Dependent Ghosts Have a Reflection for Free
Résumé
We introduce ghost type theory (GTT) a dependent type theory extended with a new universe for ghost data that can safely be erased when running a program but which is not proof irrelevant like with a universe of (strict) propositions. Instead, ghost data carry information that can be used in proofs or to discard impossible cases in relevant computations. Casts can be used to replace ghost values by others that are propositionally equal, but crucially these casts can safely be ignored for conversion. We provide a type-preserving erasure procedure which gets rid of all ghost data and proofs, a step which may be used as a first step to program extraction. We give a syntactical model of GTT using a program translation akin to the parametricity translation and thus show consistency of the theory. Because it is a parametricity model, it can also be used to derive free theorems about programs using ghost code. We further extend GTT to support equality reflection and show that we can eliminate its use without the need for the usual extra axioms of function extensionality and uniqueness of identity proofs. In particular we validate the intuition that indices of inductive types—such as the length index of vectors—do not matter for computation and can safely be considered modulo theory. The results of the paper have been formalised in Coq.
Domaines
Informatique [cs]Origine | Publication financée par une institution |
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