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Type inhabitation

From Wikipedia, the free encyclopedia

In type theory, a branch of mathematical logic, in a given typed calculus, the type inhabitation problem for this calculus is the following problem:[1] given a type and a typing environment , does there exist a -term M such that ? With an empty type environment, such an M is said to be an inhabitant of .

Relationship to logic

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In the case of simply typed lambda calculus, a type has an inhabitant if and only if its corresponding proposition is a tautology of minimal implicative logic. Similarly, a System F type has an inhabitant if and only if its corresponding proposition is a tautology of intuitionistic second-order logic.

Girard's paradox shows that type inhabitation is strongly related to the consistency of a type system with Curry–Howard correspondence. To be sound, such a system must have uninhabited types.

Formal properties

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For most typed calculi, the type inhabitation problem is very hard. Richard Statman proved that for simply typed lambda calculus the type inhabitation problem is PSPACE-complete. For other calculi, like System F, the problem is even undecidable.

See also

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References

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  1. ^ Pawel Urzyczyn (1997). "Inhabitation in typed lambda-calculi (A syntactic approach)". Typed Lambda Calculi and Applications. Lecture Notes in Computer Science. Vol. 1210. Springer. pp. 373–389. doi:10.1007/3-540-62688-3_47. ISBN 978-3-540-62688-6.