Gradual refinement types

Nico Lehmann, É. Tanter
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引用次数: 54

Abstract

Refinement types are an effective language-based verification technique. However, as any expressive typing discipline, its strength is its weakness, imposing sometimes undesired rigidity. Guided by abstract interpretation, we extend the gradual typing agenda and develop the notion of gradual refinement types, allowing smooth evolution and interoperability between simple types and logically-refined types. In doing so, we address two challenges unexplored in the gradual typing literature: dealing with imprecise logical information, and with dependent function types. The first challenge leads to a crucial notion of locality for refinement formulas, and the second yields novel operators related to type- and term-level substitution, identifying new opportunity for runtime errors in gradual dependently-typed languages. The gradual language we present is type safe, type sound, and satisfies the refined criteria for gradually-typed languages of Siek et al. We also explain how to extend our approach to richer refinement logics, anticipating key challenges to consider.
逐渐细化类型
细化类型是一种有效的基于语言的验证技术。然而,就像任何具有表现力的打字规则一样,它的优点也有缺点,有时会带来不必要的刚性。在抽象解释的指导下,我们扩展了渐进式类型议程,并发展了渐进式细化类型的概念,允许简单类型和逻辑细化类型之间的平滑演变和互操作性。在此过程中,我们解决了渐进式类型文献中未探索的两个挑战:处理不精确的逻辑信息,以及处理相关函数类型。第一个挑战引出了精化公式局部性的关键概念,第二个挑战产生了与类型级和术语级替换相关的新操作符,为逐渐依赖类型的语言中的运行时错误提供了新的机会。我们提出的渐进式语言是类型安全的、类型健全的,并且满足Siek等人对渐进式语言的细化标准。我们还解释了如何将我们的方法扩展到更丰富的细化逻辑,预测需要考虑的关键挑战。
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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