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I know how to get all interfaces of T using typeof(T).GetInterfaces() but I need the exact inheritance tree.
Is it possible to resolve this somehow from the existing reflection API?

EDIT: Allow me to clarify:

interface Base1 {}
interface Base2 {}
interface Foo : Base1
interface Final : Foo, Base2

I would like to form a tree that represents the hierarchy of Final.
I already have a dependency on NGenerics so using it for tree implementation is not a problem.

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What do you mean? Can you give a concrete example? –  Samuel Neff Nov 5 '10 at 1:06
    
@Sam: See answer below –  the_drow Nov 5 '10 at 1:26
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1 Answer 1

Let's see. As far as I know, there's no BCL way to only get the interfaces that are actually implemented on a specific type but exclude any interfaces that type inherited. So we'll have to roll our own:

public static Dictionary<Type, IEnumerable<Type>> GetInterfaceHierarchyMap(this Type type)
{
    List<Type> typeAncestry = new List<Type>();
    Type ancestor = type;
    while(ancestor != null)
    {
        typeAncestry.Add(ancestor);
        ancestor = ancestor.BaseType;
    }
    Dictionary<Type, IEnumerable<Type>> interfaceMaps = new Dictionary<Type, IEnumerable<Type>>();
    foreach(Type childType in typeAncestry.Reverse<Type>())
    {
        var mappedInterfaces = interfaceMaps.SelectMany(kvp => kvp.Value);
        var allInterfacesToPoint = childType.GetInterfaces();
        interfaceMaps.Add(childType, allInterfacesToPoint.Except(mappedInterfaces));
    }
    return interfaceMaps;
}

One step at a time:

  1. We start from the current type and walk up the BaseType until we reach the root type.
  2. We reverse the list, so when we iterate over it we start with the root type first.
  3. For each type down the chain, we get all interfaces applied to that type and inherited from ancestor types, then we use Except to eliminate all the ones we already found in previous iterations.

This will treat duplicate interface requirements as superfluous - i.e., if one of your ancestor types implements IDisposable and your type does as well, only the earliest implementation will be counted.

A hypothetical result of this method would be a dictionary that looks something like:

[object] - []
[BaseBaseClass] - [ISomeInterface]
[BaseClass] - [IAnotherInterface, IOneMore]
[ConcreteClass] - [IYetAnother]
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Nice. But what if I am dealing with interfaces only? Does it matter? Actually it does because it doesn't have a base type. –  the_drow Nov 5 '10 at 1:26
    
@the_drow not sure what you mean. Interfaces can't inherit from anything so there's no hierarchy. –  Rex M Nov 5 '10 at 1:28
    
@Rex M, Interfaces can inherit from other interfaces which can create a hierarchy. –  Samuel Neff Nov 5 '10 at 1:51
    
@Sam interfaces can require other interfaces. That is not the same as inheritance. –  Rex M Nov 5 '10 at 2:00
    
@Rex M, actually, the documentation specifically uses the term inheritance. "An interface itself can inherit from multiple interfaces" msdn.microsoft.com/en-us/library/ms173156.aspx –  Samuel Neff Nov 5 '10 at 2:11
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