Affiliation:
1. Department of Informatics University of Antwerp Antwerp Belgium
2. Flanders Make Antwerp Belgium
3. Digital Systems RISE Research Institute of Sweden Lund Sweden
4. Department of Computer Science Lund University Lund Sweden
5. Saab Aeronautics Saab AB Linköping Sweden
Abstract
AbstractMutation testing is the state‐of‐the‐art technique for assessing the fault detection capacity of a test suite. Unfortunately, a full mutation analysis is often prohibitively expensive. The CppCheck project for instance, demands a build time of 5.8 min and a test execution time of 17 s on our desktop computer. An unoptimised mutation analysis, for 55,000 generated mutants took 11.8 days in total, of which 4.3 days is spent on (re)compiling the project. In this paper, we present a feasibility study, investigating how a number of optimisation strategies can be implemented based on the Clang front‐end. These optimisation strategies allow to eliminate the compilation and execution overhead in order to support efficient mutation testing for the C language family. We provide a proof‐of‐concept tool that achieves a speedup of between 2
and 30
. We make a detailed analysis of the speedup induced by the optimisations, elaborate on the lessons learned and point out avenues for further improvements.
Funder
Fonds Wetenschappelijk Onderzoek
Subject
Safety, Risk, Reliability and Quality,Software
Reference41 articles.
1. M.R.Everything you need to know about tesla software updates.Teslarati 2014. [on line] https://www.teslarati.com/everything-need-to-know-tesla-software-updates/— last accessed In May 2023.
2. JenkinsJ.Velocity culture 2011. Keynote Address at the Velocity 2011 Conference.
3. An Analysis and Survey of the Development of Mutation Testing