You could simplify it and generalize it some:
static Enum GetNextValue(Enum e){
Array all = Enum.GetValues(e.GetType());
int i = Array.IndexOf(all, e);
if(i < 0)
throw new InvalidEnumArgumentException();
if(i == all.Length - 1)
throw new ArgumentException("No more values", "e");
return (Enum)all.GetValue(i + 1);
}
EDIT: Note that if your enum contains duplicate values (synonymous entries), then this (or any other technique listed here) will fail, given one of those values. For instance:
enum BRUSHSTYLE{
SOLID = 0,
HOLLOW = 1,
NULL = 1,
HATCHED = 2,
PATTERN = 3,
DIBPATTERN = 5,
DIBPATTERNPT = 6,
PATTERN8X8 = 7,
DIBPATTERN8X8 = 8
}
Given either BRUSHSTYLE.NULL or BRUSHSTYLE.HOLLOW, the return value would be BRUSHSTYLE.HOLLOW.
<leppie>
Update: a generics version:
static T GetNextValue<T>(T e) { T[] all = (T[]) Enum.GetValues(typeof(T)); int i = Array.IndexOf(all, e); if (i < 0) throw new InvalidEnumArgumentException(); if (i == all.Length - 1) throw new ArgumentException("No more values", "e"); return all[i + 1]; }
</leppie>
@leppie:
Your generic version allows one to accidentally pass a non-enum value, which will be caught only at run-time. I had originally written it as a generic, but when the compiler rejected where T : Enum, I took it out and realized that I wasn't gaining much from generics anyway. The only real drawback is that you have to cast the result back to your specific enum type.
