Verifying Component and Connector Models against Crosscutting Structural Views
Abstract
The structure of component and connector (C&C) models, which are used in many application domains of software engineering, consists of components at different containment levels, their typed input and output ports, and the connectors between them. C&C views, presented in [24], can be used to specify structural properties of C&C models in an expressive and intuitive way. In this work we address the verification of a C&C model against a C&C view and present efficient (polynomial) algorithms to decide satisfaction. A unique feature of our work, not present in existing approaches to checking structural properties of C&C models, is the generation of witnesses for satisfaction/non-satisfaction and of short naturallanguage texts, which serve to explain and formally justify the verification results and point the engineer to its causes. A prototype tool and an evaluation over four example systems with multiple views, performance and scalability experiments, as well as a user study of the usefulness of the witnesses for engineers, demonstrate the contribution of our work to the state-of-the-art in component and connector modeling and analysis.
Cite
@article{arxiv.1406.7136,
title = {Verifying Component and Connector Models against Crosscutting Structural Views},
author = {Shahar Maoz and Jan Oliver Ringert and Bernhard Rumpe},
journal= {arXiv preprint arXiv:1406.7136},
year = {2014}
}
Comments
11 pages, 8 figures