I have a simple in-place function which I'm using mutable vectors to implement. However, this function needs a vector which is most easily constructed using an immutable vector. Below is some toy code demonstrating the basic structure (but probably does not compile):
import Data.Vector.Generic as V import Data.Vector.Unboxed as U myvec :: (Vector v r) => Int -> v r myvec i = V.generate i id f :: (MVector v r, PrimMonad m) => v (PrimState m) r -> m () f y = let v = myvec 10 -- what should the type of `v` be? --the following doesn't work since the Mutable type family is not injective: _ = return v `asTypeOf` unsafeFreeze y in do .... main = do -- at the top level, I know the input can be unboxed let v = U.generate 10 (+(1::Int)) v' <- thaw v f v' y <- freeze v' print y
I don't see any way for
f to determine a (valid) immutable vector type for
v. I would just make
myvec generate a polymorphic mutable vector type, but even for the simple function above, the code for
myvec is much uglier.
I'm looking for a solution that allows me to
- Easily define
myvec(as defined above) (and I don't see any way to do this cleanly with mutable vectors)
- Uses the most specific vector type possible: for example, one solution would be to make
myvecreturn a boxed vector, which can hold any
rtype. However, we are concerned about speed so if the input to
fis a mutable unboxed vector,
myvecshould either be a mutable unboxed vector or a immutable unboxed vector.
- I'm also trying to avoid passing in
main(where the immutable type is known): we have enough information to generate the values locally in
f, so passing the vector from
mainisn't necessary (except possibly for type information).