| Safe Haskell | None |
|---|---|
| Language | Haskell98 |
Data.Array.Repa.Repr.Vector
- data V
- computeVectorS :: (Shape sh, Load r1 sh e) => Array r1 sh e -> Array V sh e
- computeVectorP :: (Shape sh, Load r1 sh e, Monad m) => Array r1 sh e -> m (Array V sh e)
- fromListVector :: Shape sh => sh -> [a] -> Array V sh a
- fromVector :: Shape sh => sh -> Vector e -> Array V sh e
- toVector :: Array V sh e -> Vector e
Documentation
data V
Arrays represented as boxed vectors.
This representation should only be used when your element type doesn't
have an Unbox instsance. If it does, then use the Unboxed U
representation will be faster.
Instances
| Source V a | Read elements from a boxed vector array. |
| Target V e | Filling of boxed vector arrays. |
| (Read sh, Read e) => Read (Array V sh e) | |
| (Show sh, Show e) => Show (Array V sh e) | |
| (Arbitrary sh, Arbitrary a, Shape sh) => Arbitrary (Array V sh a) | |
| data MVec V = MVector (IOVector e) | |
| data Array V sh a = AVector !sh !(Vector a) |
computeVectorS :: (Shape sh, Load r1 sh e) => Array r1 sh e -> Array V sh e
Sequential computation of array elements.
- This is an alias for
computewith a more specific type.
computeVectorP :: (Shape sh, Load r1 sh e, Monad m) => Array r1 sh e -> m (Array V sh e)
Parallel computation of array elements.
fromListVector :: Shape sh => sh -> [a] -> Array V sh a
O(n). Convert a list to a boxed vector array.
- This is an alias for
fromListwith a more specific type.
fromVector :: Shape sh => sh -> Vector e -> Array V sh e
O(1). Wrap a boxed vector as an array.