Exemplo n.º 1
0
  @Test
  public void testPooledIteratorFullIteratorLoop() {
    // A) for-each loop interrupted

    // must accommodate even the smallest primitive type
    // so that the iteration do not break before it should...
    final int TEST_SIZE = 126;
    final long TEST_ROUNDS = 5000;

    final KTypeSet<KType> testContainer = createSetWithOrderedData(TEST_SIZE);

    final long checksum =
        testContainer.forEach(
                new KTypeProcedure<KType>() {

                  long count;

                  @Override
                  public void apply(final KType value) {
                    this.count += castType(value);
                  }
                })
            .count;

    long testValue = 0;
    final int startingPoolSize = getEntryPoolSize(testContainer);

    for (int round = 0; round < TEST_ROUNDS; round++) {
      // Classical iterator loop, with manually allocated Iterator
      final int initialPoolSize = getEntryPoolSize(testContainer);

      final AbstractIterator<KTypeCursor<KType>> loopIterator =
          (AbstractIterator<KTypeCursor<KType>>) testContainer.iterator();

      Assert.assertEquals(initialPoolSize - 1, getEntryPoolSize(testContainer));

      testValue = 0;
      while (loopIterator.hasNext()) {
        testValue += castType(loopIterator.next().value);
      } // end IteratorLoop

      // iterator is returned automatically to its pool, by normal iteration termination
      Assert.assertEquals(initialPoolSize, getEntryPoolSize(testContainer));

      // checksum
      Assert.assertEquals(checksum, testValue);
    } // end for rounds

    // pool initial size is untouched anyway
    Assert.assertEquals(startingPoolSize, getEntryPoolSize(testContainer));
  }
Exemplo n.º 2
0
  @Test
  public void testPooledIteratorBrokenIteratorLoop() {
    // A) for-each loop interrupted

    // must accommodate even the smallest primitive type
    // so that the iteration do not break before it should...
    final int TEST_SIZE = 126;
    final long TEST_ROUNDS = 5000;

    final KTypeSet<KType> testContainer = createSetWithOrderedData(TEST_SIZE);
    final int startingPoolSize = getEntryPoolSize(testContainer);

    int count = 0;
    for (int round = 0; round < TEST_ROUNDS; round++) {
      // Classical iterator loop, with manually allocated Iterator
      final long initialPoolSize = getEntryPoolSize(testContainer);

      final AbstractIterator<KTypeCursor<KType>> loopIterator =
          (AbstractIterator<KTypeCursor<KType>>) testContainer.iterator();

      Assert.assertEquals(initialPoolSize - 1, getEntryPoolSize(testContainer));

      count = 0;
      int guard = 0;
      while (loopIterator.hasNext()) {
        guard += castType(loopIterator.next().value);

        // brutally interrupt in the middle
        if (count > TEST_SIZE / 2) {
          break;
        }
        count++;
      } // end IteratorLoop

      // iterator is NOT returned to its pool, due to the break.
      Assert.assertEquals(initialPoolSize - 1, getEntryPoolSize(testContainer));

      // manual return to the pool
      loopIterator.release();

      // now the pool is restored
      Assert.assertEquals(initialPoolSize, getEntryPoolSize(testContainer));
    } // end for rounds

    // pool initial size is untouched anyway
    Assert.assertEquals(startingPoolSize, getEntryPoolSize(testContainer));
  }
Exemplo n.º 3
0
  @Test
  public void testPooledIteratorExceptionIteratorLoop() {
    // must accommodate even the smallest primitive type
    // so that the iteration do not break before it should...
    final int TEST_SIZE = 126;
    final long TEST_ROUNDS = 5000;

    final KTypeSet<KType> testContainer = createSetWithOrderedData(TEST_SIZE);

    final long checksum =
        testContainer.forEach(
                new KTypeProcedure<KType>() {

                  long count;

                  @Override
                  public void apply(final KType value) {
                    this.count += castType(value);
                  }
                })
            .count;

    final int startingPoolSize = getEntryPoolSize(testContainer);

    int count = 0;
    AbstractIterator<KTypeCursor<KType>> loopIterator = null;

    for (int round = 0; round < TEST_ROUNDS; round++) {
      try {
        loopIterator = (AbstractIterator<KTypeCursor<KType>>) testContainer.iterator();

        Assert.assertEquals(startingPoolSize - 1, getEntryPoolSize(testContainer));

        int guard = 0;
        count = 0;
        while (loopIterator.hasNext()) {
          guard += castType(loopIterator.next().value);

          // brutally interrupt in the middle some of the loops, but not all
          if (round > TEST_ROUNDS / 2 && count > TEST_SIZE / 2) {
            throw new Exception("Oups some problem in the loop occured");
          }
          count++;
        } // end while

        // iterator is returned to its pool in case of normal loop termination
        Assert.assertEquals(startingPoolSize, getEntryPoolSize(testContainer));
        Assert.assertEquals(checksum, guard);

      } catch (final Exception e) {
        // iterator is NOT returned to its pool because of the exception
        Assert.assertEquals(startingPoolSize - 1, getEntryPoolSize(testContainer));

        // manual return to the pool then
        loopIterator.release();

        // now the pool is restored
        Assert.assertEquals(startingPoolSize, getEntryPoolSize(testContainer));
      }
    } // end for rounds

    // pool initial size is untouched anyway
    Assert.assertEquals(startingPoolSize, getEntryPoolSize(testContainer));
  }