Java Encapsulation Concept not clear
Solution 1:
Yeah, this can be a little confusing sometimes. Let's go step by step: First, you need to understand
- What is encapsulation and why is it used.?
Encapsulation is one of the four fundamental OOP concepts.Encapsulation is the technique of making the fields in a class private and providing access to the fields via public methods. If a field is declared private, it cannot be accessed by anyone outside the class, thereby hiding the fields within the class. For this reason, encapsulation is also referred to as data hiding.
Encapsulation can be described as a protective barrier that prevents the code and data being randomly accessed by other code defined outside the class. Access to the data and code is tightly controlled by an interface.
The main benefit of encapsulation is the ability to modify our implemented code without breaking the code of others who use our code. With this feature Encapsulation gives maintainability, flexibility and extensibility to our code.
Take a small example:
public class EncapTest{
private String name;
private String idNum;
private int age;
public int getAge(){
return age;
}
public String getName(){
return name;
}
public String getIdNum(){
return idNum;
}
public void setAge( int newAge){
age = newAge;
}
public void setName(String newName){
name = newName;
}
public void setIdNum( String newId){
idNum = newId;
}
}
The above methods are called Accessors(aka getters and setters). Now you might ask,
- Why should you use accessors..? There are actually many good reasons to consider using accessors rather than directly exposing fields of a class.Getter and Setters make APIs more stable.
For instance, consider a field public in a class which is accessed by other classes. Now later on, you want to add any extra logic while getting and setting the variable. This will impact the existing client that uses the API. So any changes to this public field will require change to each class that refers it. On the contrary, with accessor methods, one can easily add some logic like cache some data, lazily initialize it later. Moreover, one can fire a property changed event if the new value is different from the previous value. All this will be seamless to the class that gets value using accessor method.
There are so many tutorials and explanations as to how and what are they. Google them.
As for your, current problem:
- You have two different classes, each with a main. That is wrong. They will have different properties.
- Code change suggested by @Subhrajyoti Majumder is the correct one. Check the answer for solving the problem.
In the meantime, read up on
- Encapsulation
- Accessors
for a better understanding of the concepts. Hope it helps. :)
Solution 2:
It seems you are running two different classes separately and assuming the changes done to attributes when you run EmployeeTest will reflect in Employee run. Note that changes will reflect in the same JRE instance. Excuse me in case i have misunderstood your problem.
EDIT: As per the user input. Here is the code how you can access and update the static member values:
class Employee {
public static int empid;
public static String empname;
public static void main(String[] args) {
System.out.println("print employe details:" + empid + " " + empname);
}
}
// EmployeeTest class
public class EmployeeTest {
public static void main(String[] args) {
Employee e = new Employee();
e.empid = 20;
e.empname = "jerry";
Employee.empid = 10;
Employee.empname = "tom";
Employee.main(null);
}
}
Solution 3:
public static field's are associated with class not with object, it break Object's encapsulation rule.
Employee class with two encapsulated field empid & empname.
public class Employee {
private int empid;
private String empname;
public int getEmpid(){
return this.empid;
}
public void setEmpid(int empid){
this.empid = empid;
}
...
}
public class EmployeeTest {
public static void main(String[] args) {
Employee e = new Employee();
e.setempId(1);
Employee e1 = new Employee();
e1.setempId(2);
}
}
Documentation for better understanding on encapsulation
Solution 4:
Encapsulation can be described as a protective barrier that prevents the code and data being randomly accessed by other code defined outside the class. Access to the data and code is tightly controlled by an interface.
Encapsulation in Java is the technique of making the fields in a class private and providing access to the fields via public methods.
If a field is declared private, it cannot be accessed by anyone outside the class, thereby hiding the fields within the class. For this reason, encapsulation is also referred to as data hiding.
Real-time example: cars and owners. All the functions of cars are encapsulated with the owners. Hence, No one else can access it..
The below is the code for this example.
public class Main {
public static void main(String[] args) {
Owner o1=new Car("SONY","Google Maps");
o1.activate_Sunroof();
o1.getNavigationSystem();
o1.getRadioSytem();
}
}
//Interface designed for exposing car functionalities that an owner can use.
public interface Owner {
void getNavigationSystem();
void getRadioSytem();
void activate_Sunroof();
}
/*
Car class protects the code and data access from outside world access by implementing Owner interface(i.e, exposing Cars functionalities) and restricting data access via private access modifier.
*/
public class Car implements Owner {
private String radioSystem;
private String gps;
public Car(String radioSystem, String gps) {
super();
this.radioSystem = radioSystem;
this.gps = gps;
}
public String getRadioSystem() {
return radioSystem;
}
public void setRadioSystem(String radioSystem) {
this.radioSystem = radioSystem;
}
public String getGps() {
return gps;
}
public void setGps(String gps) {
this.gps = gps;
}
@Override
public void getNavigationSystem() {
System.out.println("GPS system " + getGps() + " is in use...");
}
@Override
public void getRadioSytem() {
System.out.println("Radio system " + getRadioSystem() + " activated");
}
@Override
public void activate_Sunroof() {
System.out.println("Sunroof activated");
}
}