- Java provides built-in support for multithreaded programming. A multi-threaded program contains two or more parts that can run concurrently. Each part of such a program is called a thread, and each thread defines a separate path of execution.
When a Java program starts up, one thread begins running immediately. This is usually called the main thread of our program because it is the one that is executed when our program begins. - There are certain properties associated with the main thread which are as follows:
- It is the thread from which other “child” threads will be spawned.
- Often, it must be the last thread to finish execution because it performs various shutdown actions
How to control Main thread
- The main thread is created automatically when our program is started. To control it we must obtain a reference to it. This can be done by calling the method currentThread( ) which is present in Thread class. This method returns a reference to the thread on which it is called. The default priority of Main thread is 5 and for all remaining user threads priority will be inherited from parent to child.
// Java program to control the Main Thread
// Importing required classes
import java.io.*;
import java.util.*;
// Class 1
// Main class extending thread class
public class Test extends Thread {
// Main driver method
public static void main(String[] args)
{
// Getting reference to Main thread
Thread t = Thread.currentThread();
// Getting name of Main thread
System.out.println("Current thread:
"+ t.getName());
// Changing the name of Main thread
t.setName("Geeks");
System.out.println("After name change: "
+ t.getName());
// Getting priority of Main thread
System.out.println("Main thread priority: "
+ t.getPriority());
// Setting priority of Main thread to MAX(10)
t.setPriori(MAX_PRIORITY);
// Print and display the main thread priority
System.out.println("Main thread new priority: "
+ t.getPriority());
for (int i = 0; i < 5; i++) {
System.out.println("Main thread");
}
// Main thread creating a child thread
Thread ct = new Thread() {
// run() method of a thread
public void run()
{
for (int i = 0; i < 5; i++) {
System.out.println("Child thread");
}
}
};
System.out.println("Child thread priority:
"+ ct.getPriority());
ct.setPriority(MIN_PRIORITY);
System.out.println("Child thread new priority: "
+ ct.getPriority());
ct.start();
}
}
// Class 2
// Helper class extending Thread class
// Child Thread class
class ChildThread extends Thread {
@Override public void run()
{
for (int i = 0; i < 5; i++) {
System.out.println("Child thread");
}
}
}
output :
Current thread: main
After name change: Geeks
Main thread priority: 5
Main thread new priority: 10
Main thread
Main thread
Main thread
Main thread
Main thread
Child thread priority: 10
Child thread new priority: 1
Child thread
Child thread
Child thread
Child thread
Child thread
Now let us discuss the relationship between the main() method and the main thread in Java. For each program, a Main thread is created by JVM(Java Virtual Machine). The “Main” thread first verifies the existence of the main() method, and then it initializes the class. Note that from JDK 6, main() method is mandatory in a standalone java application.
Deadlocking with use of Main Thread(only single thread)
- We can create a deadlock by just using the Main thread, i.e. by just using a single thread.
// Java program to demonstrate deadlock
// using Main thread
// Main class
public class GFG {
// Main driver method
public static void main(String[] args) {
// Try block to check for exceptions
try {
// Print statement
System.out.println("Entering into Deadlock");
// Joining the current thread
Thread.currentThread().join();
// This statement will never execute
System.out.println
("This statement will never execute");
}
// Catch block to handle the exceptions
catch (InterruptedException e) {
// Display the exception along with line number
// using printStackTrace() method
e.printStackTrace();
}
}
}
output :
Output explanation:
The statement “Thread.currentThread().join()”, will tell Main thread to wait for this thread(i.e. wait for itself) to die. Thus Main thread wait for itself to die, which is nothing but a deadlock.