7442b5ee7a
git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/trunk@52169 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
666 lines
30 KiB
C
666 lines
30 KiB
C
/////////////////////////////////////////////////////////////////////////////
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// Name: resyntax.h
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// Purpose: topic overview
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// Author: wxWidgets team
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// RCS-ID: $Id$
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// Licence: wxWindows license
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/////////////////////////////////////////////////////////////////////////////
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/*!
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@page overview_resyntax Syntax of the Built-in Regular Expression Library
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A <em>regular expression</em> describes strings of characters. It's a pattern
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that matches certain strings and doesn't match others.
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@li @ref overview_resyntax_differentflavors
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@li @ref overview_resyntax_syntax
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@li @ref overview_resyntax_bracket
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@li @ref overview_resyntax_escapes
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@li @ref overview_resyntax_metasyntax
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@li @ref overview_resyntax_matching
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@li @ref overview_resyntax_limits
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@li @ref overview_resyntax_bre
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@li @ref overview_resyntax_characters
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@seealso
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@li wxRegEx
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<hr>
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@section overview_resyntax_differentflavors Different Flavors of Regular Expressions
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Regular expressions (RE), as defined by POSIX, come in two flavors:
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<em>extended regular expressions</em> (ERE) and <em>basic regular
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expressions</em> (BRE). EREs are roughly those of the traditional @e egrep,
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while BREs are roughly those of the traditional @e ed. This implementation
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adds a third flavor: <em>advanced regular expressions</em> (ARE), basically
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EREs with some significant extensions.
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This manual page primarily describes AREs. BREs mostly exist for backward
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compatibility in some old programs. POSIX EREs are almost an exact subset of
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AREs. Features of AREs that are not present in EREs will be indicated.
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@section overview_resyntax_syntax Regular Expression Syntax
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These regular expressions are implemented using the package written by Henry
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Spencer, based on the 1003.2 spec and some (not quite all) of the Perl5
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extensions (thanks, Henry!). Much of the description of regular expressions
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below is copied verbatim from his manual entry.
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An ARE is one or more @e branches, separated by "|", matching anything that
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matches any of the branches.
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A branch is zero or more @e constraints or @e quantified atoms, concatenated.
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It matches a match for the first, followed by a match for the second, etc; an
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empty branch matches the empty string.
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A quantified atom is an @e atom possibly followed by a single @e quantifier.
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Without a quantifier, it matches a match for the atom. The quantifiers, and
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what a so-quantified atom matches, are:
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@beginTable
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@row2col{ <tt>*</tt> ,
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A sequence of 0 or more matches of the atom. }
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@row2col{ <tt>+</tt> ,
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A sequence of 1 or more matches of the atom. }
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@row2col{ <tt>?</tt> ,
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A sequence of 0 or 1 matches of the atom. }
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@row2col{ <tt>{m}</tt> ,
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A sequence of exactly @e m matches of the atom. }
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@row2col{ <tt>{m\,}</tt> ,
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A sequence of @e m or more matches of the atom. }
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@row2col{ <tt>{m\,n}</tt> ,
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A sequence of @e m through @e n (inclusive) matches of the atom; @e m may
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not exceed @e n. }
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@row2col{ <tt>*? +? ?? {m}? {m\,}? {m\,n}?</tt> ,
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@e Non-greedy quantifiers, which match the same possibilities, but prefer
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the smallest number rather than the largest number of matches (see
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@ref overview_resyntax_matching). }
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@endTable
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The forms using @b { and @b } are known as @e bounds. The numbers @e m and
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@e n are unsigned decimal integers with permissible values from 0 to 255
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inclusive. An atom is one of:
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@beginTable
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@row2col{ <tt>(re)</tt> ,
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Where @e re is any regular expression, matches for @e re, with the match
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captured for possible reporting. }
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@row2col{ <tt>(?:re)</tt> ,
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As previous, but does no reporting (a "non-capturing" set of
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parentheses). }
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@row2col{ <tt>()</tt> ,
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Matches an empty string, captured for possible reporting. }
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@row2col{ <tt>(?:)</tt> ,
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Matches an empty string, without reporting. }
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@row2col{ <tt>[chars]</tt> ,
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A <em>bracket expression</em>, matching any one of the @e chars (see
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@ref overview_resyntax_bracket for more details). }
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@row2col{ <tt>.</tt> ,
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Matches any single character. }
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@row2col{ <tt>@\k</tt> ,
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Where @e k is a non-alphanumeric character, matches that character taken
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as an ordinary character, e.g. @\@\ matches a backslash character. }
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@row2col{ <tt>@\c</tt> ,
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Where @e c is alphanumeric (possibly followed by other characters), an
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@e escape (AREs only), see @ref overview_resyntax_escapes below. }
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@row2col{ <tt>@leftCurly</tt> ,
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When followed by a character other than a digit, matches the left-brace
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character "@leftCurly"; when followed by a digit, it is the beginning of a
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@e bound (see above). }
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@row2col{ <tt>x</tt> ,
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Where @e x is a single character with no other significance, matches that
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character. }
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@endTable
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A @e constraint matches an empty string when specific conditions are met. A
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constraint may not be followed by a quantifier. The simple constraints are as
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follows; some more constraints are described later, under
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@ref overview_resyntax_escapes.
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@beginTable
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@row2col{ <tt>^</tt> ,
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Matches at the beginning of a line. }
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@row2col{ <tt>@$</tt> ,
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Matches at the end of a line. }
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@row2col{ <tt>(?=re)</tt> ,
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@e Positive lookahead (AREs only), matches at any point where a substring
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matching @e re begins. }
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@row2col{ <tt>(?!re)</tt> ,
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@e Negative lookahead (AREs only), matches at any point where no substring
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matching @e re begins. }
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@endTable
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The lookahead constraints may not contain back references (see later), and all
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parentheses within them are considered non-capturing. A RE may not end with
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"\".
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@section overview_resyntax_bracket Bracket Expressions
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A <em>bracket expression</em> is a list of characters enclosed in <tt>[]</tt>.
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It normally matches any single character from the list (but see below). If the
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list begins with @c ^, it matches any single character (but see below) @e not
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from the rest of the list.
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If two characters in the list are separated by <tt>-</tt>, this is shorthand
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for the full @e range of characters between those two (inclusive) in the
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collating sequence, e.g. <tt>[0-9]</tt> in ASCII matches any decimal digit.
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Two ranges may not share an endpoint, so e.g. <tt>a-c-e</tt> is illegal.
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Ranges are very collating-sequence-dependent, and portable programs should
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avoid relying on them.
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To include a literal <tt>]</tt> or <tt>-</tt> in the list, the simplest method
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is to enclose it in <tt>[.</tt> and <tt>.]</tt> to make it a collating element
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(see below). Alternatively, make it the first character (following a possible
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<tt>^</tt>), or (AREs only) precede it with <tt>@\</tt>. Alternatively, for
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<tt>-</tt>, make it the last character, or the second endpoint of a range. To
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use a literal <tt>-</tt> as the first endpoint of a range, make it a collating
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element or (AREs only) precede it with <tt>@\</tt>. With the exception of
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these, some combinations using <tt>[</tt> (see next paragraphs), and escapes,
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all other special characters lose their special significance within a bracket
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expression.
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Within a bracket expression, a collating element (a character, a
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multi-character sequence that collates as if it were a single character, or a
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collating-sequence name for either) enclosed in <tt>[.</tt> and <tt>.]</tt>
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stands for the sequence of characters of that collating element.
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@e wxWidgets: Currently no multi-character collating elements are defined. So
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in <tt>[.X.]</tt>, @c X can either be a single character literal or the name
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of a character. For example, the following are both identical:
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<tt>[[.0.]-[.9.]]</tt> and <tt>[[.zero.]-[.nine.]]</tt> and mean the same as
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<tt>[0-9]</tt>. See @ref overview_resyntax_characters.
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Within a bracket expression, a collating element enclosed in <tt>[=</tt> and
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<tt>=]</tt> is an equivalence class, standing for the sequences of characters
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of all collating elements equivalent to that one, including itself. An
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equivalence class may not be an endpoint of a range.
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@e wxWidgets: Currently no equivalence classes are defined, so <tt>[=X=]</tt>
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stands for just the single character @c X. @c X can either be a single
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character literal or the name of a character, see
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@ref overview_resyntax_characters.
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Within a bracket expression, the name of a @e character class enclosed in
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<tt>[:</tt> and <tt>:]</tt> stands for the list of all characters (not all
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collating elements!) belonging to that class. Standard character classes are:
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@beginTable
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@row2col{ <tt>alpha</tt> , A letter. }
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@row2col{ <tt>upper</tt> , An upper-case letter. }
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@row2col{ <tt>lower</tt> , A lower-case letter. }
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@row2col{ <tt>digit</tt> , A decimal digit. }
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@row2col{ <tt>xdigit</tt> , A hexadecimal digit. }
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@row2col{ <tt>alnum</tt> , An alphanumeric (letter or digit). }
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@row2col{ <tt>print</tt> , An alphanumeric (same as alnum). }
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@row2col{ <tt>blank</tt> , A space or tab character. }
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@row2col{ <tt>space</tt> , A character producing white space in displayed text. }
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@row2col{ <tt>punct</tt> , A punctuation character. }
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@row2col{ <tt>graph</tt> , A character with a visible representation. }
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@row2col{ <tt>cntrl</tt> , A control character. }
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@endTable
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A character class may not be used as an endpoint of a range.
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@e wxWidgets: In a non-Unicode build, these character classifications depend on
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the current locale, and correspond to the values return by the ANSI C "is"
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functions: <tt>isalpha</tt>, <tt>isupper</tt>, etc. In Unicode mode they are
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based on Unicode classifications, and are not affected by the current locale.
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There are two special cases of bracket expressions: the bracket expressions
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<tt>[[:@<:]]</tt> and <tt>[[:@>:]]</tt> are constraints, matching empty strings at
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the beginning and end of a word respectively. A word is defined as a sequence
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of word characters that is neither preceded nor followed by word characters. A
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word character is an @e alnum character or an underscore (_). These special
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bracket expressions are deprecated; users of AREs should use constraint escapes
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instead (see escapes below).
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@section overview_resyntax_escapes Escapes
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Escapes (AREs only), which begin with a <tt>@\</tt> followed by an alphanumeric
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character, come in several varieties: character entry, class shorthands,
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constraint escapes, and back references. A <tt>@\</tt> followed by an
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alphanumeric character but not constituting a valid escape is illegal in AREs.
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In EREs, there are no escapes: outside a bracket expression, a <tt>@\</tt>
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followed by an alphanumeric character merely stands for that character as an
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ordinary character, and inside a bracket expression, <tt>@\</tt> is an ordinary
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character. (The latter is the one actual incompatibility between EREs and
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AREs.)
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Character-entry escapes (AREs only) exist to make it easier to specify
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non-printing and otherwise inconvenient characters in REs:
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@beginTable
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@row2col{ <tt>@\a</tt> , Alert (bell) character, as in C. }
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@row2col{ <tt>@\b</tt> , Backspace, as in C. }
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@row2col{ <tt>@\B</tt> ,
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Synonym for <tt>@\</tt> to help reduce backslash doubling in some
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applications where there are multiple levels of backslash processing. }
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@row2col{ <tt>@\cX</tt> ,
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The character whose low-order 5 bits are the same as those of @e X, and
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whose other bits are all zero, where @e X is any character. }
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@row2col{ <tt>@\e</tt> ,
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The character whose collating-sequence name is @c ESC, or failing that,
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the character with octal value 033. }
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@row2col{ <tt>@\f</tt> , Formfeed, as in C. }
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@row2col{ <tt>@\n</tt> , Newline, as in C. }
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@row2col{ <tt>@\r</tt> , Carriage return, as in C. }
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@row2col{ <tt>@\t</tt> , Horizontal tab, as in C. }
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@row2col{ <tt>@\uwxyz</tt> ,
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The Unicode character <tt>U+wxyz</tt> in the local byte ordering, where
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@e wxyz is exactly four hexadecimal digits. }
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@row2col{ <tt>@\Ustuvwxyz</tt> ,
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Reserved for a somewhat-hypothetical Unicode extension to 32 bits, where
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@e stuvwxyz is exactly eight hexadecimal digits. }
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@row2col{ <tt>@\v</tt> , Vertical tab, as in C are all available. }
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@row2col{ <tt>@\xhhh</tt> ,
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The single character whose hexadecimal value is @e 0xhhh, where @e hhh is
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any sequence of hexadecimal digits. }
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@row2col{ <tt>@\0</tt> , The character whose value is 0. }
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@row2col{ <tt>@\xy</tt> ,
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The character whose octal value is @e 0xy, where @e xy is exactly two octal
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digits, and is not a <em>back reference</em> (see below). }
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@row2col{ <tt>@\xyz</tt> ,
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The character whose octal value is @e 0xyz, where @e xyz is exactly three
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octal digits, and is not a <em>back reference</em> (see below). }
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@endTable
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Hexadecimal digits are 0-9, a-f, and A-F. Octal digits are 0-7.
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The character-entry escapes are always taken as ordinary characters. For
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example, <tt>@\135</tt> is <tt>]</tt> in ASCII, but <tt>@\135</tt> does not
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terminate a bracket expression. Beware, however, that some applications (e.g.,
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C compilers) interpret such sequences themselves before the regular-expression
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package gets to see them, which may require doubling (quadrupling, etc.) the
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'<tt>@\</tt>'.
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Class-shorthand escapes (AREs only) provide shorthands for certain
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commonly-used character classes:
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@beginTable
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@row2col{ <tt>@\d</tt> , <tt>[[:digit:]]</tt> }
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@row2col{ <tt>@\s</tt> , <tt>[[:space:]]</tt> }
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@row2col{ <tt>@\w</tt> , <tt>[[:alnum:]_]</tt> (note underscore) }
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@row2col{ <tt>@\D</tt> , <tt>[^[:digit:]]</tt> }
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@row2col{ <tt>@\S</tt> , <tt>[^[:space:]]</tt> }
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@row2col{ <tt>@\W</tt> , <tt>[^[:alnum:]_]</tt> (note underscore) }
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@endTable
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Within bracket expressions, <tt>@\d</tt>, <tt>@\s</tt>, and <tt>@\w</tt> lose
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their outer brackets, and <tt>@\D</tt>, <tt>@\S</tt>, <tt>@\W</tt> are illegal.
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So, for example, <tt>[a-c@\d]</tt> is equivalent to <tt>[a-c[:digit:]]</tt>.
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Also, <tt>[a-c@\D]</tt>, which is equivalent to <tt>[a-c^[:digit:]]</tt>, is
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illegal.
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A constraint escape (AREs only) is a constraint, matching the empty string if
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specific conditions are met, written as an escape:
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@beginTable
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@row2col{ <tt>@\A</tt> , Matches only at the beginning of the string, see
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@ref overview_resyntax_matching for how this differs
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from <tt>^</tt>. }
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@row2col{ <tt>@\m</tt> , Matches only at the beginning of a word. }
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@row2col{ <tt>@\M</tt> , Matches only at the end of a word. }
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@row2col{ <tt>@\y</tt> , Matches only at the beginning or end of a word. }
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@row2col{ <tt>@\Y</tt> , Matches only at a point that is not the beginning or
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end of a word. }
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@row2col{ <tt>@\Z</tt> , Matches only at the end of the string, see
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@ref overview_resyntax_matching for how this differs
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from <tt>@$</tt>. }
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@row2col{ <tt>@\m</tt> , A <em>back reference</em>, where @e m is a non-zero
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digit. See below. }
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@row2col{ <tt>@\mnn</tt> ,
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A <em>back reference</em>, where @e m is a nonzero digit, and @e nn is some
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more digits, and the decimal value @e mnn is not greater than the number of
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closing capturing parentheses seen so far. See below. }
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@endTable
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A word is defined as in the specification of <tt>[[:@<:]]</tt> and
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<tt>[[:@>:]]</tt> above. Constraint escapes are illegal within bracket
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expressions.
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A back reference (AREs only) matches the same string matched by the
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parenthesized subexpression specified by the number. For example, "([bc])\1"
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matches "bb" or "cc" but not "bc". The subexpression must entirely precede the
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back reference in the RE.Subexpressions are numbered in the order of their
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leading parentheses. Non-capturing parentheses do not define subexpressions.
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There is an inherent historical ambiguity between octal character-entry escapes
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and back references, which is resolved by heuristics, as hinted at above. A
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leading zero always indicates an octal escape. A single non-zero digit, not
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followed by another digit, is always taken as a back reference. A multi-digit
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sequence not starting with a zero is taken as a back reference if it comes
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after a suitable subexpression (i.e. the number is in the legal range for a
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back reference), and otherwise is taken as octal.
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@section overview_resyntax_metasyntax Metasyntax
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In addition to the main syntax described above, there are some special forms
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and miscellaneous syntactic facilities available.
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Normally the flavor of RE being used is specified by application-dependent
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means. However, this can be overridden by a @e director. If an RE of any flavor
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begins with <tt>***:</tt>, the rest of the RE is an ARE. If an RE of any
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flavor begins with <tt>***=</tt>, the rest of the RE is taken to be a literal
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string, with all characters considered ordinary characters.
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An ARE may begin with <em>embedded options</em>: a sequence <tt>(?xyz)</tt>
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(where @e xyz is one or more alphabetic characters) specifies options affecting
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the rest of the RE. These supplement, and can override, any options specified
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by the application. The available option letters are:
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@beginTable
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@row2col{ <tt>b</tt> , Rest of RE is a BRE. }
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@row2col{ <tt>c</tt> , Case-sensitive matching (usual default). }
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@row2col{ <tt>e</tt> , Rest of RE is an ERE. }
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@row2col{ <tt>i</tt> , Case-insensitive matching (see
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@ref overview_resyntax_matching, below). }
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@row2col{ <tt>m</tt> , Historical synonym for @e n. }
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@row2col{ <tt>n</tt> , Newline-sensitive matching (see
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@ref overview_resyntax_matching, below). }
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@row2col{ <tt>p</tt> , Partial newline-sensitive matching (see
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@ref overview_resyntax_matching, below). }
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@row2col{ <tt>q</tt> , Rest of RE is a literal ("quoted") string, all ordinary
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characters. }
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@row2col{ <tt>s</tt> , Non-newline-sensitive matching (usual default). }
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@row2col{ <tt>t</tt> , Tight syntax (usual default; see below). }
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@row2col{ <tt>w</tt> , Inverse partial newline-sensitive ("weird") matching
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(see @ref overview_resyntax_matching, below). }
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@row2col{ <tt>x</tt> , Expanded syntax (see below). }
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@endTable
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Embedded options take effect at the <tt>)</tt> terminating the sequence. They
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are available only at the start of an ARE, and may not be used later within it.
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In addition to the usual (@e tight) RE syntax, in which all characters are
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significant, there is an @e expanded syntax, available in AREs with the
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embedded x option. In the expanded syntax, white-space characters are ignored
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|
and all characters between a <tt>@#</tt> and the following newline (or the end
|
|
of the RE) are ignored, permitting paragraphing and commenting a complex RE.
|
|
There are three exceptions to that basic rule:
|
|
|
|
@li A white-space character or <tt>@#</tt> preceded by <tt>@\</tt> is retained.
|
|
@li White space or <tt>@#</tt> within a bracket expression is retained.
|
|
@li White space and comments are illegal within multi-character symbols like
|
|
the ARE <tt>(?:</tt> or the BRE <tt>\(</tt>.
|
|
|
|
Expanded-syntax white-space characters are blank, tab, newline, and any
|
|
character that belongs to the @e space character class.
|
|
|
|
Finally, in an ARE, outside bracket expressions, the sequence <tt>(?@#ttt)</tt>
|
|
(where @e ttt is any text not containing a <tt>)</tt>) is a comment, completely
|
|
ignored. Again, this is not allowed between the characters of multi-character
|
|
symbols like <tt>(?:</tt>. Such comments are more a historical artifact than a
|
|
useful facility, and their use is deprecated; use the expanded syntax instead.
|
|
|
|
@e None of these metasyntax extensions is available if the application (or an
|
|
initial <tt>***=</tt> director) has specified that the user's input be treated
|
|
as a literal string rather than as an RE.
|
|
|
|
|
|
@section overview_resyntax_matching Matching
|
|
|
|
In the event that an RE could match more than one substring of a given string,
|
|
the RE matches the one starting earliest in the string. If the RE could match
|
|
more than one substring starting at that point, the choice is determined by
|
|
it's @e preference: either the longest substring, or the shortest.
|
|
|
|
Most atoms, and all constraints, have no preference. A parenthesized RE has the
|
|
same preference (possibly none) as the RE. A quantified atom with quantifier
|
|
<tt>{m}</tt> or <tt>{m}?</tt> has the same preference (possibly none) as the
|
|
atom itself. A quantified atom with other normal quantifiers (including
|
|
<tt>{m,n}</tt> with @e m equal to @e n) prefers longest match. A quantified
|
|
atom with other non-greedy quantifiers (including <tt>{m,n}?</tt> with @e m
|
|
equal to @e n) prefers shortest match. A branch has the same preference as the
|
|
first quantified atom in it which has a preference. An RE consisting of two or
|
|
more branches connected by the @c | operator prefers longest match.
|
|
|
|
Subject to the constraints imposed by the rules for matching the whole RE,
|
|
subexpressions also match the longest or shortest possible substrings, based on
|
|
their preferences, with subexpressions starting earlier in the RE taking
|
|
priority over ones starting later. Note that outer subexpressions thus take
|
|
priority over their component subexpressions.
|
|
|
|
Note that the quantifiers <tt>{1,1}</tt> and <tt>{1,1}?</tt> can be used to
|
|
force longest and shortest preference, respectively, on a subexpression or a
|
|
whole RE.
|
|
|
|
Match lengths are measured in characters, not collating elements. An empty
|
|
string is considered longer than no match at all. For example, <tt>bb*</tt>
|
|
matches the three middle characters of "abbbc",
|
|
<tt>(week|wee)(night|knights)</tt> matches all ten characters of "weeknights",
|
|
when <tt>(.*).*</tt> is matched against "abc" the parenthesized subexpression
|
|
matches all three characters, and when <tt>(a*)*</tt> is matched against "bc"
|
|
both the whole RE and the parenthesized subexpression match an empty string.
|
|
|
|
If case-independent matching is specified, the effect is much as if all case
|
|
distinctions had vanished from the alphabet. When an alphabetic that exists in
|
|
multiple cases appears as an ordinary character outside a bracket expression,
|
|
it is effectively transformed into a bracket expression containing both cases,
|
|
so that @c x becomes @c [xX]. When it appears inside a bracket expression, all
|
|
case counterparts of it are added to the bracket expression, so that @c [x]
|
|
becomes @c [xX] and @c [^x] becomes @c [^xX].
|
|
|
|
If newline-sensitive matching is specified, "." and bracket expressions using
|
|
"^" will never match the newline character (so that matches will never cross
|
|
newlines unless the RE explicitly arranges it) and "^" and "$" will match the
|
|
empty string after and before a newline respectively, in addition to matching
|
|
at beginning and end of string respectively. ARE <tt>@\A</tt> and <tt>@\Z</tt>
|
|
continue to match beginning or end of string @e only.
|
|
|
|
If partial newline-sensitive matching is specified, this affects "." and
|
|
bracket expressions as with newline-sensitive matching, but not "^" and "$".
|
|
|
|
If inverse partial newline-sensitive matching is specified, this affects "^"
|
|
and "$" as with newline-sensitive matching, but not "." and bracket
|
|
expressions. This isn't very useful but is provided for symmetry.
|
|
|
|
|
|
@section overview_resyntax_limits Limits and Compatibility
|
|
|
|
No particular limit is imposed on the length of REs. Programs intended to be
|
|
highly portable should not employ REs longer than 256 bytes, as a
|
|
POSIX-compliant implementation can refuse to accept such REs.
|
|
|
|
The only feature of AREs that is actually incompatible with POSIX EREs is that
|
|
<tt>@\</tt> does not lose its special significance inside bracket expressions.
|
|
All other ARE features use syntax which is illegal or has undefined or
|
|
unspecified effects in POSIX EREs; the <tt>***</tt> syntax of directors
|
|
likewise is outside the POSIX syntax for both BREs and EREs.
|
|
|
|
Many of the ARE extensions are borrowed from Perl, but some have been changed
|
|
to clean them up, and a few Perl extensions are not present. Incompatibilities
|
|
of note include <tt>@\b</tt>, <tt>@\B</tt>, the lack of special treatment for a
|
|
trailing newline, the addition of complemented bracket expressions to the
|
|
things affected by newline-sensitive matching, the restrictions on parentheses
|
|
and back references in lookahead constraints, and the longest/shortest-match
|
|
(rather than first-match) matching semantics.
|
|
|
|
The matching rules for REs containing both normal and non-greedy quantifiers
|
|
have changed since early beta-test versions of this package. The new rules are
|
|
much simpler and cleaner, but don't work as hard at guessing the user's real
|
|
intentions.
|
|
|
|
Henry Spencer's original 1986 @e regexp package, still in widespread use,
|
|
implemented an early version of today's EREs. There are four incompatibilities
|
|
between @e regexp's near-EREs (RREs for short) and AREs. In roughly increasing
|
|
order of significance:
|
|
|
|
@li In AREs, <tt>@\</tt> followed by an alphanumeric character is either an
|
|
escape or an error, while in RREs, it was just another way of writing the
|
|
alphanumeric. This should not be a problem because there was no reason to
|
|
write such a sequence in RREs.
|
|
@li @c { followed by a digit in an ARE is the beginning of a bound, while in
|
|
RREs, @c { was always an ordinary character. Such sequences should be rare,
|
|
and will often result in an error because following characters will not
|
|
look like a valid bound.
|
|
@li In AREs, @c @\ remains a special character within @c [], so a literal @c @\
|
|
within @c [] must be written as <tt>@\@\</tt>. <tt>@\@\</tt> also gives a
|
|
literal @c @\ within @c [] in RREs, but only truly paranoid programmers
|
|
routinely doubled the backslash.
|
|
@li AREs report the longest/shortest match for the RE, rather than the first
|
|
found in a specified search order. This may affect some RREs which were
|
|
written in the expectation that the first match would be reported. The
|
|
careful crafting of RREs to optimize the search order for fast matching is
|
|
obsolete (AREs examine all possible matches in parallel, and their
|
|
performance is largely insensitive to their complexity) but cases where the
|
|
search order was exploited to deliberately find a match which was @e not
|
|
the longest/shortest will need rewriting.
|
|
|
|
|
|
@section overview_resyntax_bre Basic Regular Expressions
|
|
|
|
BREs differ from EREs in several respects. @c |, @c +, and @c ? are ordinary
|
|
characters and there is no equivalent for their functionality. The delimiters
|
|
for bounds are @c @\{ and @c @\}, with @c { and @c } by themselves ordinary
|
|
characters. The parentheses for nested subexpressions are @c @\( and @c @\),
|
|
with @c ( and @c ) by themselves ordinary characters. @c ^ is an ordinary
|
|
character except at the beginning of the RE or the beginning of a parenthesized
|
|
subexpression, @c $ is an ordinary character except at the end of the RE or the
|
|
end of a parenthesized subexpression, and @c * is an ordinary character if it
|
|
appears at the beginning of the RE or the beginning of a parenthesized
|
|
subexpression (after a possible leading <tt>^</tt>). Finally, single-digit back
|
|
references are available, and @c @\@< and @c @\@> are synonyms for
|
|
<tt>[[:@<:]]</tt> and <tt>[[:@>:]]</tt> respectively; no other escapes are
|
|
available.
|
|
|
|
|
|
@section overview_resyntax_characters Regular Expression Character Names
|
|
|
|
Note that the character names are case sensitive.
|
|
|
|
<center><table class='doctable' border='0' cellspacing='5' cellpadding='4'><tr>
|
|
|
|
<td>
|
|
@beginTable
|
|
@row2col{ <tt>NUL</tt> , @\0 }
|
|
@row2col{ <tt>SOH</tt> , @\001 }
|
|
@row2col{ <tt>STX</tt> , @\002 }
|
|
@row2col{ <tt>ETX</tt> , @\003 }
|
|
@row2col{ <tt>EOT</tt> , @\004 }
|
|
@row2col{ <tt>ENQ</tt> , @\005 }
|
|
@row2col{ <tt>ACK</tt> , @\006 }
|
|
@row2col{ <tt>BEL</tt> , @\007 }
|
|
@row2col{ <tt>alert</tt> , @\007 }
|
|
@row2col{ <tt>BS</tt> , @\010 }
|
|
@row2col{ <tt>backspace</tt> , @\b }
|
|
@row2col{ <tt>HT</tt> , @\011 }
|
|
@row2col{ <tt>tab</tt> , @\t }
|
|
@row2col{ <tt>LF</tt> , @\012 }
|
|
@row2col{ <tt>newline</tt> , @\n }
|
|
@row2col{ <tt>VT</tt> , @\013 }
|
|
@row2col{ <tt>vertical-tab</tt> , @\v }
|
|
@row2col{ <tt>FF</tt> , @\014 }
|
|
@row2col{ <tt>form-feed</tt> , @\f }
|
|
@endTable
|
|
</td>
|
|
|
|
<td>
|
|
@beginTable
|
|
@row2col{ <tt>CR</tt> , @\015 }
|
|
@row2col{ <tt>carriage-return</tt> , @\r }
|
|
@row2col{ <tt>SO</tt> , @\016 }
|
|
@row2col{ <tt>SI</tt> , @\017 }
|
|
@row2col{ <tt>DLE</tt> , @\020 }
|
|
@row2col{ <tt>DC1</tt> , @\021 }
|
|
@row2col{ <tt>DC2</tt> , @\022 }
|
|
@row2col{ <tt>DC3</tt> , @\023 }
|
|
@row2col{ <tt>DC4</tt> , @\024 }
|
|
@row2col{ <tt>NAK</tt> , @\025 }
|
|
@row2col{ <tt>SYN</tt> , @\026 }
|
|
@row2col{ <tt>ETB</tt> , @\027 }
|
|
@row2col{ <tt>CAN</tt> , @\030 }
|
|
@row2col{ <tt>EM</tt> , @\031 }
|
|
@row2col{ <tt>SUB</tt> , @\032 }
|
|
@row2col{ <tt>ESC</tt> , @\033 }
|
|
@row2col{ <tt>IS4</tt> , @\034 }
|
|
@row2col{ <tt>FS</tt> , @\034 }
|
|
@row2col{ <tt>IS3</tt> , @\035 }
|
|
@endTable
|
|
</td>
|
|
|
|
<td>
|
|
@beginTable
|
|
@row2col{ <tt>GS</tt> , @\035 }
|
|
@row2col{ <tt>IS2</tt> , @\036 }
|
|
@row2col{ <tt>RS</tt> , @\036 }
|
|
@row2col{ <tt>IS1</tt> , @\037 }
|
|
@row2col{ <tt>US</tt> , @\037 }
|
|
@row2col{ <tt>space</tt> , " " (space) }
|
|
@row2col{ <tt>exclamation-mark</tt> , ! }
|
|
@row2col{ <tt>quotation-mark</tt> , " }
|
|
@row2col{ <tt>number-sign</tt> , @# }
|
|
@row2col{ <tt>dollar-sign</tt> , @$ }
|
|
@row2col{ <tt>percent-sign</tt> , @% }
|
|
@row2col{ <tt>ampersand</tt> , @& }
|
|
@row2col{ <tt>apostrophe</tt> , ' }
|
|
@row2col{ <tt>left-parenthesis</tt> , ( }
|
|
@row2col{ <tt>right-parenthesis</tt> , ) }
|
|
@row2col{ <tt>asterisk</tt> , * }
|
|
@row2col{ <tt>plus-sign</tt> , + }
|
|
@row2col{ <tt>comma</tt> , \, }
|
|
@row2col{ <tt>hyphen</tt> , - }
|
|
@endTable
|
|
</td>
|
|
|
|
<td>
|
|
@beginTable
|
|
@row2col{ <tt>hyphen-minus</tt> , - }
|
|
@row2col{ <tt>period</tt> , . }
|
|
@row2col{ <tt>full-stop</tt> , . }
|
|
@row2col{ <tt>slash</tt> , / }
|
|
@row2col{ <tt>solidus</tt> , / }
|
|
@row2col{ <tt>zero</tt> , 0 }
|
|
@row2col{ <tt>one</tt> , 1 }
|
|
@row2col{ <tt>two</tt> , 2 }
|
|
@row2col{ <tt>three</tt> , 3 }
|
|
@row2col{ <tt>four</tt> , 4 }
|
|
@row2col{ <tt>five</tt> , 5 }
|
|
@row2col{ <tt>six</tt> , 6 }
|
|
@row2col{ <tt>seven</tt> , 7 }
|
|
@row2col{ <tt>eight</tt> , 8 }
|
|
@row2col{ <tt>nine</tt> , 9 }
|
|
@row2col{ <tt>colon</tt> , : }
|
|
@row2col{ <tt>semicolon</tt> , ; }
|
|
@row2col{ <tt>less-than-sign</tt> , @< }
|
|
@row2col{ <tt>equals-sign</tt> , = }
|
|
@endTable
|
|
</td>
|
|
|
|
<td>
|
|
@beginTable
|
|
@row2col{ <tt>greater-than-sign</tt> , @> }
|
|
@row2col{ <tt>question-mark</tt> , ? }
|
|
@row2col{ <tt>commercial-at</tt> , @@ }
|
|
@row2col{ <tt>left-square-bracket</tt> , [ }
|
|
@row2col{ <tt>backslash</tt> , @\ }
|
|
@row2col{ <tt>reverse-solidus</tt> , @\ }
|
|
@row2col{ <tt>right-square-bracket</tt> , ] }
|
|
@row2col{ <tt>circumflex</tt> , ^ }
|
|
@row2col{ <tt>circumflex-accent</tt> , ^ }
|
|
@row2col{ <tt>underscore</tt> , _ }
|
|
@row2col{ <tt>low-line</tt> , _ }
|
|
@row2col{ <tt>grave-accent</tt> , ' }
|
|
@row2col{ <tt>left-brace</tt> , @leftCurly }
|
|
@row2col{ <tt>left-curly-bracket</tt> , @leftCurly }
|
|
@row2col{ <tt>vertical-line</tt> , | }
|
|
@row2col{ <tt>right-brace</tt> , @rightCurly }
|
|
@row2col{ <tt>right-curly-bracket</tt> , @rightCurly }
|
|
@row2col{ <tt>tilde</tt> , ~ }
|
|
@row2col{ <tt>DEL</tt> , @\177 }
|
|
@endTable
|
|
</td>
|
|
|
|
</tr></table></center>
|
|
|
|
*/
|
|
|