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Is there a tool for generating cyclomatic complexity of scala code ?

Thank You

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closed as off-topic by Kevin Panko, Alexandre Santos, EdChum, Soner Gönül, Aperçu Sep 1 '14 at 7:49

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If there was one, I doubt the number would tell you much about the real complexity of the code. You can write very complex code by putting folds and maps and filters together but the cyclomatic complexity will stay low. – Kim Stebel Jun 13 '11 at 13:36
Is cyclomatic complexity meaningful for functional code? – Stephen C Jun 13 '11 at 13:38
@Stephen, i dont know much about scala now, but why wouldnt it? – Suraj Chandran Jun 13 '11 at 13:48
@Suraj - because for (true) functional points there are no obvious branch points. Also what @Kim said. – Stephen C Jun 13 '11 at 14:08
@Stephen - A functional point could (but not definitely) count as a branch point. Perhaps a different type of complexity metric would be required for true FP languages. In the case of Scala (and similar languages), cyclomatic complexity might still need to be used but with some grain of salt, but current cyclo-complex tools won't work with it. – luis.espinal Jun 13 '11 at 14:23

To the best of my knowledge, there are no such tools. I think it's important to note that cyclomatic complexity is a fundamentally procedural metric, and it falls over completely when you have higher-order functions in your language. If you write code in "good" Scala style, the cyclomatic complexity literally goes to 1 for your entire code base. The reason is that higher-order frameworks have a tendency to avoid explicit branches altogether. Everything is encoded in terms of functions, and it's not particularly clear how to measure the cyclomatic complexity of a higher-order function (hence, everything goes to 1).

I would advise you to abandon the idea of measuring cyclomatic complexity in the context of Scala, or really any other functional language. A better, and actually more informative metric, would be to simply grep through the code for if and match/case statements. When you find them, consider making them go away. These statements aren't bad by any means, but there are many cases where they can be replaced by a straight-line, higher-order function. This examination will accomplish the same goal as a cyclomatic complexity metric, but much more usefully w.r.t. the functional paradigm. And, at the end of the day, it is likely that your code will be far more "functional" and vastly more composable as a result.

To extend Daniel's comment, the same issues actually arise any time you can encode higher order functions. That means, in particular, cyclomatic complexity doesn't apply well to OO. If a method calls b.foo then there is an invisible branch point - a branch to any of the foo methods that could possibly be reached that way. Yet most cyclomatic complexity measures for Java or whatever don't count messsage sends as branch points. It's entirely possibly (though not commonly practiced) to remove all ifs, all fors and whiles, etc via plain old OO. The only difference between OO and FP along these lines is that replacing loops and conditionals with higher level constructs is considered normal FP practice.

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This would make a great blog post... – wheaties Jun 13 '11 at 14:14
Indeed, that'd make a nice blog post. – luis.espinal Jun 13 '11 at 14:29
@Daniel: +1 You're suggesting to remove if and match/case statements. I guess this is also true for while and for statements as they are not really functional. Your are right, you will eventually end up with a cyclomatic complexity of 1 for each method bacause the ccn calculation in pratice is typically done by counting exactly those statements. So, why not make this an explicit goal? Try to reach a ccn of 1 for each method in scala! – Steffen Jun 13 '11 at 14:32
@Steffen - I don't buy it. A pattern match and a fold are the same thing expressed differently. In some cases one will be a better fit than the other. Screw arbitrary metrics that don't tell you anything. – James Iry Jun 13 '11 at 14:36
@James: I don't want to encourage people to use ccn with functional languages. All I tried to express is, that if the advise is to replace those language constructs with more functional approaches one eventually follows the same goal as trying to reach a ccn of 1. At least if you are calculating the ccn the same way as for procedural languages. – Steffen Jun 13 '11 at 14:41



Odersky considers cyclomatic complexity important in FP, and this is a Scala question.

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You can run a task in the SBT tool to check for common style problems. Among other things, it will raise a warning if cyclomatic complexity goes over 10 in any block. For more details, check here: http://www.scala-sbt.org/

The task is called styleCheck.

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Please note that the styleCheck task is specific to the Coursera course and is based upon scalastyle. If you want the same functionality in your normal build, use scalastyle. – Matthew Farwell Aug 23 '14 at 19:02

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