用程序修复诱导细微突变

F. Schwander, Rahul Gopinath, A. Zeller
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引用次数: 2

摘要

突变分析是评估测试套件防止错误有效性的黄金标准。它包括在程序中注入语法更改,生成被测程序的变体(突变),并检查测试套件是否检测到突变。从业者经常依靠这些活跃的突变体来决定编写哪些测试用例来提高测试套件的有效性。虽然这种句法变化大多数会导致与原体的语义差异,但这种变化可能不会引起突变体中相应的语义变化。这种等效的突变可能导致人工努力的浪费。我们描述了一种产生高质量突变体的新技术,同时避免了输入处理器产生等效突变体。我们的想法是为程序生成可信的、接近正确的输入,收集那些被拒绝的输入,并生成接受这些被拒绝的字符串的变体。这项技术允许我们提供一组增强的突变体,以及新生成的测试用例来杀死它们。我们在8个python程序上评估了我们的方法,并表明我们的技术可以生成新的突变体,这些突变体对开发人员来说既有趣,又保证是致命的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inducing Subtle Mutations with Program Repair
Mutation analysis is the gold standard for assessing the effectiveness of a test suite to prevent bugs. It involves injecting syntactic changes in the program, generating variants (mutants) of the program under test, and checking whether the test suite detects the mutant. Practitioners often rely on these live mutants to decide what test cases to write for improving the test suite effectiveness.While a majority of such syntactic changes result in semantic differences from the original, it is possible that such a change fails to induce a corresponding semantic change in the mutant. Such equivalent mutants can lead to wastage of manual effort.We describe a novel technique that produces high-quality mutants while avoiding the generation of equivalent mutants for input processors. Our idea is to generate plausible, near correct inputs for the program, collect those rejected, and generate variants that accept these rejected strings. This technique allows us to provide an enhanced set of mutants along with newly generated test cases that kill them.We evaluate our method on eight python programs and show that our technique can generate new mutants that are both interesting for the developer and guaranteed to be mortal.
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