The combination of C<//g> and C<\G> allows us to process the string a
bit at a time and use arbitrary Perl logic to decide what to do next.
+Currently, the C<\G> anchor is only fully supported when used to anchor
+to the start of the pattern.
C<\G> is also invaluable in processing fixed length records with
regexps. Suppose we have a snippet of coding region DNA, encoded as
The last regexp matches, but is dangerous because the string
I<character> position is no longer synchronized to the string I<byte>
position. This generates the warning 'Malformed UTF-8
-character'. C<\C> is best used for matching the binary data in strings
+character'. The C<\C> is best used for matching the binary data in strings
with binary data intermixed with Unicode characters.
Let us now discuss the rest of the character classes. Just as with
The Unicode has also been separated into various sets of charaters
which you can test with C<\p{In...}> (in) and C<\P{In...}> (not in),
-for example C<\p{InLatin}>, C<\p{InGreek}>, or C<\P{InKatakana}>.
+for example C<\p{Latin}>, C<\p{Greek}>, or C<\P{Katakana}>.
For the full list see L<perlunicode>.
C<\X> is an abbreviation for a character class sequence that includes
character classes. To negate a POSIX class, put a C<^> in front of
the name, so that, e.g., C<[:^digit:]> corresponds to C<\D> and under
C<utf8>, C<\P{IsDigit}>. The Unicode and POSIX character classes can
-be used just like C<\d>, both inside and outside of character classes:
+be used just like C<\d>, with the exception that POSIX character
+classes can only be used inside of a character class:
/\s+[abc[:digit:]xyz]\s*/; # match a,b,c,x,y,z, or a digit
- /^=item\s[:digit:]/; # match '=item',
+ /^=item\s[[:digit:]]/; # match '=item',
# followed by a space and a digit
use charnames ":full";
/\s+[abc\p{IsDigit}xyz]\s+/; # match a,b,c,x,y,z, or a digit
$x =~ /foo(?!baz)/; # matches, 'baz' doesn't follow 'foo'
$x =~ /(?<!\s)foo/; # matches, there is no \s before 'foo'
+The C<\C> is unsupported in lookbehind, because the already
+treacherous definition of C<\C> would become even more so
+when going backwards.
+
=head2 Using independent subexpressions to prevent backtracking
The last few extended patterns in this tutorial are experimental as of