TY - JOUR
T1 - Synthetic Domain Theory and Models of Linear Abadi & Plotkin Logic
AU - Møgelberg, Rasmus Ejlers
AU - Birkedal, Lars
AU - Rosolini, Guiseppe
N1 - Forfatters note: "Annals of Pure and Applied Logic er den korrekte titel på tidsskriftet. Det eksisterer desværre kun under den gamle titel i FIs centrale database."
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Paper id:: 10.1016/j.apal.2008.03.006
PY - 2008/9/2
Y1 - 2008/9/2
N2 - Plotkin suggested using a polymorphic dual intuitionistic/linear type theory (PILLY ) as a metalanguage for parametric polymorphism and recursion. In recent work the first two authors and R.L. Petersen have defined a notion of parametric LAPL-structure, which are models of PILLY , in which one can reason using parametricity and, for example, solve a large class of domain equations, as suggested by Plotkin. In this paper, we show how an interpretation of a strict version of Bierman, Pitts and Russo’s language Lily into synthetic domain theory presented by Simpson and Rosolini gives rise to a parametric LAPL-structure. This adds to the evidence that the notion of LAPL-structure is a general notion, suitable for treating many different parametric models, and it provides formal proofs of consequences of parametricity expected to hold for the interpretation. Finally, we show how these results, in combination with Rosolini and Simpson’s computational adequacy result, can be used to prove consequences of parametricity for Lily. In particular, we show that one can solve domain equations in Lily up to ground contextual equivalence
AB - Plotkin suggested using a polymorphic dual intuitionistic/linear type theory (PILLY ) as a metalanguage for parametric polymorphism and recursion. In recent work the first two authors and R.L. Petersen have defined a notion of parametric LAPL-structure, which are models of PILLY , in which one can reason using parametricity and, for example, solve a large class of domain equations, as suggested by Plotkin. In this paper, we show how an interpretation of a strict version of Bierman, Pitts and Russo’s language Lily into synthetic domain theory presented by Simpson and Rosolini gives rise to a parametric LAPL-structure. This adds to the evidence that the notion of LAPL-structure is a general notion, suitable for treating many different parametric models, and it provides formal proofs of consequences of parametricity expected to hold for the interpretation. Finally, we show how these results, in combination with Rosolini and Simpson’s computational adequacy result, can be used to prove consequences of parametricity for Lily. In particular, we show that one can solve domain equations in Lily up to ground contextual equivalence
KW - Parametric polymorphism
KW - Intuitionistic set theory
KW - Domain theory
KW - Linear lambda calculus
KW - Parametric polymorphism
KW - Intuitionistic set theory
KW - Domain theory
KW - Linear lambda calculus
M3 - Journal article
SN - 0168-0072
VL - 155
SP - 115
EP - 133
JO - Annals of Pure and Applied Logic
JF - Annals of Pure and Applied Logic
IS - 2
ER -