[swift-evolution] [swift-evolution-announce] [Review] SE-0089: Replace protocol<P1, P2> syntax with Any<P1, P2>

Wed Jun 8 23:19:35 CDT 2016

> On Jun 8, 2016, at 9:43 PM, Austin Zheng via swift-evolution <swift-evolution at swift.org> wrote:
> 
> It's not possible, even with Swift's current implementation of existentials. A protocol type P isn't considered to conform to itself, thus the following is rejected:

The rules are not that simple, I seem to recall reading in sourcecode that there are criteria that decide if that is true or not. And by default the variable conform_to_self is even TRUE

> 
> let a : MyProtocol = // ...
> func myFunc<T : MyProtocol>(x: T) {
>   // ....
> }
> myFunc(a) // "Cannot invoke 'myFunc' with an argument list of type MyProtocol"
> 
> Changing how this works is probably worth a proposal by itself.
> 
> Austin
> 
> 
>> On Wed, Jun 8, 2016 at 12:34 PM, Thorsten Seitz via swift-evolution <swift-evolution at swift.org> wrote:
>> 
>> > Am 08.06.2016 um 20:33 schrieb Dave Abrahams via swift-evolution <swift-evolution at swift.org>:
>> >
>> >
>> > on Tue Jun 07 2016, Matthew Johnson <matthew-AT-anandabits.com> wrote:
>> >
>> >>> On Jun 7, 2016, at 9:15 PM, Dave Abrahams <dabrahams at apple.com> wrote:
>> >>>
>> >>>
>> >>> on Tue Jun 07 2016, Matthew Johnson <matthew-AT-anandabits.com <http://matthew-at-anandabits.com/>> wrote:
>> >>>
>> >>
>> >>>>> On Jun 7, 2016, at 4:13 PM, Dave Abrahams via swift-evolution <swift-evolution at swift.org> wrote:
>> >>>>>
>> >>>>>
>> >>>>> on Tue Jun 07 2016, Matthew Johnson <swift-evolution at swift.org> wrote:
>> >>>>>
>> >>>>
>> >>>>>>> , but haven't realized
>> >>>>>>> that if you step around the type relationships encoded in Self
>> >>>>>>> requirements and associated types you end up with types that appear to
>> >>>>>>> interoperate but in fact trap at runtime unless used in exactly the
>> >>>>>>> right way.
>> >>>>>>
>> >>>>>> Trap at runtime?  How so?  Generalized existentials should still be
>> >>>>>> type-safe.
>> >>>>>
>> >>>>> There are two choices when you erase static type relationships:
>> >>>>>
>> >>>>> 1. Acheive type-safety by trapping at runtime
>> >>>>>
>> >>>>> FloatingPoint(3.0 as Float) + FloatingPoint(3.0 as Double) // trap
>> >>>>>
>> >>>>> 2. Don't expose protocol requirements that involve these relationships,
>> >>>>> which would prevent the code above from compiling and prevent
>> >>>>> FloatingPoint from conforming to itself.
>> >>>>>
>> >>>>>> Or are you talking about the hypothetical types / behaviors people
>> >>>>>> think they want when they don’t fully understand what is happening...
>> >>>>>
>> >>>>> I don't know what you mean here.  I think generalized existentials will
>> >>>>> be nice to have, but I think most people will want them to do something
>> >>>>> they can't possibly do.
>> >>>>
>> >>>> Exactly.  What I meant is that people think they want that expression
>> >>>> to compile because they don’t understand that the only thing it can do
>> >>>> is trap.  I said “hypothetical” because producing a compile time error
>> >>>> rather than a runtime trap is the only sane thing to do.  Your comment
>> >>>> surprised me because I can’t imagine we would move forward in Swift
>> >>>> with the approach of trapping.
>> >>>
>> >>> I would very much like to be able to create instances of “Collection
>> >>> where Element == Int” so we can throw away the wrappers in the stdlib.
>> >>> That will require some type mismatches to be caught at runtime via
>> >>> trapping.
>> >>
>> >> For invalid index because the existential accepts a type erased index?
>> >
>> > Exactly.
>> >
>> >> How do you decide where to draw the line here?  It feels like a very
>> >> slippery slope for a language where safety is a stated priority to
>> >> start adopting a strategy of runtime trapping for something as
>> >> fundamental as how you expose members on an existential.
>> >
>> > If you don't do this, the alternative is that “Collection where Element
>> > == Int” does not conform to Collection.  That's weird and not very
>> > useful.  You could expose all the methods that were on protocol
>> > extensions of Collection on this existential, unless they used
>> > associated types other than the element type.  But you couldn't pass the
>> > existential to a generic function like
>> >
>> >   func scrambled<C: Collection>(_ c: C) -> [C.Element]
>> 
>> I don’t understand. Why couldn’t an existential be passed to that function?
>> 
>> -Thorsten
>> 
>> 
>> 
>> >
>> >> IMO you should *have* to introduce unsafe behavior like that manually.
>> >
>> >  Collection where Element == Int & Index == *
>> >
>> > ?
>> >
>> >> Collection indices are already something that isn’t fully statically
>> >> safe so I understand why you might want to allow this.
>> >
>> > By the same measure, so are Ints :-)
>> >
>> > The fact that a type's methods have preconditions does *not* make it
>> > “statically unsafe.”
>> >
>> >> But I don’t think having the language's existentials do this
>> >> automatically is the right approach.  Maybe there is another approach
>> >> that could be used in targeted use cases where the less safe behavior
>> >> makes sense and is carefully designed.
>> >
>> > Whether it makes sense or not really depends on the use-cases.  There's
>> > little point in generalizing existentials if the result isn't very useful.
>> > The way to find out is to take a look at the examples we currently have
>> > of protocols with associated types or Self requirements and consider
>> > what you'd be able to do with their existentials if type relationships
>> > couldn't be erased.
>> >
>> > We have known use-cases, currently emulated in the standard library, for
>> > existentials with erased type relationships.  *If* these represent the
>> > predominant use cases for something like generalized existentials, it
>> > seems to me that the language feature should support that.  Note: I have
>> > not seen anyone build an emulation of the other kind of generalized
>> > existential.  My theory: there's a good reason for that :-).
>> >
>> > --
>> > Dave
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>> > swift-evolution at swift.org
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>> 
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