Здравствуйте.
Есть программа, которую сам написал для создания и тестирования пула потоков. Единственное, что осталось сделать, это добавить возможность отменять задачу по id, которая выполняется. Мой вариант почему-то ничего не отменяет. Подскажите, пожалуйста, буду признателен. Вот код пула:
import java.util.*;
import java.util.concurrent.*;
public interface CustomQueue<E>{
public void enqueue(E e);
public E dequeue();
}
public class FreeThread extends Thread {
private MyQueue<Callable> myQueue;
public int task_count;
public long seconds;
public FreeThread(Worker worker,MyQueue<Callable> myQueue, String name) {
this.myQueue = myQueue;
}
@SuppressWarnings("deprecation")
@Override
public void run() {
while(true){
try{
Callable r = myQueue.dequeue();
// print the dequeued item
Date start=new Date();
System.out.println(" Задачу принял поток : " + Thread.currentThread().getName() );
task_count++;
r.call();
System.out.println(" Задачу выполнил поток : " + Thread.currentThread().getName());
Date end=new Date();
this.seconds = (end.getSeconds()-start.getSeconds());
}catch(Exception ex){}
}
}
}
public class MyQueue<E> implements CustomQueue<E>{
// queue backed by a linkedlist
private Queue<E> queue = new LinkedList<E>();
/**
* Enqueue will add an object to this queue, and will notify any waiting
* threads that now there is an object available.
*
* In enqueue method we just adding the elements not caring of size,
* we can even introduce some check of size here also.
*/
@Override
public synchronized void enqueue(E e) {
queue.add(e);
// Wake up anyone waiting on the queue to put some item.
notifyAll();
}
/**
* Make a blocking call so that we will only return when the queue has
* something on it, otherwise wait until something is put on it.
*/
@Override
public synchronized E dequeue(){
E e = null;
while(queue.isEmpty()){
try {
wait();
} catch (InterruptedException e1) {
return e;
}
}
e = queue.remove();
return e;
}
}
public class MyTimerTask extends TimerTask {
private FreeThread thread;
private int timelife;
public MyTimerTask(FreeThread thread,int timelife)
{
this.thread=thread;
this.timelife=timelife;
}
@SuppressWarnings("deprecation")
@Override
public void run() {
if (thread.task_count<1){
try {
thread.stop();
} catch (Exception e) {}
System.out.println(" Свободный поток : "+thread.getName()+" удален из пула в : "+new Date());
}
else{
thread.task_count=0;
MyTimerTask timerTask = new MyTimerTask(thread,timelife);
Timer timer = new Timer(true);
timer.schedule(timerTask,thread.seconds*1000);}
}
}
public class Task implements Callable {
public Future<Void> future;
public int id;
public int time ;
Task(int timeout) { time = timeout;Random rn=new Random(); this.id= rn.nextInt((2000 - 1) + 1) + 1;}
public void setFuture(Future<Void> future) {
this.future = future;
}
public Integer call() throws Exception {
System.out.println("Начало задачи id:"+id);
Thread.sleep(time*1000);
System.out.println("Конец задачи id:"+id);
return this.id;
}
}
public class Worker implements Runnable{
private volatile boolean stop = false;
private MyQueue<Callable> myQueue;
private String name;
public Worker(MyQueue<Callable> myQueue, String name){
this.myQueue = myQueue;
this.name = name;
}
public void requestStop() {
stop = true;
}
@Override
public void run() {
while(true){
try{
Callable r = myQueue.dequeue();
System.out.println(" Задачу принял поток : Thread - " + this.name );
r.call();
System.out.println(" Задачу выполнил поток: Thread - " + this.name);
}catch(Exception ex){}
}
}
}
public class ThreadPoolManager {
private final int THREADPOOL_CAPACITY;
// Queue<String> greeting = new QueueLinkedList<>();
MyQueue<Callable> myQueue = new MyQueue<Callable>();
private final int timelife;
public ThreadPoolManager(int capacity,int timeout){
this.THREADPOOL_CAPACITY = capacity;
this.timelife=timeout;
initAllHotConsumers();
initAllFreeConsumers();
}
private void initAllHotConsumers(){
for(Integer i = 0; i < THREADPOOL_CAPACITY; i++){
Thread thread = new Thread(new Worker(myQueue, i.toString()));
thread.setName("Thread - "+i.toString());
thread.start();
}
}
private void initAllFreeConsumers(){
for(Integer i = THREADPOOL_CAPACITY; i < THREADPOOL_CAPACITY*2; i++){
FreeThread thread = new FreeThread(new Worker(myQueue, i.toString()), myQueue, null);
thread.setName("Thread - "+i.toString());
thread.start();
Date start=new Date();
TimerTask timerTask = new MyTimerTask(thread,timelife);
//running timer task as daemon thread
Timer timer = new Timer(true);
timer.schedule(timerTask, timelife*1000);
}
}
public Future<String> submitTask(Callable r){
myQueue.enqueue(r);
return null;
}
}
А это тестирующий класс:
public class TestPool {
public static void main(String[] args) throws InterruptedException, ExecutionException {
ArrayList<Future<String>> results = new ArrayList<Future<String>>();
Set<Future<Integer>> set = new HashSet<Future<Integer>>();
boolean quit = false;
int thread_num=Integer.parseInt(args[0]) ;
int timeout=Integer.parseInt(args[1]) ;
StringBuilder resultStr = new StringBuilder();
ThreadPoolManager poolManager = new ThreadPoolManager(thread_num,timeout);
Scanner sc = new Scanner(System.in);
System.out.println("Выберите: добавить задачу в пул - 1 \n удалить задачу по id - 2\n выход - 3");
// возвращает истинну если с потока ввода можно считать целое число
do{
int choice = sc.nextInt();
if (choice==1)
{
System.out.println("Введите длительность задачи");
int time = sc.nextInt();
Callable task=new Task(time);
poolManager.submitTask(task);
FutureTask<String> task1 =
new FutureTask<String>(task);
results.add(task1);
}
if (choice==2)
{
System.out.println("Введите id задачи");
int id = sc.nextInt();
results.get(id).cancel(true);
}
if (choice ==3)
{quit=true;}
}while(!quit);
}
}