What is the need for the JVM to call superclass constructor?
public class Test1{
public void dis()
{
System.out.println("In Test1");
}
}
public class Test2 extends Test1{
public void dis()
{
System.out.println("Inside test2");
super.dis();
}
}
Since dis() is an instance method, is it safe to assume that super is pointing to parent class object since the constructor is automatically called?
The keyword super does not point to some "parent class object". It is a name qualifier so you can refer to a method defined in the parent class for the current object. Thus, in the following:
public class Test2 extends Test1{
public void dis()
{
System.out.println("Inside test2");
super.dis();
}
}
the call super.dis() invokes the dis() method defined in the parent class for this object. It does not invoke the dis() method of some other object named super.
Slightly different things are going on with constructors. Every constructor must always start with a call to some constructor in the parent class. You can do this explicitly using the super keyword:
public class Test2 extends Test1{
public Test2() {
super(); // explicitly invokes parent class default constructor
. . .
}
}
If you don't explicitly call a particular parent class constructor, the compiler automatically inserts a call to the default (no-argument) parent class constructor. The call to a parent class constructor (if present) must be the first statement in a constructor. Within a method, however, super. can be used as a qualifier for any name wherever it is used (provided the name is a member of the parent class).
The super keyword is useful for:
Calling the superclass' implementation of a method overriden in this class
Accessing the superclass' constructor from a subclass constructor
Your example shows the first case in action, when calling dis() on an instance of Test2 the program must print, in this order:
Inside test2
In Test1
is it safe to assume that super is pointing to parent class object
super keyword is used to access direct super class members on the current object. It does not refer to any super class object.
since constructor is automaticallt called?
The role of super keyword is not dependent upon the super class constructor being called. Super class constructor is always called through constructor chaining using super() call to either no-arg or parameterized constructor.
One difference between chaining super class constructor, and invoking super class member is that: "While chaining constructors, the super() call has to be the first statement in constructor, while you can invoke super class method at any point in your current method".
This has nothing to do with constructors. Since Test2 extends Test1 and dis() is implemented in both classes, super.dis() in the subclass will call dis() in the superclass.
using super constructor we can call functions and variables directly from
super class in subclass for
public class Test1{
int a=5;
}
public class Test2 extends Test1{
int a=15;
int c;
c=a+super.a;
System.out.println("value of c is:"+
}
result :value of c is:20
you can call default constructor of super class by super() .
if there is variables then you can call it by super(parameter_list).
Related
I'm dealing with a class which extends JFrame.
It's not my code and it makes a call to super before it begins constructing the GUI. I'm wondering why this is done since I've always just accessed the methods of the superclass without having to call super();
There is an implicit call to super() with no arguments for all classes that have a parent - which is every user defined class in Java - so calling it explicitly is usually not required. However, you may use the call to super() with arguments if the parent's constructor takes parameters, and you wish to specify them. Moreover, if the parent's constructor takes parameters, and it has no default parameter-less constructor, you will need to call super() with argument(s).
An example, where the explicit call to super() gives you some extra control over the title of the frame:
class MyFrame extends JFrame
{
public MyFrame() {
super("My Window Title");
...
}
}
A call to your parent class's empty constructor super() is done automatically when you don't do it yourself. That's the reason you've never had to do it in your code. It was done for you.
When your superclass doesn't have a no-arg constructor, the compiler will require you to call super with the appropriate arguments. The compiler will make sure that you instantiate the class correctly. So this is not something you have to worry about too much.
Whether you call super() in your constructor or not, it doesn't affect your ability to call the methods of your parent class.
As a side note, some say that it's generally best to make that call manually for reasons of clarity.
None of the above answers answer the 'why'.
Found a good explanation here:
A subclass can have its own private data members, so a subclass can
also have its own constructors.
The constructors of the subclass can initialize only the instance
variables of the subclass. Thus, when a subclass object is
instantiated the subclass object must also automatically execute one
of the constructors of the superclass.
You might also want to read everything about the super keyword here or watch everything about the super keyword here.
We can access super class elements by using super keyword
Consider we have two classes, Parent class and Child class, with different implementations of method foo. Now in child class if we want to call the method foo of parent class, we can do so by super.foo(); we can also access parent elements by super keyword.
class parent {
String str="I am parent";
//method of parent Class
public void foo() {
System.out.println("Hello World " + str);
}
}
class child extends parent {
String str="I am child";
// different foo implementation in child Class
public void foo() {
System.out.println("Hello World "+str);
}
// calling the foo method of parent class
public void parentClassFoo(){
super.foo();
}
// changing the value of str in parent class and calling the foo method of parent class
public void parentClassFooStr(){
super.str="parent string changed";
super.foo();
}
}
public class Main{
public static void main(String args[]) {
child obj = new child();
obj.foo();
obj.parentClassFoo();
obj.parentClassFooStr();
}
}
It simply calls the default constructor of the superclass.
We use super keyword to call the members of the Superclass.
As a subclass inherits all the members (fields, methods, nested classes) from its parent and since Constructors are NOT members (They don't belong to objects. They are responsible for creating objects), they are NOT inherited by subclasses.
So we have to explicitly give the call for parent constructor so that the chain of constructor remains connected if we need to create an object for the superclass. At the time of object creation, only one constructor can be called. Through super, we can call the other constructor from within the current constructor when needed.
If you are thinking why it's there for a class that is not extending any other class, then just remember every class follows object class by default. So it's a good practice to keep super in your constructor.
Note: Even if you don't have super() in your first statement, the compiler will add it for you!
We can Access SuperClass members using super keyword
If your method overrides one of its superclass's methods, you can invoke the overridden method through the use of the keyword super. You can also use super to refer to a hidden field (although hiding fields is discouraged). Consider this class, Superclass:
public class Superclass {
public void printMethod() {
System.out.println("Printed in Superclass.");
}
}
// Here is a subclass, called Subclass, that overrides printMethod():
public class Subclass extends Superclass {
// overrides printMethod in Superclass
public void printMethod() {
super.printMethod();
System.out.println("Printed in Subclass");
}
public static void main(String[] args) {
Subclass s = new Subclass();
s.printMethod();
}
}
Within Subclass, the simple name printMethod() refers to the one declared in Subclass, which overrides the one in Superclass. So, to refer to printMethod() inherited from Superclass, Subclass must use a qualified name, using super as shown. Compiling and executing Subclass prints the following:
Printed in Superclass.
Printed in Subclass
as constructor is not a part of class,
so while calling it cannot be implemented,
by using SUPER() we can call the members and memberfunctions in constructor.
I'm dealing with a class which extends JFrame.
It's not my code and it makes a call to super before it begins constructing the GUI. I'm wondering why this is done since I've always just accessed the methods of the superclass without having to call super();
There is an implicit call to super() with no arguments for all classes that have a parent - which is every user defined class in Java - so calling it explicitly is usually not required. However, you may use the call to super() with arguments if the parent's constructor takes parameters, and you wish to specify them. Moreover, if the parent's constructor takes parameters, and it has no default parameter-less constructor, you will need to call super() with argument(s).
An example, where the explicit call to super() gives you some extra control over the title of the frame:
class MyFrame extends JFrame
{
public MyFrame() {
super("My Window Title");
...
}
}
A call to your parent class's empty constructor super() is done automatically when you don't do it yourself. That's the reason you've never had to do it in your code. It was done for you.
When your superclass doesn't have a no-arg constructor, the compiler will require you to call super with the appropriate arguments. The compiler will make sure that you instantiate the class correctly. So this is not something you have to worry about too much.
Whether you call super() in your constructor or not, it doesn't affect your ability to call the methods of your parent class.
As a side note, some say that it's generally best to make that call manually for reasons of clarity.
None of the above answers answer the 'why'.
Found a good explanation here:
A subclass can have its own private data members, so a subclass can
also have its own constructors.
The constructors of the subclass can initialize only the instance
variables of the subclass. Thus, when a subclass object is
instantiated the subclass object must also automatically execute one
of the constructors of the superclass.
You might also want to read everything about the super keyword here or watch everything about the super keyword here.
We can access super class elements by using super keyword
Consider we have two classes, Parent class and Child class, with different implementations of method foo. Now in child class if we want to call the method foo of parent class, we can do so by super.foo(); we can also access parent elements by super keyword.
class parent {
String str="I am parent";
//method of parent Class
public void foo() {
System.out.println("Hello World " + str);
}
}
class child extends parent {
String str="I am child";
// different foo implementation in child Class
public void foo() {
System.out.println("Hello World "+str);
}
// calling the foo method of parent class
public void parentClassFoo(){
super.foo();
}
// changing the value of str in parent class and calling the foo method of parent class
public void parentClassFooStr(){
super.str="parent string changed";
super.foo();
}
}
public class Main{
public static void main(String args[]) {
child obj = new child();
obj.foo();
obj.parentClassFoo();
obj.parentClassFooStr();
}
}
It simply calls the default constructor of the superclass.
We use super keyword to call the members of the Superclass.
As a subclass inherits all the members (fields, methods, nested classes) from its parent and since Constructors are NOT members (They don't belong to objects. They are responsible for creating objects), they are NOT inherited by subclasses.
So we have to explicitly give the call for parent constructor so that the chain of constructor remains connected if we need to create an object for the superclass. At the time of object creation, only one constructor can be called. Through super, we can call the other constructor from within the current constructor when needed.
If you are thinking why it's there for a class that is not extending any other class, then just remember every class follows object class by default. So it's a good practice to keep super in your constructor.
Note: Even if you don't have super() in your first statement, the compiler will add it for you!
We can Access SuperClass members using super keyword
If your method overrides one of its superclass's methods, you can invoke the overridden method through the use of the keyword super. You can also use super to refer to a hidden field (although hiding fields is discouraged). Consider this class, Superclass:
public class Superclass {
public void printMethod() {
System.out.println("Printed in Superclass.");
}
}
// Here is a subclass, called Subclass, that overrides printMethod():
public class Subclass extends Superclass {
// overrides printMethod in Superclass
public void printMethod() {
super.printMethod();
System.out.println("Printed in Subclass");
}
public static void main(String[] args) {
Subclass s = new Subclass();
s.printMethod();
}
}
Within Subclass, the simple name printMethod() refers to the one declared in Subclass, which overrides the one in Superclass. So, to refer to printMethod() inherited from Superclass, Subclass must use a qualified name, using super as shown. Compiling and executing Subclass prints the following:
Printed in Superclass.
Printed in Subclass
as constructor is not a part of class,
so while calling it cannot be implemented,
by using SUPER() we can call the members and memberfunctions in constructor.
In the book Java: The complete reference
// Demonstrate when constructors are called.
// Create a super class.
class A {
A() {
System.out.println("Inside A's constructor.");
}
}
// Create a subclass by extending class A.
class B extends A {
B() {
System.out.println("Inside B's constructor.");
}
}
// Create another subclass by extending B.
class C extends B {
C() {
System.out.println("Inside C's constructor.");
}
}
class CallingCons {
public static void main(String args[]) {
C c = new C();
}
}
Output:
Inside A’s constructor
Inside B’s constructor
Inside C’s constructor
It is demonstrating how the constructor of a subclass is called. But why are constructors of the super class called in the absence of a super() constructor.
Why did the Java Language designers consider it necessary to do so?
As others have pointed out, if you don't start your constructor with a super(...) call, the compiler will put in a call to super() for you.
As to the why, you have to start with remembering what a constructor is for in the first place: initializing the object. What does that mean, specifically? In practice, it means assigning values to the object's fields, and establishing invariants.
Without a call to super(), the B and A classes wouldn't have a chance to do that for whatever fields they contain. And you can't even have the C() constructor do it for them, if those fields are private, since private fields aren't accessible outside your class (not even your super class's fields are accessible). Even if you could, it wouldn't be a good idea; it would also break encapsulation. For instance, imagine having to change your code if a super class -- possibly a complex one whose internals you're not an expert in -- suddenly decided to change its implementation details.
To illustrate this, consider a very simple set of classes:
public class Super {
private final String name;
Super() {
name = "default";
}
public String name() {
return name.toUpperCase();
}
}
public class Sub extends Super {
public Sub() {
// don't do anything
}
}
When you instantiate Sub, it will start out by calling Super's constructor. If it didn't, the name field would be null (the default value for reference types). But the name() method doesn't check for null; it assumes that the reference is non-null, because the constructor establishes that invariant. So, in our pseudo-Java that doesn't call the super constructor, Super.name has to get a bit more complicated -- it has to check for name == null.
You can imagine that as the classes gain more fields, with more interesting invariants, this toy example can become more and more complicated. Forcing you to call the super constructor -- either explicitly or implicitly -- lets the authors of that super class establish their invariants, resulting in simpler, more maintainable code.
Every constructor calls its superclass constructor. super() call take place as the first line in the constructor. From javadoc:
If a constructor does not explicitly invoke a superclass constructor, the Java compiler automatically inserts a call to the
no-argument constructor of the superclass. If the super class does not
have a no-argument constructor, you will get a compile-time error.
Object does have such a constructor, so if Object is the only
superclass, there is no problem.
more here
Because it says so in the Java Language Specification.
If a constructor body does not begin with an explicit constructor invocation and the constructor being declared is not part of the primordial class Object, then the constructor body implicitly begins with a superclass constructor invocation "super();", an invocation of the constructor of its direct superclass that takes no arguments.
Even it has a role with Abstract classes also. we can't initialize object of abstract class. But Child class of Abstract class calls the super() method by default. So abstract class constructor can initialize its instance variables.
for example:
public abstract class TestA {
private int a;
public TestA()
{
a=10;
}
public int displayA()
{
return a;
}
abstract void display();
}
public class TestB extends TestA{
#Override
void display() {
System.out.println("this is class B");
}
}
package Abstract;
public class TestMain {
public static void main(String[] args) {
TestA obj= new TestB();
System.out.println(obj.displayA());
}
}
Output is : 10
Here you can see, when we initiating object of class TestB , by default super constructor is calling and TestA's constructor is assigning the value of a. If super will not be called by default we can't assign instance variables of abstract class.
Inheritance is basically inheriting all the properties of your parent class. So if a sub class constructor is called, it should definitely and by default inherit all its parent class properties also. In the following code, all the properties of class A should be made available in class B also, so if I just call B's constructor, all the class A's properties(except private) are also initialized and made available, meaning B has inherited A's properties
class A {
protected int a;
A() {
a=12;
System.out.println("Inside A's constructor.");
}
}
class B extends A {
B() {
System.out.println("Inside B's constructor.");
System.out.println(a);
}
}
public class ConstructorInheritance {
public static void main(String args[]) {
B b=new B();
}
}
output:
Inside A's constructor.
Inside B's constructor.
12
Imagine class C accessing an unitialized variable of class B or A. Implicitly calling constructors of class B-->class A makes sure that you are always accessing initialized variables of inherited classes(A or B)
"The Java programming language" says "A constructor in subclass can initialize its individual state, however, as keeping contract, only super class knows how to initialize super class's state".
Thus, constructor of super class have to be called. There is sequence how the constructor processed:
Call super class constructor
Initialize fields with initializers and initialization blocks
Execute body of the constructor
For more details, have a look of the book to section "3.2".
public class Superclass {
void method0(){
System.out.println("superclass");
}
}
public class Subclass extends Superclass{
void method0(){
System.out.println("subclass");
}
void method1(){
super.method0();
}
void method2(){
this.method0();
}
}
public class RunClass {
public static void main(String[] args){
new Subclass().method1();
new Subclass().method2();
}
}
the code above print out
superclass
superclass
while I expect it to print out
superclass
subclass
Isn't this.method0() refer to the method0 in subclass and print out subclass instead of superclass?
super represents the instance of parent class.
this represents the instance of current class.
It will print
superclass
subclass
I ran your code and it gaves me
superclass
subclass
this what should printed every thing seems ok
new Subclass().method1();
executes the method1() of Subclass instance, which in turn calls super.method0(); i.e parent class instance's method0() i.e. Superclass instance method0().
new Subclass().method2();
executes the method2() of Subclass instance, which in turn calls this.method0(); i.e this instance's method0() i.e. Subclass instance method0().
super is used to access instance members of the parent class while this is used to access members of the current class.
First of all, it prints out the what you are expecting.
Second,
Isn't this.method0() refer to the method0 in subclass and print out
subclass instead of superclass?
this => refer to current object, using it you can use it (kinda of pointer to itself, in general terms )
super => refer to super class object in an hierarchy, usually used to access the hidden members in subclass
I'm dealing with a class which extends JFrame.
It's not my code and it makes a call to super before it begins constructing the GUI. I'm wondering why this is done since I've always just accessed the methods of the superclass without having to call super();
There is an implicit call to super() with no arguments for all classes that have a parent - which is every user defined class in Java - so calling it explicitly is usually not required. However, you may use the call to super() with arguments if the parent's constructor takes parameters, and you wish to specify them. Moreover, if the parent's constructor takes parameters, and it has no default parameter-less constructor, you will need to call super() with argument(s).
An example, where the explicit call to super() gives you some extra control over the title of the frame:
class MyFrame extends JFrame
{
public MyFrame() {
super("My Window Title");
...
}
}
A call to your parent class's empty constructor super() is done automatically when you don't do it yourself. That's the reason you've never had to do it in your code. It was done for you.
When your superclass doesn't have a no-arg constructor, the compiler will require you to call super with the appropriate arguments. The compiler will make sure that you instantiate the class correctly. So this is not something you have to worry about too much.
Whether you call super() in your constructor or not, it doesn't affect your ability to call the methods of your parent class.
As a side note, some say that it's generally best to make that call manually for reasons of clarity.
None of the above answers answer the 'why'.
Found a good explanation here:
A subclass can have its own private data members, so a subclass can
also have its own constructors.
The constructors of the subclass can initialize only the instance
variables of the subclass. Thus, when a subclass object is
instantiated the subclass object must also automatically execute one
of the constructors of the superclass.
You might also want to read everything about the super keyword here or watch everything about the super keyword here.
We can access super class elements by using super keyword
Consider we have two classes, Parent class and Child class, with different implementations of method foo. Now in child class if we want to call the method foo of parent class, we can do so by super.foo(); we can also access parent elements by super keyword.
class parent {
String str="I am parent";
//method of parent Class
public void foo() {
System.out.println("Hello World " + str);
}
}
class child extends parent {
String str="I am child";
// different foo implementation in child Class
public void foo() {
System.out.println("Hello World "+str);
}
// calling the foo method of parent class
public void parentClassFoo(){
super.foo();
}
// changing the value of str in parent class and calling the foo method of parent class
public void parentClassFooStr(){
super.str="parent string changed";
super.foo();
}
}
public class Main{
public static void main(String args[]) {
child obj = new child();
obj.foo();
obj.parentClassFoo();
obj.parentClassFooStr();
}
}
It simply calls the default constructor of the superclass.
We use super keyword to call the members of the Superclass.
As a subclass inherits all the members (fields, methods, nested classes) from its parent and since Constructors are NOT members (They don't belong to objects. They are responsible for creating objects), they are NOT inherited by subclasses.
So we have to explicitly give the call for parent constructor so that the chain of constructor remains connected if we need to create an object for the superclass. At the time of object creation, only one constructor can be called. Through super, we can call the other constructor from within the current constructor when needed.
If you are thinking why it's there for a class that is not extending any other class, then just remember every class follows object class by default. So it's a good practice to keep super in your constructor.
Note: Even if you don't have super() in your first statement, the compiler will add it for you!
We can Access SuperClass members using super keyword
If your method overrides one of its superclass's methods, you can invoke the overridden method through the use of the keyword super. You can also use super to refer to a hidden field (although hiding fields is discouraged). Consider this class, Superclass:
public class Superclass {
public void printMethod() {
System.out.println("Printed in Superclass.");
}
}
// Here is a subclass, called Subclass, that overrides printMethod():
public class Subclass extends Superclass {
// overrides printMethod in Superclass
public void printMethod() {
super.printMethod();
System.out.println("Printed in Subclass");
}
public static void main(String[] args) {
Subclass s = new Subclass();
s.printMethod();
}
}
Within Subclass, the simple name printMethod() refers to the one declared in Subclass, which overrides the one in Superclass. So, to refer to printMethod() inherited from Superclass, Subclass must use a qualified name, using super as shown. Compiling and executing Subclass prints the following:
Printed in Superclass.
Printed in Subclass
as constructor is not a part of class,
so while calling it cannot be implemented,
by using SUPER() we can call the members and memberfunctions in constructor.