stud/III/Ovodas/task2_4.py
Motiejus Jakštys b90fd4f41c task 1 and 2
2020-12-27 12:17:41 +02:00

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Python
Executable File

#!/usr/bin/python3
import csv
from math import sin, cos, acos, radians, degrees, atan
from consts import phi_1, lambda_1, phi_2, lambda_2
# krasovskio
kr = {}
with open("krasovskio.csv") as f:
for row in csv.DictReader(f):
kr[float(row['phi'])] = {k: float(v) for k, v in row.items()}
def sec(x):
return 1/cos(x)
# konstantos/radianai
midphi = (phi_1+phi_2)/2
rphi_1, rphi_2 = radians(phi_1), radians(phi_2)
rlambda_1, rlambda_2 = radians(lambda_1), radians(lambda_2)
# ortodroma
rdelta = acos(sin(rphi_1)*sin(rphi_2) + cos(rphi_1)*cos(rphi_2)*cos(rlambda_2-rlambda_1))
delta = degrees(rdelta)
R = 6366255.58 # rutulio spindulys iš pavyzdžio
ortodromos_ilgis = rdelta * R
# loksodroma
D_1 = kr[phi_1]["D"]
D_2 = kr[phi_2]["D"]
ralpha_loks = atan(60*(lambda_2 - lambda_1) / (D_2 - D_1))
loksodromos_ilgis = (rphi_2 - rphi_1) * kr[midphi]["R"] * sec(ralpha_loks)
if __name__ == '__main__':
print("Ortodromos ilgis (m): %d" % round(ortodromos_ilgis))
print("Loksodromos ilgis (m): %d" % round(loksodromos_ilgis))