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

up vote 567 down vote accepted

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.

  • 4
    Lol - yes, very true; I assumed that the OP only had object, IList, or similar - but this could very well be the right answer. – Marc Gravell Feb 17 '09 at 15:32
  • 22
    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

(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];
  • 1
    Type type = abc.GetType().GetGenericArguments()[0]; ==> Out of bounds array index... – Patrick Desjardins Feb 17 '09 at 15:31
  • 24
    @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
    Anything that is generic with one type argument should work. – Marc Gravell Feb 17 '09 at 15:36
  • 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

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);
}

Usage:

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
  • 6
    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
  • 'return default(T);' – fantastory Jun 3 '15 at 14:42
  • 1
    @recursive: It's useful if you're working with a list of an anonymous type. – JJJ Jun 17 '16 at 12:15
  • I did the exact same thing before I read your answer but I had called mine ItemType – toddmo Aug 28 '16 at 17:18

Try

list.GetType().GetGenericArguments()
  • This is not working.... GetGenericArguments return System.Type[0] – Patrick Desjardins Feb 17 '09 at 15:32
  • 6
    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 at 16:37

That's work for me. Where myList is some unknowed 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

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

You can use this one for rerun type of generic list.

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)
{}

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]

Example:

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<>))
        .ToArray();
    // 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).

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;
}

You use it like this:

[TestMethod]
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.

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);
}
  • 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:

propInfo.PropertyType.UnderlyingSystemType.GenericTypeArguments[0]

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());

OR

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

Type:

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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