def update_geodata(point, category, value, url):
lat = point.latitude
lon = point.longitude
area_id = get_area_id(lat, lon)
geocode = Geocode.objects.filter(area_id=area_id)
for g in geocode:
if g.point_inside([lat, lon]):
geodata = Geodata.objects.get(geocode=g.geocode)
geodata.up_var(category.name, value)
geodata.up_url()
geodata.save()
def update_geodata(point, category, value, url):
lat = point.latitude
lon = point.longitude
area_id = get_area_id(lat, lon)
geocode = Geocode.objects.filter(area_id=area_id)
for g in geocode:
if g.point_inside([lat, lon]):
geodata = Geodata.objects.get(geocode=g.geocode)
geodata.up_var(category.name, value)
geodata.up_url()
geodata.save()
def handle(self, *args, **options):
point_id = options['point_id'][0]
point = Point.objects.get(pk=point_id)
area_id = get_area_id(point.latitude, point.longitude)
#print(area_id)
geos = Geocode.objects.filter(area_id=area_id)
for g in geos:
if g.point_inside([point.latitude, point.longitude]):
point.geocode = g.geocode
point.save()
sys.exit()
aux = area_id.split('_')
p = 1.0 / 10**get_precision()
neighbours = []
neighbours.append([point.latitude + p, point.longitude])
neighbours.append([point.latitude + p, point.longitude + p])
neighbours.append([point.latitude, point.longitude + p])
neighbours.append([point.latitude - p, point.longitude + p])
neighbours.append([point.latitude - p, point.longitude])
neighbours.append([point.latitude - p, point.longitude - p])
neighbours.append([point.latitude, point.longitude - p])
neighbours.append([point.latitude + p, point.longitude - p])
neighbours = [get_area_id(n[0], n[1]) for n in neighbours]
for n in neighbours:
geos = Geocode.objects.filter(area_id=n)
for g in geos:
if g.point_inside([point.latitude, point.longitude]):
point.geocode = g.geocode
point.save()
sys.exit()
neighbours = []
neighbours.append([point.latitude + 2 * p, point.longitude])
neighbours.append([point.latitude + 2 * p, point.longitude - 1 * p])
neighbours.append([point.latitude + 2 * p, point.longitude - 2 * p])
neighbours.append([point.latitude + p, point.longitude - 2 * p])
neighbours.append([point.latitude, point.longitude - 2 * p])
neighbours.append([point.latitude - p, point.longitude - 2 * p])
neighbours.append([point.latitude - 2 * p, point.longitude - 2 * p])
neighbours.append([point.latitude - 2 * p, point.longitude - p])
neighbours.append([point.latitude - 2 * p, point.longitude])
neighbours.append([point.latitude - 2 * p, point.longitude + p])
neighbours.append([point.latitude - 2 * p, point.longitude + 2 * p])
neighbours.append([point.latitude - p, point.longitude + 2 * p])
neighbours.append([point.latitude, point.longitude + 2 * p])
neighbours.append([point.latitude + p, point.longitude + 2 * p])
neighbours.append([point.latitude + 2 * p, point.longitude + 2 * p])
neighbours.append([point.latitude + 2 * p, point.longitude + p])
#more neighbours??
neighbours = [get_area_id(n[0], n[1]) for n in neighbours]
for n in neighbours:
geos = Geocode.objects.filter(area_id=n)
for g in geos:
if g.point_inside([point.latitude, point.longitude]):
point.geocode = g.geocode
point.save()
sys.exit()
neighbours = []
neighbours.append([point.latitude - 3 * p, point.longitude + 3 * p])
neighbours.append([point.latitude - 2 * p, point.longitude + 3 * p])
neighbours.append([point.latitude - p, point.longitude + 3 * p])
neighbours.append([point.latitude, point.longitude + 3 * p])
neighbours.append([point.latitude + p, point.longitude + 3 * p])
neighbours.append([point.latitude + 2 * p, point.longitude + 3 * p])
neighbours.append([point.latitude + 3 * p, point.longitude + 3 * p])
neighbours.append([point.latitude + 3 * p, point.longitude + 2 * p])
neighbours.append([point.latitude + 3 * p, point.longitude + p])
neighbours.append([point.latitude + 3 * p, point.longitude])
neighbours.append([point.latitude + 3 * p, point.longitude - p])
neighbours.append([point.latitude + 3 * p, point.longitude - 2 * p])
neighbours.append([point.latitude + 3 * p, point.longitude - 3 * p])
neighbours.append([point.latitude + 2 * p, point.longitude - 3 * p])
neighbours.append([point.latitude + p, point.longitude - 3 * p])
neighbours.append([point.latitude, point.longitude - 3 * p])
neighbours.append([point.latitude - p, point.longitude - 3 * p])
neighbours.append([point.latitude - 2 * p, point.longitude - 3 * p])
neighbours.append([point.latitude - 3 * p, point.longitude - 3 * p])
neighbours.append([point.latitude - 3 * p, point.longitude - 3 * p])
neighbours.append([point.latitude - 3 * p, point.longitude - 2 * p])
neighbours.append([point.latitude - 3 * p, point.longitude - p])
neighbours.append([point.latitude - 3 * p, point.longitude])
neighbours.append([point.latitude - 3 * p, point.longitude + p])
neighbours.append([point.latitude - 3 * p, point.longitude + 2 * p])
#more neighbours??
neighbours = [get_area_id(n[0], n[1]) for n in neighbours]
for n in neighbours:
geos = Geocode.objects.filter(area_id=n)
for g in geos:
if g.point_inside([point.latitude, point.longitude]):
point.geocode = g.geocode
point.save()
sys.exit()
def handle(self, *args, **options):
point_id = options['point_id'][0]
point = Point.objects.get(pk=point_id)
area_id = get_area_id(point.latitude, point.longitude)
#print(area_id)
geos = Geocode.objects.filter(area_id=area_id)
for g in geos:
if g.point_inside([point.latitude, point.longitude]):
point.geocode = g.geocode
point.save()
sys.exit()
aux = area_id.split('_')
p = 1.0/10**get_precision()
neighbours = []
neighbours.append([point.latitude + p, point.longitude ])
neighbours.append([point.latitude + p, point.longitude + p])
neighbours.append([point.latitude , point.longitude + p])
neighbours.append([point.latitude - p, point.longitude + p])
neighbours.append([point.latitude - p, point.longitude ])
neighbours.append([point.latitude - p, point.longitude - p])
neighbours.append([point.latitude , point.longitude - p])
neighbours.append([point.latitude + p, point.longitude - p])
neighbours = [get_area_id(n[0], n[1]) for n in neighbours]
for n in neighbours:
geos = Geocode.objects.filter(area_id=n)
for g in geos:
if g.point_inside([point.latitude, point.longitude]):
point.geocode = g.geocode
point.save()
sys.exit()
neighbours = []
neighbours.append([point.latitude + 2*p, point.longitude ])
neighbours.append([point.latitude + 2*p, point.longitude -1*p])
neighbours.append([point.latitude + 2*p, point.longitude -2*p])
neighbours.append([point.latitude + p, point.longitude -2*p])
neighbours.append([point.latitude , point.longitude -2*p])
neighbours.append([point.latitude - p, point.longitude -2*p])
neighbours.append([point.latitude - 2*p, point.longitude -2*p])
neighbours.append([point.latitude - 2*p, point.longitude - p])
neighbours.append([point.latitude - 2*p, point.longitude ])
neighbours.append([point.latitude - 2*p, point.longitude + p])
neighbours.append([point.latitude - 2*p, point.longitude +2*p])
neighbours.append([point.latitude - p, point.longitude +2*p])
neighbours.append([point.latitude , point.longitude +2*p])
neighbours.append([point.latitude + p, point.longitude +2*p])
neighbours.append([point.latitude + 2*p, point.longitude +2*p])
neighbours.append([point.latitude + 2*p, point.longitude + p])
#more neighbours??
neighbours = [get_area_id(n[0], n[1]) for n in neighbours]
for n in neighbours:
geos = Geocode.objects.filter(area_id=n)
for g in geos:
if g.point_inside([point.latitude, point.longitude]):
point.geocode = g.geocode
point.save()
sys.exit()
neighbours = []
neighbours.append([point.latitude - 3*p, point.longitude + 3*p])
neighbours.append([point.latitude - 2*p, point.longitude + 3*p])
neighbours.append([point.latitude - p, point.longitude + 3*p])
neighbours.append([point.latitude , point.longitude + 3*p])
neighbours.append([point.latitude + p, point.longitude + 3*p])
neighbours.append([point.latitude + 2*p, point.longitude + 3*p])
neighbours.append([point.latitude + 3*p, point.longitude + 3*p])
neighbours.append([point.latitude + 3*p, point.longitude + 2*p])
neighbours.append([point.latitude + 3*p, point.longitude + p])
neighbours.append([point.latitude + 3*p, point.longitude ])
neighbours.append([point.latitude + 3*p, point.longitude - p])
neighbours.append([point.latitude + 3*p, point.longitude - 2*p])
neighbours.append([point.latitude + 3*p, point.longitude - 3*p])
neighbours.append([point.latitude + 2*p, point.longitude - 3*p])
neighbours.append([point.latitude + p, point.longitude - 3*p])
neighbours.append([point.latitude , point.longitude - 3*p])
neighbours.append([point.latitude - p, point.longitude - 3*p])
neighbours.append([point.latitude - 2*p, point.longitude - 3*p])
neighbours.append([point.latitude - 3*p, point.longitude - 3*p])
neighbours.append([point.latitude - 3*p, point.longitude - 3*p])
neighbours.append([point.latitude - 3*p, point.longitude - 2*p])
neighbours.append([point.latitude - 3*p, point.longitude - p])
neighbours.append([point.latitude - 3*p, point.longitude ])
neighbours.append([point.latitude - 3*p, point.longitude + p])
neighbours.append([point.latitude - 3*p, point.longitude + 2*p])
#more neighbours??
neighbours = [get_area_id(n[0], n[1]) for n in neighbours]
for n in neighbours:
geos = Geocode.objects.filter(area_id=n)
for g in geos:
if g.point_inside([point.latitude, point.longitude]):
point.geocode = g.geocode
point.save()
sys.exit()
