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1007 lines
36 KiB
Plaintext
@c -*-texinfo-*-
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@c This is part of the GNU Emacs Lisp Reference Manual.
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@c Copyright (C) 1990, 1991, 1992, 1993, 1994, 1995, 1998 Free Software Foundation, Inc.
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@c See the file elisp.texi for copying conditions.
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@setfilename ../info/syntax
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@node Syntax Tables, Abbrevs, Searching and Matching, Top
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@chapter Syntax Tables
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@cindex parsing
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@cindex syntax table
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@cindex text parsing
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A @dfn{syntax table} specifies the syntactic textual function of each
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character. This information is used by the @dfn{parsing functions}, the
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complex movement commands, and others to determine where words, symbols,
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and other syntactic constructs begin and end. The current syntax table
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controls the meaning of the word motion functions (@pxref{Word Motion})
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and the list motion functions (@pxref{List Motion}), as well as the
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functions in this chapter.
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@menu
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* Basics: Syntax Basics. Basic concepts of syntax tables.
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* Desc: Syntax Descriptors. How characters are classified.
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* Syntax Table Functions:: How to create, examine and alter syntax tables.
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* Syntax Properties:: Overriding syntax with text properties.
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* Motion and Syntax:: Moving over characters with certain syntaxes.
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* Parsing Expressions:: Parsing balanced expressions
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using the syntax table.
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* Standard Syntax Tables:: Syntax tables used by various major modes.
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* Syntax Table Internals:: How syntax table information is stored.
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* Categories:: Another way of classifying character syntax.
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@end menu
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@node Syntax Basics
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@section Syntax Table Concepts
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@ifinfo
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A @dfn{syntax table} provides Emacs with the information that
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determines the syntactic use of each character in a buffer. This
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information is used by the parsing commands, the complex movement
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commands, and others to determine where words, symbols, and other
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syntactic constructs begin and end. The current syntax table controls
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the meaning of the word motion functions (@pxref{Word Motion}) and the
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list motion functions (@pxref{List Motion}) as well as the functions in
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this chapter.
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@end ifinfo
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A syntax table is a char-table (@pxref{Char-Tables}). The element at
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index @var{c} describes the character with code @var{c}. The element's
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value should be a list that encodes the syntax of the character in
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question.
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Syntax tables are used only for moving across text, not for the Emacs
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Lisp reader. Emacs Lisp uses built-in syntactic rules when reading Lisp
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expressions, and these rules cannot be changed. (Some Lisp systems
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provide ways to redefine the read syntax, but we decided to leave this
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feature out of Emacs Lisp for simplicity.)
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Each buffer has its own major mode, and each major mode has its own
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idea of the syntactic class of various characters. For example, in Lisp
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mode, the character @samp{;} begins a comment, but in C mode, it
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terminates a statement. To support these variations, Emacs makes the
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choice of syntax table local to each buffer. Typically, each major
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mode has its own syntax table and installs that table in each buffer
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that uses that mode. Changing this table alters the syntax in all
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those buffers as well as in any buffers subsequently put in that mode.
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Occasionally several similar modes share one syntax table.
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@xref{Example Major Modes}, for an example of how to set up a syntax
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table.
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A syntax table can inherit the data for some characters from the
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standard syntax table, while specifying other characters itself. The
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``inherit'' syntax class means ``inherit this character's syntax from
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the standard syntax table.'' Just changing the standard syntax for a
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character affects all syntax tables that inherit from it.
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@defun syntax-table-p object
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This function returns @code{t} if @var{object} is a syntax table.
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@end defun
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@node Syntax Descriptors
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@section Syntax Descriptors
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@cindex syntax classes
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This section describes the syntax classes and flags that denote the
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syntax of a character, and how they are represented as a @dfn{syntax
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descriptor}, which is a Lisp string that you pass to
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@code{modify-syntax-entry} to specify the syntax you want.
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The syntax table specifies a syntax class for each character. There
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is no necessary relationship between the class of a character in one
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syntax table and its class in any other table.
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Each class is designated by a mnemonic character, which serves as the
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name of the class when you need to specify a class. Usually the
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designator character is one that is often assigned that class; however,
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its meaning as a designator is unvarying and independent of what syntax
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that character currently has. Thus, @samp{\} as a designator character
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always gives ``escape character'' syntax, regardless of what syntax
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@samp{\} currently has.
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@cindex syntax descriptor
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A syntax descriptor is a Lisp string that specifies a syntax class, a
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matching character (used only for the parenthesis classes) and flags.
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The first character is the designator for a syntax class. The second
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character is the character to match; if it is unused, put a space there.
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Then come the characters for any desired flags. If no matching
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character or flags are needed, one character is sufficient.
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For example, the syntax descriptor for the character @samp{*} in C
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mode is @samp{@w{. 23}} (i.e., punctuation, matching character slot
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unused, second character of a comment-starter, first character of a
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comment-ender), and the entry for @samp{/} is @samp{@w{. 14}} (i.e.,
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punctuation, matching character slot unused, first character of a
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comment-starter, second character of a comment-ender).
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@menu
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* Syntax Class Table:: Table of syntax classes.
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* Syntax Flags:: Additional flags each character can have.
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@end menu
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@node Syntax Class Table
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@subsection Table of Syntax Classes
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Here is a table of syntax classes, the characters that stand for them,
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their meanings, and examples of their use.
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@deffn {Syntax class} @w{whitespace character}
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@dfn{Whitespace characters} (designated by @w{@samp{@ }} or @samp{-})
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separate symbols and words from each other. Typically, whitespace
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characters have no other syntactic significance, and multiple whitespace
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characters are syntactically equivalent to a single one. Space, tab,
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newline and formfeed are classified as whitespace in almost all major
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modes.
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@end deffn
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@deffn {Syntax class} @w{word constituent}
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@dfn{Word constituents} (designated by @samp{w}) are parts of normal
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English words and are typically used in variable and command names in
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programs. All upper- and lower-case letters, and the digits, are typically
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word constituents.
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@end deffn
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@deffn {Syntax class} @w{symbol constituent}
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@dfn{Symbol constituents} (designated by @samp{_}) are the extra
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characters that are used in variable and command names along with word
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constituents. For example, the symbol constituents class is used in
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Lisp mode to indicate that certain characters may be part of symbol
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names even though they are not part of English words. These characters
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are @samp{$&*+-_<>}. In standard C, the only non-word-constituent
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character that is valid in symbols is underscore (@samp{_}).
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@end deffn
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@deffn {Syntax class} @w{punctuation character}
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@dfn{Punctuation characters} (designated by @samp{.}) are those
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characters that are used as punctuation in English, or are used in some
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way in a programming language to separate symbols from one another.
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Most programming language modes, including Emacs Lisp mode, have no
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characters in this class since the few characters that are not symbol or
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word constituents all have other uses.
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@end deffn
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@deffn {Syntax class} @w{open parenthesis character}
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@deffnx {Syntax class} @w{close parenthesis character}
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@cindex parenthesis syntax
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Open and close @dfn{parenthesis characters} are characters used in
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dissimilar pairs to surround sentences or expressions. Such a grouping
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is begun with an open parenthesis character and terminated with a close.
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Each open parenthesis character matches a particular close parenthesis
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character, and vice versa. Normally, Emacs indicates momentarily the
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matching open parenthesis when you insert a close parenthesis.
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@xref{Blinking}.
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The class of open parentheses is designated by @samp{(}, and that of
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close parentheses by @samp{)}.
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In English text, and in C code, the parenthesis pairs are @samp{()},
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@samp{[]}, and @samp{@{@}}. In Emacs Lisp, the delimiters for lists and
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vectors (@samp{()} and @samp{[]}) are classified as parenthesis
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characters.
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@end deffn
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@deffn {Syntax class} @w{string quote}
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@dfn{String quote characters} (designated by @samp{"}) are used in
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many languages, including Lisp and C, to delimit string constants. The
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same string quote character appears at the beginning and the end of a
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string. Such quoted strings do not nest.
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The parsing facilities of Emacs consider a string as a single token.
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The usual syntactic meanings of the characters in the string are
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suppressed.
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The Lisp modes have two string quote characters: double-quote (@samp{"})
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and vertical bar (@samp{|}). @samp{|} is not used in Emacs Lisp, but it
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is used in Common Lisp. C also has two string quote characters:
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double-quote for strings, and single-quote (@samp{'}) for character
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constants.
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English text has no string quote characters because English is not a
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programming language. Although quotation marks are used in English,
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we do not want them to turn off the usual syntactic properties of
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other characters in the quotation.
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@end deffn
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@deffn {Syntax class} @w{escape}
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An @dfn{escape character} (designated by @samp{\}) starts an escape
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sequence such as is used in C string and character constants. The
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character @samp{\} belongs to this class in both C and Lisp. (In C, it
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is used thus only inside strings, but it turns out to cause no trouble
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to treat it this way throughout C code.)
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Characters in this class count as part of words if
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@code{words-include-escapes} is non-@code{nil}. @xref{Word Motion}.
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@end deffn
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@deffn {Syntax class} @w{character quote}
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A @dfn{character quote character} (designated by @samp{/}) quotes the
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following character so that it loses its normal syntactic meaning. This
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differs from an escape character in that only the character immediately
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following is ever affected.
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Characters in this class count as part of words if
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@code{words-include-escapes} is non-@code{nil}. @xref{Word Motion}.
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This class is used for backslash in @TeX{} mode.
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@end deffn
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@deffn {Syntax class} @w{paired delimiter}
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@dfn{Paired delimiter characters} (designated by @samp{$}) are like
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string quote characters except that the syntactic properties of the
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characters between the delimiters are not suppressed. Only @TeX{} mode
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uses a paired delimiter presently---the @samp{$} that both enters and
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leaves math mode.
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@end deffn
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@deffn {Syntax class} @w{expression prefix}
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An @dfn{expression prefix operator} (designated by @samp{'}) is used for
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syntactic operators that are considered as part of an expression if they
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appear next to one. In Lisp modes, these characters include the
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apostrophe, @samp{'} (used for quoting), the comma, @samp{,} (used in
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macros), and @samp{#} (used in the read syntax for certain data types).
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@end deffn
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@deffn {Syntax class} @w{comment starter}
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@deffnx {Syntax class} @w{comment ender}
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@cindex comment syntax
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The @dfn{comment starter} and @dfn{comment ender} characters are used in
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various languages to delimit comments. These classes are designated
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by @samp{<} and @samp{>}, respectively.
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English text has no comment characters. In Lisp, the semicolon
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(@samp{;}) starts a comment and a newline or formfeed ends one.
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@end deffn
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@deffn {Syntax class} @w{inherit}
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This syntax class does not specify a particular syntax. It says to look
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in the standard syntax table to find the syntax of this character. The
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designator for this syntax code is @samp{@@}.
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@end deffn
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@deffn {Syntax class} @w{generic comment delimiter}
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A @dfn{generic comment delimiter} character starts or ends a special
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kind of comment. @emph{Any} generic comment delimiter matches
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@emph{any} generic comment delimiter, but they cannot match a comment
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starter or comment ender; generic comment delimiters can only match each
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other.
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This syntax class is primarily meant for use with the
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@code{syntax-table} text property (@pxref{Syntax Properties}). You can
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mark any range of characters as forming a comment, by giving the first
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and last characters of the range @code{syntax-table} properties
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identifying them as generic comment delimiters.
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@end deffn
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@deffn {Syntax class} @w{generic string delimiter}
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A @dfn{generic string delimiter} character starts or ends a string.
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This class differs from the string quote class in that @emph{any}
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generic string delimiter can match any other generic string delimiter;
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but they do not match ordinary string quote characters.
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This syntax class is primarily meant for use with the
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@code{syntax-table} text property (@pxref{Syntax Properties}). You can
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mark any range of characters as forming a string constant, by giving the
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first and last characters of the range @code{syntax-table} properties
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identifying them as generic string delimiters.
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@end deffn
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@node Syntax Flags
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@subsection Syntax Flags
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@cindex syntax flags
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In addition to the classes, entries for characters in a syntax table
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can specify flags. There are seven possible flags, represented by the
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characters @samp{1}, @samp{2}, @samp{3}, @samp{4}, @samp{b}, @samp{n},
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and @samp{p}.
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All the flags except @samp{n} and @samp{p} are used to describe
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multi-character comment delimiters. The digit flags indicate that a
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character can @emph{also} be part of a comment sequence, in addition to
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the syntactic properties associated with its character class. The flags
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are independent of the class and each other for the sake of characters
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such as @samp{*} in C mode, which is a punctuation character, @emph{and}
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the second character of a start-of-comment sequence (@samp{/*}),
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@emph{and} the first character of an end-of-comment sequence
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(@samp{*/}).
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Here is a table of the possible flags for a character @var{c},
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and what they mean:
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@itemize @bullet
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@item
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@samp{1} means @var{c} is the start of a two-character comment-start
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sequence.
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@item
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@samp{2} means @var{c} is the second character of such a sequence.
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@item
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@samp{3} means @var{c} is the start of a two-character comment-end
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sequence.
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@item
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@samp{4} means @var{c} is the second character of such a sequence.
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@item
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@c Emacs 19 feature
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@samp{b} means that @var{c} as a comment delimiter belongs to the
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alternative ``b'' comment style.
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Emacs supports two comment styles simultaneously in any one syntax
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table. This is for the sake of C++. Each style of comment syntax has
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its own comment-start sequence and its own comment-end sequence. Each
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comment must stick to one style or the other; thus, if it starts with
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the comment-start sequence of style ``b'', it must also end with the
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comment-end sequence of style ``b''.
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The two comment-start sequences must begin with the same character; only
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the second character may differ. Mark the second character of the
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``b''-style comment-start sequence with the @samp{b} flag.
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A comment-end sequence (one or two characters) applies to the ``b''
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style if its first character has the @samp{b} flag set; otherwise, it
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applies to the ``a'' style.
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The appropriate comment syntax settings for C++ are as follows:
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@table @asis
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@item @samp{/}
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@samp{124b}
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@item @samp{*}
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@samp{23}
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@item newline
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@samp{>b}
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@end table
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This defines four comment-delimiting sequences:
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@table @asis
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@item @samp{/*}
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This is a comment-start sequence for ``a'' style because the
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second character, @samp{*}, does not have the @samp{b} flag.
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@item @samp{//}
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This is a comment-start sequence for ``b'' style because the second
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character, @samp{/}, does have the @samp{b} flag.
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@item @samp{*/}
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This is a comment-end sequence for ``a'' style because the first
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character, @samp{*}, does not have the @samp{b} flag.
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@item newline
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This is a comment-end sequence for ``b'' style, because the newline
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character has the @samp{b} flag.
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@end table
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@item
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@samp{n} on a comment delimiter character specifies
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that this kind of comment can be nested. For a two-character
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comment delimiter, @samp{n} on either character makes it
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nestable.
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@item
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@c Emacs 19 feature
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@samp{p} identifies an additional ``prefix character'' for Lisp syntax.
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These characters are treated as whitespace when they appear between
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expressions. When they appear within an expression, they are handled
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according to their usual syntax codes.
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The function @code{backward-prefix-chars} moves back over these
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characters, as well as over characters whose primary syntax class is
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prefix (@samp{'}). @xref{Motion and Syntax}.
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@end itemize
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@node Syntax Table Functions
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@section Syntax Table Functions
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In this section we describe functions for creating, accessing and
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altering syntax tables.
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@defun make-syntax-table
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This function creates a new syntax table. It inherits the syntax for
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letters and control characters from the standard syntax table. For
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other characters, the syntax is copied from the standard syntax table.
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Most major mode syntax tables are created in this way.
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@end defun
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@defun copy-syntax-table &optional table
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This function constructs a copy of @var{table} and returns it. If
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@var{table} is not supplied (or is @code{nil}), it returns a copy of the
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current syntax table. Otherwise, an error is signaled if @var{table} is
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not a syntax table.
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@end defun
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@deffn Command modify-syntax-entry char syntax-descriptor &optional table
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This function sets the syntax entry for @var{char} according to
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@var{syntax-descriptor}. The syntax is changed only for @var{table},
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which defaults to the current buffer's syntax table, and not in any
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other syntax table. The argument @var{syntax-descriptor} specifies the
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desired syntax; this is a string beginning with a class designator
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character, and optionally containing a matching character and flags as
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well. @xref{Syntax Descriptors}.
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This function always returns @code{nil}. The old syntax information in
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the table for this character is discarded.
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An error is signaled if the first character of the syntax descriptor is not
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one of the twelve syntax class designator characters. An error is also
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signaled if @var{char} is not a character.
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@example
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@group
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@exdent @r{Examples:}
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;; @r{Put the space character in class whitespace.}
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(modify-syntax-entry ?\ " ")
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@result{} nil
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@end group
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@group
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;; @r{Make @samp{$} an open parenthesis character,}
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;; @r{with @samp{^} as its matching close.}
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(modify-syntax-entry ?$ "(^")
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@result{} nil
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@end group
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@group
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;; @r{Make @samp{^} a close parenthesis character,}
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;; @r{with @samp{$} as its matching open.}
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(modify-syntax-entry ?^ ")$")
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@result{} nil
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@end group
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@group
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;; @r{Make @samp{/} a punctuation character,}
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;; @r{the first character of a start-comment sequence,}
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;; @r{and the second character of an end-comment sequence.}
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;; @r{This is used in C mode.}
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(modify-syntax-entry ?/ ". 14")
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@result{} nil
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|
@end group
|
|
@end example
|
|
@end deffn
|
|
|
|
@defun char-syntax character
|
|
This function returns the syntax class of @var{character}, represented
|
|
by its mnemonic designator character. This returns @emph{only} the
|
|
class, not any matching parenthesis or flags.
|
|
|
|
An error is signaled if @var{char} is not a character.
|
|
|
|
The following examples apply to C mode. The first example shows that
|
|
the syntax class of space is whitespace (represented by a space). The
|
|
second example shows that the syntax of @samp{/} is punctuation. This
|
|
does not show the fact that it is also part of comment-start and -end
|
|
sequences. The third example shows that open parenthesis is in the class
|
|
of open parentheses. This does not show the fact that it has a matching
|
|
character, @samp{)}.
|
|
|
|
@example
|
|
@group
|
|
(string (char-syntax ?\ ))
|
|
@result{} " "
|
|
@end group
|
|
|
|
@group
|
|
(string (char-syntax ?/))
|
|
@result{} "."
|
|
@end group
|
|
|
|
@group
|
|
(string (char-syntax ?\())
|
|
@result{} "("
|
|
@end group
|
|
@end example
|
|
|
|
We use @code{string} to make it easier to see the character returned by
|
|
@code{char-syntax}.
|
|
@end defun
|
|
|
|
@defun set-syntax-table table
|
|
This function makes @var{table} the syntax table for the current buffer.
|
|
It returns @var{table}.
|
|
@end defun
|
|
|
|
@defun syntax-table
|
|
This function returns the current syntax table, which is the table for
|
|
the current buffer.
|
|
@end defun
|
|
|
|
@defmac with-syntax-table @var{table} @var{body}...
|
|
@tindex with-syntax-table
|
|
This macro executes @var{body} using @var{table} as the current syntax
|
|
table. It returns the value of the last form in @var{body}, after
|
|
restoring the old current syntax table.
|
|
|
|
Since each buffer has its own current syntax table, we should make that
|
|
more precise: @code{with-syntax-table} temporarily alters the current
|
|
syntax table of whichever buffer is current at the time the macro
|
|
execution starts. Other buffers are not affected.
|
|
@end defmac
|
|
|
|
@node Syntax Properties
|
|
@section Syntax Properties
|
|
@kindex syntax-table @r{(text property)}
|
|
|
|
When the syntax table is not flexible enough to specify the syntax of a
|
|
language, you can use @code{syntax-table} text properties to override
|
|
the syntax table for specific character occurrences in the buffer.
|
|
@xref{Text Properties}.
|
|
|
|
The valid values of @code{syntax-table} text property are:
|
|
|
|
@table @asis
|
|
@item @var{syntax-table}
|
|
If the property value is a syntax table, that table is used instead of
|
|
the current buffer's syntax table to determine the syntax for this
|
|
occurrence of the character.
|
|
|
|
@item @code{(@var{syntax-code} . @var{matching-char})}
|
|
A cons cell of this format specifies the syntax for this
|
|
occurrence of the character.
|
|
|
|
@item @code{nil}
|
|
If the property is @code{nil}, the character's syntax is determined from
|
|
the current syntax table in the usual way.
|
|
@end table
|
|
|
|
@defvar parse-sexp-lookup-properties
|
|
@tindex parse-sexp-lookup-properties
|
|
If this is non-@code{nil}, the syntax scanning functions pay attention
|
|
to syntax text properties. Otherwise they use only the current syntax
|
|
table.
|
|
@end defvar
|
|
|
|
@node Motion and Syntax
|
|
@section Motion and Syntax
|
|
|
|
This section describes functions for moving across characters that
|
|
have certain syntax classes.
|
|
|
|
@defun skip-syntax-forward syntaxes &optional limit
|
|
This function moves point forward across characters having syntax classes
|
|
mentioned in @var{syntaxes}. It stops when it encounters the end of
|
|
the buffer, or position @var{limit} (if specified), or a character it is
|
|
not supposed to skip.
|
|
|
|
If @var{syntaxes} starts with @samp{^}, then the function skips
|
|
characters whose syntax is @emph{not} in @var{syntaxes}.
|
|
|
|
The return value is the distance traveled, which is a nonnegative
|
|
integer.
|
|
@end defun
|
|
|
|
@defun skip-syntax-backward syntaxes &optional limit
|
|
This function moves point backward across characters whose syntax
|
|
classes are mentioned in @var{syntaxes}. It stops when it encounters
|
|
the beginning of the buffer, or position @var{limit} (if specified), or
|
|
a character it is not supposed to skip.
|
|
|
|
If @var{syntaxes} starts with @samp{^}, then the function skips
|
|
characters whose syntax is @emph{not} in @var{syntaxes}.
|
|
|
|
The return value indicates the distance traveled. It is an integer that
|
|
is zero or less.
|
|
@end defun
|
|
|
|
@defun backward-prefix-chars
|
|
This function moves point backward over any number of characters with
|
|
expression prefix syntax. This includes both characters in the
|
|
expression prefix syntax class, and characters with the @samp{p} flag.
|
|
@end defun
|
|
|
|
@node Parsing Expressions
|
|
@section Parsing Balanced Expressions
|
|
|
|
Here are several functions for parsing and scanning balanced
|
|
expressions, also known as @dfn{sexps}, in which parentheses match in
|
|
pairs. The syntax table controls the interpretation of characters, so
|
|
these functions can be used for Lisp expressions when in Lisp mode and
|
|
for C expressions when in C mode. @xref{List Motion}, for convenient
|
|
higher-level functions for moving over balanced expressions.
|
|
|
|
@defun parse-partial-sexp start limit &optional target-depth stop-before state stop-comment
|
|
This function parses a sexp in the current buffer starting at
|
|
@var{start}, not scanning past @var{limit}. It stops at position
|
|
@var{limit} or when certain criteria described below are met, and sets
|
|
point to the location where parsing stops. It returns a value
|
|
describing the status of the parse at the point where it stops.
|
|
|
|
If @var{state} is @code{nil}, @var{start} is assumed to be at the top
|
|
level of parenthesis structure, such as the beginning of a function
|
|
definition. Alternatively, you might wish to resume parsing in the
|
|
middle of the structure. To do this, you must provide a @var{state}
|
|
argument that describes the initial status of parsing.
|
|
|
|
@cindex parenthesis depth
|
|
If the third argument @var{target-depth} is non-@code{nil}, parsing
|
|
stops if the depth in parentheses becomes equal to @var{target-depth}.
|
|
The depth starts at 0, or at whatever is given in @var{state}.
|
|
|
|
If the fourth argument @var{stop-before} is non-@code{nil}, parsing
|
|
stops when it comes to any character that starts a sexp. If
|
|
@var{stop-comment} is non-@code{nil}, parsing stops when it comes to the
|
|
start of a comment. If @var{stop-comment} is the symbol
|
|
@code{syntax-table}, parsing stops after the start of a comment or a
|
|
string, or the end of a comment or a string, whichever comes first.
|
|
|
|
@cindex parse state
|
|
The fifth argument @var{state} is a nine-element list of the same form
|
|
as the value of this function, described below. (It is OK to omit the
|
|
last element of the nine.) The return value of one call may be used to
|
|
initialize the state of the parse on another call to
|
|
@code{parse-partial-sexp}.
|
|
|
|
The result is a list of nine elements describing the final state of
|
|
the parse:
|
|
|
|
@enumerate 0
|
|
@item
|
|
The depth in parentheses, counting from 0.
|
|
|
|
@item
|
|
@cindex innermost containing parentheses
|
|
The character position of the start of the innermost parenthetical
|
|
grouping containing the stopping point; @code{nil} if none.
|
|
|
|
@item
|
|
@cindex previous complete subexpression
|
|
The character position of the start of the last complete subexpression
|
|
terminated; @code{nil} if none.
|
|
|
|
@item
|
|
@cindex inside string
|
|
Non-@code{nil} if inside a string. More precisely, this is the
|
|
character that will terminate the string, or @code{t} if a generic
|
|
string delimiter character should terminate it.
|
|
|
|
@item
|
|
@cindex inside comment
|
|
@code{t} if inside a comment (of either style),
|
|
or the comment nesting level if inside a kind of comment
|
|
that can be nested.
|
|
|
|
@item
|
|
@cindex quote character
|
|
@code{t} if point is just after a quote character.
|
|
|
|
@item
|
|
The minimum parenthesis depth encountered during this scan.
|
|
|
|
@item
|
|
What kind of comment is active: @code{nil} for a comment of style ``a'',
|
|
@code{t} for a comment of style ``b'', and @code{syntax-table} for
|
|
a comment that should be ended by a generic comment delimiter character.
|
|
|
|
@item
|
|
The string or comment start position. While inside a comment, this is
|
|
the position where the comment began; while inside a string, this is the
|
|
position where the string began. When outside of strings and comments,
|
|
this element is @code{nil}.
|
|
@end enumerate
|
|
|
|
Elements 0, 3, 4, 5 and 7 are significant in the argument @var{state}.
|
|
|
|
@cindex indenting with parentheses
|
|
This function is most often used to compute indentation for languages
|
|
that have nested parentheses.
|
|
@end defun
|
|
|
|
@defun scan-lists from count depth
|
|
This function scans forward @var{count} balanced parenthetical groupings
|
|
from position @var{from}. It returns the position where the scan stops.
|
|
If @var{count} is negative, the scan moves backwards.
|
|
|
|
If @var{depth} is nonzero, parenthesis depth counting begins from that
|
|
value. The only candidates for stopping are places where the depth in
|
|
parentheses becomes zero; @code{scan-lists} counts @var{count} such
|
|
places and then stops. Thus, a positive value for @var{depth} means go
|
|
out @var{depth} levels of parenthesis.
|
|
|
|
Scanning ignores comments if @code{parse-sexp-ignore-comments} is
|
|
non-@code{nil}.
|
|
|
|
If the scan reaches the beginning or end of the buffer (or its
|
|
accessible portion), and the depth is not zero, an error is signaled.
|
|
If the depth is zero but the count is not used up, @code{nil} is
|
|
returned.
|
|
@end defun
|
|
|
|
@defun scan-sexps from count
|
|
This function scans forward @var{count} sexps from position @var{from}.
|
|
It returns the position where the scan stops. If @var{count} is
|
|
negative, the scan moves backwards.
|
|
|
|
Scanning ignores comments if @code{parse-sexp-ignore-comments} is
|
|
non-@code{nil}.
|
|
|
|
If the scan reaches the beginning or end of (the accessible part of) the
|
|
buffer while in the middle of a parenthetical grouping, an error is
|
|
signaled. If it reaches the beginning or end between groupings but
|
|
before count is used up, @code{nil} is returned.
|
|
@end defun
|
|
|
|
@defvar parse-sexp-ignore-comments
|
|
@cindex skipping comments
|
|
If the value is non-@code{nil}, then comments are treated as
|
|
whitespace by the functions in this section and by @code{forward-sexp}.
|
|
|
|
In older Emacs versions, this feature worked only when the comment
|
|
terminator is something like @samp{*/}, and appears only to end a
|
|
comment. In languages where newlines terminate comments, it was
|
|
necessary make this variable @code{nil}, since not every newline is the
|
|
end of a comment. This limitation no longer exists.
|
|
@end defvar
|
|
|
|
You can use @code{forward-comment} to move forward or backward over
|
|
one comment or several comments.
|
|
|
|
@defun forward-comment count
|
|
This function moves point forward across @var{count} comments (backward,
|
|
if @var{count} is negative). If it finds anything other than a comment
|
|
or whitespace, it stops, leaving point at the place where it stopped.
|
|
It also stops after satisfying @var{count}.
|
|
@end defun
|
|
|
|
To move forward over all comments and whitespace following point, use
|
|
@code{(forward-comment (buffer-size))}. @code{(buffer-size)} is a good
|
|
argument to use, because the number of comments in the buffer cannot
|
|
exceed that many.
|
|
|
|
@node Standard Syntax Tables
|
|
@section Some Standard Syntax Tables
|
|
|
|
Most of the major modes in Emacs have their own syntax tables. Here
|
|
are several of them:
|
|
|
|
@defun standard-syntax-table
|
|
This function returns the standard syntax table, which is the syntax
|
|
table used in Fundamental mode.
|
|
@end defun
|
|
|
|
@defvar text-mode-syntax-table
|
|
The value of this variable is the syntax table used in Text mode.
|
|
@end defvar
|
|
|
|
@defvar c-mode-syntax-table
|
|
The value of this variable is the syntax table for C-mode buffers.
|
|
@end defvar
|
|
|
|
@defvar emacs-lisp-mode-syntax-table
|
|
The value of this variable is the syntax table used in Emacs Lisp mode
|
|
by editing commands. (It has no effect on the Lisp @code{read}
|
|
function.)
|
|
@end defvar
|
|
|
|
@node Syntax Table Internals
|
|
@section Syntax Table Internals
|
|
@cindex syntax table internals
|
|
|
|
Lisp programs don't usually work with the elements directly; the
|
|
Lisp-level syntax table functions usually work with syntax descriptors
|
|
(@pxref{Syntax Descriptors}). Nonetheless, here we document the
|
|
internal format.
|
|
|
|
Each element of a syntax table is a cons cell of the form
|
|
@code{(@var{syntax-code} . @var{matching-char})}. The @sc{car},
|
|
@var{syntax-code}, is an integer that encodes the syntax class, and any
|
|
flags. The @sc{cdr}, @var{matching-char}, is non-@code{nil} if
|
|
a character to match was specified.
|
|
|
|
This table gives the value of @var{syntax-code} which corresponds
|
|
to each syntactic type.
|
|
|
|
@multitable @columnfractions .05 .3 .3 .3
|
|
@item
|
|
@tab
|
|
@i{Integer} @i{Class}
|
|
@tab
|
|
@i{Integer} @i{Class}
|
|
@tab
|
|
@i{Integer} @i{Class}
|
|
@item
|
|
@tab
|
|
0 @ @ whitespace
|
|
@tab
|
|
5 @ @ close parenthesis
|
|
@tab
|
|
10 @ @ character quote
|
|
@item
|
|
@tab
|
|
1 @ @ punctuation
|
|
@tab
|
|
6 @ @ expression prefix
|
|
@tab
|
|
11 @ @ comment-start
|
|
@item
|
|
@tab
|
|
2 @ @ word
|
|
@tab
|
|
7 @ @ string quote
|
|
@tab
|
|
12 @ @ comment-end
|
|
@item
|
|
@tab
|
|
3 @ @ symbol
|
|
@tab
|
|
8 @ @ paired delimiter
|
|
@tab
|
|
13 @ @ inherit
|
|
@item
|
|
@tab
|
|
4 @ @ open parenthesis
|
|
@tab
|
|
9 @ @ escape
|
|
@tab
|
|
14 @ @ comment-fence
|
|
@item
|
|
@tab
|
|
15 @ string-fence
|
|
@end multitable
|
|
|
|
For example, the usual syntax value for @samp{(} is @code{(4 . 41)}.
|
|
(41 is the character code for @samp{)}.)
|
|
|
|
The flags are encoded in higher order bits, starting 16 bits from the
|
|
least significant bit. This table gives the power of two which
|
|
corresponds to each syntax flag.
|
|
|
|
@multitable @columnfractions .05 .3 .3 .3
|
|
@item
|
|
@tab
|
|
@i{Prefix} @i{Flag}
|
|
@tab
|
|
@i{Prefix} @i{Flag}
|
|
@tab
|
|
@i{Prefix} @i{Flag}
|
|
@item
|
|
@tab
|
|
@samp{1} @ @ @code{(lsh 1 16)}
|
|
@tab
|
|
@samp{4} @ @ @code{(lsh 1 19)}
|
|
@tab
|
|
@samp{b} @ @ @code{(lsh 1 21)}
|
|
@item
|
|
@tab
|
|
@samp{2} @ @ @code{(lsh 1 17)}
|
|
@tab
|
|
@samp{p} @ @ @code{(lsh 1 20)}
|
|
@tab
|
|
@samp{n} @ @ @code{(lsh 1 22)}
|
|
@item
|
|
@tab
|
|
@samp{3} @ @ @code{(lsh 1 18)}
|
|
@end multitable
|
|
|
|
@node Categories
|
|
@section Categories
|
|
@cindex categories of characters
|
|
|
|
@dfn{Categories} provide an alternate way of classifying characters
|
|
syntactically. You can define several categories as needed, then
|
|
independently assign each character to one or more categories. Unlike
|
|
syntax classes, categories are not mutually exclusive; it is normal for
|
|
one character to belong to several categories.
|
|
|
|
Each buffer has a @dfn{category table} which records which categories
|
|
are defined and also which characters belong to each category. Each
|
|
category table defines its own categories, but normally these are
|
|
initialized by copying from the standard categories table, so that the
|
|
standard categories are available in all modes.
|
|
|
|
Each category has a name, which is an @sc{ascii} printing character in
|
|
the range @w{@samp{ }} to @samp{~}. You specify the name of a category
|
|
when you define it with @code{define-category}.
|
|
|
|
The category table is actually a char-table (@pxref{Char-Tables}).
|
|
The element of the category table at index @var{c} is a @dfn{category
|
|
set}---a bool-vector---that indicates which categories character @var{c}
|
|
belongs to. In this category set, if the element at index @var{cat} is
|
|
@code{t}, that means category @var{cat} is a member of the set, and that
|
|
character @var{c} belongs to category @var{cat}.
|
|
|
|
@defun define-category char docstring &optional table
|
|
This function defines a new category, with name @var{char} and
|
|
documentation @var{docstring}.
|
|
|
|
The new category is defined for category table @var{table}, which
|
|
defaults to the current buffer's category table.
|
|
@end defun
|
|
|
|
@defun category-docstring category &optional table
|
|
This function returns the documentation string of category @var{category}
|
|
in category table @var{table}.
|
|
|
|
@example
|
|
(category-docstring ?a)
|
|
@result{} "ASCII"
|
|
(category-docstring ?l)
|
|
@result{} "Latin"
|
|
@end example
|
|
@end defun
|
|
|
|
@defun get-unused-category table
|
|
This function returns a category name (a character) which is not
|
|
currently defined in @var{table}. If all possible categories are in use
|
|
in @var{table}, it returns @code{nil}.
|
|
@end defun
|
|
|
|
@defun category-table
|
|
This function returns the current buffer's category table.
|
|
@end defun
|
|
|
|
@defun category-table-p object
|
|
This function returns @code{t} if @var{object} is a category table,
|
|
otherwise @code{nil}.
|
|
@end defun
|
|
|
|
@defun standard-category-table
|
|
This function returns the standard category table.
|
|
@end defun
|
|
|
|
@defun copy-category-table &optional table
|
|
This function constructs a copy of @var{table} and returns it. If
|
|
@var{table} is not supplied (or is @code{nil}), it returns a copy of the
|
|
current category table. Otherwise, an error is signaled if @var{table}
|
|
is not a category table.
|
|
@end defun
|
|
|
|
@defun set-category-table table
|
|
This function makes @var{table} the category table for the current
|
|
buffer. It returns @var{table}.
|
|
@end defun
|
|
|
|
@defun make-category-table
|
|
@tindex make-category-table
|
|
This creates and returns an empty category table. In an empty category
|
|
table, no categories have been allocated, and no characters belong to
|
|
any categories.
|
|
@end defun
|
|
|
|
@defun make-category-set categories
|
|
This function returns a new category set---a bool-vector---whose initial
|
|
contents are the categories listed in the string @var{categories}. The
|
|
elements of @var{categories} should be category names; the new category
|
|
set has @code{t} for each of those categories, and @code{nil} for all
|
|
other categories.
|
|
|
|
@example
|
|
(make-category-set "al")
|
|
@result{} #&128"\0\0\0\0\0\0\0\0\0\0\0\0\2\20\0\0"
|
|
@end example
|
|
@end defun
|
|
|
|
@defun char-category-set char
|
|
This function returns the category set for character @var{char}. This
|
|
is the bool-vector which records which categories the character
|
|
@var{char} belongs to. The function @code{char-category-set} does not
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|
allocate storage, because it returns the same bool-vector that exists in
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|
the category table.
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|
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|
@example
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|
(char-category-set ?a)
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|
@result{} #&128"\0\0\0\0\0\0\0\0\0\0\0\0\2\20\0\0"
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|
@end example
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|
@end defun
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|
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|
@defun category-set-mnemonics category-set
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|
This function converts the category set @var{category-set} into a string
|
|
containing the characters that designate the categories that are members
|
|
of the set.
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|
|
|
@example
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|
(category-set-mnemonics (char-category-set ?a))
|
|
@result{} "al"
|
|
@end example
|
|
@end defun
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|
|
|
@defun modify-category-entry character category &optional table reset
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|
This function modifies the category set of @var{character} in category
|
|
table @var{table} (which defaults to the current buffer's category
|
|
table).
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|
|
|
Normally, it modifies the category set by adding @var{category} to it.
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|
But if @var{reset} is non-@code{nil}, then it deletes @var{category}
|
|
instead.
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|
@end defun
|