Program Construction and Verification Components Based on Kleene Algebra

 

Title: Program Construction and Verification Components Based on Kleene Algebra
Authors: Victor B. F. Gomes and Georg Struth
Submission date: 2016-06-18
Abstract: Variants of Kleene algebra support program construction and verification by algebraic reasoning. This entry provides a verification component for Hoare logic based on Kleene algebra with tests, verification components for weakest preconditions and strongest postconditions based on Kleene algebra with domain and a component for step-wise refinement based on refinement Kleene algebra with tests. In addition to these components for the partial correctness of while programs, a verification component for total correctness based on divergence Kleene algebras and one for (partial correctness) of recursive programs based on domain quantales are provided. Finally we have integrated memory models for programs with pointers and a program trace semantics into the weakest precondition component.
BibTeX:
@article{Algebraic_VCs-AFP,
  author  = {Victor B. F. Gomes and Georg Struth},
  title   = {Program Construction and Verification Components Based on Kleene Algebra},
  journal = {Archive of Formal Proofs},
  month   = jun,
  year    = 2016,
  note    = {\url{http://isa-afp.org/entries/Algebraic_VCs.shtml},
            Formal proof development},
  ISSN    = {2150-914x},
}
License: BSD License
Depends on: KAD, KAT_and_DRA