@Test
public void ortest4() {
final RoaringBitmap rb = new RoaringBitmap();
final RoaringBitmap rb2 = new RoaringBitmap();
for (int i = 0; i < 200000; i += 4) rb2.add(i);
for (int i = 200000; i < 400000; i += 14) rb2.add(i);
final int rb2card = rb2.getCardinality();
// check or against an empty bitmap
final RoaringBitmap orresult = RoaringBitmap.or(rb, rb2);
final RoaringBitmap off = RoaringBitmap.or(rb2, rb);
Assert.assertTrue(orresult.equals(off));
Assert.assertEquals(rb2card, orresult.getCardinality());
for (int i = 500000; i < 600000; i += 14) rb.add(i);
for (int i = 200000; i < 400000; i += 3) rb2.add(i);
// check or against an empty bitmap
final RoaringBitmap orresult2 = RoaringBitmap.or(rb, rb2);
Assert.assertEquals(rb2card, orresult.getCardinality());
Assert.assertEquals(rb2.getCardinality() + rb.getCardinality(), orresult2.getCardinality());
rb.or(rb2);
Assert.assertTrue(rb.equals(orresult2));
}
@Test
public void andtest4() {
final RoaringBitmap rb = new RoaringBitmap();
final RoaringBitmap rb2 = new RoaringBitmap();
for (int i = 0; i < 200000; i += 4) rb2.add(i);
for (int i = 200000; i < 400000; i += 14) rb2.add(i);
// check or against an empty bitmap
final RoaringBitmap andresult = RoaringBitmap.and(rb, rb2);
final RoaringBitmap off = RoaringBitmap.and(rb2, rb);
Assert.assertTrue(andresult.equals(off));
Assert.assertEquals(0, andresult.getCardinality());
for (int i = 500000; i < 600000; i += 14) rb.add(i);
for (int i = 200000; i < 400000; i += 3) rb2.add(i);
// check or against an empty bitmap
final RoaringBitmap andresult2 = RoaringBitmap.and(rb, rb2);
Assert.assertEquals(0, andresult.getCardinality());
Assert.assertEquals(0, andresult2.getCardinality());
for (int i = 0; i < 200000; i += 4) rb.add(i);
for (int i = 200000; i < 400000; i += 14) rb.add(i);
Assert.assertEquals(0, andresult.getCardinality());
final RoaringBitmap rc = RoaringBitmap.and(rb, rb2);
rb.and(rb2);
Assert.assertEquals(rc.getCardinality(), rb.getCardinality());
}
@Test
public void ORtest() {
final RoaringBitmap rr = new RoaringBitmap();
for (int k = 4000; k < 4256; ++k) rr.add(k);
for (int k = 65536; k < 65536 + 4000; ++k) rr.add(k);
for (int k = 3 * 65536; k < 3 * 65536 + 9000; ++k) rr.add(k);
for (int k = 4 * 65535; k < 4 * 65535 + 7000; ++k) rr.add(k);
for (int k = 6 * 65535; k < 6 * 65535 + 10000; ++k) rr.add(k);
for (int k = 8 * 65535; k < 8 * 65535 + 1000; ++k) rr.add(k);
for (int k = 9 * 65535; k < 9 * 65535 + 30000; ++k) rr.add(k);
final RoaringBitmap rr2 = new RoaringBitmap();
for (int k = 4000; k < 4256; ++k) {
rr2.add(k);
}
for (int k = 65536; k < 65536 + 4000; ++k) {
rr2.add(k);
}
for (int k = 3 * 65536 + 2000; k < 3 * 65536 + 6000; ++k) {
rr2.add(k);
}
for (int k = 6 * 65535; k < 6 * 65535 + 1000; ++k) {
rr2.add(k);
}
for (int k = 7 * 65535; k < 7 * 65535 + 1000; ++k) {
rr2.add(k);
}
for (int k = 10 * 65535; k < 10 * 65535 + 5000; ++k) {
rr2.add(k);
}
final RoaringBitmap correct = RoaringBitmap.or(rr, rr2);
rr.or(rr2);
Assert.assertTrue(correct.equals(rr));
}
@Test
public void testSerialization2() throws IOException, ClassNotFoundException {
final RoaringBitmap rr = new RoaringBitmap();
for (int k = 200; k < 400; ++k) rr.add(k);
final ByteArrayOutputStream bos = new ByteArrayOutputStream();
// Note: you could use a file output steam instead of
// ByteArrayOutputStream
final ObjectOutputStream oo = new ObjectOutputStream(bos);
rr.writeExternal(oo);
oo.close();
final RoaringBitmap rrback = new RoaringBitmap();
final ByteArrayInputStream bis = new ByteArrayInputStream(bos.toByteArray());
rrback.readExternal(new ObjectInputStream(bis));
Assert.assertEquals(rr.getCardinality(), rrback.getCardinality());
Assert.assertTrue(rr.equals(rrback));
}
public void rTest(final int N) {
System.out.println("rtest N=" + N);
for (int gap = 1; gap <= 65536; gap *= 2) {
final BitSet bs1 = new BitSet();
final RoaringBitmap rb1 = new RoaringBitmap();
for (int x = 0; x <= N; ++x) {
bs1.set(x);
rb1.add(x);
}
if (bs1.cardinality() != rb1.getCardinality()) throw new RuntimeException("different card");
if (!equals(bs1, rb1)) throw new RuntimeException("basic bug");
for (int offset = 1; offset <= gap; offset *= 2) {
final BitSet bs2 = new BitSet();
final RoaringBitmap rb2 = new RoaringBitmap();
for (int x = 0; x <= N; ++x) {
bs2.set(x + offset);
rb2.add(x + offset);
}
if (bs2.cardinality() != rb2.getCardinality()) throw new RuntimeException("different card");
if (!equals(bs2, rb2)) throw new RuntimeException("basic bug");
BitSet clonebs1;
// testing AND
clonebs1 = (BitSet) bs1.clone();
clonebs1.and(bs2);
if (!equals(clonebs1, RoaringBitmap.and(rb1, rb2))) throw new RuntimeException("bug and");
{
final RoaringBitmap t = rb1.clone();
t.and(rb2);
if (!equals(clonebs1, t)) throw new RuntimeException("bug inplace and");
if (!t.equals(RoaringBitmap.and(rb1, rb2))) {
System.out.println(
t.highlowcontainer.getContainerAtIndex(0).getClass().getCanonicalName());
System.out.println(
RoaringBitmap.and(rb1, rb2)
.highlowcontainer
.getContainerAtIndex(0)
.getClass()
.getCanonicalName());
throw new RuntimeException("bug inplace and");
}
}
// testing OR
clonebs1 = (BitSet) bs1.clone();
clonebs1.or(bs2);
if (!equals(clonebs1, RoaringBitmap.or(rb1, rb2))) throw new RuntimeException("bug or");
{
final RoaringBitmap t = rb1.clone();
t.or(rb2);
if (!equals(clonebs1, t)) throw new RuntimeException("bug or");
if (!t.equals(RoaringBitmap.or(rb1, rb2))) throw new RuntimeException("bug or");
if (!t.toString().equals(RoaringBitmap.or(rb1, rb2).toString()))
throw new RuntimeException("bug or");
}
// testing XOR
clonebs1 = (BitSet) bs1.clone();
clonebs1.xor(bs2);
if (!equals(clonebs1, RoaringBitmap.xor(rb1, rb2))) {
throw new RuntimeException("bug xor");
}
{
final RoaringBitmap t = rb1.clone();
t.xor(rb2);
if (!equals(clonebs1, t)) throw new RuntimeException("bug xor");
if (!t.equals(RoaringBitmap.xor(rb1, rb2))) throw new RuntimeException("bug xor");
}
// testing NOTAND
clonebs1 = (BitSet) bs1.clone();
clonebs1.andNot(bs2);
if (!equals(clonebs1, RoaringBitmap.andNot(rb1, rb2))) {
throw new RuntimeException("bug andnot");
}
clonebs1 = (BitSet) bs2.clone();
clonebs1.andNot(bs1);
if (!equals(clonebs1, RoaringBitmap.andNot(rb2, rb1))) {
throw new RuntimeException("bug andnot");
}
{
final RoaringBitmap t = rb2.clone();
t.andNot(rb1);
if (!equals(clonebs1, t)) {
throw new RuntimeException("bug inplace andnot");
}
final RoaringBitmap g = RoaringBitmap.andNot(rb2, rb1);
if (!equals(clonebs1, g)) {
throw new RuntimeException("bug andnot");
}
if (!t.equals(g)) throw new RuntimeException("bug");
}
clonebs1 = (BitSet) bs1.clone();
clonebs1.andNot(bs2);
if (!equals(clonebs1, RoaringBitmap.andNot(rb1, rb2))) {
throw new RuntimeException("bug andnot");
}
{
final RoaringBitmap t = rb1.clone();
t.andNot(rb2);
if (!equals(clonebs1, t)) {
throw new RuntimeException("bug andnot");
}
final RoaringBitmap g = RoaringBitmap.andNot(rb1, rb2);
if (!equals(clonebs1, g)) {
throw new RuntimeException("bug andnot");
}
if (!t.equals(g)) throw new RuntimeException("bug");
}
}
}
}