Although John Wu wrote up a nice answer about the differences between a type definition and actual types I don't think it fully answers the problem/question asked in the OP.
Is there any method to check the relationship between two open type,
or the relationship only exist on closed type?
First of all, the relationship always exists; every
List<> is always an
IEnumerable<>, as you can see in the definition of the
public class List<T> : IList<T>, ICollection<T>, IEnumerable<T>, ...
But this doesn't answer your second question, if there is a way to check if such a relationship exists between two types. You would think that the
IsAssignableFrom method can be used to check for existence of a relationship between the type open types, but you can't. Why? Lets find out in the documentation of the
Type.IsAssignableFrom (Type c) Returns true if any of the following conditions is true:
- c and the current instance represent the same type.
c is derived either directly or indirectly from the current
instance. c is derived directly from the current instance if it
inherits from the current instance; c is derived indirectly from the
current instance if it inherits from a succession of one or more
classes that inherit from the current instance.
The current instance is an interface that c implements.
c is a generic type parameter, and the current instance represents
one of the constraints of c.
and false if none of these conditions are true, or if c is null.
In your case, none of the above mentioned conditions will result in true as: (1) they are not the same type. (2) They cannot be derived from each other as they are open types: their generic type parameters are unknown (
unknown != unknown). The
List<> implements the closed
IEnumerable<T> type and not the open
IEnumerable<> type (3). They aren't generic type parameters (4).
To find out if two generic types have a relationship, you would need to inspect their
type definitions (and their nested interfaces/base types) and validate that they have a relationship:
public static bool IsAssignableToOpenGenericType(Type givenType, Type genericType)
var interfaceTypes = givenType.GetInterfaces();
foreach (var it in interfaceTypes)
if (it.IsGenericType && it.GetGenericTypeDefinition() == genericType)
if (givenType.IsGenericType && givenType.GetGenericTypeDefinition() == genericType)
Type baseType = givenType.BaseType;
if (baseType == null) return false;
return IsAssignableToGenericType(baseType, genericType);
Will result in:
var typ1 = typeof(List<>);
var typ2 = typeof(IEnumerable<>);
// true, List<>'s type definition contains an IEnumerable<>
// false, IEnumerable<>'s type definition does not contain List<>