2 @c This is part of the GNU Emacs Lisp Reference Manual.
3 @c Copyright (C) 1990, 1991, 1992, 1993, 1994, 2002
4 @c Free Software Foundation, Inc.
5 @c See the file elisp.texi for copying conditions.
6 @setfilename ../info/intro
8 @node Introduction, Lisp Data Types, Top, Top
9 @comment node-name, next, previous, up
12 Most of the GNU Emacs text editor is written in the programming
13 language called Emacs Lisp. You can write new code in Emacs Lisp and
14 install it as an extension to the editor. However, Emacs Lisp is more
15 than a mere ``extension language''; it is a full computer programming
16 language in its own right. You can use it as you would any other
19 Because Emacs Lisp is designed for use in an editor, it has special
20 features for scanning and parsing text as well as features for handling
21 files, buffers, displays, subprocesses, and so on. Emacs Lisp is
22 closely integrated with the editing facilities; thus, editing commands
23 are functions that can also conveniently be called from Lisp programs,
24 and parameters for customization are ordinary Lisp variables.
26 This manual attempts to be a full description of Emacs Lisp. For a
27 beginner's introduction to Emacs Lisp, see @cite{An Introduction to
28 Emacs Lisp Programming}, by Bob Chassell, also published by the Free
29 Software Foundation. This manual presumes considerable familiarity with
30 the use of Emacs for editing; see @cite{The GNU Emacs Manual} for this
33 Generally speaking, the earlier chapters describe features of Emacs
34 Lisp that have counterparts in many programming languages, and later
35 chapters describe features that are peculiar to Emacs Lisp or relate
36 specifically to editing.
38 This is edition @value{VERSION} of the GNU Emacs Lisp Reference
39 Manual, corresponding to Emacs version @value{EMACSVER}.
42 * Caveats:: Flaws and a request for help.
43 * Lisp History:: Emacs Lisp is descended from Maclisp.
44 * Conventions:: How the manual is formatted.
45 * Version Info:: Which Emacs version is running?
46 * Acknowledgements:: The authors, editors, and sponsors of this manual.
51 @cindex bugs in this manual
53 This manual has gone through numerous drafts. It is nearly complete
54 but not flawless. There are a few topics that are not covered, either
55 because we consider them secondary (such as most of the individual
56 modes) or because they are yet to be written. Because we are not able
57 to deal with them completely, we have left out several parts
58 intentionally. This includes most information about usage on VMS.
60 The manual should be fully correct in what it does cover, and it is
61 therefore open to criticism on anything it says---from specific examples
62 and descriptive text, to the ordering of chapters and sections. If
63 something is confusing, or you find that you have to look at the sources
64 or experiment to learn something not covered in the manual, then perhaps
65 the manual should be fixed. Please let us know.
68 As you use this manual, we ask that you mark pages with corrections so
69 you can later look them up and send them to us. If you think of a simple,
70 real-life example for a function or group of functions, please make an
71 effort to write it up and send it in. Please reference any comments to
72 the chapter name, section name, and function name, as appropriate, since
73 page numbers and chapter and section numbers will change and we may have
74 trouble finding the text you are talking about. Also state the number
75 of the edition you are criticizing.
79 As you use this manual, we ask that you send corrections as soon as you
80 find them. If you think of a simple, real life example for a function
81 or group of functions, please make an effort to write it up and send it
82 in. Please reference any comments to the node name and function or
83 variable name, as appropriate. Also state the number of the edition
89 Please mail comments and corrections to
92 bug-lisp-manual@@gnu.org
96 We let mail to this list accumulate unread until someone decides to
97 apply the corrections. Months, and sometimes years, go by between
98 updates. So please attach no significance to the lack of a reply---your
99 mail @emph{will} be acted on in due time. If you want to contact the
100 Emacs maintainers more quickly, send mail to
101 @code{bug-gnu-emacs@@gnu.org}.
104 @section Lisp History
107 Lisp (LISt Processing language) was first developed in the late 1950s
108 at the Massachusetts Institute of Technology for research in artificial
109 intelligence. The great power of the Lisp language makes it ideal
110 for other purposes as well, such as writing editing commands.
114 Dozens of Lisp implementations have been built over the years, each
115 with its own idiosyncrasies. Many of them were inspired by Maclisp,
116 which was written in the 1960s at MIT's Project MAC. Eventually the
117 implementors of the descendants of Maclisp came together and developed a
118 standard for Lisp systems, called Common Lisp. In the meantime, Gerry
119 Sussman and Guy Steele at MIT developed a simplified but very powerful
120 dialect of Lisp, called Scheme.
122 GNU Emacs Lisp is largely inspired by Maclisp, and a little by Common
123 Lisp. If you know Common Lisp, you will notice many similarities.
124 However, many features of Common Lisp have been omitted or
125 simplified in order to reduce the memory requirements of GNU Emacs.
126 Sometimes the simplifications are so drastic that a Common Lisp user
127 might be very confused. We will occasionally point out how GNU Emacs
128 Lisp differs from Common Lisp. If you don't know Common Lisp, don't
129 worry about it; this manual is self-contained.
132 A certain amount of Common Lisp emulation is available via the
133 @file{cl} library. @inforef{Top, Overview, cl}.
135 Emacs Lisp is not at all influenced by Scheme; but the GNU project has
136 an implementation of Scheme, called Guile. We use Guile in all new GNU
137 software that calls for extensibility.
142 This section explains the notational conventions that are used in this
143 manual. You may want to skip this section and refer back to it later.
146 * Some Terms:: Explanation of terms we use in this manual.
147 * nil and t:: How the symbols @code{nil} and @code{t} are used.
148 * Evaluation Notation:: The format we use for examples of evaluation.
149 * Printing Notation:: The format we use when examples print text.
150 * Error Messages:: The format we use for examples of errors.
151 * Buffer Text Notation:: The format we use for buffer contents in examples.
152 * Format of Descriptions:: Notation for describing functions, variables, etc.
156 @subsection Some Terms
158 Throughout this manual, the phrases ``the Lisp reader'' and ``the Lisp
159 printer'' refer to those routines in Lisp that convert textual
160 representations of Lisp objects into actual Lisp objects, and vice
161 versa. @xref{Printed Representation}, for more details. You, the
162 person reading this manual, are thought of as ``the programmer'' and are
163 addressed as ``you''. ``The user'' is the person who uses Lisp
164 programs, including those you write.
167 Examples of Lisp code are formatted like this: @code{(list 1 2 3)}.
168 Names that represent metasyntactic variables, or arguments to a function
169 being described, are formatted like this: @var{first-number}.
172 @subsection @code{nil} and @code{t}
173 @cindex @code{nil}, uses of
178 In Lisp, the symbol @code{nil} has three separate meanings: it
179 is a symbol with the name @samp{nil}; it is the logical truth value
180 @var{false}; and it is the empty list---the list of zero elements.
181 When used as a variable, @code{nil} always has the value @code{nil}.
183 As far as the Lisp reader is concerned, @samp{()} and @samp{nil} are
184 identical: they stand for the same object, the symbol @code{nil}. The
185 different ways of writing the symbol are intended entirely for human
186 readers. After the Lisp reader has read either @samp{()} or @samp{nil},
187 there is no way to determine which representation was actually written
190 In this manual, we use @code{()} when we wish to emphasize that it
191 means the empty list, and we use @code{nil} when we wish to emphasize
192 that it means the truth value @var{false}. That is a good convention to use
193 in Lisp programs also.
196 (cons 'foo ()) ; @r{Emphasize the empty list}
197 (not nil) ; @r{Emphasize the truth value @var{false}}
200 @cindex @code{t} and truth
202 In contexts where a truth value is expected, any non-@code{nil} value
203 is considered to be @var{true}. However, @code{t} is the preferred way
204 to represent the truth value @var{true}. When you need to choose a
205 value which represents @var{true}, and there is no other basis for
206 choosing, use @code{t}. The symbol @code{t} always has the value
209 In Emacs Lisp, @code{nil} and @code{t} are special symbols that always
210 evaluate to themselves. This is so that you do not need to quote them
211 to use them as constants in a program. An attempt to change their
212 values results in a @code{setting-constant} error. The same is true of
213 any symbol whose name starts with a colon (@samp{:}). @xref{Constant
216 @node Evaluation Notation
217 @subsection Evaluation Notation
218 @cindex evaluation notation
219 @cindex documentation notation
221 A Lisp expression that you can evaluate is called a @dfn{form}.
222 Evaluating a form always produces a result, which is a Lisp object. In
223 the examples in this manual, this is indicated with @samp{@result{}}:
231 You can read this as ``@code{(car '(1 2))} evaluates to 1''.
233 When a form is a macro call, it expands into a new form for Lisp to
234 evaluate. We show the result of the expansion with
235 @samp{@expansion{}}. We may or may not show the result of the
236 evaluation of the expanded form.
240 @expansion{} (car (cdr (cdr '(a b c))))
244 Sometimes to help describe one form we show another form that
245 produces identical results. The exact equivalence of two forms is
246 indicated with @samp{@equiv{}}.
249 (make-sparse-keymap) @equiv{} (list 'keymap)
252 @node Printing Notation
253 @subsection Printing Notation
254 @cindex printing notation
256 Many of the examples in this manual print text when they are
257 evaluated. If you execute example code in a Lisp Interaction buffer
258 (such as the buffer @samp{*scratch*}), the printed text is inserted into
259 the buffer. If you execute the example by other means (such as by
260 evaluating the function @code{eval-region}), the printed text is
261 displayed in the echo area.
263 Examples in this manual indicate printed text with @samp{@print{}},
264 irrespective of where that text goes. The value returned by
265 evaluating the form (here @code{bar}) follows on a separate line with
270 (progn (prin1 'foo) (princ "\n") (prin1 'bar))
278 @subsection Error Messages
279 @cindex error message notation
281 Some examples signal errors. This normally displays an error message
282 in the echo area. We show the error message on a line starting with
283 @samp{@error{}}. Note that @samp{@error{}} itself does not appear in
288 @error{} Wrong type argument: number-or-marker-p, x
291 @node Buffer Text Notation
292 @subsection Buffer Text Notation
293 @cindex buffer text notation
295 Some examples describe modifications to the contents of a buffer, by
296 showing the ``before'' and ``after'' versions of the text. These
297 examples show the contents of the buffer in question between two lines
298 of dashes containing the buffer name. In addition, @samp{@point{}}
299 indicates the location of point. (The symbol for point, of course, is
300 not part of the text in the buffer; it indicates the place
301 @emph{between} two characters where point is currently located.)
304 ---------- Buffer: foo ----------
305 This is the @point{}contents of foo.
306 ---------- Buffer: foo ----------
310 ---------- Buffer: foo ----------
311 This is the changed @point{}contents of foo.
312 ---------- Buffer: foo ----------
315 @node Format of Descriptions
316 @subsection Format of Descriptions
317 @cindex description format
319 Functions, variables, macros, commands, user options, and special
320 forms are described in this manual in a uniform format. The first
321 line of a description contains the name of the item followed by its
324 The category---function, variable, or whatever---appears at the
325 beginning of the line.
328 The category---function, variable, or whatever---is printed next to the
331 The description follows on succeeding lines, sometimes with examples.
334 * A Sample Function Description:: A description of an imaginary
335 function, @code{foo}.
336 * A Sample Variable Description:: A description of an imaginary
338 @code{electric-future-map}.
341 @node A Sample Function Description
342 @subsubsection A Sample Function Description
343 @cindex function descriptions
344 @cindex command descriptions
345 @cindex macro descriptions
346 @cindex special form descriptions
348 In a function description, the name of the function being described
349 appears first. It is followed on the same line by a list of argument
350 names. These names are also used in the body of the description, to
351 stand for the values of the arguments.
353 The appearance of the keyword @code{&optional} in the argument list
354 indicates that the subsequent arguments may be omitted (omitted
355 arguments default to @code{nil}). Do not write @code{&optional} when
356 you call the function.
358 The keyword @code{&rest} (which must be followed by a single argument
359 name) indicates that any number of arguments can follow. The single
360 following argument name will have a value, as a variable, which is a
361 list of all these remaining arguments. Do not write @code{&rest} when
362 you call the function.
364 Here is a description of an imaginary function @code{foo}:
366 @defun foo integer1 &optional integer2 &rest integers
367 The function @code{foo} subtracts @var{integer1} from @var{integer2},
368 then adds all the rest of the arguments to the result. If @var{integer2}
369 is not supplied, then the number 19 is used by default.
382 (foo @var{w} @var{x} @var{y}@dots{})
384 (+ (- @var{x} @var{w}) @var{y}@dots{})
388 Any argument whose name contains the name of a type (e.g.,
389 @var{integer}, @var{integer1} or @var{buffer}) is expected to be of that
390 type. A plural of a type (such as @var{buffers}) often means a list of
391 objects of that type. Arguments named @var{object} may be of any type.
392 (@xref{Lisp Data Types}, for a list of Emacs object types.) Arguments
393 with other sorts of names (e.g., @var{new-file}) are discussed
394 specifically in the description of the function. In some sections,
395 features common to the arguments of several functions are described at
398 @xref{Lambda Expressions}, for a more complete description of optional
401 Command, macro, and special form descriptions have the same format,
402 but the word `Function' is replaced by `Command', `Macro', or `Special
403 Form', respectively. Commands are simply functions that may be called
404 interactively; macros process their arguments differently from functions
405 (the arguments are not evaluated), but are presented the same way.
407 Special form descriptions use a more complex notation to specify
408 optional and repeated arguments because they can break the argument
409 list down into separate arguments in more complicated ways.
410 @samp{@r{[}@var{optional-arg}@r{]}} means that @var{optional-arg} is
411 optional and @samp{@var{repeated-args}@dots{}} stands for zero or more
412 arguments. Parentheses are used when several arguments are grouped into
413 additional levels of list structure. Here is an example:
415 @defspec count-loop (@var{var} [@var{from} @var{to} [@var{inc}]]) @var{body}@dots{}
416 This imaginary special form implements a loop that executes the
417 @var{body} forms and then increments the variable @var{var} on each
418 iteration. On the first iteration, the variable has the value
419 @var{from}; on subsequent iterations, it is incremented by one (or by
420 @var{inc} if that is given). The loop exits before executing @var{body}
421 if @var{var} equals @var{to}. Here is an example:
425 (prin1 i) (princ " ")
426 (prin1 (aref vector i))
430 If @var{from} and @var{to} are omitted, @var{var} is bound to
431 @code{nil} before the loop begins, and the loop exits if @var{var} is
432 non-@code{nil} at the beginning of an iteration. Here is an example:
441 In this special form, the arguments @var{from} and @var{to} are
442 optional, but must both be present or both absent. If they are present,
443 @var{inc} may optionally be specified as well. These arguments are
444 grouped with the argument @var{var} into a list, to distinguish them
445 from @var{body}, which includes all remaining elements of the form.
448 @node A Sample Variable Description
449 @subsubsection A Sample Variable Description
450 @cindex variable descriptions
451 @cindex option descriptions
453 A @dfn{variable} is a name that can hold a value. Although any
454 variable can be set by the user, certain variables that exist
455 specifically so that users can change them are called @dfn{user
456 options}. Ordinary variables and user options are described using a
457 format like that for functions except that there are no arguments.
459 Here is a description of the imaginary @code{electric-future-map}
462 @defvar electric-future-map
463 The value of this variable is a full keymap used by Electric Command
464 Future mode. The functions in this map allow you to edit commands you
465 have not yet thought about executing.
468 User option descriptions have the same format, but `Variable' is
469 replaced by `User Option'.
472 @section Version Information
474 These facilities provide information about which version of Emacs is
477 @deffn Command emacs-version &optional here
478 This function returns a string describing the version of Emacs that is
479 running. It is useful to include this string in bug reports.
484 @result{} "GNU Emacs 20.3.5 (i486-pc-linux-gnulibc1, X toolkit)
485 of Sat Feb 14 1998 on psilocin.gnu.org"
489 If @var{here} is non-@code{nil}, it inserts the text in the buffer
490 before point, and returns @code{nil}. Called interactively, the
491 function prints the same information in the echo area, but giving a
492 prefix argument makes @var{here} non-@code{nil}.
495 @defvar emacs-build-time
496 The value of this variable indicates the time at which Emacs was built
497 at the local site. It is a list of three integers, like the value
498 of @code{current-time} (@pxref{Time of Day}).
503 @result{} (13623 62065 344633)
508 @defvar emacs-version
509 The value of this variable is the version of Emacs being run. It is a
510 string such as @code{"20.3.1"}. The last number in this string is not
511 really part of the Emacs release version number; it is incremented each
512 time you build Emacs in any given directory. A value with four numeric
513 components, such as @code{"20.3.9.1"}, indicates an unreleased test
517 The following two variables have existed since Emacs version 19.23:
519 @defvar emacs-major-version
520 The major version number of Emacs, as an integer. For Emacs version
521 20.3, the value is 20.
524 @defvar emacs-minor-version
525 The minor version number of Emacs, as an integer. For Emacs version
526 20.3, the value is 3.
529 @node Acknowledgements
530 @section Acknowledgements
532 This manual was written by Robert Krawitz, Bil Lewis, Dan LaLiberte,
533 Richard M. Stallman and Chris Welty, the volunteers of the GNU manual
534 group, in an effort extending over several years. Robert J. Chassell
535 helped to review and edit the manual, with the support of the Defense
536 Advanced Research Projects Agency, ARPA Order 6082, arranged by Warren
537 A. Hunt, Jr.@: of Computational Logic, Inc.
539 Corrections were supplied by Karl Berry, Jim Blandy, Bard Bloom,
540 Stephane Boucher, David Boyes, Alan Carroll, Richard Davis, Lawrence
541 R. Dodd, Peter Doornbosch, David A. Duff, Chris Eich, Beverly
542 Erlebacher, David Eckelkamp, Ralf Fassel, Eirik Fuller, Stephen Gildea,
543 Bob Glickstein, Eric Hanchrow, George Hartzell, Nathan Hess, Masayuki
544 Ida, Dan Jacobson, Jak Kirman, Bob Knighten, Frederick M. Korz, Joe
545 Lammens, Glenn M. Lewis, K. Richard Magill, Brian Marick, Roland
546 McGrath, Skip Montanaro, John Gardiner Myers, Thomas A. Peterson,
547 Francesco Potorti, Friedrich Pukelsheim, Arnold D. Robbins, Raul
548 Rockwell, Per Starb@"ack, Shinichirou Sugou, Kimmo Suominen, Edward Tharp,
549 Bill Trost, Rickard Westman, Jean White, Matthew Wilding, Carl Witty,
550 Dale Worley, Rusty Wright, and David D. Zuhn.
553 arch-tag: d156593f-82f8-4708-a844-204e48f7f2aa