use of io.cdap.cdap.data2.dataset2.lib.table.inmemory.InMemoryMetricsTable in project cdap by caskdata.
the class EntityTableTest method testGetName.
@Test
public void testGetName() throws Exception {
InMemoryTableService.create("testGetName");
MetricsTable table = new InMemoryMetricsTable("testGetName");
EntityTable entityTable = new EntityTable(table);
// Create some entities.
for (int i = 1; i <= 10; i++) {
Assert.assertEquals((long) i, entityTable.getId("app", "app" + i));
}
// Reverse lookup
for (int i = 1; i <= 10; i++) {
Assert.assertEquals("app" + i, entityTable.getName(i, "app"));
}
}
use of io.cdap.cdap.data2.dataset2.lib.table.inmemory.InMemoryMetricsTable in project cdap by caskdata.
the class FactTableTest method testPreSplits.
@Test
public void testPreSplits() throws Exception {
InMemoryTableService.create("presplitEntityTable");
InMemoryTableService.create("presplitDataTable");
int resolution = 10;
int rollTimebaseInterval = 2;
InMemoryMetricsTable metricsTable = new InMemoryMetricsTable("presplitDataTable");
FactTable table = new FactTable(metricsTable, new EntityTable(new InMemoryMetricsTable("presplitEntityTable")), resolution, rollTimebaseInterval);
byte[][] splits = FactTable.getSplits(3);
long ts = System.currentTimeMillis() / 1000;
DimensionValue dimVal1 = new DimensionValue("dim1", "value1");
DimensionValue dimVal2 = new DimensionValue("dim2", "value2");
DimensionValue dimVal3 = new DimensionValue("dim3", "value3");
// first agg view: dim1
table.add(ImmutableList.of(new Fact(ts, ImmutableList.of(dimVal1), new Measurement("metric1", MeasureType.COUNTER, 1))));
// second agg view: dim1 & dim2
table.add(ImmutableList.of(new Fact(ts, ImmutableList.of(dimVal1, dimVal2), new Measurement("metric1", MeasureType.COUNTER, 1))));
// third agg view: dim3
table.add(ImmutableList.of(new Fact(ts, ImmutableList.of(dimVal3), new Measurement("metric1", MeasureType.COUNTER, 1))));
// Verify all written records are spread across splits
Scanner scanner = metricsTable.scan(null, null, null);
Row row;
Set<Integer> splitsWithRows = Sets.newHashSet();
while ((row = scanner.next()) != null) {
boolean added = false;
for (int i = 0; i < splits.length; i++) {
if (Bytes.compareTo(row.getRow(), splits[i]) < 0) {
splitsWithRows.add(i);
added = true;
break;
}
}
if (!added) {
// falls into last split
splitsWithRows.add(splits.length);
}
}
Assert.assertEquals(3, splitsWithRows.size());
}
use of io.cdap.cdap.data2.dataset2.lib.table.inmemory.InMemoryMetricsTable in project cdap by caskdata.
the class FactTableTest method testMaxResolution.
@Test
public void testMaxResolution() throws Exception {
// we use Integer.MAX_VALUE as resolution to compute all-time total values
InMemoryTableService.create("TotalsEntityTable");
InMemoryTableService.create("TotalsDataTable");
int resolution = Integer.MAX_VALUE;
// should not matter when resolution is max
int rollTimebaseInterval = 3600;
FactTable table = new FactTable(new InMemoryMetricsTable("TotalsDataTable"), new EntityTable(new InMemoryMetricsTable("TotalsEntityTable")), resolution, rollTimebaseInterval);
// ts is expected in seconds
long ts = System.currentTimeMillis() / 1000;
int count = 1000;
for (int i = 0; i < count; i++) {
for (int k = 0; k < 10; k++) {
// shift one day
writeInc(table, "metric" + k, ts + i * 60 * 60 * 24, i * k, "dim" + k, "value" + k);
}
}
for (int k = 0; k < 10; k++) {
// 0, 0 should match timestamp of all data points
FactScan scan = new FactScan(0, 0, "metric" + k, dimValues("dim" + k, "value" + k));
Table<String, List<DimensionValue>, List<TimeValue>> expected = HashBasedTable.create();
expected.put("metric" + k, dimValues("dim" + k, "value" + k), ImmutableList.of(new TimeValue(0, k * count * (count - 1) / 2)));
assertScan(table, expected, scan);
}
}
use of io.cdap.cdap.data2.dataset2.lib.table.inmemory.InMemoryMetricsTable in project cdap by caskdata.
the class FactTableTest method testBasics.
@Test
public void testBasics() throws Exception {
InMemoryTableService.create("EntityTable");
InMemoryTableService.create("DataTable");
int resolution = 10;
int rollTimebaseInterval = 2;
FactTable table = new FactTable(new InMemoryMetricsTable("DataTable"), new EntityTable(new InMemoryMetricsTable("EntityTable")), resolution, rollTimebaseInterval);
// aligned to start of resolution bucket
// "/1000" because time is expected to be in seconds
long ts = ((System.currentTimeMillis() / 1000) / resolution) * resolution;
// testing encoding with multiple dims
List<DimensionValue> dimensionValues = ImmutableList.of(new DimensionValue("dim1", "value1"), new DimensionValue("dim2", "value2"), new DimensionValue("dim3", "value3"));
// trying adding one by one, in same (first) time resolution bucket
for (int i = 0; i < 5; i++) {
for (int k = 1; k < 4; k++) {
// note: "+i" here and below doesn't affect results, just to confirm
// that data points are rounded to the resolution
table.add(ImmutableList.of(new Fact(ts + i, dimensionValues, new Measurement("metric" + k, MeasureType.COUNTER, k))));
}
}
// trying adding one by one, in different time resolution buckets
for (int i = 0; i < 3; i++) {
for (int k = 1; k < 4; k++) {
table.add(ImmutableList.of(new Fact(ts + resolution * i + i, dimensionValues, new Measurement("metric" + k, MeasureType.COUNTER, 2 * k))));
}
}
// trying adding as list
// first incs in same (second) time resolution bucket
List<Fact> aggs = Lists.newArrayList();
for (int i = 0; i < 7; i++) {
for (int k = 1; k < 4; k++) {
aggs.add(new Fact(ts + resolution, dimensionValues, new Measurement("metric" + k, MeasureType.COUNTER, 3 * k)));
}
}
// then incs in different time resolution buckets
for (int i = 0; i < 3; i++) {
for (int k = 1; k < 4; k++) {
aggs.add(new Fact(ts + resolution * i, dimensionValues, new Measurement("metric" + k, MeasureType.COUNTER, 4 * k)));
}
}
table.add(aggs);
// verify each metric
for (int k = 1; k < 4; k++) {
FactScan scan = new FactScan(ts - 2 * resolution, ts + 3 * resolution, "metric" + k, dimensionValues);
Table<String, List<DimensionValue>, List<TimeValue>> expected = HashBasedTable.create();
expected.put("metric" + k, dimensionValues, ImmutableList.of(new TimeValue(ts, 11 * k), new TimeValue(ts + resolution, 27 * k), new TimeValue(ts + 2 * resolution, 6 * k)));
assertScan(table, expected, scan);
}
// verify each metric within a single timeBase
for (int k = 1; k < 4; k++) {
FactScan scan = new FactScan(ts, ts + resolution - 1, "metric" + k, dimensionValues);
Table<String, List<DimensionValue>, List<TimeValue>> expected = HashBasedTable.create();
expected.put("metric" + k, dimensionValues, ImmutableList.of(new TimeValue(ts, 11 * k)));
assertScan(table, expected, scan);
}
// verify all metrics with fuzzy metric in scan
Table<String, List<DimensionValue>, List<TimeValue>> expected = HashBasedTable.create();
for (int k = 1; k < 4; k++) {
expected.put("metric" + k, dimensionValues, ImmutableList.of(new TimeValue(ts, 11 * k), new TimeValue(ts + resolution, 27 * k), new TimeValue(ts + 2 * resolution, 6 * k)));
}
// metric = null means "all"
FactScan scan = new FactScan(ts - 2 * resolution, ts + 3 * resolution, dimensionValues);
assertScan(table, expected, scan);
// delete metric test
expected.clear();
// delete the metrics data at (timestamp + 20) resolution
scan = new FactScan(ts + resolution * 2, ts + resolution * 3, dimensionValues);
table.delete(scan);
for (int k = 1; k < 4; k++) {
expected.put("metric" + k, dimensionValues, ImmutableList.of(new TimeValue(ts, 11 * k), new TimeValue(ts + resolution, 27 * k)));
}
// verify deletion
scan = new FactScan(ts - 2 * resolution, ts + 3 * resolution, dimensionValues);
assertScan(table, expected, scan);
// delete metrics for "metric1" at ts0 and verify deletion
scan = new FactScan(ts, ts + 1, "metric1", dimensionValues);
table.delete(scan);
expected.clear();
expected.put("metric1", dimensionValues, ImmutableList.of(new TimeValue(ts + resolution, 27)));
scan = new FactScan(ts - 2 * resolution, ts + 3 * resolution, "metric1", dimensionValues);
assertScan(table, expected, scan);
// verify the next dims search
Collection<DimensionValue> nextTags = table.findSingleDimensionValue(ImmutableList.of("dim1", "dim2", "dim3"), ImmutableMap.of("dim1", "value1"), ts, ts + 1);
Assert.assertEquals(ImmutableSet.of(new DimensionValue("dim2", "value2")), nextTags);
Map<String, String> slice = Maps.newHashMap();
slice.put("dim1", null);
nextTags = table.findSingleDimensionValue(ImmutableList.of("dim1", "dim2", "dim3"), slice, ts, ts + 1);
Assert.assertEquals(ImmutableSet.of(new DimensionValue("dim2", "value2")), nextTags);
nextTags = table.findSingleDimensionValue(ImmutableList.of("dim1", "dim2", "dim3"), ImmutableMap.of("dim1", "value1", "dim2", "value2"), ts, ts + 3);
Assert.assertEquals(ImmutableSet.of(new DimensionValue("dim3", "value3")), nextTags);
// add new dim values
dimensionValues = ImmutableList.of(new DimensionValue("dim1", "value1"), new DimensionValue("dim2", "value5"), new DimensionValue("dim3", null));
table.add(ImmutableList.of(new Fact(ts, dimensionValues, new Measurement("metric", MeasureType.COUNTER, 10))));
dimensionValues = ImmutableList.of(new DimensionValue("dim1", "value1"), new DimensionValue("dim2", null), new DimensionValue("dim3", "value3"));
table.add(ImmutableList.of(new Fact(ts, dimensionValues, new Measurement("metric", MeasureType.COUNTER, 10))));
nextTags = table.findSingleDimensionValue(ImmutableList.of("dim1", "dim2", "dim3"), ImmutableMap.of("dim1", "value1"), ts, ts + 1);
Assert.assertEquals(ImmutableSet.of(new DimensionValue("dim2", "value2"), new DimensionValue("dim2", "value5"), new DimensionValue("dim3", "value3")), nextTags);
// search for metric names given dims list and verify
Collection<String> metricNames = table.findMeasureNames(ImmutableList.of("dim1", "dim2", "dim3"), ImmutableMap.of("dim1", "value1", "dim2", "value2", "dim3", "value3"), ts, ts + 1);
Assert.assertEquals(ImmutableSet.of("metric2", "metric3"), metricNames);
metricNames = table.findMeasureNames(ImmutableList.of("dim1", "dim2", "dim3"), ImmutableMap.of("dim1", "value1"), ts, ts + 1);
Assert.assertEquals(ImmutableSet.of("metric", "metric2", "metric3"), metricNames);
metricNames = table.findMeasureNames(ImmutableList.of("dim1", "dim2", "dim3"), ImmutableMap.of("dim2", "value2"), ts, ts + 1);
Assert.assertEquals(ImmutableSet.of("metric2", "metric3"), metricNames);
metricNames = table.findMeasureNames(ImmutableList.of("dim1", "dim2", "dim3"), slice, ts, ts + 1);
Assert.assertEquals(ImmutableSet.of("metric", "metric2", "metric3"), metricNames);
}
use of io.cdap.cdap.data2.dataset2.lib.table.inmemory.InMemoryMetricsTable in project cdap by caskdata.
the class DefaultCubeTest method getCube.
@Override
protected Cube getCube(final String name, int[] resolutions, Map<String, ? extends Aggregation> aggregations) {
FactTableSupplier supplier = new FactTableSupplier() {
@Override
public FactTable get(int resolution, int rollTime) {
String entityTableName = "EntityTable-" + name;
InMemoryTableService.create(entityTableName);
String dataTableName = "DataTable-" + name + "-" + resolution;
InMemoryTableService.create(dataTableName);
return new FactTable(new InMemoryMetricsTable(dataTableName), new EntityTable(new InMemoryMetricsTable(entityTableName)), resolution, rollTime);
}
};
return new DefaultCube(resolutions, supplier, aggregations, ImmutableMap.<String, AggregationAlias>of());
}
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