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Conference Papers Year : 2013

Reasoning About Higher-Order Relational Specifications


The logic of hereditary Harrop formulas (HH) has proven useful for specifying a wide range of formal systems. This logic includes a form of hypothetical judgment that leads to dynamically changing sets of assumptions and that is key to encoding side conditions and contexts that occur frequently in structural operational semantics (SOS) style presentations. Specifications are often useful in reasoning about the systems they describe. The Abella theorem prover supports such reasoning by explicitly embedding the specification logic within a rich reasoning logic; specifications are then reasoned about through this embedding. However, realizing an induction principle in the face of dynamically changing assumption sets is nontrivial and the original Abella system uses only a subset of the HH specification logic for this reason. We develop a method here for supporting inductive reasoning over all of HH. Our approach takes advantage of a focusing property of HH to isolate the use of an assumption and the ability to finitely characterize the structure of any such assumption in the reasoning logic. We demonstrate the effectiveness of these ideas via several specification and meta-theoretic reasoning examples that have been implemented in an extended version of Abella.
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Dates and versions

hal-00787126 , version 1 (11-02-2013)
hal-00787126 , version 2 (04-08-2013)



Yuting Wang, Kaustuv Chaudhuri, Andrew Gacek, Gopalan Nadathur. Reasoning About Higher-Order Relational Specifications. International Symposium on Principles and Practice of Declarative Programming, ACM SIGPLAN, Sep 2013, Madrid, Spain. ⟨10.1145/2505879.2505889⟩. ⟨hal-00787126v2⟩
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