6

I don't understand the following code:

public class EventAdapter extends ArrayAdapter<Event> 
{
    public EventAdapter(Context context, int textViewResourceId,
            List<Event> objects) 
    {
        super(context, textViewResourceId, objects);
        this.resource = textViewResourceId;
    }
}

I am confused about the <Event> part in both cases. I understand it has something to do with Generics, but I don't understand it. I read http://docs.oracle.com/javase/tutorial/java/generics/, but still don't understand.

I do understand that objects is an ArrayList of objects of the type Event.

The part I don't understand is extending an ArrayAdapter with the Type <Event>. What does this signify?

4
  • 4
    What part don't you understand then? I think you need to be a bit crisper on what's not understood for folks to help you.
    – bryanmac
    Jan 18, 2013 at 1:22
  • 1
    Vague title, but then so is the question. Jan 18, 2013 at 2:07
  • I updated my question to be more clear Jan 18, 2013 at 2:27
  • You might be interested in finding the update to my answer -- I pointed out a more 'hypostatic' problem. Jan 24, 2013 at 3:40

3 Answers 3

14

extends ArrayAdapter<Event>

The type restriction here will influence on the return types of methods in the class, and the argument types of methods.

Here is an example, if you have a class:

class SomeClass<T> {
    protected T value;

    public void setValue (T value) {
        this.value = value;
    }

    public T getValue () {
        return value;
    }
}

And if you have another class:

class SubClass extends SomeClass {

    @Override
    public void setValue (Event value) {    // Fail! It is not overriding the super class' method.
        this.value = value;    // Warning! Unchecked types (maybe inconsistent).
    }
}

If you remove the @Override annotation, it will run. But the extends SomeClass is useless and might cause problem if you keep it there -- there will be two very similar methods: setValue(Event) and super.setValue(T). Now the question is will the subclass have access to the super.setValue(T) method? I will explain it in the end, see "A missing type parameter bounding example".

So, you need to specify the type in declaration:

class SubClass extends SomeClass<Event> {

    @Override
    public void setValue (Event value) {    // Correct now!
        this.value = value;
    }
}

Also, if you declare an inconsistent type:

class SubClass extends SomeClass<String> {

    @Override
    public void setValue (Event value) {    // Fail! Not overriding.
        this.value = value;    // Fail! Inconsistent types.
    }
}

So the type restricts the behavior of class body.



A missing type parameter bounding example:


import java.lang.reflect.*;

class Super<T> {
    public void method (T t) {
        System.out.println("Hello");
    }

    public void method2 () {

    }
}

public class Test extends Super {
    /*public void method (Object t) {
        System.out.println("world");
    }*/

    /*public <T> void method (T t) {

    }*/

    public static void main (String args[]) {
        new Test().method("");
        for (Method m : Test.class.getMethods()) {
            System.out.println(m.toGenericString());
        }
    }
}
  • If I comment method() in the subclass, it is compiled with a warning: Test.java uses unchecked or unsafe opertations. In the running result, it turned the generic type T into Object: public void Test.method(java.lang.Object).

  • If I only uncomment the first method() in the subclass, it is compiled with no warnings. In the running result, the subclass owns one public void Test.method(java.lang.Object). But it doesn't allow @Override annotation.

  • If I only uncomment the second method() in the subclass (which also has a generic type bounding), the compile fails with an error: name clash. It also doesn't allow @Override annotation. If you do so, it throws a different error: method does not override.

  • method2() is inherited by the subclass unanimously. But you also can't write the following code:

    in superclass: public void method2 (Object obj) and in subclass: public <T> void method2 (T obj). They are also ambiguous and is not allowed by the compiler.

3

Here's my simplistic way of looking at generics in this case. Given the definition:

public class EventAdapter extends ArrayAdapter<Event> 

I read it as: "An EventAdapter IS-A ArrayAdapter OF Event objects."

And I take List<Event> objects to mean a List of Event objects.

Collections are containers for objects, while Generics define what they can contain.

1

This assigns a value for the generic parameter in ArrayAdapter in a way that takes away control from the user of the EventAdapter class.

Any method overriding here can then replace T with Event and Event can be used inplace of T without casts.

This is the general definition of generics.

That this is allowed in this case is defined in the spec. While the exact behaviour is not defined in that section I think it is in line with all other generic behaviour as far as I can see.

While I see the construct here the first time, after some thinking it really isn't anything unusual.

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