English

Implicit complexity for coinductive data: a characterization of corecurrence

Computational Complexity 2012-01-06 v1 Logic in Computer Science

Abstract

We propose a framework for reasoning about programs that manipulate coinductive data as well as inductive data. Our approach is based on using equational programs, which support a seamless combination of computation and reasoning, and using productivity (fairness) as the fundamental assertion, rather than bi-simulation. The latter is expressible in terms of the former. As an application to this framework, we give an implicit characterization of corecurrence: a function is definable using corecurrence iff its productivity is provable using coinduction for formulas in which data-predicates do not occur negatively. This is an analog, albeit in weaker form, of a characterization of recurrence (i.e. primitive recursion) in [Leivant, Unipolar induction, TCS 318, 2004].

Keywords

Cite

@article{arxiv.1201.1119,
  title  = {Implicit complexity for coinductive data: a characterization of corecurrence},
  author = {Daniel Leivant and Ramyaa Ramyaa},
  journal= {arXiv preprint arXiv:1201.1119},
  year   = {2012}
}

Comments

In Proceedings DICE 2011, arXiv:1201.0345

R2 v1 2026-06-21T20:00:37.257Z