/** @return {@code True} if all replies are received. */
  private boolean allReceived() {
    Collection<UUID> rmtIds = this.rmtIds;

    assert rmtIds != null : "Remote Ids can't be null: " + this;

    synchronized (rcvdIds) {
      return rcvdIds.containsAll(rmtIds);
    }
  }
  /** @throws Exception Thrown if test failed. */
  @SuppressWarnings({"UnusedAssignment"})
  public void testB() throws Exception {
    Collection<SampleBean> set = new GridConcurrentWeakHashSet<>();

    SampleBean bean1 = new SampleBean(1);

    assert set.add(bean1);
    assert !set.add(bean1);

    assert set.size() == 1;

    assert set.contains(bean1);

    bean1 = null;

    gc();

    assert set.isEmpty();

    Collection<SampleBean> c =
        F.asList(new SampleBean(1), new SampleBean(2), new SampleBean(3), new SampleBean(4));

    assert set.addAll(c);
    assert !set.addAll(c);

    assert set.size() == c.size();

    assert set.containsAll(c);

    c = null;

    gc();

    assert set.isEmpty();

    SampleBean b1 = new SampleBean(1);
    SampleBean b2 = new SampleBean(2);
    SampleBean b3 = new SampleBean(3);
    SampleBean b4 = new SampleBean(4);
    SampleBean b5 = new SampleBean(5);

    set.add(b1);
    set.add(b2);
    set.add(b3);
    set.add(b4);
    set.add(b5);

    Iterator iter = set.iterator();

    assert iter.hasNext();

    b2 = null;
    b3 = null;
    b4 = null;

    gc();

    int cnt = 0;

    while (iter.hasNext()) {
      info(iter.next().toString());

      cnt++;
    }

    assert set.size() == cnt;
  }
  /** @throws Exception Thrown if test failed. */
  public void testA() throws Exception {
    Collection<Integer> set = new GridConcurrentWeakHashSet<>();

    Integer i = 1;

    assert set.add(i);
    assert !set.add(i);

    assert set.contains(i);

    assert set.size() == 1;

    Collection<Integer> c = F.asList(2, 3, 4, 5);

    assert set.addAll(c);
    assert !set.addAll(c);

    assert set.containsAll(c);

    assert set.size() == 1 + c.size();

    assert set.remove(i);
    assert !set.remove(i);

    assert !set.contains(i);

    assert set.size() == c.size();

    assert set.removeAll(c);
    assert !set.removeAll(c);

    assert !set.containsAll(c);

    assert set.isEmpty();

    Collection<Integer> c1 = Arrays.asList(1, 3, 5, 7, 9);

    int cnt = 0;

    for (Iterator<Integer> iter = set.iterator(); iter.hasNext(); cnt++) c1.contains(iter.next());

    assert set.size() == cnt;

    assert set.size() == set.toArray().length;

    assert set.addAll(c1);

    assert set.retainAll(c);
    assert !set.retainAll(c);

    Collection<Integer> c2 = F.retain(c1, true, c);

    assert set.containsAll(c2);
    assert !set.containsAll(c1);
    assert !set.containsAll(c);

    assert set.size() == c2.size();

    set.clear();

    assert set.isEmpty();

    try {
      set.iterator().next();

      assert false;
    } catch (NoSuchElementException ignored) {
      assert true;
    }

    try {
      set.add(null);

      assert false;
    } catch (NullPointerException ignored) {
      assert true;
    }
  }
  /**
   * @param updateSeq Update sequence.
   * @return Checks if any of the local partitions need to be evicted.
   */
  private boolean checkEvictions(long updateSeq) {
    assert lock.isWriteLockedByCurrentThread();

    boolean changed = false;

    UUID locId = cctx.nodeId();

    for (GridDhtLocalPartition part : locParts.values()) {
      GridDhtPartitionState state = part.state();

      if (state.active()) {
        int p = part.id();

        List<ClusterNode> affNodes = cctx.affinity().nodes(p, topVer);

        if (!affNodes.contains(cctx.localNode())) {
          Collection<UUID> nodeIds = F.nodeIds(nodes(p, topVer, OWNING));

          // If all affinity nodes are owners, then evict partition from local node.
          if (nodeIds.containsAll(F.nodeIds(affNodes))) {
            part.rent(false);

            updateLocal(part.id(), locId, part.state(), updateSeq);

            changed = true;

            if (log.isDebugEnabled())
              log.debug("Evicted local partition (all affinity nodes are owners): " + part);
          } else {
            int ownerCnt = nodeIds.size();
            int affCnt = affNodes.size();

            if (ownerCnt > affCnt) {
              List<ClusterNode> sorted = new ArrayList<>(cctx.discovery().nodes(nodeIds));

              // Sort by node orders in ascending order.
              Collections.sort(sorted, CU.nodeComparator(true));

              int diff = sorted.size() - affCnt;

              for (int i = 0; i < diff; i++) {
                ClusterNode n = sorted.get(i);

                if (locId.equals(n.id())) {
                  part.rent(false);

                  updateLocal(part.id(), locId, part.state(), updateSeq);

                  changed = true;

                  if (log.isDebugEnabled())
                    log.debug(
                        "Evicted local partition (this node is oldest non-affinity node): " + part);

                  break;
                }
              }
            }
          }
        }
      }
    }

    return changed;
  }