What is the complexity with respect to the string length that takes to perform a regular expression comparison on a string?

  • 3
    The complexity depends more on the nature of the regex itself than on the length of the string.
    – LukeH
    Dec 7, 2010 at 15:40
  • @LukeH Alternatively, it depends on the programming language used. For example, Python Regex can never exceed the computer power of a DFA, but Perl Regex can be Turing complete. Apr 30, 2013 at 20:40
  • possible duplicate of Complexity of Regex substitution
    – Kevin
    Jul 18, 2014 at 18:32

4 Answers 4


The answer depends on what exactly you mean by "regular expressions." Classic regexes can be compiled into Deterministic Finite Automata that can match a string of length N in O(N) time. Certain extensions to the regex language change that for the worse.

You may find the following document of interest: Regular Expression Matching Can Be Simple And Fast.

  • I don't suppose it would be possible to get the test data used for that article? My work place uses perl regex's all the time. Were they really that slow, our hardware would fail completely. May 20, 2015 at 17:39
  • can you clarify exactly what you mean by "classic regexes"? Jan 25, 2021 at 5:29
  • this is the execution time. What about compiling the regex? Jan 27, 2021 at 18:52
  • @VarunMathur A classic regex can be implemented entirely by concatenation, alternation, and the Kleene start (*). Operators like + are syntactic sugar, and do not increase the expressive power of a regular expression. Capture expressions are not part of a classic regular expression, as they allow you to match non-regular languages (a classic example being (.*)x(\1), which does not even describe a context-free language).
    – chepner
    May 6, 2021 at 18:40

unbounded - you can create a regular expression that never terminates, on an empty input string.

  • 3
    Just out of curiosity, could you give an example Alex?
    – JP19
    Dec 7, 2010 at 15:50
  • 5
    see man perlre - "'foo' =~ m{ ( o? )* }x;". Perl has special code to detect infinite recursion in this case and break out.
    – Alex Brown
    Dec 7, 2010 at 16:09

If you use normal (TCS:no backreference, concatenation,alternation,Kleene star) regexp and regexp is already compiled then it's O(n).


If you're looking for tight asymptotic bounds on RegEx (without respect to the expression itself), then there isn't one. As Alex points out, you can create a regex that is O(1) or a regex that is Omega(infinity). As a purely mathematical algorithm, a regular expression engine would be far too complicated to perform any sort of formal asymptotic analysis (aside from the fact that such analysis would be basically worthless).

The growth rate of a particular expression (since that, really, constitutes an algorithm, anyway) would be far more meaningful, though not necessarily any easier to analyze.

  • 1
    That's considering extensions of formal regular expressions. Regular expressions involving usual constructs (no look-ahead/backwards patterns for example) can be proven to always terminate on any input, in a O(length of input string) time.
    – Clément
    Apr 22, 2013 at 17:11
  • @clement Even most extensions do not push the RE beyond a DFA. For instance, Python Regex can always be modeled by a DFA. However, as soon as you start working with Perl regex (and I believe Javascript?) it becomes a different animal that is equivalent to a TM instead. Apr 30, 2013 at 19:39
  • Um, no. Complexity of a real regular expression is well defined. Jun 17, 2019 at 18:39

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