ConcurrentDirectQuickSelectSketchTest.java
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.apache.datasketches.theta;
import static org.apache.datasketches.theta.ConcurrentHeapQuickSelectSketchTest.waitForBgPropagationToComplete;
import static org.apache.datasketches.theta.PreambleUtil.FAMILY_BYTE;
import static org.apache.datasketches.theta.PreambleUtil.LG_NOM_LONGS_BYTE;
import static org.apache.datasketches.theta.PreambleUtil.SER_VER_BYTE;
import static org.testng.Assert.assertEquals;
import static org.testng.Assert.assertFalse;
import static org.testng.Assert.assertTrue;
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.theta.ConcurrentHeapQuickSelectSketchTest.SharedLocal;
import org.apache.datasketches.thetacommon.HashOperations;
import org.apache.datasketches.thetacommon.ThetaUtil;
import org.testng.annotations.Test;
/**
* @author eshcar
*/
public class ConcurrentDirectQuickSelectSketchTest {
private static final long SEED = ThetaUtil.DEFAULT_UPDATE_SEED;
@Test
public void checkDirectCompactConversion() {
int lgK = 9;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
assertTrue(sl.shared instanceof ConcurrentDirectQuickSelectSketch);
assertTrue(sl.shared.compact().isCompact());
}
@Test
public void checkHeapifyMemoryEstimating() {
int lgK = 9;
int k = 1 << lgK;
int u = 2*k;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared; //off-heap
UpdateSketch local = sl.local;
for (int i=0; i<u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
assertEquals(shared.getClass().getSimpleName(), "ConcurrentDirectQuickSelectSketch");
assertEquals(local.getClass().getSimpleName(), "ConcurrentHeapThetaBuffer");
//This sharedHeap is not linked to the concurrent local buffer
UpdateSketch sharedHeap = Sketches.heapifyUpdateSketch(sl.wmem);
assertEquals(sharedHeap.getClass().getSimpleName(), "HeapQuickSelectSketch");
checkMemoryDirectProxyMethods(local, shared);
checkOtherProxyMethods(local, shared);
checkOtherProxyMethods(local, sharedHeap);
int curCount1 = shared.getRetainedEntries(true);
int curCount2 = sharedHeap.getRetainedEntries(true);
assertEquals(curCount1, curCount2);
long[] cache = sharedHeap.getCache();
long thetaLong = sharedHeap.getThetaLong();
int cacheCount = HashOperations.count(cache, thetaLong);
assertEquals(curCount1, cacheCount);
assertEquals(local.getCurrentPreambleLongs(), 3);
}
@Test
public void checkHeapifyByteArrayExact() {
int lgK = 9;
int k = 1 << lgK;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
for (int i=0; i< k; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
byte[] serArr = shared.toByteArray();
Memory srcMem = Memory.wrap(serArr);
Sketch recoveredShared = Sketch.heapify(srcMem);
//reconstruct to Native/Direct
final int bytes = Sketch.getMaxUpdateSketchBytes(k);
final WritableMemory wmem = WritableMemory.allocate(bytes);
shared = sl.bldr.buildSharedFromSketch((UpdateSketch)recoveredShared, wmem);
UpdateSketch local2 = sl.bldr.buildLocal(shared);
assertEquals(local2.getEstimate(), k, 0.0);
assertEquals(local2.getLowerBound(2), k, 0.0);
assertEquals(local2.getUpperBound(2), k, 0.0);
assertEquals(local2.isEmpty(), false);
assertEquals(local2.isEstimationMode(), false);
assertEquals(recoveredShared.getClass().getSimpleName(), "HeapQuickSelectSketch");
// Run toString just to make sure that we can pull out all of the relevant information.
// That is, this is being run for its side-effect of accessing things.
// If something is wonky, it will generate an exception and fail the test.
local2.toString(true, true, 8, true);
}
@Test
public void checkHeapifyByteArrayEstimating() {
int lgK = 12;
int k = 1 << lgK;
int u = 2*k;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
for (int i=0; i<u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
double uskEst = local.getEstimate();
double uskLB = local.getLowerBound(2);
double uskUB = local.getUpperBound(2);
assertEquals(local.isEstimationMode(), true);
byte[] serArr = shared.toByteArray();
Memory srcMem = Memory.wrap(serArr);
Sketch recoveredShared = Sketch.heapify(srcMem);
//reconstruct to Native/Direct
final int bytes = Sketch.getMaxUpdateSketchBytes(k);
final WritableMemory wmem = WritableMemory.allocate(bytes);
shared = sl.bldr.buildSharedFromSketch((UpdateSketch)recoveredShared, wmem);
UpdateSketch local2 = sl.bldr.buildLocal(shared);
assertEquals(local2.getEstimate(), uskEst);
assertEquals(local2.getLowerBound(2), uskLB);
assertEquals(local2.getUpperBound(2), uskUB);
assertEquals(local2.isEmpty(), false);
assertEquals(local2.isEstimationMode(), true);
assertEquals(recoveredShared.getClass().getSimpleName(), "HeapQuickSelectSketch");
}
@Test
public void checkWrapMemoryEst() {
int lgK = 9;
int k = 1 << lgK;
int u = 2*k;
//boolean estimating = (u > k);
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
for (int i=0; i<u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
double sk1est = local.getEstimate();
double sk1lb = local.getLowerBound(2);
double sk1ub = local.getUpperBound(2);
assertTrue(local.isEstimationMode());
Sketch local2 = Sketch.wrap(sl.wmem);
assertEquals(local2.getEstimate(), sk1est);
assertEquals(local2.getLowerBound(2), sk1lb);
assertEquals(local2.getUpperBound(2), sk1ub);
assertEquals(local2.isEmpty(), false);
assertTrue(local2.isEstimationMode());
}
@Test
public void checkDQStoCompactForms() {
int lgK = 9;
int k = 1 << lgK;
int u = 4*k;
//boolean estimating = (u > k);
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertEquals(local.getClass().getSimpleName(), "ConcurrentHeapThetaBuffer");
assertFalse(local.isDirect());
assertTrue(local.hasMemory());
for (int i=0; i<u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
shared.rebuild(); //forces size back to k
//get baseline values
double localEst = local.getEstimate();
double localLB = local.getLowerBound(2);
double localUB = local.getUpperBound(2);
assertTrue(local.isEstimationMode());
CompactSketch csk;
csk = shared.compact(false, null);
assertEquals(csk.getEstimate(), localEst);
assertEquals(csk.getLowerBound(2), localLB);
assertEquals(csk.getUpperBound(2), localUB);
assertFalse(csk.isEmpty());
assertTrue(csk.isEstimationMode());
assertEquals(csk.getClass().getSimpleName(), "HeapCompactSketch");
csk = shared.compact(true, null);
assertEquals(csk.getEstimate(), localEst);
assertEquals(csk.getLowerBound(2), localLB);
assertEquals(csk.getUpperBound(2), localUB);
assertFalse(csk.isEmpty());
assertTrue(csk.isEstimationMode());
assertEquals(csk.getClass().getSimpleName(), "HeapCompactSketch");
int bytes = shared.getCompactBytes();
assertEquals(bytes, (k*8) + (Family.COMPACT.getMaxPreLongs() << 3));
byte[] memArr2 = new byte[bytes];
WritableMemory mem2 = WritableMemory.writableWrap(memArr2);
csk = shared.compact(false, mem2);
assertEquals(csk.getEstimate(), localEst);
assertEquals(csk.getLowerBound(2), localLB);
assertEquals(csk.getUpperBound(2), localUB);
assertFalse(csk.isEmpty());
assertTrue(csk.isEstimationMode());
assertEquals(csk.getClass().getSimpleName(), "DirectCompactSketch");
mem2.clear();
csk = shared.compact(true, mem2);
assertEquals(csk.getEstimate(), localEst);
assertEquals(csk.getLowerBound(2), localLB);
assertEquals(csk.getUpperBound(2), localUB);
assertFalse(csk.isEmpty());
assertTrue(csk.isEstimationMode());
assertEquals(csk.getClass().getSimpleName(), "DirectCompactSketch");
csk.toString(false, true, 0, false);
}
@Test
public void checkDQStoCompactEmptyForms() {
int lgK = 9;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
//empty
local.toString(false, true, 0, false); //exercise toString
assertEquals(local.getClass().getSimpleName(), "ConcurrentHeapThetaBuffer");
double localEst = local.getEstimate();
double localLB = local.getLowerBound(2);
double localUB = local.getUpperBound(2);
assertFalse(local.isEstimationMode());
int bytes = local.getCompactBytes(); //compact form
assertEquals(bytes, 8);
byte[] memArr2 = new byte[bytes];
WritableMemory mem2 = WritableMemory.writableWrap(memArr2);
CompactSketch csk2 = shared.compact(false, mem2);
assertEquals(csk2.getEstimate(), localEst);
assertEquals(csk2.getLowerBound(2), localLB);
assertEquals(csk2.getUpperBound(2), localUB);
assertTrue(csk2.isEmpty());
assertFalse(csk2.isEstimationMode());
assertTrue(csk2.isOrdered());
CompactSketch csk3 = shared.compact(true, mem2);
csk3.toString(false, true, 0, false);
csk3.toString();
assertEquals(csk3.getEstimate(), localEst);
assertEquals(csk3.getLowerBound(2), localLB);
assertEquals(csk3.getUpperBound(2), localUB);
assertTrue(csk3.isEmpty());
assertFalse(csk3.isEstimationMode());
assertTrue(csk2.isOrdered());
}
@Test
public void checkEstMode() {
int lgK = 12;
int k = 1 << lgK;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertTrue(local.isEmpty());
int u = 3*k;
for (int i = 0; i< u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
assertTrue(shared.getRetainedEntries(false) > k);
}
@Test
public void checkErrorBounds() {
int lgK = 9;
int k = 1 << lgK;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
//Exact mode
for (int i = 0; i < k; i++ ) { local.update(i); }
waitForBgPropagationToComplete(shared);
double est = local.getEstimate();
double lb = local.getLowerBound(2);
double ub = local.getUpperBound(2);
assertEquals(est, ub, 0.0);
assertEquals(est, lb, 0.0);
//Est mode
int u = 100*k;
for (int i = k; i < u; i++ ) {
local.update(i);
local.update(i); //test duplicate rejection
}
waitForBgPropagationToComplete(shared);
est = local.getEstimate();
lb = local.getLowerBound(2);
ub = local.getUpperBound(2);
assertTrue(est <= ub);
assertTrue(est >= lb);
}
@Test
public void checkUpperAndLowerBounds() {
int lgK = 9;
int k = 1 << lgK;
int u = 2*k;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
for (int i = 0; i < u; i++ ) { local.update(i); }
waitForBgPropagationToComplete(shared);
double est = local.getEstimate();
double ub = local.getUpperBound(1);
double lb = local.getLowerBound(1);
assertTrue(ub > est);
assertTrue(lb < est);
}
@Test
public void checkRebuild() {
int lgK = 9;
int k = 1 << lgK;
int u = 4*k;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertTrue(local.isEmpty());
for (int i = 0; i< u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
assertFalse(local.isEmpty());
assertTrue(local.getEstimate() > 0.0);
assertTrue(shared.getRetainedEntries(false) >= k);
shared.rebuild();
assertEquals(shared.getRetainedEntries(false), k);
assertEquals(shared.getRetainedEntries(true), k);
local.rebuild();
assertEquals(shared.getRetainedEntries(false), k);
assertEquals(shared.getRetainedEntries(true), k);
}
@Test
public void checkResetAndStartingSubMultiple() {
int lgK = 9;
int k = 1 << lgK;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertTrue(local.isEmpty());
int u = 4*k;
for (int i = 0; i< u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
assertFalse(local.isEmpty());
assertTrue(shared.getRetainedEntries(false) >= k);
assertTrue(local.getThetaLong() < Long.MAX_VALUE);
shared.reset();
local.reset();
assertTrue(local.isEmpty());
assertEquals(shared.getRetainedEntries(false), 0);
assertEquals(local.getEstimate(), 0.0, 0.0);
assertEquals(local.getThetaLong(), Long.MAX_VALUE);
}
@Test
public void checkExactModeMemoryArr() {
int lgK = 12;
int k = 1 << lgK;
int u = k;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertTrue(local.isEmpty());
for (int i = 0; i< u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
assertEquals(local.getEstimate(), u, 0.0);
assertEquals(shared.getRetainedEntries(false), u);
}
@Test
public void checkEstModeMemoryArr() {
int lgK = 12;
int k = 1 << lgK;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertTrue(local.isEmpty());
int u = 3*k;
for (int i = 0; i< u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
double est = local.getEstimate();
assertTrue((est < (u * 1.05)) && (est > (u * 0.95)));
assertTrue(shared.getRetainedEntries(false) >= k);
}
@Test
public void checkEstModeNativeMemory() {
int lgK = 12;
int k = 1 << lgK;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertTrue(local.isEmpty());
int u = 3*k;
for (int i = 0; i< u; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
double est = local.getEstimate();
assertTrue((est < (u * 1.05)) && (est > (u * 0.95)));
assertTrue(shared.getRetainedEntries(false) >= k);
}
@Test
public void checkConstructReconstructFromMemory() {
int lgK = 12;
int k = 1 << lgK;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertTrue(local.isEmpty());
int u = 3*k;
for (int i = 0; i< u; i++) { local.update(i); } //force estimation
waitForBgPropagationToComplete(shared);
double est1 = local.getEstimate();
int count1 = shared.getRetainedEntries(false);
assertTrue((est1 < (u * 1.05)) && (est1 > (u * 0.95)));
assertTrue(count1 >= k);
byte[] serArr;
double est2;
serArr = shared.toByteArray();
WritableMemory mem = WritableMemory.writableWrap(serArr);
UpdateSketch recoveredShared = Sketches.wrapUpdateSketch(mem);
//reconstruct to Native/Direct
final int bytes = Sketch.getMaxUpdateSketchBytes(k);
final WritableMemory wmem = WritableMemory.allocate(bytes);
shared = sl.bldr.buildSharedFromSketch(recoveredShared, wmem);
UpdateSketch local2 = sl.bldr.buildLocal(shared);
est2 = local2.getEstimate();
assertEquals(est2, est1, 0.0);
}
@Test
public void checkNullMemory() {
UpdateSketchBuilder bldr = new UpdateSketchBuilder();
final UpdateSketch sk = bldr.build();
for (int i = 0; i < 1000; i++) { sk.update(i); }
final UpdateSketch shared = bldr.buildSharedFromSketch(sk, null);
assertEquals(shared.getRetainedEntries(true), 1000);
assertFalse(shared.hasMemory());
}
//checks Alex's bug where lgArrLongs > lgNomLongs +1.
@Test
public void checkResizeInBigMem() {
int lgK = 14;
int u = 1 << 20;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, SEED, useMem, true, 8); //mem is 8X larger than needed
UpdateSketch local = sl.local;
for (int i = 0; i < u; i++) { local.update(i); }
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkConstructorKtooSmall() {
int lgK = 3;
boolean useMem = true;
new SharedLocal(lgK, lgK, useMem);
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkConstructorMemTooSmall() {
int lgK = 4;
int k = 1 << lgK;
WritableMemory wmem = WritableMemory.allocate(k/2);
UpdateSketchBuilder bldr = new UpdateSketchBuilder();
bldr.setLogNominalEntries(lgK);
bldr.buildShared(wmem);
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkHeapifyIllegalFamilyID_heapify() {
int lgK = 9;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
sl.wmem.putByte(FAMILY_BYTE, (byte) 0); //corrupt the Family ID byte
//try to heapify the corrupted mem
Sketch.heapify(sl.wmem); //catch in Sketch.constructHeapSketch
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkBadLgNomLongs() {
int lgK = 4;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
sl.wmem.putByte(LG_NOM_LONGS_BYTE, (byte) 3); //Corrupt LgNomLongs byte
DirectQuickSelectSketch.writableWrap(sl.wmem, ThetaUtil.DEFAULT_UPDATE_SEED);
}
@Test
public void checkBackgroundPropagation() {
int lgK = 4;
int k = 1 << lgK;
int u = 10*k;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertTrue(local.isEmpty());
ConcurrentHeapThetaBuffer sk1 = (ConcurrentHeapThetaBuffer)local; //for internal checks
int i = 0;
for (; i< k; i++) {
local.update(i);
}
waitForBgPropagationToComplete(shared);
assertFalse(local.isEmpty());
assertTrue(local.getEstimate() > 0.0);
long theta1 = ((ConcurrentSharedThetaSketch)shared).getVolatileTheta();
for (; i< u; i++) {
local.update(i);
}
waitForBgPropagationToComplete(shared);
long theta2 = ((ConcurrentSharedThetaSketch)shared).getVolatileTheta();
int entries = shared.getRetainedEntries(false);
assertTrue((entries > k) || (theta2 < theta1),
"entries="+entries+" k="+k+" theta1="+theta1+" theta2="+theta2);
shared.rebuild();
assertEquals(shared.getRetainedEntries(false), k);
assertEquals(shared.getRetainedEntries(true), k);
sk1.rebuild();
assertEquals(shared.getRetainedEntries(false), k);
assertEquals(shared.getRetainedEntries(true), k);
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkBadSerVer() {
int lgK = 9;
int k = 1 << lgK;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
UpdateSketch local = sl.local;
assertTrue(local.isEmpty());
for (int i = 0; i< k; i++) { local.update(i); }
waitForBgPropagationToComplete(shared);
assertFalse(local.isEmpty());
assertEquals(local.getEstimate(), k, 0.0);
assertEquals(shared.getRetainedEntries(false), k);
sl.wmem.putByte(SER_VER_BYTE, (byte) 0); //corrupt the SerVer byte
Sketch.wrap(sl.wmem);
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkWrapIllegalFamilyID_wrap() {
int lgK = 9;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
sl.wmem.putByte(FAMILY_BYTE, (byte) 0); //corrupt the Sketch ID byte
//try to wrap the corrupted mem
Sketch.wrap(sl.wmem); //catch in Sketch.constructDirectSketch
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkWrapIllegalFamilyID_direct() {
int lgK = 9;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
sl.wmem.putByte(FAMILY_BYTE, (byte) 0); //corrupt the Sketch ID byte
//try to wrap the corrupted mem
DirectQuickSelectSketch.writableWrap(sl.wmem, ThetaUtil.DEFAULT_UPDATE_SEED);
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkHeapifySeedConflict() {
int lgK = 9;
long seed1 = 1021;
long seed2 = ThetaUtil.DEFAULT_UPDATE_SEED;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, seed1, useMem, true, 1);
UpdateSketch shared = sl.shared;
Memory srcMem = Memory.wrap(shared.toByteArray());
Sketch.heapify(srcMem, seed2);
}
@Test(expectedExceptions = SketchesArgumentException.class)
public void checkCorruptLgNomLongs() {
int lgK = 4;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
sl.wmem.putByte(LG_NOM_LONGS_BYTE, (byte)2); //corrupt
Sketch.heapify(sl.wmem, ThetaUtil.DEFAULT_UPDATE_SEED);
}
@Test(expectedExceptions = UnsupportedOperationException.class)
public void checkIllegalHashUpdate() {
int lgK = 4;
boolean useMem = true;
SharedLocal sl = new SharedLocal(lgK, lgK, useMem);
UpdateSketch shared = sl.shared;
shared.hashUpdate(1);
}
@Test
public void printlnTest() {
println("PRINTING: "+this.getClass().getName());
}
/**
* @param s value to print
*/
static void println(String s) {
//System.out.println(s); //disable here
}
private static void checkMemoryDirectProxyMethods(Sketch local, Sketch shared) {
assertEquals(local.hasMemory(), shared.hasMemory());
assertEquals(local.isDirect(), shared.isDirect());
}
//Does not check hasMemory(), isDirect()
private static void checkOtherProxyMethods(Sketch local, Sketch shared) {
assertEquals(local.getCompactBytes(), shared.getCompactBytes());
assertEquals(local.getCurrentBytes(), shared.getCurrentBytes());
assertEquals(local.getEstimate(), shared.getEstimate());
assertEquals(local.getLowerBound(2), shared.getLowerBound(2));
assertEquals(local.getUpperBound(2), shared.getUpperBound(2));
assertEquals(local.isEmpty(), shared.isEmpty());
assertEquals(local.isEstimationMode(), shared.isEstimationMode());
}
}