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I do not have any programs installed for measuring cyclomatric code complexity at the moment. But I was wondering does a recursive method increases the complexity?


// just a simple C# example to recursively find an int[]
// within a pile of string[]
private int[] extractInts(string[] s)
    foreach (string s1 in s)
        if (s1.ints.length < 0)
            return ints;


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Where is the original int[] in your code? – strager Aug 20 '10 at 5:58
Cyclomatic complexity depends on the number of independent paths in your code. Roughly translated look for branching. Recursion need not necessary imply multiple control paths. I'd hazard a guess that there is not necessarily a correspondence between recursion and high cyclomatic complexity. – dirkgently Aug 20 '10 at 6:12
up vote 3 down vote accepted

As far as I understand, no. There is only one linearly independent path to the recursive method in your example, so it wouldn't increase the cyclomatic complexity.

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  1. Loops do increase cyclomatic complexity.
  2. A loop can often be rewritten using recursion plus a guard condition.

Even if the recursive call itself would not count strictly as an increment, the guard condition does. This makes the loop and recursion+guard on par.

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