Esempio n. 1
0
    public NonBlockingIdentityHashMap<Long, TestKey> getMapMultithreaded()
        throws InterruptedException, ExecutionException {
      final int threadCount = _items.keySet().size();
      final NonBlockingIdentityHashMap<Long, TestKey> map =
          new NonBlockingIdentityHashMap<Long, TestKey>();

      // use a barrier to open the gate for all threads at once to avoid rolling start and no actual
      // concurrency
      final CyclicBarrier barrier = new CyclicBarrier(threadCount);
      final ExecutorService ex = Executors.newFixedThreadPool(threadCount);
      final CompletionService<Integer> co = new ExecutorCompletionService<Integer>(ex);
      for (Integer type : _items.keySet()) {
        // A linked-list of things to insert
        List<TestKey> items = _items.get(type);
        TestKeyFeederThread feeder = new TestKeyFeederThread(type, items, map, barrier);
        co.submit(feeder);
      }

      // wait for all threads to return
      int itemCount = 0;
      for (int retCount = 0; retCount < threadCount; retCount++) {
        final Future<Integer> result = co.take();
        itemCount += result.get();
      }
      ex.shutdown();
      return map;
    }
Esempio n. 2
0
  // Concurrent insertion & then iterator test.
  public static void testNonBlockingIdentityHashMapIterator() throws InterruptedException {
    final int ITEM_COUNT1 = 1000;
    final int THREAD_COUNT = 5;
    final int PER_CNT = ITEM_COUNT1 / THREAD_COUNT;
    final int ITEM_COUNT = PER_CNT * THREAD_COUNT; // fix roundoff for odd thread counts

    NonBlockingIdentityHashMap<Long, TestKey> nbhml =
        new NonBlockingIdentityHashMap<Long, TestKey>();
    // use a barrier to open the gate for all threads at once to avoid rolling
    // start and no actual concurrency
    final CyclicBarrier barrier = new CyclicBarrier(THREAD_COUNT);
    final ExecutorService ex = Executors.newFixedThreadPool(THREAD_COUNT);
    final CompletionService<Object> co = new ExecutorCompletionService<Object>(ex);
    for (int i = 0; i < THREAD_COUNT; i++) {
      co.submit(new NBHMLFeeder(nbhml, PER_CNT, barrier, i * PER_CNT));
    }
    for (int retCount = 0; retCount < THREAD_COUNT; retCount++) {
      co.take();
    }
    ex.shutdown();

    assertEquals("values().size()", ITEM_COUNT, nbhml.values().size());
    assertEquals("entrySet().size()", ITEM_COUNT, nbhml.entrySet().size());
    int itemCount = 0;
    for (TestKey K : nbhml.values()) itemCount++;
    assertEquals("values().iterator() count", ITEM_COUNT, itemCount);
  }