autopep8, the formatting was all over the place to the point where it wouldn't run

Signed-off-by: Abdulkadir Furkan Şanlı <me@abdulocra.cy>
This commit is contained in:
Abdulkadir Furkan Şanlı 2022-09-24 21:45:42 +02:00
parent 711c2ee938
commit 366de19017
Signed by: afk
GPG Key ID: C8F00588EE6ED1FE

164
naut.py
View File

@ -11,51 +11,60 @@ from time import strftime
import random
# haversine function to determine distance between two lat,long points
def haversine(lat1, lon1, lat2, lon2):
R = 3959.87433 #earth radius in miles
dLat = radians(lat2 - lat1)
dLon = radians(lon2 - lon1)
a = sin(dLat/2)**2 + cos(lat1)*cos(lat2)*sin(dLon/2)**2
c = 2*asin(sqrt(a))
return R*c
R = 3959.87433 # earth radius in miles
dLat = radians(lat2 - lat1)
dLon = radians(lon2 - lon1)
a = sin(dLat/2)**2 + cos(lat1)*cos(lat2)*sin(dLon/2)**2
c = 2*asin(sqrt(a))
return R*c
# get a random enough number
def getfloat():
output = random.random()
return output
output = random.random()
return output
def str_time_prop(start, end, format, prop):
#get a time at a proportion of a range of two formatted times
stime = start
etime = end
ptime = stime + prop * (etime - stime)
# get a time at a proportion of a range of two formatted times
stime = start
etime = end
ptime = stime + prop * (etime - stime)
return time.strftime(format, time.localtime(ptime))
return time.strftime(format, time.localtime(ptime))
# get random time in the future
def random_date(start, end, prop):
return str_time_prop(start, end, '%m/%d/%Y %I:%M%p', prop)
return str_time_prop(start, end, '%m/%d/%Y %I:%M%p', prop)
# function to generate a lat,long coordinate within a range
# inspiration from this post:
# https://gis.stackexchange.com/questions/25877/generating-random-locations-nearby
def create_random_point(x0,y0,distance):
#approximately 1609 meters in a mile
#5 miles = about 8045
# 111300 = meters in a degree
# 69 = miles in a degree
r = distance / 111300
r = r/2
u = float(getfloat())
v = float(getfloat())
w = r * np.sqrt(u)
t = 2 * np.pi * v
x = w * np.cos(t)
x1 = x / np.cos(y0)
y = w * np.sin(t)
print "u="+str(u)
print "v="+str(v)
return (x0+x1, y0+y)
def create_random_point(x0, y0, distance):
# approximately 1609 meters in a mile
# 5 miles = about 8045
# 111300 = meters in a degree
# 69 = miles in a degree
r = distance / 111300
r = r/2
u = float(getfloat())
v = float(getfloat())
w = r * np.sqrt(u)
t = 2 * np.pi * v
x = w * np.cos(t)
x1 = x / np.cos(y0)
y = w * np.sin(t)
print "u="+str(u)
print "v="+str(v)
return (x0+x1, y0+y)
init_start = time.time()
@ -67,13 +76,13 @@ newplot = ()
loghandle = './naut.log'
logfile = open(loghandle, "a")
#home_base (starting point), set to Warsaw center.
latitude1, longitude1 = 52.229832,21.011734
# home_base (starting point), set to Warsaw center.
latitude1, longitude1 = 52.229832, 21.011734
#window_secs = 10800
window_secs = 1800
#how far to travel in meters from home base
# how far to travel in meters from home base
meters_out = 4827
##### End User Defined variables #####
@ -82,48 +91,49 @@ current_time = time.time()
window = current_time + window_secs
# for loop to get multiple points if desired (for future development - void/attractor calculations)
for i in range(1,2):
timex = float(getfloat())
x,y = create_random_point(latitude1,longitude1, meters_out)
future_time = random_date(current_time, window, timex)
dest_lat = str(format(x,'.5f'))
dest_long = str(format(y,'.5f'))
orig_lat = str(latitude1)
orig_long = str(longitude1)
newplot = (x,y)
origplot = (latitude1,longitude1)
dist = haversine(origplot[0],origplot[1],newplot[0],newplot[1])
dist = str(format(dist,'.2f'))
print "Distance between points is ",dist
print "destination: "+dest_lat+" "+dest_long
print "future_time: "+future_time
logfile.write(dtime+" homebase_lat="+orig_lat+" homebase_long="+orig_long+" dest_lat="+dest_lat+" dest_long="+dest_long+" future_time="+future_time+" dist="+dist)
for i in range(1, 2):
timex = float(getfloat())
x, y = create_random_point(latitude1, longitude1, meters_out)
future_time = random_date(current_time, window, timex)
dest_lat = str(format(x, '.5f'))
dest_long = str(format(y, '.5f'))
orig_lat = str(latitude1)
orig_long = str(longitude1)
newplot = (x, y)
origplot = (latitude1, longitude1)
dist = haversine(origplot[0], origplot[1], newplot[0], newplot[1])
dist = str(format(dist, '.2f'))
print "Distance between points is ", dist
print "destination: "+dest_lat+" "+dest_long
print "future_time: "+future_time
logfile.write(dtime+" homebase_lat="+orig_lat+" homebase_long="+orig_long+" dest_lat=" +
dest_lat+" dest_long="+dest_long+" future_time="+future_time+" dist="+dist)
msg_breaker = '~'
msg_space = '`'
msg_space2 = '```'
#homage to the Matrix
init1_msg = 'Wake up, Neo...'
init_msg = 'The Matrix has you..'
rabbit_msg1 = 'follow the'
rabbit_msg2 = 'white rabbit...'
msg_breaker = '~'
msg_space = '`'
msg_space2 = '```'
# homage to the Matrix
init1_msg = 'Wake up, Neo...'
init_msg = 'The Matrix has you..'
rabbit_msg1 = 'follow the'
rabbit_msg2 = 'white rabbit...'
logfile.write("\n")
print init1_msg
time.sleep(5)
print msg_breaker
print init_msg
time.sleep(5)
print msg_breaker
print rabbit_msg1
print msg_breaker
print msg_space2
print rabbit_msg2
time.sleep(5)
print msg_breaker
print " "+future_time
print msg_breaker
print " "+dest_lat
print msg_space
print dest_long
print "https://www.google.com/maps/search/?api=1&query="+dest_lat+","+dest_long+" Time: "+future_time
logfile.write("\n")
print init1_msg
time.sleep(5)
print msg_breaker
print init_msg
time.sleep(5)
print msg_breaker
print rabbit_msg1
print msg_breaker
print msg_space2
print rabbit_msg2
time.sleep(5)
print msg_breaker
print " "+future_time
print msg_breaker
print " "+dest_lat
print msg_space
print dest_long
print "https://www.google.com/maps/search/?api=1&query="+dest_lat+","+dest_long+" Time: "+future_time