To start off, I want to say that I'm aware there are many articles and questions within SO that refer to the indirect keyword in Swift.

The most popular explanation for the usage of indirect is to allow for recursive enums.

Rather than just knowing about what indirect allows us to do, I would like to know how it allows us to use recursive enums.


Is it because enums are value types and value types do not scale well if they are built in a recursive structure? Why?

Does indirect modify the value type behaviour to behave more like a reference type?

The following two examples compile just fine. What is the difference?

indirect enum BinaryTree<T> {
  case node(BinaryTree<T>, T, BinaryTree<T>)
  case empty

enum BinaryTree<T> {
  indirect case node(BinaryTree<T>, T, BinaryTree<T>)
  case empty

The indirect keyword introduces a layer of indirection behind the scenes.

You indicate that an enumeration case is recursive by writing indirect before it, which tells the compiler to insert the necessary layer of indirection.

From here

The important part of structs and enums is that they're a constant size. Allowing recursive structs or enums directly would violate this, as there would be an indeterminable number of recursions, hence making the size non constant and unpredictable. indirect uses a constant size reference to refer to a constant size enum instance.

There's a different between the two code snippets you show.

  1. The first piece of code makes BinaryTree<T> stored by a reference everywhere it's used.

  2. The second piece of code makes BinaryTree<T> stored by a reference only in the case of node. I.e. BinaryTree<T> generally has its value stored directly, except for this explicitly indirect node case.

  • 4
    So does that mean an indirect struct or enum should be considered as reference types? Does this mean they now have reference semantics and no longer copy on write?
    – Kelvin Lau
    May 30 '16 at 20:58
  • 2
    I'm not sure, you'll have to test it. IIRC, indirect isn't allowed on structs
    – Alexander
    May 30 '16 at 21:20
  • 3
    Which kind of makes sense. At that point, they'd just be classes.
    – Alexander
    May 30 '16 at 21:24
  • 3
    Just did some tests. It seems like indirect enums still have the copy-on-write attribute despite the extra layer of indirection. This brings me to ask the question: What exactly changed behind the scenes?
    – Kelvin Lau
    May 30 '16 at 22:27
  • 1
    @iGodric The very nature of the question revolves around implementation details. That said, I'll change my first sentence
    – Alexander
    Feb 3 '17 at 16:44

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