I'm doing a heavy bit of reflection in my current project, and I'm trying to provide a few helper methods just to keep everything tidy.

I'd like to provide a pair of methods to determine if a type or instance implements IEnumerable – regardless of the type T. Here is what I have at the moment:

public static bool IsEnumerable(this Type type)
    return (type is IEnumerable);

public static bool IsEnumerable(this object obj)
    return (obj as IEnumerable != null);

When I test them using

Debug.WriteLine("Type IEnumerable:   " + typeof(IEnumerable).IsEnumerable());
Debug.WriteLine("Type IEnumerable<>: " + typeof(IEnumerable<string>).IsEnumerable());
Debug.WriteLine("Type List:          " + typeof(List<string>).IsEnumerable());
Debug.WriteLine("Type string:        " + typeof(string).IsEnumerable());
Debug.WriteLine("Type DateTime:      " + typeof(DateTime).IsEnumerable());
Debug.WriteLine("Instance List:      " + new List<string>().IsEnumerable());
Debug.WriteLine("Instance string:    " + "".IsEnumerable());
Debug.WriteLine("Instance DateTime:  " + new DateTime().IsEnumerable());

I get this as the result:

Type IEnumerable:   False
Type IEnumerable<>: False
Type List:          False
Type string:        False
Type DateTime:      False
Instance List:      True
Instance string:    True
Instance DateTime:  False

The type method doesn't appear to work at all – I had expected a true for the direct System.Collections.IEnumerable match at least.

I'm aware that string is technically enumerable, albeit with a few caveats. Ideally in this case, however, I'd need the helper method to return false for it. I just need the instances with a defined IEnumerable<T> type to return true.

I've probably just missed something fairly obvious – can anyone point me in the right direction?

  • I don't understand the question. It's clear why typeof() any type doesn't return true; you are asking whether the type object implements the interface, not the type itself. Maybe you want IsAssignableFrom()? But in what way do you think string doesn't qualify? It does have "a defined IEnumerable<T> type". Commented Feb 24, 2015 at 17:10
  • Yep, that was the issue with the type one - I've been looking at nests of reflection jumping between types and instances all day and got more than a little confused! string does qualify, however in this case I do really need to rule it out - it's probably more of a matter of method naming at this stage. I think I'll just leave this as it is and add another one that just type checks on string first.
    – Octopoid
    Commented Feb 24, 2015 at 17:14
  • Agree with @JeroenMostert ... the "duplicate" is asking if a type is implementing IEnumerable<x> using reflection, this one is asking if a type is implementing IEnumerable, which is a different thing and requires a different solution (as proven by the different accepted answers)
    – Jcl
    Commented Feb 24, 2015 at 17:48
  • Maybe you look for ICollection<x>instead of IEnumerable<x>
    – Andie2302
    Commented Jul 20, 2020 at 17:11

3 Answers 3


The following line

return (type is IEnumerable);

is asking "if an instance of Type, type is IEnumerable", which clearly it is not.

You want to do is:

return typeof(IEnumerable).IsAssignableFrom(type);
  • 2
    @Octopoid a string implements IEnumerable<char>, so it's true, because that's what you are asking for
    – Jcl
    Commented Feb 24, 2015 at 17:13
  • 1
    @Octopoid That's the correct behavior. string is an IEnumerable<char>, which is an IEnumerable.
    – dav_i
    Commented Feb 24, 2015 at 17:13
  • 1
    @Octopoid Actually it'll be more performant if you check it second!
    – dav_i
    Commented Feb 24, 2015 at 17:19
  • 2
    If you are ruling out string for some reason, without seeing your code or knowing the requirements, you probably want to rule out many possible others too (specially if you are making a library that can be used in future code by types unknown at this point). I fail to see why string would be different to many other possible IEnumerables. If that's the case, you'd be better off being explicit about what you support, instead of using "implementing IEnumerable" as a check
    – Jcl
    Commented Feb 24, 2015 at 17:45
  • 4
    I don't now why this is the accepted answe. IEnumerable is not the same as IEnumerable<T> regardless of T. There can be types that only implement IEnumerable.
    – Wouter
    Commented Sep 8, 2020 at 13:04

To check if some type implements IEnumerable regardless of T one needs to check the GenericTypeDefinition.

public static bool IsIEnumerableOfT(this Type type)
    return type.GetInterfaces().Any(x => x.IsGenericType
           && x.GetGenericTypeDefinition() == typeof(IEnumerable<>));
  • 8
    Small correction: This fails in the edge case where type is itself typeof(IEnumerable<T>), which can give silent failures in certain situations: dotnetfiddle.net/vLFdHW -- the fix is easy though, just throw a .Append(type) right before that .Any so that the type itself is also checked: dotnetfiddle.net/5wj1KE
    – Jason C
    Commented Jun 14, 2021 at 14:50
  • but... Why use IsIEnumerableOfT if you already know compile time that it is true?
    – Wouter
    Commented Jun 28, 2022 at 6:37
  • 2
    You'd use it if you didn't know at compile time that it was true, e.g. an instance of some arbitrary Type.
    – Jason C
    Commented Jun 28, 2022 at 11:19

In addition to Type.IsAssignableFrom(Type), you can also use Type.GetInterfaces():

public static bool ImplementsInterface(this Type type, Type interfaceType)
    // Deal with the edge case
    if ( type == interfaceType)
        return true;

    bool implemented = type.GetInterfaces().Contains(interfaceType);
    return implemented;

That way, if you wanted to check multiple interfaces you could easily modify ImplementsInterface to take multiple interfaces.


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