先进的基于自动机的程序终止检查算法

Yu-Fang Chen, Matthias Heizmann, Ondřej Lengál, Yong Li, M. Tsai, Andrea Turrini, Lijun Zhang
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引用次数: 35

摘要

2014年,Heizmann等人提出了一个新的程序终止分析框架。分析从样本路径的终止证明开始。该路径被推广为一个自动机(BA),其语言(通过构造)表示一组终止路径。所有这些路径都可以安全地从程序中删除。路径的移除是使用自动差分来完成的,通过BA互补和交集来实现。分析以这种方式构建了一组ba,这些ba共同“覆盖”了程序的行为,从而证明了程序的终止。该方法在Ultimate Automizer中的实现获得了2017年SV-COMP终止类的第一名。在本文中,我们利用先进的基于自动机的算法,并提出了框架的几个重要改进。为了减轻框架中最昂贵的操作之一ba的互补计算,我们提出了一种多阶段泛化构造。我们从生成已知有效互补算法的ba(如确定性ba)子类的泛化开始,并仅在必要时进行更一般的类。特别地,我们重点研究了半确定性ba的极具表现力的子类,并为该类提供了一种改进的互补算法。我们的实验评估表明,所提出的方法显着提高了最终自动化框架内的终止检查能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Advanced automata-based algorithms for program termination checking
In 2014, Heizmann et al. proposed a novel framework for program termination analysis. The analysis starts with a termination proof of a sample path. The path is generalized to a Büchi automaton (BA) whose language (by construction) represents a set of terminating paths. All these paths can be safely removed from the program. The removal of paths is done using automata difference, implemented via BA complementation and intersection. The analysis constructs in this way a set of BAs that jointly "cover" the behavior of the program, thus proving its termination. An implementation of the approach in Ultimate Automizer won the 1st place in the Termination category of SV-COMP 2017. In this paper, we exploit advanced automata-based algorithms and propose several non-trivial improvements of the framework. To alleviate the complementation computation for BAs---one of the most expensive operations in the framework---, we propose a multi-stage generalization construction. We start with generalizations producing subclasses of BAs (such as deterministic BAs) for which efficient complementation algorithms are known, and proceed to more general classes only if necessary. Particularly, we focus on the quite expressive subclass of semideterministic BAs and provide an improved complementation algorithm for this class. Our experimental evaluation shows that the proposed approach significantly improves the power of termination checking within the Ultimate Automizer framework.
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