Important: You are browsing the documentation of Geocoder 4.x (not released yet).
Documentation for version 3.x is available here: Geocoder 3.x documentation.
Documentation for version 2.x is available here: Geocoder 2.x documentation.
Geocoder is a PHP library which helps you build geo-aware applications by providing a powerful abstraction layer for geocoding manipulations.
- Installation
- Usage
- Extending Things
- Versioning
- Cookbook
The recommended way to install Geocoder is through Composer:
$ composer require willdurand/geocoder
Geocoder and its companion Geocoder Extra provides a lot of providers.
Choose the one that fits your need first. Let's say the GoogleMaps
one is what
you were looking for, so let's see how to use it. In the code snippet below,
curl
has been chosen as HTTP layer but it is up to you
since each HTTP-based provider implements
PSR-7.
$adapter = new \Http\Adapter\Guzzle6\Client();
$provider = new \Geocoder\Provider\GoogleMaps($adapter);
$geocoder = new \Geocoder\StatefulGeocoder($provider, 'en');
$geocoder->geocode(...);
$geocoder->reverse(...);
The Provider
interface has three methods:
geocodeQuery(GeocodeQuery $query):AddressCollection
reverseQuery(ReverseQuery $query):AddressCollection
getName():string
The Geocoder
interface extends the Provider
interface and exposes two additional methods. They will
make migration from 3.x smoother.
geocode($streetOrIpAddress)
reverse($latitude, $longitude)
Both geocode()
and reverse()
methods return a collection of Address
objects (AddressCollection
), each providing the following API:
getCoordinates()
will return aCoordinates
object (withlatitude
andlongitude
properties);getLatitude()
will return thelatitude
value;getLongitude()
will return thelongitude
value;getBounds()
will return anBounds
object (withsouth
,west
,north
andeast
properties);getStreetNumber()
will return thestreet number/house number
value;getStreetName()
will return thestreet name
value;getLocality()
will return thelocality
orcity
;getPostalCode()
will return thepostalCode
orzipcode
;getSubLocality()
will return thecity district
, orsublocality
;getAdminLevels()
will return an ordered collection (AdminLevelCollection
) ofAdminLevel
object (withlevel
,name
andcode
properties);getCountry()
will return aCountry
object (withname
andcode
properties);getCountryCode()
will return the ISOcountry
code;getTimezone()
will return thetimezone
.
The AddressCollection
exposes the following methods:
count()
(this class implementsCountable
);first()
retrieves the firstAddress
;slice($offset, $length = null)
returnsAddress
objects between$offset
andlength
;get($index)
fetches anAddress
using its$index
;all()
returns allAddress
objects;getIterator()
(this class implementsIteratorAggregate
).
The ProviderAggregator
is used to register several providers so that you can
decide which provider to use later on.
<?php
$geocoder = new \Geocoder\ProviderAggregator();
$geocoder->registerProviders([
new \Geocoder\Provider\GoogleMaps(
$adapter, $locale, $region, $useSsl
),
new \Geocoder\Provider\GoogleMapsBusiness(
$adapter, '<CLIENT_ID>', '<PRIVATE_KEY>', $locale, $region, $useSsl
),
new \Geocoder\Provider\Yandex(
$adapter, $locale, $toponym
),
new \Geocoder\Provider\MaxMind(
$adapter, '<MAXMIND_API_KEY>', $service, $useSsl
),
new \Geocoder\Provider\ArcGISOnline(
$adapter, $sourceCountry, $useSsl
),
]);
$geocoder->registerProvider(
new \Geocoder\Provider\Nominatim(
$adapter, 'http://your.nominatim.server', $locale
)
);
$geocoder
->using('google_maps')
->geocode('...');
$geocoder
->limit(10)
->reverse($lat, $lng);
The ProviderAggregator
's API is fluent, meaning you can write:
<?php
$addresses = $geocoder
->registerProvider(new \My\Provider\Custom($adapter))
->using('custom')
->limit(10)
->geocode('68.145.37.34')
;
The using()
method allows you to choose the provider
to use by its name.
When you deal with multiple providers, you may want to choose one of them. The
default behavior is to use the first one but it can be annoying.
The limit()
method allows you to configure the maximum number of results being
returned. Depending on the provider you may not get as many results as expected,
it is a maximum limit, not the expected number of results.
The TimedGeocoder
class profiles each geocode
and reverse
call. So you can
easily figure out how many time/memory was spent for each geocoder/reverse call.
// configure you geocoder object
$stopwatch = new \Symfony\Component\Stopwatch\Stopwatch();
$geocoder = new \Geocoder\TimedGeocoder($geocoder, $stopwatch);
$geocoder->geocode('Paris, France');
// Now you can debug your application
We use the symfony/stopwatch component under the hood. Which means, if you use the Symfony framework the geocoder calls will appear in your timeline section in the Web Profiler.
In order to talk to geocoding APIs, you need HTTP adapters. While it was part of the library in Geocoder 1.x and 2.x, Geocoder 3.x and upper now relies on the PSR-7 Standard which defines how HTTP message should be implemented. You can use any library to send HTTP messages that implements php-http/client-implementation.
To use Guzzle 6 you should run the following command:
$ composer require php-http/guzzle6-adapter php-http/message
Providers perform the geocoding black magic for you (talking to the APIs, fetching results, dealing with errors, etc.) and are highly configurable.
Provider | Name | Reverse? | SSL? | Coverage | Multiple? | Terms |
---|---|---|---|---|---|---|
ArcGIS Online | arcgis_online |
yes | supported | worldwide | yes | requires API key. 1250 requests free |
Bing Maps | bing_maps |
yes | no | worldwide | yes | requires API key. Limit 10,000 requests per month |
Chain | chain |
meta provider which iterates over a list of providers | ||||
Geonames | geonames |
yes | no | worldwide | yes | requires registration, no free tier |
Google Maps | google_maps |
yes | supported | worldwide | yes | requires API key. Limit 2500 requests per day |
Google Maps for Business | google_maps_business |
yes | supported | worldwide | yes | requires API key. Limit 100,000 requests per day |
MapQuest | map_quest |
yes | no | worldwide | yes | both open and commercial service requires API key |
Mapzen | mapzen |
yes | supported | worldwide | yes | requires API key; limited to 6 request/sec, 30,000 request/day |
Nominatim | nominatim |
yes | supported | worldwide | yes | requires a domain name (e.g. local installation) |
OpenCage | opencage |
yes | supported | worldwide | yes | requires API key. 2500 requests/day free |
OpenStreetMap | openstreetmap |
yes | no | worldwide | yes | heavy users (>1q/s) get banned |
TomTom | tomtom |
yes | required | worldwide | yes | requires API key. First 2500 requests or 30 days free |
Yandex | yandex |
yes | no | worldwide | yes |
Below, you will find more information for these providers.
It is possible to specify a sourceCountry
to restrict result to this specific
country thus reducing request time (note that this doesn't work on reverse
geocoding).
It requires either the database
file, or the
webservice - represented by
the GeoIP2 , which is injected to the GeoIP2Adapter
. The
geoip2/geoip2 package must be
installed.
This provider will only work with the corresponding GeoIP2Adapter
:
<?php
// Maxmind GeoIP2 Provider: e.g. the database reader
$reader = new \GeoIp2\Database\Reader('/path/to/database');
$adapter = new \Geocoder\Adapter\GeoIP2Adapter($reader);
$geocoder = new \Geocoder\Provider\GeoIP2($adapter);
$address = $geocoder->geocode('74.200.247.59')->first();
Locale and/or region can be specified:
$geocoder = new \Geocoder\Provider\GoogleMaps(
$httpAdapter,
$locale,
$region,
$useSsl, // true|false
$apiKey
);
A valid Client ID
is required. The private key is optional. This provider also
supports SSL, and extends the GoogleMaps
provider.
A valid API key
is required. This provider also supports SSL.
This provider requires a data file, and the geoip/geoip package must be installed.
It is worth mentioning that this provider has serious performance issues, and should not be used in production. For more information, please read issue #301.
Access to a Nominatim server is required. See the Nominatim Wiki Page for more information.
The default language-locale is en
, you can choose between de
, es
, fr
,
it
, nl
, pl
, pt
and sv
.
The default language-locale is ru-RU
, you can choose between uk-UA
, be-BY
,
en-US
, en-BR
and tr-TR
. This provider can also reverse information based
on coordinates (latitude, longitude). It's possible to precise the toponym to
get more accurate result for reverse geocoding: house
, street
, metro
,
district
and locality
.
Provider | Name | IPv4? | IPv6? | Multiple? | Terms | Notes |
---|---|---|---|---|---|---|
FreeGeoIp | free_geo_ip |
yes | yes | no | ||
GeoIPs | geo_ips |
yes | no | no | requires API key | |
GeoIP2 (Maxmind) | maxmind_geoip2 |
yes | yes | no | ||
GeoPlugin | geo_plugin |
yes | yes | no | ||
HostIp | host_ip |
yes | no | no | ||
IpInfoDB | ip_info_db |
yes | no | no | requires API key | city precision |
Geoip | geoip |
yes | no | no | wrapper around the PHP extension which must be installed | |
MaxMind web service | maxmind |
yes | yes | no | requires Omni API key | City/ISP/Org and Omni services, IPv6 on country level |
MaxMind Binary file | maxmind_binary |
yes | no | no | needs locally installed database files |
Important: the Geocoder Extra library contains even more official providers!
Providers that are locale aware expose the following methods:
$geocoder->setLocale('xyz');
$locale = $geocoder->getLocale();
The Chain
provider is a special provider that takes a list of providers and
iterates over this list to get information. Note that it stops its iteration
when a provider returns a result. The result is returned by GoogleMaps
because
FreeGeoIp
and HostIp
cannot geocode street addresses. BingMaps
is ignored.
$geocoder = new \Geocoder\ProviderAggregator();
$adapter = new \Http\Adapter\Guzzle6\Client();
$chain = new \Geocoder\Provider\Chain([
new \Geocoder\Provider\FreeGeoIp($adapter),
new \Geocoder\Provider\HostIp($adapter),
new \Geocoder\Provider\GoogleMaps($adapter, 'fr_FR', 'France', true),
new \Geocoder\Provider\BingMaps($adapter, '<API_KEY>'),
// ...
]);
$geocoder->registerProvider($chain);
try {
$geocode = $geocoder->geocode('10 rue Gambetta, Paris, France');
var_export($geocode);
} catch (Exception $e) {
echo $e->getMessage();
}
Everything is ok, enjoy!
Geocoder provides dumpers that aim to transform an Address
object in
standard formats.
The GPS eXchange format is designed to share geolocated data like point of
interests, tracks, ways, but also coordinates. Geocoder provides a dumper to
convert an Address
object in an GPX compliant format.
Assuming we got a $address
object as seen previously:
<?php
$dumper = new \Geocoder\Dumper\Gpx();
$strGpx = $dumper->dump($address);
echo $strGpx;
It will display:
<gpx
version="1.0"
creator="Geocoder" version="1.0.1-dev"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns="http://www.topografix.com/GPX/1/0"
xsi:schemaLocation="http://www.topografix.com/GPX/1/0 http://www.topografix.com/GPX/1/0/gpx.xsd">
<bounds minlat="2.388911" minlon="48.863151" maxlat="2.388911" maxlon="48.863151"/>
<wpt lat="48.8631507" lon="2.3889114">
<name><![CDATA[Paris]]></name>
<type><![CDATA[Address]]></type>
</wpt>
</gpx>
GeoJSON is a format for encoding a variety of geographic data structures.
Simple PHP array format for using with your own encoders.
Keyhole Markup Language is an XML notation for expressing geographic annotation and visualization within Internet-based, two-dimensional maps and three-dimensional Earth browsers.
The Well-Known Binary (WKB) representation for geometric values is defined by the OpenGIS specification.
Well-known text (WKT) is a text markup language for representing vector geometry objects on a map, spatial reference systems of spatial objects and transformations between spatial reference systems.
A common use case is to print geocoded data. Thanks to the StringFormatter
class, it's simple to format an Address
object as a string:
<?php
// $address is an instance of Address
$formatter = new \Geocoder\Formatter\StringFormatter();
$formatter->format($address, '%S %n, %z %L');
// 'Badenerstrasse 120, 8001 Zuerich'
$formatter->format($address, '<p>%S %n, %z %L</p>');
// '<p>Badenerstrasse 120, 8001 Zuerich</p>'
Here is the mapping:
-
Street Number:
%n
-
Street Name:
%S
-
City:
%L
-
City District:
%D
-
Zipcode:
%z
-
Admin Level Name:
%A1
,%A2
,%A3
,%A4
,%A5
-
Admin Level Code:
%a1
,%a2
,%a3
,%a4
,%a5
-
Country:
%C
-
Country Code:
%c
-
Timezone:
%T
You can write your own provider
by implementing the Provider
interface.
You can provide your own dumper
by implementing the Dumper
interface.
Geocoder follows Semantic Versioning.
As of December 2014, branch 1.7
is not officially supported anymore, meaning
major version 1
reached end of life. Last version is:
1.7.1.
As of December 2014, version 2.x is in a feature frozen state. All new features should be contributed to version 3.0 and upper. Last version is: 2.8.1.
Major version 2
will reach end of life on December 2015.
Version 3.x
is the current major stable version of Geocoder.
We have a small cookbook where you can find examples on common use cases:
See
CONTRIBUTING
file.
In order to run the test suite, install the development dependencies:
$ composer install --dev
Then, run the following command:
$ composer test
You'll obtain some skipped unit tests due to the need of API keys.
Rename the phpunit.xml.dist
file to phpunit.xml
, then uncomment the
following lines and add your own API keys:
<php>
<!-- <server name="IPINFODB_API_KEY" value="YOUR_API_KEY" /> -->
<!-- <server name="BINGMAPS_API_KEY" value="YOUR_API_KEY" /> -->
<!-- <server name="GEOIPS_API_KEY" value="YOUR_API_KEY" /> -->
<!-- <server name="MAXMIND_API_KEY" value="YOUR_API_KEY" /> -->
<!-- <server name="GEONAMES_USERNAME" value="YOUR_USERNAME" /> -->
<!-- <server name="TOMTOM_MAP_KEY" value="YOUR_MAP_KEY" /> -->
<!-- <server name="GOOGLE_GEOCODING_KEY" value="YOUR_GEOCODING_KEY" /> -->
<!-- <server name="OPENCAGE_API_KEY" value="YOUR_API_KEY" /> -->
</php>
You're done.
- William Durand william.durand1@gmail.com
- All contributors
As contributors and maintainers of this project, we pledge to respect all people who contribute through reporting issues, posting feature requests, updating documentation, submitting pull requests or patches, and other activities.
We are committed to making participation in this project a harassment-free experience for everyone, regardless of level of experience, gender, gender identity and expression, sexual orientation, disability, personal appearance, body size, race, age, or religion.
Examples of unacceptable behavior by participants include the use of sexual language or imagery, derogatory comments or personal attacks, trolling, public or private harassment, insults, or other unprofessional conduct.
Project maintainers have the right and responsibility to remove, edit, or reject comments, commits, code, wiki edits, issues, and other contributions that are not aligned to this Code of Conduct. Project maintainers who do not follow the Code of Conduct may be removed from the project team.
Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by opening an issue or contacting one or more of the project maintainers.
This Code of Conduct is adapted from the Contributor Covenant, version 1.0.0, available at http://contributor-covenant.org/version/1/0/0/
Geocoder is released under the MIT License. See the bundled LICENSE file for details.