18

I scratch my head through lots of tutorials to understand the difference between the above 3 terms and find new term type erased container, now it becomes confusing to me. It raises lots of question.

Why does Swift introduce AnyHashable ?

What is the fundamental difference between these 3 terms?

Difference between Any and AnyHashable ?

Difference between Hashable and AnyHashable?

When to use Hashable and when to use AnyHashable ?

Last but most confusing, what is the meaning of type erased term in the context of AnyHashable ?

As a context, I followed Swift Evolution Proposal SE-0131.

12

It's more important to understand what they are than what are the differences between them.

Any means "anything", ranging from swift enums, tuples, closures, structs, classes, protocols, whatever. Every type can be assigned to a variable of type Any.

Hashable is protocol that says "this object can be hashed i.e. has a hashcode". If your object can be hashed, implement this protocol, because lots of data structures (namely dictionaries and sets) need it.

So what is AnyHashable?

Normally, if you try to do this:

let a: Set<Hashable>?

it does not compile. This is because Hashable inherits from Equatable which contains Self.

Now, let's say you want to port a method from Objective-C to swift. That method takes a parameter of type NSSet. In Swift, this will turn into a Set, but what is its generic parameter? If we just put Any like we do with NSArrays, it does not work because Set's objects must be hashable. But if we put Set<Hashable> it does not work either because Hashable can only be used as a generic constraint. That's why they wrapped Hashable with an AnyHashable that does not use Self and so can be used as a generic parameter.

Regarding what "type erased" means:

Having Self in a protocol is kind of like a protocol with a generic parameter, and the generic parameter is always the conforming class. This causes the protocols to be unable to be used on its own like Set<Hashable> because the "generic parameter" is unknown. AnyHashable solves this problem by not using Self at all so it now becomes a normal struct. It "erases" the generic Self type.

0

Any can represent an instance of any type at all, including function types. It tells us that the meaning of Any is broader than that of AnyObject. Any can represent anything hence the name.

Even though Any can represent an instance of any type, it has its limitations. You probably know that the elements of a Set and the keys of a Dictionary need to be hashable. They need to conform to the Hashable protocol. A set needs the ability to uniquely identify each of the elements it contains. And to look up the value associated with a given key, a dictionary requires its keys to be unique. The problem is that Any doesn't meet this requirement.

As of Swift 3, the Swift standard library defines the AnyHashable supertype. This means that types conforming to the Hashable protocol can be used as AnyHashable. In the Swift standard library, AnyHashable is defined as a struct.

public struct AnyHashable {

    public init<H>(_ base: H) where H : Hashable

    public var base: Any { get }

}

The AnyHashable supertype is used to bring untyped sets and dictionaries from Objective-C to Swift.

Read more here

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