com.sun.grizzly.util.PipelineThreadPool Maven / Gradle / Ivy
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package com.sun.grizzly.util;
import java.util.concurrent.BlockingQueue;
import java.util.concurrent.ThreadFactory;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicInteger;
/**
*
* {@link ExecutorService} implementation, which function the similar way as
* former Grizzly 1.x Pipeline based thread pools.
* Unlike {@link DefaultThreadPool}, this thread pool, if there are no free
* worker threads available, prefers to create new worker thread, up-to maximum,
* to process new task. And only if max threads count is reached - this
* thread pool will start to add tasks to queue. Where {@link DefaultThreadPool}
* first tries to add new task to queue, and only if task queue reaches its
* maximum - creates new worker thread.
*
* corethreads are prestarted.
* maxPoolSize is runtime configurable.
*
* Designed around the use of lockfree queue.
* less performant then {@link FixedThreadPool} due to keeping track
* of queue size to know when to spawn a worker or not, creating a chokepoint between producers and consumers
* in the form of looping around compareAndSet inside {@link AtomicInteger} to update the queue size for each put and get of a task .
* for short lived tasks at saturation throughput this overhead can be substantial on some platforms.
* by default: {@link WorkerThreadImpl} is used,
* {@link LinkedTransferQueue} is used as workQueue , this means that its FIFO per producer.
*
* @author gustav trede
*/
public class PipelineThreadPool extends FixedThreadPool{
private final AtomicInteger queueSize = new AtomicInteger();
protected final int corePoolsize;
protected final long idleTimeout;
protected final TimeUnit timeUnit;
/**
*
*/
public PipelineThreadPool() {
this("GrizzlyWorker", 8, 64, 30, TimeUnit.SECONDS);
}
/**
*
* @param workerprefixname
* @param corePoolsize
* @param maxPoolSize
* @param keepAliveTime
* @param timeUnit {@link TimeUnit}
*/
public PipelineThreadPool(final String name,int corePoolsize,
int maxPoolSize, long keepAliveTime, TimeUnit timeUnit){
this(corePoolsize, maxPoolSize, keepAliveTime, timeUnit,new ThreadFactory(){
private final AtomicInteger c = new AtomicInteger();
public Thread newThread(Runnable r) {
Thread t = new WorkerThreadImpl(null,
name + "-" + c.incrementAndGet(), r, 0);
t.setDaemon(true);
return t;
}
});
this.name = name;
}
/**
*
* @param corePoolsize
* @param maxPoolSize
* @param keepAliveTime
* @param timeUnit {@link TimeUnit}
* @param threadFactory {@link ThreadFactory}
*/
public PipelineThreadPool(int corePoolsize,int maxPoolSize,
long keepAliveTime, TimeUnit timeUnit, ThreadFactory threadFactory){
this(corePoolsize, maxPoolSize, keepAliveTime, timeUnit,
threadFactory, new LinkedTransferQueue());
}
/**
*
* @param corePoolsize
* @param maxPoolSize
* @param keepAliveTime
* @param timeUnit {@link TimeUnit}
* @param threadFactory {@link ThreadFactory}
* @param workQueue {@link BlockingQueue}
*/
public PipelineThreadPool(int corePoolsize,int maxPoolSize,
long keepAliveTime, TimeUnit timeUnit, ThreadFactory threadFactory,
BlockingQueue workQueue) {
super(workQueue, threadFactory);
validateNewPoolsize(corePoolsize, maxPoolSize);
if (keepAliveTime< 0 )
throw new IllegalArgumentException("keepAliveTime < 0");
if (timeUnit == null)
throw new IllegalArgumentException("timeUnit == null");
this.corePoolsize = corePoolsize;
this.maxPoolSize = maxPoolSize;
this.idleTimeout = keepAliveTime;
this.timeUnit = timeUnit;
aliveworkerCount.set(corePoolsize);
while (corePoolsize-->0){
startWorker(new Worker(null,true));
}
}
private void validateNewPoolsize(int corePoolsize, int maxPoolSize){
if (maxPoolSize < 1)
throw new IllegalArgumentException("maxPoolsize < 1");
if (corePoolsize < 1)
throw new IllegalArgumentException("corePoolsize < 1");
if (corePoolsize > maxPoolSize)
throw new IllegalArgumentException("corePoolsize > maxPoolSize");
}
/**
* {@inheritDoc}
*/
@Override
public void execute(Runnable task) {
if (task == null){
throw new IllegalArgumentException("Runnable task is null");
}
int ac;
while((ac=aliveworkerCount.get())0 && running){
if (aliveworkerCount.compareAndSet(ac, ac+1)){
startWorker(new Worker(task, false));
return;
}
}
if (running){
workQueue.offer(task);
queueSize.incrementAndGet();
}
}
protected class Worker extends BasicWorker{
private final boolean core;
private Runnable firstTask;
public Worker(Runnable firstTask, boolean core) {
super();
this.core = core;
this.firstTask = firstTask;
}
@Override
protected Runnable getTask() throws InterruptedException {
Runnable r;
if (firstTask != null){
r = firstTask;
firstTask = null;
}else{
// if maxpoolsize becomes lower during runtime we kill of the
// difference, possible abit more since we are not looping around compareAndSet
if (!core && aliveworkerCount.get() > maxPoolSize){
return null;
}
r = (core?workQueue.take():workQueue.poll(idleTimeout, timeUnit));
if (r != null){
queueSize.decrementAndGet();
}
}
return r;
}
}
@Override
public int getQueueSize() {
return queueSize.get();
}
@Override
public int getCorePoolSize() {
return corePoolsize;
}
/**
*
* @param maxPoolSize
*/
@Override
public void setMaximumPoolSize(int maxPoolSize) {
synchronized(statelock){
validateNewPoolsize(corePoolsize, maxPoolSize);
this.maxPoolSize = maxPoolSize;
}
}
@Override
public int getMaximumPoolSize() {
return maxPoolSize;
}
@Override
public long getKeepAliveTime(TimeUnit unit) {
return unit.convert(idleTimeout, timeUnit);
}
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