English

Defining Name Accessibility using Scope Graphs (Extended Edition)

Programming Languages 2024-07-15 v1

Abstract

Many programming languages allow programmers to regulate accessibility; i.e., annotating a declaration with keywords such as export and private to indicate where it can be accessed. Despite the importance of name accessibility for, e.g., compilers, editor auto-completion and tooling, and automated refactorings, few existing type systems provide a formal account of name accessibility. We present a declarative, executable, and language-parametric model for name accessibility, which provides a formal specification of name accessibility in Java, C#, C++, Rust, and Eiffel. We achieve this by defining name accessibility as a predicate on resolution paths through scope graphs. Since scope graphs are a language-independent model of name resolution, our model provides a uniform approach to defining different accessibility policies for different languages. Our model is implemented in Statix, a logic language for executable type system specification using scope graphs. We evaluate its correctness on a test suite that compares it with the C#, Java, and Rust compilers, and show we can synthesize access modifiers in programs with holes accurately.

Keywords

Cite

@article{arxiv.2407.09320,
  title  = {Defining Name Accessibility using Scope Graphs (Extended Edition)},
  author = {Aron Zwaan and Casper Bach Poulsen},
  journal= {arXiv preprint arXiv:2407.09320},
  year   = {2024}
}
R2 v1 2026-06-28T17:38:45.028Z