I have the following function that compiles and runs successfully:

```
-- Linearly interpolates between two values. That is, it is a function which:
-- returns y1 when x = x1
-- returns y2 when x = x2
-- returns a value between y1 and y2 when x1 < x < x2
linearInterp x1 y1 x2 y2 x =
(x - x1) * slope + y1
where slope = (y2 - y1) / (x2 - x1)
```

I'd like to give it a type signature:

```
linearInterp :: a -> b -> a -> b -> a -> b
```

But, as expected, the type signature causes a compile error. That's because the compiler can't be sure it's possible to do arithmetic with arbitrary types `a`

and `b`

. E.g. it doesn't know you can divide `b`

by `a`

, as I do in my definition of `slope`

.

Is there a way to write type constraints saying that "`a / b`

is possible," "`a + b`

is possible," etc? I've seen the `Mul`

, `Div`

, and `Sum`

typeclasses. But they don't appear to tell the compiler anything about doing arithmetic on two *different* types.

In case you're wondering, this is important for me because I'm using the Dimensional package. It is indeed possible to do arithmetic on different types within that package. So you could, for example, call `linearInterp`

where type `a`

is `Length Float`

and type `b`

is `Velocity Float`

.