建立动态调试的认知模型:标识符构造重要吗?

IF 6.5 1区 计算机科学 Q1 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Danniell Hu;Priscila Santiesteban;Madeline Endres;Westley Weimer
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引用次数: 0

摘要

调试是软件工程中一个重要而耗时的过程。最近,研究人员开始利用神经成像技术,通过测量神经活动模式来了解编程任务的认知基础。之前的研究虽然令人兴奋,但只是孤立地研究了一些小的子步骤,例如在不编写任何代码的情况下理解一个方法,或者在不阅读任何已有代码的情况下从头开始编写一个方法。我们提出了一个简单的多阶段调试模式,程序员可以在任务理解、故障定位、代码编辑、编译和输出理解活动之间转换。我们使用功能性近红外光谱和标准编码测量(如所花费的时间、通过的测试等)相结合的方法,对 $n=28$ 的参与者进行了人体研究。重要的是,我们发现我们提出的调试阶段在神经和行为上都是不同的。据我们所知,这是第一个在神经上合理的调试认知模型。与此同时,人们对了解来自不同背景的程序员(例如那些在英语散文理解方面遇到困难的程序员)在调试时如何受到代码特征的影响有着浓厚的兴趣。我们使用我们的调试认知模型来研究这样一种特征的作用:标识符构造。具体来说,我们研究了有阅读困难和没有阅读困难的参与者在调试时,标识符构造特征如何影响神经活动。虽然我们发现认知负荷在形态和专业知识方面存在显著差异,但在端到端编程结果(如时间、正确性等)方面却没有发现显著差异。这一微妙的结果表明,之前关于孤立子步骤中标识符命名的认知重要性的研究结果可能无法推广到端到端调试中。最后,在一项与扩大计算参与相关的结果中,我们发现有阅读困难的参与者在行为结果上没有差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards a Cognitive Model of Dynamic Debugging: Does Identifier Construction Matter?
Debugging is a vital and time-consuming process in software engineering. Recently, researchers have begun using neuroimaging to understand the cognitive bases of programming tasks by measuring patterns of neural activity. While exciting, prior studies have only examined small sub-steps in isolation, such as comprehending a method without writing any code or writing a method from scratch without reading any already-existing code. We propose a simple multi-stage debugging model in which programmers transition between Task Comprehension, Fault Localization, Code Editing, Compiling, and Output Comprehension activities. We conduct a human study of $n=28$ participants using a combination of functional near-infrared spectroscopy and standard coding measurements (e.g., time taken, tests passed, etc.). Critically, we find that our proposed debugging stages are both neurally and behaviorally distinct. To the best of our knowledge, this is the first neurally-justified cognitive model of debugging. At the same time, there is significant interest in understanding how programmers from different backgrounds, such as those grappling with challenges in English prose comprehension, are impacted by code features when debugging. We use our cognitive model of debugging to investigate the role of one such feature: identifier construction. Specifically, we investigate how features of identifier construction impact neural activity while debugging by participants with and without reading difficulties. While we find significant differences in cognitive load as a function of morphology and expertise, we do not find significant differences in end-to-end programming outcomes (e.g., time, correctness, etc.). This nuanced result suggests that prior findings on the cognitive importance of identifier naming in isolated sub-steps may not generalize to end-to-end debugging. Finally, in a result relevant to broadening participation in computing, we find no behavioral outcome differences for participants with reading difficulties.
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来源期刊
IEEE Transactions on Software Engineering
IEEE Transactions on Software Engineering 工程技术-工程:电子与电气
CiteScore
9.70
自引率
10.80%
发文量
724
审稿时长
6 months
期刊介绍: IEEE Transactions on Software Engineering seeks contributions comprising well-defined theoretical results and empirical studies with potential impacts on software construction, analysis, or management. The scope of this Transactions extends from fundamental mechanisms to the development of principles and their application in specific environments. Specific topic areas include: a) Development and maintenance methods and models: Techniques and principles for specifying, designing, and implementing software systems, encompassing notations and process models. b) Assessment methods: Software tests, validation, reliability models, test and diagnosis procedures, software redundancy, design for error control, and measurements and evaluation of process and product aspects. c) Software project management: Productivity factors, cost models, schedule and organizational issues, and standards. d) Tools and environments: Specific tools, integrated tool environments, associated architectures, databases, and parallel and distributed processing issues. e) System issues: Hardware-software trade-offs. f) State-of-the-art surveys: Syntheses and comprehensive reviews of the historical development within specific areas of interest.
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