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I realize my title is not very clear, but I am having trouble thinking of a better one. If anyone wants to correct it, please do.

I'm developing a data structure for my 2 dimensional game with an infinite universe. The data structure is based on a simple (!) node/leaf system, like the R-Tree.

This is the basic concept: you set howmany childs you want a node (a container) to have maximum. If you want to add a leaf, but the node the leaf should be in is full, then it will create a new set of nodes within this node and move all current leafs to their new (more exact) node. This way, very populated areas will have a lot more subdivisions than a very big but rarely visited area.

This works for normal objects. The only problem arises when I have more than maxChildsPerNode objects with the exact same X,Y location: because the node is full, it will create more exact subnodes, but the old leafs will all be put in the exact same node again because they have the exact same position -- resulting in an infinite loop of creating more nodes and more nodes.

So, what should I do when I want to add more leafs than maxChildsPerNode with the exact same position to my tree?

PS. if I failed to explain my problem, please tell me, so I can try to improve the explanation.

Update: this is how I check if all leafs in a full node have identical positions:

//returns whether all leafs in the given leaf list are identical
    private function allLeafsHaveSamePos(leafArr:Array<RTLeaf<T>>):Bool {
        if (leafArr.length > 1) {
            var lastLeafTopX:Float = leafArr[0].topX;
            var lastLeafTopY:Float = leafArr[0].topY;
            for (i in 1...leafArr.length) {
                if ((leafArr[i].topX != lastLeafTopX) || (leafArr[i].topY != lastLeafTopY)) return false;
        return true;
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The problem seems clear to me, the solution however will be a bit more painful. –  Matthieu M. May 24 '10 at 12:02

4 Answers 4

up vote 1 down vote accepted

It looks like a bit of a mismatch between your data and your structure, since you have a structure that assumes N objects within an arbitrarily large area when you're supplying it with >N objects on an infinitely small point. It might be worth using a different structure for this data?

Hack fix: apply a tiny random displacement to your newly created objects. This should allow the space to be subdivided by the existing algorithm.

Better fix: ensure that your algorithm for splitting a leaf node always generates at least 2 new leaf nodes to begin with. When reassigning objects to the new leaf nodes, or when performing normal insertions, iterate over all the candidates, and if more than one is equally suitable then you can tie-break based on how full they are. This should result in your co-located players ending up split evenly across the otherwise identical nodes.

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Why is it a mismatch between data and structure? The structure does not assume a set amount of objects, it can be anything, that's why new nodes are created. It simply makes sure that there are not more than X leafs inside 1 node. The random is no option of course. My splitting algorithm always created the maximum amount of nodes already, split over the current node. But I guess I have to change this behaviour? –  Tom May 24 '10 at 11:23
It's a mismatch because you are using a 2D partitioning scheme for objects that don't differ in those 2 dimensions. It's like sorting a collection of books alphabetically by author when they're all written by the same person. (I appreciate however that you presumably have other objects which fit this scheme better.) As for the splitting, the only thing that's wrong is that you have no strategy for dividing the moved objects up among equally-attractive leaf nodes. A tie-breaker based on leaf-node population will solve that part. –  Kylotan May 24 '10 at 11:35
Actually, all the books have different authors. And most have a different location too. There will be some with the same location, but different authors, though. I think my library should be able to store books with the same position. There are never equally-attractive leaf nodes. If a node is split, all childs will reflect a different part of the parent node. The problem is when there are too many objects with the exact same location, as they will be put in their child (there is only 1 child that fits).. and that child will do the same, etc. –  Tom May 24 '10 at 11:44
Your tie-breaker would force me to change my splitting method of dividing the node over multiple child nodes, each reflecting a different part of the parent. This would make the structure a lot more complex. –  Tom May 24 '10 at 11:44
I think you misunderstood my analogy - if you are sorting on 2D and they share the same 2D position then they have the same 'author', ie. they have identical sorting criteria. Thus you have no meaningful way of subdividing them further, which is the problem you face. If all the objects in a node have the same position and dimensions then any two subsets of that node will keep those same properties, meaning nodes based on those subsets would too, and thus there are no distinctly "different parts of the parent" in the degenerate situation that you are trying to fix. –  Kylotan May 24 '10 at 12:31

I would like to ask a question...

  • is it that important than the maxChildsPerNode constraint be respected ?

I would rather think of this maximum as a hint to the structure for when to split, and simply ignore it when there is no meaningful way to perform the split.

Of course you'd better rethink the name then, otherwise it'd be odd for the next maintainer.

In pseudo code I would use something like this:

def AddToNode(node, item):
  if len(node.items) > node.splitHint:
    leftNode = Node(node.splitHint)
    rightNode = Node(node.splitHint)
    node.split(leftNode, rightNode)
    if len(leftNode.items) == 0 or len(rightNode.items) == 0:
      node.splitHint *= 1.5 # famous golden ratio ;)
      node.items = [leftNode, rightNode]

The important step is to modify the hint when it's detected than we can't abide by it in order not to perform this check at each insertion (this way we obtain a constant amortized cost).

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Good idea. I guess I can not respect the maxChildsPerNode if all objects have the same position. I am having problems to find out whether there is no meaningful way to perform to plit or whether all childs have the same position though.. mainly because of strange float calculations. Eg. floatTopX = 10, floatBotX = 10 and (floatBotX - floatTopY == 0) returns false. This is because I guess it is not 10, but very, very, very, near to 10 (these are the node boundaries). Going to work with this for a bit and report back later. –  Tom May 24 '10 at 12:28
I fixed it by checking if all leafs have the same position before doing a isFull check. Unfortunately this adds some overhead. Not sure if there is a better way... –  Tom May 24 '10 at 12:47
For comparing floating point values the idiomatic way is to use an epsilon. For equality it means that x == y is transposed into x - y < epsilon. It is then up to you to specify the epsilon depending on your constraints. –  Matthieu M. May 24 '10 at 12:55
Depending on the time it takes to do the isFull check, it may cost less to check the position only if the checks returns full. Also note that I modified the max constraint on the fly so that isFull would not return true too often in order to obtain an amortized complexity. –  Matthieu M. May 24 '10 at 12:57
What do you recommend? The epsilon check (to be honest I don't like constant values -- maybe this epsilon should be different on different machines or something?) or checking if all leafs have the same position if a node is full before creating more nodes? See my updated question for my way of checking if all leafs have the same position (I think this should be pretty fast). –  Tom May 24 '10 at 13:02

From common sense I'd not assume having two objects in the same position ever, but if this is a part of the idea, then I would introduce one more axis, say 'spin', an integer number, and impose a restriction that all your objects are fermions (cannot have the same location and spin at the same time).

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The chance is unlikely if not done programmatically. However, imagine the game spawning multiple players at a spawn point, this would be the exact same location. I'm not quite sure what you mean with spin, what does the integer reflect? –  Tom May 24 '10 at 10:45
Even if two players are spawn at a same point it is probably possible to give them a slightly different coordinates (add random delta). Spin is just another parameter that would make objects different and that would be used only in your data structure to solve the problem of all coordinates being same. –  bobah May 24 '10 at 19:37
Many games, when spawning a second player where another player already is, will kill (telefrag) that first player, to punish her for lolligagging. –  dash-tom-bang May 24 '10 at 21:21
Implementation of game logic has nothing to do with my problem. You can't expect a game designer who's using my class to code the way I want them to. If they want to add more than X players at the same position, they should be able to do so and not see the server end in an infinite loop. –  Tom May 25 '10 at 7:27

If you have a set of objects on the exact same spot, any query for a region that contains one should return all - so there's no reason to split them, as it doesn't gain you anything. Simply either count the number of distinct locations when deciding to split, or have each element on the leaf node be an object that encapsulates (coordinates, [list of objects at those coordinates]).

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