Please, help me to explain the following behavior:

dynamic d = 1;
ISet<dynamic> s = new HashSet<dynamic>();

The code compiles with no errors/warnings, but at the last line I get the following exception:

Unhandled Exception: Microsoft.CSharp.RuntimeBinder.RuntimeBinderException: 'System.Collections.Generic.ISet<object>' does not contain a definition for 'Contains'
   at CallSite.Target(Closure , CallSite , ISet`1 , Object )
   at System.Dynamic.UpdateDelegates.UpdateAndExecuteVoid2[T0,T1](CallSite site, T0 arg0, T1 arg1)
   at FormulaToSimulation.Program.Main(String[] args) in 

As far as I can tell, this is related to dynamic overload resolution, but the strange things are

(1) If the type of s is HashSet<dynamic>, no exception occurs.

(2) If I use a non-generic interface with a method accepting a dynamic argument, no exception occurs.

Thus, it looks like this problem is related particularly with generic interfaces, but I could not find out what exactly causes the problem.

Is it a bug in the compiler/typesystem, or legitimate behavior?

  • For clarity: I use Visual Studio 2010, .NET 4.0 Sep 12, 2010 at 18:40
  • 9
    Where is Eric Lippert when you need him?
    – Oded
    Sep 12, 2010 at 19:06
  • 7
    @Oded: to answer your question: I was at a birthday party for a six-year old friend of mine at the time. Sep 13, 2010 at 0:16

5 Answers 5


The answers you have received so far do not explain the behaviour you are seeing. The DLR should find the method ICollection<object>.Contains(object) and call it with the boxed integer as a parameter, even if the static type of the variable is ISet<dynamic> instead of ICollection<dynamic> (because the former derives from the latter).

Therefore, I believe this is a bug and I have reported it to Microsoft Connect. If it turns out that the behaviour is somehow desirable, they will post a comment to that effect there.

  • It's good I could convince you that it's a bug. :) Do you know what is the motivation behind this crazy decision to implement run-time overload resolution for dynamics? Sep 12, 2010 at 20:00
  • @Andrey: That decision probably derives from the fact that there is no way to resolve something at compile-time if the information necessary to do so (the argument types) is not available at compile-time.
    – Timwi
    Sep 12, 2010 at 20:11
  • @Andrey: To make this clearer, imagine you have a method void Blah(string s);. Now suppose you write this: dynamic d = 1; Blah(d);. Should this simply fail to compile, or should it decide at runtime whether to throw or not? Of course you’d want it to succeed when d contains a string, so it has to resolve at runtime.
    – Timwi
    Sep 12, 2010 at 20:16
  • @Timwi: No, of course I would want it to fail to compile, because MSDN clearly states that dynamic is a type. C# is a staically-typed language and dynamic does not coerse to anything. Additionally, I don't want my collectios to work with any overhead when putting dynamics into them. And I want my extension methods to be available on such collections. Sep 12, 2010 at 21:46
  • 1
    Your analysis seems plausible, though I am not at my desk at the moment so I cannot actually check it. Julien gives a reasonable explanation for this behaviour; however, I agree that it seems like a bug. The larger design principle here is that the dynamic call should do exactly what the C# compiler would have done had the compile-time type of the argument been correctly stated as the run-time type. Since clearly it would have succeeded with an int as the argument, and generated a call to the appropriate method, it's a bug that it throws. Thanks for reporting it via Connect! Sep 13, 2010 at 0:31

Why it compiles: the entire expression is evaluated as dynamic (hover your mouse over it inside your IDE to confirm), which means that it is a runtime check.

Why it bombs: My (completely wrong, see below) guess is that it is because you cannot implement a dynamic interface in such a manner. For example, the compiler does not allow you to create a class that implements ISet<dynamic>, IEnumerable<dynamic>, IList<dynamic>, etc. You get a compile-time error stating "cannot implement a dynamic interface". See Chris Burrows' blog post on this subject.


However, since it's hitting the DLR anyway, you can make s completely dynamic.

dynamic s = new HashSet<dynamic>;

Compiles and runs.

Edit: the second part of this answer is completely wrong. Well, it is correct in that you can't implement such an interface as ISet<dynamic>, but that's not why this blows up.

See Julian's answer below. You can get the following code to compile and run:

ICollection<dynamic> s = new HashSet<dynamic>();
  • The comment about the whole expression being dynamic is helpful, thanks. Sep 12, 2010 at 19:15
  • The explanation is a little bit strange: why can I declare somthing as ISet<dynamic> if this type is not legitimate? There must have been a compilation error. Sep 12, 2010 at 19:15
  • Your soultion has one significant drawback: no content-assist on Ctrl+Space. I'd better write s.Contains((object) d) -- compiles and runs. Sep 12, 2010 at 19:16
  • @Andrey: The type is perfectly legitimate. You can have a value or variable of that type. An analogy: you can have an expression of type System.ValueType, System.Enum, System.Delegate, but you can't use any of those as a base class. Similarly you can have an expression of type IFoo<dynamic> but you can't use it as a base interface. Sep 13, 2010 at 0:18

The Contains method is defined on ICollection<T>, not ISet<T>. The CLR doesn't allow an interface base method to be called from a derived interface. You usually doesn't see this with static resolution because the C# compiler is smart enough to emit a call to ICollection<T>.Contains, not the non-existing ISet<T>.Contains.

Edit: The DLR mimics the CLR behavior, that's why you get the exception. Your dynamic call is done on an ISet<T>, not an HashSet<T> the DLR will mimics the CLR: for an interface, only interfaces methods are searched for, not base interfaces (contrary to classes where this behavior is present).

For an in-depth explanation, see a previous response of mine to a similar question:

Strange behaviour when using dynamic types as method parameters

  • 1
    There is no call to ISet<T>.Contains in the emitted IL. The emitted IL is a dynamic invocation involving CallSiteBinder etc.
    – Timwi
    Sep 12, 2010 at 19:36
  • OK, this sounds reasonable, but a rethorical quesion here is "What the hell?". DLR should not be aware of any static typing information in the first place, and the run-time object does have the Contains method, so what is the logic behind this behavior? Sep 12, 2010 at 19:41
  • Of course, I was just using analogy between the CLR and the DLR. Edited my answer to try to make that more clear. See my other answer which is much well explained. Sep 12, 2010 at 19:42
  • I doubt if one can say that a "dynamic call is done" on something rather than an actual run-time type of the object, which is HashSet. DLR is not supposed to know anything about the static type, is it? Sep 12, 2010 at 19:50
  • @Andrey the local representing s is of the type ISet<dynamic> not HashSet<dynamic> which is the type of the object assigned to s.
    – Rune FS
    Sep 12, 2010 at 20:34

Note that the type dynamic doesn’t actually exist at run-time. Variables of that type are actually compiled into variables of type object, but the compiler turns all the method calls (and properties and everything) that involve such an object (either as the this object or as a parameter) into a call that is resolved dynamically at runtime (using System.Runtime.CompilerServices.CallSiteBinder and related magic).

So what happens in your case is that the compiler:

  • turns ISet<dynamic> into ISet<object>;

  • turns HashSet<dynamic> into HashSet<object>, which becomes the actual run-time type of the instance you’re storing in s.

Now if you try to invoke, say,


this actually succeeds without a dynamic invocation: it really just calls ISet<object>.Contains(object) on the boxed integer 1.

But if you try to invoke


where d is dynamic, then the compiler turns the statement into one that determines, at runtime, the correct overload of Contains to call based on the runtime type of d. Perhaps now you can see the problem:

  • The compiler emits code that definitely searches the type ISet<object>.

  • That code determines that the dynamic variable has type int at runtime and tries to find a method Contains(int).

  • ISet<object> does not contain a method Contains(int), hence the exception.

  • Does the overload resolution mechanism look for an exact signature match?! Why doesn't it matter that object is assignable from Int32? Sep 12, 2010 at 19:47
  • @Timwi, was it intentional that the entire answer's content is gone? Sep 12, 2010 at 21:36
  • 1
    @Timwi: Couldn't you just delete it instead of editing it out?
    – Mark Byers
    Sep 12, 2010 at 23:55
  • If you think your answer is incorrect, delete it by all means. But please don't leave a blank answer.
    – user1228
    Dec 28, 2010 at 3:54
  • @Will: I didn’t delete this answer at the time because doing so would have cost me 20 rep. If you want to encourage users to delete incorrect answers, fix your broken incentive system so that this kind of situation doesn’t arise.
    – Timwi
    Dec 28, 2010 at 18:27

ISet interface does not have a method 'Contains', HashSet does however?

EDIT What i meant to say was the binder resolves 'Contains' when given the HashSet concreate type, but doesnt find the inherited 'Contains' method in the interface...

  • The Contains extension method is defined on IEnumerable that ISet inherits from. It is perfectly good call in this scenario.
    – Oded
    Sep 12, 2010 at 18:57
  • 1
    msdn disagrees: msdn.microsoft.com/en-us/library/dd382213.aspx. Oded: it is in ICollection, not IEnumerable.
    – Femaref
    Sep 12, 2010 at 18:57
  • 2
    A little bit of clarity: ISet<T> inherits and instance method Contains(T) from ICollection<T> (see msdn.microsoft.com/en-us/library/dd382213.aspx, thanks, @Femaref). Important: it is an instance method. If it was an extension method, the call would not compile (C# refuses to compile extension method calls with dynamic arguments). Sep 12, 2010 at 19:09
  • @oded you're linking to an extension method (notice that the namespace says System.Linq and the class name is Enumerable and the method is static)
    – Rune FS
    Sep 13, 2010 at 17:51

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