Related
To be specific, I was trying this code:
package hello;
public class Hello {
Clock clock = new Clock();
public static void main(String args[]) {
clock.sayTime();
}
}
But it gave the error
Cannot access non-static field in static method main
So I changed the declaration of clock to this:
static Clock clock = new Clock();
And it worked. What does it mean to put that keyword before the declaration? What exactly will it do and/or restrict in terms of what can be done to that object?
static members belong to the class instead of a specific instance.
It means that only one instance of a static field exists[1] even if you create a million instances of the class or you don't create any. It will be shared by all instances.
Since static methods also do not belong to a specific instance, they can't refer to instance members. In the example given, main does not know which instance of the Hello class (and therefore which instance of the Clock class) it should refer to. static members can only refer to static members. Instance members can, of course access static members.
Side note: Of course, static members can access instance members through an object reference.
Example:
public class Example {
private static boolean staticField;
private boolean instanceField;
public static void main(String[] args) {
// a static method can access static fields
staticField = true;
// a static method can access instance fields through an object reference
Example instance = new Example();
instance.instanceField = true;
}
[1]: Depending on the runtime characteristics, it can be one per ClassLoader or AppDomain or thread, but that is beside the point.
It means that there is only one instance of "clock" in Hello, not one per each separate instance of the "Hello" class, or more-so, it means that there will be one commonly shared "clock" reference among all instances of the "Hello" class.
So if you were to do a "new Hello" anywhere in your code:
A- in the first scenario (before the change, without using "static"), it would make a new clock every time a "new Hello" is called, but
B- in the second scenario (after the change, using "static"), every "new Hello" instance would still share and use the initial and same "clock" reference first created.
Unless you needed "clock" somewhere outside of main, this would work just as well:
package hello;
public class Hello
{
public static void main(String args[])
{
Clock clock=new Clock();
clock.sayTime();
}
}
The static keyword means that something (a field, method or nested class) is related to the type rather than any particular instance of the type. So for example, one calls Math.sin(...) without any instance of the Math class, and indeed you can't create an instance of the Math class.
For more information, see the relevant bit of Oracle's Java Tutorial.
Sidenote
Java unfortunately allows you to access static members as if they were instance members, e.g.
// Bad code!
Thread.currentThread().sleep(5000);
someOtherThread.sleep(5000);
That makes it look as if sleep is an instance method, but it's actually a static method - it always makes the current thread sleep. It's better practice to make this clear in the calling code:
// Clearer
Thread.sleep(5000);
The static keyword in Java means that the variable or function is shared between all instances of that class as it belongs to the type, not the actual objects themselves.
So if you have a variable: private static int i = 0; and you increment it (i++) in one instance, the change will be reflected in all instances. i will now be 1 in all instances.
Static methods can be used without instantiating an object.
Basic usage of static members...
public class Hello
{
// value / method
public static String staticValue;
public String nonStaticValue;
}
class A
{
Hello hello = new Hello();
hello.staticValue = "abc";
hello.nonStaticValue = "xyz";
}
class B
{
Hello hello2 = new Hello(); // here staticValue = "abc"
hello2.staticValue; // will have value of "abc"
hello2.nonStaticValue; // will have value of null
}
That's how you can have values shared in all class members without sending class instance Hello to other class. And whit static you don't need to create class instance.
Hello hello = new Hello();
hello.staticValue = "abc";
You can just call static values or methods by class name:
Hello.staticValue = "abc";
Static means that you don't have to create an instance of the class to use the methods or variables associated with the class. In your example, you could call:
Hello.main(new String[]()) //main(...) is declared as a static function in the Hello class
directly, instead of:
Hello h = new Hello();
h.main(new String[]()); //main(...) is a non-static function linked with the "h" variable
From inside a static method (which belongs to a class) you cannot access any members which are not static, since their values depend on your instantiation of the class. A non-static Clock object, which is an instance member, would have a different value/reference for each instance of your Hello class, and therefore you could not access it from the static portion of the class.
Static in Java:
Static is a Non Access Modifier.
The static keyword belongs to the class than instance of the class.
can be used to attach a Variable or Method to a Class.
Static keyword CAN be used with:
Method
Variable
Class nested within another Class
Initialization Block
CAN'T be used with:
Class (Not Nested)
Constructor
Interfaces
Method Local Inner Class(Difference then nested class)
Inner Class methods
Instance Variables
Local Variables
Example:
Imagine the following example which has an instance variable named count which in incremented in the constructor:
package pkg;
class StaticExample {
int count = 0;// will get memory when instance is created
StaticExample() {
count++;
System.out.println(count);
}
public static void main(String args[]) {
StaticExample c1 = new StaticExample();
StaticExample c2 = new StaticExample();
StaticExample c3 = new StaticExample();
}
}
Output:
1 1 1
Since instance variable gets the memory at the time of object creation, each object will have the copy of the instance variable, if it is incremented, it won't reflect to other objects.
Now if we change the instance variable count to a static one then the program will produce different output:
package pkg;
class StaticExample {
static int count = 0;// will get memory when instance is created
StaticExample() {
count++;
System.out.println(count);
}
public static void main(String args[]) {
StaticExample c1 = new StaticExample();
StaticExample c2 = new StaticExample();
StaticExample c3 = new StaticExample();
}
}
Output:
1 2 3
In this case static variable will get the memory only once, if any object changes the value of the static variable, it will retain its value.
Static with Final:
The global variable which is declared as final and static remains unchanged for the whole execution. Because, Static members are stored in the class memory and they are loaded only once in the whole execution. They are common to all objects of the class. If you declare static variables as final, any of the objects can’t change their value as it is final. Therefore, variables declared as final and static are sometimes referred to as Constants. All fields of interfaces are referred as constants, because they are final and static by default.
Picture Resource : Final Static
To add to existing answers, let me try with a picture:
An interest rate of 2% is applied to ALL savings accounts. Hence it is static.
A balance should be individual, so it is not static.
This discussion has so far ignored classloader considerations. Strictly speaking, Java static fields are shared between all instances of a class for a given classloader.
A field can be assigned to either the class or an instance of a class. By default fields are instance variables. By using static the field becomes a class variable, thus there is one and only one clock. If you make a changes in one place, it's visible everywhere. Instance varables are changed independently of one another.
In Java, the static keyword can be simply regarded as indicating the following:
"without regard or relationship to any particular instance"
If you think of static in this way, it becomes easier to understand its use in the various contexts in which it is encountered:
A static field is a field that belongs to the class rather than to any particular instance
A static method is a method that has no notion of this; it is defined on the class and doesn't know about any particular instance of that class unless a reference is passed to it
A static member class is a nested class without any notion or knowledge of an instance of its enclosing class (unless a reference to an enclosing class instance is passed to it)
The keyword static is used to denote a field or a method as belonging to the class itself and not to any particular instance. Using your code, if the object Clock is static, all of the instances of the Hello class will share this Clock data member (field) in common. If you make it non-static, each individual instance of Hello will have a unique Clock.
You added a main method to your class Hello so that you could run the code. The problem with that is that the main method is static and as such, it cannot refer to non-static fields or methods inside of it. You can resolve this in two ways:
Make all fields and methods of the Hello class static so that they could be referred to inside the main method. This is not a good thing to do (or the wrong reason to make a field and/or a method static)
Create an instance of your Hello class inside the main method and access all its fields and methods the way they were intended to be accessed and used in the first place.
For you, this means the following change to your code:
package hello;
public class Hello {
private Clock clock = new Clock();
public Clock getClock() {
return clock;
}
public static void main(String args[]) {
Hello hello = new Hello();
hello.getClock().sayTime();
}
}
static methods don't use any instance variables of the class they are defined in. A very good explanation of the difference can be found on this page
I have developed a liking for static methods (only, if possible) in "helper" classes.
The calling class need not create another member (instance) variable of the helper class. You just call the methods of the helper class. Also the helper class is improved because you no longer need a constructor, and you need no member (instance) variables.
There are probably other advantages.
Static makes the clock member a class member instead of an instance member. Without the static keyword you would need to create an instance of the Hello class (which has a clock member variable) - e.g.
Hello hello = new Hello();
hello.clock.sayTime();
//Here is an example
public class StaticClass
{
static int version;
public void printVersion() {
System.out.println(version);
}
}
public class MainClass
{
public static void main(String args[]) {
StaticClass staticVar1 = new StaticClass();
staticVar1.version = 10;
staticVar1.printVersion() // Output 10
StaticClass staticVar2 = new StaticClass();
staticVar2.printVersion() // Output 10
staticVar2.version = 20;
staticVar2.printVersion() // Output 20
staticVar1.printVersion() // Output 20
}
}
Can also think of static members not having a "this" pointer. They are shared among all instances.
Understanding Static concepts
public class StaticPractise1 {
public static void main(String[] args) {
StaticPractise2 staticPractise2 = new StaticPractise2();
staticPractise2.printUddhav(); //true
StaticPractise2.printUddhav(); /* false, because printUddhav() is although inside StaticPractise2, but it is where exactly depends on PC program counter on runtime. */
StaticPractise2.printUddhavsStatic1(); //true
staticPractise2.printUddhavsStatic1(); /*false, because, when staticPractise2 is blueprinted, it tracks everything other than static things and it organizes in its own heap. So, class static methods, object can't reference */
}
}
Second Class
public class StaticPractise2 {
public static void printUddhavsStatic1() {
System.out.println("Uddhav");
}
public void printUddhav() {
System.out.println("Uddhav");
}
}
main() is a static method which has two fundamental restrictions:
The static method cannot use a non-static data member or directly call non-static method.
this() and super() cannot be used in static context.
class A {
int a = 40; //non static
public static void main(String args[]) {
System.out.println(a);
}
}
Output: Compile Time Error
A question was asked here about the choice of the word 'static' for this concept. It was dup'd to this question, but I don't think the etymology has been clearly addressed. So...
It's due to keyword reuse, starting with C.
Consider data declarations in C (inside a function body):
void f() {
int foo = 1;
static int bar = 2;
:
}
The variable foo is created on the stack when the function is entered (and destroyed when the function terminates). By contrast, bar is always there, so it's 'static' in the sense of common English - it's not going anywhere.
Java, and similar languages, have the same concept for data. Data can either be allocated per instance of the class (per object) or once for the entire class. Since Java aims to have familiar syntax for C/C++ programmers, the 'static' keyword is appropriate here.
class C {
int foo = 1;
static int bar = 2;
:
}
Lastly, we come to methods.
class C {
int foo() { ... }
static int bar() { ... }
:
}
There is, conceptually speaking, an instance of foo() for every instance of class C. There is only one instance of bar() for the entire class C. This is parallel to the case we discussed for data, and therefore using 'static' is again a sensible choice, especially if you don't want to add more reserved keywords to your language.
Static Variables Can only be accessed only in static methods, so when we declare the static variables those getter and setter methods will be static methods
static methods is a class level we can access using class name
The following is example for Static Variables Getters And Setters:
public class Static
{
private static String owner;
private static int rent;
private String car;
public String getCar() {
return car;
}
public void setCar(String car) {
this.car = car;
}
public static int getRent() {
return rent;
}
public static void setRent(int rent) {
Static.rent = rent;
}
public static String getOwner() {
return owner;
}
public static void setOwner(String owner) {
Static.owner = owner;
}
}
A member in a Java program can be declared as static using the keyword “static” preceding its declaration/definition. When a member is declared static, then it essentially means that the member is shared by all the instances of a class without making copies of per instance.
Thus static is a non-class modifier used in Java and can be applied to the following members:
Variables
Methods
Blocks
Classes (more specifically, nested classes)
When a member is declared static, then it can be accessed without using an object. This means that before a class is instantiated, the static member is active and accessible. Unlike other non-static class members that cease to exist when the object of the class goes out of scope, the static member is still obviously active.
Static Variable in Java
A member variable of a class that is declared as static is called the Static Variable. It is also called as the “Class variable”. Once the variable is declared as static, memory is allocated only once and not every time when a class is instantiated. Hence you can access the static variable without a reference to an object.
The following Java program depicts the usage of Static variables:
class Main
{
// static variables a and b
static int a = 10;
static int b;
static void printStatic()
{
a = a /2;
b = a;
System.out.println("printStatic::Value of a : "+a + " Value of b :
"+b);
}
public static void main(String[] args)
{
printStatic();
b = a*5;
a++;
System.out.println("main::Value of a : "+a + " Value of b : "+b);
}
}
output::
printStatic::Value of a : Value of b : 5
main::Value of a : 6 Value of b : 25
In the above program, we have two static variables i.e. a and b. We modify these variables in a function “printStatic” as well as in “main”. Note that the values of these static variables are preserved across the functions even when the scope of the function ends. The output shows the values of variables in two functions.
Static Method
A method in Java is static when it is preceded by the keyword “static”.
Some points that you need to remember about the static method include:
A static method belongs to the class as against other non-static
methods that are invoked using the instance of a class.
To invoke a static method, you don’t need a class object.
The static data members of the class are accessible to the static
method. The static method can even change the values of the static
data member.
A static method cannot have a reference to ‘this’ or ‘super’ members.
Even if a static method tries to refer them, it will be a compiler
error.
Just like static data, the static method can also call other static
methods. A static method cannot refer to non-static data members or
variables and cannot call non-static methods too.
The following program shows the implementation of the static method in Java:
class Main
{
// static method
static void static_method()
{
System.out.println("Static method in Java...called without any
object");
}
public static void main(String[] args)
{
static_method();
}
}
output:
Static method in Java...called without any object
Static Block In Java
Just as you have function blocks in programming languages like C++, C#, etc. in Java also, there is a special block called “static” block that usually includes a block of code related to static data.
This static block is executed at the moment when the first object of the class is created (precisely at the time of classloading) or when the static member inside the block is used.
The following program shows the usage of a static block.
class Main
{
static int sum = 0;
static int val1 = 5;
static int val2;
// static block
static {
sum = val1 + val2;
System.out.println("In static block, val1: " + val1 + " val2: "+
val2 + " sum:" + sum);
val2 = val1 * 3;
sum = val1 + val2;
}
public static void main(String[] args)
{
System.out.println("In main function, val1: " + val1 + " val2: "+ val2 + " sum:" + sum);
}
}
output:
In static block, val1: 5 val2: 0 sum:5
In main function, val1: val2: 15 sum:20
Static Class
In Java, you have static blocks, static methods, and even static variables. Hence it’s obvious that you can also have static classes. In Java, it is possible to have a class inside another class and this is called a Nested class. The class that encloses the nested class is called the Outer class.
In Java, although you can declare a nested class as Static it is not possible to have the outer class as Static.
Let’s now explore the static nested classes in Java.
Static Nested Class
As already mentioned, you can have a nested class in Java declared as static. The static nested class differs from the non-static nested class(inner class) in certain aspects as listed below.
Unlike the non-static nested class, the nested static class doesn’t need an outer class reference.
A static nested class can access only static members of the outer class as against the non-static classes that can access static as well as non-static members of the outer class.
An example of a static nested class is given below.
class Main{
private static String str = "SoftwareTestingHelp";
//Static nested class
static class NestedClass{
//non-static method
public void display() {
System.out.println("Static string in OuterClass: " + str);
}
}
public static void main(String args[])
{
Main.NestedClassobj = new Main.NestedClass();
obj.display();
}
}
output
Static string in OuterClass: SoftwareTestingHelp
I think this is how static keyword works in java.
I do not quite understand the use of "static" properly.
I have a class which includes variables that I want to access from a different class.
However, when I try to access this getter method from the different class I get an error stating:
"non-static method getAccNumber() cannot be referenced from a static context."
So, how can I find this variable's value without making it static. The problem with this is if I make it static, every instance of this object overwrites the previous value.
So they all end up with the same account number in this case.
Let me explain in more detail:
I have a Class called Account, which contains a variable called accountNumber, and a getter method called getAccNumber().
I have a second class called AccountList which is a separate arraylist class to store instances of Account. I want to create a method to remove an element based upon its accountNumber. So I'm searching and using getAccnumber() within the AccountList class to compare with a user parameter and removing if correct!
But I can't use this method without making it static!!
Any help/explanation would be greatly appreciated :)
This is what I am trying to do:
public boolean removeAccount(String AccountNumber)
{
for(int index = 0; index < accounts.size(); index++)
{
if (AccountNumber.equals(Account.getAccNumber()))
{
accounts.remove(index);
return true;
}
}
return false;
}
Thank you!
Let's take an example where you have
public class A {
static void sayHi() { System.out.println("Hi");
//Other stuff
}
and
public class B {
void sayHi() { System.out.println("Hi");
//Other stuff
}
Then
public class C {
public C() {
A.sayHi(); //Possible since function is static : no instantiation is needed.
B.sayHi(); //Impossible : you need to instantiate B class first
}
You can check out this link for a short definition:
Static Method Definition
If you declare a variable as static, it will not be unique for each instance of the class. If you declare the variable as private only, then you can create getter and setter methods that will allow you to access the variable after you have created an instance of the class. For example, if you have classA and classB and you are working in classB and want the private int size of classA:
classA a = new ClassA();
int size = a.getSize(); //getSize() returns the private int size of classA
A static variable is one that lives with the class itself. A non-static variable is unique to each instance of that class (i.e., each object built from that class.) A static variable you can access as a property of the class, like:
SomeclassIMadeUp.numberOfFish;
so if you change the numberOfFish property for that class, anywhere you reference it, you see the change (as you've noticed.)
To have one unique to each instance, don't declare the variable as static and then add a getter and/or setter method to access it.
like
private int numberOfFish;
public int getNumberOfFish() { return (numberOfFish); }
So to your question...
Ocean pacific = new Ocean();
pacific.water = Ocean.salty; // <-- Copying the value from a static variable in the class Ocean
// to the instance variable in the object pacific (which is of Ocean class).
pacific.setNumberOfFish(1000000000);
Octopus o = new Octopus();
o.diningOpportunities = pacific.getNumberOfFish(); // <-- Calls the public method to return a
// value from the instance variable in the object pacific.
public class Ride {
public static String name;
public static int ticketsRequired;
public static float heightRequirement;
public Ride(String name, int ticketsRequired, float heightRequirement) {
this.name = name;
this.ticketsRequired = ticketsRequired;
this.heightRequirement = heightRequirement;
}
public static void main(String args[]) {
Ride coaster, tosser;
coaster = new Ride("Roller Coaster", 6, 4.25f);
tosser = new Ride("Tummy Tosser", 7, 4.9f);
}
}
It only takes the value of the last instance which is "tosser" no matter what I call, why is that? Did I mess up with the attributes?
Your class variables are static, which means there's only once copy of each for the entire class. You are overwriting the values in your constructor with each new object you create.
To have different values for each object, they need to be not static:
public String name;
public int ticketsRequired;
public float heightRequirement;
The fact that they're public means that they are accessible from any other class.
But that's also a sign that your class isn't properly encapsulated. You can make your fields accessible, even if they're private, but defining public accessor methods, e.g. getName().
Example, with one of the variables:
private String name;
and
public String getName() { return name; }
static variables are class variables. There is only one copy of static variables per class.
You are overwriting the static variables actually.
By removing the static keyword from all the three variables, you will now have instance variables. Every object of the class has its own copy of instance variables.
So the three declarations should be:
public String name;
public int ticketsRequired;
public float heightRequirement;
Now each object will have its own copy of these variables and you will get correct output.
static variables are the class variables. Those variables were loaded at the time of loading of the class. Which have the seperate memory location called static pool not in the heap. JVM maintains the copy of the variables for each updation called state of an object. This state will get upted at each instance level those are instance variables. But when come to the static variables only one copy will maintained at the time of class loading. This one copy will get updated. In your example all three variables are created at static pool and loaded at the time of Ride class loaded. And you made 3 updates on that copy. So that final update replaces with previous 2 updates.
*"But I tried declaring these attributes as non-static, when I use "something.ticketRequired" in another class, it saids "non-static variable ticketsRequired cannot be referenced from a static context""
static means this variable is the same for all instances of this class, so
public static String name;
will be the same for each Object of the class Ride, so coaster.name == tosser.name, because they reference to the same Object. If you assign a new String to it it updates it for all instances.
A static variable can also be accessed by its class name, so you don't even need to have any object to reference to the variable:
System.out.println(Ride.name); //This works too
"non-static variable ticketsRequired cannot be referenced from a static context"
This means that you are trying to access the member variable (=non-static variable) from a static context, so without any Object to reference to it.
If you have a non-static variable you need an Object to reference it:
public String name; //non-static
System.out.println(Ride.name); //doesn't work, since name is not static
System.out.println(coaster.name); //does work, prints "Roller Coaster"
System.out.println(tosser.name); //does work, prints "Tummy Tosser"
How do you define Global variables in Java ?
To define Global Variable you can make use of static Keyword
public class Example {
public static int a;
public static int b;
}
now you can access a and b from anywhere
by calling
Example.a;
Example.b;
You don't. That's by design. You shouldn't do it even if you could.
That being said you could create a set of public static members in a class named Globals.
public class Globals {
public static int globalInt = 0;
///
}
but you really shouldn't :). Seriously .. don't do it.
Another way is to create an interface like this:
public interface GlobalConstants
{
String name = "Chilly Billy";
String address = "10 Chicken head Lane";
}
Any class that needs to use them only has to implement the interface:
public class GlobalImpl implements GlobalConstants
{
public GlobalImpl()
{
System.out.println(name);
}
}
You are better off using dependency injection:
public class Globals {
public int a;
public int b;
}
public class UsesGlobals {
private final Globals globals;
public UsesGlobals(Globals globals) {
this.globals = globals;
}
}
Lots of good answers, but I want to give this example as it's considered the more proper way to access variables of a class by another class: using getters and setters.
The reason why you use getters and setters this way instead of just making the variable public is as follows. Lets say your var is going to be a global parameter that you NEVER want someone to change during the execution of your program (in the case when you are developing code with a team), something like maybe the URL for a website. In theory this could change and may be used many times in your program, so you want to use a global var to be able to update it all at once. But you do not want someone else to go in and change this var (possibly without realizing how important it is). In that case you simply do not include a setter method, and only include the getter method.
public class Global{
private static int var = 5;
public static int getVar(){
return Global.var;
}
//If you do not want to change the var ever then do not include this
public static void setVar(int var){
Global.var = var;
}
}
Truly speaking there is not a concept of "GLOBAL" in a java OO program
Nevertheless there is some truth behind your question because there will be some cases where you want to run a method at any part of the program.
For example---random() method in Phrase-O-Matic app;it is a method should be callable from anywhere of a program.
So in order to satisfy the things like Above "We need to have Global-like variables and methods"
TO DECLARE A VARIABLE AS GLOBAL.
1.Mark the variable as public static final While declaring.
TO DECLARE A METHOD AS GLOBAL.
1. Mark the method as public static While declaring.
Because I declared global variables and method as static you can call them anywhere you wish by simply with the help of following code
ClassName.X
NOTE: X can be either method name or variable name as per the requirement and ClassName is the name of the class in which you declared them.
There is no global variable in Java
Nevertheless, what we do have is a static keyword and that is all we need.
Nothing exists outside of class in Java. The static keyword represents a class variable that, contrary to instance variable, only has one copy and that transcends across all the instances of that class created, which means that its value can be changed and accessed across all instances at any point.
If you need a global variable which can be accessed beyond scopes, then this is the variable that you need, but its scope exists only where the class is, and that will be all.
Nothing should be global, except for constants.
public class MyMainClass {
public final static boolean DEBUGMODE=true;
}
Put this within your main class. In other .java files, use it through:
if(MyMainClass.DEBUGMODE) System.out.println("Some debugging info");
Make sure when you move your code off the cutting room floor and into release you remove or comment out this functionality.
If you have a workhorse method, like a randomizer, I suggest creating a "Toolbox" package! All coders should have one, then whenever you want to use it in a .java, just import it!
There is no such thing as a truly global variable in Java. Every static variable must belong to some class (like System.out), but when you have decided which class it will go in, you can refer to it from everywhere loaded by the same classloader.
Note that static variables should always be protected when updating to avoid race conditions.
Understanding the problem
I consider the qualification of global variable as a variable that could be accessed and changed anywhere in the code without caring about static/instance call or passing any reference from one class to another.
Usually if you have class A
public class A {
private int myVar;
public A(int myVar) {
this.myVar = myVar;
}
public int getMyVar() {
return myVar;
}
public void setMyVar(int mewVar) {
this.myVar = newVar;
}
}
and want to access and update myvar in a class B,
public class B{
private A a;
public void passA(A a){
this.a = a;
}
public void changeMyVar(int newVar){
a.setMyvar(newVar);
}
}
you will need to have a reference of an instance of the class A and update the value in the class B like this:
int initialValue = 2;
int newValue = 3;
A a = new A(initialValue);
B b = new B();
b.passA(a);
b.changeMyVar(newValue);
assertEquals(a.getMyVar(),newValue); // true
Solution
So my solution to this, (even if i'm not sure if it's a good practice), is to use a singleton:
public class Globals {
private static Globals globalsInstance = new Globals();
public static Globals getInstance() {
return globalsInstance;
}
private int myVar = 2;
private Globals() {
}
public int getMyVar() {
return myVar;
}
public void setMyVar(int myVar) {
this.myVar = myVar;
}
}
Now you can get the Global unique instance anywhere with:
Globals globals = Globals.getInstance();
// and read and write to myVar with the getter and setter like
int myVar = globals.getMyVar();
global.setMyVar(3);
public class GlobalClass {
public static int x = 37;
public static String s = "aaa";
}
This way you can access them with GlobalClass.x and GlobalClass.s
If you need to update global property, a simple getter/setter wrapper class can be used as global variable. A typical example is shown below.
public class GlobalHolder {
private static final GlobalHolder INSTANCE = new GlobalHolder();
private volatile int globalProperty;
public static GlobalHolder getInstance() {
return INSTANCE;
}
public int getGlobalProperty() {
return globalProperty;
}
public void setGlobalProperty(int globalProperty) {
this.globalProperty = globalProperty;
}
public static void main(String[] args) {
GlobalHolder.getInstance().setGlobalProperty(10);
System.out.println(GlobalHolder.getInstance().getGlobalProperty());
}
}
public class GlobalImpl {
public static int global = 5;
}
you can call anywhere you want:
GlobalImpl.global // 5
Creating an independent file, eg. Example.java to use the 1st solution, is just fine. You can do that also within the app, if e.g. the global variables are special to your current app, etc.:
Create a class at the beginning and declare your variables in there:
class Globals {
static int month_number;
static String month_name;
}
You can then access these variables -- using them as 'Globals.month_number', etc. -- from averywhere in your app.
very simple:
class UseOfGlobal
{
private static int a;
private static int b;
}
but it is always good to have local variables defined inside method blocks where ever possible.
As you probably guess from the answer there is no global variables in Java and the only thing you can do is to create a class with static members:
public class Global {
public static int a;
}
You can use it with Global.a elsewhere. However if you use Java 1.5 or better you can use the import static magic to make it look even more as a real global variable:
import static test.Global.*;
public class UseGlobal {
public void foo() {
int i = a;
}
}
And voilà!
Now this is far from a best practice so as you can see in the commercials: don't do this at home
There are no global variables in Java, but there are global classes with public fields. You can use static import feature of java 5 to make it look almost like global variables.
Generally Global variable (I assume you are comparing it with C,Cpp) define as public static final
like
class GlobalConstant{
public static final String CODE = "cd";
}
ENUMs are also useful in such scenario :
For Example Calendar.JANUARY)
To allow an unqualified access to static members of another class, you can also do a static import:
import static my.package.GlobalConstants;
Now, instead of print(GlobalConstants.MY_PASSWORD);
you can use the Constant directly: print(MY_PASSWORD);
See What does the "static" modifier after "import" mean? to decide about.
And consider the answer of Evan Lévesque about interfaces to carry the Constants.
// Get the access of global while retaining priveleges.
// You can access variables in one class from another, with provisions.
// The primitive must be protected or no modifier (seen in example).
// the first class
public class farm{
int eggs; // an integer to be set by constructor
fox afox; // declaration of a fox object
// the constructor inits
farm(){
eggs = 4;
afox = new fox(); // an instance of a fox object
// show count of eggs before the fox arrives
System.out.println("Count of eggs before: " + eggs);
// call class fox, afox method, pass myFarm as a reference
afox.stealEgg(this);
// show the farm class, myFarm, primitive value
System.out.println("Count of eggs after : " + eggs);
} // end constructor
public static void main(String[] args){
// instance of a farm class object
farm myFarm = new farm();
}; // end main
} // end class
// the second class
public class fox{
// theFarm is the myFarm object instance
// any public, protected, or "no modifier" variable is accessible
void stealEgg(farm theFarm){ --theFarm.eggs; }
} // end class
Going by the concept, global variables, also known as instance variable are the class level variables,i.e., they are defined inside a class but outside methods. In order to make them available completely and use them directly provide the static keyword.
So if i am writing a program for simple arithmetical operation and it requires a number pair then two instance variables are defined as such:
public class Add {
static int a;
static int b;
static int c;
public static void main(String arg[]) {
c=sum();
System.out.println("Sum is: "+c);
}
static int sum() {
a=20;
b=30;
return a+b;
}
}
Output: Sum is: 50
Moreover using static keyword prior to the instance variables enable us not to specify datatypes for same variables again and again. Just write the variable directly.
In general, Java doesn't have any global variables. Other than local variables, all variables comes under the scope of any class defined in the program.
We can have static variables to have the scope of global variables.
without static this is possible too:
class Main {
String globalVar = "Global Value";
class Class1 {
Class1() {
System.out.println("Class1: "+globalVar);
globalVar += " - changed";
} }
class Class2 {
Class2() {
System.out.println("Class2: "+globalVar);
} }
public static void main(String[] args) {
Main m = new Main();
m.mainCode();
}
void mainCode() {
Class1 o1 = new Class1();
Class2 o2 = new Class2();
}
}
/*
Output:
Class1: Global Value
Class2: Global Value - changed
*/
Object-Oriented Programming is built with the understanding that the scope of variables is closely exclusive to the class object that encapsulates those variables.
The problem with creating "global variables" is that it's not industry standard for Java. It's not industry standard because it allows multiple classes to manipulate data asyncronized, if you're running a multi-threaded application, this gets a little more complicated and dangerous in terms of thread-safety. There are various other reasons why using global variables are ineffective, but if you want to avoid that, I suggest you resort to Aspect-Oriented Programming.
Aspect-Oriented Programming negates this problem by putting the parent class in charge of the scope through something called "advices", which adds additional behavior to the code without actually modifying it. It offers solutions to cross-cutting concerns, or global variable usage.
Spring is a Java framework that utilizes AOP, and while it is traditionally used for web-applications, the core application can be used universally throughout the Java framework (8.0 included). This might be a direction you want to explore more.
To define Global Variable you can make use of static Keyword
public final class Tools {
public static int a;
public static int b;
}
now you can access a and b from anywhere by calling
Tools.a;
Tools.b;
Yoy are right...specially in J2ME...
You can avoid NullPointerException by putting inside your MidLet constructor
(proggy initialization) this line of code:
new Tools();
This ensures that Tools will be allocated before any instruction
that uses it.
That's it!
I heard that static methods should use only static variables in java.
But, main method is also static, right?
Your question: is the statement " static methods should use only static variables" correct?
No. The statement is not correct.
The correct statement will be "static methods can only use those instance variables that are defined static"
Take a look at following code and read the comments:
Class A{
int i;
static int j;
public static void methodA(){
i = 5; //cannot use since i is not static
j = 2; //can use.
int k = 3; //k is local variable and can be used no problem
**EDIT:**//if you want to access i
A a = new A();
//A.i = 5; //can use.
a.i = 5; // it should be non-capital "a" right?
}
}
First of all, a technicality: it's NOT true that "main method is also static". You can define a non-static main method, with whatever signature you choose; it just won't be a valid Java application entry point.
With regards to "static methods should use only static variables", this is also NOT true. The key concept here is that static methods and fields are class-specific, not instance-specific. You simply can't access an instance variable/method if you don't actually have an instance of that class; it's a compilation error.
So to be precise, without an instance, you can't access instance fields/methods. You can access static fields/methods without an instance. If you need to access instance fields/methods from a static method, you have to get an instance of that class one way or another, either by simply instantiating it, or by getting a reference to it from a static field or method parameter.
Let's take a look at this simple example:
public static void main(String args[]) {
System.out.println(args.length);
}
length is NOT a static field; it's an instance field of array instances, which args is. The static method main is able to get this instance (and thus access its instance methods and fields) because it's passed in as an argument.
Also, println is NOT a static method; it's an instance method of PrintStream instances. The static method main is able to get this instance by accessing the static field out of the class System.
To summarize:
A Java application entry point is a method that:
is named main
is public and static
returns void and takes a String[] argument as parameter
A method named main doesn't have to be a Java application entry point
(but it's best to reserve this name for that purpose)
Furthermore,
Instance fields/methods can only be accessed through an instance
Static fields/methods can be accessed without an instance
Static methods can get an instance of a class by one of the following ways:
creating a new instance
having it passed as an argument
accessing it through a static field of a class
accepting it as the return value of a static method of a class
catching it as a thrown Throwable
Maybe this piece of code will enlighten you:
public class Main {
private String instanceField = "Joe";
private void instanceMethod() {
System.out.println("Instance name=" + instanceField);
}
public static void main(String[] args) {
// cannot change instance field without an instance
instanceField = "Indy"; // compilation error
// cannot call an instance method without an instance
instanceMethod(); // compilation error
// create an instance
Main instance = new Main();
// change instance field
instance.instanceField = "Sydney";
// call instance method
instance.instanceMethod();
}
}
So you cannot access instance members without an instance. Within the context of a static method you don't have a reference to an instance unless you receive or create one.
Hope this helps.
To access non-static fields (instance variables) you need to have an instance.
Inside a non-static method, this is used as default instance:
class AnyClass {
private String nonStaticField = "Non static";
void nonStaticMethod() {
this.nonStaticField = "a text"; // accessing field of this
nonStaticField = "a text"; // same as before
}
}
Inside a static method there is no this to use as default instance, but you can1 still access instance variables if you provide the instance:
class AnyClass {
private String nonStaticField = "Non static";
static void staticMethod() {
AnyClass example = new AnyClass();
example.nonStaticField = "new value for non-static field";
}
}
1 - the field must also be accessible by Java's access control (declared public or in the same class ...)
A static method is called on a class instance and not to an object of a class. This means, that a static method is not able to access instance variables, because they are only instantiated in an object.
If you want to access an instance variable with a static method, you have to declare that variable as static.
public class Test {
private static int value = 0;
public static void main(String[] args) {
value++;
}
}
But to be honest, it's not the best idea to write everything in static methods. It's better to use the main method to instantiate new objects.
One important thing is that unless u create an instance of an class the instance variables don't exist practically it means JVM doesn't that there os an variable like int i unless u create an instance for that class. so, using an instance variable in a static method is an compilation error.
class A{
int i;
static int j;
static int b(){
i=10; // cannot be found
A a= new A();
a.i=10;//can be found in a's instance
}
}
But, we can use instance variables in instance methods because, instance methods are only called when object created so there is no problem in using instance variables inside it.
Hope ur clear about these things!
Yes static method cannot call non-static methods or variables of the class directly.
EDIT : One can create any local variables.
The static method can't access non-static variables outsides because you can use static method without class initialization, but it doesn't work for non-static outside variable. But you can define and use non-static variable in the static method.