Proof-theoretic Semantics for the Logic of Bunched Implications

Typically, substructural logics are used in applications because of their resource interpretations, and these interpretations often refer to the celebrated number-of-uses reading of their implications. However, despite its prominence, this reading is not at all reflected in the truth-functional semantics of these logics. It is a proof-theoretic interpretation of the logic. Hence, one desires a \emph{proof-theoretic semantics} of such logics in which this reading is naturally expressed. This paper delivers such a semantics for the logic of Bunched Implications (BI), generalizing earlier work on IMLL, which is well-known as a logic of resources with numerous applications to verification and modelling. Specifically, it delivers a base-extension semantics (B-eS) for BI in which resources are \emph{bunches} of atoms that get passed from antecedent to consequent in precisely the expected way.