I have a class like the below. GetInterfaces() says

If the current Type represents a type parameter in the definition of a generic type or generic method, this method searches the interface constraints and any interfaces inherited from class or interface constraints.

Is it possible for me to not get any inherited interface? When i use GetInterfaces on ABC i only want to see DEF, not DEF and GHI.

interface DEF : GHI {...}
class ABC : DEF {...}
  • 1
    Since Im only on my iPad I cant test code or look up all the methods, but heres a thought. Could you find all the interfaces your type implements (including inherites ones), then move on to the base type of your type, find all the interfaces *that* type implements, and subtract those from the first set? I would think you would be left with what ABC itself added of interfaces. If anyone wants to "steal" this comment and type up a real answer of it, please do, it wont be until tomorrow until I`m back at my computer. – Lasse V. Karlsen Mar 15 '11 at 22:13
  • the GetInterfaces() is a method on the Type class. – Roman Royter Mar 15 '11 at 22:13
  • Ah, my apologies, your "base type" is an interface, then I don`t know. – Lasse V. Karlsen Mar 15 '11 at 22:18
  • @Lasse: I've understood the problem differently; I think the OP is only interested in interface-hierarchies. – Ani Mar 15 '11 at 22:51

Firstly, the MSDN snippet you've posted doesn't have anything to do with your actual question. It deals with when you have, for example, a generic type such as class Foo<T> where T : IEnumerable, and you try calling GetInterfaces on the type-parameter T, for example through typeof(Foo<>).GetGenericArguments().Single().GetInterfaces().

Secondly, the problem is slightly ill-specified. Note that when a class implements an interface, it must implement all of the interfaces 'inherited' by that interface. It's simply a C# convenience feature that lets you omit the inherited interfaces in the class-declaration. In your example, it's perfectly legal (and no different) to explicitly include the 'inherited' GHI interface:

class ABC : DEF, GHI {...}

I've assumed that what you really want to do is find a 'minimal set' of interfaces that 'covers' all of the type's implemented interfaces. This results in a slightly simplified version of the Set cover problem.

Here's one way to solve it, without any attempt whatsoever to be algorithmically efficient. The idea is to produce the minimal interface-set by filtering out those interfaces that are already implemented by other interfaces implemented by the type.

Type type = ...

var allInterfaces = type.GetInterfaces();    
var minimalInterfaces = from iType in allInterfaces 
                        where !allInterfaces.Any(t => t.GetInterfaces()
                        select iType;

( EDIT - Here's a better way of doing the above:

var minimalInterfaces = allInterfaces.Except
                        (allInterfaces.SelectMany(t => t.GetInterfaces()));


For example, for List<int>:





Do note that this solution covers interface 'hierarchies' only (which is what you appear to want), not how they relate to the class's class hierarchy. In particular, it pays no attention to where in a class's hierarchy an interface was first implemented.

For example, let's say we have:

interface IFoo { }
interface IBar : IFoo { }
interface IBaz { } 

class Base : IBar {  }
class Derived : Base, IBaz {  }

Now if you try using the solution I've described to get the minimal interface-set for Derived, you would get IBaz as well as IBar. If you don't want IBar, you would have to go to more effort: eliminate interfaces implemented by base-classes. The easiest way to do this would be to remove from the minimal interface-set those interfaces implemented by the class's immediate base-class, as is mentioned in @MikeEast's answer.


This is a nice piece from a duplicate question:

public static class TypeExtensions {
   public static IEnumerable<Type> GetInterfaces(this Type type, bool includeInherited)
      if (includeInherited || type.BaseType == null)
         return type.GetInterfaces();
         return type.GetInterfaces().Except(type.BaseType.GetInterfaces());

And usage:

foreach(Type ifc in typeof(Some).GetInterfaces(false)) {
  • 1
    problem with this is it won't work for i.e. IList<string>, I had a similar solution based on @Lasse's comment – BrokenGlass Mar 15 '11 at 22:35
  • Ah, for the BaseType thing. Didn't see that one. – Mikael Östberg Mar 15 '11 at 22:43

As far as I can tell, none of the posted solutions work for typeof(C1) and typeof(I3) in the example below.

I think the correct answer is that it is not possible to get the directly implemented interfaces using out-of-the-box framework calls.

private interface I1 { }

private interface I2 : I1 { }

private interface I3 : I2, I1 { }

public class C1 : I3, I1 { }

How about this for interface inheritance heirachy?

    public static Map GetTypeInheritance(Type type)
        //get all the interfaces for this type
        var interfaces = type.GetInterfaces();

        //get all the interfaces for the ancestor interfaces
        var baseInterfaces = interfaces.SelectMany(i => i.GetInterfaces());

        //filter based on only the direct interfaces
        var directInterfaces = interfaces.Where(i => baseInterfaces.All(b => b != i));

        Map map = new Map
                Node = type,
                Ancestors = directInterfaces.Select(GetTypeInheritance).ToList()

        return map;

    public class Map
       public Type Node { get; set; }
       public List<Map> Ancestors { get; set; }

The same MSDN page says

The GetInterfaces method does not return interfaces in a particular order, such as alphabetical or declaration order. Your code must not depend on the order in which interfaces are returned, because that order varies.

So no, you can't skip interfaces.

  • The OP isn't trying to skip interfaces, but retrieve only the directly implemented interfaces. – Marcelo Cantos Mar 15 '11 at 22:16
  • I think the main problem here is that once a type implements an interface, theres no concept of "directly implemented" any more. Youll have to analyze the graph of interface "inheritance" and find the most plausible result. – Lasse V. Karlsen Mar 15 '11 at 22:27

This question is duplicated both here and here. In any case, here's my concise code that considers the points raised on this thread by @Ani and @Mikael:

var actualInterfaces = type.GetInterfaces();
foreach ( var result in actualInterfaces
    .Except( type.BaseType?.GetInterfaces() ?? Enumerable.Empty<Type>() ) //See https://stackoverflow.com/a/1613936
    .Except( actualInterfaces.SelectMany( i => i.GetInterfaces() ) ) //See https://stackoverflow.com/a/5318781
) yield return result;

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