# How does the KD-tree nearest neighbor search work?

I am looking at the Wikipedia page for KD trees. As an example, I implemented, in python, the algorithm for building a kd tree listed.

The algorithm for doing KNN search with a KD tree, however, switches languages and isn't totally clear. The English explanation starts making sense, but parts of it (such as the area where they "unwind recursion" to check other leaf nodes) don't really make any sense to me.

How does this work, and how can one do a KNN search with a KD tree in python? This isn't meant to be a `"send me the code!"` type question, and I don't expect that. Just a brief explanation please :)

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Did you click on the animation to the right of the "nearest neighbor search" algorithm? Watching it might make the written description clearer. – unutbu Dec 11 '10 at 20:01

This book introduction, page 3:

Given a set of n points in a d-dimensional space, the kd-tree is constructed recursively as follows. First, one finds a median of the values of the ith coordinates of the points (initially, i = 1). That is, a value M is computed, so that at least 50% of the points have their ith coordinate greater-or-equal to M, while at least 50% of the points have their ith coordinate smaller than or equal to M. The value of x is stored, and the set P is partitioned into PL and PR , where PL contains only the points with their ith coordinate smaller than or equal to M, and |PR | = |PL |±1. The process is then repeated recursively on both PL and PR , with i replaced by i + 1 (or 1, if i = d). When the set of points at a node has size 1, the recursion stops.

The following paragraphs discuss its use in solving nearest neighbor.

Or, here is the original 1975 paper by Jon Bentley.

EDIT: I should add that SciPy has a kdtree implementation:

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That link seems to be broken but try here: orion.math.iastate.edu/reu/2001/nearest_neighbor/… – Spaceghost Jan 14 '11 at 19:11
Thank you. Edited with good link. – Steve Tjoa Jan 15 '11 at 1:04
A follow on paper gives a great more detail about the algorithm for nearest neighbor searching with kd-trees, citation on ACM is at Paper by Friedman and Bentley. – drb Aug 13 '11 at 14:55

I've just spend some time puzzling out the Wikipedia description of the algorithm myself, and came up with the following Python implementation that may help: https://gist.github.com/863301

The first phase of `closest_point` is a simple depth first search to find the best matching leaf node.

Instead of simply returning the best node found back up the call stack, a second phase checks to see if there could be a closer node on the "away" side: (ASCII art diagram)

``````            n     current node
b          |     best match so far
|      p   |     point we're looking for
|<    >|   |     error
|< >|     distance to "away" side
|<  | >|  error "sphere" extends to "away" side
| x   possible better match on the "away" side
``````

The current node `n` splits the space along a line, so we only need to look on the "away" side if the "error" between the point `p` and the best match `b` is greater than the distance from point `p` and the line though `n`. If it is, then we check to see if there are any points on the "away" side that are closer.

Because our best matching node is passed into this second test, it doesn't have to do a full traversal of the branch and will stop pretty quickly if it's on the wrong track (only heading down the "near" child nodes until it hits a leaf.)

To compute the distance between the point `p` and the line splitting the space through the node `n`, we can simply "project" the point down onto the axis by copying the appropriate coordinate as the axes are all orthogonal (horizontal or vertical).

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I see location variable doesn't change across the closest_point method. can you explain how it's work – Aladdin Feb 6 at 22:01