I'm struggling to understand the
exists keyword in relation to Haskell type system. As far as I know, there is no such keyword in Haskell by default, but:
- There are extensions which add them, in declarations like these
data Accum a = exists s. MkAccum s (a -> s -> s) (s -> a)
- I've seen a paper about them, and (if I recall correctly) it stated that
existskeyword is unnecessary for type system since it can be generalized by
But I can't even understand what
When I say,
forall a . a -> Int, it means (in my understanding, the incorrect one, I guess) "for every (type)
a, there is a function of a type
a -> Int":
myF1 :: forall a . a -> Int myF1 _ = 123 -- okay, that function (`a -> Int`) does exist for any `a` -- because we have just defined it
When I say
exists a . a -> Int, what can it even mean? "There is at least one type
a for which there is a function of a type
a -> Int"? Why one would write a statement like that? What the purpose? Semantics? Compiler behavior?
myF2 :: exists a . a -> Int myF2 _ = 123 -- okay, there is at least one type `a` for which there is such function -- because, in fact, we have just defined it for any type -- and there is at least one type... -- so these two lines are equivalent to the two lines above
Please note it's not intended to be a real code which can compile, just an example of what I'm imagining then I hear about these quantifiers.
P.S. I'm not exactly a total newbie in Haskell (maybe like a second grader), but my Math foundations of these things are lacking.