English

Regular Expression Matching and Operational Semantics

Logic in Computer Science 2011-08-17 v1

Abstract

Many programming languages and tools, ranging from grep to the Java String library, contain regular expression matchers. Rather than first translating a regular expression into a deterministic finite automaton, such implementations typically match the regular expression on the fly. Thus they can be seen as virtual machines interpreting the regular expression much as if it were a program with some non-deterministic constructs such as the Kleene star. We formalize this implementation technique for regular expression matching using operational semantics. Specifically, we derive a series of abstract machines, moving from the abstract definition of matching to increasingly realistic machines. First a continuation is added to the operational semantics to describe what remains to be matched after the current expression. Next, we represent the expression as a data structure using pointers, which enables redundant searches to be eliminated via testing for pointer equality. From there, we arrive both at Thompson's lockstep construction and a machine that performs some operations in parallel, suitable for implementation on a large number of cores, such as a GPU. We formalize the parallel machine using process algebra and report some preliminary experiments with an implementation on a graphics processor using CUDA.

Keywords

Cite

@article{arxiv.1108.3126,
  title  = {Regular Expression Matching and Operational Semantics},
  author = {Asiri Rathnayake and Hayo Thielecke},
  journal= {arXiv preprint arXiv:1108.3126},
  year   = {2011}
}

Comments

In Proceedings SOS 2011, arXiv:1108.2796

R2 v1 2026-06-21T18:50:51.108Z