if i have two classes x and y, both extend class w. and x implementing interface z. if i have methods doSomething(w object) and doSomething(x object), what would happen if i call doSomething(x)?

edit: im implementing this on java, more specifically on android. im asking this because some classes which implement a specific interface mostly does the same thing when doSomething() is called. but there are special cases which i would like to single out.

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    can you be more specific? Are you refering to the diamond problem or something else? – wheaties May 17 '10 at 17:20
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    this probably depends on the programming language in question, but typically the compiler will choose the method that has the best fitting parameter type, in this case the one taking x object. – angry person May 17 '10 at 17:21
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    Why don't you try? Nothing bad will happen to you. :) – Simon May 17 '10 at 17:24
  • +1: It's a good question, and I'm tempted to say that it depends on the language. // Given that I don't know which language you are referring to, why don't you try this scenario in your language of choice, and try to invoke methods that are exclusive to w and x? – Jim G. May 17 '10 at 17:26

Let's say you have

w object1 = new x();
x object2 = new x();

Passing object1 will execute doSomething(w object) and passing object2 doSomething(x object).

P.S: Of course depending on the language (talked about C#)

P.P.S: Added parameter names to make it clearer

  • -1: This answer assumes that doSomething(w) and doSomething(x) aren't both implemented on x. – Jim G. May 17 '10 at 17:29
  • w and x are the types, not the variables. Now it should be clear. :) – Simon May 17 '10 at 17:30
  • @Simon: Duly noted. – Jim G. May 17 '10 at 17:34
  • @jim G: what happens if they're both implemented on x? – mixm May 17 '10 at 17:41
  • @mixm: Compiler error, usually. – Simon May 17 '10 at 17:48

It depends on the language that you're using.

For instance, in C# it would use doSomething(x object) not doSomething(w object).

However, if you casted it to w then it would use doSomething(w object) like this:

doSomething((w) someObjectOfX);


doSomething(someObjectOfX as w);

In C#, the compiler will pick the right method depending on the declared type of the variable, not on the actual type stored in it.

Note, the code below declares W to be a class, and constructs an instance of it. If you make W an interface, and remove its declaration and construction, you'll get the same behavior for x and y as the program below, interface or class for W in this case does not matter.

Let me show you the difference:

using System;

namespace SO2851194
    class W { }
    class X : W { }
    class Y : W { }

    class Program
        static void Main()
            W w = new W();
            X x = new X();
            Y y = new Y();


        static void doSomething(W w)

        static void doSomething(X x)

Here I declare three variables, of type W, X, and Y, and call doSomething passing the three variables, one by one. The output of this program is:


As expected, the compiler will pick the method that has the best fitting parameter type, and in the case of the x variable, it has a method that can take an object of type X.

However, due to class inheritance, we can change the declaration of the variables, but keep the object types constructed, so changing the code like this:

W w = new W();
W x = new X();   // Notice, changed variable type to W
W y = new Y();   // but keep constructing X and Y

This now outputs:


So the fact that the x variable contained an object of type X didn't factor into it, the compiler picked the method from the variable type, not its contents.

In C# 4.0, you now have the dynamic type, so again changing the code to:

dynamic w = new W();
dynamic x = new X();
dynamic y = new Y();

again outputs:


as now the compiler defers picking any method at all until runtime, and at runtime, it sees that the variable named x actually contains an object of type X and then picks the method with the best fitting parameter type.


you cant have two different methods with the same signatures. Its ambiguous code, compilers wont compile and interpreters will throw an error.

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    The signatures are different. The first is class x and the second is class y. It's a completely legitimate question. – Joseph May 17 '10 at 17:21

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