Generating oracles from your favorite temporal logic specifications

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Generating oracles from your favorite temporal logic specifications

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Foundations of Software Engineering archive
Proceedings of the 4th ACM SIGSOFT symposium on Foundations of software engineering table of contents

San Francisco, California, United States

Pages: 106 - 117

Year of Publication: 1996

ISBN:0-89791-797-9

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Authors

L. K. Dillon	Computer Science Department, University of California, Santa Barbara, CA
Y. S. Ramakrishna	Computer Science Department, State University of New York, Stony Brook, NY

Sponsor

SIGSOFT: ACM Special Interest Group on Software Engineering

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 5, Downloads (12 Months): 19, Citation Count: 12

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ABSTRACT

This paper describes a generic tableau algorithm, which is the basis for a general customizable method for producing oracles from temporal logic specifications. A generic argument gives semantic rules with which to build the semantic tableau for a specification. Parameterizing the tableau algorithm by semantic rules permits it to easily accommodate a variety of temporal operators and provides a clean mechanism for fine-tuning the algorithm to produce efficient oracles.The paper develops conditions to ensure that a set of rules results in a correct tableau procedure. It gives sample rules for a variety of linear-time temporal operators and shows how rules are tailored to reduce the size of an oracle.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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CITED BY 12

	Atif M. Memon , Martha E. Pollack , Mary Lou Soffa, Automated test oracles for GUIs, ACM SIGSOFT Software Engineering Notes, v.25 n.6, p.30-39, Nov. 2000
	Chris Hunter , Paul Strooper, Systematically deriving partial oracles for testing concurrent programs, Australian Computer Science Communications, v.23 n.1, p.83-91, January-February 2001
	Seung Mo Cho , Hyung Ho Kim , Sung Deok Cha , Doo Hwan Bae, A semantics of sequence diagrams, Information Processing Letters, v.84 n.3, p.125-130, 15 November 2022
	Martin S. Feather , Ben Smith, Automatic Generation of Test Oracles—From Pilot Studies to Application, Automated Software Engineering, v.8 n.1, p.31-61, January 2001
	Laura K. Dillon, Automated support for testing and debugging of real-time programs using oracles, ACM SIGSOFT Software Engineering Notes, v.25 n.1, p.45-46, Jan 2000
	George S. Avrunin , James C. Corbett , Laura K. Dillon, Analyzing Partially-Implemented Real-Time Systems, IEEE Transactions on Software Engineering, v.24 n.8, p.602-614, August 1998
	Dennis K. Peters , David Lorge Parnas, Requirements-Based Monitors for Real-Time Systems, IEEE Transactions on Software Engineering, v.28 n.2, p.146-158, February 2002
	Qing Xie , Atif M. Memon, Designing and comparing automated test oracles for GUI-based software applications, ACM Transactions on Software Engineering and Methodology (TOSEM), v.16 n.1, p.4-es, February 2007
	George S. Avrunin , James C. Corbett , Laura K. Dillon, Analyzing partially-implemented real-time systems, Proceedings of the 19th international conference on Software engineering, p.228-238, May 17-23, 1997, Boston, Massachusetts, United States
	Karthikeyan Bhargavan , Carl A. Gunter , Davor Obradovic, Fault origin adjudication, Proceedings of the third workshop on Formal methods in software practice, p.61-71, August 2000, Portland, Oregon, United States
	R. E. Kurt Stirewalt , Laura K. Dillon, A component-based approach to building formal analysis tools, Proceedings of the 23rd International Conference on Software Engineering, p.167-176, May 12-19, 2001, Toronto, Ontario, Canada
	W. K. Chan , S. C. Cheung , Jeffrey C. F. Ho , T. H. Tse, PAT: A pattern classification approach to automatic reference oracles for the testing of mesh simplification programs, Journal of Systems and Software, v.82 n.3, p.422-434, March, 2009