The reason that Swift doesn't currently support static stored properties on generic types is that separate property storage would be required for each specialisation of the generic placeholder(s) – there's more discussion of this in this Q&A.
We can however implement this ourselves with a global dictionary (remember that static properties are nothing more than global properties namespaced to a given type). There are a few obstacles to overcome in doing this though.
The first obstacle is that we need a key type. Ideally this would be the metatype value for the generic placeholder(s) of the type; however metatypes can't currently conform to protocols, and so therefore aren't Hashable
. To fix this, we can build a wrapper:
/// Hashable wrapper for any metatype value.
struct AnyHashableMetatype : Hashable {
static func ==(lhs: AnyHashableMetatype, rhs: AnyHashableMetatype) -> Bool {
return lhs.base == rhs.base
}
let base: Any.Type
init(_ base: Any.Type) {
self.base = base
}
func hash(into hasher: inout Hasher) {
hasher.combine(ObjectIdentifier(base))
}
// Pre Swift 4.2:
// var hashValue: Int { return ObjectIdentifier(base).hashValue }
}
The second is that each value of the dictionary can be a different type; fortunately that can be easily solved by just erasing to Any
and casting back when we need to.
So here's what that would look like:
protocol Entity {
associatedtype PrimaryKey
}
struct Foo : Entity {
typealias PrimaryKey = String
}
struct Bar : Entity {
typealias PrimaryKey = Int
}
// Make sure this is in a seperate file along with EntityCollection in order to
// maintain the invariant that the metatype used for the key describes the
// element type of the array value.
fileprivate var _loadedEntities = [AnyHashableMetatype: Any]()
struct EntityCollection<T : Entity> {
static var loadedEntities: [T] {
get {
return _loadedEntities[AnyHashableMetatype(T.self), default: []] as! [T]
}
set {
_loadedEntities[AnyHashableMetatype(T.self)] = newValue
}
}
// ...
}
EntityCollection<Foo>.loadedEntities += [Foo(), Foo()]
EntityCollection<Bar>.loadedEntities.append(Bar())
print(EntityCollection<Foo>.loadedEntities) // [Foo(), Foo()]
print(EntityCollection<Bar>.loadedEntities) // [Bar()]
We are able to maintain the invariant that the metatype used for the key describes the element type of the array value through the implementation of loadedEntities
, as we only store a [T]
value for a T.self
key.
There is a potential performance issue here however from using a getter and setter; the array values will suffer from copying on mutation (mutating calls the getter to get a temporary array, that array is mutated and then the setter is called).
(hopefully we get generalised addressors soon...)
Depending on whether this is a performance concern, you could implement a static method to perform in-place mutation of the array values:
func with<T, R>(
_ value: inout T, _ mutations: (inout T) throws -> R
) rethrows -> R {
return try mutations(&value)
}
extension EntityCollection {
static func withLoadedEntities<R>(
_ body: (inout [T]) throws -> R
) rethrows -> R {
return try with(&_loadedEntities) { dict -> R in
let key = AnyHashableMetatype(T.self)
var entities = (dict.removeValue(forKey: key) ?? []) as! [T]
defer {
dict.updateValue(entities, forKey: key)
}
return try body(&entities)
}
}
}
EntityCollection<Foo>.withLoadedEntities { entities in
entities += [Foo(), Foo()] // in-place mutation of the array
}
There's quite a bit going on here, let's unpack it a bit:
- We first remove the array from the dictionary (if it exists).
- We then apply the mutations to the array. As it's now uniquely referenced (no longer present in the dictionary), it can be mutated in-place.
- We then put the mutated array back in the dictionary (using
defer
so we can neatly return from body
and then put the array back).
We're using with(_:_:)
here in order to ensure we have write access to _loadedEntities
throughout the entirety of withLoadedEntities(_:)
to ensure that Swift catches exclusive access violations like this:
EntityCollection<Foo>.withLoadedEntities { entities in
entities += [Foo(), Foo()]
EntityCollection<Foo>.withLoadedEntities { print($0) } // crash!
}