operator(), which it spells
Anytime you define a
delegate type, you are defining a class with a method named
Invoke and can use function call syntax with instances of that class, which will result in a call to
operator(), C# delegate
Invoke methods can have almost any function signature.
operator(), C# doesn't allow defining arbitrary other members on the same class that defines
Invoke. You could say that C# is enforcing the Single Responsibility Principle here. This isn't a major limitation, however, because C# delegates get wired to another object that provides storage of state for the function object.
A more severe (in the sense that there is no simple workaround) limitation on C#
Invoke compared to C++
operator() is that C# delegate
Invoke methods cannot be overloaded nor polymorphic. This is a consequence of the need to forward the call to a method on another object, but it prevents some usage scenarios possible with C++ custom functors.
It would be interesting to see what happens if you defined an overloaded
Invoke method using MSIL. Certainly you would confuse the C# compiler if you tried to use such a delegate class, and probably also the CLR runtime. So this is a curiosium rather than a practical approach.
std::function is quite similar to C# delegate types in capability and limitations. It also forwards invocations, and isn't polymorphic on the call signature. Ditto for C++11 lambdas, although C++14 lambdas will allow templated
operator() and call-site type polymorphism (unlike C# lambdas which allow only point-of-definition polymorphism).