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I've read a few SO posts and it seems most basic operation is missing. CAN IT BE??

public enum LoggingLevel
{
    Off = 0,
    Error = 1,
    Warning = 2,
    Info = 3,
    Debug = 4,
    Trace = 5
};



if (s == "LogLevel")
{
    _log.LogLevel = (LoggingLevel)Convert.ToInt32("78");
    _log.LogLevel = (LoggingLevel)Enum.Parse(typeof(LoggingLevel), "78");
    _log.WriteDebug(_log.LogLevel.ToString());
}

no exceptions. 78 is happily wrote. this is sad. I read why the cast does not automatically throw error but PLEASE!!! NO way to check it at all. That's just too much...

Thanks & BR -Matti

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5 Answers

up vote 42 down vote accepted

Check out Enum.IsDefined
This is the example from that page:

using System;

[Flags] public enum PetType
{
   None = 0, Dog = 1, Cat = 2, Rodent = 4, Bird = 8, Reptile = 16, Other = 32
};

public class Example
{
   public static void Main()
   {
      object value; 

      // Call IsDefined with underlying integral value of member.
      value = 1;
      Console.WriteLine("{0}: {1}", value, Enum.IsDefined(typeof(PetType), value));
      // Call IsDefined with invalid underlying integral value.
      value = 64;
      Console.WriteLine("{0}: {1}", value, Enum.IsDefined(typeof(PetType), value));
      // Call IsDefined with string containing member name.
      value = "Rodent";
      Console.WriteLine("{0}: {1}", value, Enum.IsDefined(typeof(PetType), value));
      // Call IsDefined with a variable of type PetType.
      value = PetType.Dog;
      Console.WriteLine("{0}: {1}", value, Enum.IsDefined(typeof(PetType), value));
      value = PetType.Dog | PetType.Cat;
      Console.WriteLine("{0}: {1}", value, Enum.IsDefined(typeof(PetType), value));
      // Call IsDefined with uppercase member name.      
      value = "None";
      Console.WriteLine("{0}: {1}", value, Enum.IsDefined(typeof(PetType), value));
      value = "NONE";
      Console.WriteLine("{0}: {1}", value, Enum.IsDefined(typeof(PetType), value));
      // Call IsDefined with combined value
      value = PetType.Dog | PetType.Bird;
      Console.WriteLine("{0:D}: {1}", value, Enum.IsDefined(typeof(PetType), value));
      value = value.ToString();
      Console.WriteLine("{0:D}: {1}", value, Enum.IsDefined(typeof(PetType), value));
   }
}
// The example displays the following output:
//       1: True
//       64: False
//       Rodent: True
//       Dog: True
//       Dog, Cat: False
//       None: True
//       NONE: False
//       9: False
//       Dog, Bird: False
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thanks a lot! couldn't believe it. just wonder what (LoggingLevel)Enum.Parse(typeof(LoggingLevel), "78"); is supposed to do... –  matti Apr 20 '10 at 11:55
    
@matti: Convert "78" into whatever number representation LoggingLevel uses as storage, then present that as a LoggingLevel enum value. –  thecoop Apr 20 '10 at 12:36
    
Seems that IsDefined is not working for bitwised enum members. –  Saeed Neamati Aug 11 '12 at 7:14
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The canonical answer would be Enum.IsDefined, but that is a: a bit slow if used in a tight loop, and b: not useful for [Flags] enums.

Personally, I'd stop worrying about that, and just switch appropriately, remembering:

  • if it is OK not to recognise everything (and just not do anything), then don't add a default: (or have an empty default: explaining why)
  • if there is a sensible default behaviour, put that in the default:
  • otherwise, handle the ones you know about and throw an exception for the rest:

Like so:

switch(someflag) {
    case TriBool.Yes:
        DoSomething();
        break;
    case TriBool.No:
        DoSomethingElse();
        break;
    case TriBool.FileNotFound:
        DoSomethingOther();
        break;
    default:
        throw new ArgumentOutOfRangeException("someflag");
}
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not familiar with [Flags] enums and performance is not an issue so your answer seems like the reason why enums were invented in the first place ;) looking at your "points" or whatever they're called so you have to have a point there. Bet you didn't get them for nothing, but think about situation of reading config file where there's 257 values in one enum defition. Let alone dozens of other enums. There would be lots of case-rows... –  matti Apr 20 '10 at 13:05
    
@matti - that sounds an extreme example; deserialization is a specialist area anyway - most serialization engines offer enum validation for free. –  Marc Gravell Apr 20 '10 at 15:07
    
@matti - on a side note; I'd say treat answers based on their individual merits. I sometimes get things completely wrong, and somebody with "rep 17" could just as equally give a perfect answer. –  Marc Gravell Apr 20 '10 at 15:24
    
true :) –  matti Apr 21 '10 at 6:40
    
The switch answer is fast, but isn't generic. –  Eldritch Conundrum Oct 27 '11 at 15:37
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Use Enum.IsDefined.

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Use:

Enum.IsDefined ( typeof ( Enum ), EnumValue );
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The above solutions doesn't deal with [Flags] situations.

My solution below may have some performance issues (I'm sure one could optimise in various ways) but essentially it will always prove whether an enum value is valid or not.

It relies on two things:

  • Enum values in C# are only allowed to be int, absolutely nothing else
  • Enum names in C# must begin with an alphabetic character

Calling ToString() on an enum returns either the int value if no enum (flag or not) is matched. If an allowed enum value is matched, it will print the name of the match(es).

So:

[Flags]
enum WithFlags
{
    First = 1,
    Second = 2,
    Third = 4,
    Fourth = 8
}

((WithFlags)2).ToString() ==> "Second"
((WithFlags)(2 + 4)).ToString() ==> "Second, Third"
((WithFlags)20).ToString() ==> "20"

With these two rules in mind we can assume that if the .NET Framework does its job correctly that any calls to a valid enum's ToString() method will result in something that has an alphabetic character as its first character:

public static bool IsValid<TEnum>(this TEnum enumValue)
    where TEnum : struct
{
    var firstChar = enumValue.ToString()[0];
    return firstChar < '0' || firstChar > '9';
}

One could call it a "hack", but the advantages are that by relying on Microsoft's own implementation of Enum and C# standards, you're not relying on your own potentially buggy code or checks. In situations where performance is not exceptionally critical, this will save a lot of nasty switch statements or other checks!

And the tests to back it up:

[TestClass]
public class EnumExtensionsTests
{
    [Flags]
    enum WithFlags
    {
        First = 1,
        Second = 2,
        Third = 4,
        Fourth = 8
    }

    enum WithoutFlags
    {
        First = 1,
        Second = 22,
        Third = 55,
        Fourth = 13,
        Fifth = 127
    }

    enum WithoutNumbers
    {
        First, // 1
        Second, // 2
        Third, // 3
        Fourth // 4
    }

    enum WithoutFirstNumberAssigned
    {
        First = 7,
        Second, // 8
        Third, // 9
        Fourth // 10
    }

    [TestMethod]
    public void IsValidEnumTests()
    {
        Assert.IsTrue(((WithFlags)(1 | 4)).IsValid());
        Assert.IsTrue(((WithFlags)(1 | 4)).IsValid());
        Assert.IsTrue(((WithFlags)(1 | 4 | 2)).IsValid());
        Assert.IsTrue(((WithFlags)(2)).IsValid());
        Assert.IsTrue(((WithFlags)(3)).IsValid());
        Assert.IsTrue(((WithFlags)(1 + 2 + 4 + 8)).IsValid());

        Assert.IsFalse(((WithFlags)(16)).IsValid());
        Assert.IsFalse(((WithFlags)(17)).IsValid());
        Assert.IsFalse(((WithFlags)(18)).IsValid());
        Assert.IsFalse(((WithFlags)(0)).IsValid());

        Assert.IsTrue(((WithoutFlags)1).IsValid());
        Assert.IsTrue(((WithoutFlags)22).IsValid());
        Assert.IsTrue(((WithoutFlags)(53 | 6)).IsValid()); // Will end up being Third
        Assert.IsTrue(((WithoutFlags)(22 | 25 | 99)).IsValid()); // Will end up being Fifth
        Assert.IsTrue(((WithoutFlags)55).IsValid());
        Assert.IsTrue(((WithoutFlags)127).IsValid());

        Assert.IsFalse(((WithoutFlags)48).IsValid());
        Assert.IsFalse(((WithoutFlags)50).IsValid());
        Assert.IsFalse(((WithoutFlags)(1 | 22)).IsValid());
        Assert.IsFalse(((WithoutFlags)(9 | 27 | 4)).IsValid());

        Assert.IsTrue(((WithoutNumbers)0).IsValid());
        Assert.IsTrue(((WithoutNumbers)1).IsValid());
        Assert.IsTrue(((WithoutNumbers)2).IsValid());
        Assert.IsTrue(((WithoutNumbers)3).IsValid());
        Assert.IsTrue(((WithoutNumbers)(1 | 2)).IsValid()); // Will end up being Third
        Assert.IsTrue(((WithoutNumbers)(1 + 2)).IsValid()); // Will end up being Third

        Assert.IsFalse(((WithoutNumbers)4).IsValid());
        Assert.IsFalse(((WithoutNumbers)5).IsValid());
        Assert.IsFalse(((WithoutNumbers)25).IsValid());
        Assert.IsFalse(((WithoutNumbers)(1 + 2 + 3)).IsValid());

        Assert.IsTrue(((WithoutFirstNumberAssigned)7).IsValid());
        Assert.IsTrue(((WithoutFirstNumberAssigned)8).IsValid());
        Assert.IsTrue(((WithoutFirstNumberAssigned)9).IsValid());
        Assert.IsTrue(((WithoutFirstNumberAssigned)10).IsValid());

        Assert.IsFalse(((WithoutFirstNumberAssigned)11).IsValid());
        Assert.IsFalse(((WithoutFirstNumberAssigned)6).IsValid());
        Assert.IsFalse(((WithoutFirstNumberAssigned)(7 | 9)).IsValid());
        Assert.IsFalse(((WithoutFirstNumberAssigned)(8 + 10)).IsValid());
    }
}
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