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1796 lines
65 KiB
Plaintext
1796 lines
65 KiB
Plaintext
@c -*-texinfo-*-
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@c This is part of the GNU Emacs Lisp Reference Manual.
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@c Copyright (C) 1990, 1991, 1992, 1993, 1994, 1995, 1998, 1999, 2000,
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@c 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc.
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@c See the file elisp.texi for copying conditions.
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@setfilename ../../info/variables
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@node Variables, Functions, Control Structures, Top
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@chapter Variables
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@cindex variable
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A @dfn{variable} is a name used in a program to stand for a value.
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Nearly all programming languages have variables of some sort. In the
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text of a Lisp program, variables are written using the syntax for
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symbols.
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In Lisp, unlike most programming languages, programs are represented
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primarily as Lisp objects and only secondarily as text. The Lisp
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objects used for variables are symbols: the symbol name is the variable
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name, and the variable's value is stored in the value cell of the
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symbol. The use of a symbol as a variable is independent of its use as
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a function name. @xref{Symbol Components}.
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The Lisp objects that constitute a Lisp program determine the textual
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form of the program---it is simply the read syntax for those Lisp
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objects. This is why, for example, a variable in a textual Lisp program
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is written using the read syntax for the symbol that represents the
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variable.
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@menu
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* Global Variables:: Variable values that exist permanently, everywhere.
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* Constant Variables:: Certain "variables" have values that never change.
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* Local Variables:: Variable values that exist only temporarily.
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* Void Variables:: Symbols that lack values.
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* Defining Variables:: A definition says a symbol is used as a variable.
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* Tips for Defining:: Things you should think about when you
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define a variable.
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* Accessing Variables:: Examining values of variables whose names
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are known only at run time.
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* Setting Variables:: Storing new values in variables.
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* Variable Scoping:: How Lisp chooses among local and global values.
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* Buffer-Local Variables:: Variable values in effect only in one buffer.
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* Future Local Variables:: New kinds of local values we might add some day.
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* File Local Variables:: Handling local variable lists in files.
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* Variable Aliases:: Variables that are aliases for other variables.
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* Variables with Restricted Values:: Non-constant variables whose value can
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@emph{not} be an arbitrary Lisp object.
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@end menu
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@node Global Variables
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@section Global Variables
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@cindex global variable
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The simplest way to use a variable is @dfn{globally}. This means that
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the variable has just one value at a time, and this value is in effect
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(at least for the moment) throughout the Lisp system. The value remains
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in effect until you specify a new one. When a new value replaces the
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old one, no trace of the old value remains in the variable.
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You specify a value for a symbol with @code{setq}. For example,
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@example
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(setq x '(a b))
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@end example
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@noindent
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gives the variable @code{x} the value @code{(a b)}. Note that
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@code{setq} does not evaluate its first argument, the name of the
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variable, but it does evaluate the second argument, the new value.
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Once the variable has a value, you can refer to it by using the symbol
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by itself as an expression. Thus,
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@example
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@group
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x @result{} (a b)
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@end group
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@end example
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@noindent
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assuming the @code{setq} form shown above has already been executed.
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If you do set the same variable again, the new value replaces the old
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one:
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@example
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@group
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x
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@result{} (a b)
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@end group
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@group
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(setq x 4)
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@result{} 4
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@end group
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@group
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x
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@result{} 4
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@end group
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@end example
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@node Constant Variables
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@section Variables that Never Change
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@kindex setting-constant
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@cindex keyword symbol
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@cindex variable with constant value
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@cindex constant variables
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@cindex symbol that evaluates to itself
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@cindex symbol with constant value
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In Emacs Lisp, certain symbols normally evaluate to themselves. These
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include @code{nil} and @code{t}, as well as any symbol whose name starts
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with @samp{:} (these are called @dfn{keywords}). These symbols cannot
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be rebound, nor can their values be changed. Any attempt to set or bind
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@code{nil} or @code{t} signals a @code{setting-constant} error. The
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same is true for a keyword (a symbol whose name starts with @samp{:}),
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if it is interned in the standard obarray, except that setting such a
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symbol to itself is not an error.
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@example
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@group
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nil @equiv{} 'nil
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@result{} nil
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@end group
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@group
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(setq nil 500)
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@error{} Attempt to set constant symbol: nil
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@end group
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@end example
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@defun keywordp object
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function returns @code{t} if @var{object} is a symbol whose name
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starts with @samp{:}, interned in the standard obarray, and returns
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@code{nil} otherwise.
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@end defun
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@node Local Variables
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@section Local Variables
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@cindex binding local variables
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@cindex local variables
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@cindex local binding
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@cindex global binding
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Global variables have values that last until explicitly superseded
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with new values. Sometimes it is useful to create variable values that
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exist temporarily---only until a certain part of the program finishes.
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These values are called @dfn{local}, and the variables so used are
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called @dfn{local variables}.
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For example, when a function is called, its argument variables receive
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new local values that last until the function exits. The @code{let}
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special form explicitly establishes new local values for specified
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variables; these last until exit from the @code{let} form.
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@cindex shadowing of variables
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Establishing a local value saves away the previous value (or lack of
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one) of the variable. When the life span of the local value is over,
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the previous value is restored. In the mean time, we say that the
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previous value is @dfn{shadowed} and @dfn{not visible}. Both global and
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local values may be shadowed (@pxref{Scope}).
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If you set a variable (such as with @code{setq}) while it is local,
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this replaces the local value; it does not alter the global value, or
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previous local values, that are shadowed. To model this behavior, we
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speak of a @dfn{local binding} of the variable as well as a local value.
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The local binding is a conceptual place that holds a local value.
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Entry to a function, or a special form such as @code{let}, creates the
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local binding; exit from the function or from the @code{let} removes the
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local binding. As long as the local binding lasts, the variable's value
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is stored within it. Use of @code{setq} or @code{set} while there is a
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local binding stores a different value into the local binding; it does
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not create a new binding.
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We also speak of the @dfn{global binding}, which is where
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(conceptually) the global value is kept.
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@cindex current binding
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A variable can have more than one local binding at a time (for
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example, if there are nested @code{let} forms that bind it). In such a
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case, the most recently created local binding that still exists is the
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@dfn{current binding} of the variable. (This rule is called
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@dfn{dynamic scoping}; see @ref{Variable Scoping}.) If there are no
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local bindings, the variable's global binding is its current binding.
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We sometimes call the current binding the @dfn{most-local existing
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binding}, for emphasis. Ordinary evaluation of a symbol always returns
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the value of its current binding.
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The special forms @code{let} and @code{let*} exist to create
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local bindings.
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@defspec let (bindings@dots{}) forms@dots{}
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This special form binds variables according to @var{bindings} and then
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evaluates all of the @var{forms} in textual order. The @code{let}-form
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returns the value of the last form in @var{forms}.
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Each of the @var{bindings} is either @w{(i) a} symbol, in which case
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that symbol is bound to @code{nil}; or @w{(ii) a} list of the form
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@code{(@var{symbol} @var{value-form})}, in which case @var{symbol} is
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bound to the result of evaluating @var{value-form}. If @var{value-form}
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is omitted, @code{nil} is used.
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All of the @var{value-form}s in @var{bindings} are evaluated in the
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order they appear and @emph{before} binding any of the symbols to them.
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Here is an example of this: @code{z} is bound to the old value of
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@code{y}, which is 2, not the new value of @code{y}, which is 1.
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@example
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@group
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(setq y 2)
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@result{} 2
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@end group
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@group
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(let ((y 1)
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(z y))
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(list y z))
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@result{} (1 2)
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@end group
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@end example
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@end defspec
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@defspec let* (bindings@dots{}) forms@dots{}
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This special form is like @code{let}, but it binds each variable right
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after computing its local value, before computing the local value for
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the next variable. Therefore, an expression in @var{bindings} can
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reasonably refer to the preceding symbols bound in this @code{let*}
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form. Compare the following example with the example above for
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@code{let}.
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@example
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@group
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(setq y 2)
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@result{} 2
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@end group
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@group
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(let* ((y 1)
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(z y)) ; @r{Use the just-established value of @code{y}.}
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(list y z))
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@result{} (1 1)
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@end group
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@end example
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@end defspec
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Here is a complete list of the other facilities that create local
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bindings:
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@itemize @bullet
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@item
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Function calls (@pxref{Functions}).
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@item
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Macro calls (@pxref{Macros}).
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@item
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@code{condition-case} (@pxref{Errors}).
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@end itemize
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Variables can also have buffer-local bindings (@pxref{Buffer-Local
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Variables}); a few variables have terminal-local bindings
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(@pxref{Multiple Displays}). These kinds of bindings work somewhat
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like ordinary local bindings, but they are localized depending on
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``where'' you are in Emacs, rather than localized in time.
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@defvar max-specpdl-size
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@anchor{Definition of max-specpdl-size}
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@cindex variable limit error
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@cindex evaluation error
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@cindex infinite recursion
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This variable defines the limit on the total number of local variable
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bindings and @code{unwind-protect} cleanups (@pxref{Cleanups,,
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Cleaning Up from Nonlocal Exits}) that are allowed before signaling an
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error (with data @code{"Variable binding depth exceeds
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max-specpdl-size"}).
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This limit, with the associated error when it is exceeded, is one way
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that Lisp avoids infinite recursion on an ill-defined function.
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@code{max-lisp-eval-depth} provides another limit on depth of nesting.
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@xref{Definition of max-lisp-eval-depth,, Eval}.
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The default value is 1000. Entry to the Lisp debugger increases the
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value, if there is little room left, to make sure the debugger itself
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has room to execute.
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@end defvar
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@node Void Variables
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@section When a Variable is ``Void''
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@kindex void-variable
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@cindex void variable
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If you have never given a symbol any value as a global variable, we
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say that that symbol's global value is @dfn{void}. In other words, the
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symbol's value cell does not have any Lisp object in it. If you try to
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evaluate the symbol, you get a @code{void-variable} error rather than
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a value.
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Note that a value of @code{nil} is not the same as void. The symbol
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@code{nil} is a Lisp object and can be the value of a variable just as any
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other object can be; but it is @emph{a value}. A void variable does not
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have any value.
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After you have given a variable a value, you can make it void once more
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using @code{makunbound}.
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@defun makunbound symbol
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This function makes the current variable binding of @var{symbol} void.
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Subsequent attempts to use this symbol's value as a variable will signal
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the error @code{void-variable}, unless and until you set it again.
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@code{makunbound} returns @var{symbol}.
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@example
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@group
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(makunbound 'x) ; @r{Make the global value of @code{x} void.}
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@result{} x
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@end group
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@group
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x
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@error{} Symbol's value as variable is void: x
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@end group
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@end example
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If @var{symbol} is locally bound, @code{makunbound} affects the most
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local existing binding. This is the only way a symbol can have a void
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local binding, since all the constructs that create local bindings
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create them with values. In this case, the voidness lasts at most as
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long as the binding does; when the binding is removed due to exit from
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the construct that made it, the previous local or global binding is
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reexposed as usual, and the variable is no longer void unless the newly
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reexposed binding was void all along.
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@smallexample
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@group
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(setq x 1) ; @r{Put a value in the global binding.}
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@result{} 1
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(let ((x 2)) ; @r{Locally bind it.}
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(makunbound 'x) ; @r{Void the local binding.}
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x)
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@error{} Symbol's value as variable is void: x
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@end group
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@group
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x ; @r{The global binding is unchanged.}
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@result{} 1
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(let ((x 2)) ; @r{Locally bind it.}
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(let ((x 3)) ; @r{And again.}
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(makunbound 'x) ; @r{Void the innermost-local binding.}
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x)) ; @r{And refer: it's void.}
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@error{} Symbol's value as variable is void: x
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@end group
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@group
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(let ((x 2))
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(let ((x 3))
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(makunbound 'x)) ; @r{Void inner binding, then remove it.}
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x) ; @r{Now outer @code{let} binding is visible.}
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@result{} 2
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@end group
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@end smallexample
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@end defun
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A variable that has been made void with @code{makunbound} is
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indistinguishable from one that has never received a value and has
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always been void.
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You can use the function @code{boundp} to test whether a variable is
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currently void.
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@defun boundp variable
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@code{boundp} returns @code{t} if @var{variable} (a symbol) is not void;
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more precisely, if its current binding is not void. It returns
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@code{nil} otherwise.
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@smallexample
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@group
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(boundp 'abracadabra) ; @r{Starts out void.}
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@result{} nil
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@end group
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@group
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(let ((abracadabra 5)) ; @r{Locally bind it.}
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(boundp 'abracadabra))
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@result{} t
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@end group
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@group
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(boundp 'abracadabra) ; @r{Still globally void.}
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@result{} nil
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@end group
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@group
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(setq abracadabra 5) ; @r{Make it globally nonvoid.}
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@result{} 5
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@end group
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@group
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(boundp 'abracadabra)
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@result{} t
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@end group
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@end smallexample
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@end defun
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@node Defining Variables
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@section Defining Global Variables
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@cindex variable definition
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You may announce your intention to use a symbol as a global variable
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with a @dfn{variable definition}: a special form, either @code{defconst}
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or @code{defvar}.
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In Emacs Lisp, definitions serve three purposes. First, they inform
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people who read the code that certain symbols are @emph{intended} to be
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used a certain way (as variables). Second, they inform the Lisp system
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of these things, supplying a value and documentation. Third, they
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provide information to utilities such as @code{etags} and
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@code{make-docfile}, which create data bases of the functions and
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variables in a program.
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The difference between @code{defconst} and @code{defvar} is primarily
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a matter of intent, serving to inform human readers of whether the value
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should ever change. Emacs Lisp does not restrict the ways in which a
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variable can be used based on @code{defconst} or @code{defvar}
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declarations. However, it does make a difference for initialization:
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@code{defconst} unconditionally initializes the variable, while
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@code{defvar} initializes it only if it is void.
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@ignore
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One would expect user option variables to be defined with
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@code{defconst}, since programs do not change them. Unfortunately, this
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has bad results if the definition is in a library that is not preloaded:
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@code{defconst} would override any prior value when the library is
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loaded. Users would like to be able to set user options in their init
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files, and override the default values given in the definitions. For
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this reason, user options must be defined with @code{defvar}.
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@end ignore
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@defspec defvar symbol [value [doc-string]]
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This special form defines @var{symbol} as a variable and can also
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initialize and document it. The definition informs a person reading
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your code that @var{symbol} is used as a variable that might be set or
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changed. Note that @var{symbol} is not evaluated; the symbol to be
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defined must appear explicitly in the @code{defvar}.
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If @var{symbol} is void and @var{value} is specified, @code{defvar}
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evaluates it and sets @var{symbol} to the result. But if @var{symbol}
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already has a value (i.e., it is not void), @var{value} is not even
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evaluated, and @var{symbol}'s value remains unchanged. If @var{value}
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is omitted, the value of @var{symbol} is not changed in any case.
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If @var{symbol} has a buffer-local binding in the current buffer,
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@code{defvar} operates on the default value, which is buffer-independent,
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not the current (buffer-local) binding. It sets the default value if
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the default value is void. @xref{Buffer-Local Variables}.
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When you evaluate a top-level @code{defvar} form with @kbd{C-M-x} in
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Emacs Lisp mode (@code{eval-defun}), a special feature of
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@code{eval-defun} arranges to set the variable unconditionally, without
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testing whether its value is void.
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If the @var{doc-string} argument appears, it specifies the documentation
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for the variable. (This opportunity to specify documentation is one of
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the main benefits of defining the variable.) The documentation is
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stored in the symbol's @code{variable-documentation} property. The
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Emacs help functions (@pxref{Documentation}) look for this property.
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If the variable is a user option that users would want to set
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interactively, you should use @samp{*} as the first character of
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@var{doc-string}. This lets users set the variable conveniently using
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the @code{set-variable} command. Note that you should nearly always
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use @code{defcustom} instead of @code{defvar} to define these
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variables, so that users can use @kbd{M-x customize} and related
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commands to set them. @xref{Customization}.
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Here are some examples. This form defines @code{foo} but does not
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initialize it:
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@example
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@group
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(defvar foo)
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@result{} foo
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@end group
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@end example
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This example initializes the value of @code{bar} to @code{23}, and gives
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it a documentation string:
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@example
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@group
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(defvar bar 23
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"The normal weight of a bar.")
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@result{} bar
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@end group
|
|
@end example
|
|
|
|
The following form changes the documentation string for @code{bar},
|
|
making it a user option, but does not change the value, since @code{bar}
|
|
already has a value. (The addition @code{(1+ nil)} would get an error
|
|
if it were evaluated, but since it is not evaluated, there is no error.)
|
|
|
|
@example
|
|
@group
|
|
(defvar bar (1+ nil)
|
|
"*The normal weight of a bar.")
|
|
@result{} bar
|
|
@end group
|
|
@group
|
|
bar
|
|
@result{} 23
|
|
@end group
|
|
@end example
|
|
|
|
Here is an equivalent expression for the @code{defvar} special form:
|
|
|
|
@example
|
|
@group
|
|
(defvar @var{symbol} @var{value} @var{doc-string})
|
|
@equiv{}
|
|
(progn
|
|
(if (not (boundp '@var{symbol}))
|
|
(setq @var{symbol} @var{value}))
|
|
(if '@var{doc-string}
|
|
(put '@var{symbol} 'variable-documentation '@var{doc-string}))
|
|
'@var{symbol})
|
|
@end group
|
|
@end example
|
|
|
|
The @code{defvar} form returns @var{symbol}, but it is normally used
|
|
at top level in a file where its value does not matter.
|
|
@end defspec
|
|
|
|
@defspec defconst symbol value [doc-string]
|
|
This special form defines @var{symbol} as a value and initializes it.
|
|
It informs a person reading your code that @var{symbol} has a standard
|
|
global value, established here, that should not be changed by the user
|
|
or by other programs. Note that @var{symbol} is not evaluated; the
|
|
symbol to be defined must appear explicitly in the @code{defconst}.
|
|
|
|
@code{defconst} always evaluates @var{value}, and sets the value of
|
|
@var{symbol} to the result. If @var{symbol} does have a buffer-local
|
|
binding in the current buffer, @code{defconst} sets the default value,
|
|
not the buffer-local value. (But you should not be making
|
|
buffer-local bindings for a symbol that is defined with
|
|
@code{defconst}.)
|
|
|
|
Here, @code{pi} is a constant that presumably ought not to be changed
|
|
by anyone (attempts by the Indiana State Legislature notwithstanding).
|
|
As the second form illustrates, however, this is only advisory.
|
|
|
|
@example
|
|
@group
|
|
(defconst pi 3.1415 "Pi to five places.")
|
|
@result{} pi
|
|
@end group
|
|
@group
|
|
(setq pi 3)
|
|
@result{} pi
|
|
@end group
|
|
@group
|
|
pi
|
|
@result{} 3
|
|
@end group
|
|
@end example
|
|
@end defspec
|
|
|
|
@defun user-variable-p variable
|
|
@cindex user option
|
|
This function returns @code{t} if @var{variable} is a user option---a
|
|
variable intended to be set by the user for customization---and
|
|
@code{nil} otherwise. (Variables other than user options exist for the
|
|
internal purposes of Lisp programs, and users need not know about them.)
|
|
|
|
User option variables are distinguished from other variables either
|
|
though being declared using @code{defcustom}@footnote{They may also be
|
|
declared equivalently in @file{cus-start.el}.} or by the first character
|
|
of their @code{variable-documentation} property. If the property exists
|
|
and is a string, and its first character is @samp{*}, then the variable
|
|
is a user option. Aliases of user options are also user options.
|
|
@end defun
|
|
|
|
@kindex variable-interactive
|
|
If a user option variable has a @code{variable-interactive} property,
|
|
the @code{set-variable} command uses that value to control reading the
|
|
new value for the variable. The property's value is used as if it were
|
|
specified in @code{interactive} (@pxref{Using Interactive}). However,
|
|
this feature is largely obsoleted by @code{defcustom}
|
|
(@pxref{Customization}).
|
|
|
|
@strong{Warning:} If the @code{defconst} and @code{defvar} special
|
|
forms are used while the variable has a local binding (made with
|
|
@code{let}, or a function argument), they set the local-binding's
|
|
value; the top-level binding is not changed. This is not what you
|
|
usually want. To prevent it, use these special forms at top level in
|
|
a file, where normally no local binding is in effect, and make sure to
|
|
load the file before making a local binding for the variable.
|
|
|
|
@node Tips for Defining
|
|
@section Tips for Defining Variables Robustly
|
|
|
|
When you define a variable whose value is a function, or a list of
|
|
functions, use a name that ends in @samp{-function} or
|
|
@samp{-functions}, respectively.
|
|
|
|
There are several other variable name conventions;
|
|
here is a complete list:
|
|
|
|
@table @samp
|
|
@item @dots{}-hook
|
|
The variable is a normal hook (@pxref{Hooks}).
|
|
|
|
@item @dots{}-function
|
|
The value is a function.
|
|
|
|
@item @dots{}-functions
|
|
The value is a list of functions.
|
|
|
|
@item @dots{}-form
|
|
The value is a form (an expression).
|
|
|
|
@item @dots{}-forms
|
|
The value is a list of forms (expressions).
|
|
|
|
@item @dots{}-predicate
|
|
The value is a predicate---a function of one argument that returns
|
|
non-@code{nil} for ``good'' arguments and @code{nil} for ``bad''
|
|
arguments.
|
|
|
|
@item @dots{}-flag
|
|
The value is significant only as to whether it is @code{nil} or not.
|
|
|
|
@item @dots{}-program
|
|
The value is a program name.
|
|
|
|
@item @dots{}-command
|
|
The value is a whole shell command.
|
|
|
|
@item @dots{}-switches
|
|
The value specifies options for a command.
|
|
@end table
|
|
|
|
When you define a variable, always consider whether you should mark
|
|
it as ``risky''; see @ref{File Local Variables}.
|
|
|
|
When defining and initializing a variable that holds a complicated
|
|
value (such as a keymap with bindings in it), it's best to put the
|
|
entire computation of the value into the @code{defvar}, like this:
|
|
|
|
@example
|
|
(defvar my-mode-map
|
|
(let ((map (make-sparse-keymap)))
|
|
(define-key map "\C-c\C-a" 'my-command)
|
|
@dots{}
|
|
map)
|
|
@var{docstring})
|
|
@end example
|
|
|
|
@noindent
|
|
This method has several benefits. First, if the user quits while
|
|
loading the file, the variable is either still uninitialized or
|
|
initialized properly, never in-between. If it is still uninitialized,
|
|
reloading the file will initialize it properly. Second, reloading the
|
|
file once the variable is initialized will not alter it; that is
|
|
important if the user has run hooks to alter part of the contents (such
|
|
as, to rebind keys). Third, evaluating the @code{defvar} form with
|
|
@kbd{C-M-x} @emph{will} reinitialize the map completely.
|
|
|
|
Putting so much code in the @code{defvar} form has one disadvantage:
|
|
it puts the documentation string far away from the line which names the
|
|
variable. Here's a safe way to avoid that:
|
|
|
|
@example
|
|
(defvar my-mode-map nil
|
|
@var{docstring})
|
|
(unless my-mode-map
|
|
(let ((map (make-sparse-keymap)))
|
|
(define-key map "\C-c\C-a" 'my-command)
|
|
@dots{}
|
|
(setq my-mode-map map)))
|
|
@end example
|
|
|
|
@noindent
|
|
This has all the same advantages as putting the initialization inside
|
|
the @code{defvar}, except that you must type @kbd{C-M-x} twice, once on
|
|
each form, if you do want to reinitialize the variable.
|
|
|
|
But be careful not to write the code like this:
|
|
|
|
@example
|
|
(defvar my-mode-map nil
|
|
@var{docstring})
|
|
(unless my-mode-map
|
|
(setq my-mode-map (make-sparse-keymap))
|
|
(define-key my-mode-map "\C-c\C-a" 'my-command)
|
|
@dots{})
|
|
@end example
|
|
|
|
@noindent
|
|
This code sets the variable, then alters it, but it does so in more than
|
|
one step. If the user quits just after the @code{setq}, that leaves the
|
|
variable neither correctly initialized nor void nor @code{nil}. Once
|
|
that happens, reloading the file will not initialize the variable; it
|
|
will remain incomplete.
|
|
|
|
@node Accessing Variables
|
|
@section Accessing Variable Values
|
|
|
|
The usual way to reference a variable is to write the symbol which
|
|
names it (@pxref{Symbol Forms}). This requires you to specify the
|
|
variable name when you write the program. Usually that is exactly what
|
|
you want to do. Occasionally you need to choose at run time which
|
|
variable to reference; then you can use @code{symbol-value}.
|
|
|
|
@defun symbol-value symbol
|
|
This function returns the value of @var{symbol}. This is the value in
|
|
the innermost local binding of the symbol, or its global value if it
|
|
has no local bindings.
|
|
|
|
@example
|
|
@group
|
|
(setq abracadabra 5)
|
|
@result{} 5
|
|
@end group
|
|
@group
|
|
(setq foo 9)
|
|
@result{} 9
|
|
@end group
|
|
|
|
@group
|
|
;; @r{Here the symbol @code{abracadabra}}
|
|
;; @r{is the symbol whose value is examined.}
|
|
(let ((abracadabra 'foo))
|
|
(symbol-value 'abracadabra))
|
|
@result{} foo
|
|
@end group
|
|
|
|
@group
|
|
;; @r{Here, the value of @code{abracadabra},}
|
|
;; @r{which is @code{foo},}
|
|
;; @r{is the symbol whose value is examined.}
|
|
(let ((abracadabra 'foo))
|
|
(symbol-value abracadabra))
|
|
@result{} 9
|
|
@end group
|
|
|
|
@group
|
|
(symbol-value 'abracadabra)
|
|
@result{} 5
|
|
@end group
|
|
@end example
|
|
|
|
A @code{void-variable} error is signaled if the current binding of
|
|
@var{symbol} is void.
|
|
@end defun
|
|
|
|
@node Setting Variables
|
|
@section How to Alter a Variable Value
|
|
|
|
The usual way to change the value of a variable is with the special
|
|
form @code{setq}. When you need to compute the choice of variable at
|
|
run time, use the function @code{set}.
|
|
|
|
@defspec setq [symbol form]@dots{}
|
|
This special form is the most common method of changing a variable's
|
|
value. Each @var{symbol} is given a new value, which is the result of
|
|
evaluating the corresponding @var{form}. The most-local existing
|
|
binding of the symbol is changed.
|
|
|
|
@code{setq} does not evaluate @var{symbol}; it sets the symbol that you
|
|
write. We say that this argument is @dfn{automatically quoted}. The
|
|
@samp{q} in @code{setq} stands for ``quoted.''
|
|
|
|
The value of the @code{setq} form is the value of the last @var{form}.
|
|
|
|
@example
|
|
@group
|
|
(setq x (1+ 2))
|
|
@result{} 3
|
|
@end group
|
|
x ; @r{@code{x} now has a global value.}
|
|
@result{} 3
|
|
@group
|
|
(let ((x 5))
|
|
(setq x 6) ; @r{The local binding of @code{x} is set.}
|
|
x)
|
|
@result{} 6
|
|
@end group
|
|
x ; @r{The global value is unchanged.}
|
|
@result{} 3
|
|
@end example
|
|
|
|
Note that the first @var{form} is evaluated, then the first
|
|
@var{symbol} is set, then the second @var{form} is evaluated, then the
|
|
second @var{symbol} is set, and so on:
|
|
|
|
@example
|
|
@group
|
|
(setq x 10 ; @r{Notice that @code{x} is set before}
|
|
y (1+ x)) ; @r{the value of @code{y} is computed.}
|
|
@result{} 11
|
|
@end group
|
|
@end example
|
|
@end defspec
|
|
|
|
@defun set symbol value
|
|
This function sets @var{symbol}'s value to @var{value}, then returns
|
|
@var{value}. Since @code{set} is a function, the expression written for
|
|
@var{symbol} is evaluated to obtain the symbol to set.
|
|
|
|
The most-local existing binding of the variable is the binding that is
|
|
set; shadowed bindings are not affected.
|
|
|
|
@example
|
|
@group
|
|
(set one 1)
|
|
@error{} Symbol's value as variable is void: one
|
|
@end group
|
|
@group
|
|
(set 'one 1)
|
|
@result{} 1
|
|
@end group
|
|
@group
|
|
(set 'two 'one)
|
|
@result{} one
|
|
@end group
|
|
@group
|
|
(set two 2) ; @r{@code{two} evaluates to symbol @code{one}.}
|
|
@result{} 2
|
|
@end group
|
|
@group
|
|
one ; @r{So it is @code{one} that was set.}
|
|
@result{} 2
|
|
(let ((one 1)) ; @r{This binding of @code{one} is set,}
|
|
(set 'one 3) ; @r{not the global value.}
|
|
one)
|
|
@result{} 3
|
|
@end group
|
|
@group
|
|
one
|
|
@result{} 2
|
|
@end group
|
|
@end example
|
|
|
|
If @var{symbol} is not actually a symbol, a @code{wrong-type-argument}
|
|
error is signaled.
|
|
|
|
@example
|
|
(set '(x y) 'z)
|
|
@error{} Wrong type argument: symbolp, (x y)
|
|
@end example
|
|
|
|
Logically speaking, @code{set} is a more fundamental primitive than
|
|
@code{setq}. Any use of @code{setq} can be trivially rewritten to use
|
|
@code{set}; @code{setq} could even be defined as a macro, given the
|
|
availability of @code{set}. However, @code{set} itself is rarely used;
|
|
beginners hardly need to know about it. It is useful only for choosing
|
|
at run time which variable to set. For example, the command
|
|
@code{set-variable}, which reads a variable name from the user and then
|
|
sets the variable, needs to use @code{set}.
|
|
|
|
@cindex CL note---@code{set} local
|
|
@quotation
|
|
@b{Common Lisp note:} In Common Lisp, @code{set} always changes the
|
|
symbol's ``special'' or dynamic value, ignoring any lexical bindings.
|
|
In Emacs Lisp, all variables and all bindings are dynamic, so @code{set}
|
|
always affects the most local existing binding.
|
|
@end quotation
|
|
@end defun
|
|
|
|
@node Variable Scoping
|
|
@section Scoping Rules for Variable Bindings
|
|
|
|
A given symbol @code{foo} can have several local variable bindings,
|
|
established at different places in the Lisp program, as well as a global
|
|
binding. The most recently established binding takes precedence over
|
|
the others.
|
|
|
|
@cindex scope
|
|
@cindex extent
|
|
@cindex dynamic scoping
|
|
@cindex lexical scoping
|
|
Local bindings in Emacs Lisp have @dfn{indefinite scope} and
|
|
@dfn{dynamic extent}. @dfn{Scope} refers to @emph{where} textually in
|
|
the source code the binding can be accessed. ``Indefinite scope'' means
|
|
that any part of the program can potentially access the variable
|
|
binding. @dfn{Extent} refers to @emph{when}, as the program is
|
|
executing, the binding exists. ``Dynamic extent'' means that the binding
|
|
lasts as long as the activation of the construct that established it.
|
|
|
|
The combination of dynamic extent and indefinite scope is called
|
|
@dfn{dynamic scoping}. By contrast, most programming languages use
|
|
@dfn{lexical scoping}, in which references to a local variable must be
|
|
located textually within the function or block that binds the variable.
|
|
|
|
@cindex CL note---special variables
|
|
@quotation
|
|
@b{Common Lisp note:} Variables declared ``special'' in Common Lisp are
|
|
dynamically scoped, like all variables in Emacs Lisp.
|
|
@end quotation
|
|
|
|
@menu
|
|
* Scope:: Scope means where in the program a value is visible.
|
|
Comparison with other languages.
|
|
* Extent:: Extent means how long in time a value exists.
|
|
* Impl of Scope:: Two ways to implement dynamic scoping.
|
|
* Using Scoping:: How to use dynamic scoping carefully and avoid problems.
|
|
@end menu
|
|
|
|
@node Scope
|
|
@subsection Scope
|
|
|
|
Emacs Lisp uses @dfn{indefinite scope} for local variable bindings.
|
|
This means that any function anywhere in the program text might access a
|
|
given binding of a variable. Consider the following function
|
|
definitions:
|
|
|
|
@example
|
|
@group
|
|
(defun binder (x) ; @r{@code{x} is bound in @code{binder}.}
|
|
(foo 5)) ; @r{@code{foo} is some other function.}
|
|
@end group
|
|
|
|
@group
|
|
(defun user () ; @r{@code{x} is used ``free'' in @code{user}.}
|
|
(list x))
|
|
@end group
|
|
@end example
|
|
|
|
In a lexically scoped language, the binding of @code{x} in
|
|
@code{binder} would never be accessible in @code{user}, because
|
|
@code{user} is not textually contained within the function
|
|
@code{binder}. However, in dynamically-scoped Emacs Lisp, @code{user}
|
|
may or may not refer to the binding of @code{x} established in
|
|
@code{binder}, depending on the circumstances:
|
|
|
|
@itemize @bullet
|
|
@item
|
|
If we call @code{user} directly without calling @code{binder} at all,
|
|
then whatever binding of @code{x} is found, it cannot come from
|
|
@code{binder}.
|
|
|
|
@item
|
|
If we define @code{foo} as follows and then call @code{binder}, then the
|
|
binding made in @code{binder} will be seen in @code{user}:
|
|
|
|
@example
|
|
@group
|
|
(defun foo (lose)
|
|
(user))
|
|
@end group
|
|
@end example
|
|
|
|
@item
|
|
However, if we define @code{foo} as follows and then call @code{binder},
|
|
then the binding made in @code{binder} @emph{will not} be seen in
|
|
@code{user}:
|
|
|
|
@example
|
|
(defun foo (x)
|
|
(user))
|
|
@end example
|
|
|
|
@noindent
|
|
Here, when @code{foo} is called by @code{binder}, it binds @code{x}.
|
|
(The binding in @code{foo} is said to @dfn{shadow} the one made in
|
|
@code{binder}.) Therefore, @code{user} will access the @code{x} bound
|
|
by @code{foo} instead of the one bound by @code{binder}.
|
|
@end itemize
|
|
|
|
Emacs Lisp uses dynamic scoping because simple implementations of
|
|
lexical scoping are slow. In addition, every Lisp system needs to offer
|
|
dynamic scoping at least as an option; if lexical scoping is the norm,
|
|
there must be a way to specify dynamic scoping instead for a particular
|
|
variable. It might not be a bad thing for Emacs to offer both, but
|
|
implementing it with dynamic scoping only was much easier.
|
|
|
|
@node Extent
|
|
@subsection Extent
|
|
|
|
@dfn{Extent} refers to the time during program execution that a
|
|
variable name is valid. In Emacs Lisp, a variable is valid only while
|
|
the form that bound it is executing. This is called @dfn{dynamic
|
|
extent}. ``Local'' or ``automatic'' variables in most languages,
|
|
including C and Pascal, have dynamic extent.
|
|
|
|
One alternative to dynamic extent is @dfn{indefinite extent}. This
|
|
means that a variable binding can live on past the exit from the form
|
|
that made the binding. Common Lisp and Scheme, for example, support
|
|
this, but Emacs Lisp does not.
|
|
|
|
To illustrate this, the function below, @code{make-add}, returns a
|
|
function that purports to add @var{n} to its own argument @var{m}. This
|
|
would work in Common Lisp, but it does not do the job in Emacs Lisp,
|
|
because after the call to @code{make-add} exits, the variable @code{n}
|
|
is no longer bound to the actual argument 2.
|
|
|
|
@example
|
|
(defun make-add (n)
|
|
(function (lambda (m) (+ n m)))) ; @r{Return a function.}
|
|
@result{} make-add
|
|
(fset 'add2 (make-add 2)) ; @r{Define function @code{add2}}
|
|
; @r{with @code{(make-add 2)}.}
|
|
@result{} (lambda (m) (+ n m))
|
|
(add2 4) ; @r{Try to add 2 to 4.}
|
|
@error{} Symbol's value as variable is void: n
|
|
@end example
|
|
|
|
@cindex closures not available
|
|
Some Lisp dialects have ``closures,'' objects that are like functions
|
|
but record additional variable bindings. Emacs Lisp does not have
|
|
closures.
|
|
|
|
@node Impl of Scope
|
|
@subsection Implementation of Dynamic Scoping
|
|
@cindex deep binding
|
|
|
|
A simple sample implementation (which is not how Emacs Lisp actually
|
|
works) may help you understand dynamic binding. This technique is
|
|
called @dfn{deep binding} and was used in early Lisp systems.
|
|
|
|
Suppose there is a stack of bindings, which are variable-value pairs.
|
|
At entry to a function or to a @code{let} form, we can push bindings
|
|
onto the stack for the arguments or local variables created there. We
|
|
can pop those bindings from the stack at exit from the binding
|
|
construct.
|
|
|
|
We can find the value of a variable by searching the stack from top to
|
|
bottom for a binding for that variable; the value from that binding is
|
|
the value of the variable. To set the variable, we search for the
|
|
current binding, then store the new value into that binding.
|
|
|
|
As you can see, a function's bindings remain in effect as long as it
|
|
continues execution, even during its calls to other functions. That is
|
|
why we say the extent of the binding is dynamic. And any other function
|
|
can refer to the bindings, if it uses the same variables while the
|
|
bindings are in effect. That is why we say the scope is indefinite.
|
|
|
|
@cindex shallow binding
|
|
The actual implementation of variable scoping in GNU Emacs Lisp uses a
|
|
technique called @dfn{shallow binding}. Each variable has a standard
|
|
place in which its current value is always found---the value cell of the
|
|
symbol.
|
|
|
|
In shallow binding, setting the variable works by storing a value in
|
|
the value cell. Creating a new binding works by pushing the old value
|
|
(belonging to a previous binding) onto a stack, and storing the new
|
|
local value in the value cell. Eliminating a binding works by popping
|
|
the old value off the stack, into the value cell.
|
|
|
|
We use shallow binding because it has the same results as deep
|
|
binding, but runs faster, since there is never a need to search for a
|
|
binding.
|
|
|
|
@node Using Scoping
|
|
@subsection Proper Use of Dynamic Scoping
|
|
|
|
Binding a variable in one function and using it in another is a
|
|
powerful technique, but if used without restraint, it can make programs
|
|
hard to understand. There are two clean ways to use this technique:
|
|
|
|
@itemize @bullet
|
|
@item
|
|
Use or bind the variable only in a few related functions, written close
|
|
together in one file. Such a variable is used for communication within
|
|
one program.
|
|
|
|
You should write comments to inform other programmers that they can see
|
|
all uses of the variable before them, and to advise them not to add uses
|
|
elsewhere.
|
|
|
|
@item
|
|
Give the variable a well-defined, documented meaning, and make all
|
|
appropriate functions refer to it (but not bind it or set it) wherever
|
|
that meaning is relevant. For example, the variable
|
|
@code{case-fold-search} is defined as ``non-@code{nil} means ignore case
|
|
when searching''; various search and replace functions refer to it
|
|
directly or through their subroutines, but do not bind or set it.
|
|
|
|
Then you can bind the variable in other programs, knowing reliably what
|
|
the effect will be.
|
|
@end itemize
|
|
|
|
In either case, you should define the variable with @code{defvar}.
|
|
This helps other people understand your program by telling them to look
|
|
for inter-function usage. It also avoids a warning from the byte
|
|
compiler. Choose the variable's name to avoid name conflicts---don't
|
|
use short names like @code{x}.
|
|
|
|
@node Buffer-Local Variables
|
|
@section Buffer-Local Variables
|
|
@cindex variable, buffer-local
|
|
@cindex buffer-local variables
|
|
|
|
Global and local variable bindings are found in most programming
|
|
languages in one form or another. Emacs, however, also supports
|
|
additional, unusual kinds of variable binding, such as
|
|
@dfn{buffer-local} bindings, which apply only in one buffer. Having
|
|
different values for a variable in different buffers is an important
|
|
customization method. (A few variables have bindings that are local
|
|
to each terminal; see @ref{Multiple Displays}.)
|
|
|
|
@menu
|
|
* Intro to Buffer-Local:: Introduction and concepts.
|
|
* Creating Buffer-Local:: Creating and destroying buffer-local bindings.
|
|
* Default Value:: The default value is seen in buffers
|
|
that don't have their own buffer-local values.
|
|
@end menu
|
|
|
|
@node Intro to Buffer-Local
|
|
@subsection Introduction to Buffer-Local Variables
|
|
|
|
A buffer-local variable has a buffer-local binding associated with a
|
|
particular buffer. The binding is in effect when that buffer is
|
|
current; otherwise, it is not in effect. If you set the variable while
|
|
a buffer-local binding is in effect, the new value goes in that binding,
|
|
so its other bindings are unchanged. This means that the change is
|
|
visible only in the buffer where you made it.
|
|
|
|
The variable's ordinary binding, which is not associated with any
|
|
specific buffer, is called the @dfn{default binding}. In most cases,
|
|
this is the global binding.
|
|
|
|
A variable can have buffer-local bindings in some buffers but not in
|
|
other buffers. The default binding is shared by all the buffers that
|
|
don't have their own bindings for the variable. (This includes all
|
|
newly-created buffers.) If you set the variable in a buffer that does
|
|
not have a buffer-local binding for it, this sets the default binding,
|
|
so the new value is visible in all the buffers that see the default
|
|
binding.
|
|
|
|
The most common use of buffer-local bindings is for major modes to change
|
|
variables that control the behavior of commands. For example, C mode and
|
|
Lisp mode both set the variable @code{paragraph-start} to specify that only
|
|
blank lines separate paragraphs. They do this by making the variable
|
|
buffer-local in the buffer that is being put into C mode or Lisp mode, and
|
|
then setting it to the new value for that mode. @xref{Major Modes}.
|
|
|
|
The usual way to make a buffer-local binding is with
|
|
@code{make-local-variable}, which is what major mode commands typically
|
|
use. This affects just the current buffer; all other buffers (including
|
|
those yet to be created) will continue to share the default value unless
|
|
they are explicitly given their own buffer-local bindings.
|
|
|
|
@cindex automatically buffer-local
|
|
A more powerful operation is to mark the variable as
|
|
@dfn{automatically buffer-local} by calling
|
|
@code{make-variable-buffer-local}. You can think of this as making the
|
|
variable local in all buffers, even those yet to be created. More
|
|
precisely, the effect is that setting the variable automatically makes
|
|
the variable local to the current buffer if it is not already so. All
|
|
buffers start out by sharing the default value of the variable as usual,
|
|
but setting the variable creates a buffer-local binding for the current
|
|
buffer. The new value is stored in the buffer-local binding, leaving
|
|
the default binding untouched. This means that the default value cannot
|
|
be changed with @code{setq} in any buffer; the only way to change it is
|
|
with @code{setq-default}.
|
|
|
|
@strong{Warning:} When a variable has buffer-local
|
|
bindings in one or more buffers, @code{let} rebinds the binding that's
|
|
currently in effect. For instance, if the current buffer has a
|
|
buffer-local value, @code{let} temporarily rebinds that. If no
|
|
buffer-local bindings are in effect, @code{let} rebinds
|
|
the default value. If inside the @code{let} you then change to a
|
|
different current buffer in which a different binding is in effect,
|
|
you won't see the @code{let} binding any more. And if you exit the
|
|
@code{let} while still in the other buffer, you won't see the
|
|
unbinding occur (though it will occur properly). Here is an example
|
|
to illustrate:
|
|
|
|
@example
|
|
@group
|
|
(setq foo 'g)
|
|
(set-buffer "a")
|
|
(make-local-variable 'foo)
|
|
@end group
|
|
(setq foo 'a)
|
|
(let ((foo 'temp))
|
|
;; foo @result{} 'temp ; @r{let binding in buffer @samp{a}}
|
|
(set-buffer "b")
|
|
;; foo @result{} 'g ; @r{the global value since foo is not local in @samp{b}}
|
|
@var{body}@dots{})
|
|
@group
|
|
foo @result{} 'g ; @r{exiting restored the local value in buffer @samp{a},}
|
|
; @r{but we don't see that in buffer @samp{b}}
|
|
@end group
|
|
@group
|
|
(set-buffer "a") ; @r{verify the local value was restored}
|
|
foo @result{} 'a
|
|
@end group
|
|
@end example
|
|
|
|
Note that references to @code{foo} in @var{body} access the
|
|
buffer-local binding of buffer @samp{b}.
|
|
|
|
When a file specifies local variable values, these become buffer-local
|
|
values when you visit the file. @xref{File Variables,,, emacs, The
|
|
GNU Emacs Manual}.
|
|
|
|
@node Creating Buffer-Local
|
|
@subsection Creating and Deleting Buffer-Local Bindings
|
|
|
|
@deffn Command make-local-variable variable
|
|
This function creates a buffer-local binding in the current buffer for
|
|
@var{variable} (a symbol). Other buffers are not affected. The value
|
|
returned is @var{variable}.
|
|
|
|
@c Emacs 19 feature
|
|
The buffer-local value of @var{variable} starts out as the same value
|
|
@var{variable} previously had. If @var{variable} was void, it remains
|
|
void.
|
|
|
|
@example
|
|
@group
|
|
;; @r{In buffer @samp{b1}:}
|
|
(setq foo 5) ; @r{Affects all buffers.}
|
|
@result{} 5
|
|
@end group
|
|
@group
|
|
(make-local-variable 'foo) ; @r{Now it is local in @samp{b1}.}
|
|
@result{} foo
|
|
@end group
|
|
@group
|
|
foo ; @r{That did not change}
|
|
@result{} 5 ; @r{the value.}
|
|
@end group
|
|
@group
|
|
(setq foo 6) ; @r{Change the value}
|
|
@result{} 6 ; @r{in @samp{b1}.}
|
|
@end group
|
|
@group
|
|
foo
|
|
@result{} 6
|
|
@end group
|
|
|
|
@group
|
|
;; @r{In buffer @samp{b2}, the value hasn't changed.}
|
|
(save-excursion
|
|
(set-buffer "b2")
|
|
foo)
|
|
@result{} 5
|
|
@end group
|
|
@end example
|
|
|
|
Making a variable buffer-local within a @code{let}-binding for that
|
|
variable does not work reliably, unless the buffer in which you do this
|
|
is not current either on entry to or exit from the @code{let}. This is
|
|
because @code{let} does not distinguish between different kinds of
|
|
bindings; it knows only which variable the binding was made for.
|
|
|
|
If the variable is terminal-local, this function signals an error. Such
|
|
variables cannot have buffer-local bindings as well. @xref{Multiple
|
|
Displays}.
|
|
|
|
@strong{Warning:} do not use @code{make-local-variable} for a hook
|
|
variable. The hook variables are automatically made buffer-local as
|
|
needed if you use the @var{local} argument to @code{add-hook} or
|
|
@code{remove-hook}.
|
|
@end deffn
|
|
|
|
@deffn Command make-variable-buffer-local variable
|
|
This function marks @var{variable} (a symbol) automatically
|
|
buffer-local, so that any subsequent attempt to set it will make it
|
|
local to the current buffer at the time.
|
|
|
|
A peculiar wrinkle of this feature is that binding the variable (with
|
|
@code{let} or other binding constructs) does not create a buffer-local
|
|
binding for it. Only setting the variable (with @code{set} or
|
|
@code{setq}), while the variable does not have a @code{let}-style
|
|
binding that was made in the current buffer, does so.
|
|
|
|
If @var{variable} does not have a default value, then calling this
|
|
command will give it a default value of @code{nil}. If @var{variable}
|
|
already has a default value, that value remains unchanged.
|
|
Subsequently calling @code{makunbound} on @var{variable} will result
|
|
in a void buffer-local value and leave the default value unaffected.
|
|
|
|
The value returned is @var{variable}.
|
|
|
|
@strong{Warning:} Don't assume that you should use
|
|
@code{make-variable-buffer-local} for user-option variables, simply
|
|
because users @emph{might} want to customize them differently in
|
|
different buffers. Users can make any variable local, when they wish
|
|
to. It is better to leave the choice to them.
|
|
|
|
The time to use @code{make-variable-buffer-local} is when it is crucial
|
|
that no two buffers ever share the same binding. For example, when a
|
|
variable is used for internal purposes in a Lisp program which depends
|
|
on having separate values in separate buffers, then using
|
|
@code{make-variable-buffer-local} can be the best solution.
|
|
@end deffn
|
|
|
|
@defun local-variable-p variable &optional buffer
|
|
This returns @code{t} if @var{variable} is buffer-local in buffer
|
|
@var{buffer} (which defaults to the current buffer); otherwise,
|
|
@code{nil}.
|
|
@end defun
|
|
|
|
@defun local-variable-if-set-p variable &optional buffer
|
|
This returns @code{t} if @var{variable} will become buffer-local in
|
|
buffer @var{buffer} (which defaults to the current buffer) if it is
|
|
set there.
|
|
@end defun
|
|
|
|
@defun buffer-local-value variable buffer
|
|
This function returns the buffer-local binding of @var{variable} (a
|
|
symbol) in buffer @var{buffer}. If @var{variable} does not have a
|
|
buffer-local binding in buffer @var{buffer}, it returns the default
|
|
value (@pxref{Default Value}) of @var{variable} instead.
|
|
@end defun
|
|
|
|
@defun buffer-local-variables &optional buffer
|
|
This function returns a list describing the buffer-local variables in
|
|
buffer @var{buffer}. (If @var{buffer} is omitted, the current buffer is
|
|
used.) It returns an association list (@pxref{Association Lists}) in
|
|
which each element contains one buffer-local variable and its value.
|
|
However, when a variable's buffer-local binding in @var{buffer} is void,
|
|
then the variable appears directly in the resulting list.
|
|
|
|
@example
|
|
@group
|
|
(make-local-variable 'foobar)
|
|
(makunbound 'foobar)
|
|
(make-local-variable 'bind-me)
|
|
(setq bind-me 69)
|
|
@end group
|
|
(setq lcl (buffer-local-variables))
|
|
;; @r{First, built-in variables local in all buffers:}
|
|
@result{} ((mark-active . nil)
|
|
(buffer-undo-list . nil)
|
|
(mode-name . "Fundamental")
|
|
@dots{}
|
|
@group
|
|
;; @r{Next, non-built-in buffer-local variables.}
|
|
;; @r{This one is buffer-local and void:}
|
|
foobar
|
|
;; @r{This one is buffer-local and nonvoid:}
|
|
(bind-me . 69))
|
|
@end group
|
|
@end example
|
|
|
|
Note that storing new values into the @sc{cdr}s of cons cells in this
|
|
list does @emph{not} change the buffer-local values of the variables.
|
|
@end defun
|
|
|
|
@deffn Command kill-local-variable variable
|
|
This function deletes the buffer-local binding (if any) for
|
|
@var{variable} (a symbol) in the current buffer. As a result, the
|
|
default binding of @var{variable} becomes visible in this buffer. This
|
|
typically results in a change in the value of @var{variable}, since the
|
|
default value is usually different from the buffer-local value just
|
|
eliminated.
|
|
|
|
If you kill the buffer-local binding of a variable that automatically
|
|
becomes buffer-local when set, this makes the default value visible in
|
|
the current buffer. However, if you set the variable again, that will
|
|
once again create a buffer-local binding for it.
|
|
|
|
@code{kill-local-variable} returns @var{variable}.
|
|
|
|
This function is a command because it is sometimes useful to kill one
|
|
buffer-local variable interactively, just as it is useful to create
|
|
buffer-local variables interactively.
|
|
@end deffn
|
|
|
|
@defun kill-all-local-variables
|
|
This function eliminates all the buffer-local variable bindings of the
|
|
current buffer except for variables marked as ``permanent.'' As a
|
|
result, the buffer will see the default values of most variables.
|
|
|
|
This function also resets certain other information pertaining to the
|
|
buffer: it sets the local keymap to @code{nil}, the syntax table to the
|
|
value of @code{(standard-syntax-table)}, the case table to
|
|
@code{(standard-case-table)}, and the abbrev table to the value of
|
|
@code{fundamental-mode-abbrev-table}.
|
|
|
|
The very first thing this function does is run the normal hook
|
|
@code{change-major-mode-hook} (see below).
|
|
|
|
Every major mode command begins by calling this function, which has the
|
|
effect of switching to Fundamental mode and erasing most of the effects
|
|
of the previous major mode. To ensure that this does its job, the
|
|
variables that major modes set should not be marked permanent.
|
|
|
|
@code{kill-all-local-variables} returns @code{nil}.
|
|
@end defun
|
|
|
|
@defvar change-major-mode-hook
|
|
The function @code{kill-all-local-variables} runs this normal hook
|
|
before it does anything else. This gives major modes a way to arrange
|
|
for something special to be done if the user switches to a different
|
|
major mode. It is also useful for buffer-specific minor modes
|
|
that should be forgotten if the user changes the major mode.
|
|
|
|
For best results, make this variable buffer-local, so that it will
|
|
disappear after doing its job and will not interfere with the
|
|
subsequent major mode. @xref{Hooks}.
|
|
@end defvar
|
|
|
|
@c Emacs 19 feature
|
|
@cindex permanent local variable
|
|
A buffer-local variable is @dfn{permanent} if the variable name (a
|
|
symbol) has a @code{permanent-local} property that is non-@code{nil}.
|
|
Permanent locals are appropriate for data pertaining to where the file
|
|
came from or how to save it, rather than with how to edit the contents.
|
|
|
|
@node Default Value
|
|
@subsection The Default Value of a Buffer-Local Variable
|
|
@cindex default value
|
|
|
|
The global value of a variable with buffer-local bindings is also
|
|
called the @dfn{default} value, because it is the value that is in
|
|
effect whenever neither the current buffer nor the selected frame has
|
|
its own binding for the variable.
|
|
|
|
The functions @code{default-value} and @code{setq-default} access and
|
|
change a variable's default value regardless of whether the current
|
|
buffer has a buffer-local binding. For example, you could use
|
|
@code{setq-default} to change the default setting of
|
|
@code{paragraph-start} for most buffers; and this would work even when
|
|
you are in a C or Lisp mode buffer that has a buffer-local value for
|
|
this variable.
|
|
|
|
@c Emacs 19 feature
|
|
The special forms @code{defvar} and @code{defconst} also set the
|
|
default value (if they set the variable at all), rather than any
|
|
buffer-local value.
|
|
|
|
@defun default-value symbol
|
|
This function returns @var{symbol}'s default value. This is the value
|
|
that is seen in buffers and frames that do not have their own values for
|
|
this variable. If @var{symbol} is not buffer-local, this is equivalent
|
|
to @code{symbol-value} (@pxref{Accessing Variables}).
|
|
@end defun
|
|
|
|
@c Emacs 19 feature
|
|
@defun default-boundp symbol
|
|
The function @code{default-boundp} tells you whether @var{symbol}'s
|
|
default value is nonvoid. If @code{(default-boundp 'foo)} returns
|
|
@code{nil}, then @code{(default-value 'foo)} would get an error.
|
|
|
|
@code{default-boundp} is to @code{default-value} as @code{boundp} is to
|
|
@code{symbol-value}.
|
|
@end defun
|
|
|
|
@defspec setq-default [symbol form]@dots{}
|
|
This special form gives each @var{symbol} a new default value, which is
|
|
the result of evaluating the corresponding @var{form}. It does not
|
|
evaluate @var{symbol}, but does evaluate @var{form}. The value of the
|
|
@code{setq-default} form is the value of the last @var{form}.
|
|
|
|
If a @var{symbol} is not buffer-local for the current buffer, and is not
|
|
marked automatically buffer-local, @code{setq-default} has the same
|
|
effect as @code{setq}. If @var{symbol} is buffer-local for the current
|
|
buffer, then this changes the value that other buffers will see (as long
|
|
as they don't have a buffer-local value), but not the value that the
|
|
current buffer sees.
|
|
|
|
@example
|
|
@group
|
|
;; @r{In buffer @samp{foo}:}
|
|
(make-local-variable 'buffer-local)
|
|
@result{} buffer-local
|
|
@end group
|
|
@group
|
|
(setq buffer-local 'value-in-foo)
|
|
@result{} value-in-foo
|
|
@end group
|
|
@group
|
|
(setq-default buffer-local 'new-default)
|
|
@result{} new-default
|
|
@end group
|
|
@group
|
|
buffer-local
|
|
@result{} value-in-foo
|
|
@end group
|
|
@group
|
|
(default-value 'buffer-local)
|
|
@result{} new-default
|
|
@end group
|
|
|
|
@group
|
|
;; @r{In (the new) buffer @samp{bar}:}
|
|
buffer-local
|
|
@result{} new-default
|
|
@end group
|
|
@group
|
|
(default-value 'buffer-local)
|
|
@result{} new-default
|
|
@end group
|
|
@group
|
|
(setq buffer-local 'another-default)
|
|
@result{} another-default
|
|
@end group
|
|
@group
|
|
(default-value 'buffer-local)
|
|
@result{} another-default
|
|
@end group
|
|
|
|
@group
|
|
;; @r{Back in buffer @samp{foo}:}
|
|
buffer-local
|
|
@result{} value-in-foo
|
|
(default-value 'buffer-local)
|
|
@result{} another-default
|
|
@end group
|
|
@end example
|
|
@end defspec
|
|
|
|
@defun set-default symbol value
|
|
This function is like @code{setq-default}, except that @var{symbol} is
|
|
an ordinary evaluated argument.
|
|
|
|
@example
|
|
@group
|
|
(set-default (car '(a b c)) 23)
|
|
@result{} 23
|
|
@end group
|
|
@group
|
|
(default-value 'a)
|
|
@result{} 23
|
|
@end group
|
|
@end example
|
|
@end defun
|
|
|
|
@node Future Local Variables
|
|
@section Possible Future Local Variables
|
|
|
|
We have considered the idea of bindings that are local to a category
|
|
of frames---for example, all color frames, or all frames with dark
|
|
backgrounds. We have not implemented them because it is not clear that
|
|
this feature is really useful. You can get more or less the same
|
|
results by adding a function to @code{after-make-frame-functions}, set up to
|
|
define a particular frame parameter according to the appropriate
|
|
conditions for each frame.
|
|
|
|
It would also be possible to implement window-local bindings. We
|
|
don't know of many situations where they would be useful, and it seems
|
|
that indirect buffers (@pxref{Indirect Buffers}) with buffer-local
|
|
bindings offer a way to handle these situations more robustly.
|
|
|
|
If sufficient application is found for either of these two kinds of
|
|
local bindings, we will provide it in a subsequent Emacs version.
|
|
|
|
@node File Local Variables
|
|
@section File Local Variables
|
|
@cindex file local variables
|
|
|
|
A file can specify local variable values; Emacs uses these to create
|
|
buffer-local bindings for those variables in the buffer visiting that
|
|
file. @xref{File variables, , Local Variables in Files, emacs, The
|
|
GNU Emacs Manual}, for basic information about file local variables.
|
|
This section describes the functions and variables that affect
|
|
processing of file local variables.
|
|
|
|
@defopt enable-local-variables
|
|
This variable controls whether to process file local variables.
|
|
The possible values are:
|
|
|
|
@table @asis
|
|
@item @code{t} (the default)
|
|
Set the safe variables, and query (once) about any unsafe variables.
|
|
@item @code{:safe}
|
|
Set only the safe variables and do not query.
|
|
@item @code{:all}
|
|
Set all the variables and do not query.
|
|
@item @code{nil}
|
|
Don't set any variables.
|
|
@item anything else
|
|
Query (once) about all the variables.
|
|
@end table
|
|
@end defopt
|
|
|
|
@defun hack-local-variables &optional mode-only
|
|
This function parses, and binds or evaluates as appropriate, any local
|
|
variables specified by the contents of the current buffer. The variable
|
|
@code{enable-local-variables} has its effect here. However, this
|
|
function does not look for the @samp{mode:} local variable in the
|
|
@w{@samp{-*-}} line. @code{set-auto-mode} does that, also taking
|
|
@code{enable-local-variables} into account (@pxref{Auto Major Mode}).
|
|
|
|
If the optional argument @var{mode-only} is non-@code{nil}, then all
|
|
this function does is return @code{t} if the @w{@samp{-*-}} line or
|
|
the local variables list specifies a mode and @code{nil} otherwise.
|
|
It does not set the mode nor any other file local variable.
|
|
@end defun
|
|
|
|
If a file local variable could specify a function that would
|
|
be called later, or an expression that would be executed later, simply
|
|
visiting a file could take over your Emacs. Emacs takes several
|
|
measures to prevent this.
|
|
|
|
@cindex safe local variable
|
|
You can specify safe values for a variable with a
|
|
@code{safe-local-variable} property. The property has to be
|
|
a function of one argument; any value is safe if the function
|
|
returns non-@code{nil} given that value. Many commonly encountered
|
|
file variables standardly have @code{safe-local-variable} properties,
|
|
including @code{fill-column}, @code{fill-prefix}, and
|
|
@code{indent-tabs-mode}. For boolean-valued variables that are safe,
|
|
use @code{booleanp} as the property value. Lambda expressions should
|
|
be quoted so that @code{describe-variable} can display the predicate.
|
|
|
|
@defopt safe-local-variable-values
|
|
This variable provides another way to mark some variable values as
|
|
safe. It is a list of cons cells @code{(@var{var} . @var{val})},
|
|
where @var{var} is a variable name and @var{val} is a value which is
|
|
safe for that variable.
|
|
|
|
When Emacs asks the user whether or not to obey a set of file local
|
|
variable specifications, the user can choose to mark them as safe.
|
|
Doing so adds those variable/value pairs to
|
|
@code{safe-local-variable-values}, and saves it to the user's custom
|
|
file.
|
|
@end defopt
|
|
|
|
@defun safe-local-variable-p sym val
|
|
This function returns non-@code{nil} if it is safe to give @var{sym}
|
|
the value @var{val}, based on the above criteria.
|
|
@end defun
|
|
|
|
@c @cindex risky local variable Duplicates risky-local-variable
|
|
Some variables are considered @dfn{risky}. A variable whose name
|
|
ends in any of @samp{-command}, @samp{-frame-alist}, @samp{-function},
|
|
@samp{-functions}, @samp{-hook}, @samp{-hooks}, @samp{-form},
|
|
@samp{-forms}, @samp{-map}, @samp{-map-alist}, @samp{-mode-alist},
|
|
@samp{-program}, or @samp{-predicate} is considered risky. The
|
|
variables @samp{font-lock-keywords}, @samp{font-lock-keywords}
|
|
followed by a digit, and @samp{font-lock-syntactic-keywords} are also
|
|
considered risky. Finally, any variable whose name has a
|
|
non-@code{nil} @code{risky-local-variable} property is considered
|
|
risky.
|
|
|
|
@defun risky-local-variable-p sym
|
|
This function returns non-@code{nil} if @var{sym} is a risky variable,
|
|
based on the above criteria.
|
|
@end defun
|
|
|
|
If a variable is risky, it will not be entered automatically into
|
|
@code{safe-local-variable-values} as described above. Therefore,
|
|
Emacs will always query before setting a risky variable, unless the
|
|
user explicitly allows the setting by customizing
|
|
@code{safe-local-variable-values} directly.
|
|
|
|
@defvar ignored-local-variables
|
|
This variable holds a list of variables that should not be given local
|
|
values by files. Any value specified for one of these variables is
|
|
completely ignored.
|
|
@end defvar
|
|
|
|
The @samp{Eval:} ``variable'' is also a potential loophole, so Emacs
|
|
normally asks for confirmation before handling it.
|
|
|
|
@defopt enable-local-eval
|
|
This variable controls processing of @samp{Eval:} in @samp{-*-} lines
|
|
or local variables
|
|
lists in files being visited. A value of @code{t} means process them
|
|
unconditionally; @code{nil} means ignore them; anything else means ask
|
|
the user what to do for each file. The default value is @code{maybe}.
|
|
@end defopt
|
|
|
|
@defopt safe-local-eval-forms
|
|
This variable holds a list of expressions that are safe to
|
|
evaluate when found in the @samp{Eval:} ``variable'' in a file
|
|
local variables list.
|
|
@end defopt
|
|
|
|
If the expression is a function call and the function has a
|
|
@code{safe-local-eval-function} property, the property value
|
|
determines whether the expression is safe to evaluate. The property
|
|
value can be a predicate to call to test the expression, a list of
|
|
such predicates (it's safe if any predicate succeeds), or @code{t}
|
|
(always safe provided the arguments are constant).
|
|
|
|
Text properties are also potential loopholes, since their values
|
|
could include functions to call. So Emacs discards all text
|
|
properties from string values specified for file local variables.
|
|
|
|
@node Variable Aliases
|
|
@section Variable Aliases
|
|
@cindex variable aliases
|
|
|
|
It is sometimes useful to make two variables synonyms, so that both
|
|
variables always have the same value, and changing either one also
|
|
changes the other. Whenever you change the name of a
|
|
variable---either because you realize its old name was not well
|
|
chosen, or because its meaning has partly changed---it can be useful
|
|
to keep the old name as an @emph{alias} of the new one for
|
|
compatibility. You can do this with @code{defvaralias}.
|
|
|
|
@defun defvaralias new-alias base-variable &optional docstring
|
|
This function defines the symbol @var{new-alias} as a variable alias
|
|
for symbol @var{base-variable}. This means that retrieving the value
|
|
of @var{new-alias} returns the value of @var{base-variable}, and
|
|
changing the value of @var{new-alias} changes the value of
|
|
@var{base-variable}. The two aliased variable names always share the
|
|
same value and the same bindings.
|
|
|
|
If the @var{docstring} argument is non-@code{nil}, it specifies the
|
|
documentation for @var{new-alias}; otherwise, the alias gets the same
|
|
documentation as @var{base-variable} has, if any, unless
|
|
@var{base-variable} is itself an alias, in which case @var{new-alias} gets
|
|
the documentation of the variable at the end of the chain of aliases.
|
|
|
|
This function returns @var{base-variable}.
|
|
@end defun
|
|
|
|
Variable aliases are convenient for replacing an old name for a
|
|
variable with a new name. @code{make-obsolete-variable} declares that
|
|
the old name is obsolete and therefore that it may be removed at some
|
|
stage in the future.
|
|
|
|
@defun make-obsolete-variable obsolete-name current-name &optional when
|
|
This function makes the byte compiler warn that the variable
|
|
@var{obsolete-name} is obsolete. If @var{current-name} is a symbol, it is
|
|
the variable's new name; then the warning message says to use
|
|
@var{current-name} instead of @var{obsolete-name}. If @var{current-name}
|
|
is a string, this is the message and there is no replacement variable.
|
|
|
|
If provided, @var{when} should be a string indicating when the
|
|
variable was first made obsolete---for example, a date or a release
|
|
number.
|
|
@end defun
|
|
|
|
You can make two variables synonyms and declare one obsolete at the
|
|
same time using the macro @code{define-obsolete-variable-alias}.
|
|
|
|
@defmac define-obsolete-variable-alias obsolete-name current-name &optional when docstring
|
|
This macro marks the variable @var{obsolete-name} as obsolete and also
|
|
makes it an alias for the variable @var{current-name}. It is
|
|
equivalent to the following:
|
|
|
|
@example
|
|
(defvaralias @var{obsolete-name} @var{current-name} @var{docstring})
|
|
(make-obsolete-variable @var{obsolete-name} @var{current-name} @var{when})
|
|
@end example
|
|
@end defmac
|
|
|
|
@defun indirect-variable variable
|
|
This function returns the variable at the end of the chain of aliases
|
|
of @var{variable}. If @var{variable} is not a symbol, or if @var{variable} is
|
|
not defined as an alias, the function returns @var{variable}.
|
|
|
|
This function signals a @code{cyclic-variable-indirection} error if
|
|
there is a loop in the chain of symbols.
|
|
@end defun
|
|
|
|
@example
|
|
(defvaralias 'foo 'bar)
|
|
(indirect-variable 'foo)
|
|
@result{} bar
|
|
(indirect-variable 'bar)
|
|
@result{} bar
|
|
(setq bar 2)
|
|
bar
|
|
@result{} 2
|
|
@group
|
|
foo
|
|
@result{} 2
|
|
@end group
|
|
(setq foo 0)
|
|
bar
|
|
@result{} 0
|
|
foo
|
|
@result{} 0
|
|
@end example
|
|
|
|
@node Variables with Restricted Values
|
|
@section Variables with Restricted Values
|
|
|
|
Ordinary Lisp variables can be assigned any value that is a valid
|
|
Lisp object. However, certain Lisp variables are not defined in Lisp,
|
|
but in C. Most of these variables are defined in the C code using
|
|
@code{DEFVAR_LISP}. Like variables defined in Lisp, these can take on
|
|
any value. However, some variables are defined using
|
|
@code{DEFVAR_INT} or @code{DEFVAR_BOOL}. @xref{Defining Lisp
|
|
variables in C,, Writing Emacs Primitives}, in particular the
|
|
description of functions of the type @code{syms_of_@var{filename}},
|
|
for a brief discussion of the C implementation.
|
|
|
|
Variables of type @code{DEFVAR_BOOL} can only take on the values
|
|
@code{nil} or @code{t}. Attempting to assign them any other value
|
|
will set them to @code{t}:
|
|
|
|
@example
|
|
(let ((display-hourglass 5))
|
|
display-hourglass)
|
|
@result{} t
|
|
@end example
|
|
|
|
@defvar byte-boolean-vars
|
|
This variable holds a list of all variables of type @code{DEFVAR_BOOL}.
|
|
@end defvar
|
|
|
|
Variables of type @code{DEFVAR_INT} can only take on integer values.
|
|
Attempting to assign them any other value will result in an error:
|
|
|
|
@example
|
|
(setq window-min-height 5.0)
|
|
@error{} Wrong type argument: integerp, 5.0
|
|
@end example
|
|
|
|
@ignore
|
|
arch-tag: 5ff62c44-2b51-47bb-99d4-fea5aeec5d3e
|
|
@end ignore
|