Related
I was just reading over the text given to me in my textbook and I'm not really sure I understand what it is saying. It's basically telling me that static methods or class methods include the "modifier" keyword static. But I don't really know what that means?
Could someone please explain to me in really simple terms what Static or Class Methods are?
Also, could I get a simple explanation on what Instance methods are?
This is what they give me in the textbook:
There are important practical implications of the presence or absence of the static modifier. A public class method may be invoked and executed as soon as Java processes the definition of the class to which it belongs. That is not the case for an instance method. Before a public instance method may be invoked and executed, an instance must be created of the class to which it belongs. To use a public class method, you just need the class. On the other hand, before you can use a public instance method you must have an instance of the class.
The manner in which a static method is invoked within the definition of another method varies according to whether or not the two methods belong to the same class. In the example above, factorial and main are both methods of the MainClass class. As a result, the invocation of factorial in the definition of main simply references the method name, "factorial".
The basic paradigm in Java is that you write classes, and that those classes are instantiated. Instantiated objects (an instance of a class) have attributes associated with them (member variables) that affect their behavior; when the instance has its method executed it will refer to these variables.
However, all objects of a particular type might have behavior that is not dependent at all on member variables; these methods are best made static. By being static, no instance of the class is required to run the method.
You can do this to execute a static method:
MyClass.staticMethod(); // Simply refers to the class's static code
But to execute a non-static method, you must do this:
MyClass obj = new MyClass(); //Create an instance
obj.nonstaticMethod(); // Refer to the instance's class's code
On a deeper level the compiler, when it puts a class together, collects pointers to methods and attaches them to the class. When those methods are executed it follows the pointers and executes the code at the far end. If a class is instantiated, the created object contains a pointer to the "virtual method table", which points to the methods to be called for that particular class in the inheritance hierarchy. However, if the method is static, no "virtual method table" is needed: all calls to that method go to the exact same place in memory to execute the exact same code. For that reason, in high-performance systems it's better to use a static method if you are not reliant on instance variables.
Methods and variables that are not declared as static are known as instance methods and instance variables. To refer to instance methods and variables, you must instantiate the class first means you should create an object of that class first.For static you don't need to instantiate the class u can access the methods and variables with the class name using period sign which is in (.)
for example:
Person.staticMethod(); //accessing static method.
for non-static method you must instantiate the class.
Person person1 = new Person(); //instantiating
person1.nonStaticMethod(); //accessing non-static method.
Difference between Static methods and Instance methods
Instance method are methods which require an object of its class to be created before it can be called. Static methods are the methods in Java that can be called without creating an object of class.
Static method is declared with static keyword. Instance method is not with static keyword.
Static method means which will exist as a single copy for a class. But instance methods exist as multiple copies depending on the number of instances created for that class.
Static methods can be invoked by using class reference. Instance or non static methods are invoked by using object reference.
Static methods can’t access instance methods and instance variables directly. Instance method can access static variables and static methods directly.
Reference : geeksforgeeks
Static methods, variables belongs to the whole class, not just an object instance. A static method, variable is associated with the class as a whole rather than with specific instances of a class. Each object will share a common copy of the static methods, variables. There is only one copy per class, no matter how many objects are created from it.
Instance methods => invoked on specific instance of a specific class. Method wants to know upon which class it was invoked. The way it happens there is a invisible parameter called 'this'. Inside of 'this' we have members of instance class already set with values. 'This' is not a variable. It's a value, you cannot change it and the value is reference to the receiver of the call.
Ex: You call repairmen(instance method) to fix your TV(actual program). He comes with tools('this' parameter). He comes with specific tools needed for fixing TV and he can fix other things also.
In static methods => there is no such thing as 'this'.
Ex: The same repairman (static method). When you call him you have to specify which repairman to call(like electrician). And he will come and fix your TV only. But, he doesn't have tools to fix other things (there is no 'this' parameter).
Static methods are usually useful for operations that don't require any data from an instance of the class (from 'this') and can perform their intended purpose solely using their arguments.
In short, static methods and static variables are class level where as instance methods and instance variables are instance or object level.
This means whenever a instance or object (using new ClassName()) is created, this object will retain its own copy of instace variables. If you have five different objects of same class, you will have five different copies of the instance variables. But the static variables and methods will be the same for all those five objects. If you need something common to be used by each object created make it static. If you need a method which won't need object specific data to work, make it static. The static method will only work with static variable or will return data on the basis of passed arguments.
class A {
int a;
int b;
public void setParameters(int a, int b){
this.a = a;
this.b = b;
}
public int add(){
return this.a + this.b;
}
public static returnSum(int s1, int s2){
return (s1 + s2);
}
}
In the above example, when you call add() as:
A objA = new A();
objA.setParameters(1,2); //since it is instance method, call it using object
objA.add(); // returns 3
B objB = new B();
objB.setParameters(3,2);
objB.add(); // returns 5
//calling static method
// since it is a class level method, you can call it using class itself
A.returnSum(4,6); //returns 10
class B{
int s=8;
int t = 8;
public addition(int s,int t){
A.returnSum(s,t);//returns 16
}
}
In first class, add() will return the sum of data passed by a specific object. But the static method can be used to get the sum from any class not independent if any specific instance or object. Hence, for generic methods which only need arguments to work can be made static to keep it all DRY.
If state of a method is not supposed to be changed or its not going to use any instance variables.
You want to call method without instance.
If it only works on arguments provided to it.
Utility functions are good instance of static methods. i.e math.pow(), this function is not going to change the state for different values. So it is static.
The behavior of an object depends on the variables and the methods of that class. When we create a class we create an object for it. For static methods, we don't require them as static methods means all the objects will have the same copy so there is no need of an object.
e.g:
Myclass.get();
In instance method each object will have different behaviour so they have to call the method using the object instance.
e.g:
Myclass x = new Myclass();
x.get();
Static Methods vs Instance methods
Constructor:
const Person = function (birthYear) {
this.birthYear = birthYear;
}
Instance Method -> Available
Person.prototype.calcAge = function () {
2037 - this.birthYear);
}
Static Method -> Not available
Person.hey = function(){
console.log('Hey')
}
Class:
class PersonCl {
constructor(birthYear) {
this.birthYear = birthYear;
}
/**
* Instance Method -> Available to instances
*/
calcAge() {
console.log(2037 - this.birthYear);
}
/**
* Static method -> Not available to instances
*/
static hey() {
console.log('Static HEY ! ');
}
}
The static modifier when placed in front of a function implies that only one copy of that function exists. If the static modifier is not placed in front of the function then with every object or instance of that class a new copy of that function is made. :)
Same is the case with variables.
Why can we access a static variable via an object reference in Java, like the code below?
public class Static {
private static String x = "Static variable";
public String getX() {
return this.x; // Case #1
}
public static void main(String[] args) {
Static member = new Static();
System.out.println(member.x); // Case #2
}
}
Generally, public variables can be accessed by everybody, and private variables can only be accessed from within the current instance of the class. In your example you're allowed to access the x variable from the main method, because that method is within the Static class.
If you're wondering why you're allowed to access it from another instance of Static class than the one you're currently in (which generally isn't allowed for private variables), it's simply because static variables don't exist on a per-instance basis, but on a per class basis. This means that the same static variable of A can be accessed from all instances of A.
If this wasn't the case, nobody would be able to access the private static variable at all, since it doesn't belong to one instance, but them all.
The reason that it is allowed is that the JLS says it is. The specific sections that allows this are JLS 6.5.6.2 (for the member.x cases) and JLS 15.11.1 (in both cases). The latter says:
If the field is static:
If the field is a non-blank final field, then the result is the value of the specified class variable in the class or interface that is the type of the Primary expression.
If the field is not final, or is a blank final and the field access occurs in a class variable initializer (§8.3.2) or static initializer (§8.7), then the result is a variable, namely, the specified class variable in the class that is the type of the Primary expression.
Why are these allowed by the JLS?
Frankly, I don't know. I can't think of any good reasons to allow them.
Either way, using a reference or this to access a static variable is a bad idea because most programmers are likely to be mislead into thinking that you are using an instance field. That is a strong reason to not use this feature of Java.
In your first and second cases you should reference the variable as x or Static.x rather than member.x. (I prefer Static.x.)
It is not best practice to reference a static variable in that way.
However your question was why is it allowed? I would guess the answer is to that a developer can change an instance member (field or variable) to a static member without having to change all the references to that member.
This is especially true in multi-developer environments. Otherwise your code may fail to compile just because your partner changed some instance variables to static variables.
static variables are otherwise called as class variables, because they are available to each object of that class.
As member is an object of the class Static, so you can access all static as wll as non static variables of Static class through member object.
The non-static member is instance member. The static member(class wide) could not access instance members because, there are no way to determine which instance owns any specific non-static members.
The instance object could always refers to static members as it belongs to class which global(shared) to its instances.
This logically makes sense although it is not interesting practice. Static variable is usually for enforcing single declaration of variable during instantiation. Object is a new copy of Class with other name. Even though object is new copy of class it is still with characteristics of the (uninstantiated) Class (first invisible instance). Therefore new object also has that static members pointing to the original copy. Thing to note is: New instance of StackOverflow is also StackOverflow.
I have used final and static variables as well. what i found about these variables is,
final variable
A final variable can only be initialized once, either via an initializer or an assignment statement.
Unlike the value of a constant, the value of a final variable is not necessarily known at compile time.
what variables should i declare as final-
Most often i use those variables whose value is constant universally and can never changed, such as the value of PI.
public static final double PI = 3.141592653589793;
static variables
These are those variables which belongs to the class and not to object(instance).
Static variables are initialized only once , at the start of the execution .
A single copy to be shared by all instances of the class
A static variable can be accessed directly by the class name and doesn’t need any object.
what variables should i declare as final-
Most of the time, i use those variables which i want to initialize only once and use them in the enitre class.
When to use final static variable
Now, i came across a term final static in one of my database project. I found that some of the database objects or even database version were declared as statci final.
static final String DATA_BASE = "BackUpDatabase.db";
static final int DATA_BASE_VERSION = 1;
Now, my question is what variables should we declare as final or static or final static, as using either of them could have solved the issue, then wyh to use both together.
static - Only use when a variable which is used globally
final - Only use when you need to declare a value as constant
static final - Only use when a value is globally used and it is a constant.
: - Here global means across all the instances of a java class
Variables declared as static final (or vice versa) are understood to be meaningful constants, and are named in all upper-case with underscores for spaces.
An example of a commonly encountered constant is Integer.MAX_VALUE, or Math.PI.
final only says that value once initialized can't be changed; static says that the attribute belongs to Class and NOT objects.
So when you say final static; this means there is just one copy of variable and it can't be changed.
- static in java means Class's member. Its shared by all the instances of the class.
- final keyword in java means, constant, but has different interpretation depending on what its being applied.
- When we use static final on a field, consider it as a Global variable.
- PI is static variable of Math Class and its directly accessed using the class name, as Math.PI.
- Use all letters in caps to define a static final variable.
final's interpretation:
final variable : Its value canNot be changed
final method : It canNot be overridden
final class : It canNot be extended
final Parameter : Its value canNot be changed which it receives from caller's argument
final Object Reference Variable : It canNot refer to any other object, other than the one its currently referring to
Declaring variables only as static can lead to change in their values by one or more instances of a class in which it is declared.
Declaring them as static final will help you to create a CONSTANT as #Vulcan told. Only one copy exists which can be accessed anywhere.
Static Variable
You can change the static variable value by calling static method
present in same class .
Static variable value will be same for all object created from this
class . if we change the value then all object of that class will get
new value ,old value will be lost.
Value can be changed multiple times.
Final variable
This variable value can be initialized by two way:
At the time of declaring the variable.
At the time of creating object of that class where class constructor will have this.finalvariable = newfinalvariablevalue;
Once initialized it can't be changed by any method (Static or non-static).
static methods or classes are implicitly final .
Because there is only one copy of this method existing for all the objects which means that subclasses dont have access to modify the copy.
lets say you have a method in the parent and you dont want subclasses to change this method.. just declare the parent method as a final. Here you go.
class Parent {
final void myMethod() {
//No one can change this method from subclassess
//compiler works efficiently because it knows that this method will not change
}
}
class Child extends Parent{
//from this class I can use myMethod but I cannot override.
}
I was just reading over the text given to me in my textbook and I'm not really sure I understand what it is saying. It's basically telling me that static methods or class methods include the "modifier" keyword static. But I don't really know what that means?
Could someone please explain to me in really simple terms what Static or Class Methods are?
Also, could I get a simple explanation on what Instance methods are?
This is what they give me in the textbook:
There are important practical implications of the presence or absence of the static modifier. A public class method may be invoked and executed as soon as Java processes the definition of the class to which it belongs. That is not the case for an instance method. Before a public instance method may be invoked and executed, an instance must be created of the class to which it belongs. To use a public class method, you just need the class. On the other hand, before you can use a public instance method you must have an instance of the class.
The manner in which a static method is invoked within the definition of another method varies according to whether or not the two methods belong to the same class. In the example above, factorial and main are both methods of the MainClass class. As a result, the invocation of factorial in the definition of main simply references the method name, "factorial".
The basic paradigm in Java is that you write classes, and that those classes are instantiated. Instantiated objects (an instance of a class) have attributes associated with them (member variables) that affect their behavior; when the instance has its method executed it will refer to these variables.
However, all objects of a particular type might have behavior that is not dependent at all on member variables; these methods are best made static. By being static, no instance of the class is required to run the method.
You can do this to execute a static method:
MyClass.staticMethod(); // Simply refers to the class's static code
But to execute a non-static method, you must do this:
MyClass obj = new MyClass(); //Create an instance
obj.nonstaticMethod(); // Refer to the instance's class's code
On a deeper level the compiler, when it puts a class together, collects pointers to methods and attaches them to the class. When those methods are executed it follows the pointers and executes the code at the far end. If a class is instantiated, the created object contains a pointer to the "virtual method table", which points to the methods to be called for that particular class in the inheritance hierarchy. However, if the method is static, no "virtual method table" is needed: all calls to that method go to the exact same place in memory to execute the exact same code. For that reason, in high-performance systems it's better to use a static method if you are not reliant on instance variables.
Methods and variables that are not declared as static are known as instance methods and instance variables. To refer to instance methods and variables, you must instantiate the class first means you should create an object of that class first.For static you don't need to instantiate the class u can access the methods and variables with the class name using period sign which is in (.)
for example:
Person.staticMethod(); //accessing static method.
for non-static method you must instantiate the class.
Person person1 = new Person(); //instantiating
person1.nonStaticMethod(); //accessing non-static method.
Difference between Static methods and Instance methods
Instance method are methods which require an object of its class to be created before it can be called. Static methods are the methods in Java that can be called without creating an object of class.
Static method is declared with static keyword. Instance method is not with static keyword.
Static method means which will exist as a single copy for a class. But instance methods exist as multiple copies depending on the number of instances created for that class.
Static methods can be invoked by using class reference. Instance or non static methods are invoked by using object reference.
Static methods can’t access instance methods and instance variables directly. Instance method can access static variables and static methods directly.
Reference : geeksforgeeks
Static methods, variables belongs to the whole class, not just an object instance. A static method, variable is associated with the class as a whole rather than with specific instances of a class. Each object will share a common copy of the static methods, variables. There is only one copy per class, no matter how many objects are created from it.
Instance methods => invoked on specific instance of a specific class. Method wants to know upon which class it was invoked. The way it happens there is a invisible parameter called 'this'. Inside of 'this' we have members of instance class already set with values. 'This' is not a variable. It's a value, you cannot change it and the value is reference to the receiver of the call.
Ex: You call repairmen(instance method) to fix your TV(actual program). He comes with tools('this' parameter). He comes with specific tools needed for fixing TV and he can fix other things also.
In static methods => there is no such thing as 'this'.
Ex: The same repairman (static method). When you call him you have to specify which repairman to call(like electrician). And he will come and fix your TV only. But, he doesn't have tools to fix other things (there is no 'this' parameter).
Static methods are usually useful for operations that don't require any data from an instance of the class (from 'this') and can perform their intended purpose solely using their arguments.
In short, static methods and static variables are class level where as instance methods and instance variables are instance or object level.
This means whenever a instance or object (using new ClassName()) is created, this object will retain its own copy of instace variables. If you have five different objects of same class, you will have five different copies of the instance variables. But the static variables and methods will be the same for all those five objects. If you need something common to be used by each object created make it static. If you need a method which won't need object specific data to work, make it static. The static method will only work with static variable or will return data on the basis of passed arguments.
class A {
int a;
int b;
public void setParameters(int a, int b){
this.a = a;
this.b = b;
}
public int add(){
return this.a + this.b;
}
public static returnSum(int s1, int s2){
return (s1 + s2);
}
}
In the above example, when you call add() as:
A objA = new A();
objA.setParameters(1,2); //since it is instance method, call it using object
objA.add(); // returns 3
B objB = new B();
objB.setParameters(3,2);
objB.add(); // returns 5
//calling static method
// since it is a class level method, you can call it using class itself
A.returnSum(4,6); //returns 10
class B{
int s=8;
int t = 8;
public addition(int s,int t){
A.returnSum(s,t);//returns 16
}
}
In first class, add() will return the sum of data passed by a specific object. But the static method can be used to get the sum from any class not independent if any specific instance or object. Hence, for generic methods which only need arguments to work can be made static to keep it all DRY.
If state of a method is not supposed to be changed or its not going to use any instance variables.
You want to call method without instance.
If it only works on arguments provided to it.
Utility functions are good instance of static methods. i.e math.pow(), this function is not going to change the state for different values. So it is static.
The behavior of an object depends on the variables and the methods of that class. When we create a class we create an object for it. For static methods, we don't require them as static methods means all the objects will have the same copy so there is no need of an object.
e.g:
Myclass.get();
In instance method each object will have different behaviour so they have to call the method using the object instance.
e.g:
Myclass x = new Myclass();
x.get();
Static Methods vs Instance methods
Constructor:
const Person = function (birthYear) {
this.birthYear = birthYear;
}
Instance Method -> Available
Person.prototype.calcAge = function () {
2037 - this.birthYear);
}
Static Method -> Not available
Person.hey = function(){
console.log('Hey')
}
Class:
class PersonCl {
constructor(birthYear) {
this.birthYear = birthYear;
}
/**
* Instance Method -> Available to instances
*/
calcAge() {
console.log(2037 - this.birthYear);
}
/**
* Static method -> Not available to instances
*/
static hey() {
console.log('Static HEY ! ');
}
}
The static modifier when placed in front of a function implies that only one copy of that function exists. If the static modifier is not placed in front of the function then with every object or instance of that class a new copy of that function is made. :)
Same is the case with variables.
Here is a generic class that I have defined, what I would like to know is when I am creating more specific classes for instance a CAR class when would I use a Class Variable? My personal understanding of a class variable is that a single copy of a class variable that has been declared in a class will be declared using the keyword static, and that each object that has been instantiated from the class will contain a single copy of the class variable.
An instance variable allows each instance of a class / object that has been created from the class to have a separate copy of the instance variable per object?
So an instance variable is useful for defining the properties of a class / data-type e.g a House would have a location, but now when would I use a class variable in a House object? or in other words what is the correct use of a class object in designing a class?
public class InstanceVaribale {
public int id; //Instance Variable: each object of this class will have a seperate copy of this variable that will exist during the life cycle of the object.
static int count = 0; //Class Variable: each object of this class will contain a single copy of this variable which has the same value unless mutated during the lifecycle of the objects.
InstanceVaribale() {
count++;
}
public static void main(String[] args) {
InstanceVaribale A = new InstanceVaribale();
System.out.println(A.count);
InstanceVaribale B = new InstanceVaribale();
System.out.println(B.count);
System.out.println(A.id);
System.out.println(A.count);
System.out.println(B.id);
System.out.println(B.count);
InstanceVaribale C = new InstanceVaribale();
System.out.println(C.count);
}
}
My personal understanding of a class variable is that a single copy of a class variable that has been declared in a class will be declared using the keyword static, and that each object that has been instantiated from the class will contain a single copy of the class variable.
No. It's not that "each object will contain a single copy". A static variable is associated with the type rather than each instance of the type. The instances don't have the variable at all.
There's exactly one variable (assuming you're only loading it from one classloader) however many instances of the type there are. No instances? Still one variable. A million instances? Still one variable.
Static variables are mostly useful for constants or constant-alikes - things like loggers, or "the set of valid prices" etc. Things which don't change over the course of the application. They should almost always be final in my experience, and the type should be an immutable type (like String). Where possible, use immutable collections too for static variables - or make sure the variable is private and that you never mutate the collection within the class.
You should avoid using static variables to store global changing state. It makes code much harder to test and reason about.
Static variables are used to store values that are shared between all instances of the class.
If this is not the case, it should be an instance variable.
1. Every object of the class will have its own copy of Instance Variable,its One per Object.
2. But static variable will be shared by all the objects of the class, its One per Class.
3. Now i will give 2 example where these two will have importance.
Instance variable:
Consider a Gaming Program, then each player will have different Name, Scores, Weapons-power, Stage reached, etc.....
Static variable:
Consider a Banking program, where each client will be given an Id, which is greater and unique than the previous one, so static variable will be apt for this.