@Test public void flipTest1A() { final MutableRoaringBitmap rb = new MutableRoaringBitmap(); final MutableRoaringBitmap rb1 = MutableRoaringBitmap.flip(rb, 100000, 200000); final int rbcard = rb1.getCardinality(); Assert.assertEquals(100000, rbcard); Assert.assertEquals(0, rb.getCardinality()); final BitSet bs = new BitSet(); Assert.assertTrue(equals(bs, rb)); // still empty? for (int i = 100000; i < 200000; ++i) bs.set(i); Assert.assertTrue(equals(bs, rb1)); }
@Test public void flipTest2A() { final MutableRoaringBitmap rb = new MutableRoaringBitmap(); final MutableRoaringBitmap rb1 = MutableRoaringBitmap.flip(rb, 100000, 100000); rb.add(1); // will not affect rb1 (no shared container) final int rbcard = rb1.getCardinality(); Assert.assertEquals(0, rbcard); Assert.assertEquals(1, rb.getCardinality()); final BitSet bs = new BitSet(); Assert.assertTrue(equals(bs, rb1)); bs.set(1); Assert.assertTrue(equals(bs, rb)); }
@Test public void testSerialization2() throws IOException, ClassNotFoundException { final MutableRoaringBitmap rr = new MutableRoaringBitmap(); 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 MutableRoaringBitmap rrback = new MutableRoaringBitmap(); final ByteArrayInputStream bis = new ByteArrayInputStream(bos.toByteArray()); rrback.readExternal(new ObjectInputStream(bis)); Assert.assertEquals(rr.getCardinality(), rrback.getCardinality()); Assert.assertTrue(rr.equals(rrback)); }
@Test public void simplecardinalityTest() { final int N = 512; final int gap = 70; final MutableRoaringBitmap rb = new MutableRoaringBitmap(); for (int k = 0; k < N; k++) { rb.add(k * gap); Assert.assertEquals(rb.getCardinality(), k + 1); } Assert.assertEquals(rb.getCardinality(), N); for (int k = 0; k < N; k++) { rb.add(k * gap); Assert.assertEquals(rb.getCardinality(), N); } }
@Test public void testSerialization4() throws IOException, ClassNotFoundException { final MutableRoaringBitmap rr = new MutableRoaringBitmap(); for (int k = 1; k <= 10000000; k += 10) rr.add(k); final ByteArrayOutputStream bos = new ByteArrayOutputStream(); // Note: you could use a file output steam instead of // ByteArrayOutputStream int howmuch = rr.serializedSizeInBytes(); final DataOutputStream oo = new DataOutputStream(bos); rr.serialize(oo); oo.close(); Assert.assertEquals(howmuch, bos.toByteArray().length); final MutableRoaringBitmap rrback = new MutableRoaringBitmap(); final ByteArrayInputStream bis = new ByteArrayInputStream(bos.toByteArray()); rrback.deserialize(new DataInputStream(bis)); Assert.assertEquals(rr.getCardinality(), rrback.getCardinality()); Assert.assertTrue(rr.equals(rrback)); }
@Test public void flipTest2() { final MutableRoaringBitmap rb = new MutableRoaringBitmap(); rb.flip(100000, 100000); final int rbcard = rb.getCardinality(); Assert.assertEquals(0, rbcard); final BitSet bs = new BitSet(); Assert.assertTrue(equals(bs, rb)); }
@Test public void clearTest() { final MutableRoaringBitmap rb = new MutableRoaringBitmap(); for (int i = 0; i < 200000; i += 7) // dense rb.add(i); for (int i = 200000; i < 400000; i += 177) // sparse rb.add(i); final MutableRoaringBitmap rb2 = new MutableRoaringBitmap(); final MutableRoaringBitmap rb3 = new MutableRoaringBitmap(); for (int i = 0; i < 200000; i += 4) rb2.add(i); for (int i = 200000; i < 400000; i += 14) rb2.add(i); rb.clear(); Assert.assertEquals(0, rb.getCardinality()); Assert.assertTrue(0 != rb2.getCardinality()); rb.add(4); rb3.add(4); final MutableRoaringBitmap andresult = MutableRoaringBitmap.and(rb, rb2); final MutableRoaringBitmap orresult = MutableRoaringBitmap.or(rb, rb2); Assert.assertEquals(1, andresult.getCardinality()); Assert.assertEquals(rb2.getCardinality(), orresult.getCardinality()); for (int i = 0; i < 200000; i += 4) { rb.add(i); rb3.add(i); } for (int i = 200000; i < 400000; i += 114) { rb.add(i); rb3.add(i); } final int[] arrayrr = rb.toArray(); final int[] arrayrr3 = rb3.toArray(); Assert.assertTrue(Arrays.equals(arrayrr, arrayrr3)); }
@Test public void flipTest1() { final MutableRoaringBitmap rb = new MutableRoaringBitmap(); rb.flip(100000, 200000); // in-place on empty bitmap final int rbcard = rb.getCardinality(); Assert.assertEquals(100000, rbcard); final BitSet bs = new BitSet(); for (int i = 100000; i < 200000; ++i) bs.set(i); Assert.assertTrue(equals(bs, rb)); }
@Test public void ortest4() { final MutableRoaringBitmap rb = new MutableRoaringBitmap(); final MutableRoaringBitmap rb2 = new MutableRoaringBitmap(); 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 MutableRoaringBitmap orresult = MutableRoaringBitmap.or(rb, rb2); final MutableRoaringBitmap off = MutableRoaringBitmap.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 MutableRoaringBitmap orresult2 = MutableRoaringBitmap.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 MutableRoaringBitmap rb = new MutableRoaringBitmap(); final MutableRoaringBitmap rb2 = new MutableRoaringBitmap(); 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 MutableRoaringBitmap andresult = MutableRoaringBitmap.and(rb, rb2); final MutableRoaringBitmap off = MutableRoaringBitmap.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 MutableRoaringBitmap andresult2 = MutableRoaringBitmap.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 MutableRoaringBitmap rc = MutableRoaringBitmap.and(rb, rb2); rb.and(rb2); Assert.assertEquals(rc.getCardinality(), rb.getCardinality()); }
@Test public void flipTestBigA() { final int numCases = 1000; final BitSet bs = new BitSet(); final Random r = new Random(3333); int checkTime = 2; MutableRoaringBitmap rb1 = new MutableRoaringBitmap(), rb2 = null; // alternate // between // them for (int i = 0; i < numCases; ++i) { final int start = r.nextInt(65536 * 20); int end = r.nextInt(65536 * 20); if (r.nextDouble() < 0.1) end = start + r.nextInt(100); if ((i & 1) == 0) { rb2 = MutableRoaringBitmap.flip(rb1, start, end); // tweak the other, catch bad sharing rb1.flip(r.nextInt(65536 * 20), r.nextInt(65536 * 20)); } else { rb1 = MutableRoaringBitmap.flip(rb2, start, end); rb2.flip(r.nextInt(65536 * 20), r.nextInt(65536 * 20)); } if (start < end) bs.flip(start, end); // throws exception // otherwise // insert some more ANDs to keep things sparser if (r.nextDouble() < 0.2 && (i & 1) == 0) { final MutableRoaringBitmap mask = new MutableRoaringBitmap(); final BitSet mask1 = new BitSet(); final int startM = r.nextInt(65536 * 20); final int endM = startM + 100000; mask.flip(startM, endM); mask1.flip(startM, endM); mask.flip(0, 65536 * 20 + 100000); mask1.flip(0, 65536 * 20 + 100000); rb2.and(mask); bs.and(mask1); } if (i > checkTime) { System.out.println("check after " + i + ", card = " + rb2.getCardinality()); final MutableRoaringBitmap rb = (i & 1) == 0 ? rb2 : rb1; final boolean status = equals(bs, rb); Assert.assertTrue(status); checkTime *= 1.5; } } }
@Test public void flipTest3A() { System.out.println("FlipTest3A"); final MutableRoaringBitmap rb = new MutableRoaringBitmap(); final MutableRoaringBitmap rb1 = MutableRoaringBitmap.flip(rb, 100000, 200000); final MutableRoaringBitmap rb2 = MutableRoaringBitmap.flip(rb1, 100000, 199991); final int rbcard = rb2.getCardinality(); Assert.assertEquals(9, rbcard); final BitSet bs = new BitSet(); for (int i = 199991; i < 200000; ++i) bs.set(i); Assert.assertTrue(equals(bs, rb2)); }
@Test public void flipTest3() { final MutableRoaringBitmap rb = new MutableRoaringBitmap(); rb.flip(100000, 200000); // got 100k-199999 rb.flip(100000, 199991); // give back 100k-199990 final int rbcard = rb.getCardinality(); Assert.assertEquals(9, rbcard); final BitSet bs = new BitSet(); for (int i = 199991; i < 200000; ++i) bs.set(i); Assert.assertTrue(equals(bs, rb)); }
@Test public void flipTest6A() { System.out.println("FlipTest6A"); final MutableRoaringBitmap rb = new MutableRoaringBitmap(); final MutableRoaringBitmap rb1 = MutableRoaringBitmap.flip(rb, 100000, 132000); final MutableRoaringBitmap rb2 = MutableRoaringBitmap.flip(rb1, 99000, 2 * 65536); final int rbcard = rb2.getCardinality(); Assert.assertEquals(1928, rbcard); final BitSet bs = new BitSet(); for (int i = 99000; i < 100000; ++i) bs.set(i); for (int i = 2 * 65536; i < 132000; ++i) bs.set(i); Assert.assertTrue(equals(bs, rb2)); }
@Test public void andnottest4() { final MutableRoaringBitmap rb = new MutableRoaringBitmap(); final MutableRoaringBitmap rb2 = new MutableRoaringBitmap(); for (int i = 0; i < 200000; i += 4) rb2.add(i); for (int i = 200000; i < 400000; i += 14) rb2.add(i); rb2.getCardinality(); // check or against an empty bitmap final MutableRoaringBitmap andNotresult = MutableRoaringBitmap.andNot(rb, rb2); final MutableRoaringBitmap off = MutableRoaringBitmap.andNot(rb2, rb); Assert.assertEquals(rb, andNotresult); Assert.assertEquals(rb2, off); rb2.andNot(rb); Assert.assertEquals(rb2, off); }
@Test public void flipTest7A() { // within 1 word, first container System.out.println("FlipTest7A"); final MutableRoaringBitmap rb = new MutableRoaringBitmap(); final MutableRoaringBitmap rb1 = MutableRoaringBitmap.flip(rb, 650, 132000); final MutableRoaringBitmap rb2 = MutableRoaringBitmap.flip(rb1, 648, 651); final int rbcard = rb2.getCardinality(); // 648, 649, 651-131999 Assert.assertEquals(132000 - 651 + 2, rbcard); final BitSet bs = new BitSet(); bs.set(648); bs.set(649); for (int i = 651; i < 132000; ++i) bs.set(i); Assert.assertTrue(equals(bs, rb2)); }
@Test public void flipTest6() { // fits evenly on big end, multiple containers System.out.println("FlipTest6"); final MutableRoaringBitmap rb = new MutableRoaringBitmap(); rb.flip(100000, 132000); rb.flip(99000, 2 * 65536); final int rbcard = rb.getCardinality(); // 99000 to 99999 are 1000 1s // 131072 to 131999 are 928 1s Assert.assertEquals(1928, rbcard); final BitSet bs = new BitSet(); for (int i = 99000; i < 100000; ++i) bs.set(i); for (int i = 2 * 65536; i < 132000; ++i) bs.set(i); Assert.assertTrue(equals(bs, rb)); }
@Test public void flipTest4() { // fits evenly on both ends System.out.println("FlipTest4"); final MutableRoaringBitmap rb = new MutableRoaringBitmap(); rb.flip(100000, 200000); // got 100k-199999 rb.flip(65536, 4 * 65536); final int rbcard = rb.getCardinality(); // 65536 to 99999 are 1s // 200000 to 262143 are 1s: total card Assert.assertEquals(96608, rbcard); final BitSet bs = new BitSet(); for (int i = 65536; i < 100000; ++i) bs.set(i); for (int i = 200000; i < 262144; ++i) bs.set(i); Assert.assertTrue(equals(bs, rb)); }
@Test public void flipTest5() { // fits evenly on small end, multiple // containers System.out.println("FlipTest5"); final MutableRoaringBitmap rb = new MutableRoaringBitmap(); rb.flip(100000, 132000); rb.flip(65536, 120000); final int rbcard = rb.getCardinality(); // 65536 to 99999 are 1s // 120000 to 131999 Assert.assertEquals(46464, rbcard); final BitSet bs = new BitSet(); for (int i = 65536; i < 100000; ++i) bs.set(i); for (int i = 120000; i < 132000; ++i) bs.set(i); Assert.assertTrue(equals(bs, rb)); }
@Test public void cardinalityTest() { final int N = 1024; for (int gap = 7; gap < 100000; gap *= 10) { for (int offset = 2; offset <= 1024; offset *= 2) { final MutableRoaringBitmap rb = new MutableRoaringBitmap(); // check the add of new values for (int k = 0; k < N; k++) { rb.add(k * gap); Assert.assertEquals(rb.getCardinality(), k + 1); } Assert.assertEquals(rb.getCardinality(), N); // check the add of existing values for (int k = 0; k < N; k++) { rb.add(k * gap); Assert.assertEquals(rb.getCardinality(), N); } final MutableRoaringBitmap rb2 = new MutableRoaringBitmap(); for (int k = 0; k < N; k++) { rb2.add(k * gap * offset); Assert.assertEquals(rb2.getCardinality(), k + 1); } Assert.assertEquals(rb2.getCardinality(), N); for (int k = 0; k < N; k++) { rb2.add(k * gap * offset); Assert.assertEquals(rb2.getCardinality(), N); } Assert.assertEquals(MutableRoaringBitmap.and(rb, rb2).getCardinality(), N / offset); Assert.assertEquals(MutableRoaringBitmap.or(rb, rb2).getCardinality(), 2 * N - N / offset); Assert.assertEquals( MutableRoaringBitmap.xor(rb, rb2).getCardinality(), 2 * N - 2 * N / offset); } } }
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 MutableRoaringBitmap rb1 = new MutableRoaringBitmap(); for (int x = 0; x <= N; x += gap) { 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 MutableRoaringBitmap rb2 = new MutableRoaringBitmap(); for (int x = 0; x <= N; x += gap) { 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, MutableRoaringBitmap.and(rb1, rb2))) throw new RuntimeException("bug and"); { final MutableRoaringBitmap t = rb1.clone(); t.and(rb2); if (!equals(clonebs1, t)) throw new RuntimeException("bug inplace and"); if (!t.equals(MutableRoaringBitmap.and(rb1, rb2))) { System.out.println( t.highLowContainer.getContainerAtIndex(0).getClass().getCanonicalName()); System.out.println( MutableRoaringBitmap.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, MutableRoaringBitmap.or(rb1, rb2))) throw new RuntimeException("bug or"); { final MutableRoaringBitmap t = rb1.clone(); t.or(rb2); if (!equals(clonebs1, t)) throw new RuntimeException("bug or"); if (!t.equals(MutableRoaringBitmap.or(rb1, rb2))) throw new RuntimeException("bug or"); if (!t.toString().equals(MutableRoaringBitmap.or(rb1, rb2).toString())) throw new RuntimeException("bug or"); } // testing XOR clonebs1 = (BitSet) bs1.clone(); clonebs1.xor(bs2); if (!equals(clonebs1, MutableRoaringBitmap.xor(rb1, rb2))) { throw new RuntimeException("bug xor"); } { final MutableRoaringBitmap t = rb1.clone(); t.xor(rb2); if (!equals(clonebs1, t)) throw new RuntimeException("bug xor"); if (!t.equals(MutableRoaringBitmap.xor(rb1, rb2))) { System.out.println(t); System.out.println(MutableRoaringBitmap.xor(rb1, rb2)); System.out.println( Arrays.equals(t.toArray(), MutableRoaringBitmap.xor(rb1, rb2).toArray())); throw new RuntimeException("bug xor"); } } // testing NOTAND clonebs1 = (BitSet) bs1.clone(); clonebs1.andNot(bs2); if (!equals(clonebs1, MutableRoaringBitmap.andNot(rb1, rb2))) { throw new RuntimeException("bug andnot"); } clonebs1 = (BitSet) bs2.clone(); clonebs1.andNot(bs1); if (!equals(clonebs1, MutableRoaringBitmap.andNot(rb2, rb1))) { throw new RuntimeException("bug andnot"); } { final MutableRoaringBitmap t = rb2.clone(); t.andNot(rb1); if (!equals(clonebs1, t)) { throw new RuntimeException("bug inplace andnot"); } final MutableRoaringBitmap g = MutableRoaringBitmap.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, MutableRoaringBitmap.andNot(rb1, rb2))) { throw new RuntimeException("bug andnot"); } { final MutableRoaringBitmap t = rb1.clone(); t.andNot(rb2); if (!equals(clonebs1, t)) { throw new RuntimeException("bug andnot"); } final MutableRoaringBitmap g = MutableRoaringBitmap.andNot(rb1, rb2); if (!equals(clonebs1, g)) { throw new RuntimeException("bug andnot"); } if (!t.equals(g)) throw new RuntimeException("bug"); } } } }