Catamorphic Abstractions for Constrained Horn Clause Satisfiability

Emanuele De AngelisIASI-CNR, Rome, Italy, Fabio FioravantiDEc, University 'G. d'Annunzio', Chieti-Pescara, Italy, Alberto PettorossiDICII, University of Rome 'Tor Vergata', Italy, Maurizio ProiettiIASI-CNR, Rome, Italy
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Abstract

Catamorphisms are functions that are recursively defined on list and trees and, in general, on Algebraic Data Types (ADTs), and are often used to compute suitable abstractions of programs that manipulate ADTs. Examples of catamorphisms include functions that compute size of lists, orderedness of lists, and height of trees. It is well known that program properties specified through catamorphisms can be proved by showing the satisfiability of suitable sets of Constrained Horn Clauses (CHCs). We address the problem of checking the satisfiability of those sets of CHCs, and we propose a method for transforming sets of CHCs into equisatisfiable sets where catamorphisms are no longer present. As a consequence, clauses with catamorphisms can be handled without extending the satisfiability algorithms used by existing CHC solvers. Through an experimental evaluation on a non-trivial benchmark consisting of many list and tree processing algorithms expressed as sets of CHCs, we show that our technique is indeed effective and significantly enhances the performance of state-of-the-art CHC solvers.
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受限角句子可满足性的拟态抽象
类变形是对列表和树以及一般的代数数据类型(ADT)进行递归定义的函数,通常用于计算操作 ADT 的程序的合适抽象。变形的例子包括计算列表大小、列表有序性和树高度的函数。众所周知,通过变形指定的程序属性可以通过证明约束角子句(CHC)的合适集合的可满足性来证明。我们解决了检查这些 CHCs 集的可满足性的问题,并提出了一种方法,用于将 CHCs 集转化为不再存在 catamorphism 的等可满足集。因此,我们可以在不改变现有 CHC 求解器所使用的可满足性算法的情况下,处理具有猫态性的子句。通过在一个由许多以 CHC 集表示的列表和树处理算法组成的非难基准上进行实验评估,我们证明了我们的技术确实有效,并显著提高了最先进的 CHC 求解器的性能。
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