From Bounded Checking to Verification of Equivalence via Symbolic Up-to Techniques

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Vasileios Koutavas, Yu-Yang Lin, Nikos Tzevelekos, From Bounded Checking to Verification of Equivalence via Symbolic Up-to Techniques, LNCS, 28th International Conference on Tools and Algorithms for the Construction and Analysis of Systems (ETAPS 2020), Munich, Germany, 2-7 April 2022, 13244, Springer, 2022, 178 - 195

Abstract

We present a bounded equivalence verification technique for higher-order programs with local state. This technique combines fully abstract symbolic environmental bisimulations similar to symbolic game semantics, novel up-to techniques, and lightweight state invariant annotations. This yields an equivalence verification technique with no false positives or negatives. The technique is bounded-complete, in that all inequivalences are automatically detected given large enough bounds. Moreover, several hard equivalences are proved automatically or after being annotated with state invariants. We realise the technique in a tool prototype called Hobbit and benchmark it with an extensive set of new and existing examples. Hobbit can prove many classical equivalences including all Meyer and Sieber examples.

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Munich, Germany

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Sponsor: Science Foundation Ireland (SFI for RF)
Grant Number: 13/RC/2094_2

Author's Homepage: http://people.tcd.ie/vkoutav
Other Titles: LNCS
Publisher: Springer
Type of material: Conference Paper