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Are regex atomic groups distributive?

I.e. is (?>A?B?) always equivalent to (?>A?)(?>B?)?

If not please provide a counter example.

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well last time i got homework there was still no internet, so no. –  eyaler May 30 '12 at 20:09
Are the ? question marks important to the question? Can I reinterpret the question as "Is (?>AB) always equivalent to (?>A)(?>B)?" ? –  agent-j May 30 '12 at 20:18
i think they are important –  eyaler May 30 '12 at 20:20
I think the answer is "yes, they are always equivalent for optional entities" though I cannot prove it. I tried it with (?>\d?)(?>\w?), (?>\d)(?>\w), and (?>\S?)(?>\w?). And the results were identical for the distributive form of each. –  agent-j May 30 '12 at 20:26
I've tried for a few hours, I cannot come up with a counter example with all matching groups optional. Best I could come up with is a counter example with non-optional lookaheads and behinds but no other non-optional matching groups. –  OmnipotentEntity May 31 '12 at 1:13
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2 Answers

up vote 2 down vote accepted

Atomic groups in general

  1. The atomic group (?>regex1|regex2|regex3) takes only the first successful match within it. In other words, it doesn't allow backtracking.

  2. Regexes are evaluated left-to-right, so you express the order you intend things to match. The engine starts at the first position, trying to make a successful match, backtracking if necessary. If any path through the expression would lead to a successful match, then it will match at that position.

  3. Atomic groups are not distributive. Consider these patterns evaluated over ABC: (?>(AB?))(?>(BC)) (no match) and (?>(AB?)(BC)) (matches ABC).

Atomic Groups with all optional components

But, your scenario where both parts are optional may be different.

Considering an atomic group with 2 greedy optional parts A and B ((A)? and (B)?). At any position, if A matches, it can move on to evaluate the optional B. Otherwise, if A doesn't match, that's fine, too because it's optional. Therefore, (A)? matches at any position. The same logic applies for the optional B. The question remaining is whether there can be any difference in backtracking.

In the case of all optional parts ((?>A?B?)), since each part always matches, there's no reason to backtrack within the atomic group, so it will always match. Then, since it is in an atomic group, it is prohibited from backtracking.

In the case of separate atomic groups ((?>A?)(?>B?)), each part always matches, and the engine is prohibited from backtracking in either case. This means the results will be the same.

To reiterate, the engine can only use the first possible match in (?>A?)(?>B?), which will always be the same match as the first possible match in (?>A?B?). Thus, if my reasoning is correct,for this special case, the matches will be the same for multiple optional atomic groups as a single atomic group with both optional components.

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from jpaugh's answer i gather that "optional" should mean ?, not * –  eyaler May 31 '12 at 12:20
@eyaler, yes, you are right. I meant ? (the greedy 1 or zero repeat) when I said optional. –  agent-j May 31 '12 at 12:26
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Since you didn't specify, I'll assume you're referring to Perl regexes, since I haven't seen the (?>) grouping operator in any other language.

Consider the following:

ra = 'A?'
rb = 'B?'

/(?>${ra} ${rb})/x is the same as/(?>${ra})(?>${rb})/x.

In this case, yes, it works either way; however, because (?>) disables backtracking, this is not the case with some other values of ra and rb.

For example, given:

ra = 'A*'
rb = 'AB*'

/(?>${ra} ${rb})/x != /(?>${ra})(?>${rb})/x.

In the latter, rb could never match, since ra would consume an entire sequence of A's, and would not allow backtracking. Note that this would work if we used (?:) as the grouping operator. Note also, that if we used capture groups (), then the match would be the same, but the side effects (assignment to \1, \2, ...) would be different.

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