Why do we call the thread object's start()
method which in turns calls run()
method, why not we directly call run()
method?
12 Answers
[...] why not we directly call run() method?
The run()
method is just an ordinary method (overridden by you). As with any other ordinary method and calling it directly will cause the current thread to execute run()
.
All magic happens inside start()
. The start()
method will cause the JVM to spawn a new thread and make the newly spawned thread execute run()
.
-
but the start is eventually calling start0() in the same class, what does start0() do.? Commented Apr 24, 2018 at 18:56
-
1The contract of the class (described in the javadoc) says that you get the forking behavior by calling the public
start
method. What's basically all that matters. Whether or not the magic happens directly instart
or if it delegates to another method depends on the API implementation. If you're referring toThread.java
in OpenJDK, it does indeed look like it delegates to astart0
. I bet this method doesn't contain the "magic" either. I bet it delegates to somefork()
system call. In the end this depends on the operating system. Again, it's an JDK/OS implementation detail.– aioobeCommented Apr 24, 2018 at 19:21 -
@aioobe I believe the threads are created more with the help of some sort of OS thread manager and not fork system call. Fork system call is used to clone the current process and create a new process out of it and not a new thread– DockYardCommented Jan 16, 2023 at 3:48
-
Right. I'm no system level programmer so I was basically guessing 🙂 Some Googling tells me
clone()
is probably what's used on Linux systems (which incidentally callsdo_fork()
).– aioobeCommented Jan 16, 2023 at 20:12
If you directly call run() method its body is executed in context of current thread. When you invoke start()
method a new thread is created and run()
method is executed in this new thread.
Even if programmatically we are not creating any thread, For every application, O.S will create a default thread to execute its code with CPU.
Calling run method directly will make that run method execute in that main thread given by O.S.
But the intention of creating a thread class is to make sure that run method executes in a different thread. Unless thread manager of O.S creates a thread, your run method will not get executed in a separate thread. To request O.S to create the separate thread you have to call start() method which will send a request to O.S to create a thread. Once O.S creates a thread, then O.S will automatically call run method of your thread class in that newly created thread context. And hence your purpose of creating a separate thread and executing your run method in a separate thread will be served.
If you call run method directly, then it is like O.S is not creating any thread for you, and default main thread will execute your run method. No point of creating a separate thread class for that!
Hope I am clear. Let me know if you need more explanation to answer your question.
Note: Though books say JVM creates threads, internally JVM will have to send a request to thread manager driver of O.S layer to create a new thread in its thread pool. That's why I use O.S term more here than JVM.
Why do we call the thread object's start() method which in turns calls run() method
No it doesn't. start()
calls the operating system, which starts a new thread, which (to simplify greatly) calls the run()
method. Meanwhile the start()
method has already returned to its caller. They are not equivalent.
Runnable
is just an interface. A class implementing Runnable
is nothing special, it just has a run
method.
Thread#start
is a natively implemented method that creates a separate thread and calls Thread
's run
method, executing the code in the new thread.
Thread
implements Runnable
. The code for run
looks like this:
@Override
public void run() {
if (target != null) {
target.run();
}
}
If the Thread
instance was created by passing a Runnable
to the Thread
's constructor, the Runnable
's run
method is called.
Otherwise, classes extending Thread
have to override the run
method in order for start
to work.
Calling run
on Thread
does NOT create a new thread.
If a thread has been instantiated but not started its is said to be in new state.
Unless until a start() method is invoked on the instance of the thread, it will not said to be alive.
If you do not call a start() method on the newly created thread instance thread is not considered to be alive.
If the start() method is not invoked and the run() method is directly called on the Thread instance, the code inside the run() method will not run in a separate new thread but it will start running in the existing thread.
SEE THE PROBLEM IN EXAMPLE
class Multi extends Thread{
public void run(){
for(int i=1;i<5;i++){
try{Thread.sleep(500);}catch(InterruptedException e){System.out.println(e);}
System.out.println(i);
}
}
public static void main(String args[]){
Multi t1=new Multi();
Multi t2=new Multi();
t1.run();
t2.run();
}
}
Output:1
2
3
4
5
1
2
3
4
5
As you can see in the above program that there is no context-switching because here t1 and t2 will be treated as normal object not thread object.
It's due to the design of multithreading in Java.
Calling start ()
will start a new Thread and calling run()
method does not start a new Thread.
If you call start()
method on Thread, Java Virtual Machine will call run() method and two threads will run concurrently now - Current Thread and Other Thread or Runnable implementation.
Have a look at source code of start()
method in Thread class
/**
* Causes this thread to begin execution; the Java Virtual Machine
* calls the <code>run</code> method of this thread.
* <p>
* The result is that two threads are running concurrently: the
* current thread (which returns from the call to the
* <code>start</code> method) and the other thread (which executes its
* <code>run</code> method).
* <p>
* It is never legal to start a thread more than once.
* In particular, a thread may not be restarted once it has completed
* execution.
*
* @exception IllegalThreadStateException if the thread was already
* started.
* @see #run()
* @see #stop()
*/
public synchronized void start() {
/**
* This method is not invoked for the main method thread or "system"
* group threads created/set up by the VM. Any new functionality added
* to this method in the future may have to also be added to the VM.
*
* A zero status value corresponds to state "NEW".
*/
if (threadStatus != 0)
throw new IllegalThreadStateException();
group.add(this);
start0();
if (stopBeforeStart) {
stop0(throwableFromStop);
}
}
private native void start0();
In above code, you can't see invocation to run()
method.
private native void start0()
is responsible for calling run()
method. JVM creates native thread corresponding to java thread and call run()
method.
Refer to this question for source code of native methods:
When we use start method then a new thread is created and then code inside the run method will be executed for each new Thread.
Use of start method creates two stack for each thread ,Stack and native stack.
But Run
method call just execute
the code inside the run
method sequentially as run method call does not create different stacks.
Example
import java.util.concurrent.TimeUnit;
public class thread implements Runnable{
/**
* @param args
*/
public static void main(String[] args) {
Thread gg=new Thread(new thread());
Thread gg1=new Thread(new thread());
gg.run();
gg1.start();
/*gg.start();
gg1.start();*/
}
@Override
public void run() {
for(int i=0;i<5;i++)
{
try {
TimeUnit.SECONDS.sleep(2);
} catch (InterruptedException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
System.out.println("Hello..." + i);
}
}
}
I presume you are talking about starting a thread. If that's the case the reason you don't invoke the run method directly is that you then would be calling the method, and not starting the thread.
If we want, we can call run()
method, but if we call run method it will run as just a normal Java method. Whereas it we call start(
) it, JVM
creates a new thread and run method will be executed on that thread.
The difference is that if we execute the run method by start()
method, it creates a new thread where we can execute run method otherwise the run()
method will be executed in the thread created by JVM in the public static void main()
method. This is exactly the whole point of multithreading, to run a different action on new threads.
start()
and run()
methods are used for running a thread.The run()
method is just an ordinary method, it is overridden by the user and it will be called on the current thread.
The start()
method runs the run()
method indirectly and creates a new thread.