参数化和依赖类型

Proceedings of the 18th ACM SIGPLAN international conference on Functional programming Pub Date : 2010-09-27 DOI:10.1145/1863543.1863592

Jean-Philippe Bernardy, Patrik Jansson, R. Paterson

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引用次数: 61

摘要

Reynolds的抽象定理展示了如何将系统F中的类型判断转换为关于该类型居民的关系语句(在二阶谓词逻辑中)。我们(在二阶谓词逻辑中)讨论类型的居民。对于单个lambda演算(纯类型系统)，我们得到了类似的结果，其中表示了项、类型及其关系。在单个系统中工作不需要解释层，从而允许异常简单的表示。虽然统一对类型系统施加了一些约束(我们将详细说明)，但其结果适用于许多有趣的情况，包括依赖类型的情况。

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Parametricity and dependent types

Reynolds' abstraction theorem shows how a typing judgement in System F can be translated into a relational statement (in second order predicate logic) about inhabitants of the type. We (in second order predicate logic) about inhabitants of the type. We obtain a similar result for a single lambda calculus (a pure type system), in which terms, types and their relations are expressed. Working within a single system dispenses with the need for an interpretation layer, allowing for an unusually simple presentation. While the unification puts some constraints on the type system (which we spell out), the result applies to many interesting cases, including dependently-typed ones.

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Proceedings of the 18th ACM SIGPLAN international conference on Functional programming

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