It's a simple question about regular expressions, but I'm not finding the answer.

I want to determine whether a number appears in sequence exactly two or four times. What syntax can I use?

\d{what goes here?}

I tried \d{2,4}, but this expression accepts three digits as well.

  • 1
    For example, to match a two- or four-digit year.
    – DavidRR
    Oct 18, 2012 at 18:23
  • What do you want to happen the if string is abc 123 xyz? Should it match 12 because that is exactly two digits in sequence? Or should it not, because 12 is part of a larger digit sequence 123 which itself is neither 2 nor 4 long? If I had to guess, I'd think you want the latter behaviour, but it isn't clear from your question. Examples and/or a clearer specification would help. Same question for abc 12345 def... what should happen there? Apr 30, 2020 at 11:20

2 Answers 2


There's no specific syntax for that, but there are lots of ways to do it:

(?:\d{4}|\d{2})    <-- alternation: four digits if possible, else just two
\d{2}(?:\d{2})?    <-- two digits, plus two more if possible
(?:\d{2}){1,2}     <-- two digits, times one or two

So, for example, to match strings consisting of one or more letters A–Z followed by either two or four digits, you might write ^[A-Z]+(?:\d{4}|\d{2})$; and to match a comma-separated list of two-or-four-digit numbers, you might write ^((?:\d{4},|\d{2},)*(?:\d{4}|\d{2})$ or ^(?:\d{2}(?:\d{2})?,)*\d{2}(?:\d{2})$.

  • 2
    Personally, only thought of the \d{2}(?:\d{2})? solution right off the bat - nice variety of these - the last one, in particular, seeming very nice and scalable. Nov 18, 2011 at 2:48
  • 3
    +1 for being mindful of the order needed when using alternation to match 4 digits first, then 2 digits. Also good job providing the other variations. Nov 18, 2011 at 2:57
  • 10
    For anyone who, like me, didn't understand the use of (?: this starts a "non-capturing group" (a group that is not intended to be referenced in a replace statement). You could also just use parens but these will create a capturing group. Further details here: stackoverflow.com/questions/3512471/non-capturing-group Oct 15, 2014 at 20:44
  • These will show the same result for either "333" and "33"
    – Dan
    Mar 1, 2017 at 6:21
  • 1
    @Dan: These regexes do not match the complete string "333". You may be using your regex library's "find matching substring" functionality by mistake, rather than its "check if complete string matches" functionality. You should consult its documentation.
    – ruakh
    Mar 1, 2017 at 6:44

This is the correct way to do it. The accepted answer is wrong.

It would match 3 digits (or 5). So that is wrong in my eyes.

  1. Check there is no digit before a sequence of 2, or 4 digits, or after a sequence of two or four digits.
  • (?<!) syntax is negative lookbehind

  • (?!) syntax is negative lookahead.

The above would work for mid string:

If your search string has no content around it you could use the ^ and $ start and end of string anchors:

  • 4
    I wouldn't say that the accepted answer is wrong. I would say the question is unclear, and that that answer addresses one valid interpretation of it. Your answer addresses another valid interpretation (which I happen to think is a more likely one -- but apparently the asker didn't...). Apr 30, 2020 at 11:24
  • 7
    "It would match 3 digits" is not quite accurate. I think you mean "It would match a 2-digit subsequence of a 3-digit sequence." Apr 30, 2020 at 11:27
  • 2
    Also, your answer doesn't quite work as intended on sequences of 5 or more digits. I'm no regex expert, but I guess one way to fix it is to make the negative lookahead/behind apply to both cases (2- and 4-digit sequences): (?<!\d)(\d{2}|\d{4})(?!\d) Apr 30, 2020 at 11:39
  • I think you are correct about the 5 digits. Thanks for that correction. Will fix that.
    – JGFMK
    Apr 30, 2020 at 14:39
  • 1
    @Jean-FrançoisCorbett - The person asking specifically said... "but this expression accepts three digits as well". So I hold true the answer was wrong. It doesn't fix that.
    – JGFMK
    Apr 30, 2020 at 14:56

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