基于证明的排序算法综合的组合技术

2015 17th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing (SYNASC) Pub Date : 2015-09-21 DOI:10.1109/SYNASC.2015.30

I. Dramnesc, T. Jebelean, Sorin Stratulat

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引用次数: 7

摘要

在我们之前的基于证明的列表和二叉树排序算法的综合实验框架中，我们采用了一些特殊的技术，通过研究可用于组合对象(列表，分别是树)的辅助函数的所有组合，这些技术能够生成排序和合并的多个变体。本文的目的是描述这种技术和所获得的结果。我们给出了该技术在将有序二叉树归并为有序二叉树中的主要原理和应用。值得注意的是，归并需要嵌套递归，因此很难猜测合适的归纳原则。我们的方法可以利用一般的诺瑟归纳和组合技术自动找到它。

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Combinatorial Techniques for Proof-Based Synthesis of Sorting Algorithms

In the frame of our previous experiments for proof based synthesis of sorting algorithms for lists and for binary trees, we employed certain special techniques which are able to generate multiple variants of sorting and merging, by investigating all combinations of auxiliary functions available for composing objects (lists, respectively trees). The purpose of this paper is to describe this technique and the results obtained. We present the main principles and the application of this technique to merging of sorted binary trees into a sorted one. Remarkably, merging requires a nested recursion, for which an appropriate induction principle is difficult to guess. Our method is able to find it automatically by using a general Noetherian induction and the combinatorial technique.

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2015 17th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing (SYNASC)

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