def rf(l):
imp_waypts=[]
listimp=[]
a=''
b=[]
i=0
flag=0
route_list=[]
list_values=[]
lat_a=0.0
lat_d=0.0
lng_a=0.0
lng_d=0.0
lat_a,lng_a,lat_d,lng_d = checker(l)
list_values = l
address = gmaps.latlng_to_address(lat_a,lng_a)
print address
destination = gmaps.latlng_to_address(lat_d,lng_d)
print destination
directions = gmaps.directions(address, destination)
for step in directions['Directions']['Routes'][0]['Steps']:
a=step['descriptionHtml']
route_list.append(a)
print '\n\n****Route Calculated****\n\n'
route_distance=0.0
route_distance= (directions['Directions']['Distance']['meters']/1000.0)
print 'Total Distance is :',route_distance,'km'
route_time=0.0
route_time=(directions['Directions']['Duration']['seconds']/60.0)
print 'Total Time is :',route_time,'min'
i=0
for i in route_list:
rightfare_func.keywrd_lift(i)
rightfare_func.keywrd_remove()
imp_waypts=rightfare_func.giv_value()
print '\n\nThe Route to be Followed is \n\n:'
rightfare_func.print_route(route_list)
imp_waypts = rightfare_func.red(imp_waypts)
print '\n\n****Important Waypoints****\n\n'
for i in imp_waypts:
print i
fare=rightfare_func.calc_fare(route_distance)
print "\n\n\n Total fare is: ",fare
rightfare_func.file_avg(list_values[1],list_values[2])
rightfare_func.get_file(fare,'0',list_values[0],list_values[1],list_values[2],route_distance,imp_waypts)
str_waypts=rightfare_func.cnvrt(imp_waypts)
src=list_values[1][:-9]
dst=list_values[2][:-9]
sample1.insertdistance(src,dst,str_waypts,route_distance,'0',fare,0)
def rf(l):
imp_waypts=[] # Will hold the Important waypoints from my Route List
listimp=[]
a=''
b=[]
i=0
flag = 0
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(l)
#variable definition ends
#list_values = read_file()
list_values = l
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'
route_distance=0.0
route_distance= (directions['Directions']['Distance']['meters']/1000.0)
print 'Total Distance is :',route_distance,'km'
route_time=0.0
route_time=(directions['Directions']['Duration']['seconds']/60.0)
print 'Total Time is :',route_time,'min'
i=0
for i in route_list:
rightfare_func.keywrd_lift(i)
rightfare_func.keywrd_remove()
#imp_waypts=rightfare_func.giv_value()
#for i in imp_waypts:
# print i
#rightfare_func.remove_doubling()
imp_waypts=rightfare_func.giv_value()
print '\n\nThe Route to be Followed is \n\n:'
rightfare_func.print_route(route_list)
print '\n\n****Important Waypoints****\n\n'
for i in imp_waypts:
print i
fare=rightfare_func.calc_fare(route_distance)
print "\n\n\n Total fare is: ",fare
rightfare_func.file_avg(list_values[1],list_values[2])
imp_waypts = rightfare_func.red(imp_waypts)
'''n = len(imp_waypts)
for i in range(0,n):
imp_waypts[i]=rightfare_func.rem_vowels1(imp_waypts[i])'''
rightfare_func.get_file(fare,'0',list_values[0],list_values[1],list_values[2],route_distance,imp_waypts)
str_waypts=rightfare_func.cnvrt(imp_waypts)
sample1.insertdistance(list_values[1],list_values[2],str_waypts,route_distance,'0',fare,0)
route_distance= (directions['Directions']['Distance']['meters']/1000.0)
print 'Total Distance is :',route_distance,'km'
route_time=0.0
route_time=(directions['Directions']['Duration']['seconds']/60.0)
print 'Total Time is :',route_time,'min'
i=0
for i in route_list:
rightfare_func.keywrd_lift(i)
rightfare_func.keywrd_remove()
#imp_waypts=rightfare_func.giv_value()
#for i in imp_waypts:
# print i
#rightfare_func.remove_doubling()
imp_waypts=rightfare_func.giv_value()
print '\n\nThe Route to be Followed is \n\n:'
rightfare_func.print_route(route_list)
print '\n\n****Important Waypoints****\n\n'
for i in imp_waypts:
print i
fare=rightfare_func.calc_fare(route_distance)
print "\n\n\n Total fare is: ",fare
rightfare_func.file_avg(list_values[1],list_values[2])
imp_waypts = rightfare_func.red(imp_waypts)
n = len(imp_waypts)
for i in range(0,n):
imp_waypts[i]=rightfare_func.rem_vowels1(imp_waypts[i])
print imp_waypts
rightfare_func.get_file(fare,'0',list_values[0],list_values[1],list_values[2],route_distance,imp_waypts)
str_waypts=rightfare_func.cnvrt(imp_waypts)
sample1.insertdistance(list_values[1],list_values[2],str_waypts,route_distance,'0',fare,0)