自动证明高阶函数程序的公平终止

Proceedings of the 21st ACM SIGPLAN International Conference on Functional Programming Pub Date : 2016-09-04 DOI:10.1145/2951913.2951919

Keiichi Watanabe, Ryosuke Sato, Takeshi Tsukada, N. Kobayashi

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引用次数: 6

摘要

我们提出了一种自动化的方法来证明高阶函数程序的公平终止，这是对Murase等人最近证明公平终止方法的补充。如果一个程序没有满足给定公平性约束的无限执行轨迹，就说它是公平终止的。公平终止是一个重要的性质，因为任意ω-正则时间性质的程序验证问题可以转化为公平终止问题。该方法利用谓词抽象和CEGAR技术，减少了对高阶模型检验的公平终止的否定问题。给定一个程序，我们将其转换为一个抽象程序，该程序生成原始程序的近似(可能是无限的)执行轨迹，因此，如果抽象程序生成的树满足某个属性，则原始程序具有公平的无限执行轨迹。该方法是Kuwahara等人的证明平面终止方法的非平凡推广。

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Automatically disproving fair termination of higher-order functional programs

We propose an automated method for disproving fair termination of higher-order functional programs, which is complementary to Murase et al.’s recent method for proving fair termination. A program is said to be fair terminating if it has no infinite execution trace that satisfies a given fairness constraint. Fair termination is an important property because program verification problems for arbitrary ω-regular temporal properties can be transformed to those of fair termination. Our method reduces the problem of disproving fair termination to higher-order model checking by using predicate abstraction and CEGAR. Given a program, we convert it to an abstract program that generates an approximation of the (possibly infinite) execution traces of the original program, so that the original program has a fair infinite execution trace if the tree generated by the abstract program satisfies a certain property. The method is a non-trivial extension of Kuwahara et al.’s method for disproving plain termination.

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Proceedings of the 21st ACM SIGPLAN International Conference on Functional Programming

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