Geokit for Rails consists of a generic Gem (geokit) and a Rails plugin (geokit-rails).
Make sure you use a version >= 3.0 of Rails.
You just have to add the 'geokit-rails' gem to your Gemfile
gem 'geokit-rails'
Then tell bundler to update the gems :
$ bundle install
Generate the configuration initializer:
$ rails g geokit_rails:install
Now, if you wish to use the various geocoding services, you can add your keys to the new initializer.
If you want to use geokit-rails in a Rails 2 application, just use the good old plugin (geokit-rails).
Geokit provides key functionality for location-oriented Rails applications:
The goal of this plugin is to provide the common functionality for location-oriented applications (geocoding, location lookup, distance calculation) in an easy-to-use package.
Throughout the code and API, latitude and longitude are referred to as lat and lng. We've found over the long term the abbreviation saves lots of typing time.
To get started, just specify an ActiveRecord class as acts_as_mappable
:
class Location < ActiveRecord::Base
acts_as_mappable
end
There are some defaults you can override:
class Location < ActiveRecord::Base
acts_as_mappable :default_units => :miles,
:default_formula => :sphere,
:distance_field_name => :distance,
:lat_column_name => :lat,
:lng_column_name => :lng
end
The optional parameters are units
, formula
, and distance_field_name
.
Values for units can be :miles
, :kms
(kilometers), or :nms
(nautical miles),
with :miles
as the default.
Values for formula can be :sphere
or :flat
with :sphere
as the default.
:sphere
gives you Haversine calculations, while :flat
gives the Pythagoreum Theory.
These defaults persist through out the gem.
The plug-in creates a calculated distance
field on AR instances that have
been retrieved through a Geokit location query. By default, these fields are
known as "distance" but this can be changed through the :distance_field_name
key.
You can also define alternative column names for latitude and longitude using
the :lat_column_name
and :lng_column_name
keys. The defaults are lat
and
lng
respectively.
Once you've specified acts_as_mappable
, a few scopes are available :
within
and beyond
find records within or beyond a certain distance from the origin point.in_range
finds records within a certain distance range from the origin point.in_bounds
finds records within a rectangle on the mapclosest
and farthest
find the closest or farthest record from the origin pointby_distance
finds records ordered by distance from the origin pointAll of these scopes take a hash of options where the first parameter is simply one of the possible options, without the name.
A few examples :
Location.within(5, :origin => @somewhere)
Location.in_range(2..5, :origin => @somewhere)
Location.in_bounds([@south_west_point, @north_east_point], :origin => @somewhere)
The options can be :
:origin
as a two-element array of latitude/longitude:
Location.by_distance(:origin => [37.792,-122.393])
:origin
as a geocodeable string:
Location.by_distance(:origin => '100 Spear st, San Francisco, CA')
:origin
as an object which responds to lat
and lng
methods,
or latitude
and longitude
methods, or whatever methods you have
specified for lng_column_name
and lat_column_name
:
Location.geo_scope(:origin => my_store)
# my_store.lat and my_store.lng methods exist
:units
or :formula
can be used to override the default values in a specific query
Location.within(5, :units => :kms, :origin => @somewhere)
# it will get the records within 5 kilometers instead of 5 miles
:range
as a native Ruby range
:bounds
as an array of two elements : the south/west point and the north/east point.
@sw = Geokit::LatLng.new(32.91663,-96.982841)
@ne = Geokit::LatLng.new(32.96302,-96.919495)
@somewhere = Location.find(123456)
Location.within(:bounds => [@sw, @ne], :origin => @somewhere)
:bounds
as a Geokit::Bounds object
@bounds = Geokit::Bounds.new([32.91663,-96.982841], [32.96302,-96.919495])
@somewhere = Location.find(123456)
Location.within(:bounds => [@sw, @ne], :origin => @somewhere)
When using a point of reference or bounds, you leverage the power of Geokit to build this objects. Basically, if Geokit can make a Geokit::Point or a Geokit::Bounds with what you give to it, you're good to go.
Finally, if all that is desired is the raw SQL for distance calculations, you can use the following:
Location.distance_sql(origin, units = default_units, formula = default_formula)
Thereafter, you are free to use it in find_by_sql
as you wish.
You can then chain these scope with any other or use a "calling" method like first
, all
, count
, …
Location.within(5, :origin => @somewhere).all
Location.within(5, :origin => @somewhere).count
Location.by_distance(:origin => [37.792,-122.393]).first
You can add order
clauses in the chain as for any ActiveRecord query
Location.within(5, :origin => @somewhere).order('nbr_seats ASC')
You can even sort by distance (use the same name as specified in the model class)
Location.within(5, :origin => @somewhere).order('distance DESC, nbr_seats ASC')
Idem for the limit
clause. In fact, closest
and farthest
are defined like this :
def closest(options = {})
by_distance(options).limit(1)
end
def farthest(options = {})
by_distance({:reverse => true}.merge(options)).limit(1)
end
In the current version of geokit-rails, it is not possible to add a where
clause
using the distance column. I've tried many different ways to do this and didn't get it working.
One would expect to build a query like this :
scoped = Location.by_distance(:origin => @somewhere)
scoped = scoped.where('distance <= 5')
results = scoped.all
This is not possible right now, it must be done in a single step like this :
scoped = Location.within(5, :origin => @somewhere)
results = scoped.all
Every good idea that would help achieve this is very much welcome.
If you are displaying points on a map, you probably need to query for whatever falls within the rectangular bounds of the map:
Store.in_bounds([sw_point,ne_point]).all
If you want the query to return things that are located on the rectangular bounds, specify the inclusive
option set to true:
Store.in_bounds([sw_point,ne_point], :inclusive => true).all
The input to bounds
can be an array with the two points or a Bounds object. However you provide them, the order should always be the southwest corner, northeast corner of the rectangle. Typically, you will be getting the sw_point and ne_point from a map that is displayed on a web page.
If you need to calculate the bounding box from a point and radius, you can do that:
bounds = Geokit::Bounds.from_point_and_radius(home,5)
Store.in_bounds(bounds).all
It has not been tested with Rails 3 nor with this version of the gem. Most of it should work, but it is not sure
You can use includes along with your distance finders:
stores = Store.within(5, :origin=>home).includes([:reviews,:cities]).order('distance asc').all
However, ActiveRecord drops the calculated distance column when you use include. So, if you need to use the distance column, you'll have to re-calculate it post-query in Ruby:
stores.sort_by{|s| s.distance_to(home)}
In this case, you may want to just use the bounding box condition alone in your SQL (there's no use calculating the distance twice):
bounds=Geokit::Bounds.from_point_and_radius(home,5)
stores=Store.includes([:reviews,:cities]).in_bounds(bounds)
stores.sort_by{|s| s.distance_to(home)}
You can also specify a model as mappable "through" another associated model. In other words, that associated model is the actual mappable model with "lat" and "lng" attributes, but this "through" model can still utilize all of the above find methods to search for records.
class Location < ActiveRecord::Base
belongs_to :locatable, :polymorphic => true
acts_as_mappable
end
class Company < ActiveRecord::Base
has_one :location, :as => :locatable # also works for belongs_to associations
acts_as_mappable :through => :location
end
Then you can still call:
Company.within(distance, :origin => @somewhere)
You can also give :through a hash if your location is nested deep. For example, given:
class House
acts_as_mappable
end
class Family
belongs_to :house
end
class Person
belongs_to :family
acts_as_mappable :through => { :family => :house }
end
Remember that the notes above about USING INCLUDES apply to the results from this find, since an include is automatically used.
You can obtain the location for an IP at any time using the geocoder as in the following example:
location = IpGeocoder.geocode('12.215.42.19')
where Location is a GeoLoc instance containing the latitude, longitude, city, state, and country code. Also, the success value is true.
If the IP cannot be geocoded, a GeoLoc instance is returned with a success value of false.
It should be noted that the IP address needs to be visible to the Rails application. In other words, you need to ensure that the requesting IP address is forwarded by any front-end servers that are out in front of the Rails app. Otherwise, the IP will always be that of the front-end server.
The Multi-Geocoder will also geocode IP addresses and provide failover among multiple IP geocoders. Just pass in an IP address for the parameter instead of a street address. Eg:
location = Geocoders::MultiGeocoder.geocode('12.215.42.19')
The MultiGeocoder class requires 2 configuration setting for the provider order.
Ordering is done through Geokit::Geocoders::provider_order
and
Geokit::Geocoders::ip_provider_order
, found in
config/initializers/geokit_config.rb
. If you don't already have a
geokit_config.rb
file, the plugin creates one when it is first installed.
A class method called geocode_ip_address has been mixed into the ActionController::Base. This enables before_action style lookup of the IP address. Since it is a filter, it can accept any of the available filter options.
Usage is as below:
class LocationAwareController < ActionController::Base
geocode_ip_address
end
A first-time lookup will result in the GeoLoc class being stored
in the session as :geo_location
as well as in a cookie called
:geo_session
. Subsequent lookups will use the session value if it
exists or the cookie value if it doesn't exist. The last resort is
to make a call to the web service. Clients are free to manage the
cookie as they wish.
The intent of this feature is to be able to provide a good guess as to a new visitor's location.
Geocoding has been integrated with the finders enabling you to pass a physical address or an IP address. This would look the following:
Location.farthest(:origin => '217.15.10.9')
Location.farthest(:origin => 'Irving, TX')
where the IP or physical address would be geocoded to a location and then the resulting latitude and longitude coordinates would be used in the find. This is not expected to be common usage, but it can be done nevertheless.
Geocoding is provided by the Geokit gem, which is required for this plugin. See the top of this file for instructions on installing the Geokit gem.
Geokit can geocode addresses using multiple geocodeing web services. Geokit supports services like Google, Yahoo, and Geocoder.us, and more -- see the Geokit gem API for a complete list.
These geocoder services are made available through the following classes: GoogleGeocoder, YahooGeocoder, UsGeocoder, CaGeocoder, and GeonamesGeocoder. Further, an additional geocoder class called MultiGeocoder incorporates an ordered failover sequence to increase the probability of successful geocoding.
All classes are called using the following signature:
include Geokit::Geocoders
location = XxxGeocoder.geocode(address)
where you replace Xxx Geocoder with the appropriate class. A GeoLoc instance is the result of the call. This class has a "success" attribute which will be true if a successful geocoding occurred. If successful, the lat and lng properties will be populated.
Geocoders are named with the convention NameGeocoder. This
naming convention enables Geocoder to auto-detect its sub-classes
in order to create methods called name_geocoder(address)
so that
all geocoders can be called through the base class. This is done
purely for convenience; the individual geocoder classes are expected
to be used independently.
The MultiGeocoder class requires the configuration of a provider
order which dictates what order to use the various geocoders. Ordering
is done through Geokit::Geocoders::provider_order
, found in
config/initializers/geokit_config.rb
.
If you don't already have a geokit_config.rb
file, the plugin creates one
when it is first installed.
Make sure your failover configuration matches the usage characteristics of your application -- for example, if you routinely get bogus input to geocode, your code will be much slower if you have to failover among multiple geocoders before determining that the input was in fact bogus.
The Geocoder.geocode method returns a GeoLoc object. Basic usage:
loc=Geocoder.geocode('100 Spear St, San Francisco, CA')
if loc.success
puts loc.lat
puts loc.lng
puts loc.full_address
end
Currently, only the Google Geocoder supports reverse geocoding. Pass the lat/lng as a string, array or LatLng instance:
res=Geokit::Geocoders::GoogleGeocoder.reverse_geocode "37.791821,-122.394679"
# => #<Geokit::GeoLoc:0x558ed0 ...
res.full_address
# => "101-115 Main St, San Francisco, CA 94105, USA"
The address will usually appear as a range, as it does in the above example.
Just has you can pass an IP address directly into an ActiveRecord finder as the origin, you can also pass a physical address as the origin:
Location.closest(:origin => '100 Spear st, San Francisco, CA')
where the physical address would be geocoded to a location and then the resulting latitude and longitude coordinates would be used in the find.
Note that if the address fails to geocode, the find method will raise an ActiveRecord::GeocodeError you must be prepared to catch. Alternatively, You can geocoder the address beforehand, and pass the resulting lat/lng into the finder if successful.
If your geocoding needs are simple, you can tell your model to automatically geocode itself on create:
class Store < ActiveRecord::Base
acts_as_mappable :auto_geocode=>true
end
It takes two optional params:
class Store < ActiveRecord::Base
acts_as_mappable :auto_geocode=>{:field=>:address, :error_message=>'Could not geocode address'}
end
. . . which is equivalent to:
class Store << ActiveRecord::Base
acts_as_mappable
before_validation :geocode_address, :on => :create
private
def geocode_address
geo=Geokit::Geocoders::MultiGeocoder.geocode (address)
errors.add(:address, "Could not Geocode address") if !geo.success
self.lat, self.lng = geo.lat,geo.lng if geo.success
end
end
If you need any more complicated geocoding behavior for your model, you should roll your own
before_validate
callback.
distance = home.distance_from(work, :units=>:miles)
heading = home.heading_to(work) # result is in degrees, 0 is north
endpoint = home.endpoint(90,2) # two miles due east
midpoint = home.midpoint_to(work)
bounds = Bounds.new(sw_point,ne_point)
bounds.contains?(home)
puts bounds.center
A few quick examples to get you started ....
(See the very top of this file)
ensure your stores table has lat and lng columns with numeric or float datatypes to store your latitude/longitude
use acts_as_mappable
on your store model:
class Store < ActiveRecord::Base
acts_as_mappable
...
end
finders now have extra capabilities:
Store.find(:all, :origin =>[32.951613,-96.958444], :within=>10)
configure your geocoder key(s) in config/initializers/geokit_config.rb
also in geokit_config.rb
, make sure that Geokit::Geocoders::provider_order
reflects the
geocoder(s). If you only want to use one geocoder, there should
be only one symbol in the array. For example:
Geokit::Geocoders::provider_order=[:google]
Test it out in script/console
include Geokit::Geocoders
res = MultiGeocoder.geocode('100 Spear St, San Francisco, CA')
puts res.lat
puts res.lng
puts res.full_address
... etc. The return type is GeoLoc, see the API for all the methods you can call on it.
as above, ensure your table has the lat/lng columns, and you've
applied acts_as_mappable
to the Store model.
configure and test out your geocoder, as above
pass the address in under the :origin key
Store.find(:all, :origin=>'100 Spear st, San Francisco, CA', :within=>10)
you can also use a zipcode, or anything else that's geocodable:
Store.find(:all, :origin=>'94117', :conditions=>'distance<10')
You now have access to a 'distance' column, and you can use it as you would any other column. For example:
Store.find(:all, :origin=>'94117', :order=>'distance')
Usually, you can do your sorting in the database as part of your find call. If you need to sort things post-query, you can do so:
stores = Store.all
stores.sort_by{|s| s.distance_to(home)}
Obviously, each of the items in the array must have a latitude/longitude so they can be sorted by distance.
MySQL can't create indexes on a calculated field such as those Geokit uses to calculate distance based on latitude/longitude values for a record. However, indexing the lat and lng columns does improve Geokit distance calculation performance since the lat and lng columns are used in a straight comparison for distance calculation. Assuming a Page model that is incorporating the Geokit plugin the migration would be as follows.
class AddIndexToPageLatAndLng < ActiveRecord::Migration
def self.up
add_index :pages, [:lat, :lng]
end
def self.down
remove_index :pages, [:lat, :lng]
end
end
acts_as_mappable.rb
, as you'd expect, contains the ActsAsMappable
module which gets mixed into your models to provide the
location-based finder goodness.
ip_geocode_lookup.rb
contains the before_action helper method which
enables auto lookup of the requesting IP address.
The Mappable module, which provides basic distance calculation methods, i.e., calculating the distance between two points.
The LatLng class is a simple container for latitude and longitude, but
it's made more powerful by mixing in the above-mentioned Mappable
module -- therefore, you can calculate easily the distance between two
LatLng objects with distance = first.distance_to(other)
GeoLoc represents an address or location which has been geocoded. You can get the city, zipcode, street address, etc. from a GeoLoc object. GeoLoc extends LatLng, so you also get lat/lng AND the Mappable module goodness for free.