def testTotalCarbonFootprint(self): totalModeDistance = carbon.getModeCarbonFootprint(None, carbon.carbonFootprintForMode, self.weekago, self.now) self.assertEqual(totalModeDistance['walking'], 0) self.assertEqual(totalModeDistance['cycling'], 0) # We divide by 1000 to make it comprehensible in getModeCarbonFootprint self.assertEqual(totalModeDistance['bus_short'], (self.busCarbon * len(self.testUsers) * self.busExpect)/1000) self.assertEqual(totalModeDistance['air_short'], (self.airCarbon * len(self.testUsers) * self.busExpect)/1000) self.assertEqual(totalModeDistance['train_short'], 0)
def testMyCarbonFootprint(self):
myModeDistance = carbon.getModeCarbonFootprint('*****@*****.**', carbon.carbonFootprintForMode, self.weekago, self.now)
self.assertEqual(myModeDistance['walking'], 0)
self.assertEqual(myModeDistance['cycling'], 0)
self.assertEqual(myModeDistance['bus_short'], (self.busCarbon * self.busExpect/1000))
self.assertEqual(myModeDistance['train_short'], 0)
# We duplicate the bus trips to get air trips, so the distance should be the same
self.assertEqual(myModeDistance['air_short'], (self.airCarbon * self.busExpect/1000))
def testMyCarbonFootprint(self):
myModeDistance = carbon.getModeCarbonFootprint(
'*****@*****.**', carbon.carbonFootprintForMode, self.weekago,
self.now)
self.assertEqual(myModeDistance['walking'], 0)
self.assertEqual(myModeDistance['cycling'], 0)
self.assertEqual(myModeDistance['bus_short'],
(self.busCarbon * self.busExpect / 1000))
self.assertEqual(myModeDistance['train_short'], 0)
# We duplicate the bus trips to get air trips, so the distance should be the same
self.assertEqual(myModeDistance['air_short'],
(self.airCarbon * self.busExpect / 1000))
def testTotalCarbonFootprint(self):
totalModeDistance = carbon.getModeCarbonFootprint(
None, carbon.carbonFootprintForMode, self.weekago, self.now)
self.assertEqual(totalModeDistance['walking'], 0)
self.assertEqual(totalModeDistance['cycling'], 0)
# We divide by 1000 to make it comprehensible in getModeCarbonFootprint
self.assertEqual(
totalModeDistance['bus_short'],
(self.busCarbon * len(self.testUsers) * self.busExpect) / 1000)
self.assertEqual(
totalModeDistance['air_short'],
(self.airCarbon * len(self.testUsers) * self.busExpect) / 1000)
self.assertEqual(totalModeDistance['train_short'], 0)
def carbon_by_zip(start,end):
Profiles=get_profile_db()
carbon_list=[]
for zip in Profiles.distinct('zip'):
# print(zip)
if zip!='N/A':
tempdict={}
tempdict['weight']=Profiles.find({'zip':zip}).count()
# print(Profiles.find({'zip':zip}).count())
tempdict['carbon']=0
for profile in Profiles.find({'zip':zip}):
tempdict['loc']=profile['zip_centroid']
user=profile['user_id']
user_carbon=getModeCarbonFootprint(user,carbonFootprintForMode,start,end)
tempdict['carbon']+=sum(list(user_carbon.values()))
tempdict['carbon']=tempdict['carbon']/tempdict['weight']
carbon_list.append(tempdict)
return {"weightedLoc": carbon_list}
def carbon_by_zip(start, end):
Profiles = get_profile_db()
carbon_list = []
for zip in Profiles.distinct('zip'):
# print(zip)
if zip != 'N/A':
tempdict = {}
tempdict['weight'] = Profiles.find({'zip': zip}).count()
# print(Profiles.find({'zip':zip}).count())
tempdict['carbon'] = 0
for profile in Profiles.find({'zip': zip}):
tempdict['loc'] = profile['zip_centroid']
user = profile['user_id']
user_carbon = getModeCarbonFootprint(user,
carbonFootprintForMode,
start, end)
tempdict['carbon'] += sum(list(user_carbon.values()))
tempdict['carbon'] = tempdict['carbon'] / tempdict['weight']
carbon_list.append(tempdict)
return {"weightedLoc": carbon_list}
