参与者系统的突变算子

2010 Third International Conference on Software Testing, Verification, and Validation Workshops Pub Date : 2010-04-06 DOI:10.1109/ICSTW.2010.6

V. Jagannath, Miloš Gligorić, Steven Lauterburg, D. Marinov, G. Agha

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引用次数: 17

摘要

突变测试是一种众所周知的评估和改进测试套件质量的技术。给定一个系统S的测试套件T，突变测试系统地创建S的突变体，并执行T来测量T检测到多少突变体。如果T没有检测到一些(非等效的)突变，可以通过添加检测那些突变的测试用例来改进T。通过应用突变操作符创建突变体。突变操作符很重要，因为它们定义了被测试系统的特征，以及在测试套件中改进的特征。虽然突变操作符已经为许多编程范例(如顺序或多线程)定义得很好，但据我们所知，还没有为参与者编程模型定义突变操作符。本文定义并分类了可用于参与者程序突变测试的突变算子。

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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Mutation Operators for Actor Systems

Mutation testing is a well known technique for estimating and improving the quality of test suites. Given a test suite T for a system S, mutation testing systematically creates mutants of S and executes T to measure how many mutants T detects. If T does not detect some (non-equivalent) mutants, T can be improved by adding test cases that detect those mutants. Mutants are created by applying mutation operators. Mutation operators are important because they define the characteristics of the system that are tested as well as the characteristics that are improved in the test suite. While mutation operators are well defined for a number of programming paradigms such as sequential or multi-threaded, to the best of our knowledge, mutation operators have not been defined for the actor programming model. In this paper, we define and classify mutation operators that can be used for mutation testing of actor programs.

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2010 Third International Conference on Software Testing, Verification, and Validation Workshops

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