=head1 NAME
+X<regular expression> X<regex> X<regexp>
perlre - Perl regular expressions
=head1 DESCRIPTION
-This page describes the syntax of regular expressions in Perl. For a
-description of how to I<use> regular expressions in matching
-operations, plus various examples of the same, see discussions
-of C<m//>, C<s///>, C<qr//> and C<??> in L<perlop/"Regexp Quote-Like Operators">.
+This page describes the syntax of regular expressions in Perl.
+
+If you haven't used regular expressions before, a quick-start
+introduction is available in L<perlrequick>, and a longer tutorial
+introduction is available in L<perlretut>.
+
+For reference on how regular expressions are used in matching
+operations, plus various examples of the same, see discussions of
+C<m//>, C<s///>, C<qr//> and C<??> in L<perlop/"Regexp Quote-Like
+Operators">.
Matching operations can have various modifiers. Modifiers
that relate to the interpretation of the regular expression inside
=over 4
=item i
+X</i> X<regex, case-insensitive> X<regexp, case-insensitive>
+X<regular expression, case-insensitive>
Do case-insensitive pattern matching.
locale. See L<perllocale>.
=item m
+X</m> X<regex, multiline> X<regexp, multiline> X<regular expression, multiline>
Treat string as multiple lines. That is, change "^" and "$" from matching
the start or end of the string to matching the start or end of any
line anywhere within the string.
=item s
+X</s> X<regex, single-line> X<regexp, single-line>
+X<regular expression, single-line>
Treat string as single line. That is, change "." to match any character
whatsoever, even a newline, which normally it would not match.
-The C</s> and C</m> modifiers both override the C<$*> setting. That
-is, no matter what C<$*> contains, C</s> without C</m> will force
-"^" to match only at the beginning of the string and "$" to match
-only at the end (or just before a newline at the end) of the string.
-Together, as /ms, they let the "." match any character whatsoever,
-while yet allowing "^" and "$" to match, respectively, just after
+Used together, as /ms, they let the "." match any character whatsoever,
+while still allowing "^" and "$" to match, respectively, just after
and just before newlines within the string.
=item x
+X</x>
Extend your pattern's legibility by permitting whitespace and comments.
pattern delimiter in the comment--perl has no way of knowing you did
not intend to close the pattern early. See the C-comment deletion code
in L<perlop>.
+X</x>
=head2 Regular Expressions
In particular the following metacharacters have their standard I<egrep>-ish
meanings:
+X<metacharacter>
+X<\> X<^> X<.> X<$> X<|> X<(> X<()> X<[> X<[]>
+
\ Quote the next metacharacter
^ Match the beginning of the line
newline within the string, and "$" will match before any newline. At the
cost of a little more overhead, you can do this by using the /m modifier
on the pattern match operator. (Older programs did this by setting C<$*>,
-but this practice is now deprecated.)
+but this practice has been removed in perl 5.9.)
+X<^> X<$> X</m>
To simplify multi-line substitutions, the "." character never matches a
newline unless you use the C</s> modifier, which in effect tells Perl to pretend
-the string is a single line--even if it isn't. The C</s> modifier also
-overrides the setting of C<$*>, in case you have some (badly behaved) older
-code that sets it in another module.
+the string is a single line--even if it isn't.
+X<.> X</s>
The following standard quantifiers are recognized:
+X<metacharacter> X<quantifier> X<*> X<+> X<?> X<{n}> X<{n,}> X<{n,m}>
* Match 0 or more times
+ Match 1 or more times
{n,m} Match at least n but not more than m times
(If a curly bracket occurs in any other context, it is treated
-as a regular character.) The "*" modifier is equivalent to C<{0,}>, the "+"
+as a regular character. In particular, the lower bound
+is not optional.) The "*" modifier is equivalent to C<{0,}>, the "+"
modifier to C<{1,}>, and the "?" modifier to C<{0,1}>. n and m are limited
to integral values less than a preset limit defined when perl is built.
This is usually 32766 on the most common platforms. The actual limit can
allowing the rest of the pattern to match. If you want it to match the
minimum number of times possible, follow the quantifier with a "?". Note
that the meanings don't change, just the "greediness":
+X<metacharacter> X<greedy> X<greedyness>
+X<?> X<*?> X<+?> X<??> X<{n}?> X<{n,}?> X<{n,m}?>
*? Match 0 or more times
+? Match 1 or more times
Because patterns are processed as double quoted strings, the following
also work:
+X<\t> X<\n> X<\r> X<\f> X<\a> X<\l> X<\u> X<\L> X<\U> X<\E> X<\Q>
+X<\0> X<\c> X<\N> X<\x>
\t tab (HT, TAB)
\n newline (LF, NL)
You'll need to write something like C<m/\Quser\E\@\Qhost/>.
In addition, Perl defines the following:
+X<metacharacter>
+X<\w> X<\W> X<\s> X<\S> X<\d> X<\D> X<\X> X<\p> X<\P> X<\C>
+X<word> X<whitespace>
\w Match a "word" character (alphanumeric plus "_")
\W Match a non-"word" character
\pP Match P, named property. Use \p{Prop} for longer names.
\PP Match non-P
\X Match eXtended Unicode "combining character sequence",
- equivalent to C<(?:\PM\pM*)>
- \C Match a single C char (octet) even under utf8.
- (Currently this does not work correctly.)
-
-A C<\w> matches a single alphanumeric character or C<_>, not a whole word.
-Use C<\w+> to match a string of Perl-identifier characters (which isn't
-the same as matching an English word). If C<use locale> is in effect, the
-list of alphabetic characters generated by C<\w> is taken from the
-current locale. See L<perllocale>. You may use C<\w>, C<\W>, C<\s>, C<\S>,
+ equivalent to (?:\PM\pM*)
+ \C Match a single C char (octet) even under Unicode.
+ NOTE: breaks up characters into their UTF-8 bytes,
+ so you may end up with malformed pieces of UTF-8.
+ Unsupported in lookbehind.
+
+A C<\w> matches a single alphanumeric character (an alphabetic
+character, or a decimal digit) or C<_>, not a whole word. Use C<\w+>
+to match a string of Perl-identifier characters (which isn't the same
+as matching an English word). If C<use locale> is in effect, the list
+of alphabetic characters generated by C<\w> is taken from the current
+locale. See L<perllocale>. You may use C<\w>, C<\W>, C<\s>, C<\S>,
C<\d>, and C<\D> within character classes, but if you try to use them
-as endpoints of a range, that's not a range, the "-" is understood literally.
-See L<utf8> for details about C<\pP>, C<\PP>, and C<\X>.
+as endpoints of a range, that's not a range, the "-" is understood
+literally. If Unicode is in effect, C<\s> matches also "\x{85}",
+"\x{2028}, and "\x{2029}", see L<perlunicode> for more details about
+C<\pP>, C<\PP>, and C<\X>, and L<perluniintro> about Unicode in general.
+You can define your own C<\p> and C<\P> properties, see L<perlunicode>.
+X<\w> X<\W> X<word>
The POSIX character class syntax
+X<character class>
[:class:]
is also available. The available classes and their backslash
equivalents (if available) are as follows:
+X<character class>
+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>
alpha
alnum
word \w [3]
xdigit
- [1] A GNU extension equivalent to C<[ \t]>, `all horizontal whitespace'.
- [2] Not I<exactly equivalent> to C<\s> since the C<[[:space:]]> includes
- also the (very rare) `vertical tabulator', "\ck", chr(11).
- [3] A Perl extension.
+=over
+
+=item [1]
+
+A GNU extension equivalent to C<[ \t]>, "all horizontal whitespace".
+
+=item [2]
+
+Not exactly equivalent to C<\s> since the C<[[:space:]]> includes
+also the (very rare) "vertical tabulator", "\ck", chr(11).
+
+=item [3]
+
+A Perl extension, see above.
+
+=back
For example use C<[:upper:]> to match all the uppercase characters.
Note that the C<[]> are part of the C<[::]> construct, not part of the
matches zero, one, any alphabetic character, and the percentage sign.
-If the C<utf8> pragma is used, the following equivalences to Unicode
-\p{} constructs and equivalent backslash character classes (if available),
-will hold:
+The following equivalences to Unicode \p{} constructs and equivalent
+backslash character classes (if available), will hold:
+X<character class> X<\p> X<\p{}>
+
+ [:...:] \p{...} backslash
alpha IsAlpha
alnum IsAlnum
ascii IsASCII
- blank IsSpace
+ blank IsSpace
cntrl IsCntrl
digit IsDigit \d
graph IsGraph
If the C<utf8> pragma is not used but the C<locale> pragma is, the
classes correlate with the usual isalpha(3) interface (except for
-`word' and `blank').
+"word" and "blank").
The assumedly non-obviously named classes are:
=over 4
=item cntrl
+X<cntrl>
Any control character. Usually characters that don't produce output as
such but instead control the terminal somehow: for example newline and
backspace are control characters. All characters with ord() less than
32 are most often classified as control characters (assuming ASCII,
-the ISO Latin character sets, and Unicode).
+the ISO Latin character sets, and Unicode), as is the character with
+the ord() value of 127 (C<DEL>).
=item graph
+X<graph>
Any alphanumeric or punctuation (special) character.
=item print
+X<print>
-Any alphanumeric or punctuation (special) character or space.
+Any alphanumeric or punctuation (special) character or the space character.
=item punct
+X<punct>
Any punctuation (special) character.
=item xdigit
+X<xdigit>
Any hexadecimal digit. Though this may feel silly ([0-9A-Fa-f] would
work just fine) it is included for completeness.
You can negate the [::] character classes by prefixing the class name
with a '^'. This is a Perl extension. For example:
+X<character class, negation>
- POSIX trad. Perl utf8 Perl
+ POSIX traditional Unicode
[:^digit:] \D \P{IsDigit}
[:^space:] \S \P{IsSpace}
[:^word:] \W \P{IsWord}
-The POSIX character classes [.cc.] and [=cc=] are recognized but
-B<not> supported and trying to use them will cause an error.
+Perl respects the POSIX standard in that POSIX character classes are
+only supported within a character class. The POSIX character classes
+[.cc.] and [=cc=] are recognized but B<not> supported and trying to
+use them will cause an error.
Perl defines the following zero-width assertions:
+X<zero-width assertion> X<assertion> X<regex, zero-width assertion>
+X<regexp, zero-width assertion>
+X<regular expression, zero-width assertion>
+X<\b> X<\B> X<\A> X<\Z> X<\z> X<\G>
\b Match a word boundary
\B Match a non-(word boundary)
"^" and "$" will match at every internal line boundary. To match
the actual end of the string and not ignore an optional trailing
newline, use C<\z>.
+X<\b> X<\A> X<\Z> X<\z> X</m>
The C<\G> assertion can be used to chain global matches (using
C<m//g>), as described in L<perlop/"Regexp Quote-Like Operators">.
several patterns that you want to match against consequent substrings
of your string, see the previous reference. The actual location
where C<\G> will match can also be influenced by using C<pos()> as
-an lvalue. See L<perlfunc/pos>.
+an lvalue: see L<perlfunc/pos>. Currently C<\G> is only fully
+supported when anchored to the start of the pattern; while it
+is permitted to use it elsewhere, as in C</(?<=\G..)./g>, some
+such uses (C</.\G/g>, for example) currently cause problems, and
+it is recommended that you avoid such usage for now.
+X<\G>
The bracketing construct C<( ... )> creates capture buffers. To
refer to the digit'th buffer use \<digit> within the
the match. See the warning below about \1 vs $1 for details.)
Referring back to another part of the match is called a
I<backreference>.
+X<regex, capture buffer> X<regexp, capture buffer>
+X<regular expression, capture buffer> X<backreference>
There is no limit to the number of captured substrings that you may
use. However Perl also uses \10, \11, etc. as aliases for \010,
-\011, etc. (Recall that 0 means octal, so \011 is the 9'th ASCII
-character, a tab.) Perl resolves this ambiguity by interpreting
-\10 as a backreference only if at least 10 left parentheses have
-opened before it. Likewise \11 is a backreference only if at least
-11 left parentheses have opened before it. And so on. \1 through
-\9 are always interpreted as backreferences."
+\011, etc. (Recall that 0 means octal, so \011 is the character at
+number 9 in your coded character set; which would be the 10th character,
+a horizontal tab under ASCII.) Perl resolves this
+ambiguity by interpreting \10 as a backreference only if at least 10
+left parentheses have opened before it. Likewise \11 is a
+backreference only if at least 11 left parentheses have opened
+before it. And so on. \1 through \9 are always interpreted as
+backreferences.
Examples:
match. C<$+> returns whatever the last bracket match matched.
C<$&> returns the entire matched string. (At one point C<$0> did
also, but now it returns the name of the program.) C<$`> returns
-everything before the matched string. And C<$'> returns everything
-after the matched string.
-
-The numbered variables ($1, $2, $3, etc.) and the related punctuation
-set (C<$+>, C<$&>, C<$`>, and C<$'>) are all dynamically scoped
+everything before the matched string. C<$'> returns everything
+after the matched string. And C<$^N> contains whatever was matched by
+the most-recently closed group (submatch). C<$^N> can be used in
+extended patterns (see below), for example to assign a submatch to a
+variable.
+X<$+> X<$^N> X<$&> X<$`> X<$'>
+
+The numbered match variables ($1, $2, $3, etc.) and the related punctuation
+set (C<$+>, C<$&>, C<$`>, C<$'>, and C<$^N>) are all dynamically scoped
until the end of the enclosing block or until the next successful
match, whichever comes first. (See L<perlsyn/"Compound Statements">.)
+X<$+> X<$^N> X<$&> X<$`> X<$'>
+X<$1> X<$2> X<$3> X<$4> X<$5> X<$6> X<$7> X<$8> X<$9>
+
+
+B<NOTE>: failed matches in Perl do not reset the match variables,
+which makes it easier to write code that tests for a series of more
+specific cases and remembers the best match.
B<WARNING>: Once Perl sees that you need one of C<$&>, C<$`>, or
C<$'> anywhere in the program, it has to provide them for every
them), once you've used them once, use them at will, because you've
already paid the price. As of 5.005, C<$&> is not so costly as the
other two.
+X<$&> X<$`> X<$'>
Backslashed metacharacters in Perl are alphanumeric, such as C<\b>,
C<\w>, C<\n>. Unlike some other regular expression languages, there
=over 10
=item C<(?#text)>
+X<(?#)>
A comment. The text is ignored. If the C</x> modifier enables
whitespace formatting, a simple C<#> will suffice. Note that Perl closes
C<)> in the comment.
=item C<(?imsx-imsx)>
+X<(?)>
-One or more embedded pattern-match modifiers. This is particularly
-useful for dynamic patterns, such as those read in from a configuration
-file, read in as an argument, are specified in a table somewhere,
-etc. Consider the case that some of which want to be case sensitive
-and some do not. The case insensitive ones need to include merely
-C<(?i)> at the front of the pattern. For example:
+One or more embedded pattern-match modifiers, to be turned on (or
+turned off, if preceded by C<->) for the remainder of the pattern or
+the remainder of the enclosing pattern group (if any). This is
+particularly useful for dynamic patterns, such as those read in from a
+configuration file, read in as an argument, are specified in a table
+somewhere, etc. Consider the case that some of which want to be case
+sensitive and some do not. The case insensitive ones need to include
+merely C<(?i)> at the front of the pattern. For example:
$pattern = "foobar";
if ( /$pattern/i ) { }
$pattern = "(?i)foobar";
if ( /$pattern/ ) { }
-Letters after a C<-> turn those modifiers off. These modifiers are
-localized inside an enclosing group (if any). For example,
+These modifiers are restored at the end of the enclosing group. For example,
( (?i) blah ) \s+ \1
group.
=item C<(?:pattern)>
+X<(?:)>
=item C<(?imsx-imsx:pattern)>
/(?:(?s-i)more.*than).*million/i
=item C<(?=pattern)>
+X<(?=)> X<look-ahead, positive> X<lookahead, positive>
A zero-width positive look-ahead assertion. For example, C</\w+(?=\t)/>
matches a word followed by a tab, without including the tab in C<$&>.
=item C<(?!pattern)>
+X<(?!)> X<look-ahead, negative> X<lookahead, negative>
A zero-width negative look-ahead assertion. For example C</foo(?!bar)/>
matches any occurrence of "foo" that isn't followed by "bar". Note
For look-behind see below.
=item C<(?<=pattern)>
+X<(?<=)> X<look-behind, positive> X<lookbehind, positive>
A zero-width positive look-behind assertion. For example, C</(?<=\t)\w+/>
matches a word that follows a tab, without including the tab in C<$&>.
Works only for fixed-width look-behind.
=item C<(?<!pattern)>
+X<(?<!)> X<look-behind, negative> X<lookbehind, negative>
A zero-width negative look-behind assertion. For example C</(?<!bar)foo/>
matches any occurrence of "foo" that does not follow "bar". Works
only for fixed-width look-behind.
=item C<(?{ code })>
+X<(?{})> X<regex, code in> X<regexp, code in> X<regular expression, code in>
B<WARNING>: This extended regular expression feature is considered
highly experimental, and may be changed or deleted without notice.
-This zero-width assertion evaluate any embedded Perl code. It
+This zero-width assertion evaluates any embedded Perl code. It
always succeeds, and its C<code> is not interpolated. Currently,
the rules to determine where the C<code> ends are somewhat convoluted.
+This feature can be used together with the special variable C<$^N> to
+capture the results of submatches in variables without having to keep
+track of the number of nested parentheses. For example:
+
+ $_ = "The brown fox jumps over the lazy dog";
+ /the (\S+)(?{ $color = $^N }) (\S+)(?{ $animal = $^N })/i;
+ print "color = $color, animal = $animal\n";
+
+Inside the C<(?{...})> block, C<$_> refers to the string the regular
+expression is matching against. You can also use C<pos()> to know what is
+the current position of matching within this string.
+
The C<code> is properly scoped in the following sense: If the assertion
is backtracked (compare L<"Backtracking">), all changes introduced after
C<local>ization are undone, so that
you turn on the C<use re 'eval'>, though, it is no longer secure,
so you should only do so if you are also using taint checking.
Better yet, use the carefully constrained evaluation within a Safe
-module. See L<perlsec> for details about both these mechanisms.
+compartment. See L<perlsec> for details about both these mechanisms.
=item C<(??{ code })>
+X<(??{})>
+X<regex, postponed> X<regexp, postponed> X<regular expression, postponed>
+X<regex, recursive> X<regexp, recursive> X<regular expression, recursive>
B<WARNING>: This extended regular expression feature is considered
highly experimental, and may be changed or deleted without notice.
}x;
=item C<< (?>pattern) >>
+X<backtrack> X<backtracking>
B<WARNING>: This extended regular expression feature is considered
highly experimental, and may be changed or deleted without notice.
the time when used on a similar string with 1000000 C<a>s. Be aware,
however, that this pattern currently triggers a warning message under
the C<use warnings> pragma or B<-w> switch saying it
-C<"matches the null string many times">):
+C<"matches null string many times in regex">.
On simple groups, such as the pattern C<< (?> [^()]+ ) >>, a comparable
effect may be achieved by negative look-ahead, as in C<[^()]+ (?! [^()] )>.
the above specification of comments.
=item C<(?(condition)yes-pattern|no-pattern)>
+X<(?()>
=item C<(?(condition)yes-pattern)>
=back
=head2 Backtracking
+X<backtrack> X<backtracking>
NOTE: This section presents an abstract approximation of regular
expression behavior. For a more rigorous (and complicated) view of
got <d is under the >
Here's another example: let's say you'd like to match a number at the end
-of a string, and you also want to keep the preceding part the match.
+of a string, and you also want to keep the preceding part of the match.
So you write this:
$_ = "I have 2 numbers: 53147";
know which variety of success you will achieve.
When using look-ahead assertions and negations, this can all get even
-tricker. Imagine you'd like to find a sequence of non-digits not
+trickier. Imagine you'd like to find a sequence of non-digits not
followed by "123". You might try to write that as
$_ = "ABC123";
But that isn't going to match; at least, not the way you're hoping. It
claims that there is no 123 in the string. Here's a clearer picture of
-why it that pattern matches, contrary to popular expectations:
+why that pattern matches, contrary to popular expectations:
$x = 'ABC123' ;
$y = 'ABC445' ;
following match, see L<C<< (?>pattern) >>>.
=head2 Version 8 Regular Expressions
+X<regular expression, version 8> X<regex, version 8> X<regexp, version 8>
In case you're not familiar with the "regular" Version 8 regex
routines, here are the pattern-matching rules not described above.
at the end of the list, just before the closing "]". (The
following all specify the same class of three characters: C<[-az]>,
C<[az-]>, and C<[a\-z]>. All are different from C<[a-z]>, which
-specifies a class containing twenty-six characters.)
-Also, if you try to use the character classes C<\w>, C<\W>, C<\s>,
-C<\S>, C<\d>, or C<\D> as endpoints of a range, that's not a range,
-the "-" is understood literally.
+specifies a class containing twenty-six characters, even on EBCDIC
+based coded character sets.) Also, if you try to use the character
+classes C<\w>, C<\W>, C<\s>, C<\S>, C<\d>, or C<\D> as endpoints of
+a range, that's not a range, the "-" is understood literally.
Note also that the whole range idea is rather unportable between
character sets--and even within character sets they may cause results
Characters may be specified using a metacharacter syntax much like that
used in C: "\n" matches a newline, "\t" a tab, "\r" a carriage return,
"\f" a form feed, etc. More generally, \I<nnn>, where I<nnn> is a string
-of octal digits, matches the character whose ASCII value is I<nnn>.
-Similarly, \xI<nn>, where I<nn> are hexadecimal digits, matches the
-character whose ASCII value is I<nn>. The expression \cI<x> matches the
-ASCII character control-I<x>. Finally, the "." metacharacter matches any
-character except "\n" (unless you use C</s>).
+of octal digits, matches the character whose coded character set value
+is I<nnn>. Similarly, \xI<nn>, where I<nn> are hexadecimal digits,
+matches the character whose numeric value is I<nn>. The expression \cI<x>
+matches the character control-I<x>. Finally, the "." metacharacter
+matches any character except "\n" (unless you use C</s>).
You can specify a series of alternatives for a pattern using "|" to
separate them, so that C<fee|fie|foe> will match any of "fee", "fie",
This is grandfathered for the RHS of a substitute to avoid shocking the
B<sed> addicts, but it's a dirty habit to get into. That's because in
-PerlThink, the righthand side of a C<s///> is a double-quoted string. C<\1> in
+PerlThink, the righthand side of an C<s///> is a double-quoted string. C<\1> in
the usual double-quoted string means a control-A. The customary Unix
meaning of C<\1> is kludged in for C<s///>. However, if you get into the habit
of doing that, you get yourself into trouble if you then add an C</e>
the functionality of the RE engine.
Suppose that we want to enable a new RE escape-sequence C<\Y|> which
-matches at boundary between white-space characters and non-whitespace
+matches at boundary between whitespace characters and non-whitespace
characters. Note that C<(?=\S)(?<!\S)|(?!\S)(?<=\S)> matches exactly
at these positions, so we want to have each C<\Y|> in the place of the
more complicated version. We can create a module C<customre> to do
sub invalid { die "/$_[0]/: invalid escape '\\$_[1]'"}
- my %rules = ( '\\' => '\\',
+ # We must also take care of not escaping the legitimate \\Y|
+ # sequence, hence the presence of '\\' in the conversion rules.
+ my %rules = ( '\\' => '\\\\',
'Y|' => qr/(?=\S)(?<!\S)|(?!\S)(?<=\S)/ );
sub convert {
my $re = shift;
=head1 SEE ALSO
+L<perlrequick>.
+
+L<perlretut>.
+
L<perlop/"Regexp Quote-Like Operators">.
L<perlop/"Gory details of parsing quoted constructs">.
L<perllocale>.
+L<perlebcdic>.
+
I<Mastering Regular Expressions> by Jeffrey Friedl, published
by O'Reilly and Associates.