106

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
  • 4
    this appears to work...if(typeof(TestClass).IsAssignableFrom(typeof(T))), could someone confirm my suspicions? thanks! May 23, 2012 at 10:51
  • I'm absolutly sure that this answer is duplicated many times!
    – Felix K.
    May 23, 2012 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, 2013 at 19:16

8 Answers 8

156

There is a Method called Type.IsAssignableFrom().

To check if T inherits/implements Employee:

typeof(Employee).IsAssignableFrom(typeof(T));

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

typeof(Employee).GetTypeInfo().IsAssignableFrom(typeof(T).Ge‌​tTypeInfo())

Note that if you want to constrain your type T to implement some interface or inherit from some class, you should go for @snajahi's answer, which uses compile-time checks for that and genereally resembles a better approach to this problem.

9
  • you should update your answer with an example, e.g. typeof(T).IsAssignableFrom(typeof(IMyInterface)) May 23, 2012 at 10:52
  • Not done nikeee; the old answer is still there. :) I took a couple of secondes to figure out what's wrong. In anyways, +1, nice feature again of the .net framework.
    – Samuel
    Oct 3, 2013 at 19:05
  • In fact, the way you mention is the way I had it some time ago. I corrected this one. See previous comments. T inherits U actually translates to typeof(T).IsAssignableFrom(typeof(U)).
    – nikeee
    Jun 17, 2014 at 20:43
  • 3
    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. Oct 27, 2016 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, 2016 at 23:33
38

You can use constraints on the class.

MyClass<T> where T : Employee

Take a look at http://msdn.microsoft.com/en-us/library/d5x73970.aspx

19

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.

13

The correct syntax is

typeof(Employee).IsAssignableFrom(typeof(T))

Documentation

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.

source

Explanation

If Employee IsAssignableFrom T then T inherits from Employee.

The usage

typeof(T).IsAssignableFrom(typeof(Employee)) 

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:

typeof(Employee).IsAssignableFrom(typeof(T))
11

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

when

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()
{
    // http://stackoverflow.com/questions/10718364/check-if-t-inherits-or-implements-a-class-interface

    var b1 = new BaseClass1();

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

    Util.HorizontalRun(
        "baseclass->baseclass,child1->baseclass,baseclass->child1,child2->baseclass,baseclass->child2,nobase->baseclass,baseclass->nobase",
        b1.IsAssignableFrom(typeof(BaseClass1)),
        c1.IsAssignableFrom(typeof(BaseClass1)),
        b1.IsAssignableFrom(typeof(ChildClass1)),
        c2.IsAssignableFrom(typeof(BaseClass1)),
        b1.IsAssignableFrom(typeof(ChildClass2)),
        nb.IsAssignableFrom(typeof(BaseClass1)),
        b1.IsAssignableFrom(typeof(nobase))
        ).Dump("Results");

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

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

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

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

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

    results.Dump();
}

// 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;
}

Results

baseclass->baseclass

True

child1->baseclass

False

baseclass->child1

True

child2->baseclass

False

baseclass->child2

True

nobase->baseclass

False

baseclass->nobase

False

and

  • FAIL: c1 = b1
  • b1 = c1
  • FAIL: c2 = b1
  • b1 = c2
2

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

1
  • This is the intended syntax. +1 Jul 29, 2014 at 14:54
0

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.

1
  • That works unless SomeClass is not directly derived from BaseClass.
    – Suncat2000
    Apr 25, 2019 at 21:21
0

Alternate ways to tell if an object o inherits a class or implements an interface is to use the is and as operators.

If you want to only know if an object inherits a class or implements an interface, the is operator will return a boolean result:

bool isCompatibleType = (o is BaseType || o is IInterface);

If you want to use the inherited class or implemented interface after your test, the as operator will perform a safe cast, returning a reference to the inherited class or the implemented interface if compatible or null if not compatible:

BaseType b = o as BaseType; // Null if d does not inherit from BaseType.

IInterface i = o as IInterface; // Null if d does not implement IInterface.

If you have only the type T, then use @nikeee's answer.

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