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In C# all delegate types are incompatible with one another, even if they have the same signature. As an example:

delegate void D1();
delegate void D2();

D1 d1 = MethodGroup;
D2 d2 = d1;                           // compile time error
D2 d2 = new D2 (d1);                  // you need to do this instead

What is the reasoning behind this behaviour and language design decision.

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2  
I cannot give you the reasoning, but delegates were an original language feature. Since then, they have added lambda methods, Actions and Funcs which do not suffer from the same problem. –  Brandon Jun 20 '13 at 13:05
    
@Brandon What? Lambdas are converted to delegates (or expression trees) and Actions and Funcs are just delegate types, so they follow exactly the same rules. –  svick Jun 20 '13 at 15:58
    
Delegate invocations are checked at runtime too. That was optimized, an important kind of optimization, only strict type identity is supported. That's fast. –  Hans Passant Jun 20 '13 at 16:33
    
@svick The difference is Actions, Funcs, and lambda expressions implicitly get converted to the delegate type you assign them to, even allowing for slightly different signatures, which was what the OP was complaining about. –  Brandon Jun 20 '13 at 19:00
    
@Brandon There really isn't anything special about Actions and Funcs, they work exactly the same as any other delegate type. –  svick Jun 20 '13 at 19:16

3 Answers 3

up vote 20 down vote accepted

In C# all delegate types are incompatible with one another, even if they have the same signature. What is the reasoning behind this behaviour and language design decision?

First off, I think that it is fair to say that many of the runtime and language designers regret this decision. Structural typing on delegates -- that is, matching by signature -- is a frequently requested feature and it just seems strange that Func<int, bool> and Predicate<int> can't be freely assigned to each other.

The reasoning behind the decision as I understand it -- and I hasten to add that this decision was made about six years before I started on the C# team -- is that the expectation was that there would be delegate types with semantics. You want this to be a type error:

AnyFunction<int, int> af = x=> { Console.WriteLine(x); return x + y; };
PureFunction<int, int> pf = af;

A "pure" function is a function which produces and consumes no side effects, consumes no information outside of its arguments, and returns a consistent value when given the same arguments. Clearly af fails at least two of those, and so should not be assignable to pf as an implicit conversion.

But semantics-laden delegate types never happened, so it's a bit of a misfeature now.

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1  
I'll have to remember that term, 'misfeature'. –  p.s.w.g Jun 20 '13 at 15:08
1  
I'll remember with fondness the short time I had an answer with more votes than Eric Lippert. –  dav_i Jun 23 '13 at 19:08

Basically because the compiler makes two classes for you. The same reason you can't do:

class A {}
class B {}

void Main()
{
    A a = new A();
    B b = a;
}

For example, the following code

void Main() {}

delegate void D();
class C {}

The IL code is:

D.Invoke:

D.BeginInvoke:

D.EndInvoke:

D..ctor:

C..ctor:
IL_0000:  ldarg.0     
IL_0001:  call        System.Object..ctor
IL_0006:  ret         
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Delegate is nothing but just another type. They are incompatible for the same reason class A {} and class B {} would be incompatible.

delegate void D1();

Will approximately compile to something like:

class D1 : MulticastDelegate { .... } 
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