/**
* 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.solr.util;
import java.util.Random;
import java.util.BitSet;
import org.apache.lucene.util.LuceneTestCase;
import org.apache.lucene.util.OpenBitSetIterator;
import org.apache.lucene.search.DocIdSetIterator;
/**
* @deprecated
* @version $Id$
*/
public class TestOpenBitSet extends LuceneTestCase {
static Random rand = new Random();
void doGet(BitSet a, OpenBitSet b) {
int max = a.size();
for (int i=0; i<max; i++) {
if (a.get(i) != b.get(i)) {
fail("mismatch: BitSet=["+i+"]="+a.get(i));
}
}
}
void doNextSetBit(BitSet a, OpenBitSet b) {
int aa=-1,bb=-1;
do {
aa = a.nextSetBit(aa+1);
bb = b.nextSetBit(bb+1);
assertEquals(aa,bb);
} while (aa>=0);
}
// test interleaving different BitSetIterator.next()
void doIterate(BitSet a, OpenBitSet b) {
int aa=-1,bb=-1;
OpenBitSetIterator iterator = new OpenBitSetIterator(b);
do {
aa = a.nextSetBit(aa+1);
if (rand.nextBoolean()) {
iterator.nextDoc();
bb = iterator.docID();
} else {
iterator.advance(bb+1);
bb = iterator.docID();
}
assertEquals(aa == -1 ? DocIdSetIterator.NO_MORE_DOCS : aa, bb);
} while (aa>=0);
}
void doRandomSets(int maxSize, int iter) {
BitSet a0=null;
OpenBitSet b0=null;
for (int i=0; i<iter; i++) {
int sz = rand.nextInt(maxSize);
BitSet a = new BitSet(sz);
OpenBitSet b = new OpenBitSet(sz);
// test the various ways of setting bits
if (sz>0) {
int nOper = rand.nextInt(sz);
for (int j=0; j<nOper; j++) {
int idx;
idx = rand.nextInt(sz);
a.set(idx);
b.fastSet(idx);
idx = rand.nextInt(sz);
a.clear(idx);
b.fastClear(idx);
idx = rand.nextInt(sz);
a.flip(idx);
b.fastFlip(idx);
boolean val = b.flipAndGet(idx);
boolean val2 = b.flipAndGet(idx);
assertTrue(val != val2);
val = b.getAndSet(idx);
assertTrue(val2 == val);
assertTrue(b.get(idx));
if (!val) b.fastClear(idx);
assertTrue(b.get(idx) == val);
}
}
// test that the various ways of accessing the bits are equivalent
doGet(a,b);
// test ranges, including possible extension
int fromIndex, toIndex;
fromIndex = rand.nextInt(sz+80);
toIndex = fromIndex + rand.nextInt((sz>>1)+1);
BitSet aa = (BitSet)a.clone(); aa.flip(fromIndex,toIndex);
OpenBitSet bb = (OpenBitSet)b.clone(); bb.flip(fromIndex,toIndex);
doIterate(aa,bb); // a problem here is from flip or doIterate
fromIndex = rand.nextInt(sz+80);
toIndex = fromIndex + rand.nextInt((sz>>1)+1);
aa = (BitSet)a.clone(); aa.clear(fromIndex,toIndex);
bb = (OpenBitSet)b.clone(); bb.clear(fromIndex,toIndex);
doNextSetBit(aa,bb); // a problem here is from clear() or nextSetBit
fromIndex = rand.nextInt(sz+80);
toIndex = fromIndex + rand.nextInt((sz>>1)+1);
aa = (BitSet)a.clone(); aa.set(fromIndex,toIndex);
bb = (OpenBitSet)b.clone(); bb.set(fromIndex,toIndex);
doNextSetBit(aa,bb); // a problem here is from set() or nextSetBit
if (a0 != null) {
assertEquals( a.equals(a0), b.equals(b0));
assertEquals(a.cardinality(), b.cardinality());
BitSet a_and = (BitSet)a.clone(); a_and.and(a0);
BitSet a_or = (BitSet)a.clone(); a_or.or(a0);
BitSet a_xor = (BitSet)a.clone(); a_xor.xor(a0);
BitSet a_andn = (BitSet)a.clone(); a_andn.andNot(a0);
OpenBitSet b_and = (OpenBitSet)b.clone(); assertEquals(b,b_and); b_and.and(b0);
OpenBitSet b_or = (OpenBitSet)b.clone(); b_or.or(b0);
OpenBitSet b_xor = (OpenBitSet)b.clone(); b_xor.xor(b0);
OpenBitSet b_andn = (OpenBitSet)b.clone(); b_andn.andNot(b0);
doIterate(a_and,b_and);
doIterate(a_or,b_or);
doIterate(a_xor,b_xor);
doIterate(a_andn,b_andn);
assertEquals(a_and.cardinality(), b_and.cardinality());
assertEquals(a_or.cardinality(), b_or.cardinality());
assertEquals(a_xor.cardinality(), b_xor.cardinality());
assertEquals(a_andn.cardinality(), b_andn.cardinality());
// test non-mutating popcounts
assertEquals(b_and.cardinality(), OpenBitSet.intersectionCount(b,b0));
assertEquals(b_or.cardinality(), OpenBitSet.unionCount(b,b0));
assertEquals(b_xor.cardinality(), OpenBitSet.xorCount(b,b0));
assertEquals(b_andn.cardinality(), OpenBitSet.andNotCount(b,b0));
}
a0=a;
b0=b;
}
}
// large enough to flush obvious bugs, small enough to run in <.5 sec as part of a
// larger testsuite.
public void testSmall() {
doRandomSets(1200,1000);
}
public void testBig() {
// uncomment to run a bigger test (~2 minutes).
// doRandomSets(2000,200000);
}
public void testEquals() {
OpenBitSet b1 = new OpenBitSet(1111);
OpenBitSet b2 = new OpenBitSet(2222);
assertTrue(b1.equals(b2));
assertTrue(b2.equals(b1));
b1.set(10);
assertFalse(b1.equals(b2));
assertFalse(b2.equals(b1));
b2.set(10);
assertTrue(b1.equals(b2));
assertTrue(b2.equals(b1));
b2.set(2221);
assertFalse(b1.equals(b2));
assertFalse(b2.equals(b1));
b1.set(2221);
assertTrue(b1.equals(b2));
assertTrue(b2.equals(b1));
// try different type of object
assertFalse(b1.equals(1));
}
}