This doesn't have to do with v
or with the specific shape of S
. Try this instead:
sV :: forall f a. Functor f => f a
sV = unsafeCoerce 1
sss :: Int
sss = sToInt sV
You get a similar error.
Or here's an even more simplified version:
sV :: forall a. a
sV = unsafeCoerce 1
sss :: Int
sss = sToInt sV
Again, same error.
The problem is that sToInt
must get a Functor
instance as a parameter (that's what the Functor s =>
bit in its type signature says), and in order to pick which Functor
instance to pass, the compiler needs to know the type of the value. Like, if it's Maybe a
, it will pass the Functor Maybe
instance, and if it's Array a
, it will pass the Functor Array
instance, and so on.
Usually the type can be inferred from the context. For example when you say map show [1,2,3]
, the compiler knows that map
should come from Functor Array
, because [1,2,3] :: Array Int
.
But in your case there is nowhere to get that information: sV
can return S v
for any v
, and sToInt
can also take any functor type. There is nothing to tell the compiler what the type should be.
And the way to fix this is obvious: if there is no context information for the compiler to get the type from, you have to tell it what the type is yourself:
sss :: Int
sss = sToInt (sV :: S Maybe _)
This will be enough for the compiler to know that v ~ Maybe
, and it will be able to construct a Functor (S Maybe)
instance and pass it to sToInt
.
Alternatively, if you want the consumer of sss
to decide what v
is, you can add an extra dummy parameter to capture the type, and require that the consumer pass in a Functor v
instance:
sss :: forall v. Functor v => FProxy v -> Int
sss _ = sToInt (sV :: S v _)
ddd :: Int
ddd = sss (FProxy :: FProxy Maybe)
In Haskell you can do this with visible type applications instead of FProxy
, but PureScript, sadly, doesn't support that yet.
Even more alternatively, if sToInt
doesn't actually care for a Functor
instance, you can remove that constraint from it, and everything will work as-is:
sToInt :: forall s a. s a -> Int
sToInt a = unsafeCoerce a
sV :: forall v a. S v a
sV = unsafeCoerce 1
sss :: Int
sss = sToInt sV
This works because PureScript allows for ambiguous (aka "unknown") types to exist as long as they're not used for selecting instances.