Clever example! But it's actually a somewhat boring explanation - there's no visibility problem, you simply have no way of referring to
t1 directly from
super.super isn't allowed.
T2 can't access its own
t1 field directly since it's private (and child classes don't inherit their parent's private fields), but
super is effectively an instance of
T1 and since it's in the same class
T2 can refer to the private fields of
super. There's just no mechanism for
T3 to address the private fields of its grandparent class
Both of these compile just fine inside
T3, which demonstrates that a
T3 can access its grandparent's
Conversely this doesn't compile in either
super.super were allowed you'd be able to do this from
if I'd define 3 classes,
A having a protected field
B would inherit from
C could refer to
t1 by invoking
super.t1 because it´s visible here. logically shouldn't the same apply to inner classes inheritance even if the field are private, because these private members should be visible due to being in the same class?
(I'm going to stick with OP's
T3 class names for simplicity)
protected there'd be no problem -
T3 could refer to the
t1 field directly just like any subclass. The issue arises with
private because a class has no awareness of its parent classes'
private fields, and therefore can't reference them directly, even though in practice they are visible. That's why you have to use
T2, in order to even refer to the field in question.
Even though as far as a
T3 is concerned it has no
t1 field it has access into
private fields by being in the same outer class. Since that's the case all you need to do is cast
this to a
T1 and you have a way to refer to the private field. The
super.t1 call in
T2 is (in essence) casting
this into a
T1 letting us refer to its fields.