Today a fellow learner came up with an interesting query. We know that this keyword is used to refer to the current object. But I could not explain to him how this keyword behaves as seen in the following snippet. I know what inheritance is: allows access to parent class variables and methods. But are they copied into the memory area of child instance?, because I am able to use this keyword to access the parent class property.
I was able to refer to parent class variable. I searched and found that nothing gets copied virtually to child class, but why the following behavior happens? Please explain this case of using this.
class Parent {
int a=10;
}
public class Child extends Parent{
void m1(){
System.out.println(a);
System.out.println(this.a);
System.out.println(super.a);
}
public static void main(String[] args){
new Child().m1();
}
}
https://docs.oracle.com/javase/tutorial/java/javaOO/thiskey.html
https://docs.oracle.com/javase/tutorial/java/IandI/subclasses.html
The property a is inherited by Child. Therefore, you can use this.a in child to reference it.
Where was the problem supposed to be?
I searched and found that nothing gets copied virtually to child class
You have the wrong example to illustrate that statement.
The way to understand that is (roughly): "instance variables are not overridden when re-declared in subclasses, so you can't declare an instance as Parent and expect to get Child.a if the instance was created with new Child()". Here's an example of the problematic case:
class Parent {
int a = 10;
}
public class Child extends Parent{
int a = 12; //not overridden
public static void main(String[] args){
Parent child = new Child();
System.out.println(child.a); //This will print 10, not 12
}
}
System.out.println(child.a); will print 10 because variables instance fields don't get overridden. You get the value based on the declared type (Parent in this case)
When you instantiate a class Child it contains all members of itself and of Parent. However, private members of Parent are not accessible from Child:
class Parent {
private int p = 10;
}
public class Child extends Parent{
void m1(){
System.out.println(p); // compilation error
}
}
Another interesting case is when one instance of Parent tries to access a private field of another instance of Parent. What do you think happens?
public class Parent {
private int p = 11;
public boolean same(Parent other) {
return other.p == p;
}
}
You might think other.p will result in a compilation error since p is a private field. However, since privacy does not pertain to object instances, but to classes. So all private fields in Parent are visible within all Parent instances, so this works!
Consider below Code:
this is a reference variable which will point to the current object.
super is used to refer to Parent's property in case you have created
the same in the child.
class Product{
String color;
public Product() {
color = "Black";
}
}
class Mobile extends Product{
String color;
Mobile(){
color = "White";
}
void showMobileData(){
System.out.println("this hashCode is "+this.hashCode());
System.out.println("super hashCode is: "+super.hashCode());
System.out.println("color is: "+color);
System.out.println("this.color is: "+this.color);
System.out.println("super.color is: "+super.color);
}
}
public class Test {
public static void main(String[] args) {
//new Mobile().showMobileData();
Mobile mRef = new Mobile();
System.out.println("mRef HashCode: "+mRef.hashCode());
mRef.showMobileData();
}
}
Related
I want to consult an issue about Java field variable inheritance. Here is the code segment:
//parent
public class Parent {
protected int a = 0;
}
//son
public class Son extends Parent{
public void demo(){
a = 1;
System.out.println(super.a);
}
public static void main(String[] args){
Son son = new Son();
son.demo();
}
}
output:
1
expect:
0
In my code the child will inherit field variable a, and we called it sonA and the field variable a of parent called parentA.
My question is whether sonA and parentA the same one (e.g there address is 0x1234)? or they represent two different variable (e.g. one address 0x1234 another 0x5678)?
They share the same address, however you did overwrite the default value 0 with 1 so it's correct behaviour. Let's check that:
Son son = new Son();
Parent parent = new Parent();
Field fieldAParent = parent.getClass().getDeclaredField("a");
Field fieldA = son.getClass().getDeclaredField("a");
You'll get an exception on the last line, because class son doesn't contain field a
It's the same one, because Son doesn't have an a of its own. If you introduce one, you'll hide Parent's a and then you'll see the behaviour you're expecting:
//parent
public class Parent {
protected int a = 0;
}
//son
public class Son extends Parent{
int a = 0; // this hides the Parent field
public void demo(){
a = 1; // this accesses the Son field
System.out.println(super.a); // this accesses the Parent field explicitly
}
public static void main(String[] args){
Son son = new Son();
son.demo();
}
}
However, this would generally not be a recommended practice, as it could lead to a lot of confusion.
I have 3 Java classes: Class1, Class2 and Class3.
public class Class1 {
ArrayList<Class3> arrayOfObjects;
public Class1() {
if (arrayOfObjects == null){
arrayOfObjects = new ArrayList<Class3>
}
}
}
public class Class2{
public String mName;
public Class2(String name){
this.mName = name;
}
}
public class Class3 extends Class2{
public Class3(String name){
super(name);
}
}
Each instance of Class1 contains an ArrayList of Objects. My problem is, since Strings are immutable, How can i get all of the child objects of Class3 to update their "mName" Variable when it is changed in Class2? I have tried using For loops and looping through everything, which works fine, but as the lists grow larger and larger so does the time involved.
Disclaimer
This is a pretty long winded, very basic tutorial on variable shadowing, scope and static fields. With the edits to your question it doesn't really apply as much as it seemed to originally.
I started writing it though so figured I'd finish, maybe it will be of use to somebody or I'll find somewhere to migrate it to in the future...
You don't need to declare mName in Class3 as it already inherits that field from its parent, Class2.
However, if you want to be able to make changes to any Class2 and see the results in Class3 then you need to know about static variables, variable scope and variable shadowing
Variable Shadowing
If you declare another field in Class3 with the same name as one that the Parent class also has then it 'shadows' or 'hides' the original field as Java will use the first variable with the correct name that it finds.
Consider a very simple base class like this:
public class Parent {
public int myVariable = 5;
public void printMyVariable() {
System.out.println(myVariable);
}
}
Now lets define some children:
public class ChildOne extends Parent {
// nothing here
}
public class ChildTwo extends Parent {
public void printMyVariable() {
System.out.println(myVariable + 2);
}
}
public class ChildThree extends Parent {
public int myVariable = 10;
}
public class ChildFour extends Parent {
public int myVariable = 99;
public void printMyVariable() {
int myVariable = 700;
System.out.println(myVariable);
}
Now lets take a look at how all those different values get read by the JVM:
public static void main (String[] args) {
// make some objects:
Parent parent = new Parent();
ChildOne childOne = new ChildOne();
ChildTwo childTwo = new ChildTwo();
ChildThree childThree = new ChildThree();
// print some values:
parent.printMyVariable();
childOne.printMyVariable();
childTwo.printMyVariable();
childThree.printMyVariable();
childFour.printMyVariable()
}
This will print these values to your console:
5 // original parent class' base value
5 // does not try to override, mask, hide the parent's value or print
7 // printMyVariable() is defined again and the JVM uses
// the first matching method it finds which is in the ChildTwo class
10 // myVariable is defined in the class
// the class variable shadows the parent variable but the method
// still functions as expected
700 // myVariable is shadowed at the class level
// but the print method also declares a myVariable
// it is the method's version that gets found first and used
Static Variables
Now all that is about 'instance variables'. These are variables that have their own unique value for every copy or Object that exists of them.
If you change childOne's myVariable is has no affect on childTwo's value or even another instance of ChileOne that you may have assigned eslewhere.
Were you to define those fields as static however, you are saying that you want to share the same variable and value across all copies or instances of that class.
public class Parent {
public static int myStaticVariable = 25;
}
public class ChildOne extends Parent {
// nada
}
public class ChildTwo extends Parent {
public static int myStaticVariable = 99;
}
And if we now poke at the static variables:
public static void main (String[] args) {
// a few classes
Parent parent = new Parent();
ChildOne childOne = new ChildOne();
ChildOne childOneCopy = new childOne();
ChildTwo childTwo = new childTwo();
// take a peek at the values
System.out.println(parent.myStaticVariable):
System,out.println(childOne.myStaticVariable);
System,out.println(childTwo.myStaticVariable);
// let's change the value
parent.myStaticVariable = 66;
System.out.println(parent.myStaticVariable):
System,out.println(childOne.myStaticVariable);
System,out.println(childTwo.myStaticVariable);
// and the two copies of ChildOne?
childOne.myStaticVariable = 123;
System,out.println(childOneCopy.myStaticVariable);
childOneCopy.myStaticVariable = 456;
System,out.println(childOne.myStaticVariable);
}
And these results:
25 // no surprise here
25 // ChildOne does not define its own variable so it uses the Parent's
99 // As in the earlier example the variable is getting shadowed
66 // we just changed the variable value so this looks normal
66 // even though it was the Parent's variable we changed
// the Child shares it too
99 // Since ChildTwo's variable is shadowing the Parent value it has not changed.
123 // 123? But we changed the original ChildOne...
456 // Again we modified the other object but since they share
// the same static variable; changing one also changes the other.
Create a wrapper object for the String
public class MutableString
{
private String value;
public MutableString(String value)
{
this.value = value
}
public void set(String value)
{
this.value = value;
}
}
In your code, instead of storing strings, Class3 and Class2 would store references to objects of type MutableString
I was referring to the java language specification to understand the use of super. While I understand the first use case i.e.
The form super.Identifier refers to the field named Identifier of the current object, but with the current object viewed as an instance of the superclass of the current class.
I can't seem to understand the following use case:
The form T.super.Identifier refers to the field named Identifier of the lexically enclosing instance corresponding to T, but with that instance viewed as an instance of the superclass of T.
Could someone please explain this with the help of code?
I suppose the following could be illustrative of the second case:
class S{
int x=0;
}
class T extends S{
int x=1;
class C{
int x=2;
void print(){
System.out.println(this.x);
System.out.println(T.this.x);
System.out.println(T.super.x);
}
}
public static void main(String args[]){
T t=new T();
C c=t.new C();
c.print();
}
}
output:
2
1
0
I believe it applies to this situation
public class Main {
static class Child extends Parent{
class DeeplyNested {
public void method() {
Child.super.overriden();
}
}
public void overriden() {
System.out.println("child");
}
}
static class Parent {
public void overriden() {
System.out.println("parent");
}
}
public static void main(String args[]) {
Child child = new Child();
DeeplyNested deep = child.new DeeplyNested();
deep.method();
}
}
In the JLS
The form T.super.Identifier refers to the field named Identifier of
the lexically enclosing instance corresponding to T, but with that
instance viewed as an instance of the superclass of T.
Identifier is overriden, the method.
Here, the lexically enclosing instance is of type Child and its superclass is Parent. So T.super refers to the instance of Child viewed as Parent.
The code above prints
parent
I observer the behaviour that when we call a variable from a polymorphic object then it calls the parent's variable but when we call a method with the same polymorphic object then it calls child's method.Why this is the behaviour of polymorphism in Java? Why doesn't Java handle polymorphic variables and methods in same way?
class Parent{
int age =10;
public void showAge(){
System.out.println("Parent Age:"+age);
}
}
class ChildOne extends Parent{
int age = 20;
public void showAge(){
System.out.println("child one age:"+age);
}
}
class ChildTwo extends Parent{
int age = 30;
public void showAge(){
System.out.println("Child Two Age:"+age);
}
}
public class Test{
public static void main(String[] args) {
Parent parentChildOne = new ChildOne();
System.out.println("parentChildOne.age: "+parentChildOne.age);
parentChildOne.showAge();
Parent parentChildTwo = new ChildTwo();
System.out.println("parentChildTwo.age: "+parentChildTwo.age);
parentChildTwo.showAge();
}
}
Here is the output:
parentChildOne.age: 10
child one age:20
parentChildTwo.age: 10
Child Two Age:30
First of all keep in mind that Your variables are not polymorphic and the next climax thing is your this point
Parent parentChildOne = new ChildOne();
Parent parentChildTwo = new ChildTwo();
See when you are trying to call a method using Parent parentChildOne then it should call the child's method because it is overrided and according to polymorphism it should be called. Now see again Parent parentChildOne same object for variables , now here is nothing with polymorphism but jvm is dealing it now with the concept of shadowingSo thats why they both are showing their real behavioursPlease follow this tutorial of shadowing in java
Variables are not polymorphic in Java.
Instead, instance variables in child classes shadow instance variables with the same name in the parent class.
See also Can parent and child class in Java have same instance variable?
parentChildOne and parentChildTwo are of type Parent. So you are printing age of the Parent. Same happes with the showAge() method but the value of age is shadowed by the child classes.
Please see the comments into,
class Parent{
int age =10;
public void showAge(){
System.out.println("Parent Age:"+age);
}
}
class ChildOne extends Parent{
//when you extends Parent the inherited members are like
//and initialized into the default constructor
// int super.age =10;
int age = 20;
public void showAge(){
System.out.println("child one age:"+age);
}
}
class ChildTwo extends Parent{
//when you extends Parent the inherited members are like
//and initialized into the default constructor
// int super.age =10;
int age = 30;
public void showAge(){
System.out.println("Child Two Age:"+age);
}
}
public class Test{
public static void main(String[] args) {
Parent parentChildOne = new ChildOne();
// when we call like this, goes to the parent type of the variable instead of object.
System.out.println("parentChildOne.age: "+parentChildOne.age);
parentChildOne.showAge();
Parent parentChildTwo = new ChildTwo();
// when we call like this, goes to the parent type of the variable instead of object.
System.out.println("parentChildTwo.age: "+parentChildTwo.age);
parentChildTwo.showAge();
}
}
I have this piece of code
public class Base {
private int x=10;
void show(){
System.out.println(x);
}
}
public class Child extends Base {
public static void main(String[] args) {
Child c1=new Child();
c1.show();
}
}
This piece of code is working fine and output is 10.Can anyone please
Elaborate how this private data member is access in child class..
It isn't. The show() method is accessed. That method of the parent then accesses the field x. The show() method has default access, which includes access by the Child as it is in the same package.