We present a formalization of a version of Abadi and Plotkin’s logic for parametricity for a polymorphic dual intuitionistic / linear type theory with fixed points, and show, following Plotkin’s suggestions, that it can be used to define a wide collection of types, including solutions to recursive domain equations. We further define a notion of parametric LAPL-structure and prove that it provides a sound and complete class of models for the logic, and conclude that such models have solutions for a wide class of recursive domain equations. Finally, we present a concrete parametric LAPL-structure based on suitable categories of partial equivalence relations over a universal model of the untyped lambda calculus. Key words: Parametric polymorph...
We develop a categorical model of polymorphic lambda calculi using a notion called parametric limits...
The pioneering work on relational parametricity for the second order lambda calculus was done by Joh...
AbstractA polymorphic function is parametric if its behavior does not depend on the type at which it...
AbstractWe present a formalization of a version of Abadi and Plotkin's logic for parametricity for a...
AbstractWe present a domain-theoretical model of parametric polymorphism based on admissible per’s o...
We present a domain-theoretic model of parametric polymorphism based on admissible per’s over a doma...
We present a domain-theoretic model of parametric polymorphism based on admissible per’s over a doma...
AbstractPlotkin suggested using a polymorphic dual intuitionistic/linear type theory (PILLY) as a me...
Plotkin suggested to use a polymorphic dual intuitionistic/linear type theory as a metalanguage for ...
Plotkin suggested using a polymorphic dual intuitionistic / linear type theory (PILLY) as a metalang...
This paper presents a sound and complete category-theoretic notion of models for Linear Abadi & ...
with a fixed point combinator Y) with parametric polymorphism can be used as a metalanguage for doma...
AbstractIn a recent article [L. Birkedal, R. E. Møgelberg, and R. L. Petersen. Parametric domain-the...
Abstract. This paper shows how parametric PILLY (Polymorphic Intuitionistic / Linear Lambda calculus...
This paper presents a novel syntactic logical relation for a polymorphic linear lambda-calculus that...
We develop a categorical model of polymorphic lambda calculi using a notion called parametric limits...
The pioneering work on relational parametricity for the second order lambda calculus was done by Joh...
AbstractA polymorphic function is parametric if its behavior does not depend on the type at which it...
AbstractWe present a formalization of a version of Abadi and Plotkin's logic for parametricity for a...
AbstractWe present a domain-theoretical model of parametric polymorphism based on admissible per’s o...
We present a domain-theoretic model of parametric polymorphism based on admissible per’s over a doma...
We present a domain-theoretic model of parametric polymorphism based on admissible per’s over a doma...
AbstractPlotkin suggested using a polymorphic dual intuitionistic/linear type theory (PILLY) as a me...
Plotkin suggested to use a polymorphic dual intuitionistic/linear type theory as a metalanguage for ...
Plotkin suggested using a polymorphic dual intuitionistic / linear type theory (PILLY) as a metalang...
This paper presents a sound and complete category-theoretic notion of models for Linear Abadi & ...
with a fixed point combinator Y) with parametric polymorphism can be used as a metalanguage for doma...
AbstractIn a recent article [L. Birkedal, R. E. Møgelberg, and R. L. Petersen. Parametric domain-the...
Abstract. This paper shows how parametric PILLY (Polymorphic Intuitionistic / Linear Lambda calculus...
This paper presents a novel syntactic logical relation for a polymorphic linear lambda-calculus that...
We develop a categorical model of polymorphic lambda calculi using a notion called parametric limits...
The pioneering work on relational parametricity for the second order lambda calculus was done by Joh...
AbstractA polymorphic function is parametric if its behavior does not depend on the type at which it...