7

Lets say I have these two classes, one extending the other

public class Bar{

    public void foo(){

    }

}

public class FooBar extends Bar {

    @Override
    public void foo(){
        super.foo(); //<-- Line in question
    }

}

What I want to do is warn the user to call the super-class's method foo if they haven't in the override method, is this possible?

Or is there a way to know, using reflection that a method that overrides a method of its super-class calls the original method if I pass on the class type to the super?

for example:

public abstract class Bar{

    public Bar(Class<? extends Bar> cls){
        Object instance = getInstance();
        if (!instance.getClass().equals(cls)) {
            throw new EntityException("The instance given does not match the class given.");
    }
        //Find the method here if it has been overriden then throw an exception
        //If the super method isn't being called in that method
    }

    public abstract Object getInstance();

    public void foo(){

    }

}

public class FooBar extends Bar {

    public FooBar(){
        super(FooBar.class);
    }

    @Override
    public Object getInstance(){
        return this;
    }

    @Override
    public void foo(){
        super.foo();
    }

}

Maybe even an annotation I can put on the super method so it shows that it needs to be called?


EDIT

Note, its not the super class that needs to call the foo method, it would be someone calling the sub class's foo method, for example a database close method

I would even be happy with making the method "un-overrideable" if it came down to it, but would still like to give it a custom message.


Edit 2

This here is what I wanted in a way:

enter image description here

But it would still be nice to have the above, or even give them a custom message to do something else like, Cannot override the final method from Bar, please call it from your implementation of the method instead

4
  • 1
    This might be possible with a static code analysis tool / rule checker (e.g. IDEA). It should likely not be done at runtime (e.g. with reflection). Oct 12, 2013 at 5:46
  • 1
    If you can't use the template pattern, FindBugs has an annotation that detects missing overrides: OverrideMustInvoke
    – JB Nizet
    Oct 12, 2013 at 5:50
  • I would even be happy with making the method "un-overrideable": that's what final is for.
    – JB Nizet
    Oct 12, 2013 at 5:56
  • I'd say that doing something like this is a matter of poor design. Normally such things, if needed, are handled via Javadoc. If you want the user to call db.close() method, just let him make a separate call to it after work with db is done.
    – svz
    Oct 12, 2013 at 6:06

2 Answers 2

4

EDIT: To answer the edited, question, which includes:

I would even be happy with making the method "un-overrideable"

... just make the method final. That will prevent subclasses from overriding it. From section 8.4.3.3 of the JLS:

A method can be declared final to prevent subclasses from overriding or hiding it.

It is a compile-time error to attempt to override or hide a final method.

To answer the original question, consider using the template method pattern instead:

public abstract class Bar {
    public foo() {
        // Do unconditional things...
        ...
        // Now subclass-specific things
        fooImpl();
    }

    protected void fooImpl();
}

public class FooBar extends Bar {
    @Override protected void fooImpl() {
        // ...
    }
} 

That doesn't force subclasses of FooBar to override fooImpl and call super.fooImpl() of course - but FooBar could do this by applying the same pattern again - making its own fooImpl implementation final, and introducing a new protected abstract method.

2
  • @SmartLemon: Well yes, if you completely change the requirements, final would indeed do it...
    – Jon Skeet
    Oct 12, 2013 at 5:56
  • Sorry, check out the second edit, the original is still part of the question.
    – FabianCook
    Oct 12, 2013 at 5:59
0

what you could do is something like following

public class Bar{

    public final void foo(){
        //do mandatory stuff
        customizeFoo();
    }

    public void customizeFoo(){

    }

}

public class FooBar extends Bar {

    @Override
    public void customizeFoo(){
        //do custom suff
    }

}

foo method made 'final' in superclass so that subclasses can't override and avoid doing mandatory stuff

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