An application that creates an instance of Thread
must provide the code that will run in that thread. There are two ways to do this:
Runnable
object. The
Runnable
interface defines a single method, run
, meant to contain the code executed in the thread. The Runnable
object is passed to the Thread
constructor, as in the
HelloRunnable
example:
public class HelloRunnable implements Runnable { public void run() { System.out.println("Hello from a thread!"); } public static void main(String args[]) { (new Thread(new HelloRunnable())).start(); } }
Thread
. The Thread
class itself implements Runnable
, though its run
method does nothing. An application can subclass Thread
, providing its own implementation of run
, as in the
HelloThread
example:
public class HelloThread extends Thread { public void run() { System.out.println("Hello from a thread!"); } public static void main(String args[]) { (new HelloThread()).start(); } }
Notice that both examples invoke Thread.start
in order to start the new thread.
Which of these idioms should you use? The first idiom, which employs a Runnable
object, is more general, because the Runnable
object can subclass a class other than Thread
. The second idiom is easier to use in simple applications, but is limited by the fact that your task class must be a descendant of Thread
. This lesson focuses on the first approach, which separates the Runnable
task from the Thread
object that executes the task. Not only is this approach more flexible, but it is applicable to the high-level thread management APIs covered later.
The Thread
class defines a number of methods useful for thread management. These include static
methods, which provide information about, or affect the status of, the thread invoking the method. The other methods are invoked from other threads involved in managing the thread and Thread
object. We'll examine some of these methods in the following sections.