Combine and Swift Concurrency

Just before last weekend, the folks on the Swift Core Team provided what I took to be a truly wonderful gift: a roadmap and series of proposals that outline a future of embedding concurrency primitives deeper into the swift language itself. If you’re interested in the details of programming language concurrency, it’s a good read. The series of pitches and proposals:

If you have questions, scan through each of the pitches (which all link into the forums), and you’ll see a great deal of conversation there – some of which may have your answer (other parts of which, at least if you’re like me, may just leave you more confused), but most importantly the core team is clearly willing to answer questions and explore the options and choices.

When I first got involved with the swift programming language, I was already using some of these kinds of concurrency constructs in other languages – and it seemed to be a glaring lack of the language that they didn’t specify, instead relying on the Objective-C runtime and in particular the dispatch libraries in that runtime. The dispatch stuff, however, is darned solid – battle honed as it were. You can still abuse it into poor performance, but it worked solidly, so while it kind of rankled, it made sense with the thinking of “do the things you need to do now, and pick your fights carefully” in order to make progress. Since then time (and the language) has advanced significantly, refined out quite a bit, and I’m very pleased to see formal concurrency concepts getting added to the language.

A lot of folks using Combine have reached for it, looking for the closest thing they can find to Futures and the pattern of linking futures together, explicitly managing the flow of asynchronous updates. While it is something Combine does, Combine is quite a bit more – and a much higher level library, than the low level concurrency constructs that are being proposed.

For those of you unfamiliar, Combine provides a Future publisher, and Using Combine details how to use it a bit, and Donny Wals has a nice article detailing it that’s way more “tutorial like”.

What does this imply for Combine?

First up, pitches and proposals such as these are often made when there’s something at least partially working, that an individual or three have been experimenting with. But they aren’t fully baked, nor are they going to magically appear in the language tomorrow. Whatever comes of the proposals, you should expect it’ll be six months minimum before they appear in any seriously usable form, and quite possibly longer. This is tricky, detailed stuff – and the team is excellent with it, but there’s still a lot of moving parts to manage with this.

Second, where there’s some high level conceptual overlap, they’re very different things. Combine, being a higher level library and abstraction, I expect will take advantage of the the lower-level constructs with updates, very likely ones that we’ll never see exposed in their API, to make the operators more efficient. The capabilities that are being pitched for language-level actors (don’t confuse that with a higher level actor or distributed-actor library – such as Akka or Orleans) may offer some really interesting capabilities for Combine to deal with it’s queue/runloop hopping mechanisms more securely and clearly.

Finally, I think when this does come into full existence, I hope the existing promise libraries that are used in Swift (PromiseKit, Google’s promises, or Khanlou’s promise) start to leverage the async constructs into their API structure – giving a clear path to use for people wanting a single result processed through a series of asynchronous functions. You can use Combine for that, but it is really aimed at being a library that deals with a whole series or stream of values, rather than a single value, transformed over time.


The async and concurrency proposals are goodness, not replacement, for Combine – likely to provide new layers that Combine can integrate and build upon to make itself more efficient, and easier to use.