# Sqlalchemy: Latitude and Longitude Float Precision?

I'm using Sqlalchemy to define my tables and such and here is some code I came up with:

``````locations = Table('locations', Base.metadata,
Column("lat", Float(Precision=64), primary_key=True),
Column("lng", Float(Precision=64), primary_key=True),
)
``````

I read somewhere that latitude and longitude require better precision than floats, usually double precision. So I set the precision manually to 64, is this sufficient? Overkill? Would this even help for my situation?

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"read somewhere". You should really find that reference and get an accurate quote from them. 1 degree of latitude is 60 nautical miles, about 364,567 feet. That means that 9 digits (3 to the left, 6 to the right) gets you to within one foot. That's about a single-precision floating-point number. PLease find the quote that said you needed more and provide a link or a reference. –  S.Lott Jul 7 '11 at 0:54
added the link to my question –  awfullyjohn Jul 7 '11 at 1:28
The link appears to say 12 decimal places? That's 1.852E-9 m. That's about 2 nanometers. That seems ridiculous. –  S.Lott Jul 7 '11 at 1:31
A single-precision float holds 6-7 decimal digits; if you want 9, you can't use single-precision, but double-precision is sufficient. –  Jonathan Leffler Jul 7 '11 at 5:26
(Thanks @Jonathan Leffler) A 7.22 decimal digit single precision number would get you 4 digits to the right of the decimal point. 0.0001 degree is 11m, 36ft. The question remains: What are your use cases? How many digits do you need for your use cases? –  S.Lott Jul 7 '11 at 10:57

It depends on what you are using your data for. If you use a float it will be ok if the you only need it down to about the meter level of detail. Using the data in graphically applications will cause a jitter effect if the user zooms in do far. For more about jitter and see Precisions, Precisions. Hope this helps.

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A 32 bit floating point number can represent a number with about 7.2 decimal digits of precision. This is an approximation because the floating point number is actually in binary, and when converted to decimal, the number of significant digits might vary.

If we take it as 6 decimal digits of precision (to play on the safe side), and if we are storing latitude and longitude in degrees, then we get a precision of about 1/1000th of a degree which is a precision of about 111 meters in the worst case. In the best case, if we get 7 decimal digits of precision, the accuracy would be about 11.1 meters.

It is possible to get a better precision using radians as the unit. In the worst case we get a precision of 10 millionth of a radian which is about 63 meters. In the best case, it would be 1 millionth of a radian which is about 6 meters.

Needless to say, a 64bit floating point number would be extremely precise (about 6 micro meters in the worst case).

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