[swift-evolution] [Proposal] Conditional Conformance on Protocols/Generic Types

L. Mihalkovic laurent.mihalkovic at gmail.com
Sun Jun 5 05:24:38 CDT 2016


The issue is to decide on the applicability scope. Thinking 'my app/their stuff' is an illusion. To the compiler & runtime there is only code split into modules, some in source code and others as dylibs (.dll, .so, ...). Any extension based conditional refines a protocol everywhere. What's hard is to compute the complete effects of these changes predictably, reliably and fast. Because when we consider 'but look, i have a single small extension', the compiler&runtime must be ready to deal symetrically with anything we throw at it. They can't start building 15 different ways the compute the side effects based on many different scenarios because it will be un-ruly code, and too complex to try to explain to us what we will see.
The circular redefinitions case is one of the knightmares that hides in there... would mean having to assign priority to scopes, when there is no scopes yet. At the moment, the binary conformance table contains records for 3 types of conformances. First step would be to add a new type to match extension based conformance, and then record where it came from, and add some priority scheme to be able to navigate any conformance chain(remember that the pb grows everytime we decide 'oh cool, lets use a Padleft module rather than write my own 15 lines to do it - see the recent pb with nodejs). Not a simple task even with time, which they do not have now.

@core_team i know this is a coarse explanation, but hopefully at least in the right ballpark.

> On Jun 5, 2016, at 9:49 AM, Thorsten Seitz via swift-evolution <swift-evolution at swift.org> wrote:
> 
> 
>> Am 04.06.2016 um 23:18 schrieb Austin Zheng via swift-evolution <swift-evolution at swift.org>:
>> 
>> Hello Dan,
>> 
>> You'll be pleased to learn that conforming generic types conditionally to protocols is on the roadmap (and is one of the highest priority items for the versions of Swift following 3.0): https://github.com/apple/swift/blob/master/docs/GenericsManifesto.md#conditional-conformances-
>> 
>> However, it's unlikely that protocols will gain conditional conformance: https://github.com/apple/swift/blob/master/docs/GenericsManifesto.md#conditional-conformances-via-protocol-extensions
> 
> "However, similar to private conformances, it puts a major burden on the dynamic-casting runtime to chase down arbitrarily long and potentially cyclic chains of conformances, which makes efficient implementation nearly impossible.“
> 
> I’ve been wondering what the problem with the implementation is. I mean instead of using an extension the same conformance could have been declared beforehand, i.e. instead of
> 
> protocol P { func foo() }
> protocol Q { func bar() }
> extension Q : P { func foo() { bar() } }
> 
> we could have written the allowed
> 
> protocol P { func foo() }
> protocol Q : P { func foo() { bar() } }
> 
> with the exact same effect.
> 
> The only difference would be that the extension might have been in another module than Q. 
> Is having to cross module boundaries causing the cited problems? Would the same problems exist if in the second example Q would be defined in another module?
> 
> -Thorsten
> 
> 
>> 
>> That document originates from a mailing list post made some time ago, and is a decent overview as to what sorts of type system features the Swift core developers are interested in building.
>> 
>> Best,
>> Austin
>> 
>>> On Jun 4, 2016, at 2:12 PM, Dan Zimmerman via swift-evolution <swift-evolution at swift.org> wrote:
>>> 
>>> Hey,
>>> 
>>> I was interested in adopting the ability for a type that's generic in some sense (either via generics or via associated types, in the case of protocols) to conform to other protocols conditionally based on its type parameter/associated type. For example:
>>> 
>>> ```
>>> extension CollectionType: Equatable where Generator.Element: Equatable {}
>>> 
>>> func ==<Collection: CollectionType where Collection.Generator.Element: Equatable>(left: Collection, right: Collection) -> Bool {
>>>  return zip(left, right).reduce(true) { accumulator, tuple in accumulator && (tuple.0 == tuple.1) }
>>> }
>>> ```
>>> 
>>> If this has already been proposed and knocked out/accepted please direct me to the right place.
>>> _______________________________________________
>>> swift-evolution mailing list
>>> swift-evolution at swift.org
>>> https://lists.swift.org/mailman/listinfo/swift-evolution
>> 
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