Static key word and synchronzed

There will be times when you will want to define a class member that will be used independently of any object of that class. Normally a class member must be accessed only in conjunction with an object of its class. However, it is possible to create a member that can be used by itself, without reference to a specific instance. To create such a member, precede its declaration with the keyword static. When a member is declared static, it can be accessed before any objects of its class are created, and without reference to any object. You can declare both methods and variables to be static. The most common example of a static member is main( ). main( ) is declared as static


because it must be called before any objects exist.
Instance variables declared as static are, essentially, global variables. When objects of its class are declared, no copy of a static variable is made. Instead, all instances of the class share the same static variable.

Methods declared as static have several restrictions:

They can only call other static methods.
They must only access static data.
They cannot refer to this or super in any way. (The keyword super relates to
inheritance.)
If you need to do computation in order to initialize your static variables, you can declare a static block which gets executed exactly once, when the class is first loaded. The following example shows a class that has a static method, some static variables, and a static initialization block:

// Demonstrate static variables, methods, and blocks.
class UseStatic {
static int a = 3;
static int b;
static void meth(int x) {
System.out.println("x = " + x);
System.out.println("a = " + a);
System.out.println("b = " + b);
}
static {
System.out.println("Static block initialized.");
b = a * 4;
}
public static void main(String args[]) {
meth(42);
}
}

As soon as the UseStatic class is loaded, all of the static statements are run. First, a is set to 3, then the static block executes (printing a message), and finally, b is initialized to a * 4 or 12. Then main( ) is called, which calls meth( ), passing 42 to x. The three println( ) statements refer to the two static variables a and b, as well as to the local variable x.

Note It is illegal to refer to any instance variables inside of a static method. Here is the output of the program:

Static block initialized.
x = 42
a = 3
b = 12

Outside of the class in which they are defined, static methods and variables can be used independently of any object. To do so, you need only specify the name of their class followed by the dot operator. For example, if you wish to call a static method from outside its class, you can do so using the following general form:

classname.method( )

Here, classname is the name of the class in which the static method is declared. As you can see, this format is similar to that used to call non-static methods through object reference variables. A static variable can be accessed in the same way—by use of the dot operator on the name of the class. This is how Java implements a controlled version of global functions and global variables.
Here is an example. Inside main( ), the static method callme( ) and the static variable b are accessed outside of their class.

class StaticDemo {
static int a = 42;
static int b = 99;
static void callme() {
System.out.println("a = " + a);
}
}
class StaticByName {
public static void main(String args[]) {
StaticDemo.callme();
System.out.println("b = " + StaticDemo.b);
}
}
Here is the output of this program:
a = 42
b = 99




Remember that a block of code can acquire three types of lock :
■none at all
■an "instance lock", attached to a single object
■a "static lock", attached to a class
If a method is declared as synchronized , then it will acquire either the instance lock or the static lock when it is invoked, according to whether it is an instance method or a static method.
Acquiring the instance lock only blocks other threads from invoking a synchronized instance method ; it does not block other threads from invoking an un-synchronized method, nor does it block them from invoking a static synchronized method.

Similarly, acquiring the static lock only blocks other threads from invoking a static synchronized method ; it does not block other threads from invoking an un-synchronized method, nor does it block them from invoking a synchronized instance method.

The two types of lock have similar behaviour, but are completely independent of each other.

Outside of a method header, synchronized(this) acquires the instance lock. The static lock can be acquired outside of a method header in two ways :

■synchronized(Blah.class), using the class literal
■synchronized(this.getClass()), if an object is available

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