Abstract
A technique for approximating the behaviour of graph transformation systems (GTSs) by means of Petri net-like structures has been recently defined in the literature. In this paper we introduce a monadic second-order logic over graphs expressive enough to characterise typical graph properties, and we show how its formulae can be effectively verified. More specifically, we provide an encoding of such graph formulae into quantifier-free formulae over Petri net markings and we characterise, via a type assignment system, a subclass of formulae F such that the validity of F over a GTS G is implied by the validity of the encoding of F over the Petri net approximation of G. This allows us to reuse existing verification techniques, originally developed for Petri nets, to model-check the logic, suitably enriched with temporal operators.
Research supported by the MIUR Project COFIN 2001013518 CoMeta, the FETGC Project IST-2001-32747 Agile and the EC RTN 2-2001-00346 SegraVis.
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Baldan, P., König, B., König, B. (2003). A Logic for Analyzing Abstractions of Graph Transformation Systems. In: Cousot, R. (eds) Static Analysis. SAS 2003. Lecture Notes in Computer Science, vol 2694. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-44898-5_14
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DOI: https://doi.org/10.1007/3-540-44898-5_14
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