usse/funda-scraper/venv/lib/python3.10/site-packages/geographiclib/test/test_sign.py

281 lines
13 KiB
Python

"""Geodesic tests"""
import unittest
import math
import sys
from geographiclib.geomath import Math
from geographiclib.geodesic import Geodesic
class SignTest(unittest.TestCase):
"""Sign test suite"""
@staticmethod
def equiv(x, y):
"""Test for equivalence"""
return ( (math.isnan(x) and math.isnan(y)) or
(x == y and math.copysign(1.0, x) == math.copysign(1.0, y)) )
def test_AngRound(self):
"""Test special cases for AngRound"""
eps = sys.float_info.epsilon
self.assertTrue(SignTest.equiv(Math.AngRound(-eps/32), -eps/32))
self.assertTrue(SignTest.equiv(Math.AngRound(-eps/64), -0.0 ))
self.assertTrue(SignTest.equiv(Math.AngRound(- 0.0 ), -0.0 ))
self.assertTrue(SignTest.equiv(Math.AngRound( 0.0 ), +0.0 ))
self.assertTrue(SignTest.equiv(Math.AngRound( eps/64), +0.0 ))
self.assertTrue(SignTest.equiv(Math.AngRound( eps/32), +eps/32))
self.assertTrue(SignTest.equiv(Math.AngRound((1-2*eps)/64), (1-2*eps)/64))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps )/64), 1.0 /64))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps/2)/64), 1.0 /64))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps/4)/64), 1.0 /64))
self.assertTrue(SignTest.equiv(Math.AngRound( 1.0 /64), 1.0 /64))
self.assertTrue(SignTest.equiv(Math.AngRound((1+eps/2)/64), 1.0 /64))
self.assertTrue(SignTest.equiv(Math.AngRound((1+eps )/64), 1.0 /64))
self.assertTrue(SignTest.equiv(Math.AngRound((1+2*eps)/64), (1+2*eps)/64))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps )/32), (1-eps )/32))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps/2)/32), 1.0 /32))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps/4)/32), 1.0 /32))
self.assertTrue(SignTest.equiv(Math.AngRound( 1.0 /32), 1.0 /32))
self.assertTrue(SignTest.equiv(Math.AngRound((1+eps/2)/32), 1.0 /32))
self.assertTrue(SignTest.equiv(Math.AngRound((1+eps )/32), (1+eps )/32))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps )/16), (1-eps )/16))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps/2)/16), (1-eps/2)/16))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps/4)/16), 1.0 /16))
self.assertTrue(SignTest.equiv(Math.AngRound( 1.0 /16), 1.0 /16))
self.assertTrue(SignTest.equiv(Math.AngRound((1+eps/4)/16), 1.0 /16))
self.assertTrue(SignTest.equiv(Math.AngRound((1+eps/2)/16), 1.0 /16))
self.assertTrue(SignTest.equiv(Math.AngRound((1+eps )/16), (1+eps )/16))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps )/ 8), (1-eps )/ 8))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps/2)/ 8), (1-eps/2)/ 8))
self.assertTrue(SignTest.equiv(Math.AngRound((1-eps/4)/ 8), 1.0 / 8))
self.assertTrue(SignTest.equiv(Math.AngRound((1+eps/2)/ 8), 1.0 / 8))
self.assertTrue(SignTest.equiv(Math.AngRound((1+eps )/ 8), (1+eps )/ 8))
self.assertTrue(SignTest.equiv(Math.AngRound( 1-eps ), 1-eps ))
self.assertTrue(SignTest.equiv(Math.AngRound( 1-eps/2 ), 1-eps/2 ))
self.assertTrue(SignTest.equiv(Math.AngRound( 1-eps/4 ), 1 ))
self.assertTrue(SignTest.equiv(Math.AngRound( 1.0 ), 1 ))
self.assertTrue(SignTest.equiv(Math.AngRound( 1+eps/4 ), 1 ))
self.assertTrue(SignTest.equiv(Math.AngRound( 1+eps/2 ), 1 ))
self.assertTrue(SignTest.equiv(Math.AngRound( 1+eps ), 1+ eps ))
self.assertTrue(SignTest.equiv(Math.AngRound( 90.0-64*eps), 90-64*eps ))
self.assertTrue(SignTest.equiv(Math.AngRound( 90.0-32*eps), 90 ))
self.assertTrue(SignTest.equiv(Math.AngRound( 90.0 ), 90 ))
def test_sincosd(self):
"""Test special cases for sincosd"""
inf = math.inf
nan = math.nan
s, c = Math.sincosd(- inf)
self.assertTrue(SignTest.equiv(s, nan) and SignTest.equiv(c, nan))
s, c = Math.sincosd(-810.0)
self.assertTrue(SignTest.equiv(s, -1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(-720.0)
self.assertTrue(SignTest.equiv(s, -0.0) and SignTest.equiv(c, +1.0))
s, c = Math.sincosd(-630.0)
self.assertTrue(SignTest.equiv(s, +1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(-540.0)
self.assertTrue(SignTest.equiv(s, -0.0) and SignTest.equiv(c, -1.0))
s, c = Math.sincosd(-450.0)
self.assertTrue(SignTest.equiv(s, -1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(-360.0)
self.assertTrue(SignTest.equiv(s, -0.0) and SignTest.equiv(c, +1.0))
s, c = Math.sincosd(-270.0)
self.assertTrue(SignTest.equiv(s, +1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(-180.0)
self.assertTrue(SignTest.equiv(s, -0.0) and SignTest.equiv(c, -1.0))
s, c = Math.sincosd(- 90.0)
self.assertTrue(SignTest.equiv(s, -1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(- 0.0)
self.assertTrue(SignTest.equiv(s, -0.0) and SignTest.equiv(c, +1.0))
s, c = Math.sincosd(+ 0.0)
self.assertTrue(SignTest.equiv(s, +0.0) and SignTest.equiv(c, +1.0))
s, c = Math.sincosd(+ 90.0)
self.assertTrue(SignTest.equiv(s, +1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(+180.0)
self.assertTrue(SignTest.equiv(s, +0.0) and SignTest.equiv(c, -1.0))
s, c = Math.sincosd(+270.0)
self.assertTrue(SignTest.equiv(s, -1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(+360.0)
self.assertTrue(SignTest.equiv(s, +0.0) and SignTest.equiv(c, +1.0))
s, c = Math.sincosd(+450.0)
self.assertTrue(SignTest.equiv(s, +1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(+540.0)
self.assertTrue(SignTest.equiv(s, +0.0) and SignTest.equiv(c, -1.0))
s, c = Math.sincosd(+630.0)
self.assertTrue(SignTest.equiv(s, -1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(+720.0)
self.assertTrue(SignTest.equiv(s, +0.0) and SignTest.equiv(c, +1.0))
s, c = Math.sincosd(+810.0)
self.assertTrue(SignTest.equiv(s, +1.0) and SignTest.equiv(c, +0.0))
s, c = Math.sincosd(+ inf)
self.assertTrue(SignTest.equiv(s, nan) and SignTest.equiv(c, nan))
s, c = Math.sincosd( nan)
self.assertTrue(SignTest.equiv(s, nan) and SignTest.equiv(c, nan))
def test_sincosd2(self):
"""Test accuracy of sincosd"""
s1, c1 = Math.sincosd( 9.0)
s2, c2 = Math.sincosd( 81.0)
s3, c3 = Math.sincosd(-123456789.0)
self.assertTrue(SignTest.equiv(s1, c2))
self.assertTrue(SignTest.equiv(s1, s3))
self.assertTrue(SignTest.equiv(c1, s2))
self.assertTrue(SignTest.equiv(c1,-c3))
def test_atan2d(self):
"""Test special cases for atan2d"""
inf = math.inf
nan = math.nan
self.assertTrue(SignTest.equiv(Math.atan2d(+0.0 , -0.0 ), +180))
self.assertTrue(SignTest.equiv(Math.atan2d(-0.0 , -0.0 ), -180))
self.assertTrue(SignTest.equiv(Math.atan2d(+0.0 , +0.0 ), +0.0))
self.assertTrue(SignTest.equiv(Math.atan2d(-0.0 , +0.0 ), -0.0))
self.assertTrue(SignTest.equiv(Math.atan2d(+0.0 , -1.0 ), +180))
self.assertTrue(SignTest.equiv(Math.atan2d(-0.0 , -1.0 ), -180))
self.assertTrue(SignTest.equiv(Math.atan2d(+0.0 , +1.0 ), +0.0))
self.assertTrue(SignTest.equiv(Math.atan2d(-0.0 , +1.0 ), -0.0))
self.assertTrue(SignTest.equiv(Math.atan2d(-1.0 , +0.0 ), -90))
self.assertTrue(SignTest.equiv(Math.atan2d(-1.0 , -0.0 ), -90))
self.assertTrue(SignTest.equiv(Math.atan2d(+1.0 , +0.0 ), +90))
self.assertTrue(SignTest.equiv(Math.atan2d(+1.0 , -0.0 ), +90))
self.assertTrue(SignTest.equiv(Math.atan2d(+1.0 , -inf), +180))
self.assertTrue(SignTest.equiv(Math.atan2d(-1.0 , -inf), -180))
self.assertTrue(SignTest.equiv(Math.atan2d(+1.0 , +inf), +0.0))
self.assertTrue(SignTest.equiv(Math.atan2d(-1.0 , +inf), -0.0))
self.assertTrue(SignTest.equiv(Math.atan2d( +inf, +1.0 ), +90))
self.assertTrue(SignTest.equiv(Math.atan2d( +inf, -1.0 ), +90))
self.assertTrue(SignTest.equiv(Math.atan2d( -inf, +1.0 ), -90))
self.assertTrue(SignTest.equiv(Math.atan2d( -inf, -1.0 ), -90))
self.assertTrue(SignTest.equiv(Math.atan2d( +inf, -inf), +135))
self.assertTrue(SignTest.equiv(Math.atan2d( -inf, -inf), -135))
self.assertTrue(SignTest.equiv(Math.atan2d( +inf, +inf), +45))
self.assertTrue(SignTest.equiv(Math.atan2d( -inf, +inf), -45))
self.assertTrue(SignTest.equiv(Math.atan2d( nan, +1.0 ), nan))
self.assertTrue(SignTest.equiv(Math.atan2d(+1.0 , nan), nan))
def test_atan2d2(self):
"""Test accuracy of atan2d"""
s = 7e-16
self.assertEqual(Math.atan2d(s, -1.0), 180 - Math.atan2d(s, 1.0))
def test_sum(self):
"""Test special cases of sum"""
s,_ = Math.sum(+9.0, -9.0); self.assertTrue(SignTest.equiv(s, +0.0))
s,_ = Math.sum(-9.0, +9.0); self.assertTrue(SignTest.equiv(s, +0.0))
s,_ = Math.sum(-0.0, +0.0); self.assertTrue(SignTest.equiv(s, +0.0))
s,_ = Math.sum(+0.0, -0.0); self.assertTrue(SignTest.equiv(s, +0.0))
s,_ = Math.sum(-0.0, -0.0); self.assertTrue(SignTest.equiv(s, -0.0))
s,_ = Math.sum(+0.0, +0.0); self.assertTrue(SignTest.equiv(s, +0.0))
def test_AngNormalize(self):
"""Test special cases of AngNormalize"""
self.assertTrue(SignTest.equiv(Math.AngNormalize(-900.0), -180))
self.assertTrue(SignTest.equiv(Math.AngNormalize(-720.0), -0.0))
self.assertTrue(SignTest.equiv(Math.AngNormalize(-540.0), -180))
self.assertTrue(SignTest.equiv(Math.AngNormalize(-360.0), -0.0))
self.assertTrue(SignTest.equiv(Math.AngNormalize(-180.0), -180))
self.assertTrue(SignTest.equiv(Math.AngNormalize( -0.0), -0.0))
self.assertTrue(SignTest.equiv(Math.AngNormalize( +0.0), +0.0))
self.assertTrue(SignTest.equiv(Math.AngNormalize( 180.0), +180))
self.assertTrue(SignTest.equiv(Math.AngNormalize( 360.0), +0.0))
self.assertTrue(SignTest.equiv(Math.AngNormalize( 540.0), +180))
self.assertTrue(SignTest.equiv(Math.AngNormalize( 720.0), +0.0))
self.assertTrue(SignTest.equiv(Math.AngNormalize( 900.0), +180))
def test_AngDiff(self):
"""Test special cases of AngDiff"""
eps = sys.float_info.epsilon
s,_ = Math.AngDiff(+ 0.0,+ 0.0); self.assertTrue(SignTest.equiv(s,+0.0 ))
s,_ = Math.AngDiff(+ 0.0,- 0.0); self.assertTrue(SignTest.equiv(s,-0.0 ))
s,_ = Math.AngDiff(- 0.0,+ 0.0); self.assertTrue(SignTest.equiv(s,+0.0 ))
s,_ = Math.AngDiff(- 0.0,- 0.0); self.assertTrue(SignTest.equiv(s,+0.0 ))
s,_ = Math.AngDiff(+ 5.0,+365.0); self.assertTrue(SignTest.equiv(s,+0.0 ))
s,_ = Math.AngDiff(+365.0,+ 5.0); self.assertTrue(SignTest.equiv(s,-0.0 ))
s,_ = Math.AngDiff(+ 5.0,+185.0); self.assertTrue(SignTest.equiv(s,+180.0))
s,_ = Math.AngDiff(+185.0,+ 5.0); self.assertTrue(SignTest.equiv(s,-180.0))
s,_ = Math.AngDiff( +eps ,+180.0); self.assertTrue(SignTest.equiv(s,+180.0))
s,_ = Math.AngDiff( -eps ,+180.0); self.assertTrue(SignTest.equiv(s,-180.0))
s,_ = Math.AngDiff( +eps ,-180.0); self.assertTrue(SignTest.equiv(s,+180.0))
s,_ = Math.AngDiff( -eps ,-180.0); self.assertTrue(SignTest.equiv(s,-180.0))
def test_AngDiff2(self):
"""Test accuracy of AngDiff"""
eps = sys.float_info.epsilon
x = 138 + 128 * eps; y = -164; s,_ = Math.AngDiff(x, y)
self.assertEqual(s, 58 - 128 * eps)
def test_equatorial_coincident(self):
"""
azimuth with coincident point on equator
"""
# lat1 lat2 azi1/2
C = [
[ +0.0, -0.0, 180 ],
[ -0.0, +0.0, 0 ]
]
for l in C:
(lat1, lat2, azi) = l
inv = Geodesic.WGS84.Inverse(lat1, 0.0, lat2, 0.0)
self.assertTrue(SignTest.equiv(inv["azi1"], azi))
self.assertTrue(SignTest.equiv(inv["azi2"], azi))
def test_equatorial_NS(self):
"""Does the nearly antipodal equatorial solution go north or south?"""
# lat1 lat2 azi1 azi2
C = [
[ +0.0, +0.0, 56, 124],
[ -0.0, -0.0, 124, 56]
]
for l in C:
(lat1, lat2, azi1, azi2) = l
inv = Geodesic.WGS84.Inverse(lat1, 0.0, lat2, 179.5)
self.assertAlmostEqual(inv["azi1"], azi1, delta = 1)
self.assertAlmostEqual(inv["azi2"], azi2, delta = 1)
def test_antipodal(self):
"""How does the exact antipodal equatorial path go N/S + E/W"""
# lat1 lat2 lon2 azi1 azi2
C = [
[ +0.0, +0.0, +180, +0.0, +180],
[ -0.0, -0.0, +180, +180, +0.0],
[ +0.0, +0.0, -180, -0.0, -180],
[ -0.0, -0.0, -180, -180, -0.0]
]
for l in C:
(lat1, lat2, lon2, azi1, azi2) = l
inv = Geodesic.WGS84.Inverse(lat1, 0.0, lat2, lon2)
self.assertTrue(SignTest.equiv(inv["azi1"], azi1))
self.assertTrue(SignTest.equiv(inv["azi2"], azi2))
def test_antipodal_prolate(self):
"""Antipodal points on the equator with prolate ellipsoid"""
# lon2 azi1/2
C = [
[ +180, +90 ],
[ -180, -90 ]
]
geod = Geodesic(6.4e6, -1/300.0)
for l in C:
(lon2, azi) = l
inv = geod.Inverse(0.0, 0.0, 0.0, lon2)
self.assertTrue(SignTest.equiv(inv["azi1"], azi))
self.assertTrue(SignTest.equiv(inv["azi2"], azi))
def test_azimuth_0_180(self):
"""azimuths = +/-0 and +/-180 for the direct problem"""
# azi1, lon2, azi2
C = [
[ +0.0, +180, +180 ],
[ -0.0, -180, -180 ],
[ +180, +180, +0.0 ],
[ -180, -180, -0.0 ]
]
for l in C:
(azi1, lon2, azi2) = l
direct = Geodesic.WGS84.Direct(0.0, 0.0, azi1, 15e6,
Geodesic.STANDARD | Geodesic.LONG_UNROLL)
self.assertTrue(SignTest.equiv(direct["lon2"], lon2))
self.assertTrue(SignTest.equiv(direct["azi2"], azi2))