I'm trying to handle proximity search for a basic store locater in Django. Rather than haul PostGIS around with my app just so I can use GeoDjango's distance filter, I'd like to use the Spherical Law of Cosines distance formula in a model query. I'd like all of the calculations to be done in the database in one query, for efficiency.
An example MySQL query from The Internet implementing the Spherical Law of Cosines like this:
SELECT id, (
3959 * acos( cos( radians(37) ) * cos( radians( lat ) ) *
cos( radians( lng ) - radians(-122) ) + sin( radians(37) ) *
sin( radians( lat ) ) )
)
AS distance FROM stores HAVING distance < 25 ORDER BY distance LIMIT 0 , 20;
The query needs to reference the Zipcode ForeignKey for each store's lat/lng values. How can I make all of this work in a Django model query?
It's possible the execute raw SQL queries in Django.
My suggestion is, write the query to pull a list of IDs (which it looks like you're doing now), then use the IDs to pull the associated models (in a regular, non-raw-SQL Django query). Try to keep your SQL as dialect-independent as possible, so that you won't have to worry about one more thing if you ever have to switch databases.
To clarify, here's an example of how to do it:
def get_models_within_25 (self):
from django.db import connection, transaction
cursor = connection.cursor()
cursor.execute("""SELECT id, (
3959 * acos( cos( radians(37) ) * cos( radians( lat ) ) *
cos( radians( lng ) - radians(-122) ) + sin( radians(37) ) *
sin( radians( lat ) ) ) )
AS distance FROM stores HAVING distance < 25
ORDER BY distance LIMIT 0 , 20;""")
ids = [row[0] for row in cursor.fetchall()]
return MyModel.filter(id__in=ids)
As a disclaimer, I can't vouch for this code, as it's been a few months since I've written any Django, but it should be along the right lines.
To follow up on Tom's answer, it won't work in SQLite by default because of SQLite's lack of math functions by default. No problem, it's pretty simple to add:
class LocationManager(models.Manager):
def nearby_locations(self, latitude, longitude, radius, max_results=100, use_miles=True):
if use_miles:
distance_unit = 3959
else:
distance_unit = 6371
from django.db import connection, transaction
from mysite import settings
cursor = connection.cursor()
if settings.DATABASE_ENGINE == 'sqlite3':
connection.connection.create_function('acos', 1, math.acos)
connection.connection.create_function('cos', 1, math.cos)
connection.connection.create_function('radians', 1, math.radians)
connection.connection.create_function('sin', 1, math.sin)
sql = """SELECT id, (%f * acos( cos( radians(%f) ) * cos( radians( latitude ) ) *
cos( radians( longitude ) - radians(%f) ) + sin( radians(%f) ) * sin( radians( latitude ) ) ) )
AS distance FROM location_location WHERE distance < %d
ORDER BY distance LIMIT 0 , %d;""" % (distance_unit, latitude, longitude, latitude, int(radius), max_results)
cursor.execute(sql)
ids = [row[0] for row in cursor.fetchall()]
return self.filter(id__in=ids)
To follow up on Tom, if you want to have a query that also works in postgresql, you can not use AS because you will get an error saying 'distance' does not exist.
You should put the whole spherical law expresion in the WHERE clause, like this (It also works in mysql):
import math
from django.db import connection, transaction
from django.conf import settings
from django .db import models
class LocationManager(models.Manager):
def nearby_locations(self, latitude, longitude, radius, use_miles=False):
if use_miles:
distance_unit = 3959
else:
distance_unit = 6371
cursor = connection.cursor()
sql = """SELECT id, latitude, longitude FROM locations_location WHERE (%f * acos( cos( radians(%f) ) * cos( radians( latitude ) ) *
cos( radians( longitude ) - radians(%f) ) + sin( radians(%f) ) * sin( radians( latitude ) ) ) ) < %d
""" % (distance_unit, latitude, longitude, latitude, int(radius))
cursor.execute(sql)
ids = [row[0] for row in cursor.fetchall()]
return self.filter(id__in=ids)
Please note that you have to select the latitude and longitude, otherwise you can not use it in the WHERE clause.
Just to follow up on jboxer's answer, here's the whole thing as part of a custom manager with some of the hard-coded stuff turned into variables:
class LocationManager(models.Manager):
def nearby_locations(self, latitude, longitude, radius, max_results=100, use_miles=True):
if use_miles:
distance_unit = 3959
else:
distance_unit = 6371
from django.db import connection, transaction
cursor = connection.cursor()
sql = """SELECT id, (%f * acos( cos( radians(%f) ) * cos( radians( latitude ) ) *
cos( radians( longitude ) - radians(%f) ) + sin( radians(%f) ) * sin( radians( latitude ) ) ) )
AS distance FROM locations_location HAVING distance < %d
ORDER BY distance LIMIT 0 , %d;""" % (distance_unit, latitude, longitude, latitude, int(radius), max_results)
cursor.execute(sql)
ids = [row[0] for row in cursor.fetchall()]
return self.filter(id__in=ids)
Following jboxer's response
def find_cars_within_miles_from_postcode(request, miles, postcode=0):
# create cursor for RAW query
cursor = connection.cursor()
# Get lat and lon from google
lat, lon = getLonLatFromPostcode(postcode)
# Gen query
query = "SELECT id, ((ACOS(SIN("+lat+" * PI() / 180) * SIN(lat * PI() / 180) + COS("+lat+" * PI() / 180) * COS(lat * PI() / 180) * COS(("+lon+" - lon) * PI() / 180)) * 180 / PI()) * 60 * 1.1515) AS distance FROM app_car HAVING distance<='"+miles+"' ORDER BY distance ASC"
# execute the query
cursor.execute(query)
# grab all the IDS form the sql result
ids = [row[0] for row in cursor.fetchall()]
# find cars from ids
cars = Car.objects.filter(id__in=ids)
# return the Cars with these IDS
return HttpResponse( cars )
This returns my cars from x amount of miles, this works well. However the raw query returned how far they were from a certain location, i think the fieldname was 'distance'.
How can i return this field 'distance' with my car objects?
Using some of the proposed answers above, I was getting incosistent results so I decided to check the equation again
using [this link]http://www.movable-type.co.uk/scripts/latlong.html as a reference, the equation is
d = acos(sin(lat1)*sin(lat2) + cos(lat1)*cos(lat2)*cos(lon2-lon1) ) * 6371
where d
is the distance to be calculated,
lat1,lon1
is the coordinate of the base point and lat2,lon2
is the coordinate of the other points which in our case are points in the database.
From the above answers, the LocationManager
class looks like this
class LocationManager(models.Manager):
def nearby_locations(self, latitude, longitude, radius, max_results=100, use_miles=True):
if use_miles:
distance_unit = 3959
else:
distance_unit = 6371
from django.db import connection, transaction
from mysite import settings
cursor = connection.cursor()
if settings.DATABASE_ENGINE == 'sqlite3':
connection.connection.create_function('acos', 1, math.acos)
connection.connection.create_function('cos', 1, math.cos)
connection.connection.create_function('radians', 1, math.radians)
connection.connection.create_function('sin', 1, math.sin)
sql = """SELECT id, (acos(sin(radians(%f)) * sin(radians(latitude)) + cos(radians(%f))
* cos(radians(latitude)) * cos(radians(%f-longitude))) * %d)
AS distance FROM skills_coveragearea WHERE distance < %f
ORDER BY distance LIMIT 0 , %d;""" % (latitude, latitude, longitude,distance_unit, radius, max_results)
cursor.execute(sql)
ids = [row[0] for row in cursor.fetchall()]
return self.filter(id__in=ids)
Using the site [link]http://www.movable-type.co.uk/scripts/latlong.html as check, my results where consistent.
来源:https://stackoverflow.com/questions/1916953/filter-zipcodes-by-proximity-in-django-with-the-spherical-law-of-cosines