Combining proofs and programs in a dependently typed language

Chris Casinghino, Vilhelm Sjöberg, Stephanie Weirich
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引用次数: 71

Abstract

Most dependently-typed programming languages either require that all expressions terminate (e.g. Coq, Agda, and Epigram), or allow infinite loops but are inconsistent when viewed as logics (e.g. Haskell, ATS, Ωmega. Here, we combine these two approaches into a single dependently-typed core language. The language is composed of two fragments that share a common syntax and overlapping semantics: a logic that guarantees total correctness, and a call-by-value programming language that guarantees type safety but not termination. The two fragments may interact: logical expressions may be used as programs; the logic may soundly reason about potentially nonterminating programs; programs can require logical proofs as arguments; and "mobile" program values, including proofs computed at runtime, may be used as evidence by the logic. This language allows programmers to work with total and partial functions uniformly, providing a smooth path from functional programming to dependently-typed programming.
用独立类型语言组合证明和程序
大多数依赖类型的编程语言要么要求所有表达式终止(例如Coq、Agda和Epigram),要么允许无限循环,但当被视为逻辑时却不一致(例如Haskell、ATS、Ωmega)。在这里,我们将这两种方法合并为一种依赖类型的核心语言。该语言由共享公共语法和重叠语义的两个片段组成:保证完全正确性的逻辑,以及保证类型安全但不终止的按值调用编程语言。这两个片段可以相互作用:逻辑表达式可以用作程序;逻辑可以合理地推断出潜在的非终止程序;程序可以要求逻辑证明作为参数;而“移动”的程序值,包括在运行时计算的证明,可以被逻辑用作证据。这种语言允许程序员统一地使用全函数和部分函数,提供了从函数式编程到依赖类型编程的平滑路径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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