通过算法镜头进行预算测试

Myra B. Cohen, A. Pavan, N. V. Vinodchandran
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引用次数: 0

摘要

自动化测试长期以来一直是研究的焦点。因此,我们倾向于以报道为中心的方式来考虑这个问题。测试预算也推动了诸如优先级和测试选择等研究,但这只是次要问题。随着我们的系统变得更大,更动态,并且每个变更影响更多的人,我们认为我们应该从以覆盖为中心的视图切换到以预算测试为中心的视图。其他领域的研究人员已经为这种预算场景设计了近似算法,这些算法通常很容易实现和运行。在本文中,我们提出了一个关于组合交互测试(CIT)的范例研究,以表明预算贪婪算法,当适应我们的问题时,对于各种预算,几乎与最先进的贪婪CIT算法一样具有覆盖智慧,在某些情况下比最先进的模拟退火算法更好,并且总是优于随机。这表明我们可能会受益于将我们的焦点从覆盖范围转移到预算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Budgeted testing through an algorithmic lens
Automated testing has been a focus of research for a long time. As such, we tend to think about this in a coverage centric manner. Testing budgets have also driven research such as prioritization and test selection, but as a secondary concern. As our systems get larger, are more dynamic, and impact more people with each change, we argue that we should switch from a coverage centric view to a budgeted testing centric view. Researchers in other fields have designed approximation algorithms for such budgeted scenarios and these are often simple to implement and run. In this paper we present an exemplar study on combinatorial interaction testing (CIT) to show that a budgeted greedy algorithm, when adapted to our problem for various budgets, does almost as well coverage-wise as a state of the art greedy CIT algorithm, better in some cases than a state of the art simulated annealing, and always improves over random. This suggests that we might benefit from switching our focus in large systems, from coverage to budgets.
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