Dijkstra Monads for All
Abstract
This paper proposes a general semantic framework for verifying programs with arbitrary monadic side-effects using Dijkstra monads, which we define as monad-like structures indexed by a specification monad. We prove that any monad morphism between a computational monad and a specification monad gives rise to a Dijkstra monad, which provides great flexibility for obtaining Dijkstra monads tailored to the verification task at hand. We moreover show that a large variety of specification monads can be obtained by applying monad transformers to various base specification monads, including predicate transformers and Hoare-style pre- and postconditions. For defining correct monad transformers, we propose a language inspired by Moggi's monadic metalanguage that is parameterized by a dependent type theory. We also develop a notion of algebraic operations for Dijkstra monads, and start to investigate two ways of also accommodating effect handlers. We implement our framework in both Coq and F*, and illustrate that it supports a wide variety of verification styles for effects such as exceptions, nondeterminism, state, input-output, and general recursion.
Cite
@article{arxiv.1903.01237,
title = {Dijkstra Monads for All},
author = {Kenji Maillard and Danel Ahman and Robert Atkey and Guido Martinez and Catalin Hritcu and Exequiel Rivas and Éric Tanter},
journal= {arXiv preprint arXiv:1903.01237},
year = {2019}
}
Comments
Long version of ICFP'19 camera ready paper