Exemple #1
0
    def testErrors(self, InvalidError, IsnotError):

        e = InvalidError(zero=1)
        self.test(InvalidError.__name__, e, 'zero (1): invalid')
        self.test(InvalidError.__name__,
                  repr(e).replace(',)', ')'),
                  "ValueError('zero (1): invalid')")
        e = InvalidError(zero=1, one=2, txt='outside')
        self.test(InvalidError.__name__, e, 'one (2) or zero (1): outside')
        self.test(InvalidError.__name__,
                  repr(e).replace(',)', ')'),
                  "ValueError('one (2) or zero (1): outside')")
        e = InvalidError(zero=1, Error=RangeError, one=2, txt='outside')
        self.test(InvalidError.__name__, e, 'one (2) or zero (1): outside')
        self.test(InvalidError.__name__,
                  repr(e).replace(',)', ')'),
                  "RangeError('one (2) or zero (1): outside')")
        e = InvalidError(two=2, Error=ValueError)  # coverage

        e = IsnotError(int.__name__, float.__name__, _None=None)
        self.test(IsnotError.__name__, e, '_None (None) not an int or float')
        self.test(IsnotError.__name__,
                  repr(e).replace(',)', ')'),
                  "TypeError('_None (None) not an int or float')")

        e = IsnotError('scalar', _None=None)
        self.test(IsnotError.__name__, e, '_None (None) not scalar')
        self.test(IsnotError.__name__,
                  repr(e).replace(',)', ')'),
                  "TypeError('_None (None) not scalar')")
        e = IsnotError('scalar', Error=LimitError, _None=None)
        self.test(IsnotError.__name__, e, '_None (None) not scalar: invalid')
        self.test(IsnotError.__name__,
                  repr(e).replace(',)', ')'),
                  "LimitError('_None (None) not scalar: invalid')")

        try:
            raise LenError(LenError, a=1, b=2, c=3, d=4)
            self.test(LenError.__name__, None, LenError.__name__)
        except ValueError as x:
            self.test(LenError.__name__, str(x),
                      'LenError(a, b, c, d) len 1 vs 2 vs 3 vs 4: invalid')

        self.test(crosserrors.__name__, crosserrors(False), True)
        self.test(crosserrors.__name__, crosserrors(True), False)
        self.test(limiterrors.__name__, limiterrors(False), True)
        self.test(limiterrors.__name__, limiterrors(True), False)
        self.test(rangerrors.__name__, rangerrors(False), True)
        self.test(rangerrors.__name__, rangerrors(True), False)

        x = True if environ.get('PYGEODESY_EXCEPTION_CHAINING',
                                None) else False
        self.test(exception_chaining.__name__, exception_chaining(),
                  x if isPython3 else None)
        self.test(exception_chaining.__name__,
                  exception_chaining(RangeError()), None)
        self.test(exception_chaining.__name__, exception_chaining(TypeError()),
                  None)
Exemple #2
0
    def testUtily(self):

        # Python 2.6.9 on Travis Ubuntu 14.04 produces -0.0

        self.test('degrees90(PI_2)', degrees90(PI_2), 90.0)
        self.test('degrees90(PI)',   degrees90(PI), -180.0)  # XXX
        self.test('degrees90(PI2)',  degrees90(PI2),   0.0)
        self.test('degrees90(-PI_2)',    degrees90(-PI_2), -90.0)
        self.test('degrees90(-PI)',      degrees90(-PI),  -180.0)  # XXX
        self.test('degrees90(-PI2)', abs(degrees90(-PI2)),   0.0)  # -0.0

        self.test('degrees180(PI_2)', degrees180(PI_2), 90.0)
        self.test('degrees180(PI)',   degrees180(PI),  180.0)  # XXX
        self.test('degrees180(PI2)',  degrees180(PI2),   0.0)
        self.test('degrees180(-PI_2)',    degrees180(-PI_2), -90.0)
        self.test('degrees180(-PI)',      degrees180(-PI),  -180.0)  # XXX
        self.test('degrees180(-PI2)', abs(degrees180(-PI2)),   0.0)  # -0.0

        self.test('degrees360(PI_2)', degrees360(PI_2), 90.0)
        self.test('degrees360(PI)',   degrees360(PI),  180.0)  # XXX
        self.test('degrees360(PI2)',  degrees360(PI2),   0.0)
        self.test('degrees360(-PI_2)',    degrees360(-PI_2), 270.0)
        self.test('degrees360(-PI)',      degrees360(-PI),   180.0)  # XXX
        self.test('degrees360(-PI2)', abs(degrees360(-PI2)),   0.0)  # -0.0

        self.test('radiansPI_2(90)',  radiansPI_2(90), PI_2)
        self.test('radiansPI_2(180)', radiansPI_2(180), -PI)
        self.test('radiansPI_2(360)', radiansPI_2(360), 0.0)
        self.test('radiansPI_2(-90)',      radiansPI_2(-90), -PI_2)
        self.test('radiansPI_2(-180)',     radiansPI_2(-180),  -PI)
        self.test('radiansPI_2(-360)', abs(radiansPI_2(-360)), 0.0)  # -0.0

        self.test('radiansPI(90)',  radiansPI(90), PI_2)
        self.test('radiansPI(180)', radiansPI(180),  PI)
        self.test('radiansPI(360)', radiansPI(360), 0.0)
        self.test('radiansPI(-90)',      radiansPI(-90), -PI_2)
        self.test('radiansPI(-180)',     radiansPI(-180),  -PI)
        self.test('radiansPI(-360)', abs(radiansPI(-360)), 0.0)  # -0.0

        self.test('radiansPI2(90)',  radiansPI2(90), PI_2)
        self.test('radiansPI2(180)', radiansPI2(180),  PI)
        self.test('radiansPI2(360)', radiansPI2(360), 0.0)
        self.test('radiansPI2(-90)',      radiansPI2(-90), PI_2+PI)
        self.test('radiansPI2(-180)',     radiansPI2(-180),     PI)
        self.test('radiansPI2(-360)', abs(radiansPI2(-360)),   0.0)  # -0.0

        self.test('wrap90(90)',   wrap90(90),    90)
        self.test('wrap90(180)',  wrap90(180), -180)
        self.test('wrap90(360)',  wrap90(360),    0)
        self.test('wrap90(-90)',  wrap90(-90),   -90)
        self.test('wrap90(-180)', wrap90(-180), -180)
        self.test('wrap90(-360)', wrap90(-360),    0)

        self.test('wrap180(90)',   wrap180(90),   90)
        self.test('wrap180(180)',  wrap180(180), 180)
        self.test('wrap180(360)',  wrap180(360),   0)
        self.test('wrap180(-90)',  wrap180(-90),   -90)
        self.test('wrap180(-180)', wrap180(-180), -180)
        self.test('wrap180(-360)', wrap180(-360),    0)

        self.test('wrap360(90)',   wrap360(90),   90)
        self.test('wrap360(180)',  wrap360(180), 180)
        self.test('wrap360(360)',  wrap360(360),   0)
        self.test('wrap360(-90)',  wrap360(-90),  270)
        self.test('wrap360(-180)', wrap360(-180), 180)
        self.test('wrap360(-360)', wrap360(-360),   0)

        self.test('wrapPI_2(PI_2)', wrapPI_2(PI_2), PI_2)
        self.test('wrapPI_2(PI)',   wrapPI_2(PI),    -PI)  # XXX
        self.test('wrapPI_2(PI2)',  wrapPI_2(PI2),   0.0)
        self.test('wrapPI_2(-PI_2)',    wrapPI_2(-PI_2), -PI_2)
        self.test('wrapPI_2(-PI)',      wrapPI_2(-PI),     -PI)  # XXX
        self.test('wrapPI_2(-PI2)', abs(wrapPI_2(-PI2)),   0.0)

        self.test('wrapPI(PI_2)', wrapPI(PI_2), PI_2)
        self.test('wrapPI(PI)',   wrapPI(PI),     PI)  # XXX
        self.test('wrapPI(PI2)',  wrapPI(PI2),   0.0)
        self.test('wrapPI(-PI_2)',    wrapPI(-PI_2), -PI_2)
        self.test('wrapPI(-PI)',      wrapPI(-PI),     -PI)  # XXX
        self.test('wrapPI(-PI2)', abs(wrapPI(-PI2)),   0.0)  # -0.0

        self.test('wrapPI2(PI_2)', wrapPI2(PI_2), PI_2)
        self.test('wrapPI2(PI)',   wrapPI2(PI),     PI)  # XXX
        self.test('wrapPI2(PI2)',  wrapPI2(PI2),   0.0)
        self.test('wrapPI2(-PI_2)',    wrapPI2(-PI_2), PI_2+PI)
        self.test('wrapPI2(-PI)',      wrapPI2(-PI),        PI)  # XXX
        self.test('wrapPI2(-PI2)', abs(wrapPI2(-PI2)),     0.0)  # -0.0

        self.test('unroll180', fStr(unroll180(-90, 110, wrap=True)), '-160.0, -250.0')
        self.test('unroll180', fStr(unroll180(-90, 110, wrap=False)), '200.0, 110.0')

        self.test('unroll180', fStr(unroll180(-90, 830, wrap=True)), '-160.0, -250.0')
        self.test('unroll180', fStr(unroll180(-90, 830, wrap=False)), '920.0, 830.0')

        self.test('unroll180', fStr(unroll180(-110, 90, wrap=True)), '-160.0, -270.0')
        self.test('unroll180', fStr(unroll180(-110, 90, wrap=False)), '200.0, 90.0')

        self.test('unroll180', fStr(unroll180(-830, 90, wrap=True)), '-160.0, -990.0')
        self.test('unroll180', fStr(unroll180(-830, 90, wrap=False)), '920.0, 90.0')

        e = d = g = f = 0
        for a in range(-1000, 1000):
            a *= 0.47
            r = radians(a)
            sr, cr = sin(r), cos(r)

            s, c = sincos2(r)
            e = max(e, abs(sr - s), abs(cr - c))

            sd, cd = sincos2d(a)
            d = max(d, abs(sr - sd), abs(cr - cd))
            if sincosd:  # compare with geographiclib
                s, c = sincosd(a)
                g = max(g, abs(sr - s), abs(cr - c))
                f = max(f, abs(sd - s), abs(cd - c))

        EPS_ = EPS * 8
        self.test('sincos2',  e, EPS, known=e < EPS_)
        self.test('sincos2d', d, EPS, known=d < EPS_)
        if sincosd:
            self.test('sincosd ', g, EPS, known=g < EPS_)
            self.test('sincos*d', f, EPS, known=f < EPS_)

        a, b = splice(range(10))  # PYCHOK false
        self.test('splice', (a, b), map1(type(a), (0, 2, 4, 6, 8), (1, 3, 5, 7, 9)))
        a, b, c = splice(range(10), n=3)  # PYCHOK false
        self.test('splice', (a, b, c), map1(type(a), (0, 3, 6, 9), (1, 4, 7), (2, 5, 8)))
        a, b, c = splice(range(10), n=3, fill=-1)  # PYCHOK false
        self.test('splice', (a, b, c), map1(type(a), (0, 3, 6, 9), (1, 4, 7, -1), (2, 5, 8, -1)))
        t = tuple(splice(range(12), n=5))  # PYCHOK false
        self.test('splice', t, map1(type(t[0]), (0, 5, 10), (1, 6, 11), (2, 7), (3, 8), (4, 9)))

        # <https://www.CivilGeo.com/when-a-foot-isnt-really-a-foot/>
        self.test('iFt2m', ft2m( 614963.91), 187441, fmt='%.0f')
        self.test('iFt2m', ft2m(2483759.84), 757050, fmt='%.0f')
        self.test('sFt2m', ft2m( 614962.68, usurvey=True), 187441, fmt='%.0f')
        self.test('sFt2m', ft2m(2483754.87, usurvey=True), 757050, fmt='%.0f')

        self.test('m2iFt', m2ft(187441),  614963.91, fmt='%.0f')
        self.test('m2iFt', m2ft(757050), 2483759.84, fmt='%.0f')
        self.test('m2sFt', m2ft(187441, usurvey=True),  614962.68, fmt='%.0f')
        self.test('m2sFt', m2ft(757050, usurvey=True), 2483754.87, fmt='%.0f')

        self.test('degrees2m', fStr(degrees2m(90), prec=4),        '10007557.1761')
        self.test('degrees2m', fStr(degrees2m(90, lat=30), prec=4), '8666798.7443')
        self.test('m2degrees', fStr(m2degrees(degrees2m(90)), prec=1),   '90.0')

        self.test('degrees2m', fStr(degrees2m(180), prec=4),          '20015114.3522')
        self.test('degrees2m', fStr(degrees2m(180, lat=3-0), prec=4), '19987684.3336')
        self.test('m2degrees', fStr(m2degrees(degrees2m(180)), prec=1),    '180.0')

        self.test('anStr', anStr('a-b?_'), 'a-b__')
        self.test('clipStr', clipStr('test/testUtily.py', limit=12), 'test/t....ily.py')

        self.test('isPoints2', isPoints2(None), False)

        self.test('limiterrors', limiterrors(False), True)
Exemple #3
0
    def testFormy(self):

        self.test('antipode1', antipode(89, 179), (-89.0, -1.0))
        self.test('antipode2', antipode(-89, -179), (89.0, 1.0))

        # roughly, Newport to New York
        self.test('bearing1',
                  bearing(41.49, -71.31, 40.78, -73.97),
                  251.364,
                  fmt='%.3f')
        self.test('bearing2',
                  bearing(41.49, -71.31, 40.78, -73.97, final=False),
                  251.364,
                  fmt='%.3f')
        self.test('bearing3',
                  bearing(41.49, -71.31, 40.78, -73.97, final=True),
                  249.614,
                  fmt='%.3f')

        self.test('isantipode1', isantipode(89, 179, -89, -1), True)
        self.test('isantipode2', isantipode(-89, -179, 89, 1), True)
        self.test('isantipode3', isantipode(-89, -179, -89, -1), False)

        self.test('isantipode4', isantipode_(*map1(radians, 89, 179, -89, -1)),
                  True)
        self.test('isantipode5', isantipode_(*map1(radians, -89, -179, 89, 1)),
                  True)
        self.test('isantipode6',
                  isantipode_(*map1(radians, -89, -179, -89, -1)), False)

        self.test('heightOf0', heightOf(0, R_M), 2638958.23912, fmt='%.5f')
        self.test('heightOf45', heightOf(45, R_M), 5401080.43931, fmt='%.5f')
        self.test('heightOf90', heightOf(90, R_M), R_M, fmt='%.5f')  # Height
        self.test('heightOf135', heightOf(135, R_M), 5401080.43931, fmt='%.5f')

        self.test('horizon0', horizon(0), 0.0)
        self.test('horizon10Km', horizon(10000), '357099.672', fmt='%.3f')
        self.test('horizon30Kft',
                  horizon(10000, refraction=True),
                  '392310.704',
                  fmt='%.3f')
        self.test('horizon10Kft',
                  horizon(3000, refraction=True),
                  '214877.422',
                  fmt='%.3f')

        #              lat          lon
        Auckland = -36.8485, 174.7633
        Boston = 42.3541165, -71.0693514
        Cleveland = 41.499498, -81.695391
        LosAngeles = 34.0522, -118.2437
        MtDiablo = 37.8816, -121.9142
        Newport = 41.49008, -71.312796
        NewYork = 40.7791472, -73.9680804
        Santiago = -33.4489, -70.6693
        X = 25.2522, 55.28
        Y = 14.6042, 120.982
        # <https://GeographicLib.SourceForge.io/cgi-bin/GeodSolve>, <https://www.Distance.to>
        for i, (ll1, ll2, expected) in enumerate((
            (Boston, NewYork, 298009.404),  # ..328,722.580        370 km
            (Boston, Newport, 98164.988),  # ..106,147.318         99 km
            (Cleveland, NewYork, 651816.987),  # ..736,534.840        536 km
            (NewYork, MtDiablo, 4084985.780),  # ..4,587,896.452    3,952 km
            (Auckland, Santiago, 9670051.606),  # ..15,045,906.074   9,665 km
            (Auckland, LosAngeles,
             10496496.577),  # ..13,002,288.857  10,940 km
            (LosAngeles, Santiago, 8998396.669),  # ..10,578,638.162   8,993 km
            (X, Y, 6906867.946))):  # ..6916,085.326     6,907 km
            self.testDistances(str(i + 1), *(ll1 + ll2), x=expected)

        # Thomas' S2, page 153 <https://apps.DTIC.mil/dtic/tr/fulltext/u2/703541.pdf>
        self.testDistances2('9',
                            parseDMS('75 57 42.053'),
                            0,
                            parseDMS('17  5 21.296'),
                            parseDMS('85 31 54.631'),
                            x=8044806.076,
                            datum=Datums.NAD27)  # Clarke1866 ellipsoid

        self.test(intersections2.__name__,
                  intersections2.__module__,
                  formy.__name__,
                  nl=1)
        for datum in (None, R_M, Datums.WGS84):
            self.testIntersections2(datum)

        n = radical2.__name__
        self.test(n, radical2(10, 4, 8), '(0.26, 2.6)', nl=1)
        self.test(n, radical2(10, 8, 4), '(0.74, 7.4)')
        self.test(n, radical2(10, 5, 5), '(0.5, 5.0)')

        try:  # coverage
            self.test(n, radical2(10, 5, 4), IntersectionError.__name__, nt=1)
        except Exception as x:
            self.test(IntersectionError.__name__,
                      str(x),
                      'distance (10.0), ...',
                      known=True,
                      nt=1)

        n = LimitError.__name__
        t = limiterrors(True)
        try:  # coverage
            self.test(n, equirectangular(0, 0, 60, 120), n)
        except Exception as x:
            self.test(n, str(x), 'delta exceeds ...', known=True)
        limiterrors(t)