newtype Vector2 a = Vector2 (a,a)
     deriving (Show,Eq)

class VectorSpace v where
     vZero :: (Num a) => v a
     vSum :: (Num a) => v a -> v a -> v a
     vScalarProd :: (Num a) => a -> v a -> v a
     vMagnitude :: (Floating a) => v a -> a

Need to define for Vector2 to be instances of the type class VectorSpace.

  • 3
    Great vector space! What is your question? – Willem Van Onsem Oct 12 at 11:11
  • oh I need to create an instance statement to define for Vector2...but I am new to Haskell...and clue ? – Yorkman Oct 12 at 11:16
  • 1
    I would argue that this is not the class of vector spaces. Vector spaces aren't supposed to be parameterised over the scalar type. Your class is actually more about representable functors, which is what the linear library is based on. I recommend you look into the source both of these libraries, to answer the question. – leftaroundabout Oct 12 at 11:17
  • 2
    @Yorkman: but being new to something is not an excuse for lack of effort. What did you try? What is not working? – Willem Van Onsem Oct 12 at 11:18
  • 2
    Please don't add code in the comments; put your attempt in the question itself. – chepner Oct 12 at 12:59

So here is what I tried so far:

instance VectorSpace (a,a) => VectorSpace Vector2 a
  vecZero = (0.0,0.0)
  vecSum (x,y) (x',y') = (x+x',y+y')

The first problem here is syntax. You need a where at the end of the first line, and if Vector2 a is supposed to be the instance head then it needs to go in parentheses:

instance VectorSpace (a,a) => VectorSpace (Vector2 a) where

That, however, doesn't match the kinds of your declared class.

class VectorSpace (v :: * -> *) where
    vZero :: (Num a) => v a
    ...

i.e., the class already has the assumption built in that v will be applied to some a parameter. Thus the instance head should not contain that parameter, it should just look like

instance (...?) => VectorSpace Vector2 where

In fact it turns out you don't need any constraints at all here.

instance VectorSpace Vector2 where

Now as for the methods,

  vecSum (x,y) (x',y') = (x+x',y+y')

that would be a perfectly sensible implementation if your type were the tuple type. However your type is actually a newtype wrapped tuple, and newtypes always need explicit constructors. Like

  vecSum (Vector2 (x,y)) (Vector2 (x',y')) = Vector2 (x+x',y+y')

This is a bit silly really: you have both a named constructor and a tuple constructor, nested. It's also pretty inefficient since tuples incur extra indirection (laziness, cache). The type should better be defined as

data Vector2 a = Vector2 !a !a

where, because the fields are strict, GHC can unbox the numbers. In that case, the definition would be

  vecSum (Vector2 x y) (Vector2 x' y') = Vector2 (x+x') (y+y')

Mind, as I've already commented it is IMO not good for a vector space class to parameterise v a at all. In the vector-space library, the instances aren't required to be parameterised; one of the advantages is that you can directly give an instance for ordinary tuples without needing any newtype wrapping.

  • thanks it works for the vecSum, but I got an error for vecZero = (0.0,0.0) as it is a zero vector constant....do you know why? – Yorkman Oct 12 at 11:41
  • I just updated my last line...do you have any idea to fix vecZero ? – Yorkman Oct 12 at 11:48
  • It's the same issue as I explained for vecSum. – leftaroundabout Oct 12 at 11:51
  • I tried with this but still got error vecZero (Vector2 (0.0,0.0)) – Yorkman Oct 12 at 12:02
  • oh I got it fixed...thanks ! – Yorkman Oct 12 at 12:22

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.