def create(self, request):
"""Add a new device location."""
attrs = self.flatten_dict(request.POST)
try:
device = Device.objects.get(user=request.user,
name=attrs['device_name'],
mobile_id=attrs['device_id'])
except Device.DoesNotExist:
return rc.NOT_FOUND
gmaps = GoogleMaps()
try:
address = gmaps.latlng_to_address(float(attrs['lat']),
float(attrs['lon']))
except GoogleMapsError:
address = None
device_location = DeviceLocation(device=device,
address=address,
lat=float(attrs['lat']),
lon=float(attrs['lon']),
created=datetime.datetime.now())
device_location.save()
return rc.CREATED
def lookup(request):
what = (request.POST['what']).lower()
where = (request.POST['where']).lower()
api = twython.setup('Basic', username='******', password='')
gmaps = GoogleMaps()
mentions = api.getUserMentions(since_id=4698625520)
a = []
lat1, lng1 = gmaps.address_to_latlng(where)
#if is not (api):
# render_to_response('need/enter.html')
for stat in mentions:
text = (stat["text"]).lower()
ele = text.split(':')
lat2 = float(ele[2])
lng2 = float(ele[3])
if (text.find(what) != -1) and (in_vic(lat1, lng1, lat2, lng2) == 1):
actual = gmaps.latlng_to_address(lat2, lng2)
tweet = ele[1] + " " + actual
a.append(tweet)
t = loader.get_template("need/results.html")
c = Context({'stat': a},)
return HttpResponse(t.render(c))
def index(request):
"""
Main Page
"""
if request.method == "POST":
form = LocationForm(request.POST)
if form.is_valid():
gmaps = GoogleMaps(GOOGLE_MAPS_API_KEY)
destination = gmaps.latlng_to_address(form.cleaned_data.get('latitude'), form.cleaned_data.get('longitude'))
print destination
destination=parse(destination)
print destination
y=yql.Public()
query='select * from google.news where q="'+destination+'"'
print query
res=y.execute(query,env='store://datatables.org/alltableswithkeys')
rows = res.rows
else:
form = LocationForm()
rows = {}
template = "map/index.html"
data = { 'GOOGLE_MAPS_API_KEY': GOOGLE_MAPS_API_KEY,
'form': form, 'res':rows }
return render_to_response(template, data, context_instance=RequestContext(request))
def FindPizza():
print "Enter in an address to find Pizza places near it"
address = raw_input()
gmaps = GoogleMaps("AIzaSyA5R4PnzAcoe2vpVRKyWWby-d6RrMmIwtQ")
lat, lng = gmaps.address_to_latlng(address)
destination = gmaps.latlng_to_address(lat, lng)
Pizza = gmaps.local_search('pizza near ' + destination)
directions = gmaps.directions(address, destination)
print "The nearest Pizza place is " + Pizza['responseData']['results'][0]['titleNoFormatting']
for step in directions['Directions']['Routes'][0]['Steps']:
print step['descriptionHtml']
def time_from_coords(src_coords, dst_coords):
gmaps = GoogleMaps()
src_addr = gmaps.latlng_to_address(*src_coords).encode('utf-8')
dst_addr = gmaps.latlng_to_address(*dst_coords).encode('utf-8')
dirs = gmaps.directions(src_addr,dst_addr)
#returns - distance km, time min
dist = dirs.get('Directions',{}).get('Distance',{}).get('html','')
duration = dirs.get('Directions',{}).get('Duration',{}).get('html','')
return (dist,duration)
def layer_flag(layer):
if layer:
center = get_layer_center(layer)
gmaps = GoogleMaps(settings.GOOGLE_API_KEY)
lat = center.get('lat',None)
lng = center.get('lng', None)
if lat and lng:
addr = gmaps.latlng_to_address(lat, lng)
pieces = addr.split(",")
country = pieces[-1].strip()
flag_location = country_flag(country)
return "<img src='%s'/>" % flag_location
return ""
def test_reverse_geocode(self):
"""Test googlemaps reverse_geocode() and latlng_to_address()"""
lat, lng = 40.714224, -73.961452
gmaps = GoogleMaps(GMAPS_API_KEY)
result = gmaps.reverse_geocode(lat, lng)
self.assertEqual(result['Status']['code'], 200)
result = result['Placemark'][0]
self.assertEqual(searchkey(result, 'CountryName'), 'USA')
self.assertEqual(searchkey(result, 'PostalCodeNumber'), '11211')
self.assertEqual(searchkey(result, 'ThoroughfareName'), '277 Bedford Ave')
self.assertEqual(searchkey(result, 'LocalityName'), 'Brooklyn')
self.assertEqual(searchkey(result, 'AdministrativeAreaName'), 'NY')
self.assertEqual(searchkey(result, 'CountryNameCode'), 'US')
addr = searchkey(result, 'address')
self.assertEqual(addr, '277 Bedford Ave, Brooklyn, NY 11211, USA')
lat2, lng2 = searchkey(result, 'coordinates')[1::-1]
self.assertAlmostEquals(lat, lat2, 3)
self.assertAlmostEquals(lng, lng2, 3)
addr2 = gmaps.latlng_to_address(lat, lng)
self.assertEqual(addr, addr2)
def test_reverse_geocode(self):
"""Test googlemaps reverse_geocode() and latlng_to_address()"""
lat, lng = 40.714224, -73.961452
gmaps = GoogleMaps(GMAPS_API_KEY)
result = gmaps.reverse_geocode(lat, lng)
self.assertEqual(result['status'], 'OK')
result = result['results'][0]
# self.assertEqual(searchkey(result, 'CountryName'), 'USA')
# self.assertEqual(searchkey(result, 'PostalCodeNumber'), '11211')
# self.assertEqual(searchkey(result, 'ThoroughfareName'), '277 Bedford Ave')
# self.assertEqual(searchkey(result, 'LocalityName'), 'Brooklyn')
# self.assertEqual(searchkey(result, 'AdministrativeAreaName'), 'NY')
# self.assertEqual(searchkey(result, 'CountryNameCode'), 'US')
addr = searchkey(result, 'formatted_address')
self.assertEqual(addr, '285 Bedford Avenue, Brooklyn, NY 11211, USA')
loc = searchkey(result, 'location')
lat2, lng2 = loc['lat'], loc['lng']
self.assertAlmostEquals(lat, lat2, 3)
self.assertAlmostEquals(lng, lng2, 3)
addr2 = gmaps.latlng_to_address(lat, lng)
self.assertEqual(addr, addr2)
def create(self, request):
"""Add a new device location."""
attrs = self.flatten_dict(request.POST)
try:
device = Device.objects.get(user=request.user, name=attrs['device_name'], mobile_id=attrs['device_id'])
except Device.DoesNotExist:
return rc.NOT_FOUND
gmaps = GoogleMaps()
try:
address = gmaps.latlng_to_address(float(attrs['lat']), float(attrs['lon']))
except GoogleMapsError:
address = None
device_location = DeviceLocation(device=device,
address=address,
lat=float(attrs['lat']),
lon=float(attrs['lon']),
created=datetime.datetime.now())
device_location.save()
return rc.CREATED
def test_reverse_geocode(self):
"""Test googlemaps reverse_geocode() and latlng_to_address()"""
lat, lng = 40.714224, -73.961452
gmaps = GoogleMaps(GMAPS_API_KEY)
result = gmaps.reverse_geocode(lat, lng)
self.assertEqual(result['Status']['code'], 200)
result = result['Placemark'][0]
self.assertEqual(searchkey(result, 'CountryName'), 'USA')
self.assertEqual(searchkey(result, 'PostalCodeNumber'), '11211')
self.assertEqual(searchkey(result, 'ThoroughfareName'),
'277 Bedford Ave')
self.assertEqual(searchkey(result, 'LocalityName'), 'Brooklyn')
self.assertEqual(searchkey(result, 'AdministrativeAreaName'), 'NY')
self.assertEqual(searchkey(result, 'CountryNameCode'), 'US')
addr = searchkey(result, 'address')
self.assertEqual(addr, '277 Bedford Ave, Brooklyn, NY 11211, USA')
lat2, lng2 = searchkey(result, 'coordinates')[1::-1]
self.assertAlmostEquals(lat, lat2, 3)
self.assertAlmostEquals(lng, lng2, 3)
addr2 = gmaps.latlng_to_address(lat, lng)
self.assertEqual(addr, addr2)
# pip install googlemaps
from googlemaps import GoogleMaps
api_key = 'AIzaSyA5nMPOn0fpv824YiL2sab5-NZejD9lXvA'
gmaps = GoogleMaps(api_key)
whitehouse = '1600 Pennsylvania Avenue, Washington, DC'
lat, lng = gmaps.address_to_latlng(whitehouse)
print lat, lng
destination = gmaps.latlng_to_address(38.897096, -77.036545)
print destination
dlat, dlng = gmaps.address_to_latlng('326 Perkins Library, Durham, NC 27708')
print dlat, dlng
duke = gmaps.latlng_to_address(dlat, dlng)
print duke
local = gmaps.local_search('restaurant near ' + duke)
print local['responseData']['results'][0]['titleNoFormatting']
directions = gmaps.directions(duke, whitehouse)
print directions['Directions']['Distance']['meters']
for step in directions['Directions']['Routes'][0]['Steps']:
print step['descriptionHtml']
embassies = [[38.917228,-77.0522365],
[38.9076502, -77.0370427],
[38.916944, -77.048739] ]
# TODO: write code to answer the following questions:
# which embassy is closest to the White House in meters? how far?
def computeTripLegsEmissions(request):
startTime = datetime.datetime.now()
post = request.POST
transportMeanType = post['transportMeanType']
gmaps = GoogleMaps(GOOGLE_MAPS_API_KEY)
startLatLong = simplejson.loads(post['startLatLong'])
endLatLong = simplejson.loads(post['endLatLong'])
directions = gmaps.directions(gmaps.latlng_to_address(startLatLong[0], startLatLong[1]), \
gmaps.latlng_to_address(endLatLong[0], endLatLong[1]) )
drivingDistance = Decimal(directions['Directions']['Distance']['meters']) / 1000
tripLeg= models.TripLeg.objects.get(id=post['tripLegId'])
#get the transport mean used during this trip leg
transportMean = tripLeg.transportMean
if post['calculationMethod'] == 'tier1':
#get tier1 calculation method id
calculationMethod = models.C02CalculationMethod.objects.get(tier='1')
if transportMeanType == 'generalCar':
#get emission factor corresponding to this general car
emissionFactor = models.TransportMeanEmissionFactor.objects.get(transportMean_content_type=ContentType.objects.get_for_model(models.GeneralCar),\
transportMean_id=transportMean.id).emissionFactor
elif transportMeanType == 'bus':
emissionFactor = models.TransportMeanEmissionFactor.objects.get(transportMean_content_type=ContentType.objects.get_for_model(models.Bus),\
transportMean_id=transportMean.id).emissionFactor
elif transportMeanType == 'taxi':
emissionFactor = models.TransportMeanEmissionFactor.objects.get(transportMean_content_type=ContentType.objects.get_for_model(models.Taxi),\
transportMean_id=transportMean.id).emissionFactor
elif transportMeanType == 'motorcycle':
emissionFactor = models.TransportMeanEmissionFactor.objects.get(transportMean_content_type=ContentType.objects.get_for_model(models.Motorcycle),\
transportMean_id=transportMean.id).emissionFactor
elif transportMeanType == 'ferry':
emissionFactor = models.TransportMeanEmissionFactor.objects.get(transportMean_content_type=ContentType.objects.get_for_model(models.Ferry),\
transportMean_id=transportMean.id).emissionFactor
elif transportMeanType == 'rail':
emissionFactor = models.TransportMeanEmissionFactor.objects.get(transportMean_content_type=ContentType.objects.get_for_model(models.Rail),\
transportMean_id=transportMean.id).emissionFactor
elif transportMeanType == 'airplane':
emissionFactor = models.TransportMeanEmissionFactor.objects.get(transportMean_content_type=ContentType.objects.get_for_model(models.Airplane),\
transportMean_id=transportMean.id).emissionFactor
ghgEmissions = drivingDistance * emissionFactor.directGHGEmissions
#save the computed value
tripLegEmission = models.TripLegCarbonEmission.objects.create(tripLeg=tripLeg, method=calculationMethod,\
emissionFactor=emissionFactor, emissions=ghgEmissions)
elif post['calculationMethod'] == 'tier2':
#get tier2 calculation method id
calculationMethod = models.C02CalculationMethod.objects.get(tier='2')
#get emission factor corresponding to the specific car model
emissionFactor = models.TransportMeanEmissionFactor.objects.get(transportMean_content_type=ContentType.objects.get_for_model(models.Car),\
transportMean_id=transportMean.id).emissionFactor
ghgEmissions = drivingDistance * emissionFactor.directGHGEmissions
#save the computed value
tripLegEmission = models.TripLegCarbonEmission.objects.create(tripLeg=tripLeg, method=calculationMethod,\
emissionFactor=emissionFactor, emissions=ghgEmissions)
endTime = datetime.datetime.now()
#createProvenanceGraph
provManager = ProvManager()
bundle = provManager.createTripLegEmissionGraph(tripLegEmission.id, calculationMethod.id, transportMean.id, transportMeanType,\
emissionFactor.id, emissionFactor.source.id, drivingDistance, tripLeg.id, tripLeg.startAddress.id,\
tripLeg.endAddress.id, startTime, endTime)
tripLegEmission.provBundle = bundle
tripLegEmission.save()
json = simplejson.dumps( {'status': 'OK'} )
return HttpResponse(json, mimetype='application/json')
def test_latlng_to_address(self):
gmaps = GoogleMaps(GMAPS_API_KEY)
lat, lng = 40.714224, -73.961452
address = '285 Bedford Ave, Brooklyn, NY 11211, USA'
self.assertEqual(gmaps.latlng_to_address(lat, lng), address)
print 'google jkeuy' , ' ', gkey
gmap = GoogleMaps(gkey)
saxparser.parse('/usa/arao/trec/contexttrec12/contexts.txt',chandler)
for context in contextlist:
js = json.load( open('/usa/arao/trec/contexttrec12/yelpplaces/'+context.attribute['number']))
businesslist = list()
print 'num business in this contect' , ' ', len(js['businesses'])
for business in js['businesses']:
if business.get('gmaptime') is not None:
businesslist.append(business)
continue
destlat = float(str(business['location']['coordinate']['latitude']))
destlong = float(str(business['location']['coordinate']['longitude']))
dest = gmap.latlng_to_address(destlat, destlong)
originlat = float(context.attribute['lat'])
originlong = float(context.attribute['long'])
orig = gmap.latlng_to_address(originlat, originlong)
directions = None
try:
directions = gmap.directions(orig, dest)
except:
print 'problem with ', ' ', orig, ' ', dest
continue
if directions is None:
continue
meters = directions['Directions']['Distance']['meters']
timesec = directions['Directions']['Duration']['seconds']
business['gmapdistance'] = meters
business['gmaptime'] = timesec
elif keyword == "REV":
c.execute("SELECT * FROM Users WHERE number = '%s'" %texter)
response = c.fetchone()
print response
if response != None:
print texter+" is registered"
try:
lat = float(text.split()[1])
lng = float(text.split()[2])
print lat, lng
destination = gmaps.latlng_to_address(lat,lng)
print destination
SEND(destination, texter)
except:
SEND("Invalid latitude or longitude", texter)
else:
print texter+" is NOT registered"
SEND("You are not registered",texter)
else:
if text == "INFO":
SEND("GET INFO", texter)
elif text == "REG":
c.execute("INSERT INTO Users VALUES ("+texter+")")
check = steps['descriptionHtml']
check = remove_html_tags(check)
print check
except:
print "Wystapil nieznany blad! Przepraszamy."
elif wybor == 2:
try:
cel1 = raw_input('Czego poszukujesz?: ')
address3 = raw_input('W jakiej okolicy?: ')
if address3 == "" or cel1 == "":
print ""
print "Prosze podac poprawne nazwy miejscowosci i punkty docelowe."
else:
lat3, lng3 = gmaps.address_to_latlng(cel1 + ' ' + address3)
lat6, lng6 = gmaps.address_to_latlng(address3)
miejsce = gmaps.latlng_to_address(lat6, lng6)
destination3 = gmaps.latlng_to_address(lat3, lng3)
local = gmaps.local_search(cel1 + ' ' + address3)
print local['responseData']['results'][0]['titleNoFormatting']
if miejsce != destination3:
print destination3
else:
pass
except:
print "Wystapil nieznany blad! Przepraszamy."
elif wybor == 3:
try:
address4 = raw_input('Podaj nazwe miejscowosci startowej: ')
cel2 = raw_input('Czego poszukujesz?: ')
address5 = raw_input('Podaj miejscowosc, w ktorej szukac: ')
if address4 == "" or address5 == "" or cel2 == "":
import googlemaps
from googlemaps import GoogleMaps
gmaps = GoogleMaps('ABQIAAAAU6aB_SumFVXY8JuehQcWXRRPdrwtlRIZKQUOo_MxBO_KFxU4HhRWfVQKeLerXiLRHZpWt_AaKWWZIg') #calls google maps with the API Key required
x=gmaps.address_to_latlng('dsa new delhi')
y=gmaps.latlng_to_address(x[0],x[1])
print x
print y
lat = buf1[4]
lng = buf1[5]
u = buf1[3]
splitsender = u.split(",")
sender = splitsender[1]
print "Latitude = " + lat
print "Longitude = " + lng
print "Sender = " + sender
LAT = float(lat)
LNG = float(lng)
SerialPort.write("AT+CMGD=0\r\n")
print "Loading address from Google Maps \n Please wait..."
destination = gmaps.latlng_to_address(LAT, LNG)
print "Ikaw ay papunta sa\n" + destination
SerialPort.write("AT+CMGS=" + sender + "\r\n")
time.sleep(1)
print SerialPort.read(SerialPort.inWaiting())
time.sleep(1)
SerialPort.write(destination + "\x1A")
print SerialPort.read(SerialPort.inWaiting())
time.sleep(1)
print "Confirmation Message Sent"
print "Loading google earth....."
import win32com.client
saxparser.parse('/usa/arao/trec/contexttrec12/contexts.txt', chandler)
for context in contextlist:
js = json.load(
open('/usa/arao/trec/contexttrec12/yelpplaces/' +
context.attribute['number']))
businesslist = list()
print 'num business in this contect', ' ', len(js['businesses'])
for business in js['businesses']:
if business.get('gmaptime') is not None:
businesslist.append(business)
continue
destlat = float(str(business['location']['coordinate']['latitude']))
destlong = float(str(business['location']['coordinate']['longitude']))
dest = gmap.latlng_to_address(destlat, destlong)
originlat = float(context.attribute['lat'])
originlong = float(context.attribute['long'])
orig = gmap.latlng_to_address(originlat, originlong)
directions = None
try:
directions = gmap.directions(orig, dest)
except:
print 'problem with ', ' ', orig, ' ', dest
continue
if directions is None:
continue
meters = directions['Directions']['Distance']['meters']
timesec = directions['Directions']['Duration']['seconds']
business['gmapdistance'] = meters
business['gmaptime'] = timesec
route_list=[] # Holds the fetched data about the route
list_values=[] #holds the values to be input in sequence from number , source , destination
lat_a=0.0#lat of address
lat_d=0.0#lat of destination
lng_a=0.0
lng_d=0.0
lat_a,lng_a,lat_d,lng_d = checker()
#variable definition ends
list_values = read_file()
address = list_values[1]
destination = list_values[2]
#lat_a,lng_a = gmaps.address_to_latlng(address)
#print lat_a,lng_a
address = gmaps.latlng_to_address(lat_a,lng_a)
print address
#destination = destination + ',New Delhi ,India'
#lat_d,lng_d = gmaps.address_to_latlng(destination)
#print lat_d,lng_d
destination = gmaps.latlng_to_address(lat_d,lng_d)
print destination
directions = gmaps.directions(address, destination)
print directions
for step in directions['Directions']['Routes'][0]['Steps']:
a=step['descriptionHtml']
route_list.append(a)
#for i in listtemp:
# print i
print '\n\n****Route Calculated****\n\n'
