Examples of com.metamx.collections.bitmap.BitmapFactory

com.metamx.collections.bitmap.BitmapFactory

  


  @Test
  public void testSearchWithSplit2()
  {
    BitmapFactory bf = new ConciseBitmapFactory();
    RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);
    tree.insert(new float[]{0.0f, 0.0f}, 0);
    tree.insert(new float[]{1.0f, 3.0f}, 1);
    tree.insert(new float[]{4.0f, 2.0f}, 2);
    tree.insert(new float[]{7.0f, 3.0f}, 3);
    tree.insert(new float[]{8.0f, 6.0f}, 4);


    Random rand = new Random();
    for (int i = 5; i < 5000; i++) {
      tree.insert(
          new float[]{(float) (rand.nextDouble() * 10 + 10.0), (float) (rand.nextDouble() * 10 + 10.0)},
          i
      );
    }


    ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
    Iterable<ImmutableGenericBitmap> points = searchTree.search(
        new RectangularBound(
            new float[]{0, 0},
            new float[]{9, 9}
        )
    );
    ImmutableGenericBitmap finalSet = bf.union(points);
    Assert.assertTrue(finalSet.size() >= 5);


    Set<Integer> expected = Sets.newHashSet(0, 1, 2, 3, 4);
    IntIterator iter = finalSet.iterator();
    while (iter.hasNext()) {

View Full Code Here

  }


  @Test
  public void testSearchWithSplit2Roaring()
  {
    BitmapFactory bf = new RoaringBitmapFactory();
    RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);
    tree.insert(new float[]{0.0f, 0.0f}, 0);
    tree.insert(new float[]{1.0f, 3.0f}, 1);
    tree.insert(new float[]{4.0f, 2.0f}, 2);
    tree.insert(new float[]{7.0f, 3.0f}, 3);
    tree.insert(new float[]{8.0f, 6.0f}, 4);


    Random rand = new Random();
    for (int i = 5; i < 5000; i++) {
      tree.insert(
          new float[]{(float) (rand.nextDouble() * 10 + 10.0), (float) (rand.nextDouble() * 10 + 10.0)},
          i
      );
    }


    ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
    Iterable<ImmutableGenericBitmap> points = searchTree.search(
        new RectangularBound(
            new float[]{0, 0},
            new float[]{9, 9}
        )
    );
    ImmutableGenericBitmap finalSet = bf.union(points);
    Assert.assertTrue(finalSet.size() >= 5);


    Set<Integer> expected = Sets.newHashSet(0, 1, 2, 3, 4);
    IntIterator iter = finalSet.iterator();
    while (iter.hasNext()) {

View Full Code Here

  }
  
  @Test
  public void testSearchWithSplit3()
  {
    BitmapFactory bf = new ConciseBitmapFactory();
    RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);
    tree.insert(new float[]{0.0f, 0.0f}, 0);
    tree.insert(new float[]{1.0f, 3.0f}, 1);
    tree.insert(new float[]{4.0f, 2.0f}, 2);
    tree.insert(new float[]{7.0f, 3.0f}, 3);
    tree.insert(new float[]{8.0f, 6.0f}, 4);


    Random rand = new Random();
    for (int i = 5; i < 5000; i++) {
      tree.insert(
          new float[]{(float) (rand.nextFloat() * 10 + 10.0), (float) (rand.nextFloat() * 10 + 10.0)},
          i
      );
    }


    ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
    Iterable<ImmutableGenericBitmap> points = searchTree.search(
        new RadiusBound(new float[]{0.0f, 0.0f}, 5)
    );
    ImmutableGenericBitmap finalSet = bf.union(points);
    Assert.assertTrue(finalSet.size() >= 3);


    Set<Integer> expected = Sets.newHashSet(0, 1, 2);
    IntIterator iter = finalSet.iterator();
    while (iter.hasNext()) {

View Full Code Here

  }


  @Test
  public void testSearchWithSplit3Roaring()
  {
    BitmapFactory bf = new RoaringBitmapFactory();
    RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);
    tree.insert(new float[]{0.0f, 0.0f}, 0);
    tree.insert(new float[]{1.0f, 3.0f}, 1);
    tree.insert(new float[]{4.0f, 2.0f}, 2);
    tree.insert(new float[]{7.0f, 3.0f}, 3);
    tree.insert(new float[]{8.0f, 6.0f}, 4);


    Random rand = new Random();
    for (int i = 5; i < 5000; i++) {
      tree.insert(
          new float[]{(float) (rand.nextFloat() * 10 + 10.0), (float) (rand.nextFloat() * 10 + 10.0)},
          i
      );
    }


    ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
    Iterable<ImmutableGenericBitmap> points = searchTree.search(
        new RadiusBound(new float[]{0.0f, 0.0f}, 5)
    );
    ImmutableGenericBitmap finalSet = bf.union(points);
    Assert.assertTrue(finalSet.size() >= 3);


    Set<Integer> expected = Sets.newHashSet(0, 1, 2);
    IntIterator iter = finalSet.iterator();
    while (iter.hasNext()) {

View Full Code Here

  }  


  @Test
  public void testEmptyConciseSet()
  {
    BitmapFactory bf = new ConciseBitmapFactory();
    RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);
    tree.insert(new float[]{0.0f, 0.0f}, bf.getEmptyBitmap());


    ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
    Iterable<ImmutableGenericBitmap> points = searchTree.search(
        new RadiusBound(new float[]{0.0f, 0.0f}, 5)
    );
    ImmutableGenericBitmap finalSet = bf.union(points);
    Assert.assertEquals(finalSet.size(), 0);
  }

View Full Code Here

  }


  @Test
  public void testEmptyRoaringBitmap()
  {
    BitmapFactory bf = new RoaringBitmapFactory();
    RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);
    tree.insert(new float[]{0.0f, 0.0f}, bf.getEmptyBitmap());


    ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
    Iterable<ImmutableGenericBitmap> points = searchTree.search(
        new RadiusBound(new float[]{0.0f, 0.0f}, 5)
    );
    ImmutableGenericBitmap finalSet = bf.union(points);
    Assert.assertEquals(finalSet.size(), 0);
    Assert.assertTrue(finalSet.isEmpty());
  }

View Full Code Here

  }


  @Test
  public void testSearchWithSplitLimitedBound()
  {
    BitmapFactory bf = new ConciseBitmapFactory();
    RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);
    tree.insert(new float[]{0, 0}, 1);
    tree.insert(new float[]{1, 3}, 2);
    tree.insert(new float[]{4, 2}, 3);
    tree.insert(new float[]{5, 0}, 4);
    tree.insert(new float[]{-4, -3}, 5);


    Random rand = new Random();
    for (int i = 0; i < 4995; i++) {
      tree.insert(
          new float[]{(float) (rand.nextDouble() * 10 + 10.0), (float) (rand.nextDouble() * 10 + 10.0)},
          i
      );
    }


    ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
    Iterable<ImmutableGenericBitmap> points = searchTree.search(new RadiusBound(new float[]{0, 0}, 5, 2));
    ImmutableGenericBitmap finalSet = bf.union(points);
    Assert.assertTrue(finalSet.size() >= 5);


    Set<Integer> expected = Sets.newHashSet(1, 2, 3, 4, 5);
    IntIterator iter = finalSet.iterator();
    while (iter.hasNext()) {

View Full Code Here




  @Test
  public void testSearchWithSplitLimitedBoundRoaring()
  {
    BitmapFactory bf = new RoaringBitmapFactory();
    RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);
    tree.insert(new float[]{0, 0}, 1);
    tree.insert(new float[]{1, 3}, 2);
    tree.insert(new float[]{4, 2}, 3);
    tree.insert(new float[]{5, 0}, 4);
    tree.insert(new float[]{-4, -3}, 5);


    Random rand = new Random();
    for (int i = 0; i < 4995; i++) {
      tree.insert(
          new float[]{(float) (rand.nextDouble() * 10 + 10.0), (float) (rand.nextDouble() * 10 + 10.0)},
          i
      );
    }


    ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
    Iterable<ImmutableGenericBitmap> points = searchTree.search(new RadiusBound(new float[]{0, 0}, 5, 2));
    ImmutableGenericBitmap finalSet = bf.union(points);
    Assert.assertTrue(finalSet.size() >= 5);


    Set<Integer> expected = Sets.newHashSet(1, 2, 3, 4, 5);
    IntIterator iter = finalSet.iterator();
    while (iter.hasNext()) {

View Full Code Here

    final int end = 10000000;
    final int radius = 10;


    for (int numPoints = start; numPoints <= end; numPoints *= factor) {
      try {
        BitmapFactory bf = new ConciseBitmapFactory();
        RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);


        Stopwatch stopwatch = new Stopwatch().start();
        Random rand = new Random();
        for (int i = 0; i < numPoints; i++) {
          tree.insert(new float[]{(float) (rand.nextDouble() * 100), (float) (rand.nextDouble() * 100)}, i);
        }
        long stop = stopwatch.elapsedMillis();
        System.out.printf("[%,d]: insert = %,d ms%n", numPoints, stop);


        stopwatch.reset().start();
        ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
        stop = stopwatch.elapsedMillis();
        System.out.printf("[%,d]: size = %,d bytes%n", numPoints, searchTree.toBytes().length);
        System.out.printf("[%,d]: buildImmutable = %,d ms%n", numPoints, stop);


        stopwatch.reset().start();


        Iterable<ImmutableGenericBitmap> points = searchTree.search(new RadiusBound(new float[]{50, 50}, radius));


        Iterables.size(points);
        stop = stopwatch.elapsedMillis();


        System.out.printf("[%,d]: search = %,dms%n", numPoints, stop);


        stopwatch.reset().start();


        ImmutableGenericBitmap finalSet = bf.union(points);


        stop = stopwatch.elapsedMillis();
        System.out.printf("[%,d]: union of %,d points in %,d ms%n", numPoints, finalSet.size(), stop);
      }
      catch (Exception e) {

View Full Code Here

    final int end = 10000000;
    //final int end = 10;


    for (int numPoints = start; numPoints <= end; numPoints *= factor) {
      try {
        BitmapFactory bf = new ConciseBitmapFactory();
        RTree tree = new RTree(2, new LinearGutmanSplitStrategy(0, 50, bf), bf);


        Stopwatch stopwatch = new Stopwatch().start();
        Random rand = new Random();
        for (int i = 0; i < numPoints; i++) {
          tree.insert(new float[]{(float) (rand.nextDouble() * 100), (float) (rand.nextDouble() * 100)}, i);
        }
        long stop = stopwatch.elapsedMillis();
        System.out.printf("[%,d]: insert = %,d ms%n", numPoints, stop);


        stopwatch.reset().start();
        ImmutableRTree searchTree = ImmutableRTree.newImmutableFromMutable(tree);
        stop = stopwatch.elapsedMillis();
        System.out.printf("[%,d]: size = %,d bytes%n", numPoints, searchTree.toBytes().length);
        System.out.printf("[%,d]: buildImmutable = %,d ms%n", numPoints, stop);


        stopwatch.reset().start();


        Iterable<ImmutableGenericBitmap> points = searchTree.search(
            new RectangularBound(
                new float[]{40, 40},
                new float[]{60, 60},
                100
            )
        );


        Iterables.size(points);
        stop = stopwatch.elapsedMillis();


        System.out.printf("[%,d]: search = %,dms%n", numPoints, stop);


        stopwatch.reset().start();


        ImmutableGenericBitmap finalSet = bf.union(points);


        stop = stopwatch.elapsedMillis();
        System.out.printf("[%,d]: union of %,d points in %,d ms%n", numPoints, finalSet.size(), stop);
      }
      catch (Exception e) {

View Full Code Here

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Related Classes of com.metamx.collections.bitmap.BitmapFactory

com.metamx.collections.spatial.ImmutableRTreeTest

com.metamx.collections.spatial.RTreeTest

com.metamx.collections.spatial.split.LinearGutmanSplitStrategyTest

io.druid.query.search.SearchQueryRunner

io.druid.segment.IndexIO$DefaultIndexIOHandler

io.druid.segment.IndexMaker

io.druid.segment.IndexMerger

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