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I have just found a static inner interface in our code-base.

class Foo {
    public static interface Bar {
        /* snip */
    }
    /* snip */
}

I have never seen this before. The original developer is out of reach. Therefore I have to ask SO:

What are the semantics behind a static interface? What would change, if I remove the static? Why would anyone do this?

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2  
Thank to Thomas for making the title meaningful ;-) I couldn't come up with a good one myself... –  Mo. Sep 16 '08 at 12:18
4  
You should consider switching the accepted answer to Jesse's. Clinton's is inaccurate - an inner interface does not have to be marked static in order to be accessed. –  Craig P. Motlin Feb 23 '11 at 12:35
    
Yes, please consider changing the accepted answer to be Jesse Glick's answer. –  ArtB Dec 12 '12 at 18:26

9 Answers 9

up vote 167 down vote accepted

The static keyword in the above example is redundant (a nested interface is automatically "static") and can be removed with no effect on semantics; I would recommend it be removed. The same goes for "public" on interface methods and "public final" on interface fields - the modifiers are redundant and just add clutter to the source code.

Either way, the developer is simply declaring an interface named Foo.Bar. There is no further association with the enclosing class, except that code which cannot access Foo will not be able to access Foo.Bar either. (From source code - bytecode or reflection can access Foo.Bar even if Foo is package-private!)

It is acceptable style to create a nested interface this way if you expect it to be used only from the outer class, so that you do not create a new top-level name. For example:

public class Foo {
    public interface Bar {
        void callback();
    }
    public static void registerCallback(Bar bar) {...}
}
// ...elsewhere...
Foo.registerCallback(new Foo.Bar() {
    public void callback() {...}
});
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1  
In Jesse Glick's answer, what this mean: (From source code - bytecode or reflection can access Foo.Bar even if Foo is package-private!). –  Kailash Mar 25 '10 at 6:03
    
Kaillash, private methods can be accessed through relfection (in the reflect package) and through directly accessing the bytecode of the generated .class files. –  gmoore Apr 28 '10 at 16:35
    
By "bytecode ... can access Foo.Bar" I mean that a compiled class referencing Foo.Bar can be loaded and run even if it could not reference Foo. This might happen if the class were compiled at an earlier time when Foo were public, or if the class were hand-assembled or compiled from some non-Java language, etc. The Java compiler, however, checks the access modifier on the enclosing class even when the resulting bytecode would not refer to that enclosing class. –  Jesse Glick Jun 8 '11 at 17:27
    
@Jesse Can a private static class in a private top-level class be accessed through reflection? –  Pacerier Mar 6 '12 at 5:37
    
@Pacerier: no. More precisely, you can load the class and inspect its members, but cannot instantiate it or call methods on it without using setAccessible(true). In other words it is visible, but not accessible, via reflection. But if the nested static class is public, it is accessible by default via reflection even though it is not accessible statically (during compilation). –  Jesse Glick Mar 7 '12 at 15:08

The question has been answered, but one good reason to use an inner interface is if its function is directly related to the class it is in. A good example of this is a Listener. If you had a class Foo and you wanted other classes to be able to listen for events on it, you could declare an interface named FooListener, which is ok, but it would probably be more clear to declare an inner interface and have those other classes implement Foo.Listener (an inner class Foo.Event isn't bad along with this).

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Thank you - that is a very reasonable use for those... –  Mo. Oct 24 '08 at 9:01
5  
A typical example is java.util.Map.Entry (which is an interface nested in another interface). –  Paŭlo Ebermann Jul 15 '11 at 20:03
2  
I know this is an old topic, but I would prefer the outer class to be in it's own package and any supplementary interfaces (e.g. Map.Entry) or classes to also be within that package. I say this because I like to keep my classes short and to the point. Also a reader can see what other entities are related to a class by looking at the classes in the package. I'd probably have a package java.collections.map for maps. This is about OO and modularity. java.util has too much in it. util is like common - a smell IMO –  Shaggy Mar 14 '12 at 13:27
    
@Shaggy: java.util certainly does have too much in it. That said, I don't think that breaking it down into such fine-grained packages as you're suggesting is ideal either. –  ColinD Mar 14 '12 at 18:25

An inner interface has to be static in order to be accessed. The interface isn't associated with instances of the class, but with the class itself, so it would be accessed with Foo.Bar, like so:

public class Baz implements Foo.Bar {
   ...
}

In most ways, this isn't different from a static inner class.

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26  
A nested interface is automatically static, whether one writes the keyword or not. –  Paŭlo Ebermann Jul 15 '11 at 20:02
3  
We really need a way for the community to vote to accept a different answer: stackoverflow.com/a/74400/632951 –  Pacerier Mar 6 '12 at 5:34

Inner interfaces are implicitly static. The static modifier in your example can be removed without changing the semantics of the code. See also the relevant part of the Java Language Specification

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Jesse's answer is close, but I think that there is a better code to demonstrate why an inner interface may be useful. Look at the code below before you read on. Can you find why the inner interface is useful? The answer is that class DoSomethingAlready can be instantiated with any class that implements A and C; not just the concrete class Zoo. Of course, this can be achieved even if AC is not inner, but imagine concatenating longer names (not just A and C), and doing this for other combinations (say, A and B, C and B, etc.) and you easily see how things go out of control. Not to mention that people reviewing your source tree will be overwhelmed by interfaces that are meaningful only in one class.So to summarize, an inner interface enables the construction of custom types and improves their encapsulation.

class ConcreteA implements A {
 :
}

class ConcreteB implements B {
 :
}

class ConcreteC implements C {
 :
}

class Zoo implements A, C {
 :
}

class DoSomethingAlready {
  interface AC extends A, C { }

  private final AC ac;

  DoSomethingAlready(AC ac) {
    this.ac = ac;
  }
}
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To answer your question very directly, look at Map.Entry.

Map.Entry

also this may be useful

Static Nested Inerfaces blog Entry

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1  
This is an example, but not really an answer. –  Paŭlo Ebermann Jul 15 '11 at 20:05
    
I use Map.Entry to create "Pair" objects a lot. It's exposed. The implementation of Pair has two schools of thoughts, but that isn't the point here. Map.Entry might be inner but I use it outside. –  Ravindranath Akila Jul 29 at 4:01

Typically I see static inner classes. Static inner classes cannot reference the containing classes wherease non-static classes can. Unless you're running into some package collisions (there already is an interface called Bar in the same package as Foo) I think I'd make it it's own file. It could also be a design decision to enforce the logical connection between Foo and Bar. Perhaps the author intended Bar to only be used with Foo (though a static inner interface won't enforce this, just a logical connection)

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In Java, the static interface/class allows the interface/class to be used like a top-level class, that is, it can be declared by other classes. So, you can do:

class Bob
{
  void FuncA ()
  {
    Foo.Bar foobar;
  }
}

Without the static, the above would fail to compile. The advantage to this is that you don't need a new source file just to declare the interface. It also visually associates the interface Bar to the class Foo since you have to write Foo.Bar and implies that the Foo class does something with instances of Foo.Bar.

A description of class types in Java.

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Static means that any class part of the package(project) can acces it without using a pointer. This can be usefull or hindering depending on the situation.

The perfect example of the usefullnes of "static" methods is the Math class. All methods in Math are static. This means you don't have to go out of your way, make a new instance, declare variables and store them in even more variables, you can just enter your data and get a result.

Static isn't always that usefull. If you're doing case-comparison for instance, you might want to store data in several different ways. You can't create three static methods with identical signatures. You need 3 different instances, non-static, and then you can and compare, caus if it's static, the data won't change along with the input.

Static methods are good for one-time returns and quick calculations or easy obtained data.

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1  
I know what static means. I just have never ever seen it on an interface before. Therefore your question is off-topic - sorry –  Mo. Sep 16 '08 at 12:45
1  
I think his answer is off-topic. –  Koray Tugay Jan 22 at 8:47

protected by Gilbert Le Blanc May 29 '13 at 13:53

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