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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

  1. Easily define myvec (as defined above) (and I don't see any way to do this cleanly with mutable vectors)
  2. Uses the most specific vector type possible: for example, one solution would be to make myvec return a boxed vector, which can hold any r type. However, we are concerned about speed so if the input to f is a mutable unboxed vector, myvec should either be a mutable unboxed vector or a immutable unboxed vector.
  3. I'm also trying to avoid passing in myvec from main (where the immutable type is known): we have enough information to generate the values locally in f, so passing the vector from main isn't necessary (except possibly for type information).
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Can't you pass in the type? f (undefined::Int) v'? Or is there some GADT you can use instead of being so general with the Vector class? I'm no expert at these things; just guessing at it. –  dfeuer Jul 11 '14 at 17:06
    
I could pass in the immutable vector type from main to f (not sure where you were going with undefined :: Int), but it seems crazy that I should have to do this when a perfectly valid (though ugly) alternative is to write myvec as a mutable function. –  Eric Jul 11 '14 at 17:27
    
What do you want the vector generated by myvec to be populated with? If it's going to be immutable, you need to know at creation. Currently you've got it generating a vector of Int indexes. –  rampion Jul 11 '14 at 17:56
    
    
I'm looking at this again and wondering why you don't move the thawing and freezing out of main and into f. I could be wrong, but I imagine that any unneeded freeze/thaw pairs that result will probably be compiled away. –  dfeuer Jul 11 '14 at 18:10

1 Answer 1

up vote 1 down vote accepted

After some digging around, I figured out how to write a mutable generate function:

import Data.Vector.Generic.Mutable as M
import Data.Vector.Fusion.Stream as S
import Control.Monad.Primitive

mutableGenerate :: (MVector v r, PrimMonad m) => Int -> (Int -> r) -> m (v (PrimState m) r)
mutableGenerate i f = M.unstream $ S.generate i f

This allows me to generate a polymorphic mutable vector, but with concise notation of an immutable vector. This seems to me like a useful function that should be included in Data.Vector.Generic.Mutable.

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