124

is there a way to retrieve type T from IEnumerable<T> through reflection?

e.g.

i have a variable IEnumerable<Child> info; i want to retrieve Child's type through reflection

1
  • 1
    In what context? What's this IEnumerable<T>? Is it an object instance sent as an argument? Or what? May 25, 2009 at 12:25

13 Answers 13

170
IEnumerable<T> myEnumerable;
Type type = myEnumerable.GetType().GetGenericArguments()[0]; 

Thusly,

IEnumerable<string> strings = new List<string>();
Console.WriteLine(strings.GetType().GetGenericArguments()[0]);

prints System.String.

See MSDN for Type.GetGenericArguments.

Edit: I believe this will address the concerns in the comments:

// returns an enumeration of T where o : IEnumerable<T>
public IEnumerable<Type> GetGenericIEnumerables(object o) {
    return o.GetType()
            .GetInterfaces()
            .Where(t => t.IsGenericType
                && t.GetGenericTypeDefinition() == typeof(IEnumerable<>))
            .Select(t => t.GetGenericArguments()[0]);
}

Some objects implement more than one generic IEnumerable so it is necessary to return an enumeration of them.

Edit: Although, I have to say, it's a terrible idea for a class to implement IEnumerable<T> for more than one T.

7
  • 1
    Or try with class MyClass : IEnumerable<int> {}. This class doesn't have a generic interface. May 25, 2009 at 12:46
  • 1
    Why would anyone ever resort to getting the generic arguments and then grabbing the type from its indexer? That's just asking for disaster, especially when the language supports typeof(T) like @amsprich suggests in his/her answer, which can also be used with either a generic or a known type... Dec 12, 2013 at 22:25
  • 1
    This fails miserably when used with linq queries - the first generic argument of a WhereSelectEnumerableIterator is not. You're getting the generic argument of the underlying object, not the interface itself.
    – Pxtl
    Oct 31, 2014 at 15:24
  • 2
    This fails when your using an array, which does cast to IEnumerable
    – Jono
    Jan 13, 2021 at 3:10
  • 1
    For arrays, you can you GetType().GetElementType()
    – Jono
    Jan 13, 2021 at 3:14
42

I'd just make an extension method. This worked with everything I threw at it.

public static Type GetItemType<T>(this IEnumerable<T> enumerable)
{
    return typeof(T);
}
1
  • 11
    It won't work if your compile time reference is just of type object. Nov 22, 2017 at 13:54
36

I had a similar problem. The selected answer works for actual instances. In my case I had only a type (from a PropertyInfo).

The selected answer fails when the type itself is typeof(IEnumerable<T>) not an implementation of IEnumerable<T>.

For this case the following works:

public static Type GetAnyElementType(Type type)
{
   // Type is Array
   // short-circuit if you expect lots of arrays 
   if (type.IsArray)
      return type.GetElementType();

   // type is IEnumerable<T>;
   if (type.IsGenericType && type.GetGenericTypeDefinition() == typeof (IEnumerable<>))
      return type.GetGenericArguments()[0];

   // type implements/extends IEnumerable<T>;
   var enumType = type.GetInterfaces()
                           .Where(t => t.IsGenericType && 
                                  t.GetGenericTypeDefinition() == typeof(IEnumerable<>))
                           .Select(t => t.GenericTypeArguments[0]).FirstOrDefault();
   return enumType ?? type;
}
2
  • Saved my day. For my case, I added a separate if statement to handle strings since it implements IEnumerable<char> Aug 16, 2018 at 9:23
  • Type.GenericTypeArguments - only for dotNet FrameWork version >= 4.5. Otherwise - use Type.GetGenericArguments instead. Sep 20, 2018 at 15:26
21

If you know the IEnumerable<T> (via generics), then just typeof(T) should work. Otherwise (for object, or the non-generic IEnumerable), check the interfaces implemented:

        object obj = new string[] { "abc", "def" };
        Type type = null;
        foreach (Type iType in obj.GetType().GetInterfaces())
        {
            if (iType.IsGenericType && iType.GetGenericTypeDefinition()
                == typeof(IEnumerable<>))
            {
                type = iType.GetGenericArguments()[0];
                break;
            }
        }
        if (type != null) Console.WriteLine(type);
3
  • 3
    Some objects implement more than one generic IEnumerable.
    – jason
    May 25, 2009 at 13:01
  • 5
    @Jason - and in those cases, the question of "find the T" is already a dubious question; I can't do anything about that... May 26, 2009 at 4:20
  • One small gotcha for anyone trying to use this with a Type type parameter rather than an object obj parameter: you can't just replace obj.GetType() with type because if you pass in typeof(IEnumerable<T>) you get nothing. To get round this, test the type itself to see if it is a generic of IEnumerable<> and then its interfaces.
    – Ian Mercer
    Mar 14, 2015 at 19:19
11

Thank you very much for the discussion. I used it as a basis for the solution below, which works well for all cases that are of interest to me (IEnumerable, derived classes, etc). Thought I should share here in case anyone needs it also:

  Type GetItemType(object someCollection)
  {
    var type = someCollection.GetType();
    var ienum = type.GetInterface(typeof(IEnumerable<>).Name);
    return ienum != null
      ? ienum.GetGenericArguments()[0]
      : null;
  }
1
  • 1
    Here's a one-liner that does all this using the null conditional operator: someCollection.GetType().GetInterface(typeof(IEnumerable<>).Name)?.GetGenericArguments()?.FirstOrDefault() Feb 15, 2019 at 2:19
4

I know this is a bit old, but I believe this method will cover all the problems and challenges stated in the comments. Credit to Eli Algranti for inspiring my work.

/// <summary>Finds the type of the element of a type. Returns null if this type does not enumerate.</summary>
/// <param name="type">The type to check.</param>
/// <returns>The element type, if found; otherwise, <see langword="null"/>.</returns>
public static Type FindElementType(this Type type)
{
   if (type.IsArray)
      return type.GetElementType();

   // type is IEnumerable<T>;
   if (ImplIEnumT(type))
      return type.GetGenericArguments().First();

   // type implements/extends IEnumerable<T>;
   var enumType = type.GetInterfaces().Where(ImplIEnumT).Select(t => t.GetGenericArguments().First()).FirstOrDefault();
   if (enumType != null)
      return enumType;

   // type is IEnumerable
   if (IsIEnum(type) || type.GetInterfaces().Any(IsIEnum))
      return typeof(object);

   return null;

   bool IsIEnum(Type t) => t == typeof(System.Collections.IEnumerable);
   bool ImplIEnumT(Type t) => t.IsGenericType && t.GetGenericTypeDefinition() == typeof(IEnumerable<>);
}
3
public static Type GetInnerGenericType(this Type type)
{
  // Attempt to get the inner generic type
  Type innerType = type.GetGenericArguments().FirstOrDefault();

  // Recursively call this function until no inner type is found
  return innerType is null ? type : innerType.GetInnerGenericType();
}

This is a recursive function that will go depth first down the list of generic types until it gets a concrete type definition with no inner generic types.

I tested this method with this type: ICollection<IEnumerable<ICollection<ICollection<IEnumerable<IList<ICollection<IEnumerable<T>>>>>>>>

which should return T

2

Just use typeof(T)

EDIT: Or use .GetType().GetGenericParameter() on an instantiated object if you don't have T.

1
  • True, in which case you can use .GetType(). I'll modify my answer.
    – rein
    May 25, 2009 at 12:32
2

An alternative for simpler situations where it's either going to be an IEnumerable<T> or T - note use of GenericTypeArguments instead of GetGenericArguments().

Type inputType = o.GetType();
Type genericType;
if ((inputType.Name.StartsWith("IEnumerable"))
    && ((genericType = inputType.GenericTypeArguments.FirstOrDefault()) != null)) {

    return genericType;
} else {
    return inputType;
}
1

This is an improvement on Eli Algranti's solution in that it will also work where the IEnumerable<> type is at any level in the inheritance tree.

This solution will obtain the element type from any Type. If the type is not an IEnumerable<>, it will return the type passed in. For objects, use GetType. For types, use typeof, then call this extension method on the result.

public static Type GetGenericElementType(this Type type)
{
    // Short-circuit for Array types
    if (typeof(Array).IsAssignableFrom(type))
    {
        return type.GetElementType();
    }

    while (true)
    {
        // Type is IEnumerable<T>
        if (type.IsGenericType && type.GetGenericTypeDefinition() == typeof(IEnumerable<>))
        {
            return type.GetGenericArguments().First();
        }

        // Type implements/extends IEnumerable<T>
        Type elementType = (from subType in type.GetInterfaces()
            let retType = subType.GetGenericElementType()
            where retType != subType
            select retType).FirstOrDefault();

        if (elementType != null)
        {
            return elementType;
        }

        if (type.BaseType == null)
        {
            return type;
        }

        type = type.BaseType;
    }
}
0

typeof(IEnumerable<Foo>).GetGenericArguments()[0] will return the first generic argument - in this case typeof(Foo).

0

this is how I usually do it (via extension method):

public static Type GetIEnumerableUnderlyingType<T>(this T iEnumerable)
    {
        return typeof(T).GetTypeInfo().GetGenericArguments()[(typeof(T)).GetTypeInfo().GetGenericArguments().Length - 1];
    }
-1

Here's my unreadable Linq query expression version ..

public static Type GetEnumerableType(this Type t) {
    return !typeof(IEnumerable).IsAssignableFrom(t) ? null : (
    from it in (new[] { t }).Concat(t.GetInterfaces())
    where it.IsGenericType
    where typeof(IEnumerable<>)==it.GetGenericTypeDefinition()
    from x in it.GetGenericArguments() // x represents the unknown
    let b = it.IsConstructedGenericType // b stand for boolean
    select b ? x : x.BaseType).FirstOrDefault()??typeof(object);
}

Note the method also takes non-generic IEnumerable into account, it returns object in this case, because it takes a Type rather than a concrete instance as the argument. By the way, for x represents the unknown, I found this video insteresting, though it is irrelevant ..

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.