I've been trying to figure out the more finnicky bits of Haskell's type system by writing a Vector library. Ideally, I'd like an overloaded vector multiplication operation that works a bit like C++, i.e, you can multiply a vector of any size by a scalar, in either order. I've tried to combine the multiple parameter type classes and type families extension to do this:

```
{-# LANGUAGE TypeFamilies, MultiParamTypeClasses, FlexibleInstances #-}
data Vec2 a = Vec2 (a,a) deriving (Show, Eq, Read)
class Vector a where
(<+>) :: a -> a -> a
class VectorMul a b where
type Result a b
(<*>) :: a -> b -> Result a b
instance (Num a) => Vector (Vec2 a) where
Vec2 (x1,y1) <+> Vec2 (x2,y2) = Vec2 (x1+x2, y1+y2)
instance (Num a) => VectorMul (Vec2 a) a where
type Result (Vec2 a) a = (Vec2 a)
Vec2 (x,y) <*> a = Vec2 (x*a, y*a)
works :: (Num a) => Vec2 a -> a -> Vec2 a
works a b = a <*> b
```

This code seems to work, at least when used as in the function `works`

. But when I try to type a simple expression like `Vec2 (3,4) <*> 5`

into GHCi, it reports the `(Num xx)`

type variables to be ambiguous. This is strange to me... what am I missing in this case? Haskell should be able to choose the same arbitrary type for the literals, to make the type expression work (as it does in the `works`

function).

`works`

you are explicitly saying`a`

in`Vec2 a`

and the second argument`a`

has the same type. – Satvik Aug 18 '13 at 3:56