Question

While investigating this question I got curious about how the new covariance/contravariance features in C# 4.0 will affect it.

In Beta 1, C# seems to disagree with the CLR. Back in C# 3.0, if you had:

public event EventHandler<ClickEventArgs> Click;

... and then elsewhere you had:

button.Click += new EventHandler<EventArgs>(button_Click);

... the compiler would barf because they're incompatible delegate types. But in C# 4.0, it compiles fine, because in CLR 4.0 the type parameter is now marked as in, so it is contravariant, and so the compiler assumes the multicast delegate += will work.

Here's my test:

public class ClickEventArgs : EventArgs { }

public class Button
{
    public event EventHandler<ClickEventArgs> Click;

    public void MouseDown()
    {
        Click(this, new ClickEventArgs());
    }
}

class Program
{    
    static void Main(string[] args)
    {
        Button button = new Button();

        button.Click += new EventHandler<ClickEventArgs>(button_Click);
        button.Click += new EventHandler<EventArgs>(button_Click);

        button.MouseDown();
    }

    static void button_Click(object s, EventArgs e)
    {
        Console.WriteLine("Button was clicked");
    }
}

But although it compiles, it doesn't work at runtime (ArgumentException: Delegates must be of the same type).

It's okay if you only add either one of the two delegate types. But the combination of two different types in a multicast causes the exception when the second one is added.

I guess this is a bug in the CLR in beta 1 (the compiler's behaviour looks hopefully right).

Answer 1

Very interesting. You don't need to use events to see this happening, and indeed I find it simpler to use simple delegates.

Consider Func<string> and Func<object>. In C# 4.0 you can implicitly convert a Func<string> to Func<object> because you can always use a string reference as an object reference. However, things go wrong when you try to combine them. Here's a short but complete program demonstrating the problem in two different ways:

using System;

class Program
{    
    static void Main(string[] args)
    {
        Func<string> stringFactory = () => "hello";
        Func<object> objectFactory = () => new object();

        Func<object> multi1 = stringFactory;
        multi1 += objectFactory;

        Func<object> multi2 = objectFactory;
        multi2 += stringFactory;
    }    
}

This compiles fine, but both of the Combine calls (hidden by the += syntactic sugar) throw exceptions. (Comment out the first one to see the second one.)

This is definitely a problem, although I'm not exactly sure what the solution should be. It's possible that at execution time the delegate code will need to work out the most appropriate type to use based on the delegate types involved. That's a bit nasty. It would be quite nice to have a generic Delegate.Combine call, but you couldn't really express the relevant types in a meaningful way.

One thing that's worth noting is that the covariant conversion is a reference conversion - in the above, multi1 and stringFactory refer to the same object: it's not the same as writing

Func<object> multi1 = new Func<object>(stringFactory);

(At that point, the following line will execute with no exception.) At execution time, the BCL really does have to deal with a Func<string> and a Func<object> being combined; it has no other information to go on.

It's nasty, and I seriously hope it gets fixed in some way. I'll alert Mads and Eric to this question so we can get some more informed commentary.

Answer 2

Are you getting the ArgumentException from both? If the exception is being thrown by just the new handler, then I would think that it's backward-compatible.

BTW, I think you have your comments mixed up. In C# 3.0 this:

button.Click += new EventHandler<EventArgs>(button_Click); // old

wouldn't have run. That's c#4.0