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698 lines
27 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) 1998 Free Software Foundation, Inc.
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@c See the file elisp.texi for copying conditions.
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@setfilename ../info/advising
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@node Advising Functions, Debugging, Byte Compilation, Top
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@chapter Advising Emacs Lisp Functions
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@cindex advising functions
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The @dfn{advice} feature lets you add to the existing definition of a
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function, by @dfn{advising the function}. This is a clean method for a
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library to customize functions defined by other parts of Emacs---cleaner
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than redefining the whole function.
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@cindex piece of advice
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Each function can have multiple @dfn{pieces of advice}, separately
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defined. Each defined piece of advice can be enabled or disabled
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explicitly. The enabled pieces of advice for any given function
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actually take effect when you @dfn{activate} advice for that function, or when
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that function is subsequently defined or redefined.
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@strong{Usage Note:} Advice is useful for altering the behavior of
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existing calls to an existing function. If you want the new behavior
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for new calls, or for key bindings, it is cleaner to define a new
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function (or a new command) which uses the existing function.
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@menu
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* Simple Advice:: A simple example to explain the basics of advice.
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* Defining Advice:: Detailed description of @code{defadvice}.
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* Around-Advice:: Wrapping advice around a function's definition.
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* Computed Advice:: ...is to @code{defadvice} as @code{fset} is to @code{defun}.
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* Activation of Advice:: Advice doesn't do anything until you activate it.
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* Enabling Advice:: You can enable or disable each piece of advice.
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* Preactivation:: Preactivation is a way of speeding up the
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loading of compiled advice.
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* Argument Access in Advice:: How advice can access the function's arguments.
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* Subr Arguments:: Accessing arguments when advising a primitive.
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* Combined Definition:: How advice is implemented.
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@end menu
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@node Simple Advice
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@section A Simple Advice Example
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The command @code{next-line} moves point down vertically one or more
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lines; it is the standard binding of @kbd{C-n}. When used on the last
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line of the buffer, this command inserts a newline to create a line to
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move to (if @code{next-line-add-newlines} is non-@code{nil}).
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Suppose you wanted to add a similar feature to @code{previous-line},
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which would insert a new line at the beginning of the buffer for the
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command to move to. How could you do this?
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You could do it by redefining the whole function, but that is not
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modular. The advice feature provides a cleaner alternative: you can
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effectively add your code to the existing function definition, without
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actually changing or even seeing that definition. Here is how to do
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this:
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@example
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(defadvice previous-line (before next-line-at-end (arg))
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"Insert an empty line when moving up from the top line."
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(if (and next-line-add-newlines (= arg 1)
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(save-excursion (beginning-of-line) (bobp)))
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(progn
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(beginning-of-line)
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(newline))))
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@end example
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This expression defines a @dfn{piece of advice} for the function
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@code{previous-line}. This piece of advice is named
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@code{next-line-at-end}, and the symbol @code{before} says that it is
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@dfn{before-advice} which should run before the regular definition of
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@code{previous-line}. @code{(arg)} specifies how the advice code can
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refer to the function's arguments.
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When this piece of advice runs, it creates an additional line, in the
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situation where that is appropriate, but does not move point to that
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line. This is the correct way to write the advice, because the normal
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definition will run afterward and will move back to the newly inserted
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line.
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Defining the advice doesn't immediately change the function
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@code{previous-line}. That happens when you @dfn{activate} the advice,
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like this:
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@example
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(ad-activate 'previous-line)
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@end example
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@noindent
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This is what actually begins to use the advice that has been defined so
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far for the function @code{previous-line}. Henceforth, whenever that
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function is run, whether invoked by the user with @kbd{C-p} or
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@kbd{M-x}, or called from Lisp, it runs the advice first, and its
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regular definition second.
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This example illustrates before-advice, which is one @dfn{class} of
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advice: it runs before the function's base definition. There are two
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other advice classes: @dfn{after-advice}, which runs after the base
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definition, and @dfn{around-advice}, which lets you specify an
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expression to wrap around the invocation of the base definition.
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@node Defining Advice
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@section Defining Advice
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@cindex defining advice
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@cindex advice, defining
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To define a piece of advice, use the macro @code{defadvice}. A call
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to @code{defadvice} has the following syntax, which is based on the
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syntax of @code{defun} and @code{defmacro}, but adds more:
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@findex defadvice
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@example
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(defadvice @var{function} (@var{class} @var{name}
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@r{[}@var{position}@r{]} @r{[}@var{arglist}@r{]}
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@var{flags}...)
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@r{[}@var{documentation-string}@r{]}
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@r{[}@var{interactive-form}@r{]}
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@var{body-forms}...)
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@end example
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@noindent
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Here, @var{function} is the name of the function (or macro or special
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form) to be advised. From now on, we will write just ``function'' when
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describing the entity being advised, but this always includes macros and
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special forms.
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@cindex class of advice
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@cindex before-advice
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@cindex after-advice
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@cindex around-advice
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@var{class} specifies the @dfn{class} of the advice---one of @code{before},
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@code{after}, or @code{around}. Before-advice runs before the function
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itself; after-advice runs after the function itself; around-advice is
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wrapped around the execution of the function itself. After-advice and
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around-advice can override the return value by setting
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@code{ad-return-value}.
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@defvar ad-return-value
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While advice is executing, after the function's original definition has
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been executed, this variable holds its return value, which will
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ultimately be returned to the caller after finishing all the advice.
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After-advice and around-advice can arrange to return some other value
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by storing it in this variable.
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@end defvar
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The argument @var{name} is the name of the advice, a non-@code{nil}
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symbol. The advice name uniquely identifies one piece of advice, within all
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the pieces of advice in a particular class for a particular
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@var{function}. The name allows you to refer to the piece of
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advice---to redefine it, or to enable or disable it.
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In place of the argument list in an ordinary definition, an advice
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definition calls for several different pieces of information.
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The optional @var{position} specifies where, in the current list of
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advice of the specified @var{class}, this new advice should be placed.
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It should be either @code{first}, @code{last} or a number that specifies
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a zero-based position (@code{first} is equivalent to 0). If no position
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is specified, the default is @code{first}. Position values outside the
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range of existing positions in this class are mapped to the beginning or
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the end of the range, whichever is closer. The @var{position} value is
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ignored when redefining an existing piece of advice.
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The optional @var{arglist} can be used to define the argument list for
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the sake of advice. This becomes the argument list of the combined
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definition that is generated in order to run the advice (@pxref{Combined
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Definition}). Therefore, the advice expressions can use the argument
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variables in this list to access argument values.
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This argument list must be compatible with the argument list of the
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original function, so that it can handle the ways the function is
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actually called. If more than one piece of advice specifies an argument
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list, then the first one (the one with the smallest position) found in
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the list of all classes of advice is used.
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The remaining elements, @var{flags}, are symbols that specify further
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information about how to use this piece of advice. Here are the valid
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symbols and their meanings:
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@table @code
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@item activate
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Activate the advice for @var{function} now. Changes in a function's
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advice always take effect the next time you activate advice for the
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function; this flag says to do so, for @var{function}, immediately after
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defining this piece of advice.
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@cindex forward advice
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This flag has no effect if @var{function} itself is not defined yet (a
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situation known as @dfn{forward advice}), because it is impossible to
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activate an undefined function's advice. However, defining
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@var{function} will automatically activate its advice.
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@item protect
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Protect this piece of advice against non-local exits and errors in
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preceding code and advice. Protecting advice places it as a cleanup in
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an @code{unwind-protect} form, so that it will execute even if the
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previous code gets an error or uses @code{throw}. @xref{Cleanups}.
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@item compile
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Compile the combined definition that is used to run the advice. This
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flag is ignored unless @code{activate} is also specified.
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@xref{Combined Definition}.
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@item disable
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Initially disable this piece of advice, so that it will not be used
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unless subsequently explicitly enabled. @xref{Enabling Advice}.
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@item preactivate
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Activate advice for @var{function} when this @code{defadvice} is
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compiled or macroexpanded. This generates a compiled advised definition
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according to the current advice state, which will be used during
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activation if appropriate.
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This is useful only if this @code{defadvice} is byte-compiled.
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@end table
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The optional @var{documentation-string} serves to document this piece of
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advice. When advice is active for @var{function}, the documentation for
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@var{function} (as returned by @code{documentation}) combines the
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documentation strings of all the advice for @var{function} with the
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documentation string of its original function definition.
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The optional @var{interactive-form} form can be supplied to change the
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interactive behavior of the original function. If more than one piece
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of advice has an @var{interactive-form}, then the first one (the one
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with the smallest position) found among all the advice takes precedence.
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The possibly empty list of @var{body-forms} specifies the body of the
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advice. The body of an advice can access or change the arguments, the
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return value, the binding environment, and perform any other kind of
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side effect.
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@strong{Warning:} When you advise a macro, keep in mind that macros are
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expanded when a program is compiled, not when a compiled program is run.
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All subroutines used by the advice need to be available when the byte
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compiler expands the macro.
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@node Around-Advice
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@section Around-Advice
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Around-advice lets you ``wrap'' a Lisp expression ``around'' the
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original function definition. You specify where the original function
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definition should go by means of the special symbol @code{ad-do-it}.
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Where this symbol occurs inside the around-advice body, it is replaced
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with a @code{progn} containing the forms of the surrounded code. Here
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is an example:
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@example
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(defadvice foo (around foo-around)
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"Ignore case in `foo'."
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(let ((case-fold-search t))
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ad-do-it))
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@end example
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@noindent
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Its effect is to make sure that case is ignored in
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searches when the original definition of @code{foo} is run.
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@defvar ad-do-it
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This is not really a variable, but it is somewhat used like one
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in around-advice. It specifies the place to run the function's
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original definition and other ``earlier'' around-advice.
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@end defvar
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If the around-advice does not use @code{ad-do-it}, then it does not run
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the original function definition. This provides a way to override the
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original definition completely. (It also overrides lower-positioned
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pieces of around-advice).
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@node Computed Advice
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@section Computed Advice
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The macro @code{defadvice} resembles @code{defun} in that the code for
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the advice, and all other information about it, are explicitly stated in
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the source code. You can also create advice whose details are computed,
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using the function @code{ad-add-advice}.
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@defun ad-add-advice function advice class position
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Calling @code{ad-add-advice} adds @var{advice} as a piece of advice to
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@var{function} in class @var{class}. The argument @var{advice} has
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this form:
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@example
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(@var{name} @var{protected} @var{enabled} @var{definition})
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@end example
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Here @var{protected} and @var{enabled} are flags, and @var{definition}
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is the expression that says what the advice should do. If @var{enabled}
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is @code{nil}, this piece of advice is initially disabled
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(@pxref{Enabling Advice}).
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If @var{function} already has one or more pieces of advice in the
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specified @var{class}, then @var{position} specifies where in the list
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to put the new piece of advice. The value of @var{position} can either
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be @code{first}, @code{last}, or a number (counting from 0 at the
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beginning of the list). Numbers outside the range are mapped to the
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closest extreme position.
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If @var{function} already has a piece of @var{advice} with the same
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name, then the position argument is ignored and the old advice is
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replaced with the new one.
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@end defun
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@node Activation of Advice
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@section Activation of Advice
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@cindex activating advice
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@cindex advice, activating
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By default, advice does not take effect when you define it---only when
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you @dfn{activate} advice for the function that was advised. You can
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request the activation of advice for a function when you define the
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advice, by specifying the @code{activate} flag in the @code{defadvice}.
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But normally you activate the advice for a function by calling the
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function @code{ad-activate} or one of the other activation commands
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listed below.
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Separating the activation of advice from the act of defining it permits
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you to add several pieces of advice to one function efficiently, without
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redefining the function over and over as each advice is added. More
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importantly, it permits defining advice for a function before that
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function is actually defined.
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When a function's advice is first activated, the function's original
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definition is saved, and all enabled pieces of advice for that function
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are combined with the original definition to make a new definition.
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(Pieces of advice that are currently disabled are not used; see
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@ref{Enabling Advice}.) This definition is installed, and optionally
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byte-compiled as well, depending on conditions described below.
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In all of the commands to activate advice, if @var{compile} is @code{t},
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the command also compiles the combined definition which implements the
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advice.
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@deffn Command ad-activate function &optional compile
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This command activates the advice for @var{function}.
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@end deffn
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To activate advice for a function whose advice is already active is not
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a no-op. It is a useful operation which puts into effect any changes in
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that function's advice since the previous activation of advice for that
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function.
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@deffn Command ad-deactivate function
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This command deactivates the advice for @var{function}.
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@cindex deactivating advice
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@cindex advice, deactivating
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@end deffn
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@deffn Command ad-activate-all &optional compile
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This command activates the advice for all functions.
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@end deffn
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@deffn Command ad-deactivate-all
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This command deactivates the advice for all functions.
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@end deffn
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@deffn Command ad-activate-regexp regexp &optional compile
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This command activates all pieces of advice whose names match
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@var{regexp}. More precisely, it activates all advice for any function
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which has at least one piece of advice that matches @var{regexp}.
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@end deffn
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@deffn Command ad-deactivate-regexp regexp
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This command deactivates all pieces of advice whose names match
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@var{regexp}. More precisely, it deactivates all advice for any
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function which has at least one piece of advice that matches
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@var{regexp}.
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@end deffn
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@deffn Command ad-update-regexp regexp &optional compile
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This command activates pieces of advice whose names match @var{regexp},
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but only those for functions whose advice is already activated.
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@cindex reactivating advice
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Reactivating a function's advice is useful for putting into effect all
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the changes that have been made in its advice (including enabling and
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disabling specific pieces of advice; @pxref{Enabling Advice}) since the
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last time it was activated.
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@end deffn
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@deffn Command ad-start-advice
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Turn on automatic advice activation when a function is defined or
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redefined. If you turn on this mode, then advice really does
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take effect immediately when defined.
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@end deffn
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@deffn Command ad-stop-advice
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Turn off automatic advice activation when a function is defined or
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redefined.
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@end deffn
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@defopt ad-default-compilation-action
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This variable controls whether to compile the combined definition
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that results from activating advice for a function.
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@end defopt
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If the advised definition was constructed during ``preactivation''
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(@pxref{Preactivation}), then that definition must already be compiled,
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because it was constructed during byte-compilation of the file that
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contained the @code{defadvice} with the @code{preactivate} flag.
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@node Enabling Advice
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@section Enabling and Disabling Advice
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@cindex enabling advice
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@cindex advice, enabling and disabling
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@cindex disabling advice
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Each piece of advice has a flag that says whether it is enabled or
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not. By enabling or disabling a piece of advice, you can turn it on
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and off without having to undefine and redefine it. For example, here is
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how to disable a particular piece of advice named @code{my-advice} for
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the function @code{foo}:
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@example
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(ad-disable-advice 'foo 'before 'my-advice)
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@end example
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This function by itself only changes the enable flag for a piece of
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advice. To make the change take effect in the advised definition, you
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must activate the advice for @code{foo} again:
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@example
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(ad-activate 'foo)
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@end example
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@deffn Command ad-disable-advice function class name
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This command disables the piece of advice named @var{name} in class
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@var{class} on @var{function}.
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@end deffn
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@deffn Command ad-enable-advice function class name
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This command enables the piece of advice named @var{name} in class
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@var{class} on @var{function}.
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@end deffn
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You can also disable many pieces of advice at once, for various
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functions, using a regular expression. As always, the changes take real
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effect only when you next reactivate advice for the functions in
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question.
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@deffn Command ad-disable-regexp regexp
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This command disables all pieces of advice whose names match
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@var{regexp}, in all classes, on all functions.
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@end deffn
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@deffn Command ad-enable-regexp regexp
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This command enables all pieces of advice whose names match
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@var{regexp}, in all classes, on all functions.
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@end deffn
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@node Preactivation
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@section Preactivation
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@cindex preactivating advice
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@cindex advice, preactivating
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Constructing a combined definition to execute advice is moderately
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expensive. When a library advises many functions, this can make loading
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the library slow. In that case, you can use @dfn{preactivation} to
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construct suitable combined definitions in advance.
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To use preactivation, specify the @code{preactivate} flag when you
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define the advice with @code{defadvice}. This @code{defadvice} call
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creates a combined definition which embodies this piece of advice
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(whether enabled or not) plus any other currently enabled advice for the
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same function, and the function's own definition. If the
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@code{defadvice} is compiled, that compiles the combined definition
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also.
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When the function's advice is subsequently activated, if the enabled
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advice for the function matches what was used to make this combined
|
|
definition, then the existing combined definition is used, thus avoiding
|
|
the need to construct one. Thus, preactivation never causes wrong
|
|
results---but it may fail to do any good, if the enabled advice at the
|
|
time of activation doesn't match what was used for preactivation.
|
|
|
|
Here are some symptoms that can indicate that a preactivation did not
|
|
work properly, because of a mismatch.
|
|
|
|
@itemize @bullet
|
|
@item
|
|
Activation of the advised
|
|
function takes longer than usual.
|
|
@item
|
|
The byte-compiler gets
|
|
loaded while an advised function gets activated.
|
|
@item
|
|
@code{byte-compile} is included in the value of @code{features} even
|
|
though you did not ever explicitly use the byte-compiler.
|
|
@end itemize
|
|
|
|
Compiled preactivated advice works properly even if the function itself
|
|
is not defined until later; however, the function needs to be defined
|
|
when you @emph{compile} the preactivated advice.
|
|
|
|
There is no elegant way to find out why preactivated advice is not being
|
|
used. What you can do is to trace the function
|
|
@code{ad-cache-id-verification-code} (with the function
|
|
@code{trace-function-background}) before the advised function's advice
|
|
is activated. After activation, check the value returned by
|
|
@code{ad-cache-id-verification-code} for that function: @code{verified}
|
|
means that the preactivated advice was used, while other values give
|
|
some information about why they were considered inappropriate.
|
|
|
|
@strong{Warning:} There is one known case that can make preactivation
|
|
fail, in that a preconstructed combined definition is used even though
|
|
it fails to match the current state of advice. This can happen when two
|
|
packages define different pieces of advice with the same name, in the
|
|
same class, for the same function. But you should avoid that anyway.
|
|
|
|
@node Argument Access in Advice
|
|
@section Argument Access in Advice
|
|
|
|
The simplest way to access the arguments of an advised function in the
|
|
body of a piece of advice is to use the same names that the function
|
|
definition uses. To do this, you need to know the names of the argument
|
|
variables of the original function.
|
|
|
|
While this simple method is sufficient in many cases, it has a
|
|
disadvantage: it is not robust, because it hard-codes the argument names
|
|
into the advice. If the definition of the original function changes,
|
|
the advice might break.
|
|
|
|
Another method is to specify an argument list in the advice itself.
|
|
This avoids the need to know the original function definition's argument
|
|
names, but it has a limitation: all the advice on any particular
|
|
function must use the same argument list, because the argument list
|
|
actually used for all the advice comes from the first piece of advice
|
|
for that function.
|
|
|
|
A more robust method is to use macros that are translated into the
|
|
proper access forms at activation time, i.e., when constructing the
|
|
advised definition. Access macros access actual arguments by position
|
|
regardless of how these actual arguments get distributed onto the
|
|
argument variables of a function. This is robust because in Emacs Lisp
|
|
the meaning of an argument is strictly determined by its position in the
|
|
argument list.
|
|
|
|
@defmac ad-get-arg position
|
|
This returns the actual argument that was supplied at @var{position}.
|
|
@end defmac
|
|
|
|
@defmac ad-get-args position
|
|
This returns the list of actual arguments supplied starting at
|
|
@var{position}.
|
|
@end defmac
|
|
|
|
@defmac ad-set-arg position value
|
|
This sets the value of the actual argument at @var{position} to
|
|
@var{value}
|
|
@end defmac
|
|
|
|
@defmac ad-set-args position value-list
|
|
This sets the list of actual arguments starting at @var{position} to
|
|
@var{value-list}.
|
|
@end defmac
|
|
|
|
Now an example. Suppose the function @code{foo} is defined as
|
|
|
|
@example
|
|
(defun foo (x y &optional z &rest r) ...)
|
|
@end example
|
|
|
|
@noindent
|
|
and is then called with
|
|
|
|
@example
|
|
(foo 0 1 2 3 4 5 6)
|
|
@end example
|
|
|
|
@noindent
|
|
which means that @var{x} is 0, @var{y} is 1, @var{z} is 2 and @var{r} is
|
|
@code{(3 4 5 6)} within the body of @code{foo}. Here is what
|
|
@code{ad-get-arg} and @code{ad-get-args} return in this case:
|
|
|
|
@example
|
|
(ad-get-arg 0) @result{} 0
|
|
(ad-get-arg 1) @result{} 1
|
|
(ad-get-arg 2) @result{} 2
|
|
(ad-get-arg 3) @result{} 3
|
|
(ad-get-args 2) @result{} (2 3 4 5 6)
|
|
(ad-get-args 4) @result{} (4 5 6)
|
|
@end example
|
|
|
|
Setting arguments also makes sense in this example:
|
|
|
|
@example
|
|
(ad-set-arg 5 "five")
|
|
@end example
|
|
|
|
@noindent
|
|
has the effect of changing the sixth argument to @code{"five"}. If this
|
|
happens in advice executed before the body of @code{foo} is run, then
|
|
@var{r} will be @code{(3 4 "five" 6)} within that body.
|
|
|
|
Here is an example of setting a tail of the argument list:
|
|
|
|
@example
|
|
(ad-set-args 0 '(5 4 3 2 1 0))
|
|
@end example
|
|
|
|
@noindent
|
|
If this happens in advice executed before the body of @code{foo} is run,
|
|
then within that body, @var{x} will be 5, @var{y} will be 4, @var{z}
|
|
will be 3, and @var{r} will be @code{(2 1 0)} inside the body of
|
|
@code{foo}.
|
|
|
|
These argument constructs are not really implemented as Lisp macros.
|
|
Instead they are implemented specially by the advice mechanism.
|
|
|
|
@node Subr Arguments
|
|
@section Definition of Subr Argument Lists
|
|
|
|
When the advice facility constructs the combined definition, it needs
|
|
to know the argument list of the original function. This is not always
|
|
possible for primitive functions. When advice cannot determine the
|
|
argument list, it uses @code{(&rest ad-subr-args)}, which always works
|
|
but is inefficient because it constructs a list of the argument values.
|
|
You can use @code{ad-define-subr-args} to declare the proper argument
|
|
names for a primitive function:
|
|
|
|
@defun ad-define-subr-args function arglist
|
|
This function specifies that @var{arglist} should be used as the
|
|
argument list for function @var{function}.
|
|
@end defun
|
|
|
|
For example,
|
|
|
|
@example
|
|
(ad-define-subr-args 'fset '(sym newdef))
|
|
@end example
|
|
|
|
@noindent
|
|
specifies the argument list for the function @code{fset}.
|
|
|
|
@node Combined Definition
|
|
@section The Combined Definition
|
|
|
|
Suppose that a function has @var{n} pieces of before-advice, @var{m}
|
|
pieces of around-advice and @var{k} pieces of after-advice. Assuming no
|
|
piece of advice is protected, the combined definition produced to
|
|
implement the advice for a function looks like this:
|
|
|
|
@example
|
|
(lambda @var{arglist}
|
|
@r{[} @r{[}@var{advised-docstring}@r{]} @r{[}(interactive ...)@r{]} @r{]}
|
|
(let (ad-return-value)
|
|
@r{before-0-body-form}...
|
|
....
|
|
@r{before-@var{n}-1-body-form}...
|
|
@r{around-0-body-form}...
|
|
@r{around-1-body-form}...
|
|
....
|
|
@r{around-@var{m}-1-body-form}...
|
|
(setq ad-return-value
|
|
@r{apply original definition to @var{arglist}})
|
|
@r{other-around-@var{m}-1-body-form}...
|
|
....
|
|
@r{other-around-1-body-form}...
|
|
@r{other-around-0-body-form}...
|
|
@r{after-0-body-form}...
|
|
....
|
|
@r{after-@var{k}-1-body-form}...
|
|
ad-return-value))
|
|
@end example
|
|
|
|
Macros are redefined as macros, which means adding @code{macro} to
|
|
the beginning of the combined definition.
|
|
|
|
The interactive form is present if the original function or some piece
|
|
of advice specifies one. When an interactive primitive function is
|
|
advised, a special method is used: to call the primitive with
|
|
@code{call-interactively} so that it will read its own arguments.
|
|
In this case, the advice cannot access the arguments.
|
|
|
|
The body forms of the various advice in each class are assembled
|
|
according to their specified order. The forms of around-advice @var{l}
|
|
are included in one of the forms of around-advice @var{l} @minus{} 1.
|
|
|
|
The innermost part of the around advice onion is
|
|
|
|
@display
|
|
apply original definition to @var{arglist}
|
|
@end display
|
|
|
|
@noindent
|
|
whose form depends on the type of the original function. The variable
|
|
@code{ad-return-value} is set to whatever this returns. The variable is
|
|
visible to all pieces of advice, which can access and modify it before
|
|
it is actually returned from the advised function.
|
|
|
|
The semantic structure of advised functions that contain protected
|
|
pieces of advice is the same. The only difference is that
|
|
@code{unwind-protect} forms ensure that the protected advice gets
|
|
executed even if some previous piece of advice had an error or a
|
|
non-local exit. If any around-advice is protected, then the whole
|
|
around-advice onion is protected as a result.
|