Ankur is correct - you cannot do this (without resorting to hacks that would break units).

Maybe a clearer description of the problem is that the type of `pow`

function would *depend on the value* of the argument and F# doesn't allow you to do this. You could imagine this would work if were using just literals as the second argument, but it would become tricky if you used expressions:

```
pow a 3 // Assuming a = 1.0<cm>, the return type is float<cm ^ 3>
pow a n // Assuming a = 1.0<cm>, the return type is float<cm ^ n>
```

In the second case the value `n`

would have to appear in the type!

You can use some nasty tricks (inspired by this Haskell article), but it becomes a bit crazy. Instead of using numeric literals, you'd use something like `S(S(S(N)))`

to represent the number `3`

. This way, you can bring the number into the type. You probably don't want to do this, but here is an example:

```
[<Measure>] type cm
// Represents a number with units of measure powered to the
// number's value (e.g "(S (S O))" has type Num<cm, cm^3>)
type Num<[<Measure>] 'M, [<Measure>] 'N> =
| O_ of int * float<'N>
| S_ of int * Num<'M, 'N / 'M>
// Constructors that hide that simplify the creation
let O : Num<'M, 'M> = O_ (1, 0.0<_>)
let S n = match n with O_(i, _) | S_(i, _) -> S_(i + 1, n)
// Type-safe power function with units of measure
let pow (x:float<'M>) ((O_(i, _) | S_(i, _)):Num<'M, 'M 'N>) : float<'M 'N> =
// Unsafe hacky implementation, which is hidden
// from the user (for simplicity)
unbox ((float x) ** float i)
let res = pow 2.0<cm> (S (S O))
```

**EDIT:** I posted the source code to F# snippets, so that you can see the inferred types: http://fssnip.net/4H

`x^(2^y)`

, not`x^y`

. – hammar May 11 '11 at 11:43