Say you have
SubTestClass extends TestClass, and you write:
TestClass instance = new TestClass();
SubTestClass result = instance.test();
This is legal regarding the signature of your
test() class, although nonsense (1). The compiler will deduce that
T is the class
SubTestClass. And then it's clear that a
TestClass instance isn't
instanceof SubTestClass. So with legal usage of your
test() method, returning
this can produce type mismatches, and that's what the compiler tells you.
test() signature, it's impossible to return anything other than
null is the only value you can assign to a variable of unknown type.
Let me explain that last claim (asked for in comments): The implementation of the
test() method has to return some value that matches the
T type, and the concrete type (deduced from the call situation to be
SubTestClass) isn't deducible to the method - there's nothing in the arguments or in the instance fields where it can read out the requirement to return a
SubTestClass in this situation. In another call situation, it might be required to return
AnotherSubTestClass, and there's no way it can tell the first from the second situation.
If you return
(T) casting to make it pass the compiler), it will fail either in the first or in the second or in both situations. So you can't do that without high risk of failure.
The only value that you can successfully assign to both a
SubTestClass and a
AnotherSubTestClass variables, is the
null value. So that's the only value you can safely return from a method with such a signature.
(1) Having a generic method where the generic type can't be deduced from the parameters, but instead only from the expected result type, can hardly work - how should the method know what the caller expects?