I have an enum in a low level namespace. I'd like to provide a class or enum in a mid level namespace that "inherits" the low level enum.

namespace low
{
   public enum base
   {
      x, y, z
   }
}

namespace mid
{
   public enum consume : low.base
   {
   }
}

I'm hoping that this is possible, or perhaps some kind of class that can take the place of the enum consume which will provide a layer of abstraction for the enum, but still let an instance of that class access the enum.

Thoughts?

EDIT: One of the reasons I haven't just switched this to consts in classes is that the low level enum is needed by a service that I must consume. I have been given the WSDLs and the XSDs, which define the structure as an enum. The service cannot be changed.

13 Answers 13

up vote 419 down vote accepted

This is not possible. Enums cannot inherit from other enums. In fact all enums must actually inherit from System.Enum. C# allows syntax to change the underlying representation of the enum values which looks like inheritance, but in actuality they still inherit from System.enum.

See section 8.5.2 of the CLI spec for the full details. Relevant information from the spec

  • All enums must derive from System.Enum
  • Because of the above, all enums are value types and hence sealed

You can achieve what you want with classes:

public class Base
{
    public const int A = 1;
    public const int B = 2;
    public const int C = 3;
}
public class Consume : Base
{
    public const int D = 4;
    public const int E = 5;
}

Now you can use these classes similar as when they were enums:

int i = Consume.B;

Update (after your update of the question):

If you assign the same int values to the constants as defined in the existing enum, then you can cast between the enum and the constants, e.g:

public enum SomeEnum // this is the existing enum (from WSDL)
{
    A = 1,
    B = 2,
    ...
}
public class Base
{
    public const int A = (int)SomeEnum.A;
    //...
}
public class Consume : Base
{
    public const int D = 4;
    public const int E = 5;
}

// where you have to use the enum, use a cast:
SomeEnum e = (SomeEnum)Consume.B;
  • 5
    How do you enumerate the fields in this class then? For me that is important behavior of an enum: Enum.GetValues(typeof(MyEnum) – Mike de Klerk Jun 3 '15 at 7:46
  • 1
    You can use reflection: void Test() { foreach (System.Reflection.PropertyInfo pi in typeof(Consume).GetProperties()) { Console.WriteLine(pi.Name); } } – mnieto Jun 5 '15 at 10:08
  • 2
    You'd need to make sure the gathering of properties with reflection ignores the inherited Object properties. – Robert Jul 17 '15 at 14:11
  • Reflection is super ugly for that task. – dylanh724 Jul 31 at 7:00
  • Nice trick, especially when dealing with enum that are not accessible from frontend to models in data access layer. – Luther Aug 4 at 11:02

The short answer is no. You can play a bit, if you want:

You can always do something like this:

private enum Base
{
    A,
    B,
    C
}

private enum Consume
{
    A = Base.A,
    B = Base.B,
    C = Base.C,
    D,
    E
}

But, it doesn't work all that great because Base.A != Consume.A

You can always do something like this, though:

public static class Extensions
{
    public static T As<T>(this Consume c) where T : struct
    {
        return (T)System.Enum.Parse(typeof(T), c.ToString(), false);
    }
}

In order to cross between Base and Consume...

You could also cast the values of the enums as ints, and compare them as ints instead of enum, but that kind of sucks too.

The extension method return should type cast it type T.

  • 4
    I dig this, man. Used this concept to bubble some enums from my ORM to my public interface (to those without the ORM reference). – ObjectType Feb 13 '13 at 15:15
  • 3
    One can cast enums for comparison to work: Base.A == (Base)Consume.A – Kresimir Aug 29 '14 at 19:55
  • 1
    Use (decimal)Base.A == (decimal)Consume.A. Reason: This is how bit flag/mask combining works (e.g. example in Enum.IsDefined msdn.microsoft.com/en-us/library/…). So an enum can be set to an integer not defined in the enum. Consume test = 123456; – TamusJRoyce Apr 13 '15 at 4:55
  • 3
    @TamusJRoyce decimal? int would make a lot more sense. When would an enum have a fractional part!?!?! – ErikE Jul 20 '15 at 21:18
  • At least, this ensures that corresponding enum constants have the same integer value. After all, enums are just a set of integer constants. C# does not enforce that the assigned values are vaild enum constants, i.e. enums are not type safe in the strict sense. – Olivier Jacot-Descombes Feb 2 at 16:23

The solutions above using classes with int constants lack type-safety. I.e. you could invent new values actually not defined in the class. Furthermore it is not possible for example to write a method taking one of these classes as input.

You would need to write

public void DoSomethingMeaningFull(int consumeValue) ...

However, there is a class based solution of the old days of Java, when there were no enums available. This provides an almost enum-like behaviour. The only caveat is that these constants cannot be used within a switch-statement.

public class MyBaseEnum
{
    public static readonly MyBaseEnum A = new MyBaseEnum( 1 );
    public static readonly MyBaseEnum B = new MyBaseEnum( 2 );
    public static readonly MyBaseEnum C = new MyBaseEnum( 3 );

    public int InternalValue { get; protected set; }

    protected MyBaseEnum( int internalValue )
    {
        this.InternalValue = internalValue;
    }
}

public class MyEnum : MyBaseEnum
{
    public static readonly MyEnum D = new MyEnum( 4 );
    public static readonly MyEnum E = new MyEnum( 5 );

    protected MyEnum( int internalValue ) : base( internalValue )
    {
        // Nothing
    }
}

[TestMethod]
public void EnumTest()
{
    this.DoSomethingMeaningful( MyEnum.A );
}

private void DoSomethingMeaningful( MyBaseEnum enumValue )
{
    // ...
    if( enumValue == MyEnum.A ) { /* ... */ }
    else if (enumValue == MyEnum.B) { /* ... */ }
    // ...
}
  • 6
    i think this is the right answer. You cannot have inheritance for Enum but this can allow you to manage it! – robob Feb 1 '11 at 7:10
  • 9
    Nice and clean. +1. Just a hint, you really don't need the int value at all. – Ignacio Soler Garcia Jun 14 '12 at 7:35
  • @SoMoS, are you suggesting that object be used like recommended for lock? I cannot think of a nice way to make that idea compatible with the “numeration” part of enum where MyEnum.First < MyEnum.Second. But if ordering isn’t important for your enum, then that’d be a nifty way to avoid the magic int constants. – binki Apr 1 '14 at 17:05
  • I never thought on enumerations as if you can say FileOpenMode.Read > FileOpenMode.Write. If that's the case then you need an int or even better a IEqualityComparer for that enum. Regards. – Ignacio Soler Garcia Apr 1 '14 at 20:49
  • 3
    @binki using random object's would make the values different for each instantiation of the assembly so they cannot be serialized. – ivan_pozdeev Dec 16 '14 at 9:20

Ignoring the fact that base is a reserved word you cannot do inheritance of enum.

The best thing you could do is something like that:

public enum Baseenum
{
   x, y, z
}

public enum Consume
{
   x = Baseenum.x,
   y = Baseenum.y,
   z = Baseenum.z
}

public void Test()
{
   Baseenum a = Baseenum.x;
   Consume newA = (Consume) a;

   if ((Int32) a == (Int32) newA)
   {
   MessageBox.Show(newA.ToString());
   }
}

Since they're all the same base type (ie: int) you could assign the value from an instance of one type to the other which a cast. Not ideal but it work.

  • 2
    base is reserved but Base isn't – erikkallen Apr 16 '09 at 20:02
  • 2
    He's referring to the OP's use of base as the enum name, it's just an example name I'm sure – John Rasch Apr 16 '09 at 21:39
  • Same as Genisio's answer. – nawfal Jul 3 '14 at 6:50

I know this answer is kind of late but this is what I ended up doing:

public class BaseAnimal : IEquatable<BaseAnimal>
{
    public string Name { private set; get; }
    public int Value { private set; get; }

    public BaseAnimal(int value, String name)
    {
        this.Name = name;
        this.Value = value;
    }

    public override String ToString()
    {
        return Name;
    }

    public bool Equals(BaseAnimal other)
    {
        return other.Name == this.Name && other.Value == this.Value;
    }
}

public class AnimalType : BaseAnimal
{
    public static readonly BaseAnimal Invertebrate = new BaseAnimal(1, "Invertebrate");

    public static readonly BaseAnimal Amphibians = new BaseAnimal(2, "Amphibians");

    // etc        
}

public class DogType : AnimalType
{
    public static readonly BaseAnimal Golden_Retriever = new BaseAnimal(3, "Golden_Retriever");

    public static readonly BaseAnimal Great_Dane = new BaseAnimal(4, "Great_Dane");

    // etc        
}

Then I am able to do things like:

public void SomeMethod()
{
    var a = AnimalType.Amphibians;
    var b = AnimalType.Amphibians;

    if (a == b)
    {
        // should be equal
    }

    // call method as
    Foo(a);

    // using ifs
    if (a == AnimalType.Amphibians)
    {
    }
    else if (a == AnimalType.Invertebrate)
    {
    }
    else if (a == DogType.Golden_Retriever)
    {
    }
    // etc          
}

public void Foo(BaseAnimal typeOfAnimal)
{
}
  • 2
    Magic numbers can be replaced with objects as per stackoverflow.com/questions/757684/… . But for this particular case, you can get the best of both worlds by using the features of the existing biological nomenclature to guarantee uniqueness. – ivan_pozdeev Dec 16 '14 at 9:17

This is what I did. What I've done differently is use the same name and the new keyword on the "consuming" enum. Since the name of the enum is the same, you can just mindlessly use it and it will be right. Plus you get intellisense. You just have to manually take care when setting it up that the values are copied over from the base and keep them sync'ed. You can help that along with code comments. This is another reason why in the database when storing enum values I always store the string, not the value. Because if you are using automatically assigned increasing integer values those can change over time.

// Base Class for balls 
public class BaseBall
{
    // keep synced with subclasses!
    public enum Sizes
    {
        Small,
        Medium,
        Large
    }
}

public class VolleyBall : BaseBall
{
    // keep synced with base class!
    public new enum Sizes
    {
        Small = BaseBall.Sizes.Small,
        Medium = BaseBall.Sizes.Medium,
        Large = BaseBall.Sizes.Large,
        SmallMedium,
        MediumLarge,
        Ginormous
    }
}
  • 2
    Consider setting a different range for the new values in the derived class (e.g. SmallMedium = 100,), so you can keep compatibility with older versions of your software when you add new values in the base class. For example, adding a Huge size in your base enum would assign 4 to its value, but 4 is already taken by SmallMedium in the derived class. – Roberto Apr 2 '17 at 10:49
  • 1
    @Roberto, To address this, I never persist enum values, but only the names. And keeping them synced is a requirement here. So adding Huge in the base class would need a Huge in the subclass before SmallMedium – toddmo Apr 2 '17 at 21:36
  • 1
    BaseBall may not be the smartest name here. It is confusing. Since a baseball is actually a thing. If you miss that this is just a base class for ball, it looks very weird that a volleyball inherits from a physically smaller baseball :). My suggestion is to just use Ball – Nick N. Mar 12 at 10:25

Enums are not actual classes, even if they look like it. Internally, they are treated just like their underlying type (by default Int32). Therefore, you can only do this by "copying" single values from one enum to another and casting them to their integer number to compare them for equality.

Enums cannot be derrived from other enums, but only from int, uint, short, ushort, long, ulong, byte and sbyte.

Like Pascal said, you can use other enum's values or constants to initialize an enum value, but that's about it.

  • 8
    It's a bit of a misnomer because of the c# syntax but enum's cannot actually inherit from int,uint,etc ... Under the hood they still inherit from System.Enum. It's just that the member representing the enum is typed to the int,uint, etc ... – JaredPar Apr 16 '09 at 20:12
  • @JaredPar. When an enum is derrived from an uint, it means it's values are all uint, etc. By default an enum inherits int. (Take a look at the C# specification, enum SomeEnum : uint { ... } actually works.) – Jeroen Landheer Apr 17 '09 at 2:09
  • 4
    Actually no. It inherits System.enum. As was posted before and more often here, what you think is inheritance is just a langauge dusambiguity in csharp. – TomTom Oct 28 '10 at 12:22

another possible solution:

public enum @base
{
    x,
    y,
    z
}

public enum consume
{
    x = @base.x,
    y = @base.y,
    z = @base.z,

    a,b,c
}

// TODO: Add a unit-test to check that if @base and consume are aligned

HTH

This is not possible (as @JaredPar already mentioned). Trying to put logic to work around this is a bad practice. In case you have a base class that have an enum, you should list of all possible enum-values there, and the implementation of class should work with the values that it knows.

E.g. Supposed you have a base class BaseCatalog, and it has an enum ProductFormats (Digital, Physical). Then you can have a MusicCatalog or BookCatalog that could contains both Digital and Physical products, But if the class is ClothingCatalog, it should only contains Physical products.

I also wanted to overload Enums and created a mix of the answer of 'Seven' on this page and the answer of 'Merlyn Morgan-Graham' on a duplicate post of this, plus a couple of improvements.
Main advantages of my solution over the others:

  • automatic increment of the underlying int value
  • automatic naming

This is an out-of-the-box solution and may be directly inserted into your project. It is designed to my needs, so if you don't like some parts of it, just replace them with your own code.

First, there is the base class CEnum that all custom enums should inherit from. It has the basic functionality, similar to the .net Enum type:

public class CEnum
{
  protected static readonly int msc_iUpdateNames  = int.MinValue;
  protected static int          ms_iAutoValue     = -1;
  protected static List<int>    ms_listiValue     = new List<int>();

  public int Value
  {
    get;
    protected set;
  }

  public string Name
  {
    get;
    protected set;
  }

  protected CEnum ()
  {
    CommonConstructor (-1);
  }

  protected CEnum (int i_iValue)
  {
    CommonConstructor (i_iValue);
  }

  public static string[] GetNames (IList<CEnum> i_listoValue)
  {
    if (i_listoValue == null)
      return null;
    string[] asName = new string[i_listoValue.Count];
    for (int ixCnt = 0; ixCnt < asName.Length; ixCnt++)
      asName[ixCnt] = i_listoValue[ixCnt]?.Name;
    return asName;
  }

  public static CEnum[] GetValues ()
  {
    return new CEnum[0];
  }

  protected virtual void CommonConstructor (int i_iValue)
  {
    if (i_iValue == msc_iUpdateNames)
    {
      UpdateNames (this.GetType ());
      return;
    }
    else if (i_iValue > ms_iAutoValue)
      ms_iAutoValue = i_iValue;
    else
      i_iValue = ++ms_iAutoValue;

    if (ms_listiValue.Contains (i_iValue))
      throw new ArgumentException ("duplicate value " + i_iValue.ToString ());
    Value = i_iValue;
    ms_listiValue.Add (i_iValue);
  }

  private static void UpdateNames (Type i_oType)
  {
    if (i_oType == null)
      return;
    FieldInfo[] aoFieldInfo = i_oType.GetFields (BindingFlags.Public | BindingFlags.Static);

    foreach (FieldInfo oFieldInfo in aoFieldInfo)
    {
      CEnum oEnumResult = oFieldInfo.GetValue (null) as CEnum;
      if (oEnumResult == null)
        continue;
      oEnumResult.Name = oFieldInfo.Name;
    }
  }
}

Secondly, here are 2 derived Enum classes. All derived classes need some basic methods in order to work as expected. It's always the same boilerplate code; I haven't found a way yet to outsource it to the base class. The code of the first level of inheritance differs slightly from all subsequent levels.

public class CEnumResult : CEnum
{
  private   static List<CEnumResult>  ms_listoValue = new List<CEnumResult>();

  public    static readonly CEnumResult Nothing         = new CEnumResult (  0);
  public    static readonly CEnumResult SUCCESS         = new CEnumResult (  1);
  public    static readonly CEnumResult UserAbort       = new CEnumResult ( 11);
  public    static readonly CEnumResult InProgress      = new CEnumResult (101);
  public    static readonly CEnumResult Pausing         = new CEnumResult (201);
  private   static readonly CEnumResult Dummy           = new CEnumResult (msc_iUpdateNames);

  protected CEnumResult () : base ()
  {
  }

  protected CEnumResult (int i_iValue) : base (i_iValue)
  {
  }

  protected override void CommonConstructor (int i_iValue)
  {
    base.CommonConstructor (i_iValue);

    if (i_iValue == msc_iUpdateNames)
      return;
    if (this.GetType () == System.Reflection.MethodBase.GetCurrentMethod ().DeclaringType)
      ms_listoValue.Add (this);
  }

  public static new CEnumResult[] GetValues ()
  {
    List<CEnumResult> listoValue = new List<CEnumResult> ();
    listoValue.AddRange (ms_listoValue);
    return listoValue.ToArray ();
  }
}

public class CEnumResultClassCommon : CEnumResult
{
  private   static List<CEnumResultClassCommon> ms_listoValue = new List<CEnumResultClassCommon>();

  public    static readonly CEnumResult Error_InternalProgramming           = new CEnumResultClassCommon (1000);

  public    static readonly CEnumResult Error_Initialization                = new CEnumResultClassCommon ();
  public    static readonly CEnumResult Error_ObjectNotInitialized          = new CEnumResultClassCommon ();
  public    static readonly CEnumResult Error_DLLMissing                    = new CEnumResultClassCommon ();
  // ... many more
  private   static readonly CEnumResult Dummy                               = new CEnumResultClassCommon (msc_iUpdateNames);

  protected CEnumResultClassCommon () : base ()
  {
  }

  protected CEnumResultClassCommon (int i_iValue) : base (i_iValue)
  {
  }

  protected override void CommonConstructor (int i_iValue)
  {
    base.CommonConstructor (i_iValue);

    if (i_iValue == msc_iUpdateNames)
      return;
    if (this.GetType () == System.Reflection.MethodBase.GetCurrentMethod ().DeclaringType)
      ms_listoValue.Add (this);
  }

  public static new CEnumResult[] GetValues ()
  {
    List<CEnumResult> listoValue = new List<CEnumResult> (CEnumResult.GetValues ());
    listoValue.AddRange (ms_listoValue);
    return listoValue.ToArray ();
  }
}

The classes have been successfully tested with follwing code:

private static void Main (string[] args)
{
  CEnumResult oEnumResult = CEnumResultClassCommon.Error_Initialization;
  string sName = oEnumResult.Name;   // sName = "Error_Initialization"

  CEnum[] aoEnumResult = CEnumResultClassCommon.GetValues ();   // aoEnumResult = {testCEnumResult.Program.CEnumResult[9]}
  string[] asEnumNames = CEnum.GetNames (aoEnumResult);
  int ixValue = Array.IndexOf (aoEnumResult, oEnumResult);    // ixValue = 6
}

You can perform inheritance in enum, however it's limited to following types only . int, uint, byte, sbyte, short, ushort, long, ulong

E.g.

public enum Car:int{
Toyota,
Benz,
}
  • 5
    thats not inheritance in typical sense.. – nawfal Feb 16 '13 at 15:06
  • 2
    I think the OP was asking to inherit one enum from another, not just from a base numeric type (which all enums do in C#, either implicitly or explicitly.) – reirab Sep 6 '13 at 19:46

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