Title :
Towards Model-and-Code Consistency Checking
Author :
Riedl-Ehrenleitner, Markus ; Demuth, Andreas ; Egyed, Alexander
Author_Institution :
Johannes Kepler Univ., Linz, Austria
Abstract :
In model-driven engineering, design models allow for efficient designing without considering implementation details. Still, it is crucial that design models and source code are in sync. Unfortunately, both artifacts do evolve frequently and concurrently which causes them to drift apart over time. Even though technologies such as model-to-code transformations are commonly employed to keep design models and source code synchronized, those technologies typically still require unguided, manual adaptations. Hence, they do not effectively prevent inconsistencies from being introduced. In this paper, we outline a novel approach for checking consistency between design models and source code. Our approach aims at detecting inconsistencies instantly and informing developers about a project´s consistency status live during development.
Keywords :
formal verification; source code (software); checking consistency; consistency status; design model; model-and-code consistency checking; model-driven engineering; model-to-code transformation; source code; Adaptation models; Collaboration; Computational modeling; Java; Navigation; Synchronization; Unified modeling language; Incremental Consistency Checking; Model-Driven Enginering; Model-and-Code Consistency Checking;
Conference_Titel :
Computer Software and Applications Conference (COMPSAC), 2014 IEEE 38th Annual
Conference_Location :
Vasteras
DOI :
10.1109/COMPSAC.2014.91
