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Do you have any examples of real life applications of mutation testing? Does it work better than simple test coverage tools? Or is it useless?

What are the advantages/disadvantages of mutation testing in the real world?

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    I do not understand how this deviates from traditional test driven development. There's simply no way to cover all mathematical eventualities, and I don't think that's it's even worth it. – Jon Limjap Oct 28 '08 at 9:31
  • Yeah, that's my question if it is worth the effort in the real world. I know there is some theoretical work about it. But does it work in reality? – Mnementh Oct 28 '08 at 9:35
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    Is the point not that mutation testing actually tests the tests? I mean, if you can alter the source code's logic and still pass the tests then surely the tests aren't quite right? Forgive me if I'm missing something... – Grundlefleck Oct 28 '08 at 10:20
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    Yes, mutation testing like code-coverage check if your tests are sufficient. – Mnementh Oct 28 '08 at 10:29
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    @Jon Limjap: 1) About the difference: traditional test driven development simply tries to write tests before each small iteration in writing the software. Mutation testing tries to check if test cases are "good", by modifying the source code. They are two different concepts. 2) You are right that there's no way to cover all eventualities, but adding another different way of testing can help to increase test coverage. – CuongHuyTo Jan 13 '14 at 9:07
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The usefulness of unit tests is no longer discussed. They are essential in conception of a quality application. But, how can we assess their relevance? A code coverage indicator up to 100% doesn’t mean the code is 100% tested. This is just a view of executed code during unit tests execution. Mutation testing will allow you to have more confidence in your tests.

This is a two step process:

  1. Generate mutants.
  2. Check that the mutations are found by the tests.

I wrote a entire article about this process, including some concrete cases.

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I looked at mutation test some time ago as a method for checking the efficacy of my automated regression testing scripts. Basically, a number of these scripts had missing checkpoints, so while they were exercising the application being tested correctly, they weren't verifying the results against the baseline data. I found that a far simpler method than changing the code was to write another application to introduce modifications to a copy of the baseline, and re-run the tests against the modified baseline. In this scenario, any test that passed was either faulty or incomplete.

This is not genuine mutation testing, but a method that uses a similar paradigm to test the efficacy of test scripts. It is simple enough to implement, and IMO does a good job.

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  • How expensive was writing a separate application to verify your tests? Isn't mutation testing supported with tools cheaper? – dzieciou Nov 25 '12 at 20:40
  • Not particularly expensive, about 2 days all in writing tools, and I couldn't find anything off the shelf to do the job. The idea was simply that for all tests that were passing, changing the baseline data should lead to a failure. Where it didn't, it indicated a faulty test case. The actual coding for this was specific to the app being tested, but very simple in what it did. – SmacL Nov 26 '12 at 13:57
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I known that this is a old question but recently Uncle Bob write a blog post very interesting about mutating testing that can help understand the usefully of this type of testing:

Uncle Bob mutating testing blog post

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I've played around with pitest for a small, contrived application:

http://pitest.org/

It's a java tool that automates mutant generation. You can run it against your test suite and it'll generate HTML reports for you indicating how many mutants were killed. Seemed quite effective and didn't require much effort to set up. There are actually quite a few nice tools in the Java world for this sort of thing. See also:

http://www.eclemma.org/

For coverage.


I think the concepts behind mutation testing are sound. It's just a matter of tool support and awareness. You're fighting a tradeoff between the simplicity of traditional code coverage metrics and additional complexity of this technique - it really just comes down to tools. If you can generate the mutants, then it will help expose weaknesses in your test cases. Is it worth the marginal increase in effort over the testing you already do? With pitest, I did find it turning up test cases that seemed non-obvious.

Mutation testing is an angle of attack that's quite different from the unit/functional/integration testing methodologies.

  1. You test your test suite - it's a meta-test of your whole testing program.
  2. It inspires additional test cases you might not have otherwise considered.
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I recently did some investigations on mutation testing. Results are here:

http://abeletsky.blogspot.com/2010/07/using-of-mutation-testing-in-real.html

In short: mutation testing could give some information about quality of source code and tests, but it is not something straighforward to use.

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  • You meant "is" or "is NOT" straightforward to use? – dzieciou Nov 25 '12 at 21:24
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    The referred blog does not exist anymore. – devoured elysium Aug 31 '15 at 13:02
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Mutation testing has helped me identify problems with test case assertions.

For example, when you get a report that says "no mutant has been killed by test case x", you take a look, and it turns out the assertion had been commented out.

According to this paper, developers at Google use Mutation testing as a complement to code-review and pull-request inspections. They seem happy about the results:

Developers have decided to redesign large chunks of code to make them testable just so a mutant could be killed, they have found bugs in complex logical expressions looking at mutants, they have decided to remove code with an equivalent mutant because they deemed it a premature optimization, they’ve claimed the mutant saved them hours of debugging and even production outages because no test cases were covering the logic under mutation properly. Mutation testing has been called one of the best improvements in the code review verification in years. While this feedback is hardly quantifiable, combined with the sheer number of thousands of developers willing to inspect surfaced mutants on their code changes makes a statement.

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Coverage vs mutation testing. An old question, but I recently came across a recent blog on the topic. Pretty opinionated. But the differences between coverage and mutation testing is clearly articulated.

https://pedrorijo.com/blog/intro-mutation/

My own experience shows that Pitest is pretty useful, but since the runtime explodes it works only one very fast test sets. In practice this limits where I apply mutation testing.

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The test case for the first one behaves differently due to above mutation there is an exception raised now. So it doesn’t returns the expected array of {6,3}. However, our second test case remains same, because it also includes positive number. So, it gives exception on positive numbers as well. Now, if we have to write a successful test case that would be Input ={-6,-6,-7,-3,-4} Expected = {-6,-3}

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