I've been doing some exercises in Scala. I thought I might try to derive a method of creating incompatible value types that cannot be accidentally assigned to each other, using the newly added `AnyVal`

trait.

The best I could come up with was something like this:

```
object Measurements {
trait ValueType[T] extends Any {
def value: T
}
trait Measurement[A <: ValueType[Double]] extends Any {
def modify(fn: (Double, A) => Double, value: A): A
def +(mod: A) = modify((x: Double, y: A) => x + y.value, mod)
def -(mod: A) = modify((x: Double, y: A) => x - y.value, mod)
def *(mod: A) = modify((x: Double, y: A) => x * y.value, mod)
def /(mod: A) = modify((x: Double, y: A) => x / y.value, mod)
}
case class Frequency(value: Double) extends AnyVal
with ValueType[Double]
with Measurement[Frequency]
{
def modify(fn: (Double, Frequency) => Double, mod: Frequency)
= Frequency(fn(value, mod))
}
case class Amplitude(value: Double) extends AnyVal
with ValueType[Double]
with Measurement[Amplitude]
{
def modify(fn: (Double, Amplitude) => Double, mod: Amplitude)
= Amplitude(fn(value, mod))
}
case class Wavelength(value: Double) extends AnyVal
with ValueType[Double]
with Measurement[Wavelength]
{
def modify(fn: (Double, Wavelength) => Double, mod: Wavelength)
= Wavelength(fn(value, mod))
}
}
import Measurements._
Frequency(150) + Frequency(10) // ==> Frequency(160)
Amplitude(23.2) * Amplitude(2) // ==> Amplitude(46.4)
Amplitude(50) + Frequency(50) // ==> Compile-time Type Error
```

Unfortunately it requires that I define the `modify`

function uniquely for each instance, because it's impossible to define something like `A(value)`

with a generic type `A`

. There doesn't seem to be a way to define constructor constraints. Otherwise I might be able to define something common on the trait, like:

```
def modify(fn: (Double, A) => Double, mod: A) = A(fn(value, mod))
```

I've tried calling `apply(Double)`

on `A`

, but it's not accessible from a generic variable. I also tried to see if I could work up a factory of some kind to at least simplify things, but wasn't able to come up with anything more graceful than what I'm doing now. I run into the same problem with C# all the time.

Is there some way to factor out that code that relies on a common constructor type for different (but related) classes?