- Java Introduction
- Java Getting Started
- Java Syntax
- Java Comments
- Java Variables
- Java Data Types
- Java Type Casting
- Java Operators
- Java Strings
- Java Math
- Java Booleans
- Java If ... Else
- Java Switch
- Java While Loop
- Java For Loop
- Java Break And Continue
- Java Arrays
- Java Methods
- Java Method Parameters
- Java Method Overloading
- Java Scope
- Java Recursion
- Java OOP
- Java Classes And Objects
- Java Class Attributes
- Java Class Methods
- Java Constructors
- Java Modifiers
- Java Encapsulation
- Java Packages
- Java Inheritance
- Java Polymorphism
- Java Inner Classes
- Java Abstraction
- Java Interface
- Java Enums
- Java User Input (Scanner)
- Java Date And Time
- Java ArrayList
- Java LinkedList
- Java HashMap
- Java HashSet
- Java Iterator
- Java Wrapper Classes
- Java Exceptions - Try...Catch
- Java Regular Expressions
- Java Threads
- Java Lambda Expressions
- Java Files
- Java Create And Write To Files
- Java Read Files
- Java Delete Files
Java Modifiers
Modifiers
By now, you are quite familiar with the public keyword that appears in almost all of our examples:
public class Main
The public keyword is an access modifier, meaning that it is used to set the access level for classes, attributes, methods and constructors.
We divide modifiers into two groups:
- Access Modifiers - controls the access level
- Non-Access Modifiers - do not control access level, but provides other functionality
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Access Modifiers
For classes, you can use either public or default:
| Modifier | Description | |
|---|---|---|
public |
The class is accessible by any other class | |
| default | The class is only accessible by classes in the same package. This is used when you don't specify a modifier. You will learn more about packages in the Packages chapter |
For attributes, methods and constructors, you can use the one of the following:
| Modifier | Description | |
|---|---|---|
public |
The code is accessible for all classes | |
private |
The code is only accessible within the declared class | |
| default | The code is only accessible in the same package. This is used when you don't specify a modifier. You will learn more about packages in the Packages chapter | |
protected |
The code is accessible in the same package and subclasses. You will learn more about subclasses and superclasses in the Inheritance chapter |
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Non-Access Modifiers
For classes, you can use either final or abstract:
| Modifier | Description | |
|---|---|---|
final |
The class cannot be inherited by other classes (You will learn more about inheritance in the Inheritance chapter) | |
abstract |
The class cannot be used to create objects (To access an abstract class, it must be inherited from another class. You will learn more about inheritance and abstraction in the Inheritance and Abstraction chapters) |
For attributes and methods, you can use the one of the following:
| Modifier | Description |
|---|---|
final |
Attributes and methods cannot be overridden/modified |
static |
Attributes and methods belongs to the class, rather than an object |
abstract |
Can only be used in an abstract class, and can only be used on methods. The method does not have a body, for example abstract void run();. The body is provided by the subclass (inherited from). You will learn more about inheritance and abstraction in the Inheritance and Abstraction chapters |
transient |
Attributes and methods are skipped when serializing the object containing them |
synchronized |
Methods can only be accessed by one thread at a time |
volatile |
The value of an attribute is not cached thread-locally, and is always read from the "main memory" |
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Final
If you don't want the ability to override existing attribute values, declare attributes as final:
Example
public class Main {
final int x = 10;
final double PI = 3.14;
public static void main(String[] args) {
Main myObj = new Main();
myObj.x = 50; // will generate an error: cannot assign a value to a final variable
myObj.PI = 25; // will generate an error: cannot assign a value to a final variable
System.out.println(myObj.x);
}
}
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Static
A static method means that it can be accessed without creating an object of the class, unlike public:
Example
An example to demonstrate the differences between static and public methods:
public class Main {
// Static method
static void myStaticMethod() {
System.out.println("Static methods can be called without creating objects");
}
// Public method
public void myPublicMethod() {
System.out.println("Public methods must be called by creating objects");
}
// Main method
public static void main(String[ ] args) {
myStaticMethod(); // Call the static method
// myPublicMethod(); This would output an error
Main myObj = new Main(); // Create an object of Main
myObj.myPublicMethod(); // Call the public method
}
}
Abstract
An abstract method belongs to an abstract class, and it does not have a body. The body is provided by the subclass:
Example
// Code from filename: Main.java
// abstract class
abstract class Main {
public String fname = "John";
public int age = 24;
public abstract void study(); // abstract method
}
// Subclass (inherit from Main)
class Student extends Main {
public int graduationYear = 2018;
public void study() { // the body of the abstract method is provided here
System.out.println("Studying all day long");
}
}
// End code from filename: Main.java
// Code from filename: Second.java
class Second {
public static void main(String[] args) {
// create an object of the Student class (which inherits attributes and methods from Main)
Student myObj = new Student();
System.out.println("Name: " + myObj.fname);
System.out.println("Age: " + myObj.age);
System.out.println("Graduation Year: " + myObj.graduationYear);
myObj.study(); // call abstract method
}
}
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