@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 flipTestBig() {
    final int numCases = 1000;
    System.out.println("flipTestBig for " + numCases + " tests");
    final MutableRoaringBitmap rb = new MutableRoaringBitmap();
    final BitSet bs = new BitSet();
    final Random r = new Random(3333);
    int checkTime = 2;

    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);
      rb.flip(start, end);
      if (start < end) bs.flip(start, end); // throws exception
      // otherwise
      // insert some more ANDs to keep things sparser
      if (r.nextDouble() < 0.2) {
        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);
        rb.and(mask);
        bs.and(mask1);
      }
      // see if we can detect incorrectly shared containers
      if (r.nextDouble() < 0.1) {
        final MutableRoaringBitmap irrelevant = MutableRoaringBitmap.flip(rb, 10, 100000);
        irrelevant.flip(5, 200000);
        irrelevant.flip(190000, 260000);
      }
      if (i > checkTime) {
        Assert.assertTrue(equals(bs, rb));
        checkTime *= 1.5;
      }
    }
  }
Example #3
0
 public List<TOE> next() {
   List<TOE> ret = new LinkedList<TOE>();
   for (int i = 0; i < N; i++)
     for (int j = 0; j < M; j++)
     // if(G.get(i*M+j))
     {
       BitSet Gnew = (BitSet) (G.clone());
       int[] x = {0, 1, -1, 0, 0};
       int[] y = {0, 0, 0, 1, -1};
       for (int k = 0; k < 5; k++) {
         int xi = x[k];
         int yi = y[k];
         if ((i + xi) >= 0 && (i + xi) < N && (j + yi) >= 0 && (j + yi) < M) {
           Gnew.flip((i + xi) * M + (j + yi));
         }
       }
       TOE to = new TOE(N, M, Gnew);
       to.mx = i;
       to.my = j;
       ret.add(to);
     }
   return ret;
 }