Let say I have a generic member in a class or method, so:

public class Foo<T>
    public List<T> Bar { get; set; }

    public void Baz()
        // get type of T

When I instantiate the class, the T becomes MyTypeObject1, so the class has a generic list property: List<MyTypeObject1>. The same applies to a generic method in a non-generic class:

public class Foo
    public void Bar<T>()
        var baz = new List<T>();

        // get type of T

I would like to know, what type of objects the list of my class contains. So the list property called Bar or the local variable baz, contains what type of T?

I cannot do Bar[0].GetType(), because the list might contain zero elements. How can I do it?

16 Answers 16


If I understand correctly, your list has the same type parameter as the container class itself. If this is the case, then:

Type typeParameterType = typeof(T);

If you are in the lucky situation of having object as a type parameter, see Marc's answer.

  • 44
    I love how readable typeof is. If you want to know the type of T, just use typeof(T) :) – demoncodemonkey Feb 17 '12 at 13:00
  • 2
    I actually just used typeof(Type) and it works great. – Anton Jun 26 '17 at 14:39
  • 1
    You can't use typeof() with a generic parameter, though. – Reynevan Mar 8 '19 at 17:52
  • 6
    @Reynevan Of course you can use typeof() with a generic parameter. Do you have any example where it wouldn't work? Or are you confusing type parameters and references? – Luaan Jul 26 '19 at 7:41

(note: I'm assuming that all you know is object or IList or similar, and that the list could be any type at runtime)

If you know it is a List<T>, then:

Type type = abc.GetType().GetGenericArguments()[0];

Another option is to look at the indexer:

Type type = abc.GetType().GetProperty("Item").PropertyType;

Using new TypeInfo:

using System.Reflection;
// ...
var type = abc.GetType().GetTypeInfo().GenericTypeArguments[0];
  • 2
    Type type = abc.GetType().GetGenericArguments()[0]; ==> Out of bounds array index... – Patrick Desjardins Feb 17 '09 at 15:31
  • 29
    @Daok : then it isn't a List<T> – Marc Gravell Feb 17 '09 at 15:32
  • Need something for BindingList or List or whatever object that hold a <T>. What I am doing use a custom BindingListView<T> – Patrick Desjardins Feb 17 '09 at 15:34
  • 1
    Give a try with BindingList<T>, our BindingListView<T> inherit from BindingList<T> and both I have try both of your option and it doesn't work. I might do something wrong... but I think this solution work for the type List<T> but not other type of list. – Patrick Desjardins Feb 17 '09 at 15:49
  • Type type = abc.GetType().GetProperty("Item").PropertyType; return BindingListView<MyObject> instead of MyObject... – Patrick Desjardins Feb 17 '09 at 15:57

With the following extension method you can get away without reflection:

public static Type GetListType<T>(this List<T> _)
    return typeof(T);

Or more general:

public static Type GetEnumeratedType<T>(this IEnumerable<T> _)
    return typeof(T);


List<string>        list    = new List<string> { "a", "b", "c" };
IEnumerable<string> strings = list;
IEnumerable<object> objects = list;

Type listType    = list.GetListType();           // string
Type stringsType = strings.GetEnumeratedType();  // string
Type objectsType = objects.GetEnumeratedType();  // BEWARE: object
  • 10
    This is only useful if you already know the type of T at compile time. In which case, you don't really need any code at all. – recursive Feb 12 '15 at 20:42
  • 2
    @recursive: It's useful if you're working with a list of an anonymous type. – JJJ Jun 17 '16 at 12:15


  • 7
    new List<int>().GetType().GetGenericArguments() returns System.Type[1] here with System.Int32 as entry – Rauhotz Feb 17 '09 at 15:40
  • @Rauhotz the GetGenericArguments method returns an Array object of Type, of which you need to then parse out the position of the Generic Type you need. Such as Type<TKey, TValue>: you would need to GetGenericArguments()[0] to get TKey type and GetGenericArguments()[1] to get TValue type – GoldBishop Apr 18 '18 at 16:37

That's work for me. Where myList is some unknown kind of list.

IEnumerable myEnum = myList as IEnumerable;
Type entryType = myEnum.AsQueryable().ElementType;
  • 1
    I get an error that it requires a type argument (i.e. <T>) – Joseph Humfrey May 21 '15 at 14:26
  • Joseph and others, to get rid of the error it is in System.Collections. – user2334883 Jan 16 '16 at 4:58
  • 1
    Just the second line is needed for me. A List is already an implementation of IEnumerable, so the cast doesn't seem to add anything. But thanks, it's a good solution. – pipedreambomb Nov 22 '16 at 13:44

If you dont need the whole Type variable and just want to check the type you can easily create a temp variable and use is operator.

T checkType = default(T);

if (checkType is MyClass)
  • This should be the accepted answer, certainly the most performant. – Serj Sagan Nov 5 '20 at 18:52
  • Code Like a Pro :) – Ebrahim Karimi Mar 14 at 11:07
  • @EbrahimKarimi For sure :-) – Sebi Mar 14 at 11:11

You can use this one for return type of generic list:

public string ListType<T>(T value)
    var valueType = value.GetType().GenericTypeArguments[0].FullName;
    return valueType;

Consider this: I use it to export 20 typed list by same way:

private void Generate<T>()
    T item = (T)Activator.CreateInstance(typeof(T));

    ((T)item as DemomigrItemList).Initialize();

    Type type = ((T)item as DemomigrItemList).AsEnumerable().FirstOrDefault().GetType();
    if (type == null) return;
    if (type != typeof(account)) //account is listitem in List<account>
        ((T)item as DemomigrItemList).CreateCSV(type);
  • 1
    This doesn't work if T is an abstract superclass of the actual added objects. Not to mention, just new T(); would do the same thing as (T)Activator.CreateInstance(typeof(T));. It does require that you add where T : new() to the class/function definition, but if you want to make objects, that should be done anyway. – Nyerguds Jul 11 '13 at 7:48
  • Also, you are calling GetType on a FirstOrDefault entry resulting in a potential null reference exception. If you are sure that it will return at least one item, why not use First instead? – Mathias Lykkegaard Lorenzen Mar 16 '15 at 5:56

I use this extension method to accomplish something similar:

public static string GetFriendlyTypeName(this Type t)
    var typeName = t.Name.StripStartingWith("`");
    var genericArgs = t.GetGenericArguments();
    if (genericArgs.Length > 0)
        typeName += "<";
        foreach (var genericArg in genericArgs)
            typeName += genericArg.GetFriendlyTypeName() + ", ";
        typeName = typeName.TrimEnd(',', ' ') + ">";
    return typeName;

public static string StripStartingWith(this string s, string stripAfter)
    if (s == null)
        return null;
    var indexOf = s.IndexOf(stripAfter, StringComparison.Ordinal);
    if (indexOf > -1)
        return s.Substring(0, indexOf);
    return s;

You use it like this:

public void GetFriendlyTypeName_ShouldHandleReallyComplexTypes()
    typeof(Dictionary<string, Dictionary<string, object>>).GetFriendlyTypeName()
        .ShouldEqual("Dictionary<String, Dictionary<String, Object>>");

This isn't quite what you're looking for, but it's helpful in demonstrating the techniques involved.


The GetGenericArgument() method has to be set on the Base Type of your instance (whose class is a generic class myClass<T>). Otherwise, it returns a type[0]


Myclass<T> instance = new Myclass<T>();
Type[] listTypes = typeof(instance).BaseType.GetGenericArguments();

You can get the type of "T" from any collection type that implements IEnumerable<T> with the following:

public static Type GetCollectionItemType(Type collectionType)
    var types = collectionType.GetInterfaces()
        .Where(x => x.IsGenericType 
            && x.GetGenericTypeDefinition() == typeof(IEnumerable<>))
    // Only support collections that implement IEnumerable<T> once.
    return types.Length == 1 ? types[0].GetGenericArguments()[0] : null;

Note that it doesn't support collection types that implement IEnumerable<T> twice, e.g.

public class WierdCustomType : IEnumerable<int>, IEnumerable<string> { ... }

I suppose you could return an array of types if you needed to support this...

Also, you might also want to cache the result per collection type if you're doing this a lot (e.g. in a loop).


Using 3dGrabber's solution:

public static T GetEnumeratedType<T>(this IEnumerable<T> _)
    return default(T);

//and now 

var list = new Dictionary<string, int>();
var stronglyTypedVar = list.GetEnumeratedType();
public bool IsCollection<T>(T value){
  var valueType = value.GetType();
  return valueType.IsArray() || typeof(IEnumerable<object>).IsAssignableFrom(valueType) || typeof(IEnumerable<T>).IsAssignableFrom(valuetype);
  • 1
    This appears to address the question of whether the type is a list-y sort of thing, but the question is more about how to determine what generic type parameter a type that is known to be a List already was initialized with. – Nathan Tuggy May 6 '15 at 0:38

If you want to know a property's underlying type, try this:


This is how i did it

internal static Type GetElementType(this Type type)
        //use type.GenericTypeArguments if exist 
        if (type.GenericTypeArguments.Any())
         return type.GenericTypeArguments.First();

         return type.GetRuntimeProperty("Item").PropertyType);

Then call it like this

var item = Activator.CreateInstance(iListType.GetElementType());


var item = Activator.CreateInstance(Bar.GetType().GetElementType());


type = list.AsEnumerable().SingleOrDefault().GetType();
  • 1
    This would throw a NullReferenceException if the list has no elements inside it for it to test against. – rossisdead Jul 14 '10 at 2:26
  • 1
    SingleOrDefault() also throws InvalidOperationException when there are two or more elements. – devgeezer Mar 14 '12 at 15:08
  • This answer is wrong, as pointed out correctly by \@rossisdead and \@devgeezer. – Oliver Jan 23 '13 at 9:53

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