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Combining private field access with the CRTP in Java seems to tickle a weird edge case in the visibility rules:

public abstract class Test<O extends Test<O>> implements Cloneable {
    private int x = 0;

    @SuppressWarnings("unchecked")
    @Override
    protected final O clone() {
        try {
            return (O) super.clone();
        } catch (CloneNotSupportedException ex) {
            throw new AssertionError(ex);
        }
    }

    public final int getX() {
        return x;
    }

    public final O withX(int x) {
        O created = clone();
        created.x = x;  // Compiler error: The field Test<O>.x is not visible
        return created;
    }
}

Simply changing the withX() method to this...

    public final O withX(int x) {
        O created = clone();
        Test<O> temp = created;
        temp.x = x;
        return created;
    }

...makes the code compile. I tested this in Oracle's javac and in Eclipse's compiler. What gives?

share|improve this question
    
Cloneable and clone is filled with WTFs and gotchas in Java. –  Powerlord Sep 2 '11 at 21:31
    
@Powerlord As documented in the accepted answer below, this problem has nothing to do with clone() specifically. –  Aaron Rotenberg Sep 2 '11 at 21:37

1 Answer 1

up vote 7 down vote accepted

This isnt actually an issue with generics. The JLS inheritance rules keep private fields from being visible in sub classes. Because X is private, it is not a member of type O, even though it is a member of type Test<O> and O is a subtype of Test<O>. If you had used code like:

public final O withX(int x) {
    Test<O> created = clone();
    created.x = x;
    return (O) created;
}

It would work. This is an instance where LSP is not upheld by Java, but it is only a local problem with the type system, since private fields are only available to objects of the same type. If it didn't work this way than private fields wouldn't really be private. I dont think having a special exception to the rules for recursive templates is a good idea.

Note, this is never actually a limitation of what you can do. You can always cast the subtype up to the the supertype when you want to make the change, just like you do in your alternative code.

share|improve this answer
    
Huh, you're right! Accessing a field in a superclass, declared in the superclass, when you have a variable typed as a subclass is a compile error. Like above, assigning it to a temporary variable with the superclass's type fixes it. That's... rather silly, and not something I do often enough to have noticed up until now. –  Aaron Rotenberg Sep 2 '11 at 21:04

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