(Un)Solvable loop analysis

IF 0.7 4区 计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS Formal Methods in System Design Pub Date : 2024-06-11 DOI:10.1007/s10703-024-00455-0
Daneshvar Amrollahi, Ezio Bartocci, George Kenison, Laura Kovács, Marcel Moosbrugger, Miroslav Stankovič
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Abstract

Automatically generating invariants, key to computer-aided analysis of probabilistic and deterministic programs and compiler optimisation, is a challenging open problem. Whilst the problem is in general undecidable, the goal is settled for restricted classes of loops. For the class of solvable loops, introduced by Rodríguez-Carbonell and Kapur (in: Proceedings of the ISSAC, pp 266–273, 2004), one can automatically compute invariants from closed-form solutions of recurrence equations that model the loop behaviour. In this paper we establish a technique for invariant synthesis for loops that are not solvable, termed unsolvable loops. Our approach automatically partitions the program variables and identifies the so-called defective variables that characterise unsolvability. Herein we consider the following two applications. First, we present a novel technique that automatically synthesises polynomials from defective monomials, that admit closed-form solutions and thus lead to polynomial loop invariants. Second, given an unsolvable loop, we synthesise solvable loops with the following property: the invariant polynomials of the solvable loops are all invariants of the given unsolvable loop. Our implementation and experiments demonstrate both the feasibility and applicability of our approach to both deterministic and probabilistic programs.

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(无法解决的循环分析
自动生成不变式是对概率和确定性程序进行计算机辅助分析和编译器优化的关键,也是一个具有挑战性的开放问题。虽然这个问题在一般情况下是不可判定的,但对于受限制的循环类来说,目标已经实现。对于 Rodríguez-Carbonell 和 Kapur(《ISSAC 论文集》,第 266-273 页,2004 年)提出的可解循环类,我们可以根据循环行为模型递推方程的闭式解自动计算不变式。在本文中,我们建立了一种针对不可解循环(称为不可解循环)的不变式合成技术。我们的方法能自动分割程序变量,并识别所谓的缺陷变量,这些缺陷变量是不可解性的特征。在此,我们将考虑以下两个应用。首先,我们提出了一种新技术,它能从缺陷单项式中自动合成多项式,这些多项式允许闭式解,从而导致多项式循环不变式。其次,在给定一个不可解循环的情况下,我们合成具有以下性质的可解循环:可解循环的不变多项式是给定不可解循环的所有不变式。我们的实现和实验证明了我们的方法对确定性和概率性程序的可行性和适用性。
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来源期刊
Formal Methods in System Design
Formal Methods in System Design 工程技术-计算机:理论方法
CiteScore
2.00
自引率
12.50%
发文量
16
审稿时长
>12 weeks
期刊介绍: The focus of this journal is on formal methods for designing, implementing, and validating the correctness of hardware (VLSI) and software systems. The stimulus for starting a journal with this goal came from both academia and industry. In both areas, interest in the use of formal methods has increased rapidly during the past few years. The enormous cost and time required to validate new designs has led to the realization that more powerful techniques must be developed. A number of techniques and tools are currently being devised for improving the reliability, and robustness of complex hardware and software systems. While the boundary between the (sub)components of a system that are cast in hardware, firmware, or software continues to blur, the relevant design disciplines and formal methods are maturing rapidly. Consequently, an important (and useful) collection of commonly applicable formal methods are expected to emerge that will strongly influence future design environments and design methods.
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