统一结构化递归方案

Proceedings of the 18th ACM SIGPLAN international conference on Functional programming Pub Date : 2013-09-25 DOI:10.1145/2500365.2500578

Ralf Hinze, Nicolas Wu, Jeremy Gibbons

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引用次数: 4

摘要

归纳数据类型上的折叠被很好地理解并广泛使用。在它们的普通形式中，它们是相当有限的;但是，人们提出了许多不同的概括，它们在计算上都有类似的好处。也有人试图统一不同的推广:两个突出的统一是ustalu, Vene和Pardo的“common的递归方案”，以及我们自己的“伴随折叠”。到目前为止，这两个统一的方案似乎是不相容的。我们证明这种表象是虚幻的:事实上，伴随折叠包含了公键的递归方案。这一说法的证明涉及范畴论中的标准结构，但在函数式编程中并不为人所知:Eilenberg-Moore范畴和双代数。

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Unifying structured recursion schemes

Folds over inductive datatypes are well understood and widely used. In their plain form, they are quite restricted; but many disparate generalisations have been proposed that enjoy similar calculational benefits. There have also been attempts to unify the various generalisations: two prominent such unifications are the 'recursion schemes from comonads' of Uustalu, Vene and Pardo, and our own 'adjoint folds'. Until now, these two unified schemes have appeared incompatible. We show that this appearance is illusory: in fact, adjoint folds subsume recursion schemes from comonads. The proof of this claim involves standard constructions in category theory that are nevertheless not well known in functional programming: Eilenberg-Moore categories and bialgebras.

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

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