# How to convert a QuadTree Cell's Spatial Index (Binary Index) to Position and Dimension values?

Sorry in advance for miss-using any terminology in this question, but basically I'm looking into creating a QuadTree that makes use of Binary Indexing, like this:

As you can see in the two illustrations above, if each cells are given a binary ID (ex: 1010, 1011) then every ODD binary indices controls the X offset and every EVEN binary indices controls the Y offset.

For example, in the case of the Level 2 grid (16 cells), 1010 (cell #10) could be said to have 1s at it's 4th and 2nd index, therefore those would perform two Y offsets. The first '1###' (on the leftmost side) would indicate an offset of one cell-height, then the second '##1#' would additionally offset it twice the cell height.

As in:

// If Cell Height = 64pixels
1### = 64 pixels
+ ##1# = 128 pixels
__________________
1#1# = 192 pixels


The same can be applied to the X axis, only it uses the odd numbers instead (ex: #1#1).

Now, when I initialize my QuadTree, I began calculating the maximum nodes it may contain if all cells and all depths are used. I have calculated this with the sum of 4 to the power of each depths:

_totalNodes =   0;

var t:int=0, tLen:int=_maxLevels;
for (; t<tLen; t++) {
_totalNodes += Math.pow(4, t); //Adds 1, 4, 16, 64, 256, etc...
}


Then, I create another loop (iterating from 0 to _totalNodes) which instantiates the nodes and stores it in a long array. It passes the current iteration integer to the Node constructor, and it stores it as it's index.

So far I've been able to determine which depth (aka: Level) the Node would be stored in by figuring out it's index's Most Significant Bit:

public static function MSB( pValue:uint ):int {
var bits:int =      0;

while ( pValue >>= 1) {
bits++;
}

return bits;
}


But now, I'm stuck trying to figure out how to convert the index from binary form to actual Cell X and Y positions. like I said above, the dimensions of each cells are found. It's just a matter of doing some logical operations on the whole index (or "bit-code" is the name I refer to in my code)

If you know of a good example that uses logical-operations (binary level) to convert the binary index values to X and Y positions, could you please post a link or explanation here?

Thanks!

Here's a reference where I got this idea from (note: different programming language):

L. Spiro Engine - http://lspiroengine.com/?p=530

I'm not familiar with the language used in that article though, so I can't really follow it and convert it easily to ActionScript 3.0.

-
Nevermind, I think I've been over-complicating things with the way my cells are arranged in memory. I went with a more linear approach (from top left to bottom right, iterating horizontally first) and now I've got a working QuadTree that can identify the node based on a query Rectangle! :) The challenge will be querying the Quadtree and getting the parent nodes and child-nodes. – bigp Feb 19 '13 at 19:22
Just to keep a history going, I managed to get this working with each nodes indexed linearly. Here's a quick demo: pierrechamberlain.ca/… – bigp Feb 20 '13 at 3:24