HeapUnionTest.java
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* to you under the Apache License, Version 2.0 (the
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*
* http://www.apache.org/licenses/LICENSE-2.0
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package org.apache.datasketches.theta;
import static java.nio.charset.StandardCharsets.UTF_8;
import static org.apache.datasketches.theta.BackwardConversions.convertSerVer3toSerVer1;
import static org.apache.datasketches.theta.BackwardConversions.convertSerVer3toSerVer2;
import static org.apache.datasketches.theta.PreambleUtil.SER_VER_BYTE;
import static org.testng.Assert.assertEquals;
import static org.testng.Assert.assertFalse;
import java.nio.ByteBuffer;
import java.util.Arrays;
import org.apache.datasketches.common.Family;
import org.apache.datasketches.common.SketchesArgumentException;
import org.apache.datasketches.memory.Memory;
import org.apache.datasketches.memory.WritableMemory;
import org.apache.datasketches.thetacommon.ThetaUtil;
import org.testng.annotations.Test;
/**
* @author Lee Rhodes
*/
public class HeapUnionTest {
@Test
public void checkExactUnionNoOverlap() {
final int lgK = 9; //512
final int k = 1 << lgK;
final int u = k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(k).build();
for (int i=0; i<u/2; i++) {
usk1.update(i); //256
}
for (int i=u/2; i<u; i++) {
usk2.update(i); //256 no overlap
}
assertEquals(u, usk1.getEstimate() + usk2.getEstimate(), 0.0); //exact, no overlap
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //update with heap UpdateSketch
union.union(usk2); //update with heap UpdateSketch
testAllCompactForms(union, u, 0.0);
}
@Test
public void checkEstUnionNoOverlap() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u = 4*k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(k).build();
for (int i=0; i<u/2; i++) {
usk1.update(i); //2*k
}
for (int i=u/2; i<u; i++) {
usk2.update(i); //2*k no overlap
}
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //update with heap UpdateSketch
union.union(usk2); //update with heap UpdateSketch
testAllCompactForms(union, u, 0.05);
}
@Test
public void checkExactUnionWithOverlap() {
final int lgK = 9; //512
final int k = 1 << lgK;
final int u = k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(k).build();
for (int i=0; i<u/2; i++) {
usk1.update(i); //256
}
for (int i=0; i<u ; i++) {
usk2.update(i); //512, 256 overlapped
}
assertEquals(u, usk1.getEstimate() + usk2.getEstimate()/2, 0.0); //exact, overlapped
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //update with heap UpdateSketch
union.union(usk2); //update with heap UpdateSketch
testAllCompactForms(union, u, 0.0);
}
@Test
public void checkHeapifyExact() {
final int lgK = 9; //512
final int k = 1 << lgK;
final int u = k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(k).build();
for (int i=0; i<u/2; i++) {
usk1.update(i); //256
}
for (int i=u/2; i<u; i++) {
usk2.update(i); //256 no overlap
}
assertEquals(u, usk1.getEstimate() + usk2.getEstimate(), 0.0); //exact, no overlap
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //update with heap UpdateSketch
union.union(usk2); //update with heap UpdateSketch
testAllCompactForms(union, u, 0.0);
final Union union2 = (Union)SetOperation.heapify(Memory.wrap(union.toByteArray()));
testAllCompactForms(union2, u, 0.0);
}
@Test
public void checkHeapifyEstNoOverlap() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u = 4*k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build(); //2k estimating
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(2 * k).build(); //2k exact
for (int i=0; i<u/2; i++) {
usk1.update(i); //2k
}
for (int i=u/2; i<u; i++) {
usk2.update(i); //2k no overlap, exact
}
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //update with heap UpdateSketch
union.union(usk2); //update with heap UpdateSketch, early stop not possible
testAllCompactForms(union, u, 0.05);
final Union union2 = (Union)SetOperation.heapify(Memory.wrap(union.toByteArray()));
testAllCompactForms(union2, u, 0.05);
}
@Test
public void checkHeapifyEstNoOverlapOrderedIn() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u = 4*k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build(); //2k estimating
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(2 * k).build(); //2k exact for early stop test
for (int i=0; i<u/2; i++) {
usk1.update(i); //2k
}
for (int i=u/2; i<u; i++) {
usk2.update(i); //2k no overlap, exact, will force early stop
}
final CompactSketch cosk2 = usk2.compact(true, null);
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //update with heap UpdateSketch
union.union(cosk2); //update with heap Compact, Ordered input, early stop
UpdateSketch emptySketch = UpdateSketch.builder().setNominalEntries(k).build();
union.union(emptySketch); //updates with empty
emptySketch = null;
union.union(emptySketch); //updates with null
testAllCompactForms(union, u, 0.05);
final Union union2 = (Union)SetOperation.heapify(Memory.wrap(union.toByteArray()));
testAllCompactForms(union2, u, 0.05);
union2.reset();
assertEquals(union2.getResult(true, null).getEstimate(), 0.0, 0.0);
}
@Test
public void checkWrapEstNoOverlapOrderedDirectIn() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u = 4*k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build(); //2k estimating
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(2 * k).build(); //2k exact for early stop test
for (int i=0; i<u/2; i++) {
usk1.update(i); //2k estimating
}
for (int i=u/2; i<u; i++) {
usk2.update(i); //2k no overlap, exact, will force early stop
}
final WritableMemory cskMem2 = WritableMemory.writableWrap(new byte[usk2.getCompactBytes()]);
final CompactSketch cosk2 = usk2.compact(true, cskMem2); //ordered, loads the cskMem2 as ordered
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //updates with heap UpdateSketch
union.union(cosk2); //updates with direct CompactSketch, ordered, use early stop
UpdateSketch emptySketch = UpdateSketch.builder().setNominalEntries(k).build();
union.union(emptySketch); //updates with empty sketch
emptySketch = null;
union.union(emptySketch); //updates with null sketch
testAllCompactForms(union, u, 0.05);
final Union union2 = (Union)SetOperation.heapify(Memory.wrap(union.toByteArray()));
testAllCompactForms(union2, u, 0.05);
union2.reset();
assertEquals(union2.getResult(true, null).getEstimate(), 0.0, 0.0);
}
@Test
public void checkHeapifyEstNoOverlapOrderedMemIn() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u = 4*k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build(); //2k estimating
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(2 * k).build(); //2k exact for early stop test
for (int i=0; i<u/2; i++) {
usk1.update(i); //2k estimating
}
for (int i=u/2; i<u; i++) {
usk2.update(i); //2k no overlap, exact, will force early stop
}
final WritableMemory cskMem2 = WritableMemory.writableWrap(new byte[usk2.getCompactBytes()]);
usk2.compact(true, cskMem2); //ordered, loads the cskMem2 as ordered
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //updates with heap UpdateSketch
union.union(cskMem2); //updates with direct CompactSketch, ordered, use early stop
UpdateSketch emptySketch = UpdateSketch.builder().setNominalEntries(k).build();
union.union(emptySketch); //updates with empty sketch
emptySketch = null;
union.union(emptySketch); //updates with null sketch
testAllCompactForms(union, u, 0.05);
final Union union2 = (Union)SetOperation.heapify(Memory.wrap(union.toByteArray()));
testAllCompactForms(union2, u, 0.05);
union2.reset();
assertEquals(union2.getResult(true, null).getEstimate(), 0.0, 0.0);
}
@Test
public void checkHeapifyEstNoOverlapUnorderedMemIn() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u = 4*k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build(); //2k estimating
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(2 * k).build(); //2k exact for early stop test
for (int i=0; i<u/2; i++) {
usk1.update(i); //2k estimating
}
for (int i=u/2; i<u; i++) {
usk2.update(i); //2k no overlap, exact, will force early stop
}
final WritableMemory cskMem2 = WritableMemory.writableWrap(new byte[usk2.getCompactBytes()]);
usk2.compact(false, cskMem2); //unordered, loads the cskMem2 as unordered
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //updates with heap UpdateSketch
union.union(cskMem2); //updates with direct CompactSketch, ordered, use early stop
UpdateSketch emptySketch = UpdateSketch.builder().setNominalEntries(k).build();
union.union(emptySketch); //updates with empty sketch
emptySketch = null;
union.union(emptySketch); //updates with null sketch
testAllCompactForms(union, u, 0.05);
final Union union2 = (Union)SetOperation.heapify(Memory.wrap(union.toByteArray()));
testAllCompactForms(union2, u, 0.05);
union2.reset();
assertEquals(union2.getResult(true, null).getEstimate(), 0.0, 0.0);
}
@Test
public void checkMultiUnion() {
final int lgK = 13; //8192
final int k = 1 << lgK;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk3 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk4 = UpdateSketch.builder().setNominalEntries(k).build();
int v=0;
int u = 1000000;
for (int i=0; i<u; i++) {
usk1.update(i+v);
}
v += u;
u = 26797;
for (int i=0; i<u; i++) {
usk2.update(i+v);
}
v += u;
for (int i=0; i<u; i++) {
usk3.update(i+v);
}
v += u;
for (int i=0; i<u; i++) {
usk4.update(i+v);
}
v += u;
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(usk1); //updates with heap UpdateSketch
union.union(usk2); //updates with heap UpdateSketch
union.union(usk3); //updates with heap UpdateSketch
union.union(usk4); //updates with heap UpdateSketch
final CompactSketch csk = union.getResult(true, null);
final double est = csk.getEstimate();
assertEquals(est, v, .01*v);
}
@Test
public void checkDirectMemoryIn() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u1 = 2*k;
final int u2 = 1024; //smaller exact sketch forces early stop
final int totU = u1+u2;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(k).build();
for (int i=0; i<u1; i++) {
usk1.update(i); //2*k
}
for (int i=u1; i<totU; i++) {
usk2.update(i); //2*k + 1024 no overlap
}
final WritableMemory skMem1 = WritableMemory.writableWrap(usk1.compact(false, null).toByteArray());
final WritableMemory skMem2 = WritableMemory.writableWrap(usk2.compact(true, null).toByteArray());
final CompactSketch csk1 = (CompactSketch)Sketch.wrap(skMem1);
final CompactSketch csk2 = (CompactSketch)Sketch.wrap(skMem2);
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(csk1);
union.union(csk2);
final CompactSketch cOut = union.getResult(true, null);
assertEquals(cOut.getEstimate(), totU, .05*k);
}
@Test
public void checkSerVer1Handling() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u1 = 2*k;
final int u2 = 1024; //smaller exact sketch forces early stop
final int totU = u1+u2;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(k).build();
for (int i=0; i<u1; i++) {
usk1.update(i); //2*k
}
for (int i=u1; i<totU; i++) {
usk2.update(i); //2*k + 1024 no overlap
}
final Memory v1mem1 = convertSerVer3toSerVer1(usk1.compact(true, null));
final Memory v1mem2 = convertSerVer3toSerVer1(usk2.compact(true, null));
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(v1mem1);
union.union(v1mem2);
final CompactSketch cOut = union.getResult(true, null);
assertEquals(cOut.getEstimate(), totU, .05*k);
}
@Test
public void checkSerVer2Handling() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u1 = 2*k;
final int u2 = 1024; //smaller exact sketch forces early stop
final int totU = u1+u2;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
final UpdateSketch usk2 = UpdateSketch.builder().setNominalEntries(k).build();
for (int i=0; i<u1; i++) {
usk1.update(i); //2*k
}
for (int i=u1; i<totU; i++) {
usk2.update(i); //2*k + 1024 no overlap
}
final Memory v2mem1 = convertSerVer3toSerVer2(usk1.compact(true, null), ThetaUtil.DEFAULT_UPDATE_SEED);
final Memory v2mem2 = convertSerVer3toSerVer2(usk2.compact(true, null), ThetaUtil.DEFAULT_UPDATE_SEED);
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(v2mem1);
union.union(v2mem2);
final CompactSketch cOut = union.getResult(true, null);
assertEquals(cOut.getEstimate(), totU, .05*k);
}
@Test
public void checkUpdateMemorySpecialCases() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
final CompactSketch usk1c = usk1.compact(true, null);
WritableMemory v3mem1 = WritableMemory.writableWrap(usk1c.toByteArray());
final Memory v1mem1 = convertSerVer3toSerVer1(usk1.compact(true, null));
Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(v1mem1);
CompactSketch cOut = union.getResult(true, null);
assertEquals(cOut.getEstimate(), 0.0, 0.0);
final Memory v2mem1 = convertSerVer3toSerVer2(usk1.compact(true, null), ThetaUtil.DEFAULT_UPDATE_SEED);
union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(v2mem1);
cOut = union.getResult(true, null);
assertEquals(cOut.getEstimate(), 0.0, 0.0);
union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(v3mem1);
cOut = union.getResult(true, null);
assertEquals(cOut.getEstimate(), 0.0, 0.0);
union = SetOperation.builder().setNominalEntries(k).buildUnion();
v3mem1 = null;
union.union(v3mem1);
cOut = union.getResult(true, null);
assertEquals(cOut.getEstimate(), 0.0, 0.0);
}
@Test
public void checkUpdateMemorySpecialCases2() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final int u = 2*k;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
for (int i=0; i<u; i++)
{
usk1.update(i); //force prelongs to 3
}
final CompactSketch usk1c = usk1.compact(true, null);
final WritableMemory v3mem1 = WritableMemory.writableWrap(usk1c.toByteArray());
//println(PreambleUtil.toString(v3mem1));
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(v3mem1);
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkMemBadSerVer() {
final int lgK = 12; //4096
final int k = 1 << lgK;
final UpdateSketch usk1 = UpdateSketch.builder().setNominalEntries(k).build();
usk1.update(1);
usk1.update(2);
final CompactSketch usk1c = usk1.compact(true, null);
final WritableMemory v3mem1 = WritableMemory.writableWrap(usk1c.toByteArray());
//corrupt SerVer
v3mem1.putByte(SER_VER_BYTE, (byte)0);
final Union union = SetOperation.builder().setNominalEntries(k).buildUnion();
union.union(v3mem1);
}
@Test
public void checkEmptySerVer2and3() {
final UpdateSketch usk1 = UpdateSketch.builder().build();
final CompactSketch usk1c = usk1.compact(true, null);
final byte[] skArr = usk1c.toByteArray();
final byte[] skArr2 = Arrays.copyOf(skArr, skArr.length * 2);
final WritableMemory v3mem1 = WritableMemory.writableWrap(skArr2);
Union union = SetOperation.builder().buildUnion();
union.union(v3mem1);
final Memory v2mem1 = convertSerVer3toSerVer2(usk1c, ThetaUtil.DEFAULT_UPDATE_SEED);
final WritableMemory v2mem2 = WritableMemory.writableWrap(new byte[16]);
v2mem1.copyTo(0, v2mem2, 0, 8);
union = SetOperation.builder().buildUnion();
union.union(v2mem2);
}
@Test
public void checkGetResult() {
final int k = 1024;
final UpdateSketch sk = Sketches.updateSketchBuilder().build();
final Union union = Sketches.setOperationBuilder().setNominalEntries(k).buildUnion();
union.union(sk);
final CompactSketch csk = union.getResult();
assertEquals(csk.getCompactBytes(), 8);
}
@Test
public void checkTrimToK() {
final int hiK = 1024;
final int loK = 512;
final UpdateSketch hiSk = Sketches.updateSketchBuilder().setNominalEntries(hiK).build();
for (int i = 0; i < 3749; i++) { hiSk.update(i); } //count = 1920
final UpdateSketch loSk = Sketches.updateSketchBuilder().setNominalEntries(loK).build();
for (int i = 0; i < 1783; i++) { loSk.update(i + 10000); } //count = 960
final Union union = Sketches.setOperationBuilder().setNominalEntries(hiK).buildUnion();
CompactSketch csk = union.union(hiSk, loSk);
println(csk.toString());
assertEquals(csk.getRetainedEntries(), 1024);
}
@Test
public void checkPrimitiveUpdates() {
final int k = 32;
final Union union = Sketches.setOperationBuilder().setNominalEntries(k).buildUnion();
union.update(1L); //#1 long
union.update(1.5); //#2 double
union.update(0.0);
union.update(-0.0); //#3 double
String s = null;
union.update(s); //null string
s = "";
union.update(s); //empty string
s = "String";
union.update(s); //#4 actual string
byte[] byteArr = null;
union.update(byteArr); //null byte[]
byteArr = new byte[0];
union.update(byteArr); //empty byte[]
union.update(ByteBuffer.wrap(byteArr)); // empty ByteBuffer
byteArr = "Byte Array".getBytes(UTF_8);
union.update(byteArr); //#5 actual byte[]
union.update(ByteBuffer.wrap(byteArr)); // same as previous
union.update(ByteBuffer.wrap(byteArr, 0, 4)); // #6 byte slice
char[] charArr = null;
union.update(charArr); //null char[]
charArr = new char[0];
union.update(charArr); //empty char[]
charArr = "String".toCharArray();
union.update(charArr); //#7 actual char[]
int[] intArr = null;
union.update(intArr); //null int[]
intArr = new int[0];
union.update(intArr); //empty int[]
final int[] intArr2 = { 1, 2, 3, 4, 5 };
union.update(intArr2); //#8 actual int[]
long[] longArr = null;
union.update(longArr); //null long[]
longArr = new long[0];
union.update(longArr); //empty long[]
final long[] longArr2 = { 6, 7, 8, 9 };
union.update(longArr2); //#9 actual long[]
final CompactSketch comp = union.getResult();
final double est = comp.getEstimate();
final boolean empty = comp.isEmpty();
assertEquals(est, 9.0, 0.0);
assertFalse(empty);
}
//used by DirectUnionTest as well
public static void testAllCompactForms(final Union union, final double expected, final double toll) {
double compEst1, compEst2;
compEst1 = union.getResult(false, null).getEstimate(); //not ordered, no mem
assertEquals(compEst1, expected, toll*expected);
final CompactSketch comp2 = union.getResult(true, null); //ordered, no mem
compEst2 = comp2.getEstimate();
assertEquals(compEst2, compEst1, 0.0);
final WritableMemory mem = WritableMemory.writableWrap(new byte[comp2.getCurrentBytes()]);
compEst2 = union.getResult(false, mem).getEstimate(); //not ordered, mem
assertEquals(compEst2, compEst1, 0.0);
compEst2 = union.getResult(true, mem).getEstimate(); //ordered, mem
assertEquals(compEst2, compEst1, 0.0);
}
@Test
public void checkGetFamily() {
final SetOperation setOp = new SetOperationBuilder().build(Family.UNION);
assertEquals(setOp.getFamily(), Family.UNION);
}
@Test
public void printlnTest() {
println("PRINTING: "+this.getClass().getName());
}
/**
* @param s value to print
*/
static void println(final String s) {
//System.out.println(s); //Disable here
}
}