Java Inner Classes
Java Inner Classes
In Java, it is also possible to nest classes (a class within a class). The purpose of nested classes is to group classes that belong together, which makes your code more readable and maintainable.
To access the inner class, create an object of the outer class, and then create an object of the inner class:
Example
class OuterClass {
int x = 10;
class InnerClass {
int y = 5;
}
}
public class Main {
public static void main(String[] args) {
OuterClass myOuter = new OuterClass();
OuterClass.InnerClass myInner = myOuter.new InnerClass();
System.out.println(myInner.y + myOuter.x);
}
}
// Outputs 15 (5 + 10)
Private Inner Class
Unlike a "regular" class, an inner class can be private
or protected
.
If you don't want outside objects to access the inner class, declare
the class as private
:
Example
class OuterClass {
int x = 10;
private class InnerClass {
int y = 5;
}
}
public class Main {
public static void main(String[] args) {
OuterClass myOuter = new OuterClass();
OuterClass.InnerClass myInner = myOuter.new InnerClass();
System.out.println(myInner.y + myOuter.x);
}
}
If you try to access a private inner class from an outside class, an error occurs:
Main.java:13: error: OuterClass.InnerClass has private access in OuterClass
OuterClass.InnerClass myInner = myOuter.new InnerClass();
^
Static Inner Class
An inner class can also be static
, which means that you can access it without
creating an object of the outer class:
Example
class OuterClass {
int x = 10;
static class InnerClass {
int y = 5;
}
}
public class Main {
public static void main(String[] args) {
OuterClass.InnerClass myInner = new OuterClass.InnerClass();
System.out.println(myInner.y);
}
}
// Outputs 5
Note: just like static
attributes and methods, a static
inner class does not have access to members of the outer class.
Access Outer Class From Inner Class
One advantage of inner classes, is that they can access attributes and methods of the outer class:
Example
class OuterClass {
int x = 10;
class InnerClass {
public int myInnerMethod() {
return x;
}
}
}
public class Main {
public static void main(String[] args) {
OuterClass myOuter = new OuterClass();
OuterClass.InnerClass myInner = myOuter.new InnerClass();
System.out.println(myInner.myInnerMethod());
}
}
// Outputs 10