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.

I can't seem to find an answer to this problem, and I'm wondering if one exists. Simplified example:

Consider a string "nnnn", where I want to find all matches of "nn" - but also those that overlap with each other. So the regex would provide the following 3 matches:

  1. nnnn
  2. nnnn
  3. nnnn

I realize this is not exactly what regexes are meant for, but walking the string and parsing this manually seems like an awful lot of code, considering that in reality the matches would have to be done using a pattern, not a literal string.

share|improve this question

3 Answers 3

up vote 16 down vote accepted

A possible solution could be to use a positive look behind:


It would give you the end position of:

  1. nnnn  
  2. n*n*nn  
  3. nn*n*n

As mentionned by Timothy Khouri, a positive lookahead is more intuitive

I would prefer to his proposition (?=nn)n the simpler form:


That would reference the first position of the strings you want and would capture the second n in group(2).

That is so because:

  • Any valid regular expression can be used inside the lookahead.
  • If it contains capturing parentheses, the backreferences will be saved.

So group(1) and group(2) will capture whatever 'n' represents (even if it is a complicated regex).

share|improve this answer
Also, you could have done it with a positive look ahead: (?=nn)n ... that says "while ahead is two N's, match an N". –  Timothy Khouri Nov 26 '08 at 12:23
Excuse me, but I still don't see the requested three overlapping captures. You capture two n, but not three groups. If I match (\d\d)(?=(\d\d)) against foo4237bar, I get two captures, not three: 42 and 37 (in both Regex Coach and PCRE Workbench). I am probably thick, so I need more explanations. –  PhiLho Nov 26 '08 at 22:47
Please read again the answer: (\d)(?=(\d)), not (\d\d)(?=(\d\d)): you will have 3 sets of capturing groups: (4)(2), (2)(3), (3)(7) –  VonC Nov 26 '08 at 22:57

Using a lookahead with a capturing group works, at the expense of making your regex slower and more complicated. An alternative solution is to tell the Regex.Match() method where the next match attempt should begin. Try this:

Regex regexObj = new Regex("nn");
Match matchObj = regexObj.Match(subjectString);
while (matchObj.Success) {
    matchObj = regexObj.Match(subjectString, matchObj.Index + 1); 
share|improve this answer
Regular-Expressions.info webmaster... => mandatory + 1. Plus, you are right, of course. –  VonC Nov 26 '08 at 19:28

AFAIK, there is no pure regex way to do that at once (ie. returning the three captures you request without loop).

Now, you can find a pattern once, and loop on the search starting with offset (found position + 1). Should combine regex use with simple code.

[EDIT] Great, I am downvoted when I basically said what Jan shown...
[EDIT 2] To be clear: Jan's answer is better. Not more precise, but certainly more detailed, it deserves to be chosen. I just don't understand why mine is downvoted, since I still see nothing incorrect in it. Not a big deal, just annoying.

share|improve this answer
Beat me to it by 1 second, I'll withdraw my identical answer! –  Simon Steele Nov 26 '08 at 11:58
not true, see "VonC"'s answer –  Timothy Khouri Nov 26 '08 at 12:22
@Timothy: that won't do the capture, and you still have to loop on the results, so I am not sure of the advantages... –  PhiLho Nov 26 '08 at 13:42
@PhiLho: again, not true: you can capture group in a zero-width assertion like a positive look-ahead. See my - completed - answer. –  VonC Nov 26 '08 at 14:23
@PhiLho: I responded to your comment. And, in my opinion, your answer was less precise than Jan's: "the pattern" could refer to 'n', whereas the correct strategy means using 'nn', then start again at offset+1. You may have meant that all along, you just did not explain it. –  VonC Nov 26 '08 at 23:01

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.