响应式网页的基于DOM的表示失败报告的自动视觉分类

IF 1.5 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Ibrahim Althomali, G. M. Kapfhammer, Phil McMinn
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引用次数: 3

摘要

由于网页的用户通常通过各种各样的设备(包括台式机、笔记本电脑、平板电脑和手机)访问网页,因此web开发人员依靠响应式网页设计(RWD)原则和框架来创建在所有设备上都有用的网站。一个正确实现的响应式网页会根据所使用设备的视口宽度调整其布局,从而确保其设计适合内容。由于使用复杂的RWD框架通常会导致网页出现难以检测的响应式布局失败(rlf),开发人员使用测试工具生成潜在rlf的报告。由于响应式网页的测试工具,如ReDeCheck,分析了一个称为文档对象模型(DOM)的网页表示,它们可能会无意中标记出人类看不到的问题,因此需要开发人员手动确认并将每个潜在的RLF分类为真阳性(TP),假阳性(FP)或不可观察问题(NOI) -这是一个耗时且容易出错的过程。这篇论文的会议版本介绍了Viser,一个自动分类ReDeCheck报告的三种类型rlf的工具。由于Viser的设计不是为了自动确认和分类ReDeCheck基于DOM的分析可能出现的两种类型的RLF,因此本文介绍了Verve,一种自动分类ReDeCheck报告的所有RLF类型的工具。除了操纵网页中HTML元素的不透明度外,Verve工具还使用基于直方图的图像比较来对网页中的rlf进行分类。结合先前实验中使用的25个网页和之前未考虑的20个新网页,本文的实证研究表明,Verve对所有五种类型的rlf的分类通常与人类手动生成的分类一致。实验还表明,Verve在ReDeCheck报告的469个rlf中平均花了大约45秒的时间来分类任何一个rlf。由于本文证明了使用Verve(一个公开可用的工具)将RLF分类为TP、FP或NOI,比由人类web开发人员完成的相同手动过程更不主观,更容易出错,因此我们认为它非常适合支持复杂响应性web页面的测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Automated visual classification of DOM‐based presentation failure reports for responsive web pages
Since it is common for the users of a web page to access it through a wide variety of devices—including desktops, laptops, tablets and phones—web developers rely on responsive web design (RWD) principles and frameworks to create sites that are useful on all devices. A correctly implemented responsive web page adjusts its layout according to the viewport width of the device in use, thereby ensuring that its design suitably features the content. Since the use of complex RWD frameworks often leads to web pages with hard‐to‐detect responsive layout failures (RLFs), developers employ testing tools that generate reports of potential RLFs. Since testing tools for responsive web pages, like ReDeCheck, analyse a web page representation called the Document Object Model (DOM), they may inadvertently flag concerns that are not human visible, thereby requiring developers to manually confirm and classify each potential RLF as a true positive (TP), false positive (FP), or non‐observable issue (NOI)—a process that is time consuming and error prone. The conference version of this paper presented Viser, a tool that automatically classified three types of RLFs reported by ReDeCheck. Since Viser was not designed to automatically confirm and classify two types of RLFs that ReDeCheck's DOM‐based analysis could surface, this paper introduces Verve, a tool that automatically classifies all RLF types reported by ReDeCheck. Along with manipulating the opacity of HTML elements in a web page, as does Viser, the Verve tool also uses histogram‐based image comparison to classify RLFs in web pages. Incorporating both the 25 web pages used in prior experiments and 20 new pages not previously considered, this paper's empirical study reveals that Verve's classification of all five types of RLFs frequently agrees with classifications produced manually by humans. The experiments also reveal that Verve took on average about 4 s to classify any of the RLFs among the 469 reported by ReDeCheck. Since this paper demonstrates that classifying an RLF as a TP, FP, or NOI with Verve, a publicly available tool, is less subjective and error prone than the same manual process done by a human web developer, we argue that it is well‐suited for supporting the testing of complex responsive web pages.
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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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