English

Toward Verified Library-Level Choreographic Programming with Algebraic Effects

Programming Languages 2024-07-10 v1

Abstract

Choreographic programming (CP) is a paradigm for programming distributed applications as single, unified programs, called choreographies, that are then compiled to node-local programs via endpoint projection (EPP). Recently, library-level CP frameworks have emerged, in which choreographies and EPP are expressed as constructs in an existing host language. So far, however, library-level CP lacks a solid theoretical foundation. In this paper, we propose modeling library-level CP using algebraic effects, an abstraction that generalizes the approach taken by existing CP libraries. Algebraic effects let us define choreographies as computations with user-defined effects and EPP as location-specific effect handlers. Algebraic effects also lend themselves to reasoning about correctness properties, such as soundness and completeness of EPP. We present a prototype of a library-level CP framework based on algebraic effects, implemented in the Agda proof assistant, and discuss our ongoing work on leveraging the algebraic-effects-based approach to prove the correctness of our library-level CP implementation.

Keywords

Cite

@article{arxiv.2407.06509,
  title  = {Toward Verified Library-Level Choreographic Programming with Algebraic Effects},
  author = {Gan Shen and Lindsey Kuper},
  journal= {arXiv preprint arXiv:2407.06509},
  year   = {2024}
}

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Talk proposal for Choreographic Programming 2024

R2 v1 2026-06-28T17:33:47.310Z