I have a table called flags that contains a column called coordinates that is full of MySQL 'points'. I need to perform a query where I get all the flags within a circle based on a latitude and longitude position with 100m radius.

From a usage point of view this is based around the user's position. For example, the mobile phone would give the user's latitude and longitude position and then pass it to this part of the API. It's then up to the API to create an invisible circle around the user with a radius of 100 metres and then return the flags that are in this circle.

It's this part of the API I'm not sure how to create as I'm unsure how to use SQL to create this invisible circle and select points only within this radius.

Is this possible? Is there a MySQL spatial function that will help me do this?

I believe the Buffer() function can do this but I can't find any documentation as to how to use it (eg example SQL). Ideally I need an answer that shows me how to use this function or the closest to it. Where I'm storing these coordinates as geospatial points I should be using a geospatial function to do what I'm asking to maximize efficiency.

Flags table:

  • id
  • coordinates
  • name

Example row:

1 | [GEOMETRY - 25B] | Tenacy AB

For the flags table I have latitude, longitude positions and easting and northing (UTM)

The user's location is just standard latitude/longitude but I have a library that can conver this position to UTM

  • 1
    You will want to use the Haversine function of the radius > 20Km, otherwise you can get away with using Pythagoras formulae on an equilateral rectangular projection. here's a previous stack overflow question on the former: stackoverflow.com/questions/574691/… Jan 16 '14 at 18:39
  • What version of the MySQL (or possibly the MariaDB) server are you using in this project? Does your flags table actually contain UTM coordinates? Are they all projected into the same UTM zone?
    – O. Jones
    Jan 20 '14 at 16:33
  • @OllieJones Hi Ollie. The version of MySQL is 5.6.14 (can be upgraded if necessary). The flags table does contain UTM coordinates yes. The user's position however is just a latitude/longitude position but I have a class that converts latitude/longitude into northing/easting based on lat/lng/time zone. For this question, because of the converter class, you can just imagine that everything is UTM should that be necessary
    – jskidd3
    Jan 20 '14 at 16:41
  • Are your UTM coordinates specified as North / East / Zone or just North / East? In other words, are they all in the same zone?
    – O. Jones
    Jan 20 '14 at 16:55
  • They're not, no. They span across 5 different zones, 29v, 30v, 29u, 30u, 31u (the UK)
    – jskidd3
    Jan 20 '14 at 16:59

There are no geospatial extension functions in MySQL supporting latitude / longitude distance computations. There is as of MySQL 5.7.

You're asking for proximity circles on the surface of the earth. You mention in your question that you have lat/long values for each row in your flags table, and also universal transverse Mercator (UTM) projected values in one of several different UTM zones. If I remember my UK Ordnance Survey maps correctly, UTM is useful for locating items on those maps.

It's a simple matter to compute the distance between two points in the same zone in UTM: the Cartesian distance does the trick. But, when points are in different zones, that computation doesn't work.

Accordingly, for the application described in your question, it's necessary to use the Great Circle Distance, which is computed using the haversine or another suitable formula.

MySQL, augmented with geospatial extensions, supports a way to represent various planar shapes (points, polylines, polygons, and so forth) as geometrical primitives. MySQL 5.6 implements an undocumented distance function st_distance(p1, p2). However, this function returns Cartesian distances. So it's entirely unsuitable for latitude and longitude based computations. At temperate latitudes a degree of latitude subtends almost twice as much surface distance (north-south) as a degree of longitude(east-west), because the latitude lines grow closer together nearer the poles.

So, a circular proximity formula needs to use genuine latitude and longitude.

In your application, you can find all the flags points within ten statute miles of a given latpoint,longpoint with a query like this:

 SELECT id, coordinates, name, r,
        units * DEGREES(ACOS(LEAST(1.0, COS(RADIANS(latpoint))
                  * COS(RADIANS(latitude))
                  * COS(RADIANS(longpoint) - RADIANS(longitude))
                  + SIN(RADIANS(latpoint))
                  * SIN(RADIANS(latitude))))) AS distance
   FROM flags
   JOIN (
        SELECT 42.81  AS latpoint,  -70.81 AS longpoint, 
               10.0 AS r, 69.0 AS units
        ) AS p ON (1=1)
  WHERE MbrContains(GeomFromText (
              latpoint-(r/units),' ',
              longpoint-(r /(units* COS(RADIANS(latpoint)))),
              latpoint+(r/units) ,' ',
              longpoint+(r /(units * COS(RADIANS(latpoint)))),
              ')')),  coordinates)

If you want to search for points within 20 km, change this line of the query

               20.0 AS r, 69.0 AS units

to this, for example

               20.0 AS r, 111.045 AS units

r is the radius in which you want to search. units are the distance units (miles, km, furlongs, whatever you want) per degree of latitude on the surface of the earth.

This query uses a bounding lat/long along with MbrContains to exclude points that are definitely too far from your starting point, then uses the great circle distance formula to generate the distances for the remaining points. An explanation of all this can be found here. If your table uses the MyISAM access method and has a spatial index, MbrContains will exploit that index to get you fast searching.

Finally, the query above selects all the points within the rectangle. To narrow that down to only the points in the circle, and order them by proximity, wrap the query up like this:

 SELECT id, coordinates, name
   FROM (
         /* the query above, paste it in here */
        ) AS d
  WHERE d.distance <= d.r
  ORDER BY d.distance ASC 
  • Just for curious, st_within is it suitable for checking a lattitude and longitude is inside or not. Because as you said st_distance is not suitable for latitude and longitude based computations.
    – ArunRaj
    Apr 3 '14 at 7:29
  • 1
    st_within will work if you create a bounding polygon. My example here uses simply a diagonal line and its bounding rectangle. st_within will do a bit more work for the same result as MBRContains. If you had polygonal geographic boundaries, st_within might be suitable.
    – O. Jones
    Apr 3 '14 at 15:09
  • This is a great comment, Ollie, kudos for the clear, exhaustive and well written explanation. Just in case I did not understand it all: a) if you use UTM, a simple euclidean distance within the same zone works b) if you have to use the Degree (Lat/Lon) the Great Circle Distance and last part of your post comes into play. Is that correct?
    – sc0p
    Feb 12 '16 at 16:25
  • @sc0p, within the same UTM zone (or other projection zone) Cartesian distance works. Whether or not you use Cartesian or Great Circle (haversine) distance computations, a bounding-rectangle search helps optimize your search. A distance criterion, alone, can't exploit an index to narrow down the search for matching points.
    – O. Jones
    Feb 12 '16 at 17:43
  • 11
    ST_Distance_Sphere(g1, g2[, radius]) link as of 5.7.6
    – Brad Kent
    Jan 5 '17 at 23:05


Use ST_Distance_Sphere() to calculate distances using a lat/long



This assumes the coordinates in the table are stored as a POINT() datatype in a column labeled 'point'. The function X(point) and Y(point) extract the latitude and longitude values from the point value respectively.

SET @lat = the latitude of the point
SET @lon = the longitude of the point
SET @rad = radius in Kilometers to search from the point
SET @table = name of your table

    X(point),Y(point),*, (
      6373 * acos (
      cos ( radians( @lat ) )
      * cos( radians( X(point) ) )
      * cos( radians( Y(point) ) - radians( @lon ) )
      + sin ( radians( @lat ) )
      * sin( radians( X(point) ) )
) AS distance
FROM @table
HAVING distance < @rad

If you want to do it in miles, replace the constant 6373 with 3959

For those wanting to reduce the query syntax, here's a common implementation of a user defined MySQL function for implementing a distance function based on the Haversine formulae.

    SET rlat1 = radians( X( coord1 ) );
    SET rlat2 = radians( X( coord2 ) );
    SET rlon1 = radians( Y( coord1 ) );
    SET rlon2 = radians( Y( coord2 ) );
    SET dist  = ACOS( COS( rlat1 ) * COS( rlon1 ) * COS( rlat2 ) * COS( rlon2 ) + COS( rlat1 ) * SIN( rlon1 ) * COS( rlat2 ) * SIN( rlon2 ) + SIN( rlat1 ) * SIN( rlat2 ) ) * 6372.8;
    RETURN dist;
  • not sure why someone downvoted without an explanation. All the other answers I've seen on the site assume the lat/lon are stored as decimal or float. This poster asked for a solution where they are stored as POINT datatype. Jan 16 '14 at 22:25
  • Hi Andrew, thanks for your answer. Is there not a better way to do this like the Geospatial function 'Buffer'? It's designed for this exact thing I just can't find any documentation/usage examples
    – jskidd3
    Jan 17 '14 at 14:47
  • The buffer() function is a proposed addition to MySQL but to the best of my knowledge it has not been implemented yet. I found this reference on the online version 5.5 documentation: These functions are not implemented in MySQL. Buffer(g,d) Returns a geometry that represents all points whose distance from the geometry value g is less than or equal to a distance of d. Jan 17 '14 at 16:48
  • 1
    Seems like it would be neater to bundle that up in a distance() function (albeit one that takes advantage of the POINT data type)
    – Strawberry
    Jan 20 '14 at 10:14
  • 1
    I've updated my answer to include a copy of the Haversine formulae as a user defined MySQL function. Jan 20 '14 at 18:39

Buffers won't help you much in MySQL < 5.6, since buffer is a polygon, and polygon operations in MySQL < 5.6 are implemented as "Minimal Bounding Rectangles" (MBR), which are pretty useless.

Since MySQL 5.6, the full non-MBR st_* operations were implemented. But the best solution for you, in case of circle, is to use undocumented function st_distance:

select *
from waypoints
where st_distance(point(@center_lon, @center_lat), coordinates) <= radius;

It was hard to find, since it's undocumented :-) But it's mentioned on this blog, whose author also filled the mentioned bugreport. There are caveats though (citing the blog):

The bad news is:

1) All functions still only use the planar system coordinates. Different SRIDs are not supported.

2) Spatial indexes (RTREE) are only supported for MyISAM tables. One can use the functions for InnoDB tables, but it will not use spatial keys.

Point 1) means that the unit of distance will be the same as the unit of coordinates (degrees in case of WGS84). If you need distance in meters, you have to use projected coordination system (e.g. UTM or similar) that has units corresponding to meters.

So, in case you don't want to go with these caveats, or in case of MySQL < 5.6, you will have to write your own custom distance function.

  • When specifying a radius of 100 the query takes forever. Is the radius measured in metres or something a lot larger?
    – jskidd3
    Jan 20 '14 at 10:51
  • @jskidd3 in the linked blog (there are not much resources as it is undocumented) he mentions that "All functions still only use the planar system coordinates." That means that the unit of distance will be the same as the unit of coordinates (degrees in case of WGS84). If you need distance in meters, you have to use projected coordination system (e.g. UTM or similar) that has units corresponding to meters.
    – Tomas
    Jan 20 '14 at 10:56
  • Is there any way you could try and find something that would convert this type of measurement into meters? 100 meters is a fixed value that would never change. When using radius 0.001 it seems pretty close to 100 meters but I have no way to check how close until it's converted (needs to be pretty exact)
    – jskidd3
    Jan 20 '14 at 10:58
  • @jskidd3 that wouldn't work well because latitude and longitude degrees will have different ratio to meters depending on the position on earth. st_distance will work best on the UTM projected coordinates.
    – Tomas
    Jan 20 '14 at 11:00
  • Even if we're talking about geodesic geometry? These measurements are only over the UK, not measuring across the world. Not sure how to change things to work better on 'UTM' coordinates
    – jskidd3
    Jan 20 '14 at 11:01

for the sake of completeness, as of MySQL 5.7.6. you can use the ST_Distance_Sphere function which achieves the same result:

SET @pt1 = ST_GeomFromText('POINT(12.3456 34.5678)');

SELECT * from 
(SELECT * ,(ST_Distance_Sphere(@pt1, location, 6373)) AS distance FROM mydb.Event ORDER BY distance) x WHERE x.distance <= 30;

In this case, we provide the approximate radius of the Earth in kilometers (6373) and a point (@pt1). This code will calculate the distance (in kilometers) between that point (long 12.3456, lat 34.5678) and all the points contained in the database where the distance is 30km or less.


from: https://gis.stackexchange.com/questions/31628/find-points-within-a-distance-using-mysql

    id, (
      6371 * acos (
      cos ( radians(78.3232) )
      * cos( radians( lat ) )
      * cos( radians( lng ) - radians(65.3234) )
      + sin ( radians(78.3232) )
      * sin( radians( lat ) )
) AS distance
FROM markers
HAVING distance < 30
ORDER BY distance
LIMIT 0 , 20;

(remember to replace all constants, this example is for kilometers)


Hope my version helps

    SQRT(POW(X(`center`) - 49.843317 , 2) + POW(Y(`center`) - 24.026642, 2)) * 100 < `radius`

details here http://dexxtr.com/post/83498801191/how-to-determine-point-inside-circle-using-mysql


You can use:

SELECT name, lat, lng   
FROM vw_mytable 
WHERE ST_Contains(ST_Buffer(
          ST_GeomFromText('POINT(12.3456 34.5678)'), (0.00001*1000)) , mypoint) = 1  

The expression: 0.00001*1000 inside statement above give to you a circle with 1000 Meters of diameter, it's being applied on a view here, name column is just a label to point, mypoint is the name of my point column, lat was calculated inside view with ST_X(mytable.mypoint) and lng with ST_Y(mytable.mypoint) and they simply show me the literal values of lat and lng.

It will give to you all coordinates that belongs to circle.

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