English

On Completeness of Logical Relations for Monadic Types

Logic in Computer Science 2009-04-08 v1 Programming Languages

Abstract

Software security can be ensured by specifying and verifying security properties of software using formal methods with strong theoretical bases. In particular, programs can be modeled in the framework of lambda-calculi, and interesting properties can be expressed formally by contextual equivalence (a.k.a. observational equivalence). Furthermore, imperative features, which exist in most real-life software, can be nicely expressed in the so-called computational lambda-calculus. Contextual equivalence is difficult to prove directly, but we can often use logical relations as a tool to establish it in lambda-calculi. We have already defined logical relations for the computational lambda-calculus in previous work. We devote this paper to the study of their completeness w.r.t. contextual equivalence in the computational lambda-calculus.

Keywords

Cite

@article{arxiv.cs/0612106,
  title  = {On Completeness of Logical Relations for Monadic Types},
  author = {Slawomir Lasota and David Nowak and Yu Zhang},
  journal= {arXiv preprint arXiv:cs/0612106},
  year   = {2009}
}

Comments

20 pages, full version of the paper published at ASIAN'2006, with the same title