>>> >>> >>>> On Jun 23, 2017, at 7:46 AM, Elviro Rocca via swift-evolution >>>> <swift-evolution@swift.org <mailto:swift-evolution@swift.org>> wrote: >>>> >>>> It's probably late to just casually add a couple of cents to a discussion >>>> that has been going for so long, but it seems to me that from a user >>>> standpoint, that uses types to structure their programs and define logic >>>> and relationships, isomorphic types should be considered the same by the >>>> compiler. The added burden of distinguishing between, to say, a function >>>> that takes 2 arguments and one that takes a single tuple of two arguments >>>> doesn't seem useful at all, at least from the standpoint of the types >>>> involves. All the rest, like named parameters or tuple labels, are just >>>> really about style and convenience, but isomorphic types, while not >>>> strictly equal (the very concept of "equal" is in fact a huge deal in >>>> abstract mathematics) are for all means "equivalent" for the world-modeler. >>> >>> Doesn’t seem useful?… >>> >>> let myFunc: (MyTypeAlias) -> Int = /* … */ >>> >>> Does the function pointer have a single parameter? Or does it trigger >>> Super-Secret Tuple-Destructing mode and actually indicate two parameters? >>> My secret unknown single type should always be a single type, no matter >>> what kind of type it is. > > (A, B, C) ((A, B), C) (A, (B, C)) > > You’re saying partitions aren’t important. I’m saying that they are. Even > though the second two tuples above are implemented like the first, I wouldn’t > want them to be indistinguishable from an user’s standpoint. I wouldn’t want > my two-argument functions magically become a three-argument one due to > implementation details.
Why are partitions, just partitions, of tuples important? And why should anybody even consider writing a function that takes a tuple as "single argument" instead of just taking two arguments? The difference between the following two functions is completely meaningless from a user standpoint: func x<A,B> (tuple: (first: A, second: B)) func y<A,B> (first: A, second: B) > > My previous example will stay an one-argument function for any non-tuple type > behind the alias. But if it’s a tuple type, my assumption breaks because your > rules would ban tuples from being first-class types. > What? Why my rules say that tuples are not first class types? I'm just saying that equivalent tuples should be allowed as arguments for functions that take equivalent tuples as arguments. You examples shows a function that takes a "MyTypeAlias" as input: - if MyTypeAlias is an alias for, say, a "Person", that function can be called with an instance of "Person" - if MyTypeAlias is an alias for (Int,Int), that function can be called with a couple of Int What's the matter? Elviro
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