d['distance']=result.fdist_grtr_than+'@100000000'
flag_dstnc_range=3
if (flag_dstnc_range and flag_budget_range):
range_methods.calclate_with_both_range(d,'distance','budget')
elif(flag_dstnc_range):
range_methods.calclate_with_one_range(d,'distance')
elif(flag_budget_range):
range_methods.calclate_with_one_range(d,'budget')
elif(flag_dstnc_range==2):
range_car.calclate_with_one_range(d,'distance')
elif(flag_dstnc_range==3):
range_flight.calclate_with_one_range(d,'distance')
elif(flag_dstnc_range==4):
range_car.calclate_with_no_range(d)
elif(flag_dstnc_range==5):
range_flight.calclate_with_no_range(d)
else:
range_methods.calclate_with_no_range(d)
#k=range_car.calclate_with_one_range(a[0],'distance')
#k=range_car.calclate_with_no_range(a[0])
#k=range_flight.calclate_with_no_range(a[0])
#k=range_flight.calclate_with_one_range(a[0],'distance')
b = datetime.datetime.now()
print "Time of execution=",(b-a)
except IOError:
print "USAGE:------------------------------------------\n"
print "-P <space> <Name of the place>"
if (result.fdist_grtr_than != None):
d['distance'] = result.fdist_grtr_than + '@100000000'
flag_dstnc_range = 3
if (flag_dstnc_range and flag_budget_range):
range_methods.calclate_with_both_range(d, 'distance', 'budget')
elif (flag_dstnc_range):
range_methods.calclate_with_one_range(d, 'distance')
elif (flag_budget_range):
range_methods.calclate_with_one_range(d, 'budget')
elif (flag_dstnc_range == 2):
range_car.calclate_with_one_range(d, 'distance')
elif (flag_dstnc_range == 3):
range_flight.calclate_with_one_range(d, 'distance')
elif (flag_dstnc_range == 4):
range_car.calclate_with_no_range(d)
elif (flag_dstnc_range == 5):
range_flight.calclate_with_no_range(d)
else:
range_methods.calclate_with_no_range(d)
#k=range_car.calclate_with_one_range(a[0],'distance')
#k=range_car.calclate_with_no_range(a[0])
#k=range_flight.calclate_with_no_range(a[0])
#k=range_flight.calclate_with_one_range(a[0],'distance')
b = datetime.datetime.now()
print "Time of execution=", (b - a)
except IOError:
print "USAGE:------------------------------------------\n"
print "-P <space> <Name of the place>"
def handle_child(childSocket, childAddr):
start_time = time.time()
while True:
message = childSocket.recv(2048)
a= pickle.loads(message)
print a
break
data=''
f = open('log.txt','a')
f.write('\nData Received:'+str(a[0])+"\n")
if (a[3]==0):
if (a[1] and a[2]):
k=range_methods1.calclate_with_both_range(a[0],'distance','budget')
#childSocket.send(pickle.dumps(k))
k=pickle.dumps(k)
elif(a[1]):
k=range_methods1.calclate_with_one_range(a[0],'distance')
#childSocket.send(pickle.dumps(k))
k=pickle.dumps(k)
elif(a[2]):
k=range_methods1.calclate_with_one_range(a[0],'budget')
#childSocket.send(pickle.dumps(k))
k=pickle.dumps(k)
else:
k=range_methods1.calclate_with_no_range(a[0])
#childSocket.send(pickle.dumps(k))
k=pickle.dumps(k)
elif(a[3]==1):
if(a[1]):
k=range_flight.calclate_with_one_range(a[0],'distance')
#childSocket.send(pickle.dumps(k))
k=pickle.dumps(k)
else:
k=range_flight.calclate_with_no_range(a[0])
#childSocket.send(pickle.dumps(k))
k=pickle.dumps(k)
else:
if(a[1]):
k=range_car.calclate_with_one_range(a[0],'distance')
#childSocket.send(pickle.dumps(k))
k=pickle.dumps(k)
else:
k=range_car.calclate_with_no_range(a[0])
#childSocket.send(pickle.dumps(k))
k=pickle.dumps(k)
i=0
j=1024
s=0
while(s>0):
data=k[i:j]
childSocket.send(data)
i=j
j=j+1024
s=len(k)-j
else:
data=k[i:len(k)]
childSocket.send(data)
#for s in range(0,1024):
# data=data+k[s]
#childSocket.send(data)
childSocket.send('EOF')
childSocket.close()
f.write("Child thread completed\n")
f.write("Time of Execution of child thread="+str(time.time() - start_time)+" Seconds\n")
f.close()
