Visual analysis for Low Level Test Cases in Test Project

• Autorzy: Sosnówka A.

Warianty tytułu

PL

Wizualna analiza testów niskiego poziomu w projekcie testowym

• Języki publikacji: EN

Abstrakty

EN

Although the majority of software testing in the industry is conducted at the system or acceptance level, most formal research has focused on the unit level. As a result, system and integration level testing techniques are only described informally. This paper presents general visual analysis for low level test selection based on inputs from available Test Management system. A presented analysis criterion includes small subset of test metrics that can be used as a base for further development of the test suites.

PL

Mimo, iż większość testów w przemyśle przy tworzeniu oprogramowania jest przeprowadzana na poziomie systemu lub testów użytkownika, formalne badania koncentrują się dotychczas na poziomie Unit-Test. Wynikiem tego jest stosunkowo słaby opis formalny testów integracyjnych lub systemowych. W artykule tym przeprowadzono ogólną analizę wizualizacyjną opartą na danych pobranych z narzędzi do zarządzania testami. Zaprezentowane kryteria zawierają zbiór metryk testowych, które mogą byż używane w dalszym procesie rozwoju bazy testów.

Słowa kluczowe

EN

visualization metaphor; test archaeology; test metrics; test case visualization

PL

metafora wizualizacyjna; archeologia testów; metryki testowe; wizualizacja testów

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2013
• Tom: R. 89, nr 1a
• Strony: 94--98
• Opis fizyczny: Bibliogr. 22 poz., rys.

Twórcy

autor

Sosnówka A.

• West Pomeranian University of Technology, Faculty of Computer Science and Information Technology

Bibliografia

• [1] Richard Wettel, Michele Lanza, S.: Program Comprehension through Software Habitability. In Proceedings of 15th International Conference on Program Comprehension, (ICPC 2007). IEEE Computer Society. (2007)
• [2] Dickinson, W. The Application of Cluster Filtering to operational testing of Software. Doctoral dissertation. Case Western Reserve University, (2001)
• [3] David Zaen Leon Cesin, Profile analysis techniques for observation-based software testing, Doctoral dissertation, Case Western Reserve University, (2005)
• [4] ISTQB, Syllabus, http://istqb.org/download/attachments/2326555/Foundation+Le vel+Syllabus+%282010%29.pdf (2010)
• [5] IEEE, 1059-1993 - IEEE Guide for Software Verification and Validation Plans, http://standards.ieee.org/findstds/standard/1059-1993.htm (1993)
• [6] Dickinson, W. The Application of Cluster Filtering to operational testing of Software. Doctoral dissertation. Case Western Reserve University (2001)
• [7] David Zaen Leon Cesin, Profile analysis techniques for observation-based software testing, Doctoral dissertation, Case Western Reserve University (2005)
• [8] Muller, H., and Klashinsky, S.:. Rigi: a system for programmingin- the-large. In Proceedings of ICSE 1988, 80–86, ACM Press (1988)
• [9] Eick, S., Graves, T., Karr, A., Marron, J., and Mockus, S.: Does code decay? Assessing the evidence from change management data. IEEE Transactions on Software Engineering 27, 1, 1–12 (1998).
• [10] Marcus, A., Feng, L., and Maletic, J. I. S.: 3d representations for software visualization. In Proceedings of SoftVis 2003, 27– 36, ACM Press (2003).
• [11] Santos, C. R. D., Gros, P., Abel, P., Loisel, D., Trichaud, N., and Paris, J. P. S.: Mapping information onto 3d virtual worlds. In Proceedings of the IV International Conference on Information Visualization 2000, 379–386, (2000).
• [12] Panas, T., Berrigan, R., and Grundy, J. S.: A 3d metaphor for software production visuali-zation. IV 2003 - International Conference on Computer Visualization and Graphics Applications, 314, IEEE CS Press, (2003).
• [13] Langelier, G., Sahraoui, H. A., and Poulin, P. S.: Visualizationbased analysis of quality for large-scale software systems. In Proceedings of ASE 2005, 214–223, ACM Press, (2005)
• [14] Marinescu, R. S.: Detection strategies: Metrics-based rules for detecting design flaws. In Proceedings of ICSM 2004, 350– 359, IEEE CS Press (2004)
• [15] Lanza, M., and Marinescu, R. S.:. Object-OrientedMetrics in Practice. Springer (2006)
• [16] Richard Wettel, Software Systems as Cities, Doctoral Dissertation, Faculty of Informatics of the Università della Svizzera Italiana (2010)
• [17] Ivar Jacobson, Grady Booch, James Rumbaugh, The Unified Software Development Process, Addison-Wesley Professional, (1999) ISBN 0-201-57169-2
• [18] E. J. Weyuker and B. Jeng, Analyzing partition testing strategies, IEEE Transactions on Software Engineering 17, (1991), 703–711.
• [19] F. T. Chan, T.Y. Chen, I.K. Mak, and Y. T. Yu, Proportional sampling strategy: guidelines for software testing practitioners, Information and Software Technology, (1996), 775–782
• [20] T.Y. Chen and Y. T. Yu, On the expected number of failures detected by subdomain testing and random testing, IEEE Transactions on Software Engineering, (1996), 109–119
• [21] F. T. Chan, T.Y. Chen, and T.H. Tse, On the effectiveness of test case allocation schemes in partition testing, Information and Software Technology, (1997), 719–726.
• [22] V. Averbukh, M. Bakhterev, Interface and visualization metaphors, HCI'07 Proceedings of the 12th international conference on Human-computer interaction: interaction platforms and techniques, Springer-Verlag, (2007), ISBN: 978- 3-540-73106-1.