Title :
Using Traceability to Enhance Mutation Analysis Dedicated to Model Transformation
Author :
Aranega, Vincent ; Mottu, Jean-Marie ; Etien, Anne ; Dekeyser, Jean-Luc
Author_Institution :
INRIA, Univ. of Lille 1, Lille, France
Abstract :
Techniques initially used for programs require modifications to be properly used with to model transformation characteristics. Mutation analysis is one of these techniques. It aims to qualify a test data set by analyzing the execution results of intentionally faulty program versions. If the degree of qualification is not satisfactory, the test data set has to be improved. This step is currently relatively fastidious and manually performed. In this paper, we propose an approach based on traceability mechanisms to ease the test model set improvement in the mutation analysis process. A benchmark shows that the part of the input model to change is automatically and quickly identified. A new model is then created in order to raise the quality of the test data set.
Keywords :
data flow analysis; benchmark shows; intentionally faulty program versions; model transformation; mutation analysis; test data set; test model set improvement; traceability mechanisms; Adaptation model; Analytical models; Benchmark testing; Data models; Navigation; Unified modeling language; model transformation; mutation analysis; test; traceability;
Conference_Titel :
Model-Driven Engineering, Verification, and Validation (MoDeVVa), 2010 Workshop on
Conference_Location :
Oslo
Electronic_ISBN :
978-0-7695-4384-0
DOI :
10.1109/MoDeVVa.2010.15
