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I have code:

public delegate int SomeDelegate(int p);

public static int Inc(int p) {
    return p + 1;
}

I can cast Inc to SomeDelegate or Func<int, int>:

SomeDelegate a = Inc;
Func<int, int> b = Inc;

but I can't cast Inc to SomeDelegate and after that cast to Func<int, int> with usual way like this:

Func<int, int> c = (Func<int, int>)a; // Сompilation error

How I can do it?

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7 Answers 7

up vote 31 down vote accepted
SomeDelegate a = Inc;
Func<int, int> b = Inc;

is short for

SomeDelegate a = new SomeDelegate(Inc); // no cast here
Func<int, int> b = new Func<int, int>(Inc);

You can't cast an instance of SomeDelegate to a Func<int, int> for the same reason you can't cast a string to a Dictionary<int, int> -- they're different types.

This works:

Func<int, int> c = x => a(x);

which is syntactic sugar for

class MyLambda
{
   SomeDelegate a;
   public Foo(SomeDelegate a) { this.a = a; }
   public int Invoke(int x) { return this.a(x); }
}

Func<int, int> c = new Func<int, int>(new MyLambda(a).Invoke);
share|improve this answer
    
Maybe emphasize the fact the custom stuff you wrote is normally done by compiler magic. –  Dykam Dec 15 '09 at 11:44
    
+1 for the nice explanation. There is a simpler way than Func<int, int> c = x => a(x); though - see my answer. –  Winston Smith Dec 15 '09 at 12:35
    
I presume in the last bit public Foo should have been public MyLambda? –  Chris Jun 23 at 12:29

There's a much simpler way to do it, which all the other answers have missed:

Func<int, int> c = a.Invoke;

See this blog post for more info.

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3  
Nice. It's similar to Gamlor's solution, but without the anonymous method. Still, it's wrapping the original delegate, unlike my proposed solution. –  Diego Mijelshon Dec 15 '09 at 15:43
4  
If anyone's not sure what Diego means, take a look at the Target and Method properties of the original 'a' delegate, and the 'c' delegate. With Diego's mechanism, 'c' points directly to the original method just like 'a' does. With Winston's method, it does not - it points to the delegate which in turn points to the original method, so you get an unnecessary extra level of indirection. –  Ian Griffiths Feb 15 '12 at 9:27
2  
As Diego and Ian mentioned, this solution wraps the original the original delegate. Therefore, if you are using this solution with events, you will not be able to unsubscribe. With Diego's solution you can. –  Verax May 1 '12 at 2:18
1  
Extremely elegant, thanks! –  Vlad May 18 '12 at 13:12
    
@Verax @IanGriffiths: I did a quick experiment (net45) and a.Invoke seems to unsubscribe ok? gist.github.com/dtchepak/7799703 –  David Tchepak Dec 5 '13 at 3:33

Try this:

Func<int, int> c = (Func<int, int>)Delegate.CreateDelegate(typeof(Func<int, int>), 
                                                           b.Target,
                                                           b.Method);
share|improve this answer
    
Have a look at my answer for an easier way to achieve this. –  Winston Smith Dec 15 '09 at 12:44
    
Ugly but useful if you can't afford the indirection of saying Func<int, int> c = b.Invoke;. But there's one thing to remember: In .NET, all delegate types are "multicast" delegates, and the above code will only take the last method in the invocation list. If you can't guarantee the the invocation list has just one member, you will have to iterate through it I guess. –  Jeppe Stig Nielsen Nov 5 '12 at 22:38
    
@JeppeStigNielsen I don't think a multicast Func makes much sense. What return value would you use? –  Diego Mijelshon Nov 6 '12 at 16:32
1  
You're right, it's used mostly with void return type, like EventHandler delegates with many subscribers. But try this: Func<int> a = () => 10; Func<int> b = () => 20; Func<int> c = () => 30; var multi = a + b + c; int answer = multi(); It's legal in the language and framework, so you have to make sure no-one has used it. –  Jeppe Stig Nielsen Nov 6 '12 at 16:42
    
@JeppeStigNielsen it's valid but meaningless (answer will be 30, which is just as valid as 10 or 20). You can write a validation if you want. But that was not the idea of this code. –  Diego Mijelshon Nov 6 '12 at 20:07

The problem is that:

SomeDelegate a = Inc;

Isn't actually a cast. It's the short-form of:

SomeDelegate a = new SomeDelegate(Inc);

Therefore there's no cast. A simple solution to your problem can be this (in C# 3.0)

Func<int,int> f = i=>a(i);
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1  
The problem with that is that you're actually wrapping the delegate with a new one that uses an anonymous method, which has a cost. –  Diego Mijelshon Dec 15 '09 at 12:00
1  
Yeah, you're right. Elegant Code vs. Performance. Depends on you're need what you pick. –  Gamlor Dec 15 '09 at 12:13

It is the same kind of problem as this:

public delegate int SomeDelegate1(int p);
public delegate int SomeDelegate2(int p);
...
  SomeDelegate1 a = new SomeDelegate1(Inc);
  SomeDelegate2 b = (SomeDelegate2)a;  // CS0030

which is the same kind of problem as:

public class A { int prop { get; set; } }
public class B { int prop { get; set; } }
...
  A obja = new A();
  B objb = (B)obja;  // CS0029

Objects cannot be casted from one type to an unrelated other type, even though the types are otherwise completely compatible. For lack of a better term: an object has type identity that it carries along at runtime. That identity cannot be changed after the object is created. The visible manifestation of this identity is Object.GetType().

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This works (in C# 4.0 at least - not tried in earlier versions):

SomeDelegate a = Inc;
Func<int, int> c = new Func<int, int>(a);

If you look at the IL, this compiles into exactly the same code as Winston's answer. Here's the IL for the second line of what I just wrote:

ldloc.0
ldftn      instance int32 ConsoleApplication1.Program/SomeDelegate::Invoke(int32)
newobj     instance void class [mscorlib]System.Func`2<int32,int32>::.ctor(object, native int)

And that's also precisely what you see if you assign a.Invoke into c.

Incidentally, although Diego's solution is more efficient, in that the resulting delegate refers directly to the underlying method rather than going through the other delegate, it doesn't handle multicast delegates correctly. Winston's solution does, because it just defers completely to the other delegate. If you want a direct solution that also handles delegates with multiple targets, you need something a little more complex:

public static TResult DuplicateDelegateAs<TResult>(MulticastDelegate source)
{
    Delegate result = null;
    foreach (Delegate sourceItem in source.GetInvocationList())
    {
        var copy = Delegate.CreateDelegate(
            typeof(TResult), sourceItem.Target, sourceItem.Method);
        result = Delegate.Combine(result, copy);
    }

    return (TResult) (object) result;
}

This does the right thing for delegates with a single target by the way—it will end up producing just a single delegate of the target type that refers directly to whatever method (and where applicable, object) the input delegate referred to.

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I wonder why the Method and Target of a multi-call delegate point to one of its targets. I would think it would have made more sense to have the delegate's Target point to itself, and have Method point to either its Invoke method [which would check whether it was invoking itself and, if so, use the multicast list] or an "invoke multicast" method. That would have avoided the risk of accidentally turning a multi-call delegate into a single-call one. –  supercat Jan 22 '13 at 21:31
    
The whole situation around MulticastDelegate is a mess, because Microsoft changed their minds about how to handle this fairly late in the day. In the first public preview of .NET, some delegates were multicast and some were not. They eventually decided to abandon this distinction but didn't really have time to clean things up, which left a few anomalies in the delegate type hierarchy. –  Ian Griffiths Feb 20 '13 at 9:03

You can hack a cast by using a trick where you use the c# equivalent of a c++ union. The tricky part is the struct with two members that have a [FieldOffset(0)]:

[TestFixture]
public class Demo
{
    public void print(int i)
    {
        Console.WriteLine("Int: "+i);
    }

    private delegate void mydelegate(int i);

    [StructLayout(LayoutKind.Explicit)]
    struct funky
    {
        [FieldOffset(0)]
        public mydelegate a;
        [FieldOffset(0)]
        public System.Action<int> b;
    }

    [Test]
    public void delegatetest()
    {
        System.Action<int> f = print;
        funky myfunky;
        myfunky.a = null;
        myfunky.b = f;

        mydelegate a = myfunky.a;

        a(5);
    }
      }
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First time I've heard about this wonderfully dangerous hack. Thanks! –  Yuki Izumi Jul 21 at 6:36

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