class Outer {    
    class Inner {       


public class Demo {
    public static void main(String args[]) {

        Outer o = new Outer();
        Outer.Inner inner = o.new Inner();    


Why is

Outer.Inner inner = o.new Inner();


Outer.Inner inner = o.new Outer.Inner();

i.e. why qualifying type declaration of inner with outer class name, but not qualifying the inner class' constructor with the outer class name?


  • 1
    Thanks to o. compiler already knows of which type you want to create nested instance so it lets us omit it in o.new ... part. – Pshemo May 22 at 19:39
  • 1
    Can it be not omitted? – user10082400 May 22 at 19:51
  • @Ben I am not sure what you mean by "Can it be not omitted"? Do you want to prevent compiler from allowing omitting it? Why? – Pshemo May 22 at 19:59
  • 1
    @Pshemo I think it's just an awkward double negative: "can it be included?" – Andy Turner May 22 at 20:02

From the JLS 15.9, you are talking about a qualified class instance creation expression:

Qualified class instance creation expressions begin with a Primary expression or an ExpressionName

(Yours starts with a primary expression)

The syntax is given as:

  ExpressionName . UnqualifiedClassInstanceCreationExpression
  Primary . UnqualifiedClassInstanceCreationExpression

  new [TypeArguments] ClassOrInterfaceTypeToInstantiate ( [ArgumentList] ) [ClassBody]

  {Annotation} Identifier {. {Annotation} Identifier} [TypeArgumentsOrDiamond]


A bit lower down, in 15.9.1, it says:

The Identifier in ClassOrInterfaceTypeToInstantiate must unambiguously denote an inner class that is accessible, non-final, not an enum type, and a member of the compile-time type of the Primary expression or the ExpressionName. Otherwise, a compile-time error occurs.

So, it has to be a member of the type of the expression. As such, there is no need to qualify it, as it cannot be anything but a class inside Outer.

It would simply be redundant to have to specify the Outer..


Because o is already an instance of type Outer, you don't need to create another Outer instance to create the Inner instance. The second option you list implies you are creating an instance of another inner class named Outer within the top-level Outer, which there isn't, and it will give an error. (Edit: just noticed there aren't parentheses after o.new Outer, which now leads me to think that you probably had the reasoning of my second paragraph).

If you mean that Outer.Inner() should be the constructor rather than just Inner(), it's because Outer.Inner() implies Inner is a static inner class. static was never specified, so you require an Outer instance.

  • I am not sure from where "you don't need to create another Outer instance to create the Inner instance" come from. o.new Outer.Inner() doesn't create another Outer instance, Outer.Inner is used simply as type name of one class - the inner one. – Pshemo May 22 at 19:48
  • No, you're right. I misread the line initially and thought it said o.new Outer().Inner(), but there aren't parentheses. – 17slim May 22 at 19:51
  • That o.new Outer().Inner() wouldn't compile, it would need to be o.new Outer().new Inner(). – Pshemo May 22 at 19:52
  • Yes, that was my point. Also, your example doesn't compile either. – 17slim May 22 at 19:54
  • 1
    @AndyTurner My bad, I meant it without o. like new Outer().new Inner(). Nice catch. – Pshemo May 22 at 19:55

For comparison:

public class Demo {
    public static void foo(){
       System.out.println("Hello world!");

We can foo in two ways:


Demo.foo();  // with Demo qualifier


Demo d = new Demo();
d.foo();  // without Demo qualifier!
  • This doesn't answer the question. The Inner class OP referenced is an instance class, not static as is your foo method, so the comparison isn't exactly correct. – 17slim May 22 at 19:39
  • "For comparison" there is no meaningful comparison to be drawn here. The language rules around methods is quite separate from the rules around class instance creation. – Andy Turner May 22 at 22:34

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