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X<character class>
perlrecharclass - Perl Regular Expression Character Classes
=head1 DESCRIPTION
The top level documentation about Perl regular expressions
is found in L<perlre>.
This manual page discusses the syntax and use of character
classes in Perl regular expressions.
A character class is a way of denoting a set of characters
in such a way that one character of the set is matched.
It's important to remember that: matching a character class
consumes exactly one character in the source string. (The source
string is the string the regular expression is matched against.)
There are three types of character classes in Perl regular
expressions: the dot, backslash sequences, and the form enclosed in square
brackets. Keep in mind, though, that often the term "character class" is used
to mean just the bracketed form. Certainly, most Perl documentation does that.
=head2 The dot
The dot (or period), C<.> is probably the most used, and certainly
the most well-known character class. By default, a dot matches any
character, except for the newline. That default can be changed to
add matching the newline by using the I<single line> modifier: either
for the entire regular expression with the C</s> modifier, or
locally with C<(?s)>. (The C<\N> backslash sequence, described
below, matches any character except newline without regard to the
I<single line> modifier.)
Here are some examples:
"a" =~ /./ # Match
"." =~ /./ # Match
"" =~ /./ # No match (dot has to match a character)
"\n" =~ /./ # No match (dot does not match a newline)
"\n" =~ /./s # Match (global 'single line' modifier)
"\n" =~ /(?s:.)/ # Match (local 'single line' modifier)
"ab" =~ /^.$/ # No match (dot matches one character)
=head2 Backslash sequences
X<\w> X<\W> X<\s> X<\S> X<\d> X<\D> X<\p> X<\P>
X<\N> X<\v> X<\V> X<\h> X<\H>
X<word> X<whitespace>
A backslash sequence is a sequence of characters, the first one of which is a
backslash. Perl ascribes special meaning to many such sequences, and some of
these are character classes. That is, they match a single character each,
provided that the character belongs to the specific set of characters defined
by the sequence.
Here's a list of the backslash sequences that are character classes. They
are discussed in more detail below. (For the backslash sequences that aren't
character classes, see L<perlrebackslash>.)
\d Match a decimal digit character.
\D Match a non-decimal-digit character.
\w Match a "word" character.
\W Match a non-"word" character.
\s Match a whitespace character.
\S Match a non-whitespace character.
\h Match a horizontal whitespace character.
\H Match a character that isn't horizontal whitespace.
\v Match a vertical whitespace character.
\V Match a character that isn't vertical whitespace.
\N Match a character that isn't a newline.
\pP, \p{Prop} Match a character that has the given Unicode property.
\PP, \P{Prop} Match a character that doesn't have the Unicode property
=head3 \N
C<\N>, available starting in v5.12, like the dot, matches any
character that is not a newline. The difference is that C<\N> is not influenced
by the I<single line> regular expression modifier (see L</The dot> above). Note
that the form C<\N{...}> may mean something completely different. When the
C<{...}> is a L<quantifier|perlre/Quantifiers>, it means to match a non-newline
character that many times. For example, C<\N{3}> means to match 3
non-newlines; C<\N{5,}> means to match 5 or more non-newlines. But if C<{...}>
is not a legal quantifier, it is presumed to be a named character. See
L<charnames> for those. For example, none of C<\N{COLON}>, C<\N{4F}>, and
C<\N{F4}> contain legal quantifiers, so Perl will try to find characters whose
names are respectively C<COLON>, C<4F>, and C<F4>.
=head3 Digits
C<\d> matches a single character considered to be a decimal I<digit>.
If the C</a> regular expression modifier is in effect, it matches [0-9].
Otherwise, it
matches anything that is matched by C<\p{Digit}>, which includes [0-9].
(An unlikely possible exception is that under locale matching rules, the
current locale might not have [0-9] matched by C<\d>, and/or might match
other characters whose code point is less than 256. Such a locale
definition would be in violation of the C language standard, but Perl
doesn't currently assume anything in regard to this.)
What this means is that unless the C</a> modifier is in effect C<\d> not
only matches the digits '0' - '9', but also Arabic, Devanagari, and
digits from other languages. This may cause some confusion, and some
security issues.
Some digits that C<\d> matches look like some of the [0-9] ones, but
have different values. For example, BENGALI DIGIT FOUR (U+09EA) looks
very much like an ASCII DIGIT EIGHT (U+0038). An application that
is expecting only the ASCII digits might be misled, or if the match is
C<\d+>, the matched string might contain a mixture of digits from
different writing systems that look like they signify a number different
than they actually do. L<Unicode::UCD/num()> can
be used to safely
calculate the value, returning C<undef> if the input string contains
such a mixture.
What C<\p{Digit}> means (and hence C<\d> except under the C</a>
modifier) is C<\p{General_Category=Decimal_Number}>, or synonymously,
C<\p{General_Category=Digit}>. Starting with Unicode version 4.1, this
is the same set of characters matched by C<\p{Numeric_Type=Decimal}>.
But Unicode also has a different property with a similar name,
C<\p{Numeric_Type=Digit}>, which matches a completely different set of
characters. These characters are things such as C<CIRCLED DIGIT ONE>
or subscripts, or are from writing systems that lack all ten digits.
The design intent is for C<\d> to exactly match the set of characters
that can safely be used with "normal" big-endian positional decimal
syntax, where, for example 123 means one 'hundred', plus two 'tens',
plus three 'ones'. This positional notation does not necessarily apply
to characters that match the other type of "digit",
C<\p{Numeric_Type=Digit}>, and so C<\d> doesn't match them.
The Tamil digits (U+0BE6 - U+0BEF) can also legally be
used in old-style Tamil numbers in which they would appear no more than
one in a row, separated by characters that mean "times 10", "times 100",
etc. (See L<http://www.unicode.org/notes/tn21>.)
Any character not matched by C<\d> is matched by C<\D>.
=head3 Word characters
A C<\w> matches a single alphanumeric character (an alphabetic character, or a
decimal digit); or a connecting punctuation character, such as an
underscore ("_"); or a "mark" character (like some sort of accent) that
attaches to one of those. It does not match a whole word. To match a
whole word, use C<\w+>. This isn't the same thing as matching an
English word, but in the ASCII range it is the same as a string of
Perl-identifier characters.
=over
=item If the C</a> modifier is in effect ...
C<\w> matches the 63 characters [a-zA-Z0-9_].
=item otherwise ...
=over
=item For code points above 255 ...
C<\w> matches the same as C<\p{Word}> matches in this range. That is,
it matches Thai letters, Greek letters, etc. This includes connector
punctuation (like the underscore) which connect two words together, or
diacritics, such as a C<COMBINING TILDE> and the modifier letters, which
are generally used to add auxiliary markings to letters.
=item For code points below 256 ...
=over
=item if locale rules are in effect ...
C<\w> matches the platform's native underscore character plus whatever
the locale considers to be alphanumeric.
=item if Unicode rules are in effect ...
C<\w> matches exactly what C<\p{Word}> matches.
=item otherwise ...
C<\w> matches [a-zA-Z0-9_].
=back
=back
=back
Which rules apply are determined as described in L<perlre/Which character set modifier is in effect?>.
There are a number of security issues with the full Unicode list of word
characters. See L<http://unicode.org/reports/tr36>.
Also, for a somewhat finer-grained set of characters that are in programming
language identifiers beyond the ASCII range, you may wish to instead use the
more customized L</Unicode Properties>, C<\p{ID_Start}>,
C<\p{ID_Continue}>, C<\p{XID_Start}>, and C<\p{XID_Continue}>. See
L<http://unicode.org/reports/tr31>.
Any character not matched by C<\w> is matched by C<\W>.
=head3 Whitespace
C<\s> matches any single character considered whitespace.
=over
=item If the C</a> modifier is in effect ...
In all Perl versions, C<\s> matches the 5 characters [\t\n\f\r ]; that
is, the horizontal tab,
the newline, the form feed, the carriage return, and the space.
Starting in Perl v5.18, experimentally, it also matches the vertical tab, C<\cK>.
See note C<[1]> below for a discussion of this.
=item otherwise ...
=over
=item For code points above 255 ...
C<\s> matches exactly the code points above 255 shown with an "s" column
in the table below.
=item For code points below 256 ...
=over
=item if locale rules are in effect ...
C<\s> matches whatever the locale considers to be whitespace.
=item if Unicode rules are in effect ...
C<\s> matches exactly the characters shown with an "s" column in the
table below.
=item otherwise ...
C<\s> matches [\t\n\f\r\cK ] and, starting, experimentally in Perl
v5.18, the vertical tab, C<\cK>.
(See note C<[1]> below for a discussion of this.)
Note that this list doesn't include the non-breaking space.
=back
=back
=back
Which rules apply are determined as described in L<perlre/Which character set modifier is in effect?>.
Any character not matched by C<\s> is matched by C<\S>.
C<\h> matches any character considered horizontal whitespace;
this includes the platform's space and tab characters and several others
listed in the table below. C<\H> matches any character
not considered horizontal whitespace. They use the platform's native
character set, and do not consider any locale that may otherwise be in
use.
C<\v> matches any character considered vertical whitespace;
this includes the platform's carriage return and line feed characters (newline)
plus several other characters, all listed in the table below.
C<\V> matches any character not considered vertical whitespace.
They use the platform's native character set, and do not consider any
locale that may otherwise be in use.
C<\R> matches anything that can be considered a newline under Unicode
rules. It's not a character class, as it can match a multi-character
sequence. Therefore, it cannot be used inside a bracketed character
class; use C<\v> instead (vertical whitespace). It uses the platform's
native character set, and does not consider any locale that may
otherwise be in use.
Details are discussed in L<perlrebackslash>.
Note that unlike C<\s> (and C<\d> and C<\w>), C<\h> and C<\v> always match
the same characters, without regard to other factors, such as the active
locale or whether the source string is in UTF-8 format.
One might think that C<\s> is equivalent to C<[\h\v]>. This is indeed true
starting in Perl v5.18, but prior to that, the sole difference was that the
vertical tab (C<"\cK">) was not matched by C<\s>.
The following table is a complete listing of characters matched by
C<\s>, C<\h> and C<\v> as of Unicode 6.0.
The first column gives the Unicode code point of the character (in hex format),
the second column gives the (Unicode) name. The third column indicates
by which class(es) the character is matched (assuming no locale is in
effect that changes the C<\s> matching).
0x0009 CHARACTER TABULATION h s
0x000a LINE FEED (LF) vs
0x000b LINE TABULATION vs [1]
0x000c FORM FEED (FF) vs
0x000d CARRIAGE RETURN (CR) vs
0x0020 SPACE h s
0x0085 NEXT LINE (NEL) vs [2]
0x00a0 NO-BREAK SPACE h s [2]
0x1680 OGHAM SPACE MARK h s
0x180e MONGOLIAN VOWEL SEPARATOR h s
0x2000 EN QUAD h s
0x2001 EM QUAD h s
0x2002 EN SPACE h s
0x2003 EM SPACE h s
0x2004 THREE-PER-EM SPACE h s
0x2005 FOUR-PER-EM SPACE h s
0x2006 SIX-PER-EM SPACE h s
0x2007 FIGURE SPACE h s
0x2008 PUNCTUATION SPACE h s
0x2009 THIN SPACE h s
0x200a HAIR SPACE h s
0x2028 LINE SEPARATOR vs
0x2029 PARAGRAPH SEPARATOR vs
0x202f NARROW NO-BREAK SPACE h s
0x205f MEDIUM MATHEMATICAL SPACE h s
0x3000 IDEOGRAPHIC SPACE h s
=over 4
=item [1]
Prior to Perl v5.18, C<\s> did not match the vertical tab. The change
in v5.18 is considered an experiment, which means it could be backed out
in v5.20 or v5.22 if experience indicates that it breaks too much
existing code. If this change adversely affects you, send email to
C<perlbug@perl.org>; if it affects you positively, email
C<perlthanks@perl.org>. In the meantime, C<[^\S\cK]> (obscurely)
matches what C<\s> traditionally did.
=item [2]
NEXT LINE and NO-BREAK SPACE may or may not match C<\s> depending
on the rules in effect. See
L<the beginning of this section|/Whitespace>.
=back
=head3 Unicode Properties
C<\pP> and C<\p{Prop}> are character classes to match characters that fit given
Unicode properties. One letter property names can be used in the C<\pP> form,
with the property name following the C<\p>, otherwise, braces are required.
When using braces, there is a single form, which is just the property name
enclosed in the braces, and a compound form which looks like C<\p{name=value}>,
which means to match if the property "name" for the character has that particular
"value".
For instance, a match for a number can be written as C</\pN/> or as
C</\p{Number}/>, or as C</\p{Number=True}/>.
Lowercase letters are matched by the property I<Lowercase_Letter> which
has the short form I<Ll>. They need the braces, so are written as C</\p{Ll}/> or
C</\p{Lowercase_Letter}/>, or C</\p{General_Category=Lowercase_Letter}/>
(the underscores are optional).
C</\pLl/> is valid, but means something different.
It matches a two character string: a letter (Unicode property C<\pL>),
followed by a lowercase C<l>.
If locale rules are not in effect, the use of
a Unicode property will force the regular expression into using Unicode
rules, if it isn't already.
Note that almost all properties are immune to case-insensitive matching.
That is, adding a C</i> regular expression modifier does not change what
they match. There are two sets that are affected. The first set is
C<Uppercase_Letter>,
C<Lowercase_Letter>,
and C<Titlecase_Letter>,
all of which match C<Cased_Letter> under C</i> matching.
The second set is
C<Uppercase>,
C<Lowercase>,
and C<Titlecase>,
all of which match C<Cased> under C</i> matching.
(The difference between these sets is that some things, such as Roman
numerals, come in both upper and lower case, so they are C<Cased>, but
aren't considered to be letters, so they aren't C<Cased_Letter>s. They're
actually C<Letter_Number>s.)
This set also includes its subsets C<PosixUpper> and C<PosixLower>, both
of which under C</i> match C<PosixAlpha>.
For more details on Unicode properties, see L<perlunicode/Unicode
Character Properties>; for a
complete list of possible properties, see
L<perluniprops/Properties accessible through \p{} and \P{}>,
which notes all forms that have C</i> differences.
It is also possible to define your own properties. This is discussed in
L<perlunicode/User-Defined Character Properties>.
Unicode properties are defined (surprise!) only on Unicode code points.
A warning is raised and all matches fail on non-Unicode code points
(those above the legal Unicode maximum of 0x10FFFF). This can be
somewhat surprising,
chr(0x110000) =~ \p{ASCII_Hex_Digit=True} # Fails.
chr(0x110000) =~ \p{ASCII_Hex_Digit=False} # Also fails!
Even though these two matches might be thought of as complements, they
are so only on Unicode code points.
=head4 Examples
"a" =~ /\w/ # Match, "a" is a 'word' character.
"7" =~ /\w/ # Match, "7" is a 'word' character as well.
"a" =~ /\d/ # No match, "a" isn't a digit.
"7" =~ /\d/ # Match, "7" is a digit.
" " =~ /\s/ # Match, a space is whitespace.
"a" =~ /\D/ # Match, "a" is a non-digit.
"7" =~ /\D/ # No match, "7" is not a non-digit.
" " =~ /\S/ # No match, a space is not non-whitespace.
" " =~ /\h/ # Match, space is horizontal whitespace.
" " =~ /\v/ # No match, space is not vertical whitespace.
"\r" =~ /\v/ # Match, a return is vertical whitespace.
"a" =~ /\pL/ # Match, "a" is a letter.
"a" =~ /\p{Lu}/ # No match, /\p{Lu}/ matches upper case letters.
"\x{0e0b}" =~ /\p{Thai}/ # Match, \x{0e0b} is the character
# 'THAI CHARACTER SO SO', and that's in
# Thai Unicode class.
"a" =~ /\P{Lao}/ # Match, as "a" is not a Laotian character.
It is worth emphasizing that C<\d>, C<\w>, etc, match single characters, not
complete numbers or words. To match a number (that consists of digits),
use C<\d+>; to match a word, use C<\w+>. But be aware of the security
considerations in doing so, as mentioned above.
=head2 Bracketed Character Classes
The third form of character class you can use in Perl regular expressions
is the bracketed character class. In its simplest form, it lists the characters
that may be matched, surrounded by square brackets, like this: C<[aeiou]>.
This matches one of C<a>, C<e>, C<i>, C<o> or C<u>. Like the other
character classes, exactly one character is matched.* To match
a longer string consisting of characters mentioned in the character
class, follow the character class with a L<quantifier|perlre/Quantifiers>. For
instance, C<[aeiou]+> matches one or more lowercase English vowels.
Repeating a character in a character class has no
effect; it's considered to be in the set only once.
Examples:
"e" =~ /[aeiou]/ # Match, as "e" is listed in the class.
"p" =~ /[aeiou]/ # No match, "p" is not listed in the class.
"ae" =~ /^[aeiou]$/ # No match, a character class only matches
# a single character.
"ae" =~ /^[aeiou]+$/ # Match, due to the quantifier.
-------
* There is an exception to a bracketed character class matching a
single character only. When the class is to match caselessly under C</i>
matching rules, and a character that is explicitly mentioned inside the
class matches a
multiple-character sequence caselessly under Unicode rules, the class
(when not L<inverted|/Negation>) will also match that sequence. For
example, Unicode says that the letter C<LATIN SMALL LETTER SHARP S>
should match the sequence C<ss> under C</i> rules. Thus,
'ss' =~ /\A\N{LATIN SMALL LETTER SHARP S}\z/i # Matches
'ss' =~ /\A[aeioust\N{LATIN SMALL LETTER SHARP S}]\z/i # Matches
For this to happen, the character must be explicitly specified, and not
be part of a multi-character range (not even as one of its endpoints).
(L</Character Ranges> will be explained shortly.) Therefore,
'ss' =~ /\A[\0-\x{ff}]\z/i # Doesn't match
'ss' =~ /\A[\0-\N{LATIN SMALL LETTER SHARP S}]\z/i # No match
'ss' =~ /\A[\xDF-\xDF]\z/i # Matches on ASCII platforms, since \XDF
# is LATIN SMALL LETTER SHARP S, and the
# range is just a single element
Note that it isn't a good idea to specify these types of ranges anyway.
=head3 Special Characters Inside a Bracketed Character Class
Most characters that are meta characters in regular expressions (that
is, characters that carry a special meaning like C<.>, C<*>, or C<(>) lose
their special meaning and can be used inside a character class without
the need to escape them. For instance, C<[()]> matches either an opening
parenthesis, or a closing parenthesis, and the parens inside the character
class don't group or capture.
Characters that may carry a special meaning inside a character class are:
C<\>, C<^>, C<->, C<[> and C<]>, and are discussed below. They can be
escaped with a backslash, although this is sometimes not needed, in which
case the backslash may be omitted.
The sequence C<\b> is special inside a bracketed character class. While
outside the character class, C<\b> is an assertion indicating a point
that does not have either two word characters or two non-word characters
on either side, inside a bracketed character class, C<\b> matches a
backspace character.
The sequences
C<\a>,
C<\c>,
C<\e>,
C<\f>,
C<\n>,
C<\N{I<NAME>}>,
C<\N{U+I<hex char>}>,
C<\r>,
C<\t>,
and
C<\x>
are also special and have the same meanings as they do outside a
bracketed character class. (However, inside a bracketed character
class, if C<\N{I<NAME>}> expands to a sequence of characters, only the first
one in the sequence is used, with a warning.)
Also, a backslash followed by two or three octal digits is considered an octal
number.
A C<[> is not special inside a character class, unless it's the start of a
POSIX character class (see L</POSIX Character Classes> below). It normally does
not need escaping.
A C<]> is normally either the end of a POSIX character class (see
L</POSIX Character Classes> below), or it signals the end of the bracketed
character class. If you want to include a C<]> in the set of characters, you
must generally escape it.
However, if the C<]> is the I<first> (or the second if the first
character is a caret) character of a bracketed character class, it
does not denote the end of the class (as you cannot have an empty class)
and is considered part of the set of characters that can be matched without
escaping.
Examples:
"+" =~ /[+?*]/ # Match, "+" in a character class is not special.
"\cH" =~ /[\b]/ # Match, \b inside in a character class.
# is equivalent to a backspace.
"]" =~ /[][]/ # Match, as the character class contains.
# both [ and ].
"[]" =~ /[[]]/ # Match, the pattern contains a character class
# containing just ], and the character class is
# followed by a ].
=head3 Character Ranges
It is not uncommon to want to match a range of characters. Luckily, instead
of listing all characters in the range, one may use the hyphen (C<->).
If inside a bracketed character class you have two characters separated
by a hyphen, it's treated as if all characters between the two were in
the class. For instance, C<[0-9]> matches any ASCII digit, and C<[a-m]>
matches any lowercase letter from the first half of the ASCII alphabet.
Note that the two characters on either side of the hyphen are not
necessarily both letters or both digits. Any character is possible,
although not advisable. C<['-?]> contains a range of characters, but
most people will not know which characters that means. Furthermore,
such ranges may lead to portability problems if the code has to run on
a platform that uses a different character set, such as EBCDIC.
If a hyphen in a character class cannot syntactically be part of a range, for
instance because it is the first or the last character of the character class,
or if it immediately follows a range, the hyphen isn't special, and so is
considered a character to be matched literally. If you want a hyphen in
your set of characters to be matched and its position in the class is such
that it could be considered part of a range, you must escape that hyphen
with a backslash.
Examples:
[a-z] # Matches a character that is a lower case ASCII letter.
[a-fz] # Matches any letter between 'a' and 'f' (inclusive) or
# the letter 'z'.
[-z] # Matches either a hyphen ('-') or the letter 'z'.
[a-f-m] # Matches any letter between 'a' and 'f' (inclusive), the
# hyphen ('-'), or the letter 'm'.
['-?] # Matches any of the characters '()*+,-./0123456789:;<=>?
# (But not on an EBCDIC platform).
=head3 Negation
It is also possible to instead list the characters you do not want to
match. You can do so by using a caret (C<^>) as the first character in the
character class. For instance, C<[^a-z]> matches any character that is not a
lowercase ASCII letter, which therefore includes more than a million
Unicode code points. The class is said to be "negated" or "inverted".
This syntax make the caret a special character inside a bracketed character
class, but only if it is the first character of the class. So if you want
the caret as one of the characters to match, either escape the caret or
else don't list it first.
In inverted bracketed character classes, Perl ignores the Unicode rules
that normally say that certain characters should match a sequence of
multiple characters under caseless C</i> matching. Following those
rules could lead to highly confusing situations:
"ss" =~ /^[^\xDF]+$/ui; # Matches!
This should match any sequences of characters that aren't C<\xDF> nor
what C<\xDF> matches under C</i>. C<"s"> isn't C<\xDF>, but Unicode
says that C<"ss"> is what C<\xDF> matches under C</i>. So which one
"wins"? Do you fail the match because the string has C<ss> or accept it
because it has an C<s> followed by another C<s>? Perl has chosen the
latter.
Examples:
"e" =~ /[^aeiou]/ # No match, the 'e' is listed.
"x" =~ /[^aeiou]/ # Match, as 'x' isn't a lowercase vowel.
"^" =~ /[^^]/ # No match, matches anything that isn't a caret.
"^" =~ /[x^]/ # Match, caret is not special here.
=head3 Backslash Sequences
You can put any backslash sequence character class (with the exception of
C<\N> and C<\R>) inside a bracketed character class, and it will act just
as if you had put all characters matched by the backslash sequence inside the
character class. For instance, C<[a-f\d]> matches any decimal digit, or any
of the lowercase letters between 'a' and 'f' inclusive.
C<\N> within a bracketed character class must be of the forms C<\N{I<name>}>
or C<\N{U+I<hex char>}>, and NOT be the form that matches non-newlines,
for the same reason that a dot C<.> inside a bracketed character class loses
its special meaning: it matches nearly anything, which generally isn't what you
want to happen.
Examples:
/[\p{Thai}\d]/ # Matches a character that is either a Thai
# character, or a digit.
/[^\p{Arabic}()]/ # Matches a character that is neither an Arabic
# character, nor a parenthesis.
Backslash sequence character classes cannot form one of the endpoints
of a range. Thus, you can't say:
/[\p{Thai}-\d]/ # Wrong!
=head3 POSIX Character Classes
X<character class> X<\p> X<\p{}>
X<alpha> X<alnum> X<ascii> X<blank> X<cntrl> X<digit> X<graph>
X<lower> X<print> X<punct> X<space> X<upper> X<word> X<xdigit>
POSIX character classes have the form C<[:class:]>, where I<class> is
name, and the C<[:> and C<:]> delimiters. POSIX character classes only appear
I<inside> bracketed character classes, and are a convenient and descriptive
way of listing a group of characters.
Be careful about the syntax,
# Correct:
$string =~ /[[:alpha:]]/
# Incorrect (will warn):
$string =~ /[:alpha:]/
The latter pattern would be a character class consisting of a colon,
and the letters C<a>, C<l>, C<p> and C<h>.
POSIX character classes can be part of a larger bracketed character class.
For example,
[01[:alpha:]%]
is valid and matches '0', '1', any alphabetic character, and the percent sign.
Perl recognizes the following POSIX character classes:
alpha Any alphabetical character ("[A-Za-z]").
alnum Any alphanumeric character ("[A-Za-z0-9]").
ascii Any character in the ASCII character set.
blank A GNU extension, equal to a space or a horizontal tab ("\t").
cntrl Any control character. See Note [2] below.
digit Any decimal digit ("[0-9]"), equivalent to "\d".
graph Any printable character, excluding a space. See Note [3] below.
lower Any lowercase character ("[a-z]").
print Any printable character, including a space. See Note [4] below.
punct Any graphical character excluding "word" characters. Note [5].
space Any whitespace character. "\s" including the vertical tab
("\cK").
upper Any uppercase character ("[A-Z]").
word A Perl extension ("[A-Za-z0-9_]"), equivalent to "\w".
xdigit Any hexadecimal digit ("[0-9a-fA-F]").
Most POSIX character classes have two Unicode-style C<\p> property
counterparts. (They are not official Unicode properties, but Perl extensions
derived from official Unicode properties.) The table below shows the relation
between POSIX character classes and these counterparts.
One counterpart, in the column labelled "ASCII-range Unicode" in
the table, matches only characters in the ASCII character set.
The other counterpart, in the column labelled "Full-range Unicode", matches any
appropriate characters in the full Unicode character set. For example,
C<\p{Alpha}> matches not just the ASCII alphabetic characters, but any
character in the entire Unicode character set considered alphabetic.
An entry in the column labelled "backslash sequence" is a (short)
equivalent.
[[:...:]] ASCII-range Full-range backslash Note
Unicode Unicode sequence
-----------------------------------------------------
alpha \p{PosixAlpha} \p{XPosixAlpha}
alnum \p{PosixAlnum} \p{XPosixAlnum}
ascii \p{ASCII}
blank \p{PosixBlank} \p{XPosixBlank} \h [1]
or \p{HorizSpace} [1]
cntrl \p{PosixCntrl} \p{XPosixCntrl} [2]
digit \p{PosixDigit} \p{XPosixDigit} \d
graph \p{PosixGraph} \p{XPosixGraph} [3]
lower \p{PosixLower} \p{XPosixLower}
print \p{PosixPrint} \p{XPosixPrint} [4]
punct \p{PosixPunct} \p{XPosixPunct} [5]
\p{PerlSpace} \p{XPerlSpace} \s [6]
space \p{PosixSpace} \p{XPosixSpace} [6]
upper \p{PosixUpper} \p{XPosixUpper}
word \p{PosixWord} \p{XPosixWord} \w
xdigit \p{PosixXDigit} \p{XPosixXDigit}
=over 4
=item [1]
C<\p{Blank}> and C<\p{HorizSpace}> are synonyms.
=item [2]
Control characters don't produce output as such, but instead usually control
the terminal somehow: for example, newline and backspace are control characters.
In the ASCII range, characters whose code points are between 0 and 31 inclusive,
plus 127 (C<DEL>) are control characters.
=item [3]
Any character that is I<graphical>, that is, visible. This class consists
of all alphanumeric characters and all punctuation characters.
=item [4]
All printable characters, which is the set of all graphical characters
plus those whitespace characters which are not also controls.
=item [5]
C<\p{PosixPunct}> and C<[[:punct:]]> in the ASCII range match all
non-controls, non-alphanumeric, non-space characters:
C<[-!"#$%&'()*+,./:;<=E<gt>?@[\\\]^_`{|}~]> (although if a locale is in effect,
it could alter the behavior of C<[[:punct:]]>).
The similarly named property, C<\p{Punct}>, matches a somewhat different
set in the ASCII range, namely
C<[-!"#%&'()*,./:;?@[\\\]_{}]>. That is, it is missing the nine
characters C<[$+E<lt>=E<gt>^`|~]>.
This is because Unicode splits what POSIX considers to be punctuation into two
categories, Punctuation and Symbols.
C<\p{XPosixPunct}> and (under Unicode rules) C<[[:punct:]]>, match what
C<\p{PosixPunct}> matches in the ASCII range, plus what C<\p{Punct}>
matches. This is different than strictly matching according to
C<\p{Punct}>. Another way to say it is that
if Unicode rules are in effect, C<[[:punct:]]> matches all characters
that Unicode considers punctuation, plus all ASCII-range characters that
Unicode considers symbols.
=item [6]
C<\p{SpacePerl}> and C<\p{Space}> match identically starting with Perl
v5.18. In earlier versions, these differ only in that in non-locale
matching, C<\p{SpacePerl}> does not match the vertical tab, C<\cK>.
Same for the two ASCII-only range forms.
=back
There are various other synonyms that can be used besides the names
listed in the table. For example, C<\p{PosixAlpha}> can be written as
C<\p{Alpha}>. All are listed in
L<perluniprops/Properties accessible through \p{} and \P{}>,
plus all characters matched by each ASCII-range property.
Both the C<\p> counterparts always assume Unicode rules are in effect.
On ASCII platforms, this means they assume that the code points from 128
to 255 are Latin-1, and that means that using them under locale rules is
unwise unless the locale is guaranteed to be Latin-1 or UTF-8. In contrast, the
POSIX character classes are useful under locale rules. They are
affected by the actual rules in effect, as follows:
=over
=item If the C</a> modifier, is in effect ...
Each of the POSIX classes matches exactly the same as their ASCII-range
counterparts.
=item otherwise ...
=over
=item For code points above 255 ...
The POSIX class matches the same as its Full-range counterpart.
=item For code points below 256 ...
=over
=item if locale rules are in effect ...
The POSIX class matches according to the locale, except that
C<word> uses the platform's native underscore character, no matter what
the locale is.
=item if Unicode rules are in effect ...
The POSIX class matches the same as the Full-range counterpart.
=item otherwise ...
The POSIX class matches the same as the ASCII range counterpart.
=back
=back
=back
Which rules apply are determined as described in
L<perlre/Which character set modifier is in effect?>.
It is proposed to change this behavior in a future release of Perl so that
whether or not Unicode rules are in effect would not change the
behavior: Outside of locale, the POSIX classes
would behave like their ASCII-range counterparts. If you wish to
comment on this proposal, send email to C<perl5-porters@perl.org>.
=head4 Negation of POSIX character classes
X<character class, negation>
A Perl extension to the POSIX character class is the ability to
negate it. This is done by prefixing the class name with a caret (C<^>).
Some examples:
POSIX ASCII-range Full-range backslash
Unicode Unicode sequence
-----------------------------------------------------
[[:^digit:]] \P{PosixDigit} \P{XPosixDigit} \D
[[:^space:]] \P{PosixSpace} \P{XPosixSpace}
\P{PerlSpace} \P{XPerlSpace} \S
[[:^word:]] \P{PerlWord} \P{XPosixWord} \W
The backslash sequence can mean either ASCII- or Full-range Unicode,
depending on various factors as described in L<perlre/Which character set modifier is in effect?>.
=head4 [= =] and [. .]
Perl recognizes the POSIX character classes C<[=class=]> and
C<[.class.]>, but does not (yet?) support them. Any attempt to use
either construct raises an exception.
=head4 Examples
/[[:digit:]]/ # Matches a character that is a digit.
/[01[:lower:]]/ # Matches a character that is either a
# lowercase letter, or '0' or '1'.
/[[:digit:][:^xdigit:]]/ # Matches a character that can be anything
# except the letters 'a' to 'f' and 'A' to
# 'F'. This is because the main character
# class is composed of two POSIX character
# classes that are ORed together, one that
# matches any digit, and the other that
# matches anything that isn't a hex digit.
# The OR adds the digits, leaving only the
# letters 'a' to 'f' and 'A' to 'F' excluded.
=head3 Extended Bracketed Character Classes
X<character class>
X<set operations>
This is a fancy bracketed character class that can be used for more
readable and less error-prone classes, and to perform set operations,
such as intersection. An example is
/(?[ \p{Thai} & \p{Digit} ])/
This will match all the digit characters that are in the Thai script.
This is an experimental feature available starting in 5.18, and is
subject to change as we gain field experience with it. Any attempt to
use it will raise a warning, unless disabled via
no warnings "experimental::regex_sets";
Comments on this feature are welcome; send email to
C<perl5-porters@perl.org>.
We can extend the example above:
/(?[ ( \p{Thai} + \p{Lao} ) & \p{Digit} ])/
This matches digits that are in either the Thai or Laotian scripts.
Notice the white space in these examples. This construct always has
the C<E<sol>x> modifier turned on.
The available binary operators are:
& intersection
+ union
| another name for '+', hence means union
- subtraction (the result matches the set consisting of those
code points matched by the first operand, excluding any that
are also matched by the second operand)
^ symmetric difference (the union minus the intersection). This
is like an exclusive or, in that the result is the set of code
points that are matched by either, but not both, of the
operands.
There is one unary operator:
! complement
All the binary operators left associate, and are of equal precedence.
The unary operator right associates, and has higher precedence. Use
parentheses to override the default associations. Some feedback we've
received indicates a desire for intersection to have higher precedence
than union. This is something that feedback from the field may cause us
to change in future releases; you may want to parenthesize copiously to
avoid such changes affecting your code, until this feature is no longer
considered experimental.
The main restriction is that everything is a metacharacter. Thus,
you cannot refer to single characters by doing something like this:
/(?[ a + b ])/ # Syntax error!
The easiest way to specify an individual typable character is to enclose
it in brackets:
/(?[ [a] + [b] ])/
(This is the same thing as C<[ab]>.) You could also have said the
equivalent:
/(?[[ a b ]])/
(You can, of course, specify single characters by using, C<\x{ }>,
C<\N{ }>, etc.)
This last example shows the use of this construct to specify an ordinary
bracketed character class without additional set operations. Note the
white space within it; C<E<sol>x> is turned on even within bracketed
character classes, except you can't have comments inside them. Hence,
(?[ [#] ])
matches the literal character "#". To specify a literal white space character,
you can escape it with a backslash, like:
/(?[ [ a e i o u \ ] ])/
This matches the English vowels plus the SPACE character.
All the other escapes accepted by normal bracketed character classes are
accepted here as well; but unrecognized escapes that generate warnings
in normal classes are fatal errors here.
All warnings from these class elements are fatal, as well as some
practices that don't currently warn. For example you cannot say
/(?[ [ \xF ] ])/ # Syntax error!
You have to have two hex digits after a braceless C<\x> (use a leading
zero to make two). These restrictions are to lower the incidence of
typos causing the class to not match what you thought it would.
The final difference between regular bracketed character classes and
these, is that it is not possible to get these to match a
multi-character fold. Thus,
/(?[ [\xDF] ])/iu
does not match the string C<ss>.
You don't have to enclose POSIX class names inside double brackets,
hence both of the following work:
/(?[ [:word:] - [:lower:] ])/
/(?[ [[:word:]] - [[:lower:]] ])/
Any contained POSIX character classes, including things like C<\w> and C<\D>
respect the C<E<sol>a> (and C<E<sol>aa>) modifiers.
C<< (?[ ]) >> is a regex-compile-time construct. Any attempt to use
something which isn't knowable at the time the containing regular
expression is compiled is a fatal error. In practice, this means
just three limitiations:
=over 4
=item 1
This construct cannot be used within the scope of
C<use locale> (or the C<E<sol>l> regex modifier).
=item 2
Any
L<user-defined property|perlunicode/"User-Defined Character Properties">
used must be already defined by the time the regular expression is
compiled (but note that this construct can be used instead of such
properties).
=item 3
A regular expression that otherwise would compile
using C<E<sol>d> rules, and which uses this construct will instead
use C<E<sol>u>. Thus this construct tells Perl that you don't want
C<E<sol>d> rules for the entire regular expression containing it.
=back
The C<E<sol>x> processing within this class is an extended form.
Besides the characters that are considered white space in normal C</x>
processing, there are 5 others, recommended by the Unicode standard:
U+0085 NEXT LINE
U+200E LEFT-TO-RIGHT MARK
U+200F RIGHT-TO-LEFT MARK
U+2028 LINE SEPARATOR
U+2029 PARAGRAPH SEPARATOR
Note that skipping white space applies only to the interior of this
construct. There must not be any space between any of the characters
that form the initial C<(?[>. Nor may there be space between the
closing C<])> characters.
Just as in all regular expressions, the pattern can can be built up by
including variables that are interpolated at regex compilation time.
Care must be taken to ensure that you are getting what you expect. For
example:
my $thai_or_lao = '\p{Thai} + \p{Lao}';
...
qr/(?[ \p{Digit} & $thai_or_lao ])/;
compiles to
qr/(?[ \p{Digit} & \p{Thai} + \p{Lao} ])/;
But this does not have the effect that someone reading the code would
likely expect, as the intersection applies just to C<\p{Thai}>,
excluding the Laotian. Pitfalls like this can be avoided by
parenthesizing the component pieces:
my $thai_or_lao = '( \p{Thai} + \p{Lao} )';
But any modifiers will still apply to all the components:
my $lower = '\p{Lower} + \p{Digit}';
qr/(?[ \p{Greek} & $lower ])/i;
matches upper case things. You can avoid surprises by making the
components into instances of this construct by compiling them:
my $thai_or_lao = qr/(?[ \p{Thai} + \p{Lao} ])/;
my $lower = qr/(?[ \p{Lower} + \p{Digit} ])/;
When these are embedded in another pattern, what they match does not
change, regardless of parenthesization or what modifiers are in effect
in that outer pattern.
Due to the way that Perl parses things, your parentheses and brackets
may need to be balanced, even including comments. If you run into any
examples, please send them to C<perlbug@perl.org>, so that we can have a
concrete example for this man page.
We may change it so that things that remain legal uses in normal bracketed
character classes might become illegal within this experimental
construct. One proposal, for example, is to forbid adjacent uses of the
same character, as in C<(?[ [aa] ])>. The motivation for such a change
is that this usage is likely a typo, as the second "a" adds nothing.
|