Is there a way to test if T inherits/implements a class/interface?

private void MyGenericClass<T> ()
    if(T ... inherits or implements some class/interface
  • 3
    this appears to work...if(typeof(TestClass).IsAssignableFrom(typeof(T))), could someone confirm my suspicions? thanks! – user1229895 May 23 '12 at 10:51
  • 2
    Yes, that will work. – Oliver May 23 '12 at 10:58
  • I'm absolutly sure that this answer is duplicated many times! – Felix K. May 23 '12 at 11:07
  • 3
    Felix K Even if this answer has been duplicated many times, it also helps a lot of guys many time ;) ... like me five minutes ago :) – Samuel Oct 3 '13 at 19:16
up vote 93 down vote accepted

There is a Method called Type.IsAssignableFrom().

To check if T inherits/implements Employee:


If you are targeting .NET Core, the method has moved to TypeInfo:

  • you should update your answer with an example, e.g. typeof(T).IsAssignableFrom(typeof(IMyInterface)) – Dr. ABT May 23 '12 at 10:52
  • Oh, my fault. Done. – nikeee May 23 '12 at 10:53
  • 2
    Syntax is incorrect, see answer below. – Chalky Jun 17 '14 at 20:29
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    While this almost works, there is an issue where if T is constrained to some other type TOther, then when executed, typeof(T) will actually evaluate to typeof(TOther) and not whatever type T you had actually passed, and in that case, typeof(SomeInterface).IsAssignableFrom(typeof(T)) will fail (assuming TOther does not also implement SomeInterface), even though your concrete type did implement SomeInterface. – Dave Cousineau Oct 27 '16 at 19:28
  • 1
    In .net core IsAssignableFrom of TypeInfo class only accepts TypeInfo as it's only argument, so the sample should be the following: typeof(Employee).GetTypeInfo().IsAssignableFrom(typeof(T).GetTypeInfo()) – To Ka Dec 3 '16 at 23:33

You can use constraints on the class.

MyClass<T> where T : Employee

Take a look at

If you want to check during compilation: Error if if T does NOT implement the desired interface/class, you can use the following constraint

public void MyRestrictedMethod<T>() where T : MyInterface1, MyInterface2, MySuperClass
    //Code of my method here, clean without any check for type constraints.

I hope that helps.

The correct syntax is



Return Value: true if c and the current Type represent the same type, or if the current Type is in the inheritance hierarchy of c, or if the current Type is an interface that c implements, or if c is a generic type parameter and the current Type represents one of the constraints of c, or if c represents a value type and the current Type represents Nullable<c> (Nullable(Of c) in Visual Basic). false if none of these conditions are true, or if c is null.



If Employee IsAssignableFrom T then T inherits from Employee.

The usage


returns true only when either

  1. T and Employee represent the same type; or,
  2. Employee inherits from T.

This may be intended usage in some case, but for the original question (and the more common usage), to determine when T inherits or implements some class/interface, use:


What everyone really means is:

typeof(BaseType).IsAssignableFrom(typeof(DerivedType)) // => true

because you can literally assign from an instance of a DerivedType to an instance of a BaseType:

DerivedType childInstance = new DerivedType();
BaseType parentInstance = childInstance; // okay, assigning base from derived
childInstance = (DerivedType) parentInstance; // not okay, assigning derived from base


public class BaseType {}
public class DerivedType : BaseType {}

And some concrete examples if you're having trouble wrapping your head around it:

(via LinqPad, hence the HorizontalRun and Dump)

void Main()

    var b1 = new BaseClass1();

    var c1 = new ChildClass1();
    var c2 = new ChildClass2();
    var nb = new nobase();


    var results = new List<string>();
    string test;

    test = "c1 = b1";
    try {
        c1 = (ChildClass1) b1;
    } catch { results.Add("FAIL: " + test); }

    test = "b1 = c1";
    try {
        b1 = c1;
    } catch { results.Add("FAIL: " + test); }

    test = "c2 = b1";
    try {
        c2 = (ChildClass2) b1;
    } catch { results.Add("FAIL: " + test); }

    test = "b1 = c2";
    try {
        b1 = c2;
    } catch { results.Add("FAIL: " + test); }


// Define other methods and classes here
public static class exts {
    public static bool IsAssignableFrom<T>(this T entity, Type baseType) {
        return typeof(T).IsAssignableFrom(baseType);

class BaseClass1 {
    public int id;

class ChildClass1 : BaseClass1 {
    public string name;

class ChildClass2 : ChildClass1 {
    public string descr;

class nobase {
    public int id;
    public string name;
    public string descr;

















  • FAIL: c1 = b1
  • b1 = c1
  • FAIL: c2 = b1
  • b1 = c2

I believe syntax is: typeof(Employee).IsAssignableFrom(typeof(T));

  • This is the intended syntax. +1 – Luke M Willis Jul 29 '14 at 14:54

Although IsAssignableFrom is the best way as others have stated, if you only need to check if a class inherits from another, typeof(T).BaseType == typeof(SomeClass) does the job too.

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