Metamorphic testing and test automation

IF 1.5 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING
R. Hierons, Tao Xie
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引用次数: 0

Abstract

This issue contains two papers. The first paper focuses on metamorphic testing and the second one focuses on test automation.Thefirst paper, ‘ Metamorphic relation prioritization for effective regression testing ’ by Madhusudan Srinivasan and Upulee Kanewala, concerns metamorphic testing. Metamorphic testing (MT) is an approach devised to support the testing of software that is untestable in the sense that it is not feasible to determine, in advance, the expected output for a given test input. The basic idea behind MT is that it is sometimes possible to provide a property (metamorphic relation) over multiple test runs that use inputs that are related in some way. A classic example is that we may not know what the cosine of x should be for some arbitrary x but we do know that cos( x ) should be the same as cos( (cid:1) x ). Previous work has proposed the use of multiple metamorphic relations (MRs), but the authors explore how one might prioritize (order) such MRs. Prioritization is based on information regarding a previous version of the software under test. The authors propose two approaches: prioritize on coverage or on fault detection. Optimization is achieved using a greedy algorithm that is sometimes called Additional Greedy. (Recommended by Dan Hao). The second paper, ‘ Improving test automation maturity: A multivocal literature review ’ by Yuqing Wang, Mika V. Mäntylä, Zihao Liu, Jouni Markkula and Päivi Raulamo-jurvanen, presents a multivocal literature review to survey and synthesize the guidelines given in the literature for improving test automation maturity. The authors select and review 81 primary studies (26 academic literature sources and 55 grey literature sources). From these primary studies, the authors extract 26 test automation best practices along with advice on how to conduct these best practices in forms of implementation/improvement approaches, actions, technical techniques, concepts and experience-based opinions. In particular, the literature review results contribute test automation best practices to suggest steps for improving test automation maturity, narrow the gap between practice and research in terms of the industry ’ s need to improve test automation maturity, provide a centralized knowledge base of existing guidelines for test automation maturity improvement and identify related research challenge and opportunities.
变形测试和测试自动化
这一期有两篇论文。第一篇论文的重点是变形测试,第二篇论文的重点是测试自动化。第一篇论文,Madhusudan Srinivasan和Upulee Kanewala的“有效回归测试的变质关系优先级”,涉及变质测试。变形测试(MT)是一种设计用于支持不可测试的软件测试的方法,因为预先确定给定测试输入的预期输出是不可可行的。MT背后的基本思想是,有时可以在使用以某种方式相关的输入的多个测试运行中提供一个属性(变质关系)。一个经典的例子是我们可能不知道cos(x)对于任意的x应该是什么但是我们知道cos(x)应该和cos((cid:1) x)是一样的。先前的工作已经提出使用多重变形关系(MRs),但是作者探索了如何对这样的MRs进行优先级排序(排序)。优先级排序是基于有关被测软件的先前版本的信息。作者提出了两种方法:优先考虑覆盖或优先考虑故障检测。优化是通过贪心算法实现的,这种算法有时被称为附加贪心算法。(郝丹推荐)。第二篇论文,“提高测试自动化成熟度:多声音文献综述”,由王玉青、Mika V. Mäntylä、刘子好、Jouni Markkula和Päivi Raulamo-jurvanen撰写,提出了一篇多声音文献综述,以调查和综合文献中给出的提高测试自动化成熟度的指导方针。作者选择并回顾了81项主要研究(26项学术文献来源和55项灰色文献来源)。从这些主要的研究中,作者提取了26个测试自动化最佳实践,以及关于如何以实现/改进方法、行动、技术技巧、概念和基于经验的意见的形式执行这些最佳实践的建议。特别是,文献综述的结果提供了测试自动化最佳实践,以建议提高测试自动化成熟度的步骤,缩小了实践与研究之间的差距,就行业提高测试自动化成熟度的需求而言,为测试自动化成熟度改进提供了一个集中的知识库,并确定了相关的研究挑战和机遇。
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来源期刊
Software Testing Verification & Reliability
Software Testing Verification & Reliability 工程技术-计算机:软件工程
CiteScore
3.70
自引率
0.00%
发文量
34
审稿时长
>12 weeks
期刊介绍: The journal is the premier outlet for research results on the subjects of testing, verification and reliability. Readers will find useful research on issues pertaining to building better software and evaluating it. The journal is unique in its emphasis on theoretical foundations and applications to real-world software development. The balance of theory, empirical work, and practical applications provide readers with better techniques for testing, verifying and improving the reliability of software. The journal targets researchers, practitioners, educators and students that have a vested interest in results generated by high-quality testing, verification and reliability modeling and evaluation of software. Topics of special interest include, but are not limited to: -New criteria for software testing and verification -Application of existing software testing and verification techniques to new types of software, including web applications, web services, embedded software, aspect-oriented software, and software architectures -Model based testing -Formal verification techniques such as model-checking -Comparison of testing and verification techniques -Measurement of and metrics for testing, verification and reliability -Industrial experience with cutting edge techniques -Descriptions and evaluations of commercial and open-source software testing tools -Reliability modeling, measurement and application -Testing and verification of software security -Automated test data generation -Process issues and methods -Non-functional testing
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