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There is this way, of course: OuterClass.this. But that's very clumsy. Ideally, there'd be a keyword outer just like super.

Is there some way to do it reflectively? (I have not found any way, the hidden outer reference does not seem to show up in the result of Class#getFields().)

Maybe there is a way in Java7?

EDIT. Consider this similar question that I just found:

Is there a syntax to get the reference to an anonymous inner class from a further anonymous inner class?

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Do you mean you would prefer to go with a reflection-based solution rather than using OuterClass.this? – JB Nizet Jul 1 '12 at 18:33
Reflection? Over OuterClass.this? Do you really expect there's going to be a shorter solution? – Louis Wasserman Jul 1 '12 at 18:35
Bit confused by the downvote... is the question unclear? Is it the small bit of opinion I admittedly put in there: "clumsy"? – Jonas N Jul 1 '12 at 18:43
@JBNizet, Louis: basically yes (I'd prefer, I'd expect shorter). I often use the PrettyLongName style of naming classes and things. This is mostly a problem for referencing top-level classes/objects, of course. – Jonas N Jul 1 '12 at 18:54
up vote 8 down vote accepted

The only way is to use OuterClass.this to reference the containing class.

This isn't an issue, if you need to reference the containing class instance more than once, you just assign it to a local variable and you don't have to deal with this syntax more than once. final OuterClass oc = OuterClass.this; then you just use oc locally to do whatever you need to do.

Having another keyword like outer would just obfuscated what was going on. The syntax OuterClass.this explicitly defines what is going on, a generic keyword would hide the identity of the containing class, especially if it was nested in multiple inner classes. outer.this.outer.this.outer.this is hideous!

This isn't a burden by any stretch of the imagination. Especially with modern IDEs.

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Burden or not, there is no sense in supporting a special case of the immediately enclosing instance with a whole new keyword, just to be left with the qualified this for all other enclosing instances. – Marko Topolnik Jul 1 '12 at 19:01
It could be chained: outer.outer.something. Also, it could instead mean 'the outer context of the current object'. Which would be useful because the 'this' scope in Java seems to always come before the outer scope; which I sometimes find a nuisance, and can also be dangerous: add a new field of the same name anywhere in any class inherited from the current class, and your code might reference that field instead of the outer field/variable. – Jonas N Jul 1 '12 at 19:10
@JonasN this has nothing to do with inheritance, your dangerous comment is unfounded. – Jarrod Roberson Jul 1 '12 at 19:34
'this' has very much to do with inheritance in Java :). Or what don't I understand? Anyway, I'll go verify what I am saying, although I/we're veering somewhat off-topic. – Jonas N Jul 1 '12 at 19:49
` public class Base { // protected final int fortytwo = 43; } public void method() { final int fortytwo = 42; class Inner extends Base { int x = fortytwo; } } – Jonas N Jul 1 '12 at 19:55

Please try this code which does exactly what you wanted:

                Object innerClassInstance = null; //get an inner class instance from somewhere.

                Object outerClassInstance = null;
                Field[] fields = innerClassInstance.getClass().getDeclaredFields();
                for (Field field : fields) {
                    String name = field.getName();
                    Object value = field.get(innerClassInstance);
                    if ("this$0".equals(name) && value != null) {
                        outerClassInstance = value;
                if (outerClassInstance != null) {
                    // now do something with your outer class instance

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