/* * Written by Doug Lea with assistance from members of JCP JSR-166 * Expert Group and released to the public domain, as explained at * http://creativecommons.org/licenses/publicdomain */ import java.util.*; import java.util.concurrent.*; //import jsr166y.*; public class OfferPollLoops { static final int NCPUS = Runtime.getRuntime().availableProcessors(); static final Random rng = new Random(); 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"); } // Number of elements passed around -- must be power of two // Elements are reused from pool to minimize alloc impact static final int POOL_SIZE = 1 << 8; static final int POOL_MASK = POOL_SIZE-1; static final Integer[] intPool = new Integer[POOL_SIZE]; static { for (int i = 0; i < POOL_SIZE; ++i) intPool[i] = Integer.valueOf(i); } // Number of puts by producers or takes by consumers static final int ITERS = 1 << 20; // max lag between a producer and consumer to avoid // this becoming a GC test rather than queue test. // Used only per-pair to lessen impact on queue sync static final int LAG_MASK = (1 << 12) - 1; public static void main(String[] args) throws Exception { int maxN = NCPUS * 3 / 2; if (args.length > 0) maxN = Integer.parseInt(args[0]); warmup(); print = true; int k = 1; for (int i = 1; i <= maxN;) { System.out.println("Pairs:" + i); oneTest(i, ITERS); if (i == k) { k = i << 1; i = i + (i >>> 1); } else i = k; } pool.shutdown(); } static void warmup() throws Exception { print = false; System.out.print("Warmup "); int it = 2000; for (int j = 5; j > 0; --j) { oneTest(j, it); System.out.print("."); it += 1000; } System.gc(); it = 20000; for (int j = 5; j > 0; --j) { oneTest(j, it); System.out.print("."); it += 10000; } System.gc(); System.out.println(); } static void oneTest(int n, int iters) throws Exception { int fairIters = iters/16; Thread.sleep(100); // System.gc(); if (print) System.out.print("LinkedTransferQueue "); oneRun(new LinkedTransferQueue(), n, iters); Thread.sleep(100); // System.gc(); if (print) System.out.print("ConcurrentLinkedQueue "); oneRun(new ConcurrentLinkedQueue(), n, iters); Thread.sleep(100); // System.gc(); if (print) System.out.print("LinkedBlockingQueue "); oneRun(new LinkedBlockingQueue(), n, iters); Thread.sleep(100); // System.gc(); if (print) System.out.print("LinkedBlockingQueue(cap)"); oneRun(new LinkedBlockingQueue(POOL_SIZE), n, iters); Thread.sleep(100); // System.gc(); if (print) System.out.print("LinkedBlockingDeque "); oneRun(new LinkedBlockingDeque(), n, iters); Thread.sleep(100); // System.gc(); if (print) System.out.print("ArrayBlockingQueue "); oneRun(new ArrayBlockingQueue(POOL_SIZE), n, iters); Thread.sleep(100); // System.gc(); if (print) System.out.print("PriorityBlockingQueue "); oneRun(new PriorityBlockingQueue(), n, fairIters); Thread.sleep(100); // System.gc(); if (print) System.out.print("ArrayBlockingQueue(fair)"); oneRun(new ArrayBlockingQueue(POOL_SIZE, true), n, fairIters); } static abstract class Stage implements Runnable { final int iters; final Queue queue; final CyclicBarrier barrier; final Phaser lagPhaser; Stage (Queue q, CyclicBarrier b, Phaser s, int iters) { queue = q; barrier = b; lagPhaser = s; this.iters = iters; } } static class Producer extends Stage { Producer(Queue q, CyclicBarrier b, Phaser s, int iters) { super(q, b, s, iters); } public void run() { try { barrier.await(); int ps = 0; int r = hashCode(); int i = 0; for (;;) { r = LoopHelpers.compute7(r); Integer v = intPool[r & POOL_MASK]; int k = v.intValue(); if (queue.offer(v)) { ps += k; ++i; if (i >= iters) break; if ((i & LAG_MASK) == LAG_MASK) lagPhaser.arriveAndAwaitAdvance(); } } addProducerSum(ps); barrier.await(); } catch (Exception ie) { ie.printStackTrace(); return; } } } static class Consumer extends Stage { Consumer(Queue q, CyclicBarrier b, Phaser s, int iters) { super(q, b, s, iters); } public void run() { try { barrier.await(); int cs = 0; int i = 0; for (;;) { Integer v = queue.poll(); if (v != null) { int k = v.intValue(); cs += k; ++i; if (i >= iters) break; if ((i & LAG_MASK) == LAG_MASK) lagPhaser.arriveAndAwaitAdvance(); } } addConsumerSum(cs); barrier.await(); } catch (Exception ie) { ie.printStackTrace(); return; } } } static void oneRun(Queue q, int n, int iters) throws Exception { LoopHelpers.BarrierTimer timer = new LoopHelpers.BarrierTimer(); CyclicBarrier barrier = new CyclicBarrier(n * 2 + 1, timer); for (int i = 0; i < n; ++i) { Phaser s = new Phaser(2); pool.execute(new Producer(q, barrier, s, iters)); pool.execute(new Consumer(q, barrier, s, iters)); } barrier.await(); barrier.await(); long time = timer.getTime(); checkSum(); if (print) System.out.println("\t: " + LoopHelpers.rightJustify(time / (iters * n)) + " ns per transfer"); } }