从第一原理衍生出依赖类型的 OOP--扩展版及附加附录

ArXiv Pub Date : 2024-03-11 DOI:10.1145/3649846
David Binder, Ingo Skupin, Tim Süberkrüb, Klaus Ostermann
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引用次数: 0

摘要

表达式问题描述了大多数类型是如何通过新的生成方式或新的消耗方式来轻松扩展的,但两者都不能。例如,当抽象语法树被定义为代数数据类型时,它们可以很容易地扩展为新的消费类型,如 print 或 eval,但添加一个新的构造函数则需要修改所有现有的模式匹配。表达式问题是阐明函数式或面向数据的程序(可通过新的消费者轻松扩展)与面向对象的程序(可通过新的生产者轻松扩展)之间区别的一种方法。在依赖类型编程中,新的生产者或新的消费者也可以扩展程序,但两者之间存在一个核心区别:依赖类型编程几乎完全遵循函数式编程模型,而不是面向对象的模型,这就在编程语言领域留下了一个尚未开发的有趣空间。在本文中,我们利用二元性原则从第一原理出发,探索依赖类型的面向对象编程领域。也就是说,我们不是以临时的方式用依赖类型扩展现有的面向对象形式主义,而是从熟悉的面向数据语言出发,通过系统地使用去函数化和再函数化,推导出其对偶片段。我们的核心贡献是一种依赖类型的微积分,它包含两个对偶语言片段。我们在这两个语言片段之间提供了类型和语义保留转换:去功能化和重功能化。我们已经实现了这种语言和这些转换,并用这种实现解释了依赖类型编程中的构造可以解释为对偶现象的特殊实例的各种方式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deriving Dependently-Typed OOP from First Principles - Extended Version with Additional Appendices
The expression problem describes how most types can easily be extended with new ways to produce the type or new ways to consume the type, but not both. When abstract syntax trees are defined as an algebraic data type, for example, they can easily be extended with new consumers, such as print or eval, but adding a new constructor requires the modification of all existing pattern matches. The expression problem is one way to elucidate the difference between functional or data-oriented programs (easily extendable by new consumers) and object-oriented programs (easily extendable by new producers). This difference between programs which are extensible by new producers or new consumers also exists for dependently typed programming, but with one core difference: Dependently-typed programming almost exclusively follows the functional programming model and not the object-oriented model, which leaves an interesting space in the programming language landscape unexplored. In this paper, we explore the field of dependently-typed object-oriented programming by deriving it from first principles using the principle of duality. That is, we do not extend an existing object-oriented formalism with dependent types in an ad-hoc fashion, but instead start from a familiar data-oriented language and derive its dual fragment by the systematic use of defunctionalization and refunctionalization. Our central contribution is a dependently typed calculus which contains two dual language fragments. We provide type- and semantics-preserving transformations between these two language fragments: defunctionalization and refunctionalization. We have implemented this language and these transformations and use this implementation to explain the various ways in which constructions in dependently typed programming can be explained as special instances of the phenomenon of duality.
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