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I'm trying to implement 2D bin packing using the Maximal rectangles algorithms as in the following paper.

In order to implement this, what type of a data structure will be most appropriate? After googling I found there are different implementation of Guillotine packing algorithm using trees. Can the same approach be applied to this as well. The algorithm itself is not much clear to me. Can I have more clarification on this as well.

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Posts should be self-contained. We shouldn't have to (1) click on your random link and (2) read the paper to follow the question. – Dukeling Jan 12 '14 at 19:28

I stumbled on something when researching for automatic CSS sprite generation. I think in the source the rectangles where represented by tuples, the actual algorithm worked with a binary tree. Maybe it is useful to you.

edit here is the code sample from


This is a very simple binary tree based bin packing algorithm that is initialized
with a fixed width and height and will fit each block into the first node where
it fits and then split that node into 2 parts (down and right) to track the
remaining whitespace.

Best results occur when the input blocks are sorted by height, or even better
when sorted by max(width,height).


  w:       width of target rectangle
  h:      height of target rectangle
  blocks: array of any objects that have .w and .h attributes


  marks each block that fits with a .fit attribute pointing to a
  node with .x and .y coordinates


  var blocks = [
    { w: 100, h: 100 },
    { w: 100, h: 100 },
    { w:  80, h:  80 },
    { w:  80, h:  80 },

  var packer = new Packer(500, 500);;

  for(var n = 0 ; n < blocks.length ; n++) {
    var block = blocks[n];
    if ( {
      Draw(,, block.w, block.h);


Packer = function(w, h) {
  this.init(w, h);

Packer.prototype = {

  init: function(w, h) {
    this.root = { x: 0, y: 0, w: w, h: h };

  fit: function(blocks) {
    var n, node, block;
    for (n = 0; n < blocks.length; n++) {
      block = blocks[n];
      if (node = this.findNode(this.root, block.w, block.h)) = this.splitNode(node, block.w, block.h);

  findNode: function(root, w, h) {
    if (root.used)
      return this.findNode(root.right, w, h) || this.findNode(root.down, w, h);
    else if ((w <= root.w) && (h <= root.h))
      return root;
      return null;

  splitNode: function(node, w, h) {
    node.used = true;
    node.down  = { x: node.x,     y: node.y + h, w: node.w,     h: node.h - h };
    node.right = { x: node.x + w, y: node.y,     w: node.w - w, h: h          };
    return node;

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