Four models for the analysis and optimization of program control structures

Proceedings of the forty-seventh annual ACM symposium on Theory of Computing Pub Date : 1975-05-05 DOI:10.1145/800116.803766

T. W. Pratt

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引用次数: 2

Abstract

The analysis of the relation between the structure of a program and the function that it computes requires a decomposition of the program into its components. Traditionally this decomposition has been based on the common division of a program into subprograms, and ultimately into statements, expressions and individual variables and constants. In this paper an alternative decomposition is proposed that is based on the decomposition of a program into a set of kernel elements, those program elements that participate in the direct computation of the outputs of the program, and a set of control elements, those elements that participate in the determination of the execution path. The kernel-control decomposition of a program leads to a series of progressively more abstract program representations, each of which has both theoretical and practical interest. The separation of control structure from kernel and the three abstract models presented here, which are based on this decomposition, are particularly valuable in the analysis and optimization of program control structures. This research summary outlines the major results, which will be reported in full in a journal article.

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程序控制结构分析与优化的四种模型

分析一个程序的结构和它所计算的功能之间的关系需要把程序分解成它的组成部分。传统上，这种分解是基于将程序划分为子程序，最终划分为语句、表达式、单个变量和常量。本文提出了另一种分解方法，该方法基于将程序分解为一组核心元素(参与程序输出的直接计算的程序元素)和一组控制元素(参与确定执行路径的元素)。程序的核控制分解导致一系列逐渐抽象的程序表示，其中每一个都具有理论和实践意义。控制结构与内核的分离以及基于这种分离的三个抽象模型，在程序控制结构的分析和优化中具有重要的应用价值。本研究摘要概述了主要结果，将全文发表在期刊文章中。

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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Proceedings of the forty-seventh annual ACM symposium on Theory of Computing

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