在Mathematica中实现参数化类型算法定义

A. Andreica
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引用次数: 3

摘要

本文重点介绍了在Mathematica中定义参数化类型类别的方法和基于这些类型的算法。基于范畴论的符号算法具有通过创建表达算法的一般上下文系统地处理域、范畴和运算符的优点,这些算法可以通过使用相同的算法定义将它们与不同的域参数化来应用。虽然作者以前也提出过类似的方法,但本文的目的是更加关注在分类原则上定义的算法特征,并给出一个基于一般原则和分类理论的更通用的框架来实现Mathematica算法。本文还讨论了这些通用实现的运行时效率方面
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Implementing Parameterized Type Algorithm Definitions in Mathematica
The paper focuses on means of defining parameterized type categories and algorithms built on such types in Mathematica. Symbolic algorithms based on category theory have the advantage of systematically dealing with domains, categories, operators over them by creating general contexts of expressing algorithms, which can be applied by parameterizing them with various domains, using the same algorithm definition. While similar approaches have been previously presented by the author, the present paper aims at a stronger focus on algorithm characteristics defined on categorical principles and giving a more general framework for implementing Mathematica algorithms based on generic principles and category theory. The paper also discusses run time efficiency aspects for these generic implementations
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