An Object-Based Data Flow Testing Approach for Web Applications

Liu, Chien-Hung; Kung, David Chenho; Hsia, Pei; Hsu, Chih-Tung

doi:10.1142/s0218194001000499

Cited by 27 publications

(33 citation statements)

References 21 publications

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“…Various Web application modeling methods have been proposed for different purposes, such as testing [6,7], architecture recovery [4,8] and design [2,5]. Each method emphasizes some particular aspect of a Web application.…”

Section: Related Workmentioning

confidence: 99%

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Dynamic model extraction and statistical analysis of Web applications

Tonella

Ricca

Proceedings. Fourth International Workshop on Web Site Evolution

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Section: Related Workmentioning

confidence: 99%

“…Liu et al [7] extended traditional data flow testing techniques to Web applications. The data flow information is captured using various flow graphs.…”

Section: Related Workmentioning

confidence: 99%

Dynamic model extraction and statistical analysis of Web applications

Tonella

Ricca

Proceedings. Fourth International Workshop on Web Site Evolution

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“…The loop in lines 4-30 traverses each data dependence, which essentially denotes a definition of the variable, to compute the possible values. If the definition is an assignment of a constant value, the value is added to the set (lines 5-7); If it is a copy from another variable, method computeVar() is recursively invoked on the source variable (lines [8][9][10]; If the variable is a formal parameter, the possible values of the parameter are loaded from the context and added to the value set; If it is defined through a binary operation such as string concatenation and integer addition, depending on if we could execute the operation offline, we may evaluate the operation on each pair of possible operand values (lines [17][18][19][20] or simply convert the operation to a string and concatenate it with the operand values to get the symbolic representations of the possible values (lines [22][23][24]. We currently support offline evaluation of arithmetic operations and string concatenation, string length and substring operations if the concrete values of the string operands can be computed.…”

Section: Model Generationmentioning

confidence: 99%

“…In contrast, our approach generates a V-DOM tree for each server script. Liu et al [20] and Kung et al [19] proposed multiple models, each targeting on representing a single tier in web applications. They also suggested that data flow analysis could be performed at multiple levels.…”

Section: Related Workmentioning

confidence: 99%

Virtual DOM coverage for effective testing of dynamic web applications

Zou

Chen

Zheng

et al. 2014

Proceedings of the 2014 International Symposium on Software Testing and Analysis

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Test adequacy criteria are fundamental in software testing. Among them, code coverage criterion is widely used due to its simplicity and effectiveness. However, in dynamic web application testing, merely covering server-side script code is inadequate because it neglects client-side execution, which plays an important role in triggering client-server interactions to reach important execution states. Similarly, a criterion aiming at covering the UI elements on client-side pages ignores the server-side execution, leading to insufficiency.In this paper, we propose Virtual DOM (V-DOM) Coverage, a novel criterion, for effective web application testing. With static analysis, we first aggregate all the DOM objects that may be produced by a piece of server script to construct a V-DOM tree. The tree models execution on both the client-and server-sides such that V-DOM coverage is more effective than existing coverage criteria in web application testing. We conduct an empirical study on five real world dynamic web applications. We find that V-DOM tree can model much more DOM objects than a web crawling based technique. Test selection based on V-DOM tree criterion substantially outperforms the existing code coverage and UI element coverage, by detecting more faults.

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“…Usually for these kinds of robustness tests white box testing techniques are used (e.g. Liu et al [14] and Kung et al [9]). Our system is independent of the concrete implementation language(s) of the web application.…”

Section: Related Workmentioning

confidence: 99%

Model-Based Testing of Thin-Client Web Applications and Navigation Input

Koopman

Achten

Plasmeijer

Practical Aspects of Declarative Languages

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Abstract. In this paper we present a novel automated, on-line, modelbased testing system for on-the-fly testing of thin-client web applications. Web applications are specified by means of Extended State Machines. To handle dynamic web applications, arbitrarily large and complex state input and output types, and the transport of information from the webpage to the state of the specification, we define a new, ioco like, conformance relation. In this conformance relation a specification is a function from state and input to functions from output to the new states. The implementation builds on the G∀ST test tool and spots errors in real web applications.

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An Object-Based Data Flow Testing Approach for Web Applications

Cited by 27 publications

References 21 publications

Dynamic model extraction and statistical analysis of Web applications

Dynamic model extraction and statistical analysis of Web applications

Virtual DOM coverage for effective testing of dynamic web applications

Model-Based Testing of Thin-Client Web Applications and Navigation Input

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