Towards Practical Graph-Based Verification for an Object-Oriented Concurrency Model

Alexander Heußner
Christopher M. Poskitt
Claudio Corrodi
Benjamin Morandi

To harness the power of multi-core and distributed platforms, and to make the development of concurrent software more accessible to software engineers, different object-oriented concurrency models such as SCOOP have been proposed. Despite the practical importance of analysing SCOOP programs, there are currently no general verification approaches that operate directly on program code without additional annotations. One reason for this is the multitude of partially conflicting semantic formalisations for SCOOP (either in theory or by-implementation). Here, we propose a simple graph transformation system (GTS) based run-time semantics for SCOOP that grasps the most common features of all known semantics of the language. This run-time model is implemented in the state-of-the-art GTS tool GROOVE, which allows us to simulate, analyse, and verify a subset of SCOOP programs with respect to deadlocks and other behavioural properties. Besides proposing the first approach to verify SCOOP programs by automatic translation to GTS, we also highlight our experiences of applying GTS (and especially GROOVE) for specifying semantics in the form of a run-time model, which should be transferable to GTS models for other concurrent languages and libraries.

In Arend Rensink and Eduardo Zambon: Proceedings Graphs as Models (GaM 2015), London, UK, 11-12 April 2015, Electronic Proceedings in Theoretical Computer Science 181, pp. 32–47.
Published: 10th April 2015.

ArXived at: https://dx.doi.org/10.4204/EPTCS.181.3 bibtex PDF
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