On the suitability of checked coverage and genetic parameter tuning in test suite reduction

IF 1.7 4区计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING Journal of Software-Evolution and Process Pub Date : 2024-02-11 DOI:10.1002/smr.2656

Roxane Koitz-Hristov, Thomas Sterner, Lukas Stracke, Franz Wotawa

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Abstract

As software projects evolve and grow in size and complexity, so do their test suites. Test suite reduction (TSR) aims at reducing the size of a test suite by removing redundant and obsolete test cases based on a coverage metric while preserving its fault detection capabilities. The contributions of this paper are twofold: (1) We examine a lesser-known coverage criterion, that is, checked coverage. Checked coverage not only investigates if a part of the code was executed but also if it was checked by a test oracle. In an empirical evaluation, we performed TSR based on different reduction algorithms, coverage metrics, and open-source Java projects with our own TSR tool to determine the most effective and efficient combination of metric and method. (2) Given the results of the first evaluation, we further investigate the potential of parameter optimization in regard to a genetic reduction algorithm. In particular, we focus on finding a general setting for the parameters crossover rate and mutation rate such that test suites can be reduced in a reasonable time while maintaining a high fault detection power.

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测试套件缩减中检查覆盖率和遗传参数调整的适用性

随着软件项目的发展、规模和复杂性的增加，其测试套件也在不断增加。测试套件缩减（TSR）的目的是根据覆盖率指标删除多余和过时的测试用例，从而缩小测试套件的规模，同时保留其故障检测能力。本文有两方面的贡献：（1）我们研究了一个鲜为人知的覆盖率标准，即校验覆盖率。校验覆盖率不仅考察代码的一部分是否被执行，还考察它是否被测试甲骨文所校验。在实证评估中，我们使用自己的 TSR 工具，根据不同的缩减算法、覆盖率度量和开源 Java 项目执行了 TSR，以确定度量和方法的最有效组合。(2) 鉴于第一次评估的结果，我们进一步研究了遗传缩减算法参数优化的潜力。特别是，我们将重点放在寻找交叉率和突变率参数的一般设置上，以便在合理的时间内减少测试套件，同时保持较高的故障检测能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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