Different languages (such as C++, Java, or C#) have vastly different overload resolution rules. In C#, the overload was correctly chosen as per the language spec. If you wanted the other overload to be chosen, you have a choice. Remember this:
When a derived class intends to declare another overload for an inherited method, so as to treat all available overloads as equal-rights peers, it must also explicitly override all the inherited overloads with a base call as well.
What is the language design benefit of requiring this exercise?
Imagine that you are using a 3rd party library (say, .NET framework) and deriving from one of its classes. At some point you introduce a private method called
Abc (a new, unique name, not an overload of anything). Two years later you upgrade the 3rd party library version without noticing that they also added a method, accessible to you and called, regrettably,
Abc, except that it has a different parameter type somewhere (so the upgrade doesn't alert you with a compile time error) and it behaves subtly differently or maybe even has a different purpose altogether. Do you really want one half of your private calls to
Abc to be silently redirected to the 3rd party
Abc? In Java, this may happen. In C# or C++, this isn't going to happen.
The upside of the C# way is that it's somewhat easier, for a redistributed library, to add functionality while rigorously keeping backward compatibility. In two ways actually:
- You won't ever mess with your customers' private method calls inside their own code.
- You won't ever break your customers by adding a new uniquely named method, although you must still think twice before adding an overload of YOUR own existing method.
The downside of the C# way is that it cuts a hole into the OOP philosophy of overriding methods ever changing only the implementation, but not the API of a class.