Reifying Concurrency for Executable Metamodeling

Description

Current metamodeling techniques can be used to specify the syntax and semantics of domain specific modeling languages (DSMLs). However, there is currently very little support for explicitly specifying concurrency semantics using metamodels. Often, such semantics are provided through implicit concurrency models embedded in the underlying execution environment supported by the language workbench used to implement the DSMLs. The lack of an explicit concurrency model has several drawbacks: it not only prevents from developing a complete understanding of the behavioral semantics, it also prevents development of effective concurrency-aware analysis techniques, and effective techniques for producing semantic variants in the cases where the semantic base has variation points. This work reifies concurrency as a metamodeling facility, leveraging formalization work from the concurrency theory and models of computation (MoC) community. The essential contribution of this paper is a proposed language workbench for binding domain-specific concepts and models of computation through an explicit event structure at the metamodel level. We illustrate these novel metamodeling facilities for designing two variants of a concurrent and timed final state machine, and provide other experiments to validate the scope of our approach.

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