Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Suppose I have a regex language supporting literals, positive and negative character classes, ordered alternation, and the greedy quantifiers ?, *, and +. (This is essentially a subset of PCRE without backreferences, look-around assertions, or some of the other fancier bits.) Does adding the nongreedy quantifiers ??, *?, and +? increase the expressive power of this formalism?

Put another way, given a pattern S containing a nongreedy quantifier, can that pattern be rewritten to an equivalent pattern T which contains no nongreedy quantifiers?

If this question has been considered in the literature, I'd appreciate any references which anyone can provide. I was able to turn up almost no theoretical work on the expressive power of extended regex formalisms (beyond the usual things about how backreferences move you from regular languages to context-free grammars).

share|improve this question
Your question could be rewritten as "Does such a pattern exist that contains greedy quantifiers that cannot be transformed into a pattern without greedy quantifiers?" Or the assertion "no pattern exists that ..." Taken this way, you're looking for a counter-example. Your question might get further, faster by providing example greedy patterns, asserting that they are not transformable to meet your criteria, and seeing what people come up with. Then again, people might think they can answer your full hypothesis by solving each test... –  Merlyn Morgan-Graham Jul 20 '11 at 18:40
Wouldn't this type of question be more appropriate for cstheory.stackexchange.com –  Mat Jul 20 '11 at 18:48
@Mat: Yes, I'd forgotten that the cstheory site existed. I've asked there. –  uckelman Jul 21 '11 at 12:14

1 Answer 1

When you say "Regex", you're refering to a several techniques - this isn't just an issue of the underlying theory. Consider the question "does this string match my given Regex?" For such a question, the notion of "greedy" is merely an implementation detail - if you're using one of the common (but inefficient) backtracking implementations, this can affect performance but not output. Similarly, the question "does this string contain a match?" is not affected by greedy vs. non-greedy quantifiers. This first type of regex is concerning with the abstract notion of set-membership: defining the language of matching strings.

So why do non-greedy quantifiers even exist? Regexes are not merely used for matching; common implementations can locate where the match is and which parts of the regex match which parts of the output. By doing this, a user depends on the intricacies of the implementation, which isn't trivial. This second type of regex is concerned with getting a few bits of text into a more practical representation withing the context of an otherwise turing-complete language.

Generally, when you talk of the strength of the regular expression formalism, you're talking about the first world - in which the computer answers with a simple yes or no. It's easy to talk about because the specification is clear. When you talk of a greedy vs. non-greedy quantifier, you're talking about the second world - used lots in practice, but with a specification that's mostly grown without much planning to solve real problems and is a standard by virtue of backwards compatibility. This second world is solving entirely different problems, and it's not clear to me what "expressive power" should even mean here. Certainly, non-greedy can be practical; and that's kind of the point...

Non-greedy quantifiers don't do anything for the first type of expressiveness, and they do for the second, although it's not quite clear what "expressive power" means here anyhow.

share|improve this answer
This is an issue of theory, not of implementation. Example: The languages of the patterns a+ and a+? are not the same. L(a+) is the set of all finite runs of the letter a, while L(a+?) = { a }. –  uckelman Jul 21 '11 at 9:20
a+? matches aaa just fine - the non-greedy part simply means it'll match a first (again, this difference is about searching, not matching). You can demonstrate that behavior in a typical implementation by searching for ^a+?$ - which will return all a's - and clearly any consumed a in the input must then have been matched by the a+? sub-matcher. –  Eamon Nerbonne Jul 21 '11 at 17:17
The reason I'm disagreeing here is that it's no longer the same pattern once you add the anchors. –  uckelman Jul 22 '11 at 10:33
It matches even without the anchors. –  Eamon Nerbonne Jul 23 '11 at 14:23
@uckelman: Can you clarify what you mean when you write that L(a+?) = { a }? Taken literally, that's obviously not true, since a+? will happily match any sequence of one or more a's -- it just prefers to match as few as possible. –  ruakh May 19 '14 at 0:28

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.