Solver-Based Gradual Type Migration

Luna Phipps-Costin, Carolyn Jane Anderson, Michael Greenberg, and Arjun Guha
ACM SIGPLAN Conference on Object Oriented Programming, Systems, Languages and Applications (OOPSLA), 2021
Distinguished Artifact Award

Gradually typed languages allow programmers to mix statically and dynamically typed code, enabling them to incrementally reap the benefits of static typing as they add type annotations to their code. However, this type migration process is typically a manual effort with limited tool support. This paper examines the problem of automated type migration: given a dynamic program, infer additional or improved type annotations.

Existing type migration algorithms prioritize different goals, such as maximizing type precision, maintaining compatibility with unmigrated code, and preserving the semantics of the original program. We argue that the type migration problem involves fundamental compromises: optimizing for a single goal often comes at the expense of others. Ideally, a type migration tool would flexibly accommodate a range of user priorities.

We present TypeWhich, a new approach to automated type migration for an extension of the gradually-typed lambda calculus. Unlike prior work, which relies on custom solvers, TypeWhich produces constraints that can be solved by an off-the-shelf MaxSMT solver. This allows us to easily express objectives, such as minimizing the number of necessary syntactic coercions, and constraining the type of the migration to be compatible with unmigrated code.

We present the first comprehensive evaluation of GTLC type migration algorithms, and compare TypeWhich to four other tools from the literature. Our evaluation uses prior benchmarks, and a new set of ``challenge problems’’. Moreover, we design a new evaluation methodology that highlights the subtleties of gradual type migration. In addition, we apply TypeWhich to a suite of benchmarks for Grift, a programming language based on the GTLC. TypeWhich is able to reconstruct all human-written annotations on all but one program.

Artifact

PDF available on arXiv

  @inproceedings{typewhich,
    author = "Luna {Phipps-Costin} and Carolyn~Jane Anderson and 
            Michael Greenberg and Arjun Guha"
    title = "Solver-Based Gradual Type Migration",
    booktitle = "ACM SIGPLAN Conference on Object Oriented
                 Programming, Systems, Languages and Applications (OOPSLA)"
    year = 2021
  }