@Override public byte[] serialize(IntSet intSet) { int size = intSet.size(); byte[] bytes = new byte[Integer.BYTES + size * Integer.BYTES]; ByteBuffer byteBuffer = ByteBuffer.wrap(bytes); byteBuffer.putInt(size); IntIterator iterator = intSet.iterator(); while (iterator.hasNext()) { byteBuffer.putInt(iterator.nextInt()); } return bytes; }
IntIterator iterator = matchingDictIds.iterator(); while (iterator.hasNext()) { int matchingDictId = iterator.nextInt();
IntIterator iterator = matchingDictIds.iterator(); while (iterator.hasNext()) { if (!predicateEvaluator.applySV(iterator.nextInt())) {
/** {@inheritDoc} */ @Override public int nonZeroElements() { int res = 0; IntIterator rowIter = indexesMap().keySet().iterator(); while (rowIter.hasNext()) { int row = rowIter.nextInt(); res += indexesMap().get(row).size(); } return res; }
IntIterator iterator = pagesToCompact.iterator(); while (iterator.hasNext()) { int pageId = iterator.nextInt();
public IntIterator iterator() { return _set.iterator(); }
public IntIterator intIterator() { return _set.iterator(); }
public IntIterator iterator() { return _set.iterator(); }
public IntIterator intIterator() { return _set.iterator(); }
public IntIterator iterator() { return _set.iterator(); }
public IntIterator intIterator() { return _set.iterator(); }
@Override public void reset() { iter = map.keySet().iterator(); } };
@Override public Iterator<IntWritable> fastKeyIterator() { return new ReusableIterator<IntIterator>(map.keySet().iterator()) { @Override public IntWritable next() { reusableKey.set(iter.nextInt()); return reusableKey; } @Override public void reset() { iter = map.keySet().iterator(); } }; }
@Override public void write(DataOutput out) throws IOException { out.writeInt(set.size()); IntIterator iter = set.iterator(); while (iter.hasNext()) { out.writeInt(iter.nextInt()); } }
@Override public Iterable<IntWritable> getPartitionDestinationVertices( int partitionId) { Int2FloatOpenHashMap partitionMap = map.get(partitionId); List<IntWritable> vertices = Lists.newArrayListWithCapacity(partitionMap.size()); IntIterator iterator = partitionMap.keySet().iterator(); while (iterator.hasNext()) { vertices.add(new IntWritable(iterator.nextInt())); } return vertices; }
@Override public Iterable<IntWritable> getPartitionDestinationVertices( int partitionId) { Int2ObjectOpenHashMap<DataInputOutput> partitionMap = map.get(partitionId); List<IntWritable> vertices = Lists.newArrayListWithCapacity(partitionMap.size()); IntIterator iterator = partitionMap.keySet().iterator(); while (iterator.hasNext()) { vertices.add(new IntWritable(iterator.nextInt())); } return vertices; }
@Nonnull public int[] getUsers() { final int size = rows.size(); final int[] keys = new int[size]; final IntIterator itor = rows.keySet().iterator(); for (int i = 0; i < size; i++) { if (!itor.hasNext()) { throw new IllegalStateException(); } int key = itor.nextInt(); keys[i] = key; } return keys; }
private void clearImpl(IntSet objects) { for (IntIterator iterator = objects.iterator(); iterator.hasNext(); ) { int childId = iterator.nextInt(); removeImpl(childId); iterator.remove(); } }
@Override @SideOnly(Side.CLIENT) public void draw(CanvasClient canvas) { IntSet children = canvas.getChildren(id()); if (children == null) return; GlStateManager.pushMatrix(); GlStateManager.translate(position.x, position.y, 0); canvas.drawChildren(children.iterator()); GlStateManager.popMatrix(); } }
@SubscribeEvent @SideOnly(Side.CLIENT) public void onWorldRender(RenderWorldLastEvent event) { CanvasClient canvas = getCanvas(); if (canvas == null) return; synchronized (canvas) { canvas.drawChildren(canvas.getChildren(ID_3D).iterator()); } GlStateManager.color(1.0f, 1.0f, 1.0f); GlStateManager.enableTexture2D(); GlStateManager.enableCull(); GlStateManager.enableDepth(); GlStateManager.disableAlpha(); } }