@Test public void test_aggregationByDay() throws Exception { DateTimeZone utc = DateTimeZone.UTC; DateTime startDate = new DateTime(2014, 1, 1, 0, 0, utc); DateTime endDate = new DateTime(2014, 1, 3, 3, 0, utc); ListDataPointGroup group = new ListDataPointGroup("aggregationByDay"); for (DateTime hour = startDate; hour.isBefore(endDate); hour = hour.plusHours(1)) { group.addDataPoint(new LongDataPoint(hour.getMillis(), 1L)); } SumAggregator aggregator = new SumAggregator(new DoubleDataPointFactoryImpl()); aggregator.setSampling(new Sampling(1, TimeUnit.DAYS)); aggregator.setAlignSampling(false); DataPointGroup dayCount = aggregator.aggregate(group); assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(24L)); assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(24L)); assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(3L)); assertThat(dayCount.hasNext(), is(false)); }
@Test public void test_aggregationBySecond() throws Exception { DateTimeZone utc = DateTimeZone.UTC; DateTime startDate = new DateTime(2014, 1, 1, 0, 0, 0, 0, utc); DateTime endDate = new DateTime(2014, 1, 1, 0, 0, 2, 200, utc); ListDataPointGroup group = new ListDataPointGroup("aggregationByDay"); for (DateTime milliSecond = startDate; milliSecond.isBefore(endDate); milliSecond = milliSecond.plus(100)) { group.addDataPoint(new LongDataPoint(milliSecond.getMillis(), 1L)); } SumAggregator aggregator = new SumAggregator(new DoubleDataPointFactoryImpl()); aggregator.setSampling(new Sampling(1, TimeUnit.SECONDS)); aggregator.setAlignSampling(false); DataPointGroup dayCount = aggregator.aggregate(group); assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(10L)); assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(10L)); assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(2L)); assertThat(dayCount.hasNext(), is(false)); }
@Test public void testNotAddingSavedFrom() throws DatastoreException { m_aggregator.setMetricName("testTtl"); m_aggregator.setTags(ImmutableSortedMap.<String, String>of("sweet_tag", "value")); m_aggregator.setAddSavedFrom(false); ImmutableSortedMap<String, String> verifyMap = ImmutableSortedMap.<String, String>naturalOrder().put("sweet_tag", "value").build(); ListDataPointGroup group = new ListDataPointGroup("group"); group.addDataPoint(new LongDataPoint(1, 10)); group.addDataPoint(new LongDataPoint(2, 20)); group.addTag("host", "tag_should_not_be_there"); DataPointGroup results = m_aggregator.aggregate(group); assertThat(results.hasNext(), equalTo(true)); DataPoint dataPoint = results.next(); assertThat(dataPoint.getTimestamp(), equalTo(1L)); assertThat(dataPoint.getLongValue(), equalTo(10L)); verify(m_mockDatastore).putDataPoint(eq("testTtl"), eq(verifyMap), eq(dataPoint), eq(0)); assertThat(results.hasNext(), equalTo(true)); dataPoint = results.next(); assertThat(dataPoint.getTimestamp(), equalTo(2L)); assertThat(dataPoint.getLongValue(), equalTo(20L)); verify(m_mockDatastore).putDataPoint(eq("testTtl"), eq(verifyMap), eq(dataPoint), eq(0)); results.close(); }
@Test public void test_aggregationByYearOverLeapYears() { DateTimeZone utc = DateTimeZone.UTC; DateTime startDate = new DateTime(2010, 1, 1, 0, 0, utc); DateTime endDate = new DateTime(2014, 1, 1, 0, 0, utc); ListDataPointGroup dpGroup = new ListDataPointGroup("range_test"); for (DateTime iterationDT = startDate; iterationDT.isBefore(endDate); iterationDT = iterationDT.plusDays(1)) { dpGroup.addDataPoint(new LongDataPoint(iterationDT.getMillis(), 1)); } SumAggregator aggregator = new SumAggregator(new DoubleDataPointFactoryImpl()); aggregator.setSampling(new Sampling(1, TimeUnit.YEARS)); aggregator.setAlignSampling(false); DataPointGroup dayCount = aggregator.aggregate(dpGroup); assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(365L)); // 2010 assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(365L)); // 2011 assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(366L)); // 2012 assertThat(dayCount.hasNext(), is(true)); assertThat(dayCount.next().getLongValue(), is(365L)); // 2013 assertThat(dayCount.hasNext(), is(false)); }
@Test public void test_yearAggregationWithoutLeapYears() { DateTimeZone utc = DateTimeZone.UTC; ListDataPointGroup dpGroup = new ListDataPointGroup("range_test"); DateTime startDate = new DateTime(2014, 1, 1, 0, 0, utc); for (DateTime date = startDate; date.isBefore(new DateTime(2015, 6, 2, 0, 0, utc)); date = date.plusMonths(1)) { dpGroup.addDataPoint(new LongDataPoint(date.getMillis(), 1)); } SumAggregator agg = new SumAggregator(new DoubleDataPointFactoryImpl()); agg.setSampling(new Sampling(1, TimeUnit.YEARS)); agg.setAlignSampling(false); agg.setStartTime(startDate.getMillis()); DataPointGroup aggregated = agg.aggregate(dpGroup); assertThat(aggregated.hasNext(), is(true)); assertThat(aggregated.next().getLongValue(), is(12L)); assertThat(aggregated.hasNext(), is(true)); assertThat(aggregated.next().getLongValue(), is(6L)); assertThat(aggregated.hasNext(), is(false)); }
@Test public void testNoTtl() throws DatastoreException { m_aggregator.setMetricName("testTtl"); ListDataPointGroup group = new ListDataPointGroup("group"); group.addDataPoint(new LongDataPoint(1, 10)); group.addDataPoint(new LongDataPoint(2, 20)); DataPointGroup results = m_aggregator.aggregate(group); assertThat(results.hasNext(), equalTo(true)); DataPoint dataPoint = results.next(); assertThat(dataPoint.getTimestamp(), equalTo(1L)); assertThat(dataPoint.getLongValue(), equalTo(10L)); verify(m_mockDatastore) .putDataPoint(eq("testTtl"), any(ImmutableSortedMap.class), eq(dataPoint), eq(0)); assertThat(results.hasNext(), equalTo(true)); dataPoint = results.next(); assertThat(dataPoint.getTimestamp(), equalTo(2L)); assertThat(dataPoint.getLongValue(), equalTo(20L)); verify(m_mockDatastore) .putDataPoint(eq("testTtl"), any(ImmutableSortedMap.class), eq(dataPoint), eq(0)); results.close(); }
@Test public void test_aggregationByWeekAlign() { DateTimeZone utc = DateTimeZone.UTC; DateTime startDate = new DateTime(2015, 1, 2, 1, 11, utc); DateTime endDate = new DateTime(2015, 1, 18, 11, 11, utc); ListDataPointGroup dpGroup = new ListDataPointGroup("range_test"); for (DateTime iterationDT = startDate; iterationDT.isBefore(endDate); iterationDT = iterationDT.plusDays(1)) { dpGroup.addDataPoint(new LongDataPoint(iterationDT.getMillis(), 1)); } SumAggregator aggregator = new SumAggregator(new DoubleDataPointFactoryImpl()); aggregator.setSampling(new Sampling(1, TimeUnit.WEEKS)); aggregator.setAlignSampling(true); aggregator.setAlignStartTime(true); aggregator.setStartTime(startDate.getMillis()); DataPointGroup aggregated = aggregator.aggregate(dpGroup); assertThat(aggregated.hasNext(), is(true)); DateTime firstWeekStart = new DateTime(2014, 12, 29, 0, 0, utc); DataPoint firstWeekDataPoint = aggregated.next(); assertThat(new DateTime(firstWeekDataPoint.getTimestamp(), utc), equalTo(firstWeekStart)); assertThat(firstWeekDataPoint.getLongValue(), is(3L)); assertThat(aggregated.hasNext(), is(true)); DateTime secondWeekStart = new DateTime(2015, 1, 5, 0, 0, utc); DataPoint secondWeekDataPoint = aggregated.next(); assertThat(new DateTime(secondWeekDataPoint.getTimestamp(), utc), equalTo(secondWeekStart)); assertThat(secondWeekDataPoint.getLongValue(), is(7L)); assertThat(aggregated.hasNext(), is(true)); DateTime thirdWeekStart = new DateTime(2015, 1, 12, 0, 0, utc); DataPoint thirdWeekDataPoint = aggregated.next(); assertThat(new DateTime(thirdWeekDataPoint.getTimestamp(), utc), equalTo(thirdWeekStart)); assertThat(thirdWeekDataPoint.getLongValue(), is(7L)); assertThat(aggregated.hasNext(), is(false)); }
@Test public void test_aggregateByMonthStartAtMidMonthAlign() { DateTimeZone utc = DateTimeZone.UTC; DateTime startDate = new DateTime(2014, 3, 10, 0, 0, utc); DateTime stopDate = new DateTime(2014, 5, 23, 0, 0, utc); ListDataPointGroup dpGroup = new ListDataPointGroup("range_test"); for (DateTime iterationDT = startDate; iterationDT.isBefore(stopDate); iterationDT = iterationDT.plusDays(1)) { dpGroup.addDataPoint(new LongDataPoint(iterationDT.getMillis(), 1)); } SumAggregator aggregator = new SumAggregator(new DoubleDataPointFactoryImpl()); aggregator.setSampling(new Sampling(1, TimeUnit.MONTHS)); aggregator.setAlignSampling(true); aggregator.setAlignStartTime(true); aggregator.setStartTime(startDate.getMillis()); DataPointGroup aggregated = aggregator.aggregate(dpGroup); assertThat(aggregated.hasNext(), is(true)); DateTime marchFirst = new DateTime(2014, 3, 1, 0, 0, utc); DataPoint marchDataPoint = aggregated.next(); assertThat(new DateTime(marchDataPoint.getTimestamp(), utc), equalTo(marchFirst)); assertThat(marchDataPoint.getLongValue(), is(22L)); assertThat(aggregated.hasNext(), is(true)); DateTime aprilFirst = new DateTime(2014, 4, 1, 0, 0, utc); DataPoint aprilDataPoint = aggregated.next(); assertThat(new DateTime(aprilDataPoint.getTimestamp(), utc), equalTo(aprilFirst)); assertThat(aprilDataPoint.getLongValue(), is(30L)); assertThat(aggregated.hasNext(), is(true)); DateTime mayFirst = new DateTime(2014, 5, 1, 0, 0, utc); DataPoint mayMonthDataPoint = aggregated.next(); assertThat(new DateTime(mayMonthDataPoint.getTimestamp(), utc), equalTo(mayFirst)); assertThat(mayMonthDataPoint.getLongValue(), is(22L)); assertThat(aggregated.hasNext(), is(false)); }
@Test public void testGroupByTagFilter() throws DatastoreException { m_aggregator.setMetricName("testTtl"); m_aggregator.setTtl(42); GroupBy groupBy = new TagGroupBy("host", "host2"); m_aggregator.setGroupBys(Collections.singletonList(groupBy)); ImmutableSortedMap<String, String> verifyMap = ImmutableSortedMap.<String, String>naturalOrder() .put("saved_from", "group") .put("host", "bob") .build(); ListDataPointGroup group = new ListDataPointGroup("group"); group.addDataPoint(new LongDataPoint(1, 10)); group.addDataPoint(new LongDataPoint(2, 20)); group.addTag("host", "bob"); group.addTag("some_tag", "tag_should_not_be_there"); group.addTag("host2", "host2_tag"); group.addTag("host2", "wont show up because there are two"); DataPointGroup results = m_aggregator.aggregate(group); assertThat(results.hasNext(), equalTo(true)); DataPoint dataPoint = results.next(); assertThat(dataPoint.getTimestamp(), equalTo(1L)); assertThat(dataPoint.getLongValue(), equalTo(10L)); verify(m_mockDatastore).putDataPoint(eq("testTtl"), eq(verifyMap), eq(dataPoint), eq(42)); assertThat(results.hasNext(), equalTo(true)); dataPoint = results.next(); assertThat(dataPoint.getTimestamp(), equalTo(2L)); assertThat(dataPoint.getLongValue(), equalTo(20L)); verify(m_mockDatastore).putDataPoint(eq("testTtl"), eq(verifyMap), eq(dataPoint), eq(42)); results.close(); }
@Test public void test_aggregationByHourOverMarch_dst() { ListDataPointGroup group = new ListDataPointGroup("March"); DateTimeZone paris = DateTimeZone.forID("Europe/Paris"); for (DateTime hour = new DateTime(2014, 3, 1, 0, 0, paris); // 1st of March hour.isBefore(new DateTime(2014, 4, 1, 0, 0, paris)); // 1st of April hour = hour.plusHours(1)) { group.addDataPoint(new LongDataPoint(hour.getMillis(), 1L)); } SumAggregator aggregator = new SumAggregator(new DoubleDataPointFactoryImpl()); aggregator.setTimeZone(paris); aggregator.setSampling(new Sampling(1, TimeUnit.MONTHS)); aggregator.setAlignSampling(true); DataPointGroup hourCount = aggregator.aggregate(group); assert hourCount.hasNext(); // 31 * 24 - 1 = 743 hours in March assertThat(hourCount.next().getLongValue(), is(743L)); assertThat(hourCount.hasNext(), is(false)); }
@Test public void test_aggregationByMilliSecond() throws Exception { DateTimeZone utc = DateTimeZone.UTC; DateTime startDate = new DateTime(2014, 1, 1, 0, 0, 0, 0, utc); DateTime endDate = new DateTime(2014, 1, 1, 0, 0, 0, 3, utc); ListDataPointGroup group = new ListDataPointGroup("aggregationByDay"); for (DateTime milliSecond = startDate; milliSecond.isBefore(endDate); milliSecond = milliSecond.plus(1)) { group.addDataPoint(new LongDataPoint(milliSecond.getMillis(), 1L)); group.addDataPoint(new LongDataPoint(milliSecond.getMillis(), 1L)); } SumAggregator aggregator = new SumAggregator(new DoubleDataPointFactoryImpl()); aggregator.setSampling(new Sampling(1, TimeUnit.MILLISECONDS)); aggregator.setAlignSampling(false); aggregator.setStartTime(startDate.getMillis()); DataPointGroup dayCount = aggregator.aggregate(group); assertThat(dayCount.hasNext(), is(true)); DataPoint firstMillis = dayCount.next(); assertThat(new DateTime(firstMillis.getTimestamp(), utc), equalTo(startDate)); assertThat(firstMillis.getLongValue(), is(2L)); assertThat(dayCount.hasNext(), is(true)); DataPoint secondMillis = dayCount.next(); assertThat(new DateTime(secondMillis.getTimestamp(), utc), equalTo(startDate.plus(1))); assertThat(secondMillis.getLongValue(), is(2L)); assertThat(dayCount.hasNext(), is(true)); DataPoint thirdMillis = dayCount.next(); assertThat(new DateTime(thirdMillis.getTimestamp(), utc), equalTo(startDate.plus(2))); assertThat(thirdMillis.getLongValue(), is(2L)); assertThat(dayCount.hasNext(), is(false)); }
@Test public void test_multipleMonthAggregationWithUTC() { ListDataPointGroup dpGroup = new ListDataPointGroup("range_test"); DateTimeZone utc = DateTimeZone.UTC; DateTime startDate = new DateTime(2014, 1, 1, 1, 1, utc); // LEAP year DateTime stopDate = new DateTime(2014, 7, 10, 1, 1, utc); for (DateTime iterationDT = startDate; iterationDT.isBefore(stopDate); iterationDT = iterationDT.plusDays(1)) { dpGroup.addDataPoint(new LongDataPoint(iterationDT.getMillis(), 1)); } SumAggregator agg = new SumAggregator(new DoubleDataPointFactoryImpl()); agg.setSampling(new Sampling(3, TimeUnit.MONTHS)); agg.setAlignSampling(false); agg.setStartTime(startDate.getMillis()); DataPointGroup dpg = agg.aggregate(dpGroup); assertThat(dpg.hasNext(), is(true)); DataPoint next = dpg.next(); assertThat(new DateTime(next.getTimestamp(), utc), is(new DateTime(2014, 1, 1, 1, 1, utc))); assertThat(next.getLongValue(), is(90L)); // 31 + 28 + 31 assertThat(dpg.hasNext(), is(true)); next = dpg.next(); assertThat(new DateTime(next.getTimestamp(), utc), is(new DateTime(2014, 4, 1, 1, 1, utc))); assertThat(next.getLongValue(), is(91L)); // 30 + 31 + 30 assertThat(dpg.hasNext(), is(true)); next = dpg.next(); assertThat(new DateTime(next.getTimestamp(), utc), is(new DateTime(2014, 7, 1, 1, 1, utc))); assertThat(next.getLongValue(), is(9L)); // 10 assertThat(dpg.hasNext(), is(false)); }
/** * This makes test makes the RangeAggregator do time calculations larger than an int. * * @throws Exception */ @Test public void test_aggregationByMilliSecondOverLongRange() throws Exception { DateTimeZone utc = DateTimeZone.UTC; DateTime startDate = new DateTime(2014, 1, 1, 0, 0, 0, 0, utc); DateTime endDate = new DateTime(2014, 3, 1, 0, 0, 0, 0, utc); ListDataPointGroup group = new ListDataPointGroup("aggregationByDay"); for (DateTime milliSecond = startDate; milliSecond.isBefore(endDate); milliSecond = milliSecond.plus(10000)) { group.addDataPoint(new LongDataPoint(milliSecond.getMillis(), 1L)); group.addDataPoint(new LongDataPoint(milliSecond.getMillis(), 1L)); } SumAggregator aggregator = new SumAggregator(new DoubleDataPointFactoryImpl()); aggregator.setSampling(new Sampling(1, TimeUnit.MILLISECONDS)); aggregator.setAlignSampling(false); aggregator.setStartTime(startDate.getMillis()); DataPointGroup dpg = aggregator.aggregate(group); while (dpg.hasNext()) dpg.next(); }
@Override public boolean hasNext() { return (m_innerDataPointGroup.hasNext()); }