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Block 6: Threads 1 Jin Sa

Block 6: Threads 1 Jin Sa. Outline of block 6. Why multi-threads and typical applications Defining and creating threads An example with two threads Life cycle of a thread An example with user interface Problem with threads Synchronisation among threads. Why multithreading?.

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Block 6: Threads 1 Jin Sa

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  1. Block 6: Threads 1Jin Sa Client-server Programming

  2. Outline of block 6 • Why multi-threads and typical applications • Defining and creating threads • An example with two threads • Life cycle of a thread • An example with user interface • Problem with threads • Synchronisation among threads Client-server Programming

  3. Why multithreading? • Most of the java programs you have seen so far can only do one thing at a time. In the real world many actions are happening concurrently. • Typical applications: • User interfacing, e.g. One deals with the drawing, the other deals with user interface • Many instances of similar behaviour, e.g. a concurrent server serves many clients • Many different tasks, e.g. open day simulation Client-server Programming

  4. Two ways to define threads in Java • Extending the Thread class • Implementing the Runnable interface Client-server Programming

  5. Creating threads by extending the Thread class • Define a class, e.g. NewThread, extending the Thread class • Override the run() method to tell the system how the thread will be executed when it runs. • Create an instance of NewThread, • Invoke the start() method to tell the system to start the thread and to execute the run() method. Client-server Programming

  6. Key elements for extending Thread 1 class NewThread extends Thread { … //override the run method public void run() { //define how the thread runs … } … } Client-server Programming

  7. Key element for extending Thread 2 class MyApplication { … public void someMethod() { NewThread mythread=new NewThread(); … mythread.start(); } … } Client-server Programming

  8. An example: a thread printing its id repeatedly class MyThread extends Thread { private String threadID; MyThread(String s) { threadID=s; } public void run() { for (int i=0;i<200;i++){ System.out.println("Print thread " + threadID); }//for }//run } //MyThread Client-server Programming

  9. An example: two threads printing their ids public class SeveralThreads { public static void main(String [] args) { MyThread t1,t2; //create threads t1 = new MyThread("t1"); t2 = new MyThread("t2"); //start threads t1.start(); t2.start();}//main }//SeveralThreads Client-server Programming

  10. An example: two threads printing their ids Print thread t1 Print thread t2 Print thread t2 Print thread t1 Print thread t1 Print thread t2 Print thread t1 Print thread t2 Print thread t1 Print thread t2 … Run the Severalthread program in E:\Teaching\Client_server\Run2006-7\Code\ClientServer. Package threads Client-server Programming

  11. Life cycle of a thread • A thread can be in one of these states once it is created: ready, running, blocked, finish • A ready thread is runnable, but not running, it needs allocation of CPU time. • Common ways for a running thread to become blocked include: waiting for I/O, sleep • A common way for a thread to finish is when it completes its execution of the run() method Client-server Programming

  12. Creating threads by implementing the Runnable interface • Define a class, e.g. NewTask, implementing the Runnable interface • implement the run() method to tell the system how the task will be executed when it runs. • Create an instance of NewTask, e.g. t1 • The task needs to be executed in a thread. Create an instance of Thread with t1 as the parameter • Invoke the start() method of the thread to tell the system to start the thread. Client-server Programming

  13. Key elements for implementing Runnable 1 class NewTask extends AnotherClass implements Runnable { … //implement the run method public void run() { //define how the thread runs … } … } Client-server Programming

  14. Key elements for implementing Runnable 2 class MyApplication { … public void someMethod() { NewTask mytask=new NewTask(); Thread mythread=new Thread(mytask); … mythread.start(); } … } Client-server Programming

  15. Implementing Runnable or Extending Thread • Use Runnable if need to extend another class • Even if NewTask does not extend another class, this is the preferred method for creating a thread if we only want to define the run() method, and not using the other methods in Thread. Client-server Programming

  16. An example: thread printing its id using implementing Runnable class MyTask implements Runnable { private String threadID; MyTask(String s) { threadID=s; } public void run() { for (int i=0;i<200;i++){ System.out.println("Print thread " + threadID); }//for }//run } //MyTask Client-server Programming

  17. An example: two threads printing their ids using implementing Runnable public class SeveralThreads { public static void main(String[] args) { //create instances of MyTask MyTask t1 = new MyTask("t1"); MyTask t2 = new MyTask("t2"); // create Thread instances Thread tt1=new Thread(t1); Thread tt2=new Thread(t2); //start threads tt1.start(); tt2.start();}//main }//SeveralThreads Client-server Programming

  18. Thread synchronisation

  19. Problem with accessing shared resources– an example • The Account class is a bank account, contains methods such as deposit and withdraw. • Cardholder is a thread allows the card holder to deposit £10 repeatedly for 10 times. • FamilyAccount has a main methods that creates one instance of an Account, two instances of Cardholders, both putting money into the same account.

  20. c1 c2 An instance of Account deposit(10) deposit(10) deposit(10) Balance=50 deposit(10) deposit(10) deposit(10) deposit(10) deposit(10)

  21. Problem with accessing shared resources– an example 1 class Account { private int balance=0; public void deposit(int amount) { //balance=balance+amount; int tmp = balance; Thread.sleep(200); balance = tmp + amount; System.out.println("Current balance is "+balance); } }

  22. Problem with accessing shared resources– an example 2 class CardHolder extends Thread{ private Account acc; private String accName; CardHolder(Account a,String nm) { acc=a; accName=nm; } public void run() { for (int i=0;i<10;i++) { System.out.println(accName+" is depositing £10 ..."); acc.deposit(10); } }//run }//CardHolder

  23. Problem with accessing shared resources– an example 3 class FamilyAccount { public static void main(String [] args) { Account ourAccount=new Account(); CardHolder c1 = new CardHolder(ourAccount,"john"); CardHolder c2 = new CardHolder(ourAccount,"Kate"); c1.start(); c2.start(); } }//FamilyAccount

  24. Problem with accessing shared resources– an example 4 • Run FamilyAccount in the E:clientserver/threads (account,cardholder,familyAccount) • The result should be: The balance is : £10 The balance is : £20 The balance is : £30 … The balance is : £200 • But a shared resource may be corrupted if it is accessed simultaneously by multiple threads

  25. Problem • For example, the current balance in ourAccount is £50, • The c1 thread: tries to deposit £10; loading the current value, i.e. 50, to the temporary storage place before doing the arithmetic. The thread is suspended; switches to the c2 thread. • The c2 thread: tries to deposit £10; loading the current balance, which is still £50. The thread is then suspended; resumes the c1 thread, • Back with the c1 thread: add £10 to the value, i.e. £50, in the temporary storage; £60 is stored in the attribute balance; suspend the c1 thread • Back with the c2 thread: the c2 thread adds £10 to the current value in the temporary storage that is 50. The result 60 is now stored in the balance attribute. • Should be 70, not 60!

  26. Race condition • The problem is that the two threads (c1 and c2) are accessing the same resource (account) in a way that causes a conflict. • This is a common problem, known as a race condition, in multithreaded programs. • A class is said to be thread-safe if an object of the class does not cause a race condition in the presence of multiple threads. • The Account class is not thread-safe at the moment.

  27. Synchronized method • There is a need to protect the shared data. • Use synchronized methods so that there can be only one thread executing this method at a time. • Java guarantees once a thread has gained access to a synchronized method, it will finish the method before any other thread gains access to that or any other synchronized method in that object. • A synchronised method (implicitly) acquires a lock on the instance.

  28. Deposit as a Synchronized method class Account { int balance=0; public synchronized void deposit(int amount) { int tmp = balance; Thread.sleep(200); balance = tmp + amount; System.out.println("Current balance is "+balance); } }//Account • Run the program familyAccount, change the first line of deposit

  29. Multithreading for user interface in GUI applications 31/10/2014 Client-server Programming 29

  30. Example: Flashing label Press start, program displays a flashing rectangle until user presses the stop button. One thread is tied to display the flashing rectangle. In order to be able to accept user’s input, need more than one thread. Run the FlashStop program. (E:\Teaching\Client_server\Run2006-7\Code\ClientServer\src\threads) 31/10/2014 Client-server Programming 30

  31. Implementations Two classes: FlashStop and FlashRec FlashStop deals with the graphical interface and the interaction with the user Presents gui elements (behaves as a Frame) Implements the actonPerformed method (behaves as an ActionListener) To start a thread for displaying the “flashing” To stop the thread FlasRec deals with displaying the “flashing” effect. A thread repeatedly sets the background colour to be red/white 31/10/2014 Client-server Programming 31

  32. Flash rectangle 1 class FlashRec extends JPanel implements Runnable{ private boolean keepgoing=false; public void run() { while (keepgoing) { try { setBackground(Color.red); Thread.sleep(800); setBackground(Color.white); Thread.sleep(800); } catch (Exception e) {…} }//while }//run To continue… 31/10/2014 Client-server Programming 32

  33. Flash rectangle 2 public void pleaseStop() { keepgoing=false; } public void pleaseStart(){ keepgoing=true; } }//FlashRec 31/10/2014 Client-server Programming 33

  34. FlashStop class 1 public class FlashStop extends JFrame implements ActionListener { private JButton flash= new JButton(“flash"); private JButton stop=new JButton("stop"); private FlashRec fr; private Thread recThread; … 31/10/2014 Client-server Programming 34

  35. FlashStop class 2 FlashStop() { setSize(400,200); fr=new FlashRec(); Container c = getContentPane(); c.add(flash, "North"); start.addActionListener(this); c.add(stop,"South"); stop.addActionListener(this); c.add(fr, "Center");// }//FlashStop 31/10/2014 Client-server Programming 35

  36. FlashStop class 3 public void actionPerformed(ActionEvent e) { if (e.getSource() == start ) { fr.pleaseStart(); recThread=new Thread(fr); recThread.start();} if (e.getSource() ==stop) { fr.pleaseStop();} }//actionPerformed The actual code is slightly more complex. 31/10/2014 Client-server Programming 36

  37. Review • Understand how to define and create threads in Java: extends Thread and implement Runnable • Be able to write simple Java thread applications • Problem and solution with concurrent thread • Understand the GUI example and how to deal with events. Client-server Programming

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