For people interested in this topic: the accepted answer involves some concepts that I think are well described here. Namely, differences between

`data`

,`newtype`

and`instance`

keywords, and ways to use them.

I started to learn Haskell like a week ago (coming from Python and C#), and I want to implement a class `GeographicPosition`

, that stores Latitude, Longitude and Elevation.

Specifically, I'd like to do it in the most elegant, functional, "unit-of-measurement" aware way.

If we take, for example, X, Y and Z in cartesian ("rectangular") space, they all mean the same thing, have the same range (from `-inf`

to `+inf`

), being orthogonal and uniform.

Now with Latitude, Longitude and Elevation this is not like that. Longitude, for example, is periodic, Latitude has some maximum rangess at the poles (which are themselves singularities), and the elevation has a minimum absolute value at the center of the earth (another singularity).

Singularities apart, it is obvious (to me at least) that they are not "the same thing", in the sense that X, Y and Z are "the same thing" in a cartesian system. I cannot simply flip the origin and pretend that Latitude is now Longitude in the way that I can pretend that X now is Y, and such.

So the question is:

Should Latitude, Longitude and Elevation have their own numerical type in a type representing geographical position in Haskell? What would be a good type signature for that (a minimal sample code would be great)

I would imagine something along like

```
data Position = Position { latitude :: Latitude,
longitude :: Longitude,
elevation :: Elevation }
```

instead of the more obvious, position-based

```
data Position = Position RealFloat RealFloat RealFloat
```

but I don't know which style is more advised. It seems like `Bounded`

is an interesting construct too, but I didn't quite understood how to use it in this case.

`newtype`

s and smart constructors. – nomen Jul 3 '14 at 17:41