Let a module to abstract `Area`

operations (bad definition)

```
class Area someShapeType where
area :: someShapeType -> Float
-- module utilities
sumAreas :: Area someShapeType => [someShapeType]
sumAreas = sum . map area
```

Let a **posteriori** explicit shape type modules (good or acceptable definition)

```
data Point = Point Float Float
data Circle = Circle Point Float
instance Surface Circle where
surface (Circle _ r) = 2 * pi * r
data Rectangle = Rectangle Point Point
instance Surface Rectangle where
surface (Rectangle (Point x1 y1) (Point x2 y2)) = abs $ (x2 - x1) * (y2 - y1)
```

Let some data

```
c1 = Circle (Point 0 0) 1
r1 = Rectangle (Point 0 0) (Point 1 1)
```

Then, trying to use

```
totalArea = sumAreas [c1, r1]
```

the `[c1, r1]`

type must be expanded to `[Circle]`

or `[Rectangle]`

! (and is not valid)

I can do using `forall`

**and** a extra `data`

type like this

```
data Shape = forall a . Surface a => Shape a
sumSurfaces :: [Shape] -> Float
sumSurfaces = sum . map (\(Shape x) -> surface x)
```

then, next code run successfully

```
sumSurfaces [Shape c1, Shape r1]
```

but I think, the use of `data Shape`

and `Shape`

constructor (on `[Shape c1, ...]`

and lambda argument) is ugly (my first [and bad] way is pretty).

What is the correct way to do *"Heterogeneous polymorphism in Haskell"*?

Thank you very much for your time!

`data Shape`

the correct way? – josejuan Dec 2 '12 at 18:55`class Area`

like`class Surface a => Area a where area = surface`

? – user5402 Dec 2 '12 at 18:59