def is_a_address(value, key=None, pos=None):
if not is_a_str(value):
return False
value = str(value).strip()
if len(value) > 80:
return False
ap = AddressParser()
address = ap.parse_address(value)
keys = [
'house_number',
'street',
'city',
'zip',
'state'
]
has = [key for key in keys if getattr(address, key, None)]
if len(has) >= 2:
return True
return False
def address_parts_probabilities(values, num_rows=100):
len_values = len(values)
ap = AddressParser()
has = {'city': 0, 'state': 0, 'zip': 0}
probs = {'city': 0, 'state': 0, 'zip': 0}
max_rows = num_rows if num_rows < len_values - 1 else len_values - 1
if not column_probability_for_type(values[:max_rows], 'address') > .5:
return probs
for v in values[:max_rows]:
if ',' not in v:
tokens = v.split(' ')
for i, token in enumerate(tokens):
if len(token) > 1 and is_a_city(token):
tokens[i] = token + ','
break
v = ' '.join(tokens)
addr = ap.parse_address(v)
for k in has.keys():
if getattr(addr, k, None):
has[k] += 1
for k in probs.keys():
probs[k] = float(has[k]) / max_rows
return probs
def address_parts_probabilities(values, num_rows=100):
len_values = len(values)
ap = AddressParser()
has = { 'city': 0, 'state': 0, 'zip': 0 }
probs = { 'city': 0, 'state': 0, 'zip': 0 }
max_rows = num_rows if num_rows < len_values - 1 else len_values - 1
if not column_probability_for_type(values[:max_rows], 'address') > .5:
return probs
for v in values[:max_rows]:
if ',' not in v:
tokens = v.split(' ')
for i,token in enumerate(tokens):
if len(token) > 1 and is_a_city(token):
tokens[i] = token + ','
break
v = ' '.join(tokens)
addr = ap.parse_address(v)
for k in has.keys():
if getattr(addr, k, None):
has[k] += 1
for k in probs.keys():
probs[k] = float(has[k]) / max_rows
return probs
def addressParse(inputAddress): ## Probably better to pass this a list instead of running the library for individual addresses.
####################################################################################
## Parses an input string using the python address parsing library from SwoopSearch.
## https://github.com/SwoopSearch/pyaddress
####################################################################################
ap = AddressParser() ## Initialize the address parser libary.
address = ap.parse_address(inputAddress) ## Pass an address to the address parser library.
## Since each parsed value needs to be modified in the same format, there may be a way to iterate through
## each returned value. However, the below method in comments does not work and will require further research.
##
## parsefieldList = ['house_number','street_prefix','address.street','street_suffix', 'apartment']
##
## for item in parsefieldList:
## strHouseNumber
## currentItem = parsefieldList.index(item)
## currentItem = str(address.currentItem).strip().upper()
## currentItem = re.sub('[^A-Za-z0-9 ]+', '', currentItem)
if address.house_number is not None: ##Check if house_number returns a value.
strHouseNumber = str(address.house_number).strip().upper() ## Strip whitespace and change to uppercase.
strHouseNumber = re.sub('[^A-Za-z0-9 ]+', '', strHouseNumber) ## Remove all special characters.
else: strHouseNumber = "" ## If house_number is None, then change to a blank string.
if address.street_prefix is not None:
strStreetPrefix = str(address.street_prefix).strip().upper()
strStreetPrefix = re.sub('[^A-Za-z0-9 ]+', '', strStreetPrefix)
else :
def format_address(address):
ap = AddressParser()
address = ap.parse_address(address).full_address()
result = ''
for i in address:
if i != '.':
result += i
return result
def format_address(address): ap = AddressParser() address = ap.parse_address(address).full_address() result = '' for i in address: if i != '.': result += i return result
def index():
form = scoutForm()
if form.validate_on_submit():
address_input = form.address.data
ap = AddressParser()
address = ap.parse_address(address_input)
lat, lng = get_latlng(address.full_address())
session['lat'] = lat
session['lng'] = lng
return render_template('index.html', form=form)
def index():
form = scoutForm()
if form.validate_on_submit():
address_input = form.address.data
ap = AddressParser()
address = ap.parse_address(address_input)
lat, lng = get_latlng(address.full_address())
session['lat'] = lat
session['lng'] = lng
return render_template('index.html', form=form)
def get_address():
fix = ''
while fix.lower() != 'yes':
address = input('Enter Address: ')
city = input('Enter City: ')
state = input('Enter State: ')
zip_code = input('Enter Zip Code: ')
ap = AddressParser()
full_address = ap.parse_address('{}, {}, {}, {}'.format(address,city,state,zip_code))
print('\n-------- Verify Address -------\n{}'.format(full_address))
fix = input("Type 'yes' to confirm: ")
return full_address
def get_location_db(location, name):
"""
Search the location in db. If found return. else get its lat and long from google and store in db.
:param location: actual location
:name :name of the location
:return: the geological information of the location
"""
ap = AddressParser()
loc_address = ap.parse_address(location)
street = ""
if loc_address.house_number is not None:
street += loc_address.house_number
if loc_address.street_prefix is not None:
street += loc_address.street_prefix
if loc_address.street is not None:
street += loc_address.street
if loc_address.street_suffix is not None:
street += loc_address.street_suffix
loc_city = ""
if loc_address.city is not None:
loc_city = loc_address.city
loc_state = ""
if loc_address.state is not None:
loc_state = loc_address.state
loc_zip = ""
if loc_address.zip is not None:
loc_zip = loc_address.zip
if LocationDetails.query.filter(LocationDetails.address==street,LocationDetails.city==loc_city,LocationDetails.state==loc_state,LocationDetails.zip==loc_zip).count() > 0:
#print "\n\n\n Address found", location
record = LocationDetails.query.filter(LocationDetails.address==street,LocationDetails.city==loc_city,LocationDetails.state==loc_state,LocationDetails.zip==loc_zip).first_or_404()
return record
#print "\n\n\n Address NOT found", location
# get the geolocation of the address
geo_location = get_lat_lng("http://maps.google.com/maps/api/geocode/json?address="+location+"&sensor=false")
lat = geo_location["lat"]
lng = geo_location["lng"]
createdOn = datetime.now()
updatedOn = datetime.now()
#insert the address details into the database
record = LocationDetails(name,street,loc_city,loc_state,loc_zip,createdOn, updatedOn, lat, lng)
db.session.add(record)
db.session.commit()
record = LocationDetails.query.filter(LocationDetails.address==street,LocationDetails.city==loc_city,LocationDetails.state==loc_state,LocationDetails.zip==loc_zip).first_or_404()
return record
def _geocode_compute_key(address):
"""Generate a key out of <address>."""
if address == '' or re.match('^[0-9]{5}(-[0-9]{4})?$', str(address)):
return address
try:
ap = AddressParser()
addr = ap.parse_address(address)
street = '%s %s %s %s' % (addr.house_number, addr.street_prefix, addr.street, addr.street_suffix)
citystate = '%s,%s' % (addr.city, addr.state)
# address lib doesn't handle xxxxx-xxxx zip codes
search = re.search('([0-9]{5})-[0-9]{4}$', address)
if search:
addr.zip = search.groups()[0]
return '%s|%s|%s' % (street.upper(), citystate.upper(), addr.zip)
except:
return ''
def _geocode_compute_key(address):
"""Generate a key out of <address>."""
if address == '' or re.match('^[0-9]{5}(-[0-9]{4})?$', str(address)):
return address
try:
ap = AddressParser()
addr = ap.parse_address(address)
street = '%s %s %s %s' % (addr.house_number, addr.street_prefix, addr.street, addr.street_suffix)
citystate = '%s,%s' % (addr.city, addr.state)
# address lib doesn't handle xxxxx-xxxx zip codes
search = re.search('([0-9]{5})-[0-9]{4}$', address)
if search:
addr.zip = search.groups()[0]
return '%s|%s|%s' % (street.upper(), citystate.upper(), addr.zip)
except:
return ''
def _parse_address_string(address_str):
"""
Convenience wrapper around AddressParser. Primarily handles lack of 9-digit
zipcode support and standardizes address_1 creation.
"""
ap = AddressParser()
parsed_address = ap.parse_address(sub('-[0-9]{4}$', '', address_str))
found_fields = []
if parsed_address.house_number:
found_fields.append(parsed_address.house_number)
if parsed_address.street_prefix:
found_fields.append(parsed_address.street_prefix)
if parsed_address.street:
found_fields.append(parsed_address.street)
if parsed_address.street_suffix:
found_fields.append(parsed_address.street_suffix)
parsed_address.address_1 = ' '.join(found_fields)
return parsed_address
def _parse_address_string(address_str):
"""
Convenience wrapper around AddressParser. Primarily handles lack of 9-digit
zipcode support and standardizes address_1 creation.
"""
ap = AddressParser()
parsed_address = ap.parse_address(sub('-[0-9]{4}$', '', address_str))
found_fields = []
if parsed_address.house_number:
found_fields.append(parsed_address.house_number)
if parsed_address.street_prefix:
found_fields.append(parsed_address.street_prefix)
if parsed_address.street:
found_fields.append(parsed_address.street)
if parsed_address.street_suffix:
found_fields.append(parsed_address.street_suffix)
parsed_address.address_1 = ' '.join(found_fields)
return parsed_address
def increment_dangerous_streets(self, input_address):
ap = AddressParser()
address = ap.parse_address(input_address)
street = ""
if address.street_prefix is not None:
pre = str(address.street_prefix)
pre = pre[:-1]
street = pre + " "
if address.street is not None:
street = street + str(address.street) + " "
if address.street_suffix is not None:
su = str(address.street_suffix)
su = su[:-1]
street = street + su
#another way to process the input data--> just getting rid of the numbers at the beginning
#street = input_address.lstrip('0123456789.- ')
if street in self.dangerous_streets:
self.dangerous_streets[street] += 1
else:
self.dangerous_streets[street] = 1
def format_address(address_unformatted):
try:
addr_no_period_upper = address_unformatted.replace('.', '').replace(
',', '').upper()
#The parser gets confused if there isn't a city, state, and zip, so append a dummy one if the user doesn't enter it
if 'BOULDER' not in addr_no_period_upper:
addr_no_period_upper = addr_no_period_upper + ', BOULDER, CO 80301'
#It can't seem to parse addresses that have an apartment-like word
addr_no_apt = addr_no_period_upper.replace('APT', '')
addr_no_apt = addr_no_apt.replace('UNIT', '')
addr_no_apt = addr_no_apt.replace('APARTMENT', '')
addr_no_apt = addr_no_apt.replace('SUITE', '')
addr_no_apt = addr_no_apt.replace('STE', '')
addr_no_apt = addr_no_apt.replace('NUMBER', '')
addr_no_apt = addr_no_apt.replace('NUM', '')
ap = AddressParser()
address_parsed = ap.parse_address(addr_no_apt)
if address_parsed.street_prefix == None:
address_parsed.street_prefix = ''
if address_parsed.apartment == None:
address_parsed.apartment = ''
if address_parsed.street_suffix == 'Ave.':
address_parsed.street_suffix = 'AV'
address = address_parsed.house_number + ' ' + address_parsed.street_prefix + ' ' + address_parsed.street + ' ' + address_parsed.street_suffix + ' ' + address_parsed.apartment
address = address.replace('.', '').replace(' ', ' ').upper()
if address[-1] == ' ':
address = address[:-1]
#I just need the key values here
count_dict = get_count_data()
keys = count_dict.keys()
if address not in keys:
return "error"
else:
return address
except:
return "error"
def same_path(similar_1, similar_2, name):
print 'path similarity for ', name
route_a_2_route_b = []
for i, j in map(None, similar_1, similar_2):
a_dict, b_dict = defaultdict(int), defaultdict(int)
ab = []
ap = AddressParser()
if i and j:
if i[0][1] is not None:
for x in i:
if "I 10" in x[1] or "Interstate " in x[1] or "I-" in x[
1] or "US-" in x[1] or "TX-" in x[
1] or "State Highway" in x[
1] or ' ' in x[1] and x[2] > .7:
ad1 = 'I-10'
if ad1 in a_dict:
a_dict[ad1] += x[2]
else:
a_dict[ad1] = x[2]
else:
address = ap.parse_address(x[1])
ad1 = address.street
if ad1 in a_dict:
a_dict[ad1] += x[2]
else:
a_dict[ad1] = x[2]
else:
a_dict['None'] = 0
if j and j[0][1] is not None:
for y in j:
if "I 10" in y[1] or "Interstate " in y[1] or "I-" in y[
1] or "US-" in y[1] or "TX-" in y[
1] or "State Highway" in y[
1] or ' ' in y[1] and y[2] > .7:
ad2 = 'I-10'
if ad2 in b_dict:
b_dict[ad2] += y[2]
else:
b_dict[ad2] = y[2]
else:
address = ap.parse_address(y[1])
ad2 = address.street
if ad2 in b_dict:
b_dict[ad2] += y[2]
else:
b_dict[ad2] = y[2]
else:
b_dict['None'] = 0
route_id = i[0][0]
for key, a_d in a_dict.items():
if key in b_dict:
b_d = b_dict[key]
same = min(a_d, b_d)
else:
same = 0
ab.append(same)
sim = [route_id, round(sum(ab), 2)]
route_a_2_route_b.append(sim)
else:
route_id = int(route_id) + 1
sim = [str(route_id), 'na']
route_a_2_route_b.append(sim)
return route_a_2_route_b
'''
C:\Users\Aman.Sivaprasad\Music>docker run -it --rm -p 8888:8888 -v C:\Users\Aman.Sivaprasad\Music:/home/jovyan/work riordan/docker-jupyter-scipy-notebook-libpostal
from postal.parser import parse_address
parse_address()
#address
#addressnet # austrialia
#usaddress #usa
#pypostal #alll
#postal-address #European
#googleapi #https://github.com/thilohuellmann/address_transformation/blob/master/address_transformation.py
#https://www.kaggle.com/stefanjaro/libpostal-windows-and-jupyter-notebook
from postal.parser import parse_address
parse_address('The Book Club 100-106 Leonard St Shoreditch London EC2A 4RH, United Kingdom')
from address import AddressParser, Address
ap = AddressParser()
address = ap.parse_address(text3)
print(address)
print("Address is: {0} {1} {2} {3}".format(address.house_number, address.street_prefix, address.street, address.street_suffix))
#Address is: 123 W. Mifflin St.
def index(request):
ap = AddressParser()
if request.method == 'POST':
form = rideForm(request.POST)
if form.is_valid():
departDate = request.POST.get('departDate')
departTime = request.POST.get('departTime')
departLocation = request.POST.get('departLocation')
departLocation = ap.parse_address(departLocation)
if not departLocation.zip:
departZip = zcdb.find_zip(city=departLocation.city,
state=departLocation.state)[0].zip
else:
departZip = departLocation.zip
arrivalLocation = request.POST.get('arrivalLocation')
arrivalLocation = ap.parse_address(arrivalLocation)
if not arrivalLocation.zip:
arrivalZip = zcdb.find_zip(city=arrivalLocation.city,
state=arrivalLocation.state)[0].zip
else:
arrivalZip = arrivalLocation.zip
driverEmail = request.user.email
rideLugg = request.POST.get('ridersLugg')
seatCapac = request.POST.get('seatCapacity')
riderPrice = request.POST.get('riderPrice')
if request.POST.get('drisSmokes') == 'on':
driverSmokes = 1
else:
driverSmokes = 0
if request.POST.get('ridersPets') == 'on':
ridePets = 1
else:
ridePets = 0
record = Rides(depDate=departDate,
depTime=departTime,
depZip=departZip,
arrZip=arrivalZip,
driEmail=driverEmail,
seatCapacity=seatCapac,
reserved='Open',
driSmokes=driverSmokes,
riderPets=ridePets,
riderLugg=rideLugg,
riderPrice=riderPrice)
record.save()
messages.success(request,
'The Ride Offer was submitted successfully.')
returnDate = request.POST.get('returnDate')
returnTime = request.POST.get('returnTime')
if returnDate != '':
retRecord = Rides(depDate=returnDate,
depTime=returnTime,
depZip=arrivalZip,
arrZip=departZip,
driEmail=driverEmail,
seatCapacity=seatCapac,
reserved='Open',
driSmokes=driverSmokes,
riderPets=ridePets,
riderLugg=rideLugg,
riderPrice=riderPrice)
retRecord.save()
else:
pass
else:
pass
print(form.errors)
return render(request, 'rideSubmit.html')
def checkcrime(ctx, lat, lon, radius, key):
baseurl = "http://api.spotcrime.com/crimes.jason?"
response = urllib2.urlopen("%slat=%s&lon=%s&radius=%s&key=." %
(baseurl, lat, lon, radius))
jsondata = json.load(response)
#yield response
totalcrimes = 0
crime_type_count = {}
addresslist = []
timelist = []
mostdangerous = []
# get all the components of the dictionary----------------------------
for i in jsondata["crimes"]:
if not i["type"] in crime_type_count:
crime_type_count[str(i["type"])] = 1
else:
crime_type_count[str(i["type"])] += 1
totalcrimes += 1
for i in range(totalcrimes):
newdict = jsondata['crimes'][i]
addressdict = newdict['address']
timedict = newdict['date']
timelist.append(timedict)
addresslist.append(addressdict)
#print addresslist
# split the timelist# ------------------------------------------------------------
timelisttimes = []
timelist2 = [] #it is a list of strings of times
for i in timelist:
x = i.split(" ")
y = x[1] + x[2]
timelist2.append(y)
#print timelist2
#get time in ranges
am12to3 = 0
am3to6 = 0
am6to9 = 0
am9to12 = 0
pm12to3 = 0
pm3to6 = 0
pm6to9 = 0
pm9to12 = 0
for i in timelist2:
date_object = time.strptime(i, '%I:%M%p').tm_hour
date_object2 = time.strptime(i, '%I:%M%p').tm_min
minutes = (date_object * 60) + date_object2
#print minutes
if (minutes >= 1 and minutes <= 180):
am12to3 += 1
elif (minutes >= 181 and minutes <= 360):
am3to6 += 1
elif (minutes >= 361 and minutes <= 540):
am6to9 += 1
elif (minutes >= 541 and minutes <= 720):
am9to12 += 1
elif (minutes >= 721 and minutes <= 900):
pm12to3 += 1
elif (minutes >= 901 and minutes <= 1080):
pm3to6 += 1
elif (minutes >= 1081 and minutes <= 1260):
pm6to9 += 1
elif (minutes >= 1261 and minutes <= 1440 or minutes == 0):
pm9to12 += 1
event_time_count = {
"12:01am-3am": am12to3,
"3:01am-6am": am3to6,
"6:01am-9am": am6to9,
"9:01am-12noon": am9to12,
"12:01pm-3pm": pm12to3,
"3:01pm-6pm": pm3to6,
"6:01pm-9pm": pm6to9,
"9:01pm-12midnight": pm9to12
}
#list [] will save all the intersections oof streets where crime has happened------------------
list = []
for i in addresslist:
intersections = re.findall("[\w.\s]{1,20}&[\w.\s]{1,20}", i)
list.append(intersections)
#print list
#all addresses have alla the addresses in individual--------------------
alladdresses = []
for i in list:
before = re.compile(r"&(.*)")
matches = re.findall(before, ''.join(i))
alladdresses.append(matches)
after = re.compile(r"(.*)&")
matches2 = re.findall(after, ''.join(i))
alladdresses.append(matches2)
list2 = [x for x in alladdresses if x != []] # remove []
#print list2, len(list2)
# list 2 has all the individual addresses so chanage elements into string--------------
list3 = []
for i in list2:
addinstr = ''.join(i)
list3.append(addinstr)
#print list3,len(list3)
#lis 3 has the streets of intersection in string in list---------------
#merge both the lists and
mergelists = list3 + addresslist
#print mergelists,len(mergelists)
for i in mergelists:
if re.findall("[\w.\s*]{1,20}&[\w.\s*]{1,20}", i):
mergelists.remove(i)
for i in mergelists:
if re.findall("[\w.\s*]{1,20}&[\w.\s*]{1,20}", i):
mergelists.remove(i)
#print mergelists,len(mergelists)
# covert address format into street format-------------------------------------------------
allstreets = [] # it will give all addresses in street format streets
ap = AddressParser()
for i in mergelists:
address = ap.parse_address(i)
x = "{} {} {}".format(address.street_prefix, address.street,
address.street_suffix)
allstreets.append(x)
#print x
# convert into dict with corresponding value as total occurence for address-----------------------
countsaddress = dict()
for i in allstreets:
countsaddress[i] = countsaddress.get(i, 0) + 1
#print countsaddress
# convert into dict with corresponding value as total occurence for time-----------------------
countstime = dict()
for i in timelist2:
countstime[i] = countstime.get(i, 0) + 1
#print countstime
#find the most dangrous steeet by sortinng and getting top 3-----------------------------------
top3 = Counter(countsaddress)
top3.most_common()
#print top3.most_common()
#now gwt the top 3------------------------------------------------------------------------------
for key, value in top3.most_common(3):
mostdangerous.append(key)
#finall print=======================================================
final_dict = {
"total_crime": totalcrimes,
"the_most_dangerous_streets": mostdangerous,
"crime_type_count": crime_type_count,
"event_time_count": event_time_count
}
yield final_dict
def checkcrime(lat, lon, radius):
output = {"total_crime": 0,"the_most_dangerous_streets":[],
"crime_type_count": {},
'event_time_count': {
"12:01am-3am": 0, "3:01am-6am": 0, "6:01am-9am": 0, "9:01am-12noon": 0, "12:01pm-3pm": 0,
"3:01pm-6pm": 0,
"6:01pm-9pm": 0, "9:01pm-12midnight": 0}
}
URL = "https://api.spotcrime.com/crimes.json"
data = {'lat': lat, 'lon': lon, 'radius': radius, 'key': '.'}
a = requests.get(URL, params=data)
# yield a.json()
data1 = a.json()
for n in data1["crimes"]:
output["total_crime"]+= 1
#yield output
for n in data1["crimes"]:
if n["type"] in output['crime_type_count']:
output['crime_type_count'][n['type']] += 1
else:
output['crime_type_count'][n['type']] = 1
#yield output
for n in data1["crimes"]:
q1 = n["date"]
p = q1.split(' ')
time1 = p[1]
ampm = p[2]
part = time1.split(':')
hour = part[0]
min = part[1]
# print min
# print hour
# print ampm
if ((hour == "12" and min != "00" and ampm == "AM") or ((hour == "01" or hour == "02") and ampm == "AM") or (
hour == "03" and min == "00" and ampm == "AM")):
output['event_time_count']["12:01am-3am"] += 1
elif ((hour == "03" and min != "00" and ampm == "AM") or ((hour == "04" or hour == "05") and ampm == "AM") or (
hour == "06" and min == "00" and ampm == "AM")):
output['event_time_count']["3:01am-6am"] += 1
elif ((hour == "06" and min != "00" and ampm == "AM") or ((hour == "07" or hour == "08") and ampm == "AM") or (
hour == "09" and min == "00" and ampm == "AM")):
output['event_time_count']["6:01am-9am"] += 1
elif ((hour == "09" and min != "00" and ampm == "AM") or ((hour == "11" or hour == "10") and ampm == "AM") or (
hour == "12" and min == "00" and ampm == "PM")):
output['event_time_count']["9:01am-12noon"] += 1
elif ((hour == "12" and min != "00" and ampm == "PM") or ((hour == "02" or hour == "01") and ampm == "PM") or (
hour == "03" and min == "00" and ampm == "PM")):
output['event_time_count']["12:01pm-3pm"] += 1
elif ((hour == "03" and min != "00" and ampm == "PM") or ((hour == "05" or hour == "04") and ampm == "PM") or (
hour == "06" and min == "00" and ampm == "PM")):
output['event_time_count']["3:01pm-6pm"] += 1
elif ((hour == "06" and min != "00" and ampm == "PM") or ((hour == "07" or hour == "08") and ampm == "PM") or (
hour == "09" and min == "00" and ampm == "PM")):
output['event_time_count']["6:01pm-9pm"] += 1
else:
output['event_time_count']["9:01pm-12midnight"] += 1
#yield output
addresslist = []
for i in range(50):
totaldict = data1["crimes"][i]
addressdict = totaldict['address']
addresslist.append(addressdict)
#print addresslist
# print all addesses
newstreetlist = []
for i in addresslist:
ap = AddressParser()
address = ap.parse_address(i)
a = "{} {}".format(address.street, address.street_suffix)
newstreetlist.append(a)
#print newstreetlist
# find all with & in between
substreet = []
for s in newstreetlist:
joint = re.findall("[\w.\s] {1,20}&[\w.\s] {1,20}", s)
substreet.append(joint)
print substreet
totaladdresslist = []
for i in substreet:
previous = re.compile(r"&(.*)")
matches = re.findall(previous, ''.join(i))
totaladdresslist.append(matches)
later = re.compile(r"(.*)&")
matches2 = re.findall(later, ''.join(i))
totaladdresslist.append(matches2)
#print totaladdresslist
list2 = [x for x in newstreetlist if x != []] # remove []
# list 2 has all the individual addresses so chanage elements into string
list3 = []
for i in list2:
addinstr = ''.join(i)
list3.append(addinstr)
# print list3 #it has the streets of intersection in string in list
mergelists = list3 + newstreetlist
# print mergelists,len(mergelists)
for i in mergelists:
if regex.findall("[\w.\s*]{1,20}&[\w.\s*]{1,20}", i):
mergelists.remove(i)
for i in mergelists:
if regex.findall("[\w.\s*]{1,20}&[\w.\s*]{1,20}", i):
mergelists.remove(i)
print mergelists,len(mergelists)
#convert into dict with corresponding value as total numbers
addresscounter = {}
for n in data1["crimes"]:
if not n["address"] in addresscounter:
addresscounter[str(n["address"])] = 1
else:
addresscounter[str(n["address"])] += 1
#print addresscounter
streetcounter = {}
for o in mergelists:
streetcounter[o] = streetcounter.get(o, 0) + 1
#print streetcounter
cou = dict()
timelist = []
for j in timelist:
cou[j] = cou.get(j,0) + 1
mostthree = []
dangerous = Counter(streetcounter)
dangerous.most_common()
for k, v in dangerous.most_common(3):
output["the_most_dangerous_streets"].append(k)
yield output
if __name__ == '__main__':
# The mini test program takes a list of addresses, creates Address objects, and prints errors for each one
# with unmatched terms. Takes a filename as the first and only argument. The file should be one address per line.
if len(sys.argv) != 2:
print "Usage: test_list.py filename"
sys.exit(1)
if not os.path.exists(sys.argv[1]):
print "File {0} does not exist".format(sys.argv[1])
sys.exit(2)
unmatched_count = 0
line_count = 0
ap = AddressParser()
with open(sys.argv[1]) as input:
for line in input:
addr = ap.parse_address(line.strip(), line_number=line_count)
if addr.unmatched:
print "Unmatched", addr, addr.line_number
print ""
unmatched_count = unmatched_count + 1
# All addresses have a house number and a street.
if addr.house_number is None:
print "House number cannot be None: ", addr, addr.line_number
if addr.street is None:
print "Street cannot be None: ", addr, addr.line_number
line_count = line_count + 1
print addr.full_address()
print addr.original
print ""
if unmatched_count == 0:
from etes import app
from flask import render_template, redirect, url_for, session, request
from user.form import RegisterForm, LoginForm
from event.form import SellForm
from etes import db
from user.models import User
import bcrypt
from address import AddressParser, Address
ap = AddressParser()
address = ap.parse_address('123 West Mifflin Street, Madison, WI, 53703')
print "Address is: {0} {1} {2} {3}".format(address.house_number, address.street_prefix, address.street, address.street_suffix)
"""
For Register: Calling the HTTP Request (POST) to receive the forms submitted by the user and registering them to
the database
For Login: Calling the HTTP Request (GET) to receive the forms submitted by the user and see if they are a registered
regform = RegisterForm()
"""
@app.route('/login', methods=('GET', 'POST'))
def login():
form = LoginForm()
regform = RegisterForm()
error = None
if form.validate_on_submit() or regform.validate_on_submit():
if request.form['btn'] == 'Login':
user = User.query.filter_by(username=form.username.data).first()
if bcrypt.hashpw(form.password.data.encode('utf8'), user.password.encode('utf8')) == user.password.encode('utf8'): #decrypt password
session['username'] = form.username.data
def pars_zip(full_address_string):
from address import AddressParser, Address
ap = AddressParser()
address = ap.parse_address(full_address_string)
return address.zip
if 'salutation' not in row:
row['salutation'] = ''
if 'firstName' not in row:
row['firstName'] = ''
if 'middleName' not in row:
row['middleName'] = ''
if 'lastName' not in row:
row['lastName'] = ''
if 'nameSuffix' not in row:
row['nameSuffix'] = ''
if 'nickName' not in row:
row['nickName'] = ''
#parse the full text name and full text address into their components and add them to the row. For each row, we are checking the destination value to ensure it is empty, as users my import component values instead of full text values.
parsedName = HumanName(row['fullName'])
ap = AddressParser()
parsedAddress = ap.parse_address(row['fullTextAddress'])
if not row['salutation']:
row['salutation'] = parsedName.title
if not row['firstName']:
row['firstName'] = parsedName.first
if not row['middleName']:
row['middleName'] = parsedName.middle
if not row['lastName']:
row['lastName'] = parsedName.last
if not row['nameSuffix']:
row['nameSuffix'] = parsedName.suffix
if not row['nickName']:
row['nickName'] = parsedName.nickname
if not row['streetPrefix']:
row['streetPrefix'] = parsedAddress.street_prefix
if not row['houseNumber']:
import csv, json from address import AddressParser, Address import usaddress string = "361 Farmington Avenue PO Box 17183" contacts = [] ap = AddressParser() parsedAddress = ap.parse_address(string) print parsedAddress print "Street Prefix: ", parsedAddress.street_prefix print "House Number: ", parsedAddress.house_number print "Street: ", parsedAddress.street print "Street Suffix: ", parsedAddress.street_suffix print "Apartment: ", parsedAddress.apartment print "Building: ", parsedAddress.building print "City: ", parsedAddress.city print "State: ", parsedAddress.state print "Zip: ", parsedAddress.zip usa = usaddress.tag(string) print type(usa) print ap print usa
def checkcrime(lat, lon, radius):
payload = {
'lat': '37.334164',
'lon': '-121.884301',
'radius': '0.05',
'key': '.'
}
payload['lat'] = lat
payload['lon'] = lon
payload['radius'] = radius
try:
r = requests.get('https://api.spotcrime.com/crimes.json',
params=payload)
print r.url
responseText = r.text
crimes = re.findall(
r'"cdid":\w*,"\w*":"\w*","\w*":"\d*/\d*/\d* \w*:\w*\s*\w*","\w*":"[\w*\s*]*"',
responseText)
totalCrimes = 0
crimeType = {}
eventTime = {
'12:01am-3am': 0,
'3:01am-6am': 0,
'6:01am-9am': 0,
'9:01am-12noon': 0,
'12:01pm-3pm': 0,
'3:01pm-6pm': 0,
'6:01pm-9pm': 0,
'9:01pm-12midnight': 0
}
tmMidNght = datetime.strptime(' 12:00 AM', ' %I:%M %p')
tm3am = datetime.strptime(' 3:00 AM', ' %I:%M %p')
tm6am = datetime.strptime(' 6:00 AM', ' %I:%M %p')
tm9am = datetime.strptime(' 9:00 AM', ' %I:%M %p')
tm12pm = datetime.strptime(' 12:00 PM', ' %I:%M %p')
tm3pm = datetime.strptime(' 3:00 PM', ' %I:%M %p')
tm6pm = datetime.strptime(' 6:00 PM', ' %I:%M %p')
tm9pm = datetime.strptime(' 9:00 PM', ' %I:%M %p')
tm12pm = datetime.strptime(' 12:00 PM', ' %I:%M %p')
streets = {}
for crime in crimes:
totalCrimes += 1
typeExacct = re.findall(r':"\w*"', crime)
tm = re.findall(r"['\"](.*?)['\"]", typeExacct[0])
if crimeType.has_key(tm[0]):
crimeType[tm[0]] += 1
else:
crimeType[tm[0]] = 1
addr = re.findall(r'"address":"[\s*\w*]*"', crime)
address = re.findall(r':"[\s*\w*]*"', addr[0])
street = re.findall(r"['\"](.*?)['\"]", address[0])
ap = AddressParser()
streetName = ap.parse_address(street[0])
streetKey = ""
if streetName.street_prefix is not None:
streetKey += streetName.street_prefix
if streetName.street is not None:
if streetKey is not None:
streetKey += " "
streetKey += streetName.street
if streetName.street is not None:
if streetKey is not None:
streetKey += " "
streetKey += streetName.street_suffix
if streets.has_key(streetKey):
streets[streetKey] += 1
else:
streets[streetKey] = 1
sorted_streets = sorted(streets.items(),
key=operator.itemgetter(1),
reverse=True)
timeDate = re.findall(r'"date":"\d*/\d*/\d* \w*:\w*\s*\w*"',
crime)
timeExact = re.findall(r'\s\w*', timeDate[0])
time2 = re.findall(r'\s\w*:\w*', timeDate[0])
crmTime = re.findall(r'\s\w*:\w*\s\w*', timeDate[0])
date_object = datetime.strptime(crmTime[0], ' %I:%M %p')
if date_object.time() > tmMidNght.time():
if date_object.time() <= tm3am.time():
eventTime['12:01am-3am'] += 1
elif date_object.time() <= tm6am.time():
eventTime['3:01am-6am'] += 1
elif date_object.time() <= tm9am.time():
eventTime['6:01am-9am'] += 1
elif date_object.time() <= tm12pm.time():
eventTime['9:01am-12noon'] += 1
elif date_object.time() <= tm3pm.time():
eventTime['12:01pm-3pm'] += 1
elif date_object.time() <= tm6pm.time():
eventTime['3:01pm-6pm'] += 1
elif date_object.time() <= tm9pm.time():
eventTime['6:01pm-9pm'] += 1
else:
eventTime['9:01pm-12midnight'] += 1
else:
eventTime['9:01pm-12midnight'] += 1
dangerours_streets = [
sorted_streets[0][0], sorted_streets[1][0],
sorted_streets[2][0]
]
data = {}
data['total_crime'] = totalCrimes
data['the_most_dangerous_streets'] = dangerours_streets
data['crime_type_count'] = crimeType
data['event_time_count'] = eventTime
yield data
except URLError, e:
data = {}
data['status'] = "No data available. Got an error."
data['error code'] = e
yield data
categories = Column(String)
Base.metadata.create_all(engine)
Session = sessionmaker(bind=engine)
session = Session()
json_file = 'business'+'.json'
ap = AddressParser()
not_found = []
with open(json_file) as f:
for line in f:
json_object = json.loads(line)
if not proceed(json_object):
continue
json_object['categories'] = 'food'
try:
address = ap.parse_address(json_object['full_address'].replace('\n',','))
except:
continue
json_object['zipcode'] = address.zip
new_object = Business()
for key in json_object.keys():
skey = key.lower()
if hasattr(new_object, skey):
setattr(new_object, skey, json_object[key])
else:
not_found.append(key)
session.add(new_object)
not_found = set(not_found)
print ', '.join(not_found)
session.commit()
def pars_house_number(full_address_string):
from address import AddressParser, Address
ap = AddressParser()
address = ap.parse_address(full_address_string)
return address.house_number
def post(self, request):
form = self.form_class(request.POST, request.FILES)
if form.is_valid():
file = request.FILES.get('file')
rows = csv.DictReader(file)
for row in rows:
if 'title' not in row:
row['title'] = ''
if 'company' not in row:
row['company'] = ''
if 'streetPrefix' not in row:
row['streetPrefix'] = ''
if 'houseNumber' not in row:
row['houseNumber'] = ''
if 'streetName' not in row:
row['streetName'] = ''
if 'streetSuffix' not in row:
row['streetSuffix'] = ''
if 'apartment' not in row:
row['apartment'] = ''
if 'building' not in row:
row['building'] = ''
if 'city' not in row:
row['city'] = ''
if 'state' not in row:
row['state'] = ''
if 'zip' not in row:
row['zip'] = ''
if 'salutation' not in row:
row['salutation'] = ''
if 'firstName' not in row:
row['firstName'] = ''
if 'middleName' not in row:
row['middleName'] = ''
if 'lastName' not in row:
row['lastName'] = ''
if 'nameSuffix' not in row:
row['nameSuffix'] = ''
if 'nickName' not in row:
row['nickName'] = ''
input_data = ContactData()
parsedName = HumanName(row['fullName'])
ap = AddressParser()
parsedAddress = ap.parse_address(row['fullTextAddress'])
input_data.fullName = row['fullName']
if not row['company']:
input_data.company = row['company']
if not row['title']:
input_data.title = row['title']
if not row['salutation']:
input_data.salutation = parsedName.title
else:
input_data.salutation = row['title']
if not row['firstName']:
input_data.firstName = parsedName.first
else:
input_data.firstName = row['firstName']
if not row['middleName']:
input_data.middleName = parsedName.middle
else:
input_data.middleName = row['middleName']
if not row['lastName']:
input_data.lastName = parsedName.last
else:
input_data.lastName = row['lastName']
if not row['nameSuffix']:
input_data.nameSuffix = parsedName.suffix
else:
input_data.nameSuffix = row['nameSuffix']
if not row['nickName']:
input_data.nickName = parsedName.nickname
else:
input_data.nickName = row['nickName']
input_data.fullTextAddress = row['fullTextAddress']
if not row['streetPrefix']:
input_data.streetPrefix = parsedAddress.street_prefix
else:
input_data.streetPrefix = row['streetPrefix']
if not row['houseNumber']:
input_data.houseNumber = parsedAddress.house_number
else:
input_data.houseNumber = row['houseNumber']
if not row['streetName']:
input_data.streetName = parsedAddress.street
else:
input_data.streetName = row['streetName']
if not row['streetSuffix']:
input_data.streetSuffix = parsedAddress.street_suffix
else:
input_data.streetSuffix = row['streetSuffix']
if not row['apartment']:
input_data.apartment = parsedAddress.apartment
else:
input_data.apartment = row['apartment']
if not row['building']:
input_data.building = parsedAddress.building
else:
input_data.building = row['building']
if not row['city']:
input_data.city = parsedAddress.city
else:
input_data.city = row['city']
if not row['state']:
input_data.state = parsedAddress.state
else:
input_data.state = row['state']
if not row['zip']:
input_data.zip = parsedAddress.zip
else:
input_data.zip = row['zip']
input_data.created_by = self.request.user
input_data.owner = Group.objects.get(
pk=request.POST.get('owner'))
input_data.save()
return HttpResponseRedirect('/people/contacts/')
if __name__ == '__main__':
# The mini test program takes a list of addresses, creates Address objects, and prints errors for each one
# with unmatched terms. Takes a filename as the first and only argument. The file should be one address per line.
if len(sys.argv) != 2:
print("Usage: test_list.py filename")
sys.exit(1)
if not os.path.exists(sys.argv[1]):
print("File {0} does not exist".format(sys.argv[1]))
sys.exit(2)
unmatched_count = 0
line_count = 0
ap = AddressParser()
with open(sys.argv[1]) as input:
for line in input:
addr = ap.parse_address(line.strip(), line_number=line_count)
if addr.unmatched:
print("Unmatched", addr, addr.line_number)
print("")
unmatched_count = unmatched_count + 1
# All addresses have a house number and a street.
if addr.house_number is None:
print("House number cannot be None: ", addr, addr.line_number)
if addr.street is None:
print("Street cannot be None: ", addr, addr.line_number)
line_count = line_count + 1
print(addr.full_address())
print(addr.original)
print("")
if unmatched_count == 0: