105

I am trying to calculate the distance between two positions on a map. I have stored in my data: Longitude, Latitude, X POS, Y POS.

I have been previously using the below snippet.

DECLARE @orig_lat DECIMAL
DECLARE @orig_lng DECIMAL
SET @orig_lat=53.381538 set @orig_lng=-1.463526
SELECT *,
    3956 * 2 * ASIN(
          SQRT( POWER(SIN((@orig_lat - abs(dest.Latitude)) * pi()/180 / 2), 2) 
              + COS(@orig_lng * pi()/180 ) * COS(abs(dest.Latitude) * pi()/180)  
              * POWER(SIN((@orig_lng - dest.Longitude) * pi()/180 / 2), 2) )) 
          AS distance
--INTO #includeDistances
FROM #orig dest

I don't however trust the data coming out of this, it seems to be giving slightly inaccurate results.

Some sample data in case you need it

Latitude        Longitude     Distance 
53.429108       -2.500953     85.2981833133896

Could anybody help me out with my code, I don't mind if you want to fix what I already have if you have a new way of achieving this that would be great.

Please state what unit of measurement your results are in.

3
  • You shouldn't divide the argument to sine by the additional /2. Also you could have more accuracy in the Earth radius, as well as using some Datum used e.g. by GPS system (WGS-84) that approximates Earth by an ellipsoid (with different radii at equator and to poles) Oct 23, 2012 at 8:59
  • @Waller, why don't you use Geography/Geometry (Spatial) type to achieve this ?
    – Habib
    Oct 23, 2012 at 9:00
  • 3
    I checked your calculation with Mathematica; it thinks the distance in statute miles (5280 feet) is 42.997, which suggests that your computation is not slightly inaccurate, rather it is wildly inaccurate. Oct 23, 2012 at 9:04

6 Answers 6

142

Since you're using SQL Server 2008, you have the geography data type available, which is designed for exactly this kind of data:

DECLARE @source geography = 'POINT(0 51.5)'
DECLARE @target geography = 'POINT(-3 56)'

SELECT @source.STDistance(@target)

Gives

----------------------
538404.100197555

(1 row(s) affected)

Telling us it is about 538 km from (near) London to (near) Edinburgh.

Naturally there will be an amount of learning to do first, but once you know it it's far far easier than implementing your own Haversine calculation; plus you get a LOT of functionality.


If you want to retain your existing data structure, you can still use STDistance, by constructing suitable geography instances using the Point method:

DECLARE @orig_lat DECIMAL(12, 9)
DECLARE @orig_lng DECIMAL(12, 9)
SET @orig_lat=53.381538 set @orig_lng=-1.463526

DECLARE @orig geography = geography::Point(@orig_lat, @orig_lng, 4326);

SELECT *,
    @orig.STDistance(geography::Point(dest.Latitude, dest.Longitude, 4326)) 
       AS distance
--INTO #includeDistances
FROM #orig dest
10
  • 6
    @nezam no - the longitude will be negative for places West of the Prime Meridian, and positive for places East of it
    – AakashM
    May 26, 2014 at 10:26
  • You saved my day!..Thanks a lot! Dec 3, 2015 at 13:26
  • 1
    Using the built in function seems to be VERY slow. Eg in a 100,000 item loop, it takes 23 seconds instead of 1.4 seconds for my user defined function (see Durai's answer).
    – NickG
    Feb 2, 2016 at 14:31
  • 1
    Just wanted to chime in and confirm @AakashM 's recommendation for spatial indexes + ... for an ETL application, the difference was several orders of magnitudes better after implementing the spatial indexes
    – Bill Anton
    Oct 4, 2016 at 13:58
  • 3
    FYI: POINT(LONGITUDE LATITUDE) whereas geography::Point(LATITUDE, LONGITUDE, 4326)
    – Lzh
    May 18, 2017 at 9:13
48

The below function gives distance between two geocoordinates in miles

create function [dbo].[fnCalcDistanceMiles] (@Lat1 decimal(8,4), @Long1 decimal(8,4), @Lat2 decimal(8,4), @Long2 decimal(8,4))
returns decimal (8,4) as
begin
declare @d decimal(28,10)
-- Convert to radians
set @Lat1 = @Lat1 / 57.2958
set @Long1 = @Long1 / 57.2958
set @Lat2 = @Lat2 / 57.2958
set @Long2 = @Long2 / 57.2958
-- Calc distance
set @d = (Sin(@Lat1) * Sin(@Lat2)) + (Cos(@Lat1) * Cos(@Lat2) * Cos(@Long2 - @Long1))
-- Convert to miles
if @d <> 0
begin
set @d = 3958.75 * Atan(Sqrt(1 - power(@d, 2)) / @d);
end
return @d
end 

The below function gives distance between two geocoordinates in kilometres

CREATE FUNCTION dbo.fnCalcDistanceKM(@lat1 FLOAT, @lat2 FLOAT, @lon1 FLOAT, @lon2 FLOAT)
RETURNS FLOAT 
AS
BEGIN

    RETURN ACOS(SIN(PI()*@lat1/180.0)*SIN(PI()*@lat2/180.0)+COS(PI()*@lat1/180.0)*COS(PI()*@lat2/180.0)*COS(PI()*@lon2/180.0-PI()*@lon1/180.0))*6371
END

The below function gives distance between two geocoordinates in kilometres using Geography data type which was introduced in sql server 2008

DECLARE @g geography;
DECLARE @h geography;
SET @g = geography::STGeomFromText('LINESTRING(-122.360 47.656, -122.343 47.656)', 4326);
SET @h = geography::STGeomFromText('POINT(-122.34900 47.65100)', 4326);
SELECT @g.STDistance(@h);

Usage:

select [dbo].[fnCalcDistanceKM](13.077085,80.262675,13.065701,80.258916)

Reference: Ref1,Ref2

6
  • 2
    I needed to do distance calculation for 35K zip codes against various events' zip codes ordered by distance to a zip code. It was too large of a list of coordinates to do calculations using the geography data type. When I switched to use the single-line trig functions based solution above, it ran much faster. So using geography types just to calculate a distance seems to be expensive. Buyer beware.
    – Tombala
    Dec 8, 2016 at 21:17
  • Very useful for calculating distance in the WHERE clause of a query. I did have to wrap an ABS() around the "set @d=" expression, because I found some cases where the function returned a negative distance.
    – Joe Irby
    Sep 26, 2017 at 18:04
  • 1
    Function for "distance between two geocoordinates in kilometres" fails if we compare 2 equal points, it gives you error "An invalid floating point operation occurred"
    – RRM
    Oct 13, 2017 at 15:35
  • 2
    This was great but doesn't work for short distances because "decimal(8,4)" doesn't provide enough precision.
    – influent
    Oct 19, 2017 at 23:26
  • 1
    @influent is correct, this is not useful for short distances (5 miles in my case)
    – Roger
    May 28, 2019 at 18:26
28

It looks like Microsoft invaded brains of all other respondents and made them write as complicated solutions as possible. Here is the simplest way without any additional functions/declare statements:

SELECT geography::Point(LATITUDE_1, LONGITUDE_1, 4326).STDistance(geography::Point(LATITUDE_2, LONGITUDE_2, 4326))

Simply substitute your data instead of LATITUDE_1, LONGITUDE_1, LATITUDE_2, LONGITUDE_2 e.g.:

SELECT geography::Point(53.429108, -2.500953, 4326).STDistance(geography::Point(c.Latitude, c.Longitude, 4326))
from coordinates c
2
  • 4
    for reference: STDistance() returns distances in the linear unit of measure of the spatial reference system in which your geography data is defined. You're using SRID 4326, which means that STDistance() returns distances in metres. Feb 8, 2019 at 19:19
  • This gives me the error 'Type geography is not a defined system type. '. I'm on SQL Server 2014. Any idea what I can do to solve this?
    – Jem
    Jul 27 at 13:56
6
Create Function [dbo].[DistanceKM] 
( 
      @Lat1 Float(18),  
      @Lat2 Float(18), 
      @Long1 Float(18), 
      @Long2 Float(18)
)
Returns Float(18)
AS
Begin
      Declare @R Float(8); 
      Declare @dLat Float(18); 
      Declare @dLon Float(18); 
      Declare @a Float(18); 
      Declare @c Float(18); 
      Declare @d Float(18);
      Set @R =  6367.45
            --Miles 3956.55  
            --Kilometers 6367.45 
            --Feet 20890584 
            --Meters 6367450 


      Set @dLat = Radians(@lat2 - @lat1);
      Set @dLon = Radians(@long2 - @long1);
      Set @a = Sin(@dLat / 2)  
                 * Sin(@dLat / 2)  
                 + Cos(Radians(@lat1)) 
                 * Cos(Radians(@lat2))  
                 * Sin(@dLon / 2)  
                 * Sin(@dLon / 2); 
      Set @c = 2 * Asin(Min(Sqrt(@a))); 

      Set @d = @R * @c; 
      Return @d; 

End
GO

Usage:

select dbo.DistanceKM(37.848832506474, 37.848732506474, 27.83935546875, 27.83905546875)

Outputs:

0,02849639

You can change @R parameter with commented floats.

1
4

As you're using SQL 2008 or later, I'd recommend checking out the GEOGRAPHY data type. SQL has built in support for geospatial queries.

e.g. you'd have a column in your table of type GEOGRAPHY which would be populated with a geospatial representation of the coordinates (check out the MSDN reference linked above for examples). This datatype then exposes methods allowing you to perform a whole host of geospatial queries (e.g. finding the distance between 2 points)

1
  • Just to add, I tried the geography field type, but found using Durai's function (directly using longitude and latitude values) to be much faster. See my example here: stackoverflow.com/a/37326089/391605 May 20, 2016 at 9:01
1

In addition to the previous answers, here is a way to calculate the distance inside a SELECT:

CREATE FUNCTION Get_Distance
(   
    @La1 float , @Lo1 float , @La2 float, @Lo2 float
)
RETURNS TABLE 
AS
RETURN 
    -- Distance in Meters
    SELECT GEOGRAPHY::Point(@La1, @Lo1, 4326).STDistance(GEOGRAPHY::Point(@La2, @Lo2, 4326))
    AS Distance
GO

Usage:

select Distance
from Place P1,
     Place P2,
outer apply dbo.Get_Distance(P1.latitude, P1.longitude, P2.latitude, P2.longitude)

Scalar functions also work but they are very inefficient when computing large amount of data.

I hope this might help someone.

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