2 research outputs found
Is the Stack Distance Between Test Case and Method Correlated With Test Effectiveness?
Mutation testing is a means to assess the effectiveness of a test suite and
its outcome is considered more meaningful than code coverage metrics. However,
despite several optimizations, mutation testing requires a significant
computational effort and has not been widely adopted in industry. Therefore, we
study in this paper whether test effectiveness can be approximated using a more
light-weight approach. We hypothesize that a test case is more likely to detect
faults in methods that are close to the test case on the call stack than in
methods that the test case accesses indirectly through many other methods.
Based on this hypothesis, we propose the minimal stack distance between test
case and method as a new test measure, which expresses how close any test case
comes to a given method, and study its correlation with test effectiveness. We
conducted an empirical study with 21 open-source projects, which comprise in
total 1.8 million LOC, and show that a correlation exists between stack
distance and test effectiveness. The correlation reaches a strength up to 0.58.
We further show that a classifier using the minimal stack distance along with
additional easily computable measures can predict the mutation testing result
of a method with 92.9% precision and 93.4% recall. Hence, such a classifier can
be taken into consideration as a light-weight alternative to mutation testing
or as a preceding, less costly step to that.Comment: EASE 201