Code in lambdas and anonymous classes is treated differently
Unlike code appearing in anonymous class declarations, the meaning of names and the this
and super
keywords appearing in a lambda body, along with the accessibility of referenced declarations, are the same as in the surrounding context (except that lambda parameters introduce new names).
The transparency of this
(both explicit and implicit) in the body of a lambda expression - that is, treating it the same as in the surrounding context - allows more flexibility for implementations, and prevents the meaning of unqualified names in the body from being dependent on overload resolution.
Practically speaking, it is unusual for a lambda expression to need to talk about itself (either to call itself recursively or to invoke its other methods), while it is more common to want to use names to refer to things in the enclosing class that would otherwise be shadowed (this, toString()). If it is necessary for a lambda expression to refer to itself (as if via this
), a method reference or an anonymous inner class should be used instead.
JLS 10 - 15.27.2. Lambda Body
Code in lambdas
The keyword this
may be used in a lambda expression only if it is allowed in the context in which the lambda expression appears. Otherwise, a compile-time error occurs.
JLS 10 - 15.8.3. this
I think it also can be applied to the keyword super
.
The statement A.super.doA();
would be working in the enclosing context (the body of the method Test#doA
), so it is allowed in lambdas as well.
class Test implements A {
@Override
public void doA() {
B b = () -> {
System.out.println(super.getClass());
System.out.println(Arrays.toString(super.getClass().getInterfaces()));
};
b.doB();
// ...
}
}
This snippet prints
class Test
[interface A]
We will compare it with the anonymous class result.
Code in anonymous classes
class Test implements A {
@Override
public void doA() {
// ...
new B() {
public void doB() {
System.out.println(super.getClass());
System.out.println(Arrays.toString(super.getClass().getInterfaces()));
}
}.doB();
}
}
The snippet outputs
class Test$1
[interface B]
Keeping in mind that an anonymous class has own this
and super
and it does not inherit A
(and can't do it), it becomes clear that A.super.doA();
can't be compiled in its context.
Workarounds
A workaround could be remembering the enclosing context by a lambda, and invoking that lambda in the method of an anonymous class:
class Test implements A {
@Override
public void doA() {
Runnable doA = () -> A.super.doA();
new B() {
public void doB() {
doA.run();
}
}.doB();
}
}
If B
inherited A
, it would be possible to call doA()
or B.super.doA()
referring to the default method:
class Test implements A {
@Override
public void doA() {
new B() {
public void doB() {
doA(); // or B.super.doA();
}
}.doB();
}
}