Geolocation-python

Geolocation is a simple and clever application which uses google maps api. This application allows you to easily and quickly get information about given location Application returns such information as: country, city, route/street, street number, lat and lng, travel distance and time for a matrix of origins and destinations.

View the Project on GitHub slawek87/geolocation-python

What is Geolocation 0.2.2?

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Geolocation is a simple and clever application which uses google maps api.

  1. Geocode Module allows you to easily and quickly get information about given location.

Geocode Module returns such information as:

  1. Distance Module allows you to get information about travel distance and time for a matrix of origins and destinations.

Distance Module returns such information as:

Python2 or Python3?

Both!. Currently it supports python 2.7, 3.3 and 3.4.

What do You need?

To use this application you need to have Google API key. Google Maps Documentation -- Geocoding

  1. Open APIs console.

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  2. Turn On Geocode API.

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  3. Turn On Distance Matrix API.

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  4. Get your API Key.

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How to install it?

pip install geolocation-python

How to use Geocode Module?

# -*- coding: utf-8 -*-

from geolocation.main import GoogleMaps

address = "New York City Wall Street 12"

google_maps = GoogleMaps(api_key='your_google_maps_key') 

location = google_maps.search(location=address) # sends search to Google Maps.

print(location.all()) # returns all locations.

my_location = location.first() # returns only first location.

print(my_location.city)
print(my_location.route)
print(my_location.street_number)
print(my_location.postal_code)

for administrative_area in my_location.administrative_area:
    print("{}: {} ({})".format(administrative_area.area_type, 
                               administrative_area.name, 
                               administrative_area.short_name))

print(my_location.country)
print(my_location.country_shortcut)

print(my_location.formatted_address)

print(my_location.lat)
print(my_location.lng)

# reverse geocode

lat = 40.7060008
lng = -74.0088189

my_location = google_maps.search(lat=lat, lng=lng).first()

How to use Distance Module?

Mode parameter — specifies the mode of transport to use when calculating directions.

Valid values are:

Avoid parameter - Directions may be calculated that adhere to certain restrictions. Restrictions are indicated by use of the avoid parameter, and an argument to that parameter indicating the restriction to avoid.

The following restrictions are supported:

# -*- coding: utf-8 -*-

from geolocation.main import GoogleMaps
from geolocation.distance_matrix.client import DistanceMatrixApiClient

origins = ['rybnik', 'oslo']
destinations = ['zagrzeb']

google_maps = GoogleMaps(api_key='your_google_maps_key')

items = google_maps.distance(origins, destinations).all()  # default mode parameter is DistanceMatrixApiClient.MODE_DRIVING.

for item in items:
    print('origin: %s' % item.origin)
    print('destination: %s' % item.destination)
    print('km: %s' % item.distance.kilometers)
    print('m: %s' % item.distance.meters)
    print('miles: %s' % item.distance.miles)
    print('duration: %s' % item.duration)  # returns string.
    print('duration datetime: %s' % item.duration.datetime)  # returns datetime.

    # you can also get items from duration, returns int() values.
    print('duration days: %s' % item.duration.days)
    print('duration hours: %s' % item.duration.hours)
    print('duration minutes: %s' % item.duration.minutes)
    print('duration seconds: %s' % item.duration.seconds)

Mode Bicycling:

items = google_maps.distance(origins, destinations, DistanceMatrixApiClient.MODE_BICYCLING).all()

for item in items:
    print('origin: %s' % item.origin)
    print('destination: %s' % item.destination)
    print('km: %s' % item.distance.kilometers)
    print('m: %s' % item.distance.meters)
    print('miles: %s' % item.distance.miles)
    print('duration: %s' % item.duration)

Mode Walking:

items = google_maps.distance(origins, destinations, DistanceMatrixApiClient.MODE_WALKING).all()

for item in items:
    print('origin: %s' % item.origin)
    print('destination: %s' % item.destination)
    print('km: %s' % item.distance.kilometers)
    print('m: %s' % item.distance.meters)
    print('miles: %s' % item.distance.miles)
    print('duration: %s' % item.duration)

Mode Transit:

items = google_maps.distance(origins, destinations, DistanceMatrixApiClient.MODE_TRANSIT).all()

for item in items:
    print('origin: %s' % item.origin)
    print('destination: %s' % item.destination)
    print('km: %s' % item.distance.kilometers)
    print('m: %s' % item.distance.meters)
    print('miles: %s' % item.distance.miles)
    print('duration: %s' % item.duration)

Mode Highway:

items = google_maps.distance(origins, destinations, avoid=DistanceMatrixApiClient.AVOID_HIGHWAYS).all()

for item in items:
    print('origin: %s' % item.origin)
    print('destination: %s' % item.destination)
    print('km: %s' % item.distance.kilometers)
    print('m: %s' % item.distance.meters)
    print('miles: %s' % item.distance.miles)
    print('duration: %s' % item.duration)

Avoid Ferries:

items = google_maps.distance(origins, destinations, avoid=DistanceMatrixApiClient.AVOID_FERRIES).all()

for item in items:
    print('origin: %s' % item.origin)
    print('destination: %s' % item.destination)
    print('km: %s' % item.distance.kilometers)
    print('m: %s' % item.distance.meters)
    print('miles: %s' % item.distance.miles)
    print('duration: %s' % item.duration)

Avoid Tolls:

items = google_maps.distance(origins, destinations, avoid=DistanceMatrixApiClient.AVOID_TOLLS).all()

for item in items:
    print('origin: %s' % item.origin)
    print('destination: %s' % item.destination)
    print('km: %s' % item.distance.kilometers)
    print('m: %s' % item.distance.meters)
    print('miles: %s' % item.distance.miles)
    print('duration: %s' % item.duration)

More examples you should find here.