Bearing in mind that I'll be performing calculations on lat / long pairs, what datatype is best suited for use with a MySQL database?
Use MySQL's spatial extensions with GIS.
Google provides a start to finish PHP/MySQL solution for an example "Store Locator" application with Google Maps. In this example, they store the lat/lng values as "Float" with a length of "10,6"
Basically it depends on the precision you need for your locations. Using DOUBLE you'll have a 3.5nm precision. DECIMAL(8,6)/(9,6) goes down to 16cm. FLOAT is 1.7m...
This very interesting table has a more complete list: http://mysql.rjweb.org/doc.php/latlng :
Datatype Bytes Resolution Deg*100 (SMALLINT) 4 1570 m 1.0 mi Cities DECIMAL(4,2)/(5,2) 5 1570 m 1.0 mi Cities SMALLINT scaled 4 682 m 0.4 mi Cities Deg*10000 (MEDIUMINT) 6 16 m 52 ft Houses/Businesses DECIMAL(6,4)/(7,4) 7 16 m 52 ft Houses/Businesses MEDIUMINT scaled 6 2.7 m 8.8 ft FLOAT 8 1.7 m 5.6 ft DECIMAL(8,6)/(9,6) 9 16cm 1/2 ft Friends in a mall Deg*10000000 (INT) 8 16mm 5/8 in Marbles DOUBLE 16 3.5nm ... Fleas on a dog
Hope this helps.
MySQL's Spatial Extensions are the best option because you have the full list of spatial operators and indices at your disposal. A spatial index will allow you to perform distance-based calculations very quickly. Please keep in mind that as of 6.0, the Spatial Extension is still incomplete. I am not putting down MySQL Spatial, only letting you know of the pitfalls before you get too far along on this.
If you are dealing strictly with points and only the DISTANCE function, this is fine. If you need to do any calculations with Polygons, Lines, or Buffered-Points, the spatial operators do not provide exact results unless you use the "relate" operator. See the warning at the top of 21.5.6. Relationships such as contains, within, or intersects are using the MBR, not the exact geometry shape (i.e. an Ellipse is treated like a Rectangle).
Also, the distances in MySQL Spatial are in the same units as your first geometry. This means if you're using Decimal Degrees, then your distance measurements are in Decimal Degrees. This will make it very difficult to get exact results as you get furthur from the equator.
When I did this for a navigation database built from ARINC424 I did a fair amount of testing and looking back at the code, I used a DECIMAL(18,12) (Actually a NUMERIC(18,12) because it was firebird).
Floats and doubles aren't as precise and may result in rounding errors which may be a very bad thing. I can't remember if I found any real data that had problems - but I'm fairly certain that the inability to store accurately in a float or a double could cause problems
The point is that when using degrees or radians we know the range of the values - and the fractional part needs the most digits.
Depends on the precision that you require.
Datatype Bytes resolution ------------------ ----- -------------------------------- Deg*100 (SMALLINT) 4 1570 m 1.0 mi Cities DECIMAL(4,2)/(5,2) 5 1570 m 1.0 mi Cities SMALLINT scaled 4 682 m 0.4 mi Cities Deg*10000 (MEDIUMINT) 6 16 m 52 ft Houses/Businesses DECIMAL(6,4)/(7,4) 7 16 m 52 ft Houses/Businesses MEDIUMINT scaled 6 2.7 m 8.8 ft FLOAT 8 1.7 m 5.6 ft DECIMAL(8,6)/(9,6) 9 16cm 1/2 ft Friends in a mall Deg*10000000 (INT) 8 16mm 5/8 in Marbles DOUBLE 16 3.5nm ... Fleas on a dog
- The most precise available option is
- The most common seen type used is
As of MySQL 5.7, consider using Spatial Data Types (SDT), specifically
POINT for storing a single coordinate. Prior to 5.7, SDT does not support indexes (with exception of 5.6 when table type is MyISAM).
- When using
POINTclass, the order of the arguments for storing coordinates must be
- There is a special syntax for creating a spatial index.
- The biggest benefit of using SDT is that you have access to Spatial Analyses Functions, e.g. calculating distance between two points (
ST_Distance) and determining whether one point is contained within another area (
Based on this wiki article http://en.wikipedia.org/wiki/Decimal_degrees#Accuracy the appropriate data type in MySQL is Decimal(9,6) for storing the longitude and latitude in separate fields.
In a completely different and simpler perspective:
- if you are relying on Google for showing your maps, markers, polygons, whatever, then let the calculations be done by Google!
- you save resources on your server and you simply store the latitude and longitude together as a single string (
VARCHAR), E.g.: "-0000.0000001,-0000.000000000000001" (35 length and if a number has more than 7 decimal digits then it gets rounded);
- if Google returns more than 7 decimal digits per number, you can get that data stored in your string anyway, just in case you want to detect some flees or microbes in the future;
- you can use their distance matrix or their geometry library for calculating distances or detecting points in certain areas with calls as simple as this:
- there are plenty of "server-side" APIs you can use (in Python, Ruby on Rails, PHP, CodeIgniter, Laravel, Yii, Zend Framework, etc.) that use Google Maps API.
This way you don't need to worry about indexing numbers and all the other problems associated with data types that may screw up your coordinates.
While it isn't optimal for all operations, if you are making map tiles or working with large numbers of markers (dots) with only one projection (e.g. Mercator, like Google Maps and many other slippy maps frameworks expect), I have found what I call "Vast Coordinate System" to be really, really handy. Basically, you store x and y pixel coordinates at some way-zoomed-in -- I use zoom level 23. This has several benefits:
- You do the expensive lat/lng to mercator pixel transformation once instead of every time you handle the point
- Getting the tile coordinate from a record given a zoom level takes one right shift.
- Getting the pixel coordinate from a record takes one right shift and one bitwise AND.
- The shifts are so lightweight that it is practical to do them in SQL, which means you can do a DISTINCT to return only one record per pixel location, which will cut down on the number records returned by the backend, which means less processing on the front end.
I talked about all this in a recent blog post: http://blog.webfoot.com/2013/03/12/optimizing-map-tile-generation/
I am highly surprised by some answers/comments.
Why on earth would anyone be willing to voluntarely "pre-decrease" the precision, and then later on perform calculations on the worse numbers? Sounds ultimately stupid.
If the source has 64-bit precision, certainly it would be dumb to voluntarely fix the scale to eg. 6 decimals, and limit the precision to a maximum of 9 significant digts (which happens with the commonly proposed decimal 9.6 format).
Naturally, one stores the data with the precision that the source material has. The only reason to decrease precision would be limited storage space.
- Store source figures with original accuracy
- Store figures calculated from the source in the precision the calculation happens (eg. if the aplication code uses doubles, store the results as doubles)
The decimal 9.6-format causes a snap-to-grid phenomen. That should be the very last step, if it is at all to happen.
I wouldn't invite accumulated errors to my nest.
Use FLOAT(8,5) if you're not working in NASA / military and not making aircrafts navi systems.
To answer your question fully, you'd need to consider several things:
- degrees minutes seconds: 40° 26′ 46″ N 79° 58′ 56″ W
- degrees decimal minutes: 40° 26.767′ N 79° 58.933′ W
- decimal degrees 1: 40.446° N 79.982° W
- decimal degrees 2: -32.60875, 21.27812
- Some other home-made format? Noone forbids you from making your own home-centric coordinates system and store it as heading and distance from your home. This could make sense for some specific problems you're working on.
So the first part of the answer would be - you can store the coordinates in the format your application uses to avoid constant conversions back and forth and make simpler SQL queries.
Most probably you use Google Maps or OSM to display your data, and GMaps are using "decimal degrees 2" format. So it will be easier to store coordinates in the same format.
Then, you'd like to define precision you need. Of course you can store coordinates like "-32.608697550570334,21.278081997935146", but have you ever cared about millimeters while navigation to the point? If you're not working in NASA and not doing satellites or rockets or planes trajectories, you should be fine with several meters accuracy.
Commonly used format is 5 digits after dots which gives you 50cm accuracy.
Example: there is 1cm distance between X,21.2780818 and X,21.2780819. So 7 digits after dot give you 1/2cm precision and 5 digits after dot will give you 1/2 meters precision (because minimal distance between distinct points is 1m, so rounding error cannot be more than half of it). For most civil purposes it should be enough.
degrees decimal minutes format (40° 26.767′ N 79° 58.933′ W) gives you exactly the same precision as 5 digits after dot
If you've selected decimal format, then your coordinate is a pair (-32.60875, 21.27812). Obviously, 2 x (1 bit for sign, 2 digits for degrees and 5 digits for exponent) will be enough.
So here I'd like to support Alix Axel from comments saying that Google suggestion to store it in FLOAT(10,6) is really extra, because you don't need 4 digits for main part (since sign is separated and latitude is limited to 90 and longitude is limited to 180). You can easily use FLOAT(8,5) for 1/2m precision or FLOAT(9,6) for 50/2cm precision. Or you can even store lat and long in separated types, because FLOAT(7,5) is enough for lat. See MySQL float types reference. Any of them will be like normal FLOAT and equal to 4 bytes anyway.
Usually space is not an issue nowadays, but if you want to really optimize the storage for some reason (Disclaimer: don't do pre-optimization), you may compress lat(no more than 91 000 values + sign) + long(no more than 181 000 values + sign) to 21 bits which is significantly less than 2xFLOAT (8 bytes == 64 bits)
The spatial functions in PostGIS are much more functional (i.e. not constrained to BBOX operations) than those in the MySQL spatial functions. Check it out: link text
Latitudes range from -90 to +90 (degrees), so DECIMAL(10, 8) is ok for that
longitudes range from -180 to +180 (degrees) so you need DECIMAL(11, 8).
Note: The first number is the total number of digits stored, and the second is the number after the decimal point.
lat DECIMAL(10, 8) NOT NULL, lng DECIMAL(11, 8) NOT NULL
Lat Long calculations require precision, so use some type of decimal type and make the precision at least 2 higher than the number you will store in order to perform math calculations. I don't know about the my sql datatypes but in SQL server people often use float or real instead of decimal and get into trouble because these are are estimated numbers not real ones. So just make sure the data type you use is a true decimal type and not a floating decimal type and you should be fine.
FLOAT should give you all of the precision you need, and be better for comparison functions than storing each co-ordinate as a string or the like.
If your MySQL version is earlier than 5.0.3, you may need to take heed of certain floating point comparison errors however.
Prior to MySQL 5.0.3, DECIMAL columns store values with exact precision because they are represented as strings, but calculations on DECIMAL values are done using floating-point operations. As of 5.0.3, MySQL performs DECIMAL operations with a precision of 64 decimal digits, which should solve most common inaccuracy problems when it comes to DECIMAL columns