Swift language concurrency model proposed

The ‘first-class’ concurrency model would make asynchronous programming in Swift convenient, efficient, and safe, according to a roadmap outlining the plan

Swift language concurrency model proposed
graemenicholson / Getty Images

Plans are afoot to outfit Apple’s Swift language with a “first-class” concurrency model. The goal is to make concurrent programming in Swift efficient, safe, and convenient, according to the roadmap published at forums.swift.org.

Swift concurrency is intended to prevent data races on mutable state by default, through the implementation of asynchronous functions and actors. These will be introduced in two phases, first by bringing in the ability to create async functions and actors, and then by enforcing full actor isolation. 

The end state of the proposed changes would do the following:

  • Eliminate data races and deadlocks in the same way Swift eliminates memory unsafety.
  • Make asynchronous programming convenient and clear at its point of use.
  • Provide a standard set of language tools and techniques that developers can follow.
  • Improve performance of asynchronous code through better knowledge at compile time.

The introduction of these features would span multiple Swift releases. The first phase, introducing the async syntax and actor types, would allow users to organize code around actors in such a way that would reduce but not eliminate data races. The second phase, which would enforce full actor isolation, would eliminate data races. It also would offer features allowing efficient, ergonomic interoperation of actors needed to make the isolation practical.

Specific proposals for the first phase include:

  • Introduction of a coroutine-based async/await model to Swift.
  • Task API and structured concurrency, introducing the concept of a task to the standard library.
  • Actors and actor isolation, describing the actor model that provides state isolation for concurrent programs.
  • Concurrency interoperability with Objective-C, Swift’s predecessor language.
  • Async handlers, introducing the ability to declare a synchronous actor function as an asynchronous handler.

Copyright © 2020 IDG Communications, Inc.

InfoWorld Technology of the Year Awards 2023. Now open for entries!