I want to write a regular expression which matches anything between
()
(())
(()())
((()))
()()()
etc.
I want to write a regular expression which matches anything between
()
(())
(()())
((()))
()()()
etc.
All these answers claiming you can't use patterns to match a string with balanced nested parens are quite wrong. It's not practical to pretend that the patterns matched by modern programming languages are restricted to "regular languages" in the pathological textbook sense. As soon as you permit backreferences, they're not. This allows real-world patterns to match much more than the textbook versions, making them far more practical.
The simplest pattern for matching balanced parens is \((?:[^()]*+|(?0))*\)
. But you should never write that, because it is too compact to be easily read. You should always write it with /x
mode to allow for whitespace and comments. So write it like this:
m{
\( # literal open paren
(?: # begin alternation group
[^()]*+ # match nonparens possessively
| # or else
(?0) # recursively match entire pattern
)* # repeat alternation group
\) # literal close paren
}x
There's also a lot to be said for naming your abstractions, and decoupling their definition and its ordering from their execution. That leads to this sort of thing:
my $nested_paren_rx = qr{
(?&nested_parens)
(?(DEFINE)
(?<open> \( )
(?<close> \) )
(?<nonparens> [^()] )
(?<nested_parens>
(?&open)
(?:
(?&nonparens) *+
|
(?&nested_parens)
) *
(?&close)
)
)
}x;
The second form is now amenable to inclusion in larger patterns.
Don't ever let anybody tell you can't use a pattern to match something that's recursively defined. As I've just demonstrated, you most certainly can.
While you're at it, make sure never to write line-noise patterns. You don't have to, and you shouldn't. No programming language can be maintainable that forbids white space, comments, subroutines, or alphanumeric identifiers. So use all those things in your patterns.
Of course, it does help to pick the right language for this kind of work. ☺
(.)\1
is just shorthand for aa|bb|cc|dd|...
you can do the same transformation for all uses of back-references. Indeed [...]
notation and ?
notation are all just shorthand for alternatives in classical regexes. Recursive regexes on the other hand are a very different kettle of fish, using that feature stops it from being regular...
Jan 29, 2011 at 12:57
(.+).*\1
. This requires auxiliary storage beyond what is needed for the automaton’s states, and indeed it requires storage proportionate to the length of the input string being matched against. This clearly violates one of the fundamental properties of a ʀᴇɢᴜʟᴀʀ language, and so cannot be solved by a DFA because no further storage can be required, especially no storage proportionate to the input length. Therefore the language which that pattern describes is by definition not ʀᴇɢᴜʟᴀʀ.
S ::= '(' S ')'
I would love to see if anyone has written an analysis on what class of languages normal regexes can parse... (I still don't consider recursive regexes a 'normal' feature yet... i've really not seen them used outside of this post)
Jan 29, 2011 at 23:46
In case you are stuck with language whose regular expression syntax does not support recursive matching I'm giving you my simple Javascript implementation from which you should be able to make your own in the language of your choice:
function testBraces(s) {
for (var i=0, j=0; i<s.length && j>=0; i++)
switch(s.charAt(i)) {
case '(': { j++ ; break; }
case ')': { j-- ; break; }
}
return j == 0;
}
And here you can play with it: http://jsfiddle.net/BFsn2/
&& j>=0
bit in the end condition of the for loop (was it there all the time or did you edit it in the five-minute window?). Perfect.
Oct 27, 2010 at 14:34
Such nested structure cannot be effectively handled by regular expressions. What you need is a grammar and a parser for that grammar. In your case the grammar is simple enough. If you are using python try pyparsing or funcparserlib.
With pyparsing you can do the following:
from pyparsing import nestedExpr
nestedExpr().parseString( "(some (string you) (want) (to) test)" ).asList()
This will return a list containing the parsed components of the nested string. The default delimiter for nestedExpr is parenthesis, so you do not have to do anything extra. If you want to use funcpasrerlib you can try the following
from funcparserlib.parser import forward_decl, many, a
bracketed = forward_decl()
bracketed.define(a('(') + many(bracketed) + a(')'))
After this you can call
bracketed.parse( "( (some) ((test) (string) (you) (want)) (to test))" )
and it will return the parsed elements in a tuple.
I wish you good luck. You'd need a finite state automata with a stack to parse something like this. It can't be parsed using only regex, since it's not powerful enough.