Whilst trying to debug some PHP classes, I ran into some behaviour which is, to my mind, really weird.
I've constructed a demonstration of the behaviour below:
class BaseClass {
public function baseMethod () {
echo (implode (' ', $this -> childMethod ()) . PHP_EOL);
}
}
class ChildClass extends BaseClass {
protected function childMethod () {
return array ('What', 'The', 'Actual', 'Fork!');
}
}
$a = new ChildClass ();
$a -> baseMethod ();
Now, to my mind, the base class should not be able to make any assumptions about the subclass at all, except for the ones it enforces for the subclass by declaring (or inheriting) abstract methods, or by implementing an interface. However, the above code actually outputs a string and doesn't throw any errors!
What The Actual Fork!
This seems like broken behaviour to me. Unless the base class declares abstract protected function childMethod();
, it should not be able to call it, should it?
I've been scouring the internet to try and find something that demonstrates that this is expected behaviour. So far all I've managed to find is the following from PHP's manual:
Visibility from other objects
Objects of the same type will have access to each others private and protected members even though they are not the same instances. This is because the implementation specific details are already known when inside those objects
So is the behaviour I'm witnessing here correct or is this a bug in PHP? It's certainly not behaviour I'd rely on because it seems wrong to me.
FYI, the problem we found in the actual code was that the subclass declared a private method that the superclass was trying to call. The superclass didn't declare the method abstract (and if it had done it would have had to be at least protected).
$this
is a reference to the calling object (ChildClass
in your example) that has methodchildMethod
so script works. I'd say this is technically possible but bad practice.$this
refers to an object not a class itself. There'sself
that refers to current class.