Branching-time logic programming: the language Cactus and its applications

P. Rondogiannis , M. Gergatsoulis , T. Panayiotopoulos
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引用次数: 25

Abstract

Temporal programming languages provide a powerful means for the description and implementation of dynamic systems. However, most temporal languages are based on linear time, a fact that renders them unsuitable for certain types of applications (such as expressing properties of non-deterministic programs). In this paper we introduce the new temporal logic programming language Cactus, which is based on a branching notion of time. In Cactus, the truth value of a predicate depends on a hidden time parameter which varies over a tree-like structure. As a result, Cactus can be used to express in a natural way non-deterministic computations or generally algorithms that involve the manipulation of tree data structures. Moreover, Cactus appears to be appropriate as the target language for compilers or program transformers. Cactus programs can be executed using BSLD-resolution, a proof procedure based on the notion of canonical temporal atoms/clauses.

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分支时间逻辑程序设计:Cactus语言及其应用
时态编程语言为动态系统的描述和实现提供了强大的手段。然而,大多数时态语言都是基于线性时间的,这使得它们不适合某些类型的应用程序(例如表示非确定性程序的属性)。本文介绍了一种基于时间分支概念的时间逻辑编程语言Cactus。在Cactus中,谓词的真值依赖于一个隐藏的时间参数,该参数在树状结构中变化。因此,Cactus可用于以自然的方式表达非确定性计算或涉及树形数据结构操作的一般算法。此外,Cactus似乎适合作为编译器或程序转换器的目标语言。Cactus程序可以使用BSLD-resolution来执行,BSLD-resolution是一种基于规范时间原子/子句概念的证明过程。
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