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Threads of Control |
The following diagram illustrates the various states that a Java thread can be in at any point during its life. It also illustrates which method calls cause a transition to another state. This diagram is not a complete finite state diagram, but rather an overview of the more interesting and common facets of a thread's life. The remainder of this page discusses a Thread's life cycle in terms of its state.
New Thread
The following statement creates a new thread but does not start it, thereby leaving the thread in the "New Thread" state.When a thread is in the "New Thread" state, it is merely an empty Thread object. No system resources have been allocated for it yet. Thus when a thread is in this state, you can only start the thread or stop it. Calling any method besidesThread myThread = new MyThreadClass();start()orstop()when a thread is in this state makes no sense and causes an IllegalThreadStateException.Runnable
Now consider these two lines of code:TheThread myThread = new MyThreadClass(); myThread.start();start()method creates the system resources necessary to run the thread, schedules the thread to run, and calls the thread'srun()method. At this point the thread is in the "Runnable" state. This state is called "Runnable" rather than "Running" because the thread might not actually be running when it is in this state. Many computers have a single processor, making it impossible to run all "Runnable" threads at the same time. So, the Java runtime system must implement a scheduling scheme that shares the processor between all "Runnable" threads. (See Thread Priority for more information about scheduling.) However, for most purposes you can think of the "Runnable" state as simply "Running". When a thread is running--it's "Runnable" and is the current thread--the instructions in itsrun()method are executing sequentially.Not Runnable
A thread enters the "Not Runnable" state when one of these four events occurs:For example, the bold line in the following code snippet puts
- Someone invokes its
sleep()method.- Someone invokes its
suspend()method.- The thread uses its
wait()method to wait on a condition variable.- The thread is blocking on I/O.
myThreadto sleep for 10 seconds (10,000 milliseconds):During the 10 seconds thatThread myThread = new MyThreadClass(); myThread.start(); try { myThread.sleep(10000); } catch (InterruptedException e){ }myThreadis asleep, even if the processor becomes availablemyThreaddoes not run. After the 10 seconds are up,myThreadbecomes "Runnable" again and, if the processor becomes available, runs.For each of the entrances into the "Not Runnable" state shown in the figure, there is a specific and distinct escape route that returns the thread to the "Runnable" state. An escape route only works for its corresponding entrance. For example, if a thread has been put to sleep, then the specified number of milliseconds must elapse before the thread becomes "Runnable" again. Calling
resume()on a sleeping thread has no effect.The following indicates the escape route for every entrance into the "Not Runnable" state.
- If a thread has been put to sleep, then the specified number of milliseconds must elapse.
- If a thread has been suspended, then someone must call its
resume()method.- If a thread is waiting on a condition variable, whatever object owns the variable must relinquish it by calling either
notify()ornotifyAll().- If a thread is blocked on I/O, then the I/O must complete.
Dead
A thread can die in two ways: either from natural causes, or by being killed (stopped). A thread dies naturally when itsrun()method exits normally. For example, thewhileloop in this method is a finite loop--it will iterate 100 times and then exit.A thread with thispublic void run() { int i = 0; while (i < 100) { i++; System.out.println("i = " + i); } }run()method will die naturally after the loop and therun()method completes.You can also kill a thread at any time by calling its
stop()method. The following code snippet creates and startsmyThreadthen puts the current thread to sleep for 10 seconds. When the current thread wakes up, the bold line in the code segment killsmyThread.TheThread myThread = new MyThreadClass(); myThread.start(); try { Thread.currentThread().sleep(10000); } catch (InterruptedException e){ } myThread.stop();stop()method throws a ThreadDeath object at the thread to kill it. Thus when a thread is killed in this manner it dies asynchronously. The thread will die when it actually receives the ThreadDeath exception.The
stop()method causes a sudden termination of a Thread'srun()method. If therun()method performs critical or sensitive calculations,stop()may leave the program in an inconsistent or awkward state. Normally, you should not call Thread'sstop()method but arrange for a gentler termination such as setting a flag to indicate to therun()method that it should exit.IllegalThreadStateException
The runtime system throws an IllegalThreadStateException when you call a method on a thread and that thread's state does not allow for that method call. For example, IllegalThreadStateException is thrown when you invokesuspend()on a thread that is not "Runnable".As shown in the various examples of threads so far in this lesson, when you call a thread method that can throw an exception, you must either catch and handle the exception, or specify that the calling method throws the uncaught exception. See Handling Errors Using Exceptions
for information about exception handling in Java.
The isAlive() Method
A final word about thread state: the programming interface for the Thread class includes a method calledisAlive(). TheisAlive()method returns true if the thread has been started and not stopped. Thus, if theisAlive()method returns false you know that the thread is either a "New Thread" or "Dead". If theisAlive()method returns true, you know that the thread is either "Runnable" or "Not Runnable". You cannot differentiate between a "New Thread" and a "Dead" thread; nor can you differentiate between a "Runnable" thread and a "Not Runnable" thread.See Also
java.lang.Thread
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Threads of Control |