Just as a note, the (?FLAGS:pattern)
syntax has gotten a change with perl 5.14.0, and regex strinigification has changed along with it. To quote from perlre
:
Starting in Perl 5.14, a "^" (caret or circumflex accent) immediately after the "?" is a shorthand equivalent to "d-imsx". Flags (except "d") may follow the caret to override it. But a minus sign is not legal with it.
(d
is one of a group of new flags in 5.14 that affects how regexes are affected by Unicode; d
, the default, means to act basically like older Perl versions).
With the addition of the (?^FLAGS:pattern)
syntax, regex stringification changes to use this syntax, and only list the flags that differ from the default. So qr/hello/
stringifies as (?^:hello)
(formerly (?-xism:hello)
) and qr/hello/i
stringifies as (?^i:hello)
(formerly (?i-xsm:hello)
).
The advantage of this change is that if perl 5.16 were to add a new q
regex modifier (for "run this match on a quantum computer"), qr/hello/
won't have to change to stringify to (?d-xismq:hello)
— it will be able to stay (?^:hello)
as it is on 5.14.
p
oro
in that list, though.../p
and/o
can't apply to a parenthesized sub-part of a regular expression. The main reason that regexes have an overloaded stringification operator is so that you can interpolate them into larger regexes. (They get stringified, then interpolated, and the larger regex gets re-parsed.) It is neither possible nor meaningful for/p
and/o
to be preserved during that.qr/.../p
, then you will see(?p-xism:...)
; thep
flag has no actual effect when reinterpolated into a new regex, but it does affect the existing regex, so I guess it was considered informative to include it in the stringification. ($foo = qr/x/p; $bar =~ m/$foo/
is equivalent to$bar =~ m/x/p
, because despite how it may look, it doesn't actually stringify and re-interpolate.) The same is not done with/o
, however, presumably because it's not actually in the regex object.