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Writing Customization Definitions

This chapter describes how to declare user options for customization, and also customization groups for classifying them. We use the term customization item to include both kinds of customization definitions--as well as face definitions (see section Defining Faces).

Common Keywords for All Kinds of Items

All kinds of customization declarations (for variables and groups, and for faces) accept keyword arguments for specifying various information. This section describes some keywords that apply to all kinds.

All of these keywords, except :tag, can be used more than once in a given item. Each use of the keyword has an independent effect. The keyword :tag is an exception because any given item can only display one name.

:tag name

Use name, a string, instead of the item's name, to label the item in customization menus and buffers.

:group group

Put this customization item in group group. When you use :group in a defgroup, it makes the new group a subgroup of group. If you use this keyword more than once, you can put a single item into more than one group. Displaying any of those groups will show this item. Be careful not to overdo this!

:link link-data

Include an external link after the documentation string for this item. This is a sentence containing an active field which references some other documentation. There are three alternatives you can use for link-data:

(custom-manual info-node): Link to an Info node; info-node is a string which specifies the node name, as in "(emacs)Top". The link appears as `[manual]' in the customization buffer.
(info-link info-node): Like custom-manual except that the link appears in the customization buffer with the Info node name.
(url-link url): Link to a web page; url is a string which specifies the URL. The link appears in the customization buffer as url.

You can specify the text to use in the customization buffer by adding :tag name after the first element of the link-data; for example, (info-link :tag "foo" "(emacs)Top") makes a link to the Emacs manual which appears in the buffer as `foo'. An item can have more than one external link; however, most items have none at all.

:load file

Load file file (a string) before displaying this customization item. Loading is done with load-library, and only if the file is not already loaded.

:require feature

Require feature feature (a symbol) when installing a value for this item (an option or a face) that was saved using the customization feature. This is done by calling require. The most common reason to use :require is when a variable enables a feature such as a minor mode, and just setting the variable won't have any effect unless the code which implements the mode is loaded.

Defining Custom Groups

Each Emacs Lisp package should have one main customization group which contains all the options, faces and other groups in the package. If the package has a small number of options and faces, use just one group and put everything in it. When there are more than twelve or so options and faces, then you should structure them into subgroups, and put the subgroups under the package's main customization group. It is OK to put some of the options and faces in the package's main group alongside the subgroups.

The package's main or only group should be a member of one or more of the standard customization groups. (To display the full list of them, use M-x customize.) Choose one or more of them (but not too many), and add your group to each of them using the :group keyword.

The way to declare new customization groups is with defgroup.

Macro: defgroup group members doc [keyword value]...

Declare group as a customization group containing members. Do not quote the symbol group. The argument doc specifies the documentation string for the group.

The argument members is a list specifying an initial set of customization items to be members of the group. However, most often members is nil, and you specify the group's members by using the :group keyword when defining those members.

If you want to specify group members through members, each element should have the form (name widget). Here name is a symbol, and widget is a widget type for editing that symbol. Useful widgets are custom-variable for a variable, custom-face for a face, and custom-group for a group.

In addition to the common keywords (see section Common Keywords for All Kinds of Items), you can use this keyword in defgroup:

:prefix prefix: If the name of an item in the group starts with prefix, then the tag for that item is constructed (by default) by omitting prefix. One group can have any number of prefixes.

The prefix-discarding feature is currently turned off, which means that :prefix currently has no effect. We did this because we found that discarding the specified prefixes often led to confusing names for options. This happened because the people who wrote the defgroup definitions for various groups added :prefix keywords whenever they make logical sense--that is, whenever the variables in the library have a common prefix.

In order to obtain good results with :prefix, it would be necessary to check the specific effects of discarding a particular prefix, given the specific items in a group and their names and documentation. If the resulting text is not clear, then :prefix should not be used in that case.

It should be possible to recheck all the customization groups, delete the :prefix specifications which give unclear results, and then turn this feature back on, if someone would like to do the work.

Defining Customization Variables

Use defcustom to declare user-editable variables.

Macro: defcustom option default doc [keyword value]...

Declare option as a customizable user option variable. Do not quote option. The argument doc specifies the documentation string for the variable.

If option is void, defcustom initializes it to default. default should be an expression to compute the value; be careful in writing it, because it can be evaluated on more than one occasion.

defcustom accepts the following additional keywords:

:type type

Use type as the data type for this option. It specifies which values are legitimate, and how to display the value. See section Customization Types, for more information.

:options list

Specify list as the list of reasonable values for use in this option. Currently this is meaningful only when the type is hook. In that case, the elements of list should be functions that are useful as elements of the hook value. The user is not restricted to using only these functions, but they are offered as convenient alternatives.

:version version

This option specifies that the variable was first introduced, or its default value was changed, in Emacs version version. The value version must be a string. For example,

(defcustom foo-max 34
  "*Maximum number of foo's allowed."
  :type 'integer
  :group 'foo
  :version "20.3")

:set setfunction

Specify setfunction as the way to change the value of this option. The function setfunction should take two arguments, a symbol and the new value, and should do whatever is necessary to update the value properly for this option (which may not mean simply setting the option as a Lisp variable). The default for setfunction is set-default.

:get getfunction

Specify getfunction as the way to extract the value of this option. The function getfunction should take one argument, a symbol, and should return the "current value" for that symbol (which need not be the symbol's Lisp value). The default is default-value.

:initialize function

function should be a function used to initialize the variable when the defcustom is evaluated. It should take two arguments, the symbol and value. Here are some predefined functions meant for use in this way:

custom-initialize-set: Use the variable's :set function to initialize the variable, but do not reinitialize it if it is already non-void. This is the default :initialize function.
custom-initialize-default: Like custom-initialize-set, but use the function set-default to set the variable, instead of the variable's :set function. This is the usual choice for a variable whose :set function enables or disables a minor mode; with this choice, defining the variable will not call the minor mode function, but customizing the variable will do so.
custom-initialize-reset: Always use the :set function to initialize the variable. If the variable is already non-void, reset it by calling the :set function using the current value (returned by the :get method).
custom-initialize-changed: Use the :set function to initialize the variable, if it is already set or has been customized; otherwise, just use set-default.

The :require option is useful for an option that turns on the operation of a certain feature. Assuming that the package is coded to check the value of the option, you still need to arrange for the package to be loaded. You can do that with :require. See section Common Keywords for All Kinds of Items. Here is an example, from the library `paren.el':

(defcustom show-paren-mode nil
  "Toggle Show Paren mode@enddots{}"
  :set (lambda (symbol value)
         (show-paren-mode (or value 0)))
  :initialize 'custom-initialize-default
  :type 'boolean
  :group 'paren-showing
  :require 'paren)

Internally, defcustom uses the symbol property standard-value to record the expression for the default value, and saved-value to record the value saved by the user with the customization buffer. The saved-value property is actually a list whose car is an expression which evaluates to the value.

Customization Types

When you define a user option with defcustom, you must specify its customization type. That is a Lisp object which describes (1) which values are legitimate and (2) how to display the value in the customization buffer for editing.

You specify the customization type in defcustom with the :type keyword. The argument of :type is evaluated; since types that vary at run time are rarely useful, normally you use a quoted constant. For example:

(defcustom diff-command "diff"
  "*The command to use to run diff."
  :type '(string)
  :group 'diff)

In general, a customization type is a list whose first element is a symbol, one of the customization type names defined in the following sections. After this symbol come a number of arguments, depending on the symbol. Between the type symbol and its arguments, you can optionally write keyword-value pairs (see section Type Keywords).

Some of the type symbols do not use any arguments; those are called simple types. For a simple type, if you do not use any keyword-value pairs, you can omit the parentheses around the type symbol. For example just string as a customization type is equivalent to (string).

Simple Types

This section describes all the simple customization types.

sexp: The value may be any Lisp object that can be printed and read back. You can use sexp as a fall-back for any option, if you don't want to take the time to work out a more specific type to use.
integer: The value must be an integer, and is represented textually in the customization buffer.
number: The value must be a number, and is represented textually in the customization buffer.
string: The value must be a string, and the customization buffer shows just the contents, with no delimiting `"' characters and no quoting with `\'.
regexp: Like string except that the string must be a valid regular expression.
character: The value must be a character code. A character code is actually an integer, but this type shows the value by inserting the character in the buffer, rather than by showing the number.
file: The value must be a file name, and you can do completion with M-TAB.
(file :must-match t): The value must be a file name for an existing file, and you can do completion with M-TAB.
directory: The value must be a directory name, and you can do completion with M-TAB.
hook: The value must be a list of functions (or a single function, but that is obsolete usage). This customization type is used for hook variables. You can use the :options keyword in a hook variable's defcustom to specify a list of functions recommended for use in the hook; see section Defining Customization Variables.
symbol: The value must be a symbol. It appears in the customization buffer as the name of the symbol.
function: The value must be either a lambda expression or a function name. When it is a function name, you can do completion with M-TAB.
variable: The value must be a variable name, and you can do completion with M-TAB.
face: The value must be a symbol which is a face name, and you can do completion with M-TAB.
boolean: The value is boolean--either nil or t. Note that by using choice and const together (see the next section), you can specify that the value must be nil or t, but also specify the text to describe each value in a way that fits the specific meaning of the alternative.

Composite Types

When none of the simple types is appropriate, you can use composite types, which build new types from other types. Here are several ways of doing that:

(restricted-sexp :match-alternatives criteria)

The value may be any Lisp object that satisfies one of criteria. criteria should be a list, and each element should be one of these possibilities:

A predicate--that is, a function of one argument that has no side effects, and returns either nil or non-nil according to the argument. Using a predicate in the list says that objects for which the predicate returns non-nil are acceptable.
A quoted constant--that is, 'object. This sort of element in the list says that object itself is an acceptable value.

For example,

(restricted-sexp :match-alternatives
                 (integerp 't 'nil))

allows integers, t and nil as legitimate values. The customization buffer shows all legitimate values using their read syntax, and the user edits them textually.

(cons car-type cdr-type)

The value must be a cons cell, its CAR must fit car-type, and its CDR must fit cdr-type. For example,

(cons string
symbol)

is a customization type which matches values such as ("foo" . foo). In the customization buffer, the CAR and the CDR are displayed and edited separately, each according to the type that you specify for it.

(list element-types...)

The value must be a list with exactly as many elements as the element-types you have specified; and each element must fit the corresponding element-type. For example, (list integer string function) describes a list of three elements; the first element must be an integer, the second a string, and the third a function. In the customization buffer, each element is displayed and edited separately, according to the type specified for it.

(vector element-types...)

Like list except that the value must be a vector instead of a list. The elements work the same as in list.

(choice alternative-types...)

The value must fit at least one of alternative-types. For example, (choice integer string) allows either an integer or a string. In the customization buffer, the user selects one of the alternatives using a menu, and can then edit the value in the usual way for that alternative. Normally the strings in this menu are determined automatically from the choices; however, you can specify different strings for the menu by including the :tag keyword in the alternatives. For example, if an integer stands for a number of spaces, while a string is text to use verbatim, you might write the customization type this way,

(choice (integer :tag "Number of spaces")
        (string :tag "Literal text"))

so that the menu offers `Number of spaces' and `Literal Text'. In any alternative for which nil is not a valid value, other than a const, you should specify a valid default for that alternative using the :value keyword. See section Type Keywords.

(const value)

The value must be value---nothing else is allowed. The main use of const is inside of choice. For example, (choice integer (const nil)) allows either an integer or nil. :tag is often used with const, inside of choice. For example,

(choice (const :tag "Yes" t)
        (const :tag "No" nil)
        (const :tag "Ask" foo))

describes a variable for which t means yes, nil means no, and foo means "ask."

(other value)

This alternative can match any Lisp value, but if the user chooses this alternative, that selects the value value. The main use of other is as the last element of choice. For example,

(choice (const :tag "Yes" t)
        (const :tag "No" nil)
        (other :tag "Ask" foo))

describes a variable for which t means yes, nil means no, and anything else means "ask." If the user chooses `Ask' from the menu of alternatives, that specifies the value foo; but any other value (not t, nil or foo) displays as `Ask', just like foo.

(function-item function)

Like const, but used for values which are functions. This displays the documentation string as well as the function name. The documentation string is either the one you specify with :doc, or function's own documentation string.

(variable-item variable)

Like const, but used for values which are variable names. This displays the documentation string as well as the variable name. The documentation string is either the one you specify with :doc, or variable's own documentation string.

(set elements...)

The value must be a list and each element of the list must be one of the elements specified. This appears in the customization buffer as a checklist.

(repeat element-type)

The value must be a list and each element of the list must fit the type element-type. This appears in the customization buffer as a list of elements, with `[INS]' and `[DEL]' buttons for adding more elements or removing elements.

Splicing into Lists

The :inline feature lets you splice a variable number of elements into the middle of a list or vector. You use it in a set, choice or repeat type which appears among the element-types of a list or vector.

Normally, each of the element-types in a list or vector describes one and only one element of the list or vector. Thus, if an element-type is a repeat, that specifies a list of unspecified length which appears as one element.

But when the element-type uses :inline, the value it matches is merged directly into the containing sequence. For example, if it matches a list with three elements, those become three elements of the overall sequence. This is analogous to using `,@' in the backquote construct.

For example, to specify a list whose first element must be t and whose remaining arguments should be zero or more of foo and bar, use this customization type:

(list (const t) (set :inline t foo bar))

This matches values such as (t), (t foo), (t bar) and (t foo bar).

When the element-type is a choice, you use :inline not in the choice itself, but in (some of) the alternatives of the choice. For example, to match a list which must start with a file name, followed either by the symbol t or two strings, use this customization type:

(list file
      (choice (const t)
              (list :inline t string string)))

If the user chooses the first alternative in the choice, then the overall list has two elements and the second element is t. If the user chooses the second alternative, then the overall list has three elements and the second and third must be strings.

Type Keywords

You can specify keyword-argument pairs in a customization type after the type name symbol. Here are the keywords you can use, and their meanings:

:value default

This is used for a type that appears as an alternative inside of choice; it specifies the default value to use, at first, if and when the user selects this alternative with the menu in the customization buffer. Of course, if the actual value of the option fits this alternative, it will appear showing the actual value, not default. If nil is not a valid value for the alternative, then it is essential to specify a valid default with :value.

:format format-string

This string will be inserted in the buffer to represent the value corresponding to the type. The following `%' escapes are available for use in format-string:

`%[button%]': Display the text button marked as a button. The :action attribute specifies what the button will do if the user invokes it; its value is a function which takes two arguments--the widget which the button appears in, and the event. There is no way to specify two different buttons with different actions.
`%{sample%}': Show sample in a special face specified by :sample-face.
`%v': Substitute the item's value. How the value is represented depends on the kind of item, and (for variables) on the customization type.
`%d': Substitute the item's documentation string.
`%h': Like `%d', but if the documentation string is more than one line, add an active field to control whether to show all of it or just the first line.
`%t': Substitute the tag here. You specify the tag with the :tag keyword.
`%%': Display a literal `%'.

:action action

Perform action if the user clicks on a button.

:button-face face

Use the face face (a face name or a list of face names) for button text displayed with `%[...%]'.

:button-prefix prefix

:button-suffix suffix

These specify the text to display before and after a button. Each can be:

nil: No text is inserted.
a string: The string is inserted literally.
a symbol: The symbol's value is used.

:tag tag

Use tag (a string) as the tag for the value (or part of the value) that corresponds to this type.

:doc doc

Use doc as the documentation string for this value (or part of the value) that corresponds to this type. In order for this to work, you must specify a value for :format, and use `%d' or `%h' in that value. The usual reason to specify a documentation string for a type is to provide more information about the meanings of alternatives inside a :choice type or the parts of some other composite type.

:help-echo motion-doc

When you move to this item with widget-forward or widget-backward, it will display the string motion-doc in the echo area.

:match function

Specify how to decide whether a value matches the type. The corresponding value, function, should be a function that accepts two arguments, a widget and a value; it should return non-nil if the value is acceptable.

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