The @deffn
command and the other definition commands
enable you to describe functions, variables, macros, commands, user
options, special forms and other such artifacts in a uniform
format.
In the Info file, a definition causes the entity
category---`Function', `Variable', or whatever--to appear at the
beginning of the first line of the definition, followed by the
entity's name and arguments. In the printed manual, the command
causes TeX to print the entity's name and its arguments on the left
margin and print the category next to the right margin. In both
output formats, the body of the definition is indented. Also, the
name of the entity is entered into the appropriate index:
@deffn
enters the name into the index of functions,
@defvr
enters it into the index of variables, and so
on.
A manual need not and should not contain more than one definition for
a given name. An appendix containing a summary should use
@table
rather than the definition commands.
The @deffn
command is used for definitions of entities that
resemble functions. To write a definition using the @deffn
command, write the @deffn
command at the beginning of a line
and follow it on the same line by the category of the entity, the name
of the entity itself, and its arguments (if any). Then write the body
of the definition on succeeding lines. (You may embed examples in the
body.) Finally, end the definition with an @end deffn
command
written on a line of its own. (The other definition commands follow
the same format.)
The template for a definition looks like this:
@deffn category name arguments... body-of-definition @end deffn
For example,
@deffn Command forward-word count This command moves point forward @var{count} words (or backward if @var{count} is negative). ... @end deffn
produces
- Command: forward-word count
- This function moves point forward count words (or backward if count is negative). ...
Capitalize the category name like a title. If the name of the category contains spaces, as in the phrase `Interactive Command', write braces around it. For example:
@deffn {Interactive Command} isearch-forward ... @end deffn
Otherwise, the second word will be mistaken for the name of the entity.
Some of the definition commands are more general than others. The
@deffn
command, for example, is the general definition command
for functions and the like--for entities that may take arguments. When
you use this command, you specify the category to which the entity
belongs. The @deffn
command possesses three predefined,
specialized variations, @defun
, @defmac
, and
@defspec
, that specify the category for you: "Function",
"Macro", and "Special Form" respectively. The @defvr
command also is accompanied by several predefined, specialized
variations for describing particular kinds of variables.
The template for a specialized definition, such as @defun
, is
similar to the template for a generalized definition, except that you
do not need to specify the category:
@defun name arguments... body-of-definition @end defun
Thus,
@defun buffer-end flag This function returns @code{(point-min)} if @var{flag} is less than 1, @code{(point-max)} otherwise. ... @end defun
produces
- Function: buffer-end flag
- This function returns
(point-min)
if flag is less than 1,(point-max)
otherwise. ...
See section A Sample Function Definition, for a more detailed example of a function
definition, including the use of @example
inside the
definition.
The other specialized commands work like @defun
.
Some entities take optional or repeated arguments, which may be specified by a distinctive glyph that uses square brackets and ellipses. For example, a special form often breaks its argument list into separate arguments in more complicated ways than a straightforward function.
An argument enclosed within square brackets is optional.
Thus, the phrase
`[optional-arg]
' means that
optional-arg is optional.
An argument followed by an ellipsis is optional
and may be repeated more than once.
Thus, `repeated-args...' stands for zero or more arguments.
Parentheses are used when several arguments are grouped
into additional levels of list structure in Lisp.
Here is the @defspec
line of an example of an imaginary
special form:
- Special Form: foobar (var [from to [inc]]) body...
In this example, the arguments from and to are optional, but must both be present or both absent. If they are present, inc may optionally be specified as well. These arguments are grouped with the argument var into a list, to distinguish them from body, which includes all remaining elements of the form.
In a Texinfo source file, this @defspec
line is written like
this (except it would not be split over two lines, as it is in this
example).
@defspec foobar (@var{var} [@var{from} @var{to} [@var{inc}]]) @var{body}@dots{}
The function is listed in the Command and Variable Index under `foobar'.
To create two or more `first' or header lines for a definition, follow
the first @deffn
line by a line beginning with @deffnx
.
The @deffnx
command works exactly like @deffn
except that it does not generate extra vertical white space between it
and the preceding line.
For example,
@deffn {Interactive Command} isearch-forward @deffnx {Interactive Command} isearch-backward These two search commands are similar except ... @end deffn
produces
Each of the other definition commands has an `x' form: @defunx
,
@defvrx
, @deftypefunx
, etc.
The `x' forms work just like @itemx
; see section @itemx
.
Texinfo provides more than a dozen definition commands, all of which are described in this section.
The definition commands automatically enter the name of the entity in
the appropriate index: for example, @deffn
, @defun
,
and @defmac
enter function names in the index of functions;
@defvr
and @defvar
enter variable names in the index
of variables.
Although the examples that follow mostly illustrate Lisp, the commands can be used for other programming languages.
This section describes the commands for describing functions and similar entities:
@deffn category name arguments...
@deffn
command is the general definition command for
functions, interactive commands, and similar entities that may take
arguments. You must choose a term to describe the category of entity
being defined; for example, "Function" could be used if the entity is
a function. The @deffn
command is written at the beginning of a
line and is followed on the same line by the category of entity being
described, the name of this particular entity, and its arguments, if
any. Terminate the definition with @end deffn
on a line of its
own.
For example, here is a definition:
@deffn Command forward-char nchars Move point forward @var{nchars} characters. @end deffnThis shows a rather terse definition for a "command" named
forward-char
with one argument, nchars.
@deffn
prints argument names such as nchars in italics or
upper case, as if @var
had been used, because we think of these
names as metasyntactic variables--they stand for the actual argument
values. Within the text of the description, write an argument name
explicitly with @var
to refer to the value of the argument. In
the example above, we used `@var{nchars}' in this way.
The template for @deffn
is:
@deffn category name arguments... body-of-definition @end deffn
@defun name arguments...
@defun
command is the definition command for functions.
@defun
is equivalent to `@deffn Function
...'.
For example,
@defun set symbol new-value Change the value of the symbol @var{symbol} to @var{new-value}. @end defunshows a rather terse definition for a function
set
whose
arguments are symbol and new-value. The argument names on
the @defun
line automatically appear in italics or upper case as
if they were enclosed in @var
. Terminate the definition with
@end defun
on a line of its own.
The template is:
@defun function-name arguments... body-of-definition @end defun
@defun
creates an entry in the index of functions.
@defmac name arguments...
@defmac
command is the definition command for macros.
@defmac
is equivalent to `@deffn Macro ...' and
works like @defun
.
@defspec name arguments...
@defspec
command is the definition command for special
forms. (In Lisp, a special form is an entity much like a function.)
@defspec
is equivalent to `@deffn {Special Form}
...' and works like @defun
.Here are the commands for defining variables and similar entities:
@defvr category name
@defvr
command is a general definition command for
something like a variable--an entity that records a value. You must
choose a term to describe the category of entity being defined; for
example, "Variable" could be used if the entity is a variable.
Write the @defvr
command at the beginning of a line and
followed it on the same line by the category of the entity and the
name of the entity.
Capitalize the category name like a title. If the name of the
category contains spaces, as in the name `User Option', write braces
around it. Otherwise, the second word will be mistaken for the name
of the entity, for example:
@defvr {User Option} fill-column This buffer-local variable specifies the maximum width of filled lines. ... @end defvrTerminate the definition with
@end defvr
on a line of its
own.
The template is:
@defvr category name body-of-definition @end defvr
@defvr
creates an entry in the index of variables for name.
@defvar name
@defvar
command is the definition command for variables.
@defvar
is equivalent to `@defvr Variable
...'.
For example:
@defvar kill-ring ... @end defvarThe template is:
@defvar name body-of-definition @end defvar
@defvar
creates an entry in the index of variables for
name.
@defopt name
@defopt
command is the definition command for user
options. @defopt
is equivalent to `@defvr {User
Option} ...' and works like @defvar
.
The @deftypefn
command and its variations are for describing
functions in C or any other language in which you must declare types
of variables and functions.
@deftypefn category data-type name arguments...
@deftypefn
command is the general definition command for
functions and similar entities that may take arguments and that are
typed. The @deftypefn
command is written at the beginning of
a line and is followed on the same line by the category of entity
being described, the type of the returned value, the name of this
particular entity, and its arguments, if any.
For example,
@deftypefn {Library Function} int foobar (int @var{foo}, float @var{bar}) ... @end deftypefn(where the text before the "...", shown above as two lines, would actually be a single line in a real Texinfo file) produces the following in Info:
-- Library Function: int foobar (int FOO, float BAR) ...In a printed manual, it produces:
This means that
- Library Function: int foobar (int foo, float bar)
- ...
foobar
is a "library function" that returns an
int
, and its arguments are foo (an int
) and
bar (a float
).
The argument names that you write in @deftypefn
are not subject
to an implicit @var
---since the actual names of the arguments in
@deftypefn
are typically scattered among data type names and
keywords, Texinfo cannot find them without help. Instead, you must write
@var
explicitly around the argument names. In the example
above, the argument names are `foo' and `bar'.
The template for @deftypefn
is:
@deftypefn category data-type name arguments ... body-of-description @end deftypefnNote that if the category or data type is more than one word then it must be enclosed in braces to make it a single argument. If you are describing a procedure in a language that has packages, such as Ada, you might consider using
@deftypefn
in a manner
somewhat contrary to the convention described in the preceding
paragraphs.
For example:
@deftypefn stacks private push (@var{s}:in out stack; @var{n}:in integer) ... @end deftypefn(The
@deftypefn
arguments are shown split into three lines, but
would be a single line in a real Texinfo file.)
In this instance, the procedure is classified as belonging to the
package stacks
rather than classified as a `procedure' and its
data type is described as private
. (The name of the procedure
is push
, and its arguments are s and n.)
@deftypefn
creates an entry in the index of functions for
name.
@deftypefun data-type name arguments...
@deftypefun
command is the specialized definition command
for functions in typed languages. The command is equivalent to
`@deftypefn Function ...'.
Thus,
@deftypefun int foobar (int @var{foo}, float @var{bar}) ... @end deftypefunproduces the following in Info:
-- Function: int foobar (int FOO, float BAR) ...and the following in a printed manual:
The template is:
- Function: int foobar (int foo, float bar)
- ...
@deftypefun type name arguments... body-of-description @end deftypefun
@deftypefun
creates an entry in the index of functions for
name.
Variables in typed languages are handled in a manner similar to
functions in typed languages. See section Functions in Typed Languages. The general
definition command @deftypevr
corresponds to
@deftypefn
and the specialized definition command
@deftypevar
corresponds to @deftypefun
.
@deftypevr category data-type name
@deftypevr
command is the general definition command for
something like a variable in a typed language--an entity that records
a value. You must choose a term to describe the category of the
entity being defined; for example, "Variable" could be used if the
entity is a variable.
The @deftypevr
command is written at the beginning of a line
and is followed on the same line by the category of the entity
being described, the data type, and the name of this particular
entity.
For example:
@deftypevr {Global Flag} int enable ... @end deftypevrproduces the following in Info:
-- Global Flag: int enable ...and the following in a printed manual:
The template is:
- Global Flag: int enable
- ...
@deftypevr category data-type name body-of-description @end deftypevr
@deftypevr
creates an entry in the index of variables for
name.
@deftypevar data-type name
@deftypevar
command is the specialized definition command
for variables in typed languages. @deftypevar
is equivalent
to `@deftypevr Variable ...'.
For example:
@deftypevar int fubar ... @end deftypevarproduces the following in Info:
-- Variable: int fubar ...and the following in a printed manual:
The template is:
- Variable: int fubar
- ...
@deftypevar data-type name body-of-description @end deftypevar
@deftypevar
creates an entry in the index of variables for
name.Here are the commands for formatting descriptions about abstract objects, such as are used in object-oriented programming. A class is a defined type of abstract object. An instance of a class is a particular object that has the type of the class. An instance variable is a variable that belongs to the class but for which each instance has its own value.
In a definition, if the name of a class is truly a name defined in the
programming system for a class, then you should write an @code
around it. Otherwise, it is printed in the usual text font.
@defcv category class name
@defcv
command is the general definition command for
variables associated with classes in object-oriented programming. The
@defcv
command is followed by three arguments: the category of
thing being defined, the class to which it belongs, and its
name. Thus,
@defcv {Class Option} Window border-pattern ... @end defcvillustrates how you would write the first line of a definition of the
border-pattern
class option of the class Window
.
The template is
@defcv category class name ... @end defcv
@defcv
creates an entry in the index of variables.
@defivar class name
@defivar
command is the definition command for instance
variables in object-oriented programming. @defivar
is
equivalent to `@defcv {Instance Variable} ...'
The template is:
@defivar class instance-variable-name body-of-definition @end defivar
@defivar
creates an entry in the index of variables.
@defop category class name arguments...
@defop
command is the general definition command for
entities that may resemble methods in object-oriented programming.
These entities take arguments, as functions do, but are associated
with particular classes of objects.
For example, some systems have constructs called wrappers that
are associated with classes as methods are, but that act more like
macros than like functions. You could use @defop Wrapper
to
describe one of these.
Sometimes it is useful to distinguish methods and operations.
You can think of an operation as the specification for a method.
Thus, a window system might specify that all window classes have a
method named expose
; we would say that this window system
defines an expose
operation on windows in general. Typically,
the operation has a name and also specifies the pattern of arguments;
all methods that implement the operation must accept the same
arguments, since applications that use the operation do so without
knowing which method will implement it.
Often it makes more sense to document operations than methods. For
example, window application developers need to know about the
expose
operation, but need not be concerned with whether a
given class of windows has its own method to implement this operation.
To describe this operation, you would write:
@defop Operation windows exposeThe
@defop
command is written at the beginning of a line and
is followed on the same line by the overall name of the category of
operation, the name of the class of the operation, the name of the
operation, and its arguments, if any.
The template is:
@defop category class name arguments... body-of-definition @end defop
@defop
creates an entry, such as `expose
on
windows
', in the index of functions.
@defmethod class name arguments...
@defmethod
command is the definition command for methods
in object-oriented programming. A method is a kind of function that
implements an operation for a particular class of objects and its
subclasses. In the Lisp Machine, methods actually were functions, but
they were usually defined with defmethod
.
@defmethod
is equivalent to `@defop Method ...'.
The command is written at the beginning of a line and is followed by
the name of the class of the method, the name of the method, and its
arguments, if any.
For example,
@defmethod bar-class
bar-method argument
...
@end defmethod
illustrates the definition for a method called bar-method
of
the class bar-class
. The method takes an argument.
The template is:
@defmethod class method-name arguments... body-of-definition @end defmethod
@defmethod
creates an entry, such as `bar-method
on
bar-class
', in the index of functions.Here is the command for data types:
@deftp category name attributes...
@deftp
command is the generic definition command for data
types. The command is written at the beginning of a line and is
followed on the same line by the category, by the name of the type
(which is a word like int
or float
), and then by names of
attributes of objects of that type. Thus, you could use this command
for describing int
or float
, in which case you could use
data type
as the category. (A data type is a category of
certain objects for purposes of deciding which operations can be
performed on them.)
In Lisp, for example, pair names a particular data
type, and an object of that type has two slots called the
CAR and the CDR. Here is how you would write the first line
of a definition of pair
.
@deftp {Data type} pair car cdr ... @end deftpThe template is:
@deftp category name-of-type attributes... body-of-definition @end deftp
@deftp
creates an entry in the index of data types.
When you write a definition using @deffn
, @defun
, or
one of the other definition commands, please take care to use
arguments that indicate the meaning, as with the count argument
to the forward-word
function. Also, if the name of an argument
contains the name of a type, such as integer, take care that the
argument actually is of that type.
A function definition uses the @defun
and @end defun
commands. The name of the function follows immediately after the
@defun
command and it is followed, on the same line, by the
parameter list.
Here is a definition from The GNU Emacs Lisp Reference Manual. (See section `Calling Functions' in The GNU Emacs Lisp Reference Manual.)
- Function: apply function &rest arguments
apply
calls function with arguments, just likefuncall
but with one difference: the last of arguments is a list of arguments to give to function, rather than a single argument. We also say that this list is appended to the other arguments.
apply
returns the result of calling function. As withfuncall
, function must either be a Lisp function or a primitive function; special forms and macros do not make sense inapply
.(setq f 'list) => list (apply f 'x 'y 'z) error--> Wrong type argument: listp, z (apply '+ 1 2 '(3 4)) => 10 (apply '+ '(1 2 3 4)) => 10 (apply 'append '((a b c) nil (x y z) nil)) => (a b c x y z)An interesting example of using
apply
is found in the description ofmapcar
.
In the Texinfo source file, this example looks like this:
@defun apply function &rest arguments @code{apply} calls @var{function} with @var{arguments}, just like @code{funcall} but with one difference: the last of @var{arguments} is a list of arguments to give to @var{function}, rather than a single argument. We also say that this list is @dfn{appended} to the other arguments. @code{apply} returns the result of calling @var{function}. As with @code{funcall}, @var{function} must either be a Lisp function or a primitive function; special forms and macros do not make sense in @code{apply}. @example (setq f 'list) @result{} list (apply f 'x 'y 'z) @error{} Wrong type argument: listp, z (apply '+ 1 2 '(3 4)) @result{} 10 (apply '+ '(1 2 3 4)) @result{} 10 (apply 'append '((a b c) nil (x y z) nil)) @result{} (a b c x y z) @end example An interesting example of using @code{apply} is found in the description of @code{mapcar}.@refill @end defun
In this manual, this function is listed in the Command and Variable
Index under apply
.
Ordinary variables and user options are described using a format like that for functions except that variables do not take arguments.
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