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Say we have the following interface:

interface Addable {
    Addable add (Addable element);

Now I want to declare two classes, say MyList and MyArray that implement the above interface. How can I do this, but prevent a MyArray object being added to a MyList and vice versa?

Is there a way to do this without an if statement and instanceof?

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Why do you want to do it without if and instanceof? – Philipp Sep 8 '12 at 14:41
Don't use a common interface if the implementation is not exchangeable! – codesparkle Sep 8 '12 at 14:42
@codesparkle: Best advice! – Tudor Sep 8 '12 at 14:43
What is add supposed to return? What are you supposed to be able to add to a MyArray for example? Only other MyArrays? – Tudor Sep 8 '12 at 14:45
en.wikipedia.org/wiki/Visitor_pattern is designated for differentiation of different implementations of one interface. But I don't think this exact situation is suitable for it, I agree with @codesparkle here. – Natix Sep 8 '12 at 14:49
interface Addable<T extends Addable<T>> {
    T add (T element);

class MyList  implements Addable<MyList> {
    public MyList add(MyList element) {
        return null;

class MyArray   implements Addable<MyArray> {
    public MyArray add(MyArray element) {
        return null;
share|improve this answer
+1 Just be aware that class SillyList implements Addable<MyArray> is possible. – Paul Bellora Sep 9 '12 at 1:22

How about changing your interface definition to the following:

    interface Addable<T extends Addable.Element> {
        interface Element { }

        Element add(T element); // OR T add(T element);

    class MyList implements Addable<MyList.MyListElement> {

        static class MyListElement implements Addable.Element { }

        public Element add(MyListElement element) {
            return null;

    class MyArray implements Addable<MyArray.MyArrayElement> {
        static class MyArrayElement implements Addable.Element { }

        public Element add(MyArrayElement element) {
            return null;

    public static void main(String[] arg) {
        MyArray myArray = new MyArray();
        MyArrayElement a = new MyArrayElement();

        MyList myList = new MyList();
        MyListElement l = new MyListElement();

        //try to add a MyArrayElement to a MyList
        // Error The method add(MyListElement) in the type MyList
        // is not applicable for the arguments (MyArrayElement)

        //try to add a MyListElement to a MyArray
        // Error The method add(MyArrayElement) in the type MyArray
        // is not applicable for the arguments (MyListElement)

The wikipedia entry quoted below explains why this works:

Generics are a facility of generic programming that was added to the Java programming language in 2004 as part of J2SE 5.0. They allow "a type or method to operate on objects of various types while providing compile-time type safety."1 A common use of this feature is when using a Java Collection that can hold objects of any type, to specify the specific type of object stored in it.

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Could you explain why this would work ? – Radu Murzea Sep 8 '12 at 14:55
@SoboLAN - You need to go to the Java Tutorial and read the section on generic types. That will help you understand why it works. – Stephen C Sep 8 '12 at 15:52
@StephenC I do know why it works. I meant an explanation for other people that may read this. After all, it's a very public place... – Radu Murzea Sep 8 '12 at 21:00
@SoboLAN Answer updated to address your comments and provide an example implementation. – munyengm Sep 8 '12 at 23:35

You really need to learn about Java Generics.

Q: How do you prevent this for a Java ArrayList?

A: By using ArrayList<MyArray> vs. ArrayList<MyList>.

That is the same thing you want to have here:

interface Addable<T> {
    T add (T element);

And then have your classes implement Addable<MyList> and Addable<MyArray>.

For MyList you then have to implement the method

MyList add(MyList element);

while for MyArray it will look like this:

MyArray add(MyArray element);

As you can see, you can not add a MyList to a MyArray, or the other way round.

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