Good question - I was surprised that the first and third lines worked.

However, they *are* supported in the C# language specification - in section 7.8.4, it talks about enumeration addition:

Every enumeration type implicitly provides the following pre-defined operators, where E is the enum type and U is the underlying type of E:

```
E operator +(E x, U y)
E operator +(U x, E y)
```

At runtime, these operators are ealuated exactly as (E)((U)x + (U)y)

And in section 7.8.5:

Every enumeration type implicitly provides the following predefined operator, where E is the enum type and U is the underlying type of E:

```
U operator -(E x, E y)
```

This operator is evaluated exactly as `(U)((U)x - (U)y))`

. In other words, the operator computes the difference between the ordinal values of `x`

and `y`

, and the type of the result is the underlying type of the enumeration.

```
E operator -(E x, U y);
```

This operator is evaluated exactly as `(E)((U)x - y)`

. In other words, the operator subtracts a value from the underlying type of the enumeration, yielding a value of the enumeration.

So that's why the compiler behaves like that - because it's what the C# spec says to do :)

I wasn't aware that *any* of these operators exist, and I've never knowingly seen them used. I suspect the reasons for their existence are buried somewhere in the language design meeting notes that Eric Lippert occasionally dives into - but I also wouldn't be surprised if they were regretted as adding features for little benefit. Then again, maybe they're *really* useful in some situations :)

weird" but I think I'll wait and see if somebody comes up with a real explanation. – Matti Virkkunen Jul 30 '11 at 9:10