At the moment I am reading a Java book with lots of neat exercises. One of them wants me to implement modulo arithmetic for Mod-3 with an enum.

I reached a point where I have not clue how to implement a method in a way I could confidentially show it to someone else.

The method gets a natural number (incl. 0) and converts it to a modulo-3 value, returning it as an enum-element. My problem is the switch statement. As I do modulo-3 arithmetic and checked the preconditions I have exactly 3 possible cases to check, 0, 1 or 2. Each returns its corresponding enum-element, but the compiler simply has no knowledge about that **and expects me to define a default branch with a return statement**.

I would think of it as bad code, if one would define `return null`

in `default`

, knowing that it will never get executed and makes no sense (to me) to return `null`

. So throwing an exception instead would better (I think), but now **I have to choose an exception type and will I need to define exception handling**, knowing that the logic makes a throw impossible (because of the `assert`

s before)?

If you answer, please explain why your implementation is superior to the others. I deeply thank you for your time!

```
public enum Mod3 {
Zero(0), One(1), Two(2);
private final int value;
Mod3(final int value) {
this.value = value;
}
/**
* Converts a given natural number to a modulo value.
* @param naturalNumber To be converted to modulo-value. Not negative.
* @return The modulo-value of given naturalNumber. 0 <= value < 3.
*/
Mod3 get(final int naturalNumber) throws IllegalArgumentException {
final int moduloNumber;
if (naturalNumber >= 0)
moduloNumber = naturalNumber % 3;
else
throw new IllegalArgumentException("argument has not to be negative, but was " + naturalNumber);
assert moduloNumber >= 0 && moduloNumber < 3: "moduloNumber should have been >= 0 and < 3, but was " + moduloNumber;
switch (moduloNumber) {
case 0: return Zero;
case 1: return One;
case 2: return Two;
// I don't know what to do here.
default: throw new WhatTypeOfExceptionToUseHere("Logic error! Should have never been thrown!");
}
}
}
```