On using data abstractions for model checking refinements

Abstract

In this paper we investigate how standard model checkers can be applied to checking refinement relationships between Z specifications. The major obstacle to such a use are the (potentially) infinite data domains in specifications. Consequently, we examine the application of data abstraction techniques for reducing the infinite to a finite state space. Since data abstractions do, however, decrease the amount of information in a specification, refinement can—in general—not be proven on the abstractions anymore, it can only be disproved. The model checker can thus be used to generate counter examples to a refinement relationship. Here, we show how abstract specifications can be systematically constructed (from a given data abstraction) and how a standard model checker (FDR) can be applied to find counter examples in case when refinement is absent. We especially discuss the applicability of the construction method: it constructs abstract specifications which are either upward or downward simulations of the original specifications, and depending on the operations in the specification and the data abstraction chosen, such a construction might succeed or fail. The construction abstracts both the input/output as well as the state.