag events are similar, but have the prefix
1681 @samp{drag-} before the word @samp{mouse}. For example, dragging the
1682 first button generates a @code{drag-mouse-1} event.
1684 You can also define bindings for events that occur when a mouse button
1685 is pressed down. These events start with @samp{down-} instead of
1686 @samp{drag-}. Such events are generated only if they have key bindings.
1687 When you get a button-down event, a corresponding click or drag event
1690 @cindex double clicks
1691 @cindex triple clicks
1692 If you wish, you can distinguish single, double, and triple clicks. A
1693 double click means clicking a mouse button twice in approximately the
1694 same place. The first click generates an ordinary click event. The
1695 second click, if it comes soon enough, generates a double-click event
1696 instead. The event type for a double-click event starts with
1697 @samp{double-}: for example, @code{double-mouse-3}.
1699 This means that you can give a special meaning to the second click at
1700 the same place, but it must act on the assumption that the ordinary
1701 single click definition has run when the first click was received.
1703 This constrains what you can do with double clicks, but user interface
1704 designers say that this constraint ought to be followed in any case. A
1705 double click should do something similar to the single click, only
1706 ``more so.'' The command for the double-click event should perform the
1707 extra work for the double click.
1709 If a double-click event has no binding, it changes to the
1710 corresponding single-click event. Thus, if you don't define a
1711 particular double click specially, it executes the single-click command
1714 Emacs also supports triple-click events whose names start with
1715 @samp{triple-}. Emacs does not distinguish quadruple clicks as event
1716 types; clicks beyond the third generate additional triple-click events.
1717 However, the full number of clicks is recorded in the event list, so you
1718 can distinguish if you really want to. We don't recommend distinct
1719 meanings for more than three clicks, but sometimes it is useful for
1720 subsequent clicks to cycle through the same set of three meanings, so
1721 that four clicks are equivalent to one click, five are equivalent to
1722 two, and six are equivalent to three.
1724 Emacs also records multiple presses in drag and button-down events.
1725 For example, when you press a button twice, then move the mouse while
1726 holding the button, Emacs gets a @samp{double-drag-} event. And at the
1727 moment when you press it down for the second time, Emacs gets a
1728 @samp{double-down-} event (which is ignored, like all button-down
1729 events, if it has no binding).
1731 @vindex double-click-time
1732 The variable @code{double-click-time} specifies how much time can
1733 elapse between clicks and still allow them to be grouped as a multiple
1734 click. Its value is in units of milliseconds. If the value is
1735 @code{nil}, double clicks are not detected at all. If the value is
1736 @code{t}, then there is no time limit. The default is 500.
1738 @vindex double-click-fuzz
1739 The variable @code{double-click-fuzz} specifies how much the mouse
1740 can move between clicks still allow them to be grouped as a multiple
1741 click. Its value is in units of pixels on windowed displays and in
1742 units of 1/8 of a character cell on text-mode terminals; the default is
1745 The symbols for mouse events also indicate the status of the modifier
1746 keys, with the usual prefixes @samp{C-}, @samp{M-}, @samp{H-},
1747 @samp{s-}, @samp{A-} and @samp{S-}. These always precede @samp{double-}
1748 or @samp{triple-}, which always precede @samp{drag-} or @samp{down-}.
1750 A frame includes areas that don't show text from the buffer, such as
1751 the mode line and the scroll bar. You can tell whether a mouse button
1752 comes from a special area of the screen by means of dummy ``prefix
1753 keys.'' For example, if you click the mouse in the mode line, you get
1754 the prefix key @code{mode-line} before the ordinary mouse-button symbol.
1755 Thus, here is how to define the command for clicking the first button in
1756 a mode line to run @code{scroll-up}:
1759 (global-set-key [mode-line mouse-1] 'scroll-up)
1762 Here is the complete list of these dummy prefix keys and their
1767 The mouse was in the mode line of a window.
1769 The mouse was in the vertical line separating side-by-side windows. (If
1770 you use scroll bars, they appear in place of these vertical lines.)
1771 @item vertical-scroll-bar
1772 The mouse was in a vertical scroll bar. (This is the only kind of
1773 scroll bar Emacs currently supports.)
1775 @item horizontal-scroll-bar
1776 The mouse was in a horizontal scroll bar. Horizontal scroll bars do
1777 horizontal scrolling, and people don't use them often.
1781 You can put more than one mouse button in a key sequence, but it isn't
1785 @subsection Disabling Commands
1786 @cindex disabled command
1788 Disabling a command marks the command as requiring confirmation before it
1789 can be executed. The purpose of disabling a command is to prevent
1790 beginning users from executing it by accident and being confused.
1792 An attempt to invoke a disabled command interactively in Emacs
1793 displays a window containing the command's name, its documentation, and
1794 some instructions on what to do immediately; then Emacs asks for input
1795 saying whether to execute the command as requested, enable it and
1796 execute it, or cancel. If you decide to enable the command, you are
1797 asked whether to do this permanently or just for the current session.
1798 (Enabling permanently works by automatically editing your @file{.emacs}
1799 file.) You can also type @kbd{!} to enable @emph{all} commands,
1800 for the current session only.
1802 The direct mechanism for disabling a command is to put a
1803 non-@code{nil} @code{disabled} property on the Lisp symbol for the
1804 command. Here is the Lisp program to do this:
1807 (put 'delete-region 'disabled t)
1810 If the value of the @code{disabled} property is a string, that string
1811 is included in the message displayed when the command is used:
1814 (put 'delete-region 'disabled
1815 "It's better to use `kill-region' instead.\n")
1818 @findex disable-command
1819 @findex enable-command
1820 You can make a command disabled either by editing the @file{.emacs}
1821 file directly or with the command @kbd{M-x disable-command}, which edits
1822 the @file{.emacs} file for you. Likewise, @kbd{M-x enable-command}
1823 edits @file{.emacs} to enable a command permanently. @xref{Init File}.
1825 If Emacs was invoked with the @option{-q} or @option{--no-init-file}
1826 options (@pxref{Initial Options}), it will not edit your
1827 @file{~/.emacs} init file. This is because editing the init file from
1828 such a session might overwrite the lines you might have on your init
1829 file which enable and disable commands.
1831 Whether a command is disabled is independent of what key is used to
1832 invoke it; disabling also applies if the command is invoked using
1833 @kbd{M-x}. Disabling a command has no effect on calling it as a
1834 function from Lisp programs.
1836 @node Keyboard Translations
1837 @section Keyboard Translations
1839 Some keyboards do not make it convenient to send all the special
1840 characters that Emacs uses. The most common problem case is the
1841 @key{DEL} character. Some keyboards provide no convenient way to type
1842 this very important character---usually because they were designed to
1843 expect the character @kbd{C-h} to be used for deletion. On these
1844 keyboards, if you press the key normally used for deletion, Emacs handles
1845 the @kbd{C-h} as a prefix character and offers you a list of help
1846 options, which is not what you want.
1848 @cindex keyboard translations
1849 @findex keyboard-translate
1850 You can work around this problem within Emacs by setting up keyboard
1851 translations to turn @kbd{C-h} into @key{DEL} and @key{DEL} into
1852 @kbd{C-h}, as follows:
1855 ;; @r{Translate @kbd{C-h} to @key{DEL}.}
1856 (keyboard-translate ?\C-h ?\C-?)
1858 ;; @r{Translate @key{DEL} to @kbd{C-h}.}
1859 (keyboard-translate ?\C-? ?\C-h)
1862 Keyboard translations are not the same as key bindings in keymaps
1863 (@pxref{Keymaps}). Emacs contains numerous keymaps that apply in
1864 different situations, but there is only one set of keyboard
1865 translations, and it applies to every character that Emacs reads from
1866 the terminal. Keyboard translations take place at the lowest level of
1867 input processing; the keys that are looked up in keymaps contain the
1868 characters that result from keyboard translation.
1870 On a window system, the keyboard key named @key{DELETE} is a function
1871 key and is distinct from the @acronym{ASCII} character named @key{DEL}.
1872 @xref{Named ASCII Chars}. Keyboard translations affect only @acronym{ASCII}
1873 character input, not function keys; thus, the above example used on a
1874 window system does not affect the @key{DELETE} key. However, the
1875 translation above isn't necessary on window systems, because Emacs can
1876 also distinguish between the @key{BACKSPACE} key and @kbd{C-h}; and it
1877 normally treats @key{BACKSPACE} as @key{DEL}.
1879 For full information about how to use keyboard translations, see
1880 @ref{Translating Input,,,elisp, The Emacs Lisp Reference Manual}.
1883 @section The Syntax Table
1884 @cindex syntax table
1886 All the Emacs commands which parse words or balance parentheses are
1887 controlled by the @dfn{syntax table}. The syntax table says which
1888 characters are opening delimiters, which are parts of words, which are
1889 string quotes, and so on. It does this by assigning each character to
1890 one of fifteen-odd @dfn{syntax classes}. In some cases it specifies
1891 some additional information also.
1893 Each major mode has its own syntax table (though related major modes
1894 sometimes share one syntax table) which it installs in each buffer
1895 that uses the mode. The syntax table installed in the current buffer
1896 is the one that all commands use, so we call it ``the'' syntax table.
1899 @findex describe-syntax
1900 To display a description of the contents of the current syntax
1901 table, type @kbd{C-h s} (@code{describe-syntax}). The description of
1902 each character includes both the string you would have to give to
1903 @code{modify-syntax-entry} to set up that character's current syntax,
1904 starting with the character which designates its syntax class, plus
1905 some English text to explain its meaning.
1907 A syntax table is actually a Lisp object, a char-table, whose
1908 elements are cons cells. For full information on the syntax table,
1909 see @ref{Syntax Tables,, Syntax Tables, elisp, The Emacs Lisp
1913 @section The Init File, @file{~/.emacs}
1915 @cindex Emacs initialization file
1916 @cindex key rebinding, permanent
1917 @cindex rebinding keys, permanently
1918 @cindex startup (init file)
1920 When Emacs is started, it normally loads a Lisp program from the file
1921 @file{.emacs} or @file{.emacs.el} in your home directory. We call this
1922 file your @dfn{init file} because it specifies how to initialize Emacs
1923 for you. You can use the command line switch @samp{-q} to prevent
1924 loading your init file, and @samp{-u} (or @samp{--user}) to specify a
1925 different user's init file (@pxref{Initial Options}).
1927 @cindex @file{default.el}, the default init file
1928 There can also be a @dfn{default init file}, which is the library
1929 named @file{default.el}, found via the standard search path for
1930 libraries. The Emacs distribution contains no such library; your site
1931 may create one for local customizations. If this library exists, it is
1932 loaded whenever you start Emacs (except when you specify @samp{-q}).
1933 But your init file, if any, is loaded first; if it sets
1934 @code{inhibit-default-init} non-@code{nil}, then @file{default} is not
1937 @cindex site init file
1938 @cindex @file{site-start.el}, the site startup file
1939 Your site may also have a @dfn{site startup file}; this is named
1940 @file{site-start.el}, if it exists. Like @file{default.el}, Emacs
1941 finds this file via the standard search path for Lisp libraries.
1942 Emacs loads this library before it loads your init file. To inhibit
1943 loading of this library, use the option @samp{-no-site-file}.
1944 @xref{Initial Options}.
1946 You can place @file{default.el} and @file{site-start.el} in any of
1947 the directories which Emacs searches for Lisp libraries. The variable
1948 @code{load-path} (@pxref{Lisp Libraries}) specifies these directories.
1949 Many sites put these files in the @file{site-lisp} subdirectory of the
1950 Emacs installation directory, typically
1951 @file{/usr/local/share/emacs/site-lisp}.
1953 If you have a large amount of code in your @file{.emacs} file, you
1954 should rename it to @file{~/.emacs.el}, and byte-compile it. @xref{Byte
1955 Compilation,, Byte Compilation, elisp, the Emacs Lisp Reference Manual},
1956 for more information about compiling Emacs Lisp programs.
1958 If you are going to write actual Emacs Lisp programs that go beyond
1959 minor customization, you should read the @cite{Emacs Lisp Reference Manual}.
1961 @xref{Top, Emacs Lisp, Emacs Lisp, elisp, the Emacs Lisp Reference
1966 * Init Syntax:: Syntax of constants in Emacs Lisp.
1967 * Init Examples:: How to do some things with an init file.
1968 * Terminal Init:: Each terminal type can have an init file.
1969 * Find Init:: How Emacs finds the init file.
1973 @subsection Init File Syntax
1975 The @file{.emacs} file contains one or more Lisp function call
1976 expressions. Each of these consists of a function name followed by
1977 arguments, all surrounded by parentheses. For example, @code{(setq
1978 fill-column 60)} calls the function @code{setq} to set the variable
1979 @code{fill-column} (@pxref{Filling}) to 60.
1981 The second argument to @code{setq} is an expression for the new value of
1982 the variable. This can be a constant, a variable, or a function call
1983 expression. In @file{.emacs}, constants are used most of the time. They can be:
1987 Numbers are written in decimal, with an optional initial minus sign.
1990 @cindex Lisp string syntax
1991 @cindex string syntax
1992 Lisp string syntax is the same as C string syntax with a few extra
1993 features. Use a double-quote character to begin and end a string constant.
1995 In a string, you can include newlines and special characters literally.
1996 But often it is cleaner to use backslash sequences for them: @samp{\n}
1997 for newline, @samp{\b} for backspace, @samp{\r} for carriage return,
1998 @samp{\t} for tab, @samp{\f} for formfeed (control-L), @samp{\e} for
1999 escape, @samp{\\} for a backslash, @samp{\"} for a double-quote, or
2000 @samp{\@var{ooo}} for the character whose octal code is @var{ooo}.
2001 Backslash and double-quote are the only characters for which backslash
2002 sequences are mandatory.
2004 @samp{\C-} can be used as a prefix for a control character, as in
2005 @samp{\C-s} for @acronym{ASCII} control-S, and @samp{\M-} can be used as a prefix for
2006 a Meta character, as in @samp{\M-a} for @kbd{Meta-A} or @samp{\M-\C-a} for
2007 @kbd{Control-Meta-A}.@refill
2009 @cindex international characters in @file{.emacs}
2010 @cindex non-@acronym{ASCII} characters in @file{.emacs}
2011 If you want to include non-@acronym{ASCII} characters in strings in your init
2012 file, you should consider putting a @w{@samp{-*-coding:
2013 @var{coding-system}-*-}} tag on the first line which states the coding
2014 system used to save your @file{.emacs}, as explained in @ref{Recognize
2015 Coding}. This is because the defaults for decoding non-@acronym{ASCII} text might
2016 not yet be set up by the time Emacs reads those parts of your init file
2017 which use such strings, possibly leading Emacs to decode those strings
2021 Lisp character constant syntax consists of a @samp{?} followed by
2022 either a character or an escape sequence starting with @samp{\}.
2023 Examples: @code{?x}, @code{?\n}, @code{?\"}, @code{?\)}. Note that
2024 strings and characters are not interchangeable in Lisp; some contexts
2025 require one and some contexts require the other.
2027 @xref{Non-ASCII Rebinding}, for information about binding commands to
2028 keys which send non-@acronym{ASCII} characters.
2031 @code{t} stands for `true'.
2034 @code{nil} stands for `false'.
2036 @item Other Lisp objects:
2037 Write a single-quote (@code{'}) followed by the Lisp object you want.
2041 @subsection Init File Examples
2043 Here are some examples of doing certain commonly desired things with
2048 Make @key{TAB} in C mode just insert a tab if point is in the middle of a
2052 (setq c-tab-always-indent nil)
2055 Here we have a variable whose value is normally @code{t} for `true'
2056 and the alternative is @code{nil} for `false'.
2059 Make searches case sensitive by default (in all buffers that do not
2063 (setq-default case-fold-search nil)
2066 This sets the default value, which is effective in all buffers that do
2067 not have local values for the variable. Setting @code{case-fold-search}
2068 with @code{setq} affects only the current buffer's local value, which
2069 is not what you probably want to do in an init file.
2072 @vindex user-mail-address
2073 Specify your own email address, if Emacs can't figure it out correctly.
2076 (setq user-mail-address "coon@@yoyodyne.com")
2079 Various Emacs packages that need your own email address use the value of
2080 @code{user-mail-address}.
2083 Make Text mode the default mode for new buffers.
2086 (setq default-major-mode 'text-mode)
2089 Note that @code{text-mode} is used because it is the command for
2090 entering Text mode. The single-quote before it makes the symbol a
2091 constant; otherwise, @code{text-mode} would be treated as a variable
2096 Set up defaults for the Latin-1 character set
2097 which supports most of the languages of Western Europe.
2100 (set-language-environment "Latin-1")
2105 Turn on Auto Fill mode automatically in Text mode and related modes.
2108 (add-hook 'text-mode-hook
2109 '(lambda () (auto-fill-mode 1)))
2112 This shows how to add a hook function to a normal hook variable
2113 (@pxref{Hooks}). The function we supply is a list starting with
2114 @code{lambda}, with a single-quote in front of it to make it a list
2115 constant rather than an expression.
2117 It's beyond the scope of this manual to explain Lisp functions, but for
2118 this example it is enough to know that the effect is to execute
2119 @code{(auto-fill-mode 1)} when Text mode is entered. You can replace
2120 that with any other expression that you like, or with several
2121 expressions in a row.
2123 Emacs comes with a function named @code{turn-on-auto-fill} whose
2124 definition is @code{(lambda () (auto-fill-mode 1))}. Thus, a simpler
2125 way to write the above example is as follows:
2128 (add-hook 'text-mode-hook 'turn-on-auto-fill)
2132 Load the installed Lisp library named @file{foo} (actually a file
2133 @file{foo.elc} or @file{foo.el} in a standard Emacs directory).
2139 When the argument to @code{load} is a relative file name, not starting
2140 with @samp{/} or @samp{~}, @code{load} searches the directories in
2141 @code{load-path} (@pxref{Lisp Libraries}).
2144 Load the compiled Lisp file @file{foo.elc} from your home directory.
2150 Here an absolute file name is used, so no searching is done.
2153 @cindex loading Lisp libraries automatically
2154 @cindex autoload Lisp libraries
2155 Tell Emacs to find the definition for the function @code{myfunction}
2156 by loading a Lisp library named @file{mypackage} (i.e.@: a file
2157 @file{mypackage.elc} or @file{mypackage.el}):
2160 (autoload 'myfunction "mypackage" "Do what I say." t)
2164 Here the string @code{"Do what I say."} is the function's
2165 documentation string. You specify it in the @code{autoload}
2166 definition so it will be available for help commands even when the
2167 package is not loaded. The last argument, @code{t}, indicates that
2168 this function is interactive; that is, it can be invoked interactively
2169 by typing @kbd{M-x myfunction @key{RET}} or by binding it to a key.
2170 If the function is not interactive, omit the @code{t} or use
2174 Rebind the key @kbd{C-x l} to run the function @code{make-symbolic-link}.
2177 (global-set-key "\C-xl" 'make-symbolic-link)
2183 (define-key global-map "\C-xl" 'make-symbolic-link)
2186 Note once again the single-quote used to refer to the symbol
2187 @code{make-symbolic-link} instead of its value as a variable.
2190 Do the same thing for Lisp mode only.
2193 (define-key lisp-mode-map "\C-xl" 'make-symbolic-link)
2197 Redefine all keys which now run @code{next-line} in Fundamental mode
2198 so that they run @code{forward-line} instead.
2200 @findex substitute-key-definition
2202 (substitute-key-definition 'next-line 'forward-line
2207 Make @kbd{C-x C-v} undefined.
2210 (global-unset-key "\C-x\C-v")
2213 One reason to undefine a key is so that you can make it a prefix.
2214 Simply defining @kbd{C-x C-v @var{anything}} will make @kbd{C-x C-v} a
2215 prefix, but @kbd{C-x C-v} must first be freed of its usual non-prefix
2219 Make @samp{$} have the syntax of punctuation in Text mode.
2220 Note the use of a character constant for @samp{$}.
2223 (modify-syntax-entry ?\$ "." text-mode-syntax-table)
2227 Enable the use of the command @code{narrow-to-region} without confirmation.
2230 (put 'narrow-to-region 'disabled nil)
2235 @subsection Terminal-specific Initialization
2237 Each terminal type can have a Lisp library to be loaded into Emacs when
2238 it is run on that type of terminal. For a terminal type named
2239 @var{termtype}, the library is called @file{term/@var{termtype}} and it is
2240 found by searching the directories @code{load-path} as usual and trying the
2241 suffixes @samp{.elc} and @samp{.el}. Normally it appears in the
2242 subdirectory @file{term} of the directory where most Emacs libraries are
2245 The usual purpose of the terminal-specific library is to map the
2246 escape sequences used by the terminal's function keys onto more
2247 meaningful names, using @code{function-key-map}. See the file
2248 @file{term/lk201.el} for an example of how this is done. Many function
2249 keys are mapped automatically according to the information in the
2250 Termcap data base; the terminal-specific library needs to map only the
2251 function keys that Termcap does not specify.
2253 When the terminal type contains a hyphen, only the part of the name
2254 before the first hyphen is significant in choosing the library name.
2255 Thus, terminal types @samp{aaa-48} and @samp{aaa-30-rv} both use
2256 the library @file{term/aaa}. The code in the library can use
2257 @code{(getenv "TERM")} to find the full terminal type name.@refill
2259 @vindex term-file-prefix
2260 The library's name is constructed by concatenating the value of the
2261 variable @code{term-file-prefix} and the terminal type. Your @file{.emacs}
2262 file can prevent the loading of the terminal-specific library by setting
2263 @code{term-file-prefix} to @code{nil}.
2265 @vindex term-setup-hook
2266 Emacs runs the hook @code{term-setup-hook} at the end of
2267 initialization, after both your @file{.emacs} file and any
2268 terminal-specific library have been read in. Add hook functions to this
2269 hook if you wish to override part of any of the terminal-specific
2270 libraries and to define initializations for terminals that do not have a
2271 library. @xref{Hooks}.
2274 @subsection How Emacs Finds Your Init File
2276 Normally Emacs uses the environment variable @env{HOME} to find
2277 @file{.emacs}; that's what @samp{~} means in a file name. But if you
2278 run Emacs from a shell started by @code{su}, Emacs tries to find your
2279 own @file{.emacs}, not that of the user you are currently pretending
2280 to be. The idea is that you should get your own editor customizations
2281 even if you are running as the super user.
2283 More precisely, Emacs first determines which user's init file to use.
2284 It gets the user name from the environment variables @env{LOGNAME} and
2285 @env{USER}; if neither of those exists, it uses effective user-ID.
2286 If that user name matches the real user-ID, then Emacs uses @env{HOME};
2287 otherwise, it looks up the home directory corresponding to that user
2288 name in the system's data base of users.
2289 @c LocalWords: backtab
2292 arch-tag: c68abddb-4410-4fb5-925f-63394e971d93