HeapArrayOfDoublesQuickSelectSketchTest.java
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package org.apache.datasketches.tuple.arrayofdoubles;
import org.apache.datasketches.common.ResizeFactor;
import org.apache.datasketches.memory.Memory;
import org.apache.datasketches.memory.WritableMemory;
import org.testng.Assert;
import org.testng.annotations.Test;
public class HeapArrayOfDoublesQuickSelectSketchTest {
@Test
public void isEmpty() {
final ArrayOfDoublesUpdatableSketch sketch = new ArrayOfDoublesUpdatableSketchBuilder().build();
Assert.assertTrue(sketch.isEmpty());
Assert.assertFalse(sketch.isEstimationMode());
Assert.assertEquals(sketch.getEstimate(), 0.0);
Assert.assertEquals(sketch.getUpperBound(1), 0.0);
Assert.assertEquals(sketch.getLowerBound(1), 0.0);
Assert.assertEquals(sketch.getThetaLong(), Long.MAX_VALUE);
Assert.assertEquals(sketch.getTheta(), 1.0);
final ArrayOfDoublesSketchIterator it = sketch.iterator();
while (it.next()) {
Assert.fail("empty sketch expected");
}
Assert.assertNotNull(sketch.toString());
}
@Test
public void isEmptyWithSampling() {
final float samplingProbability = 0.1f;
final ArrayOfDoublesUpdatableSketch sketch = new ArrayOfDoublesUpdatableSketchBuilder().setSamplingProbability(samplingProbability).build();
Assert.assertTrue(sketch.isEmpty());
Assert.assertFalse(sketch.isEstimationMode());
Assert.assertEquals(sketch.getEstimate(), 0.0);
Assert.assertEquals(sketch.getUpperBound(1), 0.0);
Assert.assertEquals(sketch.getLowerBound(1), 0.0);
Assert.assertEquals(sketch.getThetaLong(), Long.MAX_VALUE);
Assert.assertEquals(sketch.getTheta(), 1.0);
}
@Test
public void sampling() {
final float samplingProbability = 0.001f;
final ArrayOfDoublesUpdatableSketch sketch = new ArrayOfDoublesUpdatableSketchBuilder().setSamplingProbability(samplingProbability).build();
sketch.update("a", new double[] {1.0});
Assert.assertFalse(sketch.isEmpty());
Assert.assertTrue(sketch.isEstimationMode());
Assert.assertEquals(sketch.getEstimate(), 0.0);
Assert.assertTrue(sketch.getUpperBound(1) > 0.0);
Assert.assertEquals(sketch.getLowerBound(1), 0.0, 0.0000001);
Assert.assertEquals((float)(sketch.getThetaLong() / (double) Long.MAX_VALUE), samplingProbability);
Assert.assertEquals((float)sketch.getTheta(), samplingProbability);
}
@Test
public void exactMode() {
final ArrayOfDoublesUpdatableSketch sketch = new ArrayOfDoublesUpdatableSketchBuilder().build();
Assert.assertTrue(sketch.isEmpty());
Assert.assertEquals(sketch.getEstimate(), 0.0);
for (int i = 1; i <= 4096; i++) {
sketch.update(i, new double[] {1.0});
}
Assert.assertFalse(sketch.isEmpty());
Assert.assertFalse(sketch.isEstimationMode());
Assert.assertEquals(sketch.getEstimate(), 4096.0);
Assert.assertEquals(sketch.getUpperBound(1), 4096.0);
Assert.assertEquals(sketch.getLowerBound(1), 4096.0);
Assert.assertEquals(sketch.getThetaLong(), Long.MAX_VALUE);
Assert.assertEquals(sketch.getTheta(), 1.0);
final double[][] values = sketch.getValues();
Assert.assertEquals(values.length, 4096);
int count = 0;
for (int i = 0; i < values.length; i++) {
if (values[i] != null) {
count++;
}
}
Assert.assertEquals(count, 4096);
for (int i = 0; i < 4096; i++) {
Assert.assertEquals(values[i][0], 1.0);
}
sketch.reset();
Assert.assertTrue(sketch.isEmpty());
Assert.assertFalse(sketch.isEstimationMode());
Assert.assertEquals(sketch.getEstimate(), 0.0);
Assert.assertEquals(sketch.getUpperBound(1), 0.0);
Assert.assertEquals(sketch.getLowerBound(1), 0.0);
Assert.assertEquals(sketch.getThetaLong(), Long.MAX_VALUE);
Assert.assertEquals(sketch.getTheta(), 1.0);
final ArrayOfDoublesSketchIterator it = sketch.iterator();
while (it.next()) {
Assert.fail("empty sketch expected");
}
}
@Test
// The moment of going into the estimation mode is, to some extent, an implementation detail
// Here we assume that presenting as many unique values as twice the nominal size of the sketch will result in estimation mode
public void estimationMode() {
final ArrayOfDoublesUpdatableSketch sketch = new ArrayOfDoublesUpdatableSketchBuilder().build();
Assert.assertEquals(sketch.getEstimate(), 0.0);
for (int i = 1; i <= 8192; i++) {
sketch.update(i, new double[] {1.0});
}
Assert.assertTrue(sketch.isEstimationMode());
Assert.assertEquals(sketch.getEstimate(), 8192, 8192 * 0.01);
Assert.assertTrue(sketch.getEstimate() >= sketch.getLowerBound(1));
Assert.assertTrue(sketch.getEstimate() < sketch.getUpperBound(1));
Assert.assertTrue(sketch.getRetainedEntries() > 4096);
sketch.trim();
Assert.assertEquals(sketch.getRetainedEntries(), 4096);
final double[][] values = sketch.getValues();
int count = 0;
for (final double[] array: values) {
if (array != null) {
count++;
Assert.assertEquals(array.length, 1);
Assert.assertEquals(array[0], 1.0);
}
}
Assert.assertEquals(count, values.length);
sketch.reset();
Assert.assertTrue(sketch.isEmpty());
Assert.assertFalse(sketch.isEstimationMode());
Assert.assertEquals(sketch.getEstimate(), 0.0);
Assert.assertEquals(sketch.getUpperBound(1), 0.0);
Assert.assertEquals(sketch.getLowerBound(1), 0.0);
Assert.assertEquals(sketch.getThetaLong(), Long.MAX_VALUE);
Assert.assertEquals(sketch.getTheta(), 1.0);
final ArrayOfDoublesSketchIterator it = sketch.iterator();
while (it.next()) {
Assert.fail("empty sketch expected");
}
}
@Test
public void updatesOfAllKeyTypes() {
final ArrayOfDoublesUpdatableSketch sketch = new ArrayOfDoublesUpdatableSketchBuilder().build();
sketch.update(1L, new double[] {1.0});
sketch.update(2.0, new double[] {1.0});
sketch.update(new byte[] {3}, new double[] {1.0});
sketch.update(new int[] {4}, new double[] {1.0});
sketch.update(new long[] {5L}, new double[] {1.0});
sketch.update("a", new double[] {1.0});
Assert.assertEquals(sketch.getEstimate(), 6.0);
}
@Test
public void doubleSum() {
final ArrayOfDoublesUpdatableSketch sketch = new ArrayOfDoublesUpdatableSketchBuilder().build();
sketch.update(1, new double[] {1.0});
Assert.assertEquals(sketch.getRetainedEntries(), 1);
Assert.assertEquals(sketch.getValues()[0][0], 1.0);
sketch.update(1, new double[] {0.7});
Assert.assertEquals(sketch.getRetainedEntries(), 1);
Assert.assertEquals(sketch.getValues()[0][0], 1.7);
sketch.update(1, new double[] {0.8});
Assert.assertEquals(sketch.getRetainedEntries(), 1);
Assert.assertEquals(sketch.getValues()[0][0], 2.5);
}
@Test
public void serializeDeserializeExact() {
final ArrayOfDoublesUpdatableSketch sketch1 = new ArrayOfDoublesUpdatableSketchBuilder().build();
sketch1.update(1, new double[] {1.0});
final ArrayOfDoublesUpdatableSketch sketch2 = ArrayOfDoublesUpdatableSketch.heapify(WritableMemory.writableWrap(sketch1.toByteArray()));
Assert.assertEquals(sketch2.getEstimate(), 1.0);
final double[][] values = sketch2.getValues();
Assert.assertEquals(values.length, 1);
Assert.assertEquals(values[0][0], 1.0);
// the same key, so still one unique
sketch2.update(1, new double[] {1.0});
Assert.assertEquals(sketch2.getEstimate(), 1.0);
sketch2.update(2, new double[] {1.0});
Assert.assertEquals(sketch2.getEstimate(), 2.0);
}
@Test
public void serializeDeserializeEstimationNoResize() throws Exception {
final ArrayOfDoublesUpdatableSketch sketch1 = new ArrayOfDoublesUpdatableSketchBuilder().
setResizeFactor(ResizeFactor.X1).build();
for (int j = 0; j < 10; j++) {
for (int i = 0; i < 8192; i++) {
sketch1.update(i, new double[] {1.0});
}
}
final byte[] byteArray = sketch1.toByteArray();
//for visual testing
//TestUtil.writeBytesToFile(byteArray, "ArrayOfDoublesQuickSelectSketch4K.data");
final ArrayOfDoublesSketch sketch2 = ArrayOfDoublesSketch.heapify(Memory.wrap(byteArray));
Assert.assertTrue(sketch2.isEstimationMode());
Assert.assertEquals(sketch2.getEstimate(), 8192, 8192 * 0.99);
Assert.assertEquals(sketch1.getTheta(), sketch2.getTheta());
final double[][] values = sketch2.getValues();
Assert.assertTrue(values.length >= 4096);
for (final double[] array: values) {
Assert.assertEquals(array[0], 10.0);
}
}
@Test
public void serializeDeserializeSampling() {
final int sketchSize = 16384;
final int numberOfUniques = sketchSize;
final ArrayOfDoublesUpdatableSketch sketch1 = new ArrayOfDoublesUpdatableSketchBuilder().setNominalEntries(sketchSize).setSamplingProbability(0.5f).build();
for (int i = 0; i < numberOfUniques; i++) {
sketch1.update(i, new double[] {1.0});
}
final ArrayOfDoublesSketch sketch2 = ArrayOfDoublesSketch.heapify(Memory.wrap(sketch1.toByteArray()));
Assert.assertTrue(sketch2.isEstimationMode());
Assert.assertEquals(sketch2.getEstimate() / numberOfUniques, 1.0, 0.01);
Assert.assertEquals(sketch2.getRetainedEntries() / (double) numberOfUniques, 0.5, 0.01);
Assert.assertEquals(sketch1.getTheta(), sketch2.getTheta());
}
}