Assume I have this enum defined, where several members have the same underlying value:

enum Number
  One = 1,
  Eins = 1,
  Uno = 1

According to MSDN documentation:

If multiple enumeration members have the same underlying value and you attempt to retrieve the string representation of an enumeration member's name based on its underlying value, your code should not make any assumptions about which name the method will return.

So for example,

var number = Number.One;

gives me the following output:


Printing all enum members,

Console.WriteLine($"{Number.One} {Number.Eins} {Number.Uno}");

yields the following output:

Eins Eins Eins

However, taking the nameof of each member,

Console.WriteLine($"{nameof(Number.One)} {nameof(Number.Eins)} {nameof(Number.Uno)}");

gives the following result:

One Eins Uno

So apparently the enum members are separable. Can I take advantage of this separation, i.e. is there any way I can assign a specific Number member to a variable and consistently have that same member returned whenever the variable is accessed?

  • 3
    Why are you in this situation to begin with? – InBetween Apr 5 '17 at 10:19
  • 1
    Looks like a good place to get rid f the Enum and use globalization / resource files. – bradbury9 Apr 5 '17 at 10:21
  • 1
    OK, maybe I shouldn't have used different languages in the example. My issue has nothing to do with internationalization. – Anders Gustafsson Apr 5 '17 at 10:22
  • 1
    If you are casting the variable to the underlying type (int) you would not be able, otherwise, you could have a look to Enum.GetNames(Type) function – bradbury9 Apr 5 '17 at 10:26
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    @AndersGustafsson - when you are stuck with legacy code options can sometimes be limited unless you have the resources to refactor and implement something correctly (usually not the case though). – Igor Apr 5 '17 at 11:04

So apparently the enum members are separable

Well, that's not entirely true... They are only separable at compile time.

You see, nameof is actually an expression evaluated at compile time. It is a constant expression. This can be proved by assigning a nameof expression to a const:

const string a = nameof(Number.One);

It compiles.

Trying to get the string representation of a enum value using string interpolation on the other hand, is evaluated at runtime, so this does not compile:

const string a = $"{Number.One}";

At runtime, the enum cases are not separable, so the answer to:

is there any way I can assign a specific Number member to a variable and consistently have that same member returned whenever the variable is accessed?

is "no".

  • Many thanks for the clarifying answer! – Anders Gustafsson Apr 5 '17 at 10:50
  • @AndersGustafsson If you think my answer answers your question, please consider accepting it! – Sweeper Apr 5 '17 at 10:52
  • I will keep you in suspense a while longer, in case someone else wants to answer too :-) – Anders Gustafsson Apr 5 '17 at 10:57

The only possibility I see to always return an expected enum name is to create a 2nd enum next to your first of the underlying type and with the same values but limit the members to those that you expect (and make sure there are no shared values). Then you can cast from one to the other and use the new enum in your refactored code that relies on specific/expected members.


Console.WriteLine("{0:G}", (KnownNumber)Number.Eins); // > One
Console.WriteLine("{0:G}", (KnownNumber)Number.Uno); // > One
Console.WriteLine("{0:G}", (KnownNumber)Number.One); // > One


public enum Number
  One = 1,
  Eins = 1,
  Uno = 1

public enum KnownNumber
  One = 1,
  Two = 2,
  Three = 3



I wrote something that should get it work

public static class NumberExtension
    private static Dictionary<int, string> pointers = new Dictionary<int, string>();
    public static unsafe void SetValue(this Number source, string value)
        if (pointers.ContainsKey((int)&source))
            pointers[(int)&source] = value;
            pointers.Add((int)&source, value);
    public static unsafe string GetValue(this Number source)
        if (pointers.ContainsKey((int)&source))
            return pointers[(int)&source];
        return source.ToString();

And to use:

    Number num = default(Number);

However, it looks like a kind of 'hack' and I do NOT recommend it. It would be better if you look for a better solution.

  • Thanks, Aly. As you state yourself though, this is too much of a "hack" for my needs, so I'd rather consider refactoring instead. – Anders Gustafsson Apr 5 '17 at 11:23

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