Is it possible to call a constructor from another (within the same class, not from a subclass)? If yes how? And what could be the best way to call another constructor (if there are several ways to do it)?
Yes, it is possible:
public class Foo {
private int x;
public Foo() {
this(1);
}
public Foo(int x) {
this.x = x;
}
}
To chain to a particular superclass constructor instead of one in the same class, use super instead of this. Note that you can only chain to one constructor, and it has to be the first statement in your constructor body.
See also this related question, which is about C# but where the same principles apply.
Using this(args). The preferred pattern is to work from the smallest constructor to the largest.
public class Cons {
public Cons() {
// A no arguments constructor that sends default values to the largest
this(madeUpArg1Value,madeUpArg2Value,madeUpArg3Value);
}
public Cons(int arg1, int arg2) {
// An example of a partial constructor that uses the passed in arguments
// and sends a hidden default value to the largest
this(arg1,arg2, madeUpArg3Value);
}
// Largest constructor that does the work
public Cons(int arg1, int arg2, int arg3) {
this.arg1 = arg1;
this.arg2 = arg2;
this.arg3 = arg3;
}
}
You can also use a more recently advocated approach of valueOf or just "of":
public class Cons {
public static Cons newCons(int arg1,...) {
// This function is commonly called valueOf, like Integer.valueOf(..)
// More recently called "of", like EnumSet.of(..)
Cons c = new Cons(...);
c.setArg1(....);
return c;
}
}
To call a super class, use super(someValue). The call to super must be the first call in the constructor or you will get a compiler error.
[Note: I just want to add one aspect, which I did not see in the other answers: how to overcome limitations of the requirement that this() has to be on the first line).]
In Java another constructor of the same class can be called from a constructor via this(). Note however that this has to be on the first line.
public class MyClass {
public MyClass(double argument1, double argument2) {
this(argument1, argument2, 0.0);
}
public MyClass(double argument1, double argument2, double argument3) {
this.argument1 = argument1;
this.argument2 = argument2;
this.argument3 = argument3;
}
}
That this has to appear on the first line looks like a big limitation, but you can construct the arguments of other constructors via static methods. For example:
public class MyClass {
public MyClass(double argument1, double argument2) {
this(argument1, argument2, getDefaultArg3(argument1, argument2));
}
public MyClass(double argument1, double argument2, double argument3) {
this.argument1 = argument1;
this.argument2 = argument2;
this.argument3 = argument3;
}
private static double getDefaultArg3(double argument1, double argument2) {
double argument3 = 0;
// Calculate argument3 here if you like.
return argument3;
}
}
When I need to call another constructor from inside the code (not on the first line), I usually use a helper method like this:
class MyClass {
int field;
MyClass() {
init(0);
}
MyClass(int value) {
if (value<0) {
init(0);
}
else {
init(value);
}
}
void init(int x) {
field = x;
}
}
But most often I try to do it the other way around by calling the more complex constructors from the simpler ones on the first line, to the extent possible. For the above example
class MyClass {
int field;
MyClass(int value) {
if (value<0)
field = 0;
else
field = value;
}
MyClass() {
this(0);
}
}
Within a constructor, you can use the this keyword to invoke another constructor in the same class. Doing so is called an explicit constructor invocation.
Here's another Rectangle class, with a different implementation from the one in the Objects section.
public class Rectangle {
private int x, y;
private int width, height;
public Rectangle() {
this(1, 1);
}
public Rectangle(int width, int height) {
this( 0,0,width, height);
}
public Rectangle(int x, int y, int width, int height) {
this.x = x;
this.y = y;
this.width = width;
this.height = height;
}
}
This class contains a set of constructors. Each constructor initializes some or all of the rectangle's member variables.
As everybody already have said, you use this(…), which is called an explicit constructor invocation.
However, keep in mind that within such an explicit constructor invocation statement you may not refer to
any instance variables or
any instance methods or
any inner classes declared in this class or any superclass, or
this or
super.
As stated in JLS (§8.8.7.1).
Yes, any number of constructors can be present in a class and they can be called by another constructor using this() [Please do not confuse this() constructor call with this keyword]. this() or this(args) should be the first line in the constructor.
Example:
Class Test {
Test() {
this(10); // calls the constructor with integer args, Test(int a)
}
Test(int a) {
this(10.5); // call the constructor with double arg, Test(double a)
}
Test(double a) {
System.out.println("I am a double arg constructor");
}
}
This is known as constructor overloading.
Please note that for constructor, only overloading concept is applicable and not inheritance or overriding.
Using this keyword we can call one constructor in another constructor within same class.
Example :-
public class Example {
private String name;
public Example() {
this("Mahesh");
}
public Example(String name) {
this.name = name;
}
}
Yes it is possible to call one constructor from another. But there is a rule to it. If a call is made from one constructor to another, then
that new constructor call must be the first statement in the current constructor
public class Product {
private int productId;
private String productName;
private double productPrice;
private String category;
public Product(int id, String name) {
this(id,name,1.0);
}
public Product(int id, String name, double price) {
this(id,name,price,"DEFAULT");
}
public Product(int id,String name,double price, String category){
this.productId=id;
this.productName=name;
this.productPrice=price;
this.category=category;
}
}
So, something like below will not work.
public Product(int id, String name, double price) {
System.out.println("Calling constructor with price");
this(id,name,price,"DEFAULT");
}
Also, in the case of inheritance, when sub-class's object is created, the super class constructor is first called.
public class SuperClass {
public SuperClass() {
System.out.println("Inside super class constructor");
}
}
public class SubClass extends SuperClass {
public SubClass () {
//Even if we do not add, Java adds the call to super class's constructor like
// super();
System.out.println("Inside sub class constructor");
}
}
Thus, in this case also another constructor call is first declared before any other statements.
I will tell you an easy way
There are two types of constructors:
Default constructor
Parameterized constructor
I will explain in one Example
class ConstructorDemo
{
ConstructorDemo()//Default Constructor
{
System.out.println("D.constructor ");
}
ConstructorDemo(int k)//Parameterized constructor
{
this();//-------------(1)
System.out.println("P.Constructor ="+k);
}
public static void main(String[] args)
{
//this(); error because "must be first statement in constructor
new ConstructorDemo();//-------(2)
ConstructorDemo g=new ConstructorDemo(3);---(3)
}
}
In the above example I showed 3 types of calling
this() call to this must be first statement in constructor
This is Name less Object. this automatically calls the default constructor.
3.This calls the Parameterized constructor.
Note:
this must be the first statement in the constructor.
You can a constructor from another constructor of same class by using "this" keyword.
Example -
class This1
{
This1()
{
this("Hello");
System.out.println("Default constructor..");
}
This1(int a)
{
this();
System.out.println("int as arg constructor..");
}
This1(String s)
{
System.out.println("string as arg constructor..");
}
public static void main(String args[])
{
new This1(100);
}
}
Output -
string as arg constructor..
Default constructor..
int as arg constructor..
Calling constructor from another constructor
class MyConstructorDemo extends ConstructorDemo
{
MyConstructorDemo()
{
this("calling another constructor");
}
MyConstructorDemo(String arg)
{
System.out.print("This is passed String by another constructor :"+arg);
}
}
Also you can call parent constructor by using super() call
There are design patterns that cover the need for complex construction - if it can't be done succinctly, create a factory method or a factory class.
With the latest java and the addition of lambdas, it is easy to create a constructor which can accept any initialization code you desire.
class LambdaInitedClass {
public LamdaInitedClass(Consumer<LambdaInitedClass> init) {
init.accept(this);
}
}
Call it with...
new LambdaInitedClass(l -> { // init l any way you want });
Pretty simple
public class SomeClass{
private int number;
private String someString;
public SomeClass(){
number = 0;
someString = new String();
}
public SomeClass(int number){
this(); //set the class to 0
this.setNumber(number);
}
public SomeClass(int number, String someString){
this(number); //call public SomeClass( int number )
this.setString(someString);
}
public void setNumber(int number){
this.number = number;
}
public void setString(String someString){
this.someString = someString;
}
//.... add some accessors
}
now here is some small extra credit:
public SomeOtherClass extends SomeClass {
public SomeOtherClass(int number, String someString){
super(number, someString); //calls public SomeClass(int number, String someString)
}
//.... Some other code.
}
Hope this helps.
Yes it is possible to call one constructor from another with use of this()
class Example{
private int a = 1;
Example(){
this(5); //here another constructor called based on constructor argument
System.out.println("number a is "+a);
}
Example(int b){
System.out.println("number b is "+b);
}
You can call another constructor via the this(...) keyword (when you need to call a constructor from the same class) or the super(...) keyword
(when you need to call a constructor from a superclass).
However, such a call must be the first statement of your constructor. To overcome this limitation, use this answer.
The keyword this can be used to call a constructor from a constructor, when writing several constructor for a class, there are times when you'd like to call one constructor from another to avoid duplicate code.
Bellow is a link that I explain other topic about constructor and getters() and setters() and I used a class with two constructors. I hope the explanations and examples help you.
Setter methods or constructors
I know there are so many examples of this question but what I found I am putting here to share my Idea. there are two ways to chain constructor. In Same class you can use this keyword. in Inheritance, you need to use super keyword.
import java.util.*;
import java.lang.*;
class Test
{
public static void main(String args[])
{
Dog d = new Dog(); // Both Calling Same Constructor of Parent Class i.e. 0 args Constructor.
Dog cs = new Dog("Bite"); // Both Calling Same Constructor of Parent Class i.e. 0 args Constructor.
// You need to Explicitly tell the java compiler to use Argument constructor so you need to use "super" key word
System.out.println("------------------------------");
Cat c = new Cat();
Cat caty = new Cat("10");
System.out.println("------------------------------");
// Self s = new Self();
Self ss = new Self("self");
}
}
class Animal
{
String i;
public Animal()
{
i = "10";
System.out.println("Animal Constructor :" +i);
}
public Animal(String h)
{
i = "20";
System.out.println("Animal Constructor Habit :"+ i);
}
}
class Dog extends Animal
{
public Dog()
{
System.out.println("Dog Constructor");
}
public Dog(String h)
{
System.out.println("Dog Constructor with habit");
}
}
class Cat extends Animal
{
public Cat()
{
System.out.println("Cat Constructor");
}
public Cat(String i)
{
super(i); // Calling Super Class Paremetrize Constructor.
System.out.println("Cat Constructor with habit");
}
}
class Self
{
public Self()
{
System.out.println("Self Constructor");
}
public Self(String h)
{
this(); // Explicitly calling 0 args constructor.
System.out.println("Slef Constructor with value");
}
}
It is called Telescoping Constructor anti-pattern or constructor chaining. Yes, you can definitely do. I see many examples above and I want to add by saying that if you know that you need only two or three constructor, it might be ok. But if you need more, please try to use different design pattern like Builder pattern. As for example:
public Omar(){};
public Omar(a){};
public Omar(a,b){};
public Omar(a,b,c){};
public Omar(a,b,c,d){};
...
You may need more. Builder pattern would be a great solution in this case. Here is an article, it might be helpful
https://medium.com/#modestofiguereo/design-patterns-2-the-builder-pattern-and-the-telescoping-constructor-anti-pattern-60a33de7522e
Yes, you can call constructors from another constructor. For example:
public class Animal {
private int animalType;
public Animal() {
this(1); //here this(1) internally make call to Animal(1);
}
public Animal(int animalType) {
this.animalType = animalType;
}
}
you can also read in details from
Constructor Chaining in Java
Originally from an anser by Mirko Klemm, slightly modified to address the question:
Just for completeness: There is also the Instance initialization block that gets executed always and before any other constructor is called. It consists simply of a block of statements "{ ... }" somewhere in the body of your class definition. You can even have more than one. You can't call them, but they're like "shared constructor" code if you want to reuse some code across constructors, similar to calling methods.
So in your case
{
System.out.println("this is shared constructor code executed before the constructor");
field1 = 3;
}
There is also a "static" version of this to initialize static members: "static { ... }"
I prefer this way:
class User {
private long id;
private String username;
private int imageRes;
public User() {
init(defaultID,defaultUsername,defaultRes);
}
public User(String username) {
init(defaultID,username, defaultRes());
}
public User(String username, int imageRes) {
init(defaultID,username, imageRes);
}
public User(long id, String username, int imageRes) {
init(id,username, imageRes);
}
private void init(long id, String username, int imageRes) {
this.id=id;
this.username = username;
this.imageRes = imageRes;
}
}
This question already has answers here:
When should I use "this" in a class?
(17 answers)
Closed 7 years ago.
I'm trying to get an understanding of what the the java keyword this actually does.
I've been reading Sun's documentation but I'm still fuzzy on what this actually does.
The this keyword is a reference to the current object.
class Foo
{
private int bar;
public Foo(int bar)
{
// the "this" keyword allows you to specify that
// you mean "this type" and reference the members
// of this type - in this instance it is allowing
// you to disambiguate between the private member
// "bar" and the parameter "bar" passed into the
// constructor
this.bar = bar;
}
}
Another way to think about it is that the this keyword is like a personal pronoun that you use to reference yourself. Other languages have different words for the same concept. VB uses Me and the Python convention (as Python does not use a keyword, simply an implicit parameter to each method) is to use self.
If you were to reference objects that are intrinsically yours you would say something like this:
My arm or my leg
Think of this as just a way for a type to say "my". So a psuedocode representation would look like this:
class Foo
{
private int bar;
public Foo(int bar)
{
my.bar = bar;
}
}
The keyword this can mean different things in different contexts, that's probably the source of your confusion.
It can be used as a object reference which refers to the instance the current method was called on: return this;
It can be used as a object reference which refers to the instance the current constructor is creating, e.g. to access hidden fields:
MyClass(String name)
{
this.name = name;
}
It can be used to invoke a different constructor of a a class from within a constructor:
MyClass()
{
this("default name");
}
It can be used to access enclosing instances from within a nested class:
public class MyClass
{
String name;
public class MyClass
{
String name;
public String getOuterName()
{
return MyClass.this.name;
}
}
}
"this" is a reference to the current object.
See details here
The keyword this is a reference to the current object. It's best explained with the following piece of code:
public class MyClass {
public void testingThis()
{
// You can access the stuff below by
// using this (although this is not mandatory)
System.out.println(this.myInt);
System.out.println(this.myStringMethod());
// Will print out:
// 100
// Hello World
}
int myInt = 100;
string myStringMethod()
{
return "Hello World";
}
}
It's not used a lot unless you have code standard at your place telling you to use the this keyword. There is one common use for it, and that's if you follow a code convention where you have parameter names that are the same as your class attributes:
public class ProperExample {
private int numberOfExamples;
public ProperExample(int numberOfExamples)
{
this.numberOfExamples = numberOfExamples;
}
}
One proper use of the this keyword is to chain constructors (making constructing object consistent throughout constructors):
public class Square {
public Square()
{
this(0, 0);
}
public Square(int x_and_y)
{
this(x_and_y, x_and_y);
}
public Square(int x, int y)
{
// finally do something with x and y
}
}
This keyword works the same way in e.g. C#.
An even better use of this
public class Blah implements Foo {
public Foo getFoo() {
return this;
}
}
It allows you to specifically "this" object in the current context. Another example:
public class Blah {
public void process(Foo foo) {
foo.setBar(this);
}
}
How else could you do these operations.
"this" keyword refers to current object due to which the method is under execution. It is also used to avoid ambiguity between local variable passed as a argument in a method and instance variable whenever instance variable and local variable has a same name.
Example ::
public class ThisDemo1
{
public static void main(String[] args)
{
A a1=new A(4,5);
}
}
class A
{
int num1;
int num2;
A(int num1)
{
this.num1=num1; //here "this" refers to instance variable num1.
//"this" avoids ambigutiy between local variable "num1" & instance variable "num1"
System.out.println("num1 :: "+(this.num1));
}
A(int num, int num2)
{
this(num); //here "this" calls 1 argument constructor within the same class.
this.num2=num2;
System.out.println("num2 :: "+(this.num2));
//Above line prints value of the instance variable num2.
}
}
The keyword 'this' refers to the current object's context. In many cases (as Andrew points out), you'll use an explicit this to make it clear that you're referring to the current object.
Also, from 'this and super':
*There are other uses for this. Sometimes, when you are writing an instance method, you need to pass the object that contains the method to a subroutine, as an actual parameter. In that case, you can use this as the actual parameter. For example, if you wanted to print out a string representation of the object, you could say "System.out.println(this);". Or you could assign the value of this to another variable in an assignment statement.
In fact, you can do anything with this that you could do with any other variable, except change its value.*
That site also refers to the related concept of 'super', which may prove to be helpful in understanding how these work with inheritance.
It's a reference of actual instance of a class inside a method of the same class.
coding
public class A{
int attr=10;
public int calc(){
return this.getA()+10;
}
/**
*get and set
**/
}//end class A
In calc() body, the software runs a method inside the object allocated currently.
How it's possible that the behaviour of the object can see itself? With the this keyword, exactly.
Really, the this keyword not requires a obligatory use (as super) because the JVM knows where call a method in the memory area, but in my opinion this make the code more readeable.
It can be also a way to access information on the current context.
For example:
public class OuterClass
{
public static void main(String[] args)
{
OuterClass oc = new OuterClass();
}
OuterClass()
{
InnerClass ic = new InnerClass(this);
}
class InnerClass
{
InnerClass(OuterClass oc)
{
System.out.println("Enclosing class: " + oc + " / " + oc.getClass());
System.out.println("This class: " + this + " / " + this.getClass());
System.out.println("Parent of this class: " + this.getClass().getEnclosingClass());
System.out.println("Other way to parent: " + OuterClass.this);
}
}
}
Think of it in terms of english, "this object" is the object you currently have.
WindowMaker foo = new WindowMaker(this);
For example, you are currently inside a class that extends from the JFrame and you want to pass a reference to the WindowMaker object for the JFrame so it can interact with the JFrame. You can pass a reference to the JFrame, by passing its reference to the object which is called "this".
Every object can access a reference to itself with keyword this (sometimes called the this
reference).
First lets take a look on code
public class Employee {
private int empId;
private String name;
public int getEmpId() {
return this.empId;
}
public String getName() {
return this.name;
}
public void setEmpId(int empId) {
this.empId = empId;
}
public void setName(String name) {
this.name = name;
}
}
In the above method getName() return instance variable name.
Now lets take another look of similar code is
public class Employee {
private int empId;
private String name;
public int getEmpId() {
return this.empId;
}
public String getName() {
String name="Yasir Shabbir";
return name;
}
public void setEmpId(int empId) {
this.empId = empId;
}
public void setName(String name) {
this.name = name;
}
public static void main(String []args){
Employee e=new Employee();
e.setName("Programmer of UOS");
System.out.println(e.getName());
}
}
Output
Yasir Shabbir
this operator always work with instance variable(Belong to Object)
not any class variable(Belong to Class)
this always refer to class non static attribute not any other parameter or local variable.
this always use in non static method
this operator cannot work on static variable(Class variable)
**NOTE:**It’s often a logic error when a method contains a parameter or local variable that has the
same name as a field of the class. In this case, use reference this if you wish to access the
field of the class—otherwise, the method parameter or local variable will be referenced.
What 'this' does is very simply. It holds the reference of current
object.
This keyword holds the reference of instance of current class
This keyword can not be used inside static function or static blocks
This keyword can be used to access shadowed variable of instance
This keyword can be used to pass current object as parameter in function calls
This keyword can be used to create constructor chain
Source: http://javaandme.com/core-java/this-word
I'm new with Java and I'm having trouble understanding the constructor issue,
I have looked at many tutorials and still I'm having difficult to understand why we use constructors, anyway, my specific question is :
Correct me if I'm wrong, if i want to add in my class more than one constructor, I'll write the first one and the second will be int type (inside the brackets).
is it because the constructors have to be with the same name as the class and we need to distinguish between them ?
what if I want to add a third constructor ? Can it also be int type ?
a) is it because the constructors have to be with the same name as the
class and we need to distinguish between them ?
Yes constructors are always the name of the class without any return type, and in order to distinguish between them, you can have different parameters.
b) what if i want to add a third constructor ? it can be also int type
?
Yes, you can add any no. of overloaded constructors but those all should be different in no. and/or type of parameters.
Like :-
public User() // default constructor
{
}
public User(int age) // overloaded constructor with int
{
}
public User(String name) // // overloaded constructor with String
{
}
public User(String name, int age) // // overloaded constructor with String and int
{
}
Yes a constructor has the same name as the Class.
As long as the constructors have different signatures you can have as many as you want. The signature is what distinguishes one constructor from another...
public MyClass()
{
}
public MyClass(int a)
{
}
public MyClass(int a, int b)
{
}
public MyClass(String a)
{
}
public MyClass(int a, String b)
{
}
Those are all different because they have different signatures.
Actually, if you want to have 10000 constructor, you can as long a signature are differents.
public class People {
public People(String name, int age) {
...
}
public People(String name) {
...
}
}
You can construct your object in a different way.
You can see an example by yourself looking at : the java String class wich has a plenty of constructors.
And yes, all constructors have the same name of his class.
But this will not works :
public class People {
public People(String name, int age) {
...
}
public People(String name, int numberOfLegs) {
...
}
}
Since you have two constructors with the same signature
The constructors purpouse is to contain the code to inizialize the object. Usually, the initialization is done using constructor parameters. You can have different constructors with different parameters list, as needed by your context. It is a good pratice to do constructor chaining, that is calling a base constructor from others.
Adding to the #brso05 answer,
This is also one of the ways:
public MyClass( int a)
{
}
public MyClass( int a, int b)
{
}
public MyClass( int a, String b)
{
}
And So on..It is the arguments which make difference, rest remains the same!
Sometimes in a constructor, no statement is given. What does that indicate? For example if i create a class CIRCLE, then inside the class i write CIRCLE() {}, that is nothing is written inside. Can anyone explain it?
If your question is "why would anyone write such a constructor", then the answer is that the no-args default constructor only exists if no other constructor is specified.
Consider the following class.
class Foo {
int x;
}
As written, someone could write the following code to construct Foo.
Foo foo = new Foo();
However, now suppose I added a constructor which takes arguments.
class Foo {
int x;
public Foo(int x) {
this.x = x;
}
}
Now, suddenly, Foo foo = new Foo(); no longer works. To restore it, I must add the empty constructor again.
class Foo {
int x;
public Foo(int x) {
this.x = x;
}
public Foo() { }
}
Now, What if there are no other constructors that take arguments?
In that case, it is generally as the other answers suggest, to restrict access to constructing the class.
In the following definition of Foo, nobody is allowed to construct Foo. Perhaps Foo is meant only as a static class.
class Foo {
int x;
private Foo() { }
}
In the protected case, only subclasses can construct Foo.
class Foo {
int x;
protected Foo() { }
}
If there is no code in the constructor, chances are, it was declared to change the access to the constructor. By default, constructors are public. If you wanted to make it private, protected or package-private, you must explicitly declare it and manually change the modifier.
class Example {
public static void main(String[] args) {
new Demo(); //this is currently allowed
}
}
class Demo {
}
In order to prevent the creation of a Demo object within Example, we could declare Demo's constructor amd make it private:
class Demo {
private Demo() { }
}
Another reason could be that the class has a constructor that requires parameters. If so, you must explicitly declare the no-arg constructor to be able to use it.
If nothing is written, then when a new Object of that type is created, nothing 'extra' is done, whereas if in the constructor has code in, it does something.
For example, the following consructor for a class called 'Bank' assigns the argument 'name' to the field 'bankName', then instantiates a Terminal and 2 bank accounts:
private static final int INITIAL_BALANCE = 200;
public Bank( String name )
{
bankName = name;
atm = new Terminal();
account1 = new BankAccount( INITIAL_BALANCE );
account2 = new BankAccount( INITIAL_BALANCE );
}
It's a default constructor. For instance if you go:
Circle circle = new Circle();
You are then calling the default constructor. When you go ... Circle() that is a call to the default constructor, the one with no parameters.
The point of this is just to 'construct' an object or instantiate a class (instantiate just means create an object which is an instance of the class) with no additional information i.e. parameters.
This would generally be used to initialize fields to their default values, like so:
public Circle() {
this.x = 0;
this.y = 0;
}