Test Case PrioritizationUsing Fuzzy Logic for GUI based Software

Testing of GUI (Graphical User Interface) applications has many challenges due to its event driven nature and infinite input domain. It is very difficult for any programmer to test for each and every possible input. When test cases are generated using automated testing tool it uses each and every possible combination to generate test cases hence generates numerous number of test case for any GUI based application. Within a defined time frame it is not possible to test every test case, that is why test cases prioritization is required. Test-case prioritization has been widely proposed and used in recent years as it can improve the rate of fault detection during the testing phase. Very few methods are defined for GUI Test case prioritization that usually consider single criteria for assigning priority for the test case which is not sufficient for the consideration of that test case as more fault revealing. In this paper we have proposed a method for assigning weight value on the basis of multiple factors as one of the criteria for test case prioritization for GUI based software. These factors are: The type of event, Event Interaction, and Parameter-value interaction coverage-based criteria. In the proposed approach priority is assigned based upon these factors using fuzzy logic model. Experimental results indicate that the proposed model is suitable for prioritizing the test cases of GUI based software.

[1]  Atif M. Memon,et al.  Automatically repairing event sequence-based GUI test suites for regression testing , 2008, TSEM.

[2]  Atif M. Memon,et al.  Relationships between Test Suites, Faults, and Fault Detection in GUI Testing , 2008, 2008 1st International Conference on Software Testing, Verification, and Validation.

[3]  Atif M. Memon,et al.  Test case generator for GUITAR , 2008, ICSE Companion '08.

[4]  Yogesh Singh,et al.  Predicting software maintenance using fuzzy model , 2009, SOEN.

[5]  Mary Lou Soffa,et al.  A comprehensive framework for testing graphical user interfaces , 2001 .

[6]  Paul Gerrard,et al.  Testing GUI Applications , 1997 .

[7]  Atif M. Memon,et al.  Call-Stack Coverage for GUI Test Suite Reduction , 2008, IEEE Transactions on Software Engineering.

[8]  Lee J. White,et al.  Generating test cases for GUI responsibilities using complete interaction sequences , 2000, Proceedings 11th International Symposium on Software Reliability Engineering. ISSRE 2000.

[9]  Atif M. Memon,et al.  Studying the fault-detection effectiveness of GUI test cases for rapidly evolving software , 2005, IEEE Transactions on Software Engineering.

[10]  Chin-Yu Huang,et al.  Design and analysis of GUI test-case prioritization using weight-based methods , 2010, J. Syst. Softw..

[11]  Mary Lou Soffa,et al.  Coverage criteria for GUI testing , 2001, ESEC/FSE-9.

[12]  Mary Lou Soffa,et al.  Hierarchical GUI Test Case Generation Using Automated Planning , 2001, IEEE Trans. Software Eng..

[13]  Mary Jean Harrold,et al.  Testing: a roadmap , 2000, ICSE '00.

[14]  Atif M. Memon,et al.  Test suite prioritization by interaction coverage , 2007, DOSTA '07.

[15]  Daniel P. Siewiorek,et al.  A method to automate user interface testing using variable finite state machines , 1997, Proceedings of IEEE 27th International Symposium on Fault Tolerant Computing.

[16]  Brad A. Myers,et al.  User interface software tools , 1995, TCHI.

[17]  Gregg Rothermel,et al.  Test Case Prioritization: A Family of Empirical Studies , 2002, IEEE Trans. Software Eng..

[18]  Atif M. Memon,et al.  Developing a Single Model and Test Prioritization Strategies for Event-Driven Software , 2011, IEEE Transactions on Software Engineering.

[19]  Atif M. Memon,et al.  Automating regression testing for evolving GUI software , 2005, J. Softw. Maintenance Res. Pract..