TY - GEN
T1 - Supporting the statistical analysis of variability models
AU - Heradio, Ruben
AU - Fernandez-Amoros, David
AU - Mayr-Dorn, Christoph
AU - Egyed, Alexander
PY - 2019/5
Y1 - 2019/5
N2 - Variability models are broadly used to specify the configurable features of highly customizable software. In practice, they can be large, defining thousands of features with their dependencies and conflicts. In such cases, visualization techniques and automated analysis support are crucial for understanding the models. This paper contributes to this line of research by presenting a novel, probabilistic foundation for statistical reasoning about variability models. Our approach not only provides a new way to visualize, describe and interpret variability models, but it also supports the improvement of additional state-of-the-art methods for software product lines; for instance, providing exact computations where only approximations were available before, and increasing the sensitivity of existing analysis operations for variability models. We demonstrate the benefits of our approach using real case studies with up to 17,365 features, and written in two different languages (KConfig and feature models).
AB - Variability models are broadly used to specify the configurable features of highly customizable software. In practice, they can be large, defining thousands of features with their dependencies and conflicts. In such cases, visualization techniques and automated analysis support are crucial for understanding the models. This paper contributes to this line of research by presenting a novel, probabilistic foundation for statistical reasoning about variability models. Our approach not only provides a new way to visualize, describe and interpret variability models, but it also supports the improvement of additional state-of-the-art methods for software product lines; for instance, providing exact computations where only approximations were available before, and increasing the sensitivity of existing analysis operations for variability models. We demonstrate the benefits of our approach using real case studies with up to 17,365 features, and written in two different languages (KConfig and feature models).
UR - https://www.scopus.com/pages/publications/85072273105
U2 - 10.1109/ICSE.2019.00091
DO - 10.1109/ICSE.2019.00091
M3 - Conference proceedings
T3 - Proceedings - International Conference on Software Engineering
SP - 843
EP - 853
BT - Proceedings of the 41st International Conference on Software Engineering, ICSE 2019, Montreal, QC, Canada, May 25-31, 2019
A2 - Joanne M. Atlee and Tevfik Bultan and Jon Whittle, null
PB - IEEE / ACM
ER -