multipleproducerssingleconsumerloops.java
来自「SRI international 发布的OAA框架软件」· Java 代码 · 共 155 行
JAVA
155 行
/*
* @test
* @synopsis multiple producers and single consumer using blocking queues
*/
/*
* Written by Doug Lea with assistance from members of JCP JSR-166
* Expert Group and released to the public domain. Use, modify, and
* redistribute this code in any way without acknowledgement.
*/
import edu.emory.mathcs.backport.java.util.concurrent.*;
public class MultipleProducersSingleConsumerLoops {
static final int CAPACITY = 100;
static final ExecutorService pool = Executors.newCachedThreadPool();
static boolean print = false;
static int producerSum;
static int consumerSum;
static synchronized void addProducerSum(int x) {
producerSum += x;
}
static synchronized void addConsumerSum(int x) {
consumerSum += x;
}
static synchronized void checkSum() {
if (producerSum != consumerSum)
throw new Error("CheckSum mismatch");
}
public static void main(String[] args) throws Exception {
int maxProducers = 100;
int iters = 100000;
if (args.length > 0)
maxProducers = Integer.parseInt(args[0]);
print = false;
System.out.println("Warmup...");
oneTest(1, 10000);
Thread.sleep(100);
oneTest(2, 10000);
Thread.sleep(100);
print = true;
for (int i = 1; i <= maxProducers; i += (i+1) >>> 1) {
System.out.println("Producers:" + i);
oneTest(i, iters);
Thread.sleep(100);
}
pool.shutdown();
}
static void oneTest(int producers, int iters) throws Exception {
if (print)
System.out.print("ArrayBlockingQueue ");
oneRun(new ArrayBlockingQueue(CAPACITY), producers, iters);
if (print)
System.out.print("LinkedBlockingQueue ");
oneRun(new LinkedBlockingQueue(CAPACITY), producers, iters);
// Don't run PBQ since can legitimately run out of memory
// if (print)
// System.out.print("PriorityBlockingQueue ");
// oneRun(new PriorityBlockingQueue(), producers, iters);
if (print)
System.out.print("SynchronousQueue ");
oneRun(new SynchronousQueue(), producers, iters);
if (print)
System.out.print("ArrayBlockingQueue(fair)");
oneRun(new ArrayBlockingQueue(CAPACITY, true), producers, iters/10);
}
static abstract class Stage implements Runnable {
final int iters;
final BlockingQueue queue;
final CyclicBarrier barrier;
Stage (BlockingQueue q, CyclicBarrier b, int iters) {
queue = q;
barrier = b;
this.iters = iters;
}
}
static class Producer extends Stage {
Producer(BlockingQueue q, CyclicBarrier b, int iters) {
super(q, b, iters);
}
public void run() {
try {
barrier.await();
int s = 0;
int l = hashCode();
for (int i = 0; i < iters; ++i) {
l = LoopHelpers.compute1(l);
l = LoopHelpers.compute2(l);
queue.put(new Integer(l));
s += l;
}
addProducerSum(s);
barrier.await();
}
catch (Exception ie) {
ie.printStackTrace();
return;
}
}
}
static class Consumer extends Stage {
Consumer(BlockingQueue q, CyclicBarrier b, int iters) {
super(q, b, iters);
}
public void run() {
try {
barrier.await();
int s = 0;
for (int i = 0; i < iters; ++i) {
s += ((Integer)queue.take()).intValue();
}
addConsumerSum(s);
barrier.await();
}
catch (Exception ie) {
ie.printStackTrace();
return;
}
}
}
static void oneRun(BlockingQueue q, int nproducers, int iters) throws Exception {
LoopHelpers.BarrierTimer timer = new LoopHelpers.BarrierTimer();
CyclicBarrier barrier = new CyclicBarrier(nproducers + 2, timer);
for (int i = 0; i < nproducers; ++i) {
pool.execute(new Producer(q, barrier, iters));
}
pool.execute(new Consumer(q, barrier, iters * nproducers));
barrier.await();
barrier.await();
long time = timer.getTime();
checkSum();
if (print)
System.out.println("\t: " + LoopHelpers.rightJustify(time / (iters * nproducers)) + " ns per transfer");
}
}
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