Multithreading in Java- An Introduction
In Java, Multithreading refers to a means of executing two or extra threads concurrently for optimum utilization of the CPU. A thread in Java is a light-weight course of requiring fewer sources to create and share the method sources.
Multithreading and Multiprocessing are used for multitasking in Java, however we desire multithreading over multiprocessing. It’s because the threads use a shared reminiscence space which helps to save lots of reminiscence, and likewise, the content-switching between the threads is a bit sooner than the method.
Few extra benefits of Multithreading are:
- Multithreading saves time as you may carry out a number of operations collectively.
- The threads are impartial, so it doesn’t block the person to carry out a number of operations on the similar time and likewise, if an exception happens in a single thread, it doesn’t have an effect on different threads.
Life Cycle of a Thread
There are 5 states a thread has to undergo in its life cycle. This life cycle is managed by JVM (Java Digital Machine). These states are:
- New
- Runnable
- Working
- Non-Runnable (Blocked)
- Terminated
1. New
On this state, a brand new thread begins its life cycle. That is additionally referred to as a born thread. The thread is within the new state when you create an occasion of Thread class however earlier than the invocation of the begin() methodology.
2. Runnable
A thread turns into runnable after a newly born thread is began. On this state, a thread could be executing its job.
3. Working
When the thread scheduler selects the thread then, that thread could be in a working state.
4. Non-Runnable (Blocked)
The thread continues to be alive on this state, however presently, it’s not eligible to run.
5. Terminated
A thread is terminated because of the following causes:
- Both its run() methodology exists usually, i.e., the thread’s code has executed this system.
- Or as a consequence of some uncommon errors like segmentation fault or an unhandled exception.
A thread that’s in a terminated state doesn’t devour ant cycle of the CPU.
Java Thread Class
The Java Thread class offers strategies and constructors to create and carry out operations on a thread. The Java thread class extends the Object class and implements the Runnable interface.
Java Thread Strategies
These are the strategies which are out there within the Thread class:
1. public void begin()
It begins the execution of the thread after which calls the run() on this Thread object.
Instance:
{
public void run()
{
System.out.println("Thread is working...");
}
public static void major(String args[])
{
StartExp1 thread1=new StartExp1();
thread1.begin();
}
}
Output:
Thread is working…
2. public void run()
This thread is used to do an motion for a thread. The run() methodology is instantiated if the thread was constructed utilizing a separate Runnable object.
Instance:
public class RunExp1 implements Runnable
{
public void run()
{
System.out.println("Thread is working...");
}
public static void major(String args[])
{
RunExp1 r1=new RunExp1();
Thread thread1 =new Thread(r1);
thread1.begin();
}
}
Output:
Thread is working…
3. public static void sleep()
This blocks the presently working thread for the required period of time.
Instance:
public class SleepExp1 extends Thread
{
public void run()
{
for(int i=1;i<5;i++)
{
attempt
{
Thread.sleep(500);
}catch(InterruptedException e){System.out.println(e);}
System.out.println(i);
}
}
public static void major(String args[])
{
SleepExp1 thread1=new SleepExp1();
SleepExp1 thread2=new SleepExp1();
thread1.begin();
thread2.begin();
}
}
Output:
1
1
2
2
3
3
4
4
4. public static Thread currentThread()
It returns a reference to the presently working thread.
Instance:
public class CurrentThreadExp extends Thread
{
public void run()
{
System.out.println(Thread.currentThread().getName());
}
public static void major(String args[])
{
CurrentThreadExp thread1=new CurrentThreadExp();
CurrentThreadExp thread2=new CurrentThreadExp();
thread1.begin();
thread2.begin();
}
}
Output:
Thread-0
Thread-1
5. public void be a part of()
It causes the present thread to dam till the second thread terminates or the required quantity of milliseconds passes.
Instance:
public class JoinExample1 extends Thread
{
public void run()
{
for(int i=1; i<=4; i++)
{
attempt
{
Thread.sleep(500);
}catch(Exception e){System.out.println(e);}
System.out.println(i);
}
}
public static void major(String args[])
{
JoinExample1 thread1 = new JoinExample1();
JoinExample1 thread2 = new JoinExample1();
JoinExample1 thread3 = new JoinExample1();
thread1.begin();
attempt
{
thread1.be a part of();
}catch(Exception e){System.out.println(e);}
thread2.begin();
thread3.begin();
}
}
Output:
1
2
3
4
1
1
2
2
3
3
4
4
6. public remaining int getPriority()
It’s used to test the precedence of the thread. When a thread is created, some precedence is assigned to it. This precedence is assigned both by the JVM or by the programmer explicitly whereas creating the thread.
Instance:
public class JavaGetPriorityExp extends Thread
{
public void run()
{
System.out.println("working thread identify is:"+Thread.currentThread().getName());
}
public static void major(String args[])
{
JavaGetPriorityExp t1 = new JavaGetPriorityExp();
JavaGetPriorityExp t2 = new JavaGetPriorityExp();
System.out.println("t1 thread precedence : " + t1.getPriority());
System.out.println("t2 thread precedence : " + t2.getPriority());
t1.begin();
t2.begin();
}
}
Output:
t1 thread precedence : 5
t2 thread precedence : 5
working thread identify is:Thread-0
working thread identify is:Thread-1
7. public remaining void setPriority()
This methodology is used to vary the precedence of the thread. The precedence of each thread is represented by the integer quantity from 1 to 10. The default precedence of a thread is 5.
Instance:
public class JavaSetPriorityExp1 extends Thread
{
public void run()
{
System.out.println("Precedence of thread is: "+Thread.currentThread().getPriority());
}
public static void major(String args[])
{
JavaSetPriorityExp1 t1=new JavaSetPriorityExp1();
t1.setPriority(Thread.MAX_PRIORITY);
t1.begin();
}
}
Output:
Precedence of thread is: 10
8. public remaining String getName()
This methodology of thread class is used to return the identify of the thread. We can not override this methodology in our program, as this methodology is remaining.
Instance:
public class GetNameExample extends Thread
{
public void run()
{
System.out.println("Thread is working...");
}
public static void major(String args[])
{
// creating two threads
GetNameExample thread1=new GetNameExample();
GetNameExample thread2=new GetNameExample();
System.out.println("Title of thread1: "+ thread1.getName());
System.out.println("Title of thread2: "+thread2.getName());
thread1.begin();
thread2.begin();
}
}
Output:
Title of thread1: Thread-0
Title of thread2: Thread-1
Thread is working…
Thread is working…
9. public remaining void setName()
This methodology adjustments the identify of the thread.
Instance:
public class SetNameExample extends Thread
{
public void run()
{
System.out.println("working...");
}
public static void major(String args[])
{
SetNameExample thread1=new SetNameExample();
SetNameExample thread2=new SetNameExample();
thread1.begin();
thread2.begin();
thread1.setName("Kadamb Sachdeva");
thread2.setName("Nice studying");
System.out.println("After altering identify of thread1: "+thread1.getName());
System.out.println("After altering identify of thread2: "+thread2.getName());
}
}
Output:
After altering identify of thread1: Kadamb Sachdeva
After altering identify of thread2: Nice Studying
working…
working…
10. public lengthy getId()
It returns the identifier of the thread. The thread ID is a quantity generated when the thread was created. This ID can’t be modified throughout its lifetime. However when the thread is terminated, the ID could be reused.
Instance:
public class GetIdExample extends Thread
{
public void run()
{
System.out.println("working...");
}
public static void major(String args[])
{
GetIdExample thread1=new GetIdExample();
System.out.println("Title of thread1: "+thread1.getName());
System.out.println("Id of thread1: "+thread1.getId());
thread1.begin();
}
}
Output:
Title of thread1: Thread-0
Id of thread1: 21
working…
11. public remaining boolean isAlive()
This methodology checks if the thread is alive. A thread is within the alive state if the beginning() methodology of thread class has been referred to as and the thread has not but died.
Instance:
public class JavaIsAliveExp extends Thread
{
public void run()
{
attempt
{
Thread.sleep(300);
System.out.println("is run() methodology isAlive "+Thread.currentThread().isAlive());
}
catch (InterruptedException ie) {
}
}
public static void major(String[] args)
{
JavaIsAliveExp thread1 = new JavaIsAliveExp();
System.out.println("earlier than beginning thread isAlive: "+thread1.isAlive());
thread1.begin();
System.out.println("after beginning thread isAlive: "+thread1.isAlive());
}
}
Output:
earlier than beginning thread isAlive: false
after beginning thread isAlive: true
is run() methodology isAlive true
12. public static void yield()
This methodology pauses the execution of the present thread to execute different threads briefly.
Instance:
public class JavaYieldExp extends Thread
{
public void run()
{
for (int i=0; i<3 ; i++)
System.out.println(Thread.currentThread().getName() + " in management");
}
public static void major(String[]args)
{
JavaYieldExp thread1 = new JavaYieldExp();
JavaYieldExp thread2 = new JavaYieldExp();
thread1.begin();
thread2.begin();
for (int i=0; i<3; i++)
{
thread1.yield();
System.out.println(Thread.currentThread().getName() + " in management");
}
}
}
Output:
major in management
major in management
major in management
Thread-0 in management
Thread-0 in management
Thread-0 in management
Thread-1 in management
Thread-1 in management
Thread-1 in management
13. public remaining void droop()
This methodology is used to droop the presently working thread briefly. Utilizing the resume() methodology, you may resume the suspended thread.
Instance:
public class JavaSuspendExp extends Thread
{
public void run()
{
for(int i=1; i<5; i++)
{
attempt
{
sleep(500);
System.out.println(Thread.currentThread().getName());
}catch(InterruptedException e){System.out.println(e);}
System.out.println(i);
}
}
public static void major(String args[])
{
JavaSuspendExp thread1=new JavaSuspendExp ();
JavaSuspendExp thread2=new JavaSuspendExp ();
JavaSuspendExp thread3=new JavaSuspendExp ();
thread1.begin();
thread2.begin();
thread2.droop();
thread3.begin();
}
}
Output:
Thread-0
1
Thread-2
1
Thread-0
2
Thread-2
2
Thread-0
3
Thread-2
3
Thread-0
4
Thread-2
4
14. public remaining void resume()
This methodology is used to renew the suspended thread. It’s only used with the droop() methodology.
Instance:
public class JavaResumeExp extends Thread
{
public void run()
{
for(int i=1; i<5; i++)
{
attempt
{
sleep(500);
System.out.println(Thread.currentThread().getName());
}catch(InterruptedException e){System.out.println(e);}
System.out.println(i);
}
}
public static void major(String args[])
{
JavaResumeExp thread1=new JavaResumeExp ();
JavaResumeExp thread2=new JavaResumeExp ();
JavaResumeExp thread3=new JavaResumeExp ();
thread1.begin();
thread2.begin();
thread2.droop();
thread3.begin();
thread2.resume();
}
}
Output:
Thread-0
1
Thread-2
1
Thread-1
1
Thread-0
2
Thread-2
2
Thread-1
2
Thread-0
3
Thread-2
3
Thread-1
3
Thread-0
4
Thread-2
4
Thread-1
4
15. public remaining void cease()
Because the identify suggests, this methodology is used to cease the presently working thread. Bear in mind, as soon as the thread execution is stopped, it can’t be restarted.
Instance:
public class JavaStopExp extends Thread
{
public void run()
{
for(int i=1; i<5; i++)
{
attempt
{
sleep(500);
System.out.println(Thread.currentThread().getName());
}catch(InterruptedException e){System.out.println(e);}
System.out.println(i);
}
}
public static void major(String args[])
{
JavaStopExp thread1=new JavaStopExp ();
JavaStopExp thread2=new JavaStopExp ();
JavaStopExp thread3=new JavaStopExp ();
thread1.begin();
thread2.begin();
thread3.cease();
System.out.println("Thread thread3 is stopped");
}
}
Output:
16. public void destroy()
This thread methodology destroys the thread group in addition to its subgroups.
Instance:
public class JavaDestroyExp extends Thread
{
JavaDestroyExp(String threadname, ThreadGroup tg)
{
tremendous(tg, threadname);
begin();
}
public void run()
{
for (int i = 0; i < 2; i++)
{
attempt
{
Thread.sleep(10);
}
catch (InterruptedException ex) {
System.out.println("Exception encounterted");}
}
System.out.println(Thread.currentThread().getName() +
" completed executing");
}
public static void major(String arg[]) throws InterruptedException, SecurityException
{
ThreadGroup g1 = new ThreadGroup("Father or mother thread");
ThreadGroup g2 = new ThreadGroup(g1, "youngster thread");
JavaDestroyExp thread1 = new JavaDestroyExp("Thread-1", g1);
JavaDestroyExp thread2 = new JavaDestroyExp("Thread-2", g1);
thread1.be a part of();
thread2.be a part of();
g2.destroy();
System.out.println(g2.getName() + " destroyed");
g1.destroy();
System.out.println(g1.getName() + " destroyed");
}
}
Output:
Thread-1 completed executing
Thread-2 completed executing
youngster thread destroyed
Father or mother thread destroyed
17. public remaining boolean isDaemon()
This thread methodology will test if the thread is a daemon thread or not. If it’s a daemon thread, then it should return true else, it should return false.
For many who don’t learn about a daemon thread, a daemon thread is a thread that won’t cease the Java Digital Machine (JVM) from exiting when this system is ended, however the thread continues to be working.
Instance:
public class JavaIsDaemonExp extends Thread
{
public void run()
{
//checking for daemon thread
if(Thread.currentThread().isDaemon())
{
System.out.println("daemon thread work");
}
else
{
System.out.println("person thread work");
}
}
public static void major(String[] args)
{
JavaIsDaemonExp thread1=new JavaIsDaemonExp();
JavaIsDaemonExp thread2=new JavaIsDaemonExp();
JavaIsDaemonExp thread3=new JavaIsDaemonExp();
thread1.setDaemon(true);
thread1.begin();
thread2.begin();
thread3.begin();
}
}
Output:
daemon thread work
person thread work
person thread work
18. public remaining void setDaemon(boolean on)
This methodology of a thread is used to determine or mark the thread both daemon or a person thread. The JVM robotically terminates this thread when all of the person threads die.
This thread methodology should run earlier than the beginning of the execution of the thread.
Instance:
public class JavaSetDaemonExp1 extends Thread
{
public void run()
{
if(Thread.currentThread().isDaemon())
{
System.out.println("daemon thread work");
}
else
{
System.out.println("person thread work");
}
}
public static void major(String[] args)
{
JavaSetDaemonExp1 thread1=new JavaSetDaemonExp1();
JavaSetDaemonExp1 thread2=new JavaSetDaemonExp1();
JavaSetDaemonExp1 thread3=new JavaSetDaemonExp1();
thread1.setDaemon(true);
thread1.begin();
thread2.setDaemon(true);
thread2.begin();
thread3.begin();
}
}
Output:
daemon thread work
daemon thread work
person thread work
19. public void interrupt()
This methodology of a thread is used to interrupt the presently executing thread. This methodology can solely be referred to as when the thread is in sleeping or ready state.
But when the thread just isn’t within the sleeping or ready state, then the interrupt() methodology is not going to interrupt the thread however will set the interrupt flag to true.
Instance:
public class JavaInterruptExp1 extends Thread
{
public void run()
{
attempt
{
Thread.sleep(1000);
System.out.println("javatpoint");
}catch(InterruptedException e){
throw new RuntimeException("Thread interrupted..."+e);
}
}
public static void major(String args[])
{
JavaInterruptExp1 thread1=new JavaInterruptExp1();
thread1.begin();
attempt
{
thread1.interrupt();
}catch(Exception e){System.out.println("Exception dealt with "+e);}
}
}
Output:
Exception in thread “Thread-0” java.lang.RuntimeException: Thread interrupted…java.lang.InterruptedException: sleep interrupted at JavaInterruptExp1.run(JavaInterruptExp1.java:10)
20. public boolean isInterrupted()
This thread methodology is used to check whether or not the thread is interrupted or not. It is going to return the worth of the interior flag as true or false, i.e. if the thread is interrupted, it should return true else, it should return false.
Instance:
public class JavaIsInterruptedExp extends Thread
{
public void run()
{
for(int i=1;i<=3;i++)
{
System.out.println("doing job....: "+i);
}
}
public static void major(String args[])throws InterruptedException
{
JavaIsInterruptedExp thread1=new JavaIsInterruptedExp();
JavaIsInterruptedExp thread2=new JavaIsInterruptedExp();
thread1.begin();
thread2.begin();
System.out.println("is thread interrupted..: "+thread1.isInterrupted());
System.out.println("is thread interrupted..: "+thread2.isInterrupted());
thread1.interrupt();
System.out.println("is thread interrupted..: " +thread1.isInterrupted());
System.out.println("is thread interrupted..: "+thread2.isInterrupted());
}
}
Output:
is thread interrupted..: false
is thread interrupted..: false
is thread interrupted..: true
is thread interrupted..: false
doing job….: 1
doing job….: 2
doing job….: 3
doing job….: 1
doing job….: 2
doing job….: 3
21. public static boolean interrupted()
This thread methodology is used to test if the present thread is interrupted or not. If this threading methodology is to be referred to as twice in succession, then the second name will return as false.
If the interrupt standing of the thread is true, then this thread methodology will set it to false.
Instance:
public class JavaInterruptedExp extends Thread
{
public void run()
{
for(int i=1;i<=3;i++)
{
System.out.println("doing job....: "+i);
}
}
public static void major(String args[])throws InterruptedException
{
JavaInterruptedExp thread1=new JavaInterruptedExp();
JavaInterruptedExp thread2=new JavaInterruptedExp();
thread1.begin();
thread2.begin();
System.out.println("is thread thread1 interrupted..:"+thread1.interrupted());
thread1.interrupt();
System.out.println("is thread thread1 interrupted..:"+thread1.interrupted());
System.out.println("is thread thread2 interrupted..:"+thread2.interrupted());
}
}
Output:
is thread thread1 interrupted..: false
is thread thread1 interrupted..: false
is thread thread2 interrupted..: false
doing job….: 1
doing job….: 2
doing job….: 3
doing job….: 1
doing job….: 2
doing job….: 3
22. public static int activeCount()
This methodology of the thread is used to return the no. of energetic threads within the presently executing thread’s thread group.
The quantity returned by this threading methodology is just an estimate quantity because the variety of threads dynamically adjustments whereas this methodology traverses inside knowledge buildings.
Instance:
public class JavaActiveCountExp extends Thread
{
JavaActiveCountExp(String threadname, ThreadGroup tg)
{
tremendous(tg, threadname);
begin();
}
public void run()
{
System.out.println("working thread identify is:"
+Thread.currentThread().getName());
}
public static void major(String arg[])
{
ThreadGroup g1 = new ThreadGroup("guardian thread group");
JavaActiveCountExp thread1 = new JavaActiveCountExp("Thread-1", g1);
JavaActiveCountExp thread2 = new JavaActiveCountExp("Thread-2", g1);
System.out.println("variety of energetic thread: "+ g1.activeCount());
}
}
Output:
variety of energetic thread: 2
working thread identify is: Thread-1
working thread identify is: Thread-2
23. public remaining void checkAccess()
This thread methodology identifies if the present thread has permission to switch the thread.
Instance:
public class JavaCheckAccessExp extends Thread
{
public void run()
{
System.out.println(Thread.currentThread().getName()+" completed executing");
}
public static void major(String arg[]) throws InterruptedException, SecurityException
{
JavaCheckAccessExp thread1 = new JavaCheckAccessExp();
JavaCheckAccessExp thread2 = new JavaCheckAccessExp();
thread1.begin();
thread2.begin();
thread1.checkAccess();
System.out.println(t1.getName() + " has entry");
thread2.checkAccess();
System.out.println(t2.getName() + " has entry");
}
}
Output:
Thread-0 has entry
Thread-1 has entry
Thread-0 completed executing
Thread-1 completed executing
24. public static boolean holdsLock(Object obj)
This thread methodology checks if the presently executing thread holds the monitor lock on the required object. If it does, then this threading methodology will return true.
Instance:
public class JavaHoldLockExp implements Runnable
{
public void run()
{
System.out.println("At present executing thread is: " + Thread.currentThread().getName());
System.out.println("Does thread holds lock? " + Thread.holdsLock(this));
synchronized (this)
{
System.out.println("Does thread holds lock? " + Thread.holdsLock(this));
}
}
public static void major(String[] args)
{
JavaHoldLockExp g1 = new JavaHoldLockExp();
Thread thread1 = new Thread(g1);
thread1.begin();
}
}
Output:
At present executing thread is: Thread-0
Does thread holds lock? false
Does thread holds lock? true
There are numerous thread strategies which are used for various duties and functions. These thread strategies are as follows:
- public static void dumpStack()
- public StackTraceElement[] getStackTrace()
- public static int enumerate(Thread[] tarray)
- public Thread.State getState()
- public remaining ThreadGroup getThreadGroup()
- public String toString()
- public remaining void notify()
- public remaining void notifyAll()
- public void setContextClassLoader(ClassLoader cl)
- public ClassLoader getContextClassLoader()
- public static Thread.UncaughtExceptionHandler getDefaultUncaughtExceptionHandler()
- public static void setDefaultUncaughtExceptionHandler(Thread.UncaughtExceptionHandler eh)
Thread Creation
Whereas multithreading in Java, you may create a thread utilizing two methods:
- By extending Thread class
- By implementing the Runnable interface
What’s Thread Class?
Thread class offers the strategies and constructors to create and carry out operations on a thread. Thread class extends Object class and implements the Runnable interface.
Numerous constructors are utilized in a Thread class, however the generally used constructors are:
- Thread()
- Thread(String identify)
- Thread(Runnable r)
- Thread(Runnable r,String identify)
Additionally, as mentioned earlier, there are numerous thread strategies which are used for various functions and duties.
So, these constructors and strategies are supplied by the Thread class to carry out numerous operations on a thread.
What’s a Runnable Interface?
Runnable Interface is applied whose situations are meant to be executed by a thread. It has just one methodology run().
public void run() – That is used to carry out an motion for a thread.
Beginning a Thread
Whereas multithreading in Java, to begin a newly created thread, the beginning() methodology is used.
- A brand new thread begins(with a brand new callstack).
- The thread strikes from the New state to the Runnable state.
- When the thread will get an opportunity to execute, its goal run() methodology will run.
Java Thread Instance by extending Thread Class
class Multi extends Thread{
public void run(){
System.out.println("thread is working...");
}
public static void major(String args[]){
Multi thread1=new Multi();
thread1.begin();
}
}
Output:
thread is working…
Java Thread Instance by implementing Runnable interface
class Multi3 implements Runnable{
public void run(){
System.out.println("thread is working...");
}
public static void major(String args[]){
Multi3 m1=new Multi3();
Thread thread1 =new Thread(m1);
thread1.begin();
}
}
Output:
thread is working…
So, this was the fundamental understanding of Multithreading in Java. This brings us to an finish of this weblog. Hope this helped you perceive Multithreading in Java higher and acquire extra insights into it.
Try our weblog on Inheritance in Java to know inheritance ideas higher. To be taught extra about programming and different associated ideas, take a look at the programs on Nice Studying Academy.
Additionally, do take a look at our high knowledge science course to up-skill within the area of Knowledge Science and energy forward.
Have a Nice Studying!
