use of org.apache.druid.query.timeseries.TimeseriesQueryRunnerFactory in project druid by druid-io.
the class IndexMergerV9WithSpatialIndexTest method testSpatialQuery.
@Test
public void testSpatialQuery() {
TimeseriesQuery query = Druids.newTimeseriesQueryBuilder().dataSource("test").granularity(Granularities.ALL).intervals(Collections.singletonList(Intervals.of("2013-01-01/2013-01-07"))).filters(new SpatialDimFilter("dim.geo", new RadiusBound(new float[] { 0.0f, 0.0f }, 5))).aggregators(Arrays.asList(new CountAggregatorFactory("rows"), new LongSumAggregatorFactory("val", "val"))).build();
List<Result<TimeseriesResultValue>> expectedResults = Collections.singletonList(new Result<>(DateTimes.of("2013-01-01T00:00:00.000Z"), new TimeseriesResultValue(ImmutableMap.<String, Object>builder().put("rows", 3L).put("val", 59L).build())));
try {
TimeseriesQueryRunnerFactory factory = new TimeseriesQueryRunnerFactory(new TimeseriesQueryQueryToolChest(), new TimeseriesQueryEngine(), QueryRunnerTestHelper.NOOP_QUERYWATCHER);
QueryRunner runner = new FinalizeResultsQueryRunner(factory.createRunner(segment), factory.getToolchest());
TestHelper.assertExpectedResults(expectedResults, runner.run(QueryPlus.wrap(query)));
} catch (Exception e) {
throw new RuntimeException(e);
}
}
use of org.apache.druid.query.timeseries.TimeseriesQueryRunnerFactory in project druid by druid-io.
the class IncrementalIndexTest method testConcurrentAddRead.
@Test(timeout = 60_000L)
public void testConcurrentAddRead() throws InterruptedException, ExecutionException {
final int dimensionCount = 5;
final ArrayList<AggregatorFactory> ingestAggregatorFactories = new ArrayList<>(dimensionCount + 1);
ingestAggregatorFactories.add(new CountAggregatorFactory("rows"));
for (int i = 0; i < dimensionCount; ++i) {
ingestAggregatorFactories.add(new LongSumAggregatorFactory(StringUtils.format("sumResult%s", i), StringUtils.format("Dim_%s", i)));
ingestAggregatorFactories.add(new DoubleSumAggregatorFactory(StringUtils.format("doubleSumResult%s", i), StringUtils.format("Dim_%s", i)));
}
final ArrayList<AggregatorFactory> queryAggregatorFactories = new ArrayList<>(dimensionCount + 1);
queryAggregatorFactories.add(new CountAggregatorFactory("rows"));
for (int i = 0; i < dimensionCount; ++i) {
queryAggregatorFactories.add(new LongSumAggregatorFactory(StringUtils.format("sumResult%s", i), StringUtils.format("sumResult%s", i)));
queryAggregatorFactories.add(new DoubleSumAggregatorFactory(StringUtils.format("doubleSumResult%s", i), StringUtils.format("doubleSumResult%s", i)));
}
final IncrementalIndex index = indexCreator.createIndex((Object) ingestAggregatorFactories.toArray(new AggregatorFactory[0]));
final int concurrentThreads = 2;
final int elementsPerThread = 10_000;
final ListeningExecutorService indexExecutor = MoreExecutors.listeningDecorator(Executors.newFixedThreadPool(concurrentThreads, new ThreadFactoryBuilder().setDaemon(false).setNameFormat("index-executor-%d").setPriority(Thread.MIN_PRIORITY).build()));
final ListeningExecutorService queryExecutor = MoreExecutors.listeningDecorator(Executors.newFixedThreadPool(concurrentThreads, new ThreadFactoryBuilder().setDaemon(false).setNameFormat("query-executor-%d").build()));
final long timestamp = System.currentTimeMillis();
final Interval queryInterval = Intervals.of("1900-01-01T00:00:00Z/2900-01-01T00:00:00Z");
final List<ListenableFuture<?>> indexFutures = Lists.newArrayListWithExpectedSize(concurrentThreads);
final List<ListenableFuture<?>> queryFutures = Lists.newArrayListWithExpectedSize(concurrentThreads);
final Segment incrementalIndexSegment = new IncrementalIndexSegment(index, null);
final QueryRunnerFactory factory = new TimeseriesQueryRunnerFactory(new TimeseriesQueryQueryToolChest(), new TimeseriesQueryEngine(), QueryRunnerTestHelper.NOOP_QUERYWATCHER);
final AtomicInteger currentlyRunning = new AtomicInteger(0);
final AtomicInteger concurrentlyRan = new AtomicInteger(0);
final AtomicInteger someoneRan = new AtomicInteger(0);
final CountDownLatch startLatch = new CountDownLatch(1);
final CountDownLatch readyLatch = new CountDownLatch(concurrentThreads * 2);
final AtomicInteger queriesAccumualted = new AtomicInteger(0);
for (int j = 0; j < concurrentThreads; j++) {
indexFutures.add(indexExecutor.submit(new Runnable() {
@Override
public void run() {
readyLatch.countDown();
try {
startLatch.await();
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
throw new RuntimeException(e);
}
currentlyRunning.incrementAndGet();
try {
for (int i = 0; i < elementsPerThread; i++) {
index.add(getLongRow(timestamp + i, dimensionCount));
someoneRan.incrementAndGet();
}
} catch (IndexSizeExceededException e) {
throw new RuntimeException(e);
}
currentlyRunning.decrementAndGet();
}
}));
final TimeseriesQuery query = Druids.newTimeseriesQueryBuilder().dataSource("xxx").granularity(Granularities.ALL).intervals(ImmutableList.of(queryInterval)).aggregators(queryAggregatorFactories).build();
queryFutures.add(queryExecutor.submit(new Runnable() {
@Override
public void run() {
readyLatch.countDown();
try {
startLatch.await();
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
throw new RuntimeException(e);
}
while (concurrentlyRan.get() == 0) {
QueryRunner<Result<TimeseriesResultValue>> runner = new FinalizeResultsQueryRunner<Result<TimeseriesResultValue>>(factory.createRunner(incrementalIndexSegment), factory.getToolchest());
Sequence<Result<TimeseriesResultValue>> sequence = runner.run(QueryPlus.wrap(query));
Double[] results = sequence.accumulate(new Double[0], new Accumulator<Double[], Result<TimeseriesResultValue>>() {
@Override
public Double[] accumulate(Double[] accumulated, Result<TimeseriesResultValue> in) {
if (currentlyRunning.get() > 0) {
concurrentlyRan.incrementAndGet();
}
queriesAccumualted.incrementAndGet();
return Lists.asList(in.getValue().getDoubleMetric("doubleSumResult0"), accumulated).toArray(new Double[0]);
}
});
for (Double result : results) {
final Integer maxValueExpected = someoneRan.get() + concurrentThreads;
if (maxValueExpected > 0) {
// Eventually consistent, but should be somewhere in that range
// Actual result is validated after all writes are guaranteed done.
Assert.assertTrue(StringUtils.format("%d >= %g >= 0 violated", maxValueExpected, result), result >= 0 && result <= maxValueExpected);
}
}
}
}
}));
}
readyLatch.await();
startLatch.countDown();
List<ListenableFuture<?>> allFutures = new ArrayList<>(queryFutures.size() + indexFutures.size());
allFutures.addAll(queryFutures);
allFutures.addAll(indexFutures);
Futures.allAsList(allFutures).get();
Assert.assertTrue("Queries ran too fast", queriesAccumualted.get() > 0);
Assert.assertTrue("Did not hit concurrency, please try again", concurrentlyRan.get() > 0);
queryExecutor.shutdown();
indexExecutor.shutdown();
QueryRunner<Result<TimeseriesResultValue>> runner = new FinalizeResultsQueryRunner<Result<TimeseriesResultValue>>(factory.createRunner(incrementalIndexSegment), factory.getToolchest());
TimeseriesQuery query = Druids.newTimeseriesQueryBuilder().dataSource("xxx").granularity(Granularities.ALL).intervals(ImmutableList.of(queryInterval)).aggregators(queryAggregatorFactories).build();
List<Result<TimeseriesResultValue>> results = runner.run(QueryPlus.wrap(query)).toList();
boolean isRollup = index.isRollup();
for (Result<TimeseriesResultValue> result : results) {
Assert.assertEquals(elementsPerThread * (isRollup ? 1 : concurrentThreads), result.getValue().getLongMetric("rows").intValue());
for (int i = 0; i < dimensionCount; ++i) {
Assert.assertEquals(StringUtils.format("Failed long sum on dimension %d", i), elementsPerThread * concurrentThreads, result.getValue().getLongMetric(StringUtils.format("sumResult%s", i)).intValue());
Assert.assertEquals(StringUtils.format("Failed double sum on dimension %d", i), elementsPerThread * concurrentThreads, result.getValue().getDoubleMetric(StringUtils.format("doubleSumResult%s", i)).intValue());
}
}
}
use of org.apache.druid.query.timeseries.TimeseriesQueryRunnerFactory in project druid by druid-io.
the class IncrementalIndexTest method testSingleThreadedIndexingAndQuery.
@Test
public void testSingleThreadedIndexingAndQuery() throws Exception {
final int dimensionCount = 5;
final ArrayList<AggregatorFactory> ingestAggregatorFactories = new ArrayList<>();
ingestAggregatorFactories.add(new CountAggregatorFactory("rows"));
for (int i = 0; i < dimensionCount; ++i) {
ingestAggregatorFactories.add(new LongSumAggregatorFactory(StringUtils.format("sumResult%s", i), StringUtils.format("Dim_%s", i)));
ingestAggregatorFactories.add(new DoubleSumAggregatorFactory(StringUtils.format("doubleSumResult%s", i), StringUtils.format("Dim_%s", i)));
}
final IncrementalIndex index = indexCreator.createIndex((Object) ingestAggregatorFactories.toArray(new AggregatorFactory[0]));
final long timestamp = System.currentTimeMillis();
final int rows = 50;
// ingesting same data twice to have some merging happening
for (int i = 0; i < rows; i++) {
index.add(getLongRow(timestamp + i, dimensionCount));
}
for (int i = 0; i < rows; i++) {
index.add(getLongRow(timestamp + i, dimensionCount));
}
// run a timeseries query on the index and verify results
final ArrayList<AggregatorFactory> queryAggregatorFactories = new ArrayList<>();
queryAggregatorFactories.add(new CountAggregatorFactory("rows"));
for (int i = 0; i < dimensionCount; ++i) {
queryAggregatorFactories.add(new LongSumAggregatorFactory(StringUtils.format("sumResult%s", i), StringUtils.format("sumResult%s", i)));
queryAggregatorFactories.add(new DoubleSumAggregatorFactory(StringUtils.format("doubleSumResult%s", i), StringUtils.format("doubleSumResult%s", i)));
}
TimeseriesQuery query = Druids.newTimeseriesQueryBuilder().dataSource("xxx").granularity(Granularities.ALL).intervals(ImmutableList.of(Intervals.of("2000/2030"))).aggregators(queryAggregatorFactories).build();
final Segment incrementalIndexSegment = new IncrementalIndexSegment(index, null);
final QueryRunnerFactory factory = new TimeseriesQueryRunnerFactory(new TimeseriesQueryQueryToolChest(), new TimeseriesQueryEngine(), QueryRunnerTestHelper.NOOP_QUERYWATCHER);
final QueryRunner<Result<TimeseriesResultValue>> runner = new FinalizeResultsQueryRunner<Result<TimeseriesResultValue>>(factory.createRunner(incrementalIndexSegment), factory.getToolchest());
List<Result<TimeseriesResultValue>> results = runner.run(QueryPlus.wrap(query)).toList();
Result<TimeseriesResultValue> result = Iterables.getOnlyElement(results);
boolean isRollup = index.isRollup();
Assert.assertEquals(rows * (isRollup ? 1 : 2), result.getValue().getLongMetric("rows").intValue());
for (int i = 0; i < dimensionCount; ++i) {
Assert.assertEquals("Failed long sum on dimension " + i, 2 * rows, result.getValue().getLongMetric("sumResult" + i).intValue());
Assert.assertEquals("Failed double sum on dimension " + i, 2 * rows, result.getValue().getDoubleMetric("doubleSumResult" + i).intValue());
}
}
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