712

Does reflection in C# offer a way to determine if some given System.Type type models some interface?

public interface IMyInterface {}

public class MyType : IMyInterface {}

// should yield 'true'
typeof(MyType)./* ????? */MODELS_INTERFACE(IMyInterface);
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16 Answers 16

Reset to default
1232

You have a few choices:

  1. typeof(IMyInterface).IsAssignableFrom(typeof(MyType))
  2. typeof(MyType).GetInterfaces().Contains(typeof(IMyInterface))
  3. With C# 6 you can use typeof(MyType).GetInterface(nameof(IMyInterface)) != null

For a generic interface, it’s a bit different.

Array.Exists(typeof(MyType).GetInterfaces(), i => i.IsGenericType && i.GetGenericTypeDefinition() == typeof(IMyInterface<>))
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13
  • 84
    Remember that typeof(IMyInterface).IsAssignableFrom(typeof(IMyInterface)) is also true, which may have an unexpected result on your code.
    – Chris Kemp
    Aug 23, 2012 at 12:40
  • 34
    It sure was easy to not pay attention and get the arguments for IsAssignableFrom backwards. I will go with GetInterfaces now :p
    – Benjamin
    Apr 10, 2013 at 22:21
  • 18
    The IsAssignableFrom(t1) variant is about 3x faster than the GetInterfaces().Contains(t2) counterpart in my code.
    – Pierre Arnaud
    May 15, 2013 at 4:36
  • 33
    @PierreArnaud: IsAssignableFrom does eventually calls GetInterfaces, so probably your test checked the GetInterfaces first and IsAssignable after. That is because GetInterfaces caches it's results so the first invocation costs more
    – Panos Theof
    Oct 11, 2013 at 11:23
  • 24
    A small change to @Kosta's answer. With C# 6 we can do typeof(MyType).GetInterface(nameof(IMyInterface)) != null for better type safety and refactoring.
    – aholmes
    Mar 9, 2016 at 3:57
111

Use Type.IsAssignableFrom:

typeof(IMyInterface).IsAssignableFrom(typeof(MyType));
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36 
typeof(IMyInterface).IsAssignableFrom(someclass.GetType());

or

typeof(IMyInterface).IsAssignableFrom(typeof(MyType));
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7
  • 46
    If you already have an instance of the class a much better approach is simply someclass is IMyInterface as that doesn't involve the cost of reflection at all. So, while not wrong, its not an ideal way to do it.
    – Arrya Regan
    Jul 27, 2012 at 20:17
  • 2
    @James - Agree. Even Resharper gives the same suggestion.
    – Angshuman Agarwal
    Jun 11, 2013 at 9:24
  • @JamesJ.ReganIV you should post that as an answer, I almost missed your comment
    – reggaeguitar
    Nov 3, 2014 at 21:29
  • 1
    @reggaeguitar, thanks, but the comment doesn't answer the original question. The question asks for the Reflection solution, I am just saying in this answer's first case where you do have an instance of the object reflection isn't the ideal solution.
    – Arrya Regan
    Nov 3, 2014 at 21:40
  • 1
    @JamesJ.ReganIV Actually, is checks in both directions of the inheritance hierarchy whereas IsAssignableFrom only checks upwards. Also, if you have an instance of an object, you should call IsInstanceOfType (which also only looks upwards).
    – Sellorio
    Nov 6, 2017 at 3:57
26

Use Type.IsAssignableTo (as of .NET 5.0):

typeof(MyType).IsAssignableTo(typeof(IMyInterface));

As stated in a couple of comments IsAssignableFrom may be considered confusing by being "backwards".

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1
  • This also catches base classes as well as interfaces (good for me :))
    – Slate
    Jul 23, 2022 at 18:21
15 
public static bool ImplementsInterface(this Type type, Type ifaceType) 
{
    Type[] intf = type.GetInterfaces();
    for(int i = 0; i < intf.Length; i++) 
    {
        if(intf[ i ] == ifaceType) 
        {
            return true;
        }
    }
    return false;
}

I think this is the correct release, for three reasons:

  1. It uses GetInterfaces and not IsAssignableFrom, it's faster since IsAssignableFrom eventually after several checks does call GetInterfaces.
  2. It iterates over the local array, so there will be no bounds checks.
  3. It uses the == operator which is defined for Type, so probably is safer than the Equals method (that the Contains call, will eventually use).
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3
  • 10
    +1 for content, I hate the spaces around the parens and the Egyptian braces though. Also the whole method can be written as: return type.GetInterfaces().Any(t => t == ifaceType);
    – reggaeguitar
    Nov 3, 2014 at 19:49
  • 1
    Type.IsAssignableFrom() internaly acts exactly like your code
    – gdbdable
    Dec 15, 2014 at 13:27
  • 1
    Also why not type.GetInterfaces().Contains(ifaceType) which doesnt use LINQ.
    – user3638471
    Oct 30, 2016 at 2:48
12

If you have a type or an instance you can easily check if they support a specific interface.

To test if an object implements a certain interface:

if(myObject is IMyInterface) {
  // object myObject implements IMyInterface
}

To test if a type implements a certain interface:

if(typeof(IMyInterface).IsAssignableFrom(typeof(MyType))) {
  // type MyType implements IMyInterface
}

If you got a generic object and want to do a cast as well as a check if the interface you cast to is implemented the code is:

 var myCastedObject = myObject as IMyInterface;

    if(myCastedObject != null) {
      // object myObject implements IMyInterface
    }
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1
  • The last example could be shortened into if (myObject is IMyInterface myCastedObject) { ... }
    – dimitar.bogdanov
    Jun 30 at 0:54
10

I just did:

public static bool Implements<I>(this Type source) where I : class
{
  return typeof(I).IsAssignableFrom(source);
}

I wish I could have said where I : interface, but interface is not a generic parameter constraint option. class is as close as it gets.

Usage:

if(MyType.Implements<IInitializable>())
  MyCollection.Initialize();

I just said Implements because that's more intuitive. I always get IsAssignableFrom flip-flopped.

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1
  • You could do return typeof(I).IsInterface && typeof(I).IsAssignableFrom(source); to return false on any 'incorrect' usages of the method, that is; using it with a class type instead of an interface type, alternatively throw an exception if the type-parameter is not an interface. Though you could argue that a derived class 'implements' it's parent...
    – Sindri Jóelsson
    Oct 17, 2018 at 15:36
8

As someone else already mentioned: Benjamin Apr 10 '13 at 22:21"

It sure was easy to not pay attention and get the arguments for IsAssignableFrom backwards. I will go with GetInterfaces now :p –

Well, another way around is just to create a short extension method that fulfills, to some extent, the "most usual" way of thinking (and agreed this is a very little personal choice to make it slightly "more natural" based on one's preferences):

public static class TypeExtensions
{
    public static bool IsAssignableTo(this Type type, Type assignableType)
    {
        return assignableType.IsAssignableFrom(type);
    }
}

And why not going a bit more generic (well not sure if it is really that interesting, well I assume I'm just passing another pinch of 'syntaxing' sugar):

public static class TypeExtensions
{
    public static bool IsAssignableTo(this Type type, Type assignableType)
    {
        return assignableType.IsAssignableFrom(type);
    }

    public static bool IsAssignableTo<TAssignable>(this Type type)
    {
        return IsAssignableTo(type, typeof(TAssignable));
    }
}

I think it might be much more natural that way, but once again just a matter of very personal opinions:

var isTrue = michelleType.IsAssignableTo<IMaBelle>();
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3
  • 4
    Is there a reason you didn't just put the implementation directly in the extension method? I mean sure this lets you call it both ways, but why would you ever need to do that?
    – Mark A. Donohoe
    Jan 24, 2017 at 16:53
  • @MarqueIV sorry to get back to you almost 2 years late, well I guess it was an old bad habit back then to wrap helper method in extension method to avoid repeating code, will edit my answer :)
    – Natalie Perret
    Dec 22, 2018 at 23:31
  • 1
    @MarqueIV done plus changed my other bad habit of not using alias , i.e. Boolean => bool (I don't why I used to have some strict "fancy" rules of coding when I was younger).
    – Natalie Perret
    Dec 22, 2018 at 23:57
7

Modifying Jeff's answer for optimal performance (thanks to performance test by Pierre Arnaud):

var type = typeof(MyType);
var implementsInterface = typeof(IMyInterface).IsAssignableFrom(type) && type.IsClass;

To find all types that implement an interface in a given Assembly:

var implementations = typeof(TypeInTargetAssembly).Assembly.GetTypes()
                          .Where(t => typeof(IMyInterface).IsAssignableFrom(t) && t.IsClass);
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6

Note that if you have a generic interface IMyInterface<T> then this will always return false:

  typeof(IMyInterface<>).IsAssignableFrom(typeof(MyType)) /* ALWAYS FALSE */

This doesn't work either:

  typeof(MyType).GetInterfaces().Contains(typeof(IMyInterface<>))  /* ALWAYS FALSE */

However, if MyType implements IMyInterface<MyType> this works and returns true:

  typeof(IMyInterface<MyType>).IsAssignableFrom(typeof(MyType))

However, you likely will not know the type parameter T at runtime. A somewhat hacky solution is:

  typeof(MyType).GetInterfaces()
                .Any(x=>x.Name == typeof(IMyInterface<>).Name)

Jeff's solution is a bit less hacky:

  typeof(MyType).GetInterfaces()
         .Any(i => i.IsGenericType 
             && i.GetGenericTypeDefinition() == typeof(IMyInterface<>));

Here's a extension method on Type that works for any case:

public static class TypeExtensions
{
    public static bool IsImplementing(this Type type, Type someInterface)
    {
        return type.GetInterfaces()
             .Any(i => i == someInterface 
                 || i.IsGenericType 
                    && i.GetGenericTypeDefinition() == someInterface);
    }
}

(Note that the above uses linq, which is probably slower than a loop.)

You can then do:

   typeof(MyType).IsImplementing(IMyInterface<>)
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6

Anyone searching for this might find the following extension method useful:

public static class TypeExtensions
{
    public static bool ImplementsInterface(this Type type, Type @interface)
    {
        if (type == null)
        {
            throw new ArgumentNullException(nameof(type));
        }

        if (@interface == null)
        {
            throw new ArgumentNullException(nameof(@interface));
        }

        var interfaces = type.GetInterfaces();
        if (@interface.IsGenericTypeDefinition)
        {
            foreach (var item in interfaces)
            {
                if (item.IsConstructedGenericType && item.GetGenericTypeDefinition() == @interface)
                {
                    return true;
                }
            }
        }
        else
        {
            foreach (var item in interfaces)
            {
                if (item == @interface)
                {
                    return true;
                }
            }
        }

        return false;
    }
}

xunit tests:

public class TypeExtensionTests
{
    [Theory]
    [InlineData(typeof(string), typeof(IList<int>), false)]
    [InlineData(typeof(List<>), typeof(IList<int>), false)]
    [InlineData(typeof(List<>), typeof(IList<>), true)]
    [InlineData(typeof(List<int>), typeof(IList<>), true)]
    [InlineData(typeof(List<int>), typeof(IList<int>), true)]
    [InlineData(typeof(List<int>), typeof(IList<string>), false)]
    public void ValidateTypeImplementsInterface(Type type, Type @interface, bool expect)
    {
        var output = type.ImplementsInterface(@interface);
        Assert.Equal(expect, output);
    }
}
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2

IsAssignableFrom is now moved to TypeInfo:

typeof(ISMSRequest).GetTypeInfo().IsAssignableFrom(typeof(T).GetTypeInfo());
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1

A correct answer is

typeof(MyType).GetInterface(nameof(IMyInterface)) != null;

However, 

typeof(MyType).IsAssignableFrom(typeof(IMyInterface));

might return a wrong result, as the following code shows with string and IConvertible:

    static void TestIConvertible()
    {
        string test = "test";
        Type stringType = typeof(string); // or test.GetType();

        bool isConvertibleDirect = test is IConvertible;
        bool isConvertibleTypeAssignable = stringType.IsAssignableFrom(typeof(IConvertible));
        bool isConvertibleHasInterface = stringType.GetInterface(nameof(IConvertible)) != null;

        Console.WriteLine($"isConvertibleDirect: {isConvertibleDirect}");
        Console.WriteLine($"isConvertibleTypeAssignable: {isConvertibleTypeAssignable}");
        Console.WriteLine($"isConvertibleHasInterface: {isConvertibleHasInterface}");
    }

Results: 

 isConvertibleDirect: True
 isConvertibleTypeAssignable: False
 isConvertibleHasInterface: True
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1
  • 5
    As you can see in accepted answer, you interchanged the types in usage of IsAssignableFrom. Just like Benjamin and Ehouarn warn about.
    – VV5198722
    Jan 5, 2018 at 16:37
0

what about 

if(MyType as IMyInterface != null)

?

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1
  • 7
    This is obvious when I have an instance. Not useful when I have a Type from reflection
    – edc65
    Mar 2, 2016 at 15:57
0

What about 

typeof(IWhatever).GetTypeInfo().IsInterface
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-1

If you don't need to use reflection and you have an object, you can use this:

if(myObject is IMyInterface )
{
 // it's implementing IMyInterface
}
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1
  • 1
    Your solution will only work for existing objects. It is not applicable for types. Moreover, if you have a created object, you can get its type and perform the necessary checks.
    – Maxim
    Sep 22, 2021 at 7:38

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