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* doc/lispref/intro.texi (A Sample Function Description): Special notation used for macros too. * doc/lispref/objects.texi (Ctl-Char Syntax, Other Char Bits): Copyedits. (Symbol Type): Add xref for keyword symbols. (Sequence Type): Clarify differences between sequence types. (Cons Cell Type): Add "linked list" index entry. (Non-ASCII in Strings): Copyedits. (Equality Predicates): Symbols with same name need not be eq. * doc/lispref/numbers.texi (Float Basics): Document isnan, copysign, frexp and ldexp. Move float-e and float-pi to Math Functions node.
549 lines
21 KiB
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549 lines
21 KiB
Plaintext
@c -*-coding: iso-latin-1-*-
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@c This is part of the GNU Emacs Lisp Reference Manual.
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@c Copyright (C) 1990-1994, 2001-2012 Free Software Foundation, Inc.
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@c See the file elisp.texi for copying conditions.
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@setfilename ../../info/intro
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@node Introduction, Lisp Data Types, Top, Top
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@comment node-name, next, previous, up
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@chapter Introduction
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Most of the GNU Emacs text editor is written in the programming
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language called Emacs Lisp. You can write new code in Emacs Lisp and
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install it as an extension to the editor. However, Emacs Lisp is more
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than a mere ``extension language''; it is a full computer programming
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language in its own right. You can use it as you would any other
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programming language.
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Because Emacs Lisp is designed for use in an editor, it has special
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features for scanning and parsing text as well as features for handling
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files, buffers, displays, subprocesses, and so on. Emacs Lisp is
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closely integrated with the editing facilities; thus, editing commands
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are functions that can also conveniently be called from Lisp programs,
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and parameters for customization are ordinary Lisp variables.
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This manual attempts to be a full description of Emacs Lisp. For a
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beginner's introduction to Emacs Lisp, see @cite{An Introduction to
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Emacs Lisp Programming}, by Bob Chassell, also published by the Free
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Software Foundation. This manual presumes considerable familiarity with
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the use of Emacs for editing; see @cite{The GNU Emacs Manual} for this
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basic information.
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Generally speaking, the earlier chapters describe features of Emacs
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Lisp that have counterparts in many programming languages, and later
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chapters describe features that are peculiar to Emacs Lisp or relate
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specifically to editing.
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This is edition @value{VERSION} of the GNU Emacs Lisp Reference
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Manual, corresponding to Emacs version @value{EMACSVER}.
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@menu
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* Caveats:: Flaws and a request for help.
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* Lisp History:: Emacs Lisp is descended from Maclisp.
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* Conventions:: How the manual is formatted.
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* Version Info:: Which Emacs version is running?
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* Acknowledgements:: The authors, editors, and sponsors of this manual.
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@end menu
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@node Caveats
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@section Caveats
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@cindex bugs in this manual
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This manual has gone through numerous drafts. It is nearly complete
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but not flawless. There are a few topics that are not covered, either
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because we consider them secondary (such as most of the individual
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modes) or because they are yet to be written. Because we are not able
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to deal with them completely, we have left out several parts
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intentionally.
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The manual should be fully correct in what it does cover, and it is
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therefore open to criticism on anything it says---from specific examples
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and descriptive text, to the ordering of chapters and sections. If
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something is confusing, or you find that you have to look at the sources
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or experiment to learn something not covered in the manual, then perhaps
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the manual should be fixed. Please let us know.
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@iftex
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As you use this manual, we ask that you mark pages with corrections so
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you can later look them up and send them to us. If you think of a simple,
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real-life example for a function or group of functions, please make an
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effort to write it up and send it in. Please reference any comments to
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the chapter name, section name, and function name, as appropriate, since
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page numbers and chapter and section numbers will change and we may have
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trouble finding the text you are talking about. Also state the number
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of the edition you are criticizing.
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@end iftex
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@ifnottex
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As you use this manual, we ask that you send corrections as soon as you
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find them. If you think of a simple, real life example for a function
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or group of functions, please make an effort to write it up and send it
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in. Please reference any comments to the node name and function or
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variable name, as appropriate. Also state the number of the edition
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you are criticizing.
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@end ifnottex
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@cindex bugs
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@cindex suggestions
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Please send comments and corrections using @kbd{M-x report-emacs-bug}.
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@node Lisp History
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@section Lisp History
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@cindex Lisp history
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Lisp (LISt Processing language) was first developed in the late 1950s
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at the Massachusetts Institute of Technology for research in artificial
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intelligence. The great power of the Lisp language makes it ideal
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for other purposes as well, such as writing editing commands.
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@cindex Maclisp
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@cindex Common Lisp
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Dozens of Lisp implementations have been built over the years, each
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with its own idiosyncrasies. Many of them were inspired by Maclisp,
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which was written in the 1960s at MIT's Project MAC. Eventually the
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implementers of the descendants of Maclisp came together and developed a
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standard for Lisp systems, called Common Lisp. In the meantime, Gerry
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Sussman and Guy Steele at MIT developed a simplified but very powerful
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dialect of Lisp, called Scheme.
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GNU Emacs Lisp is largely inspired by Maclisp, and a little by Common
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Lisp. If you know Common Lisp, you will notice many similarities.
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However, many features of Common Lisp have been omitted or
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simplified in order to reduce the memory requirements of GNU Emacs.
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Sometimes the simplifications are so drastic that a Common Lisp user
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might be very confused. We will occasionally point out how GNU Emacs
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Lisp differs from Common Lisp. If you don't know Common Lisp, don't
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worry about it; this manual is self-contained.
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@pindex cl
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A certain amount of Common Lisp emulation is available via the
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@file{cl} library. @inforef{Top, Overview, cl}.
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Emacs Lisp is not at all influenced by Scheme; but the GNU project has
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an implementation of Scheme, called Guile. We use Guile in all new GNU
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software that calls for extensibility.
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@node Conventions
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@section Conventions
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This section explains the notational conventions that are used in this
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manual. You may want to skip this section and refer back to it later.
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@menu
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* Some Terms:: Explanation of terms we use in this manual.
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* nil and t:: How the symbols @code{nil} and @code{t} are used.
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* Evaluation Notation:: The format we use for examples of evaluation.
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* Printing Notation:: The format we use when examples print text.
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* Error Messages:: The format we use for examples of errors.
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* Buffer Text Notation:: The format we use for buffer contents in examples.
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* Format of Descriptions:: Notation for describing functions, variables, etc.
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@end menu
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@node Some Terms
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@subsection Some Terms
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Throughout this manual, the phrases ``the Lisp reader'' and ``the Lisp
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printer'' refer to those routines in Lisp that convert textual
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representations of Lisp objects into actual Lisp objects, and vice
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versa. @xref{Printed Representation}, for more details. You, the
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person reading this manual, are thought of as ``the programmer'' and are
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addressed as ``you.'' ``The user'' is the person who uses Lisp
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programs, including those you write.
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@cindex typographic conventions
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Examples of Lisp code are formatted like this: @code{(list 1 2 3)}.
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Names that represent metasyntactic variables, or arguments to a function
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being described, are formatted like this: @var{first-number}.
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@node nil and t
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@subsection @code{nil} and @code{t}
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@cindex truth value
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@cindex boolean
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@cindex @code{nil}
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@cindex false
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In Emacs Lisp, the symbol @code{nil} has three separate meanings: it
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is a symbol with the name @samp{nil}; it is the logical truth value
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@var{false}; and it is the empty list---the list of zero elements.
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When used as a variable, @code{nil} always has the value @code{nil}.
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As far as the Lisp reader is concerned, @samp{()} and @samp{nil} are
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identical: they stand for the same object, the symbol @code{nil}. The
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different ways of writing the symbol are intended entirely for human
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readers. After the Lisp reader has read either @samp{()} or @samp{nil},
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there is no way to determine which representation was actually written
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by the programmer.
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In this manual, we write @code{()} when we wish to emphasize that it
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means the empty list, and we write @code{nil} when we wish to emphasize
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that it means the truth value @var{false}. That is a good convention to use
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in Lisp programs also.
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@example
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(cons 'foo ()) ; @r{Emphasize the empty list}
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(setq foo-flag nil) ; @r{Emphasize the truth value @var{false}}
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@end example
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@cindex @code{t}
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@cindex true
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In contexts where a truth value is expected, any non-@code{nil} value
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is considered to be @var{true}. However, @code{t} is the preferred way
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to represent the truth value @var{true}. When you need to choose a
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value which represents @var{true}, and there is no other basis for
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choosing, use @code{t}. The symbol @code{t} always has the value
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@code{t}.
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In Emacs Lisp, @code{nil} and @code{t} are special symbols that always
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evaluate to themselves. This is so that you do not need to quote them
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to use them as constants in a program. An attempt to change their
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values results in a @code{setting-constant} error. @xref{Constant
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Variables}.
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@defun booleanp object
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Return non-@code{nil} if @var{object} is one of the two canonical
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boolean values: @code{t} or @code{nil}.
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@end defun
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@node Evaluation Notation
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@subsection Evaluation Notation
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@cindex evaluation notation
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@cindex documentation notation
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@cindex notation
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A Lisp expression that you can evaluate is called a @dfn{form}.
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Evaluating a form always produces a result, which is a Lisp object. In
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the examples in this manual, this is indicated with @samp{@result{}}:
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@example
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(car '(1 2))
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@result{} 1
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@end example
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@noindent
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You can read this as ``@code{(car '(1 2))} evaluates to 1.''
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When a form is a macro call, it expands into a new form for Lisp to
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evaluate. We show the result of the expansion with
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@samp{@expansion{}}. We may or may not show the result of the
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evaluation of the expanded form.
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@example
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(third '(a b c))
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@expansion{} (car (cdr (cdr '(a b c))))
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@result{} c
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@end example
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Sometimes to help describe one form we show another form that
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produces identical results. The exact equivalence of two forms is
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indicated with @samp{@equiv{}}.
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@example
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(make-sparse-keymap) @equiv{} (list 'keymap)
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@end example
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@node Printing Notation
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@subsection Printing Notation
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@cindex printing notation
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Many of the examples in this manual print text when they are
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evaluated. If you execute example code in a Lisp Interaction buffer
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(such as the buffer @samp{*scratch*}), the printed text is inserted into
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the buffer. If you execute the example by other means (such as by
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evaluating the function @code{eval-region}), the printed text is
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displayed in the echo area.
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Examples in this manual indicate printed text with @samp{@print{}},
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irrespective of where that text goes. The value returned by
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evaluating the form (here @code{bar}) follows on a separate line with
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@samp{@result{}}.
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@example
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@group
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(progn (prin1 'foo) (princ "\n") (prin1 'bar))
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@print{} foo
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@print{} bar
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@result{} bar
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@end group
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@end example
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@node Error Messages
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@subsection Error Messages
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@cindex error message notation
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Some examples signal errors. This normally displays an error message
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in the echo area. We show the error message on a line starting with
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@samp{@error{}}. Note that @samp{@error{}} itself does not appear in
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the echo area.
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@example
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(+ 23 'x)
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@error{} Wrong type argument: number-or-marker-p, x
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@end example
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@node Buffer Text Notation
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@subsection Buffer Text Notation
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@cindex buffer text notation
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Some examples describe modifications to the contents of a buffer, by
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showing the ``before'' and ``after'' versions of the text. These
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examples show the contents of the buffer in question between two lines
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of dashes containing the buffer name. In addition, @samp{@point{}}
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indicates the location of point. (The symbol for point, of course, is
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not part of the text in the buffer; it indicates the place
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@emph{between} two characters where point is currently located.)
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@example
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---------- Buffer: foo ----------
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This is the @point{}contents of foo.
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---------- Buffer: foo ----------
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(insert "changed ")
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@result{} nil
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---------- Buffer: foo ----------
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This is the changed @point{}contents of foo.
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---------- Buffer: foo ----------
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@end example
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@node Format of Descriptions
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@subsection Format of Descriptions
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@cindex description format
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Functions, variables, macros, commands, user options, and special
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forms are described in this manual in a uniform format. The first
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line of a description contains the name of the item followed by its
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arguments, if any.
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@ifnottex
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The category---function, variable, or whatever---appears at the
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beginning of the line.
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@end ifnottex
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@iftex
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The category---function, variable, or whatever---is printed next to the
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right margin.
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@end iftex
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The description follows on succeeding lines, sometimes with examples.
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@menu
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* A Sample Function Description:: A description of an imaginary
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function, @code{foo}.
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* A Sample Variable Description:: A description of an imaginary
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variable,
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@code{electric-future-map}.
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@end menu
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@node A Sample Function Description
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@subsubsection A Sample Function Description
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@cindex function descriptions
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@cindex command descriptions
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@cindex macro descriptions
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@cindex special form descriptions
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In a function description, the name of the function being described
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appears first. It is followed on the same line by a list of argument
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names. These names are also used in the body of the description, to
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stand for the values of the arguments.
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The appearance of the keyword @code{&optional} in the argument list
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indicates that the subsequent arguments may be omitted (omitted
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arguments default to @code{nil}). Do not write @code{&optional} when
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you call the function.
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The keyword @code{&rest} (which must be followed by a single
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argument name) indicates that any number of arguments can follow. The
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single argument name following @code{&rest} will receive, as its
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value, a list of all the remaining arguments passed to the function.
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Do not write @code{&rest} when you call the function.
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Here is a description of an imaginary function @code{foo}:
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@defun foo integer1 &optional integer2 &rest integers
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The function @code{foo} subtracts @var{integer1} from @var{integer2},
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then adds all the rest of the arguments to the result. If @var{integer2}
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is not supplied, then the number 19 is used by default.
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@example
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(foo 1 5 3 9)
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@result{} 16
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(foo 5)
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@result{} 14
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@end example
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@need 1500
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More generally,
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@example
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(foo @var{w} @var{x} @var{y}@dots{})
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@equiv{}
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(+ (- @var{x} @var{w}) @var{y}@dots{})
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@end example
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@end defun
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Any argument whose name contains the name of a type (e.g.,
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@var{integer}, @var{integer1} or @var{buffer}) is expected to be of that
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type. A plural of a type (such as @var{buffers}) often means a list of
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objects of that type. Arguments named @var{object} may be of any type.
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(@xref{Lisp Data Types}, for a list of Emacs object types.) Arguments
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with other sorts of names (e.g., @var{new-file}) are discussed
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specifically in the description of the function. In some sections,
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features common to the arguments of several functions are described at
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the beginning.
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@xref{Lambda Expressions}, for a more complete description of optional
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and rest arguments.
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Command, macro, and special form descriptions have the same format,
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but the word `Function' is replaced by `Command', `Macro', or `Special
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Form', respectively. Commands are simply functions that may be called
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interactively; macros process their arguments differently from functions
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(the arguments are not evaluated), but are presented the same way.
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The descriptions of macros and special forms use a more complex
|
||
notation to specify optional and repeated arguments, because they can
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break the argument list down into separate arguments in more
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||
complicated ways. @samp{@r{[}@var{optional-arg}@r{]}} means that
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@var{optional-arg} is optional and @samp{@var{repeated-args}@dots{}}
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stands for zero or more arguments. Parentheses are used when several
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arguments are grouped into additional levels of list structure. Here
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is an example:
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@defspec count-loop (@var{var} [@var{from} @var{to} [@var{inc}]]) @var{body}@dots{}
|
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This imaginary special form implements a loop that executes the
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@var{body} forms and then increments the variable @var{var} on each
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iteration. On the first iteration, the variable has the value
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@var{from}; on subsequent iterations, it is incremented by one (or by
|
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@var{inc} if that is given). The loop exits before executing @var{body}
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if @var{var} equals @var{to}. Here is an example:
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@example
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(count-loop (i 0 10)
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(prin1 i) (princ " ")
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(prin1 (aref vector i))
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(terpri))
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@end example
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If @var{from} and @var{to} are omitted, @var{var} is bound to
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@code{nil} before the loop begins, and the loop exits if @var{var} is
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non-@code{nil} at the beginning of an iteration. Here is an example:
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@example
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(count-loop (done)
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(if (pending)
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(fixit)
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(setq done t)))
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@end example
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In this special form, the arguments @var{from} and @var{to} are
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optional, but must both be present or both absent. If they are present,
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@var{inc} may optionally be specified as well. These arguments are
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grouped with the argument @var{var} into a list, to distinguish them
|
||
from @var{body}, which includes all remaining elements of the form.
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@end defspec
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@node A Sample Variable Description
|
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@subsubsection A Sample Variable Description
|
||
@cindex variable descriptions
|
||
@cindex option descriptions
|
||
|
||
A @dfn{variable} is a name that can hold a value. Although nearly
|
||
all variables can be set by the user, certain variables exist
|
||
specifically so that users can change them; these are called @dfn{user
|
||
options}. Ordinary variables and user options are described using a
|
||
format like that for functions except that there are no arguments.
|
||
|
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Here is a description of the imaginary @code{electric-future-map}
|
||
variable.@refill
|
||
|
||
@defvar electric-future-map
|
||
The value of this variable is a full keymap used by Electric Command
|
||
Future mode. The functions in this map allow you to edit commands you
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||
have not yet thought about executing.
|
||
@end defvar
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||
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||
User option descriptions have the same format, but `Variable' is
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||
replaced by `User Option'.
|
||
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||
@node Version Info
|
||
@section Version Information
|
||
|
||
These facilities provide information about which version of Emacs is
|
||
in use.
|
||
|
||
@deffn Command emacs-version &optional here
|
||
This function returns a string describing the version of Emacs that is
|
||
running. It is useful to include this string in bug reports.
|
||
|
||
@smallexample
|
||
@group
|
||
(emacs-version)
|
||
@result{} "GNU Emacs 23.1 (i686-pc-linux-gnu, GTK+ Version 2.14.4)
|
||
of 2009-06-01 on cyd.mit.edu"
|
||
@end group
|
||
@end smallexample
|
||
|
||
If @var{here} is non-@code{nil}, it inserts the text in the buffer
|
||
before point, and returns @code{nil}. When this function is called
|
||
interactively, it prints the same information in the echo area, but
|
||
giving a prefix argument makes @var{here} non-@code{nil}.
|
||
@end deffn
|
||
|
||
@defvar emacs-build-time
|
||
The value of this variable indicates the time at which Emacs was
|
||
built. It is a list of three integers, like the value of
|
||
@code{current-time} (@pxref{Time of Day}).
|
||
|
||
@example
|
||
@group
|
||
emacs-build-time
|
||
@result{} (18846 52016 156039)
|
||
@end group
|
||
@end example
|
||
@end defvar
|
||
|
||
@defvar emacs-version
|
||
The value of this variable is the version of Emacs being run. It is a
|
||
string such as @code{"23.1.1"}. The last number in this string is not
|
||
really part of the Emacs release version number; it is incremented
|
||
each time you build Emacs in any given directory. A value with four
|
||
numeric components, such as @code{"22.0.91.1"}, indicates an
|
||
unreleased test version.
|
||
@end defvar
|
||
|
||
The following two variables have existed since Emacs version 19.23:
|
||
|
||
@defvar emacs-major-version
|
||
The major version number of Emacs, as an integer. For Emacs version
|
||
23.1, the value is 23.
|
||
@end defvar
|
||
|
||
@defvar emacs-minor-version
|
||
The minor version number of Emacs, as an integer. For Emacs version
|
||
23.1, the value is 1.
|
||
@end defvar
|
||
|
||
@node Acknowledgements
|
||
@section Acknowledgements
|
||
|
||
This manual was written by Robert Krawitz, Bil Lewis, Dan LaLiberte,
|
||
Richard@tie{}M. Stallman and Chris Welty, the volunteers of the GNU
|
||
manual group, in an effort extending over several years.
|
||
Robert@tie{}J. Chassell helped to review and edit the manual, with the
|
||
support of the Defense Advanced Research Projects Agency, ARPA Order
|
||
6082, arranged by Warren@tie{}A. Hunt, Jr.@: of Computational Logic,
|
||
Inc. Additional sections were written by Miles Bader, Lars Brinkhoff,
|
||
Chong Yidong, Kenichi Handa, Lute Kamstra, Juri Linkov, Glenn Morris,
|
||
Thien-Thi Nguyen, Dan Nicolaescu, Martin Rudalics, Kim F. Storm, Luc
|
||
Teirlinck, and Eli Zaretskii.
|
||
|
||
Corrections were supplied by Drew Adams, Juanma Barranquero, Karl
|
||
Berry, Jim Blandy, Bard Bloom, Stephane Boucher, David Boyes, Alan
|
||
Carroll, Richard Davis, Lawrence R. Dodd, Peter Doornbosch, David
|
||
A. Duff, Chris Eich, Beverly Erlebacher, David Eckelkamp, Ralf Fassel,
|
||
Eirik Fuller, Stephen Gildea, Bob Glickstein, Eric Hanchrow, Jesper
|
||
Harder, George Hartzell, Nathan Hess, Masayuki Ida, Dan Jacobson, Jak
|
||
Kirman, Bob Knighten, Frederick M. Korz, Joe Lammens, Glenn M. Lewis,
|
||
K. Richard Magill, Brian Marick, Roland McGrath, Stefan Monnier, Skip
|
||
Montanaro, John Gardiner Myers, Thomas A. Peterson, Francesco Potorti,
|
||
Friedrich Pukelsheim, Arnold D. Robbins, Raul Rockwell, Jason Rumney,
|
||
Per Starb<72>ck, Shinichirou Sugou, Kimmo Suominen, Edward Tharp, Bill
|
||
Trost, Rickard Westman, Jean White, Eduard Wiebe, Matthew Wilding,
|
||
Carl Witty, Dale Worley, Rusty Wright, and David D. Zuhn.
|