I have a structure which represents the equation of a line in the form `m x + b`

and a structure of a point

```
Line { m :: Double, b :: Double } deriving( Show, Eq )
Point { x :: Double, y :: Double } deriving( Show, Eq )
```

I want the function `perpendicular`

that does the following:

```
perpendicular (Line m b) (Point x y) =
Line m2 b2 where
m2 = (-1/m)
b2 = y - m2*x
```

if given a line and a point, or a partially applied Line

```
perpendicular (Line m b) =
Line m2 where
m2 = (-1/m)
```

if only given a Line.

The problem here is that I get

Equations for `perpendicular' have different numbers of arguments

`perpendicular l x`

be treated differently from`(perpendicular l) y`

, but`perpendicular l x`

is exactly the sameas`(perpendicular l) x`

. So you either give up partial application, or give up your style of overloading. If you want to give up partial application, then perhaps Haskell is not quite the language you should consider. – n.m. May 26 '14 at 8:15reallywant to do this, you can have something like`class Perpendicular where ...`

and`instance Perpendicular (Line, Point) ...; instance Perpendicular Line`

. If you don't like type classes (why are you using haskell in the first place?) represent the input as`Either Line (Line, Point)`

. – user2407038 May 26 '14 at 9:03