Towards Symbolic Model-Based Mutation Testing: Combining Reachability and Refinement Checking

Towards Symbolic Model-Based Mutation Testing: Combining Reachability and Refinement Checking

Model-based mutation testing uses altered test models to derive test cases that are able to reveal whether a modelled fault has been implemented. This requires conformance checking between the original and the mutated model. This paper presents an approach for symbolic conformance checking of action...

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Bibliographic Details
Published in:Electronic proceedings in theoretical computer science Vol. 80; no. Proc. MBT 2012; pp. 88 - 102
Main Authors: Aichernig, Bernhard K., Jöbstl, Elisabeth
Format: Journal Article
Language:English
Published: Open Publishing Association 27-02-2012
Online Access:Get full text
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Summary:Model-based mutation testing uses altered test models to derive test cases that are able to reveal whether a modelled fault has been implemented. This requires conformance checking between the original and the mutated model. This paper presents an approach for symbolic conformance checking of action systems, which are well-suited to specify reactive systems. We also consider nondeterminism in our models. Hence, we do not check for equivalence, but for refinement. We encode the transition relation as well as the conformance relation as a constraint satisfaction problem and use a constraint solver in our reachability and refinement checking algorithms. Explicit conformance checking techniques often face state space explosion. First experimental evaluations show that our approach has potential to outperform explicit conformance checkers.
ISSN:2075-2180
2075-2180
DOI:10.4204/EPTCS.80.7