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I have a MySQL table with X, Y, and Z coordinates. Each row of this table corresponds to a specific point in three space. Currently, this data is stored as three separate integer columns, but I can change that if need be.

I want to query this table to find the closest point given the input point (x, y, z). One naive way to do this would be to select SQRT(POW((TableName.X - x), 2) + POW((TableName.Y - y), 2) + POW((TableName.Z - z), 2)) AS Distance for each row in the table, and then select the row that has the smallest Distance.

I know MySQL has a Point data type, but I'm not sure if that will help here. Does anyone know of an efficient way to calculate Euclidean distance? Thanks in advance.

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Unfortunately MySQL's Point has 2 coordinates, so it's good only for plane (2D) geometry, not 3D. –  ypercube Oct 9 '11 at 16:02

1 Answer 1

up vote 2 down vote accepted

Order by POW((TableName.X - x), 2) + POW((TableName.Y - y), 2) + POW((TableName.Z - z), 2) without the SQRT.

Since you only care about ordering, and the square root is monotone increasing, you can skip the square root. Without the SQRT, the math should be fast enough.

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It won't be very fast with a billion rows in the table though. –  ypercube Oct 9 '11 at 16:09
    
@ypercube: How expensive is multiplication? How much faster can you get without precomputing per-search? –  SLaks Oct 9 '11 at 16:13
    
I don't want to say that your answer is valueless. It does remove an unnecessary call to SQRT(). But it won't be very good if we have to search a big table (say 1G rows) - billion calls to POW() and billions of additions, then ordering. Or if we want to find for example the closest point to every point of a relatively small table (1M rows) - trillion calls to POW() and additions and then ordering. –  ypercube Oct 9 '11 at 16:18
    
If the Spatial Extensions included 3D points, the R-Tree index structure would make such queries much faster. Which off course means a pre-computed index, especially tailored for such searches. –  ypercube Oct 9 '11 at 16:20
    
I wish there was a better solution, but this'll do. Thanks for the monotonic tip. –  Zach Rattner Oct 10 '11 at 3:12

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