Geocoder adds object geocoding and database-agnostic distance calculations to Ruby on Rails. It’s as simple as calling fetch_coordinates!
on your objects, and then using a scope like Venue.near("Billings, MT")
.
Geocoder does not rely on proprietary database functions so finding geocoded objects in a given area is easily done using out-of-the-box MySQL or even SQLite.
Geocoder is currently compatible with Rails 2.x and Rails 3.
Install either as a plugin:
script/plugin install git://github.com/chenillen/geocoder.git
Install either as a plugin:
rails plugin install git://github.com/chenillen//geocoder.git
A) Get a Google Maps API key (see code.google.com/apis/maps/signup.html) and store it in a constant:
# eg, in config/initializers/google_maps.rb GOOGLE_MAPS_API_KEY = "..."
B) Add latitude
and longitude
columns to your model:
script/generate migration AddLatitudeAndLongitudeToYourModel latitude:float longitude:float rake db:migrate
C) Tell geocoder where your model stores its address:
geocoded_by :address
D) Optionally, auto-fetch coordinates every time your model is saved:
after_validation :fetch_coordinates
E) Optionally, auto-fetch coordinates, formatted_address, geometry and location_type every time your model is saved:
after_validation :fetch_all
Note that you are not stuck with the latitude
, longitude
, formatted_address
, geometry
and location_type
column names, or the address
method. See “More On Configuration” below for details.
Assuming obj
is an instance of a geocoded class, you can get its coordinates:
obj.fetch_coordinates # fetches and assigns coordinates obj.fetch_coordinates! # also saves lat, lon attributes
If you have other columns configured, you can use fetch_all and fetch_all! methods obj.fetch_all # fetches and assigns all information get from Google Map
obj.fetch_all! # also saves lat, lon, formatted_address, geometry, location_type attributes
If you have a lot of objects you can use this Rake task to geocode them all:
rake geocode:all CLASS=YourModel
Once obj
is geocoded you can do things like this:
obj.nearbys(30) # other objects within 30 miles obj.distance_to(40.714, -100.234) # distance to arbitrary point
To find objects by location, use the following scopes:
Venue.near('Omaha, NE, US', 20) # venues within 20 miles of Omaha Venue.near([40.71, 100.23], 20) # venues within 20 miles of a point Venue.geocoded # venues with coordinates Venue.not_geocoded # venues without coordinates
Some utility methods are also available:
# distance (in miles) between Eiffel Tower and Empire State Building Geocoder.distance_between( 48.858205,2.294359, 40.748433,-73.985655 ) # look up coordinates of some location (like searching Google Maps) Geocoder.fetch_coordinates("25 Main St, Cooperstown, NY") # find the geographic center (aka center of gravity) of objects or points Geocoder.geographic_center([ city1, city2, city3, [40.22,-73.99], city4 ])
You are not stuck with using the latitude
and longitude
database column names for storing coordinates. For example, to use lat
and lon
:
geocoded_by :address, :latitude => :lat, :longitude => :lon, :formatted_address => :addr, :geometry => :geometry, :location_type => :location_type
The string to use for geocoding can be anything you’d use to search Google Maps. For example, any of the following are acceptable:
714 Green St, Big Town, MO Eiffel Tower, Paris, FR Paris, TX, US
If your model has address
, city
, state
, and country
attributes you might do something like this:
geocoded_by :location def location [address, city, state, country].compact.join(', ') end
Please see the code for more methods and detailed information about arguments (eg, working with kilometers).
SQLite’s lack of trigonometric functions means Geocoder’s default implementation of the near
method (scope) does not work. When using SQLite, Geocoder will automatically use a less accurate algorithm for finding objects near a given point. Results of this algorithm should not be trusted too much as it will return objects that are outside the given radius.
There are few options for finding objects near a given point in SQLite without installing extensions:
-
Use a square instead of a circle for finding nearby points. For example, if you want to find points near 40.71, 100.23, search for objects with latitude between 39.71 and 41.71 and longitude between 99.23 and 101.23. One degree of latitude or longitude is at most 69 miles so divide your radius (in miles) by 69.0 to get the amount to add and subtract from your center coordinates to get the upper and lower bounds. The results will not be very accurate (you’ll get points outside the desired radius–at worst 29% farther away), but you will get all the points within the required radius.
-
Load all objects into memory and compute distances between them using the
Geocoder.distance_between
method. This will produce accurate results but will be very slow (and use a lot of memory) if you have a lot of objects in your database. -
If you have a large number of objects (so you can’t use approach #2) and you need accurate results (better than approach #1 will give), you can use a combination of the two. Get all the objects within a square around your center point, and then eliminate the ones that are too far away using
Geocoder.distance_between
.
Because Geocoder needs to provide this functionality as a scope, we must go with option #1, but feel free to implement #2 or #3 if you need more accuracy.
-
prevent NameError when GOOGLE_MAPS_API_KEY is missing: show nice msg
-
install.rb
should do some setup when installed as a plugin-
create initializer with GOOGLE_MAPS_API_KEY?
-
Copyright © 2009-10 Alex Reisner, released under the MIT license