Exemple #1
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def test_ned():
    xyz = pm.aer2ecef(*aer0, *lla0)
    enu = pm.aer2enu(*aer0)
    ned = (enu[1], enu[0], -enu[2])
    lla = pm.aer2geodetic(*aer0, *lla0)

    assert pm.aer2ned(*aer0) == approx(ned0)

    with pytest.raises(ValueError):
        pm.aer2ned(aer0[0], aer0[1], -1)

    assert pm.enu2aer(*enu) == approx(aer0)
    assert pm.enu2aer(*enu, deg=False) == approx(raer0)

    assert pm.ned2aer(*ned) == approx(aer0)

    assert pm.ecef2ned(*xyz, *lla0) == approx(ned)

    assert pm.ned2ecef(*ned, *lla0) == approx(xyz)
    # %%
    assert pm.ecef2enuv(vx, vy, vz, *lla0[:2]) == approx((ve, vn, vu))

    assert pm.ecef2nedv(vx, vy, vz, *lla0[:2]) == approx((vn, ve, -vu))

    # %%
    enu3 = pm.geodetic2enu(*lla, *lla0)
    ned3 = (enu3[1], enu3[0], -enu3[2])

    assert pm.geodetic2ned(*lla, *lla0) == approx(ned3)

    assert pm.enu2geodetic(*enu3, *lla0) == approx(lla)

    assert pm.ned2geodetic(*ned3, *lla0) == approx(lla)
Exemple #2
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def test_ned():
    xyz = pm.aer2ecef(*aer0, *lla0)
    enu = pm.aer2enu(*aer0)
    ned = (enu[1], enu[0], -enu[2])
    lla = pm.aer2geodetic(*aer0, *lla0)

    assert pm.aer2ned(*aer0) == approx(ned0)

    with pytest.raises(ValueError):
        pm.aer2ned(aer0[0], aer0[1], -1)

    assert pm.enu2aer(*enu) == approx(aer0)
    assert pm.enu2aer(*enu, deg=False) == approx(raer0)

    assert pm.ned2aer(*ned) == approx(aer0)

    assert pm.ecef2ned(*xyz, *lla0) == approx(ned)

    assert pm.ned2ecef(*ned, *lla0) == approx(xyz)
# %%
    assert pm.ecef2enuv(vx, vy, vz, *lla0[:2]) == approx((ve, vn, vu))

    assert pm.ecef2nedv(vx, vy, vz, *lla0[:2]) == approx((vn, ve, -vu))

# %%
    enu3 = pm.geodetic2enu(*lla, *lla0)
    ned3 = (enu3[1], enu3[0], -enu3[2])

    assert pm.geodetic2ned(*lla, *lla0) == approx(ned3)

    assert pm.enu2geodetic(*enu3, *lla0) == approx(lla)

    assert pm.ned2geodetic(*ned3, *lla0) == approx(lla)
Exemple #3
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def test_ecefenu():
    assert_allclose(pm.aer2ecef(taz, tel, tsrange, tlat, tlon, talt),
                    (a2x, a2y, a2z),
                    rtol=0.01,
                    err_msg='aer2ecef: {}'.format(
                        pm.aer2ecef(taz, tel, tsrange, tlat, tlon, talt)))

    assert_allclose(pm.aer2enu(taz, tel, tsrange), (a2e, a2n, a2u),
                    rtol=0.01,
                    err_msg='aer2enu: ' + str(pm.aer2enu(taz, tel, tsrange)))

    assert_allclose(pm.aer2ned(taz, tel, tsrange), (a2n, a2e, -a2u),
                    rtol=0.01,
                    err_msg='aer2ned: ' + str(pm.aer2ned(taz, tel, tsrange)))

    assert_allclose(pm.ecef2enu(tx, ty, tz, tlat, tlon, talt), (e2e, e2n, e2u),
                    rtol=0.01,
                    err_msg='ecef2enu: {}'.format(
                        pm.ecef2enu(tx, ty, tz, tlat, tlon, talt)))

    assert_allclose(pm.ecef2enuv(vx, vy, vz, tlat, tlon), (ve, vn, vu))

    assert_allclose(pm.ecef2ned(tx, ty, tz, tlat, tlon, talt),
                    (e2n, e2e, -e2u),
                    rtol=0.01,
                    err_msg='ecef2ned: {}'.format(
                        pm.ecef2enu(tx, ty, tz, tlat, tlon, talt)))

    assert_allclose(pm.ecef2nedv(vx, vy, vz, tlat, tlon), (vn, ve, -vu))

    assert_allclose(pm.aer2geodetic(taz, tel, tsrange, tlat, tlon, talt),
                    (a2la, a2lo, a2a),
                    rtol=0.01,
                    err_msg='aer2geodetic {}'.format(
                        pm.aer2geodetic(taz, tel, tsrange, tlat, tlon, talt)))

    assert_allclose(pm.ecef2aer(tx, ty, tz, tlat, tlon, talt),
                    (ec2az, ec2el, ec2rn),
                    rtol=0.01,
                    err_msg='ecef2aer {}'.format(
                        pm.ecef2aer(a2x, a2y, a2z, tlat, tlon, talt)))
    #%%
    assert_allclose(pm.enu2aer(te, tn, tu), (e2az, e2el, e2rn),
                    rtol=0.01,
                    err_msg='enu2aer: ' + str(pm.enu2aer(te, tn, tu)))

    assert_allclose(pm.ned2aer(tn, te, -tu), (e2az, e2el, e2rn),
                    rtol=0.01,
                    err_msg='enu2aer: ' + str(pm.enu2aer(te, tn, tu)))

    assert_allclose(pm.enu2geodetic(te, tn, tu, tlat, tlon,
                                    talt), (lat2, lon2, alt2),
                    rtol=0.01,
                    err_msg='enu2geodetic: ' +
                    str(pm.enu2geodetic(te, tn, tu, tlat, tlon, talt)))

    assert_allclose(pm.ned2geodetic(tn, te, -tu, tlat, tlon,
                                    talt), (lat2, lon2, alt2),
                    rtol=0.01,
                    err_msg='enu2geodetic: ' +
                    str(pm.enu2geodetic(te, tn, tu, tlat, tlon, talt)))

    assert_allclose(pm.enu2ecef(te, tn, tu, tlat, tlon, talt), (e2x, e2y, e2z),
                    rtol=0.01,
                    err_msg='enu2ecef: ' +
                    str(pm.enu2ecef(te, tn, tu, tlat, tlon, talt)))

    assert_allclose(
        pm.ned2ecef(tn, te, -tu, tlat, tlon, talt), (e2x, e2y, e2z),
        rtol=0.01,
        err_msg='ned2ecef: ' + str(pm.ned2ecef(tn, te, -tu, tlat, tlon, talt)))
Exemple #4
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def test_enuv_nedv():
    vx, vy, vz = (5, 3, 2)
    ve, vn, vu = (5.368859646588048, 3.008520763668120, -0.352347711524077)
    assert pm.ecef2enuv(vx, vy, vz, *lla0[:2]) == approx((ve, vn, vu))

    assert pm.ecef2nedv(vx, vy, vz, *lla0[:2]) == approx((vn, ve, -vu))
Exemple #5
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    def test_geodetic(self):
        if pyproj:
            ecef = pyproj.Proj(proj='geocent', ellps='WGS84', datum='WGS84')
            lla = pyproj.Proj(proj='latlong', ellps='WGS84', datum='WGS84')

        xyz1 = pm.geodetic2ecef(*lla0)

        assert_allclose(pm.geodetic2ecef(*rlla0, deg=False),
                        xyz1,
                        err_msg='geodetic2ecef: rad')
        assert_allclose(xyz1, xyz0, err_msg='geodetic2ecef: deg')

        assert_allclose(pm.ecef2geodetic(*xyz1),
                        lla0,
                        err_msg='ecef2geodetic: deg')
        assert_allclose(pm.ecef2geodetic(*xyz1, deg=False),
                        rlla0,
                        err_msg='ecef2geodetic: rad')

        if pyproj:
            assert_allclose(
                pyproj.transform(lla, ecef, lla0[1], lla0[0], lla0[2]), xyz1)
            assert_allclose(pyproj.transform(ecef, lla, *xyz1),
                            (lla0[1], lla0[0], lla0[2]))

        lla2 = pm.aer2geodetic(*aer0, *lla0)
        rlla2 = pm.aer2geodetic(*raer0, *rlla0, deg=False)

        assert_allclose(lla2, lla1, err_msg='aer2geodetic: deg')
        assert_allclose(rlla2, rlla1, err_msg='aer2geodetic:rad')

        assert_allclose(pm.geodetic2aer(*lla2, *lla0),
                        aer0,
                        err_msg='geodetic2aer: deg')
        assert_allclose(pm.geodetic2aer(*rlla2, *rlla0, deg=False),
                        raer0,
                        err_msg='geodetic2aer: rad')

        # %% aer-ecef
        xyz2 = pm.aer2ecef(*aer0, *lla0)

        assert_allclose(pm.aer2ecef(*raer0, *rlla0, deg=False),
                        axyz0,
                        err_msg='aer2ecef:rad')

        assert_allclose(xyz2, axyz0, err_msg='aer2ecef: deg')

        assert_allclose(pm.ecef2aer(*xyz2, *lla0),
                        aer0,
                        err_msg='ecef2aer:deg')
        assert_allclose(pm.ecef2aer(*xyz2, *rlla0, deg=False),
                        raer0,
                        err_msg='ecef2aer:rad')
        # %% aer-enu
        enu1 = pm.aer2enu(*aer0)
        ned1 = (enu1[1], enu1[0], -enu1[2])

        assert_allclose(enu1, enu0, err_msg='aer2enu: deg')
        assert_allclose(pm.aer2enu(*raer0, deg=False),
                        enu0,
                        err_msg='aer2enu: rad')

        assert_allclose(pm.aer2ned(*aer0), ned0, err_msg='aer2ned')

        assert_allclose(pm.enu2aer(*enu1), aer0, err_msg='enu2aer: deg')
        assert_allclose(pm.enu2aer(*enu1, deg=False),
                        raer0,
                        err_msg='enu2aer: rad')

        assert_allclose(pm.ned2aer(*ned1), aer0, err_msg='ned2aer')

        # %% enu-ecef
        assert_allclose(pm.enu2ecef(*enu1, *lla0),
                        xyz2,
                        err_msg='enu2ecef: deg')
        assert_allclose(pm.enu2ecef(*enu1, *rlla0, deg=False),
                        xyz2,
                        err_msg='enu2ecef: rad')

        assert_allclose(pm.ecef2enu(*xyz2, *lla0),
                        enu1,
                        err_msg='ecef2enu:deg')
        assert_allclose(pm.ecef2enu(*xyz2, *rlla0, deg=False),
                        enu1,
                        err_msg='ecef2enu:rad')

        assert_allclose(pm.ecef2ned(*xyz2, *lla0), ned1, err_msg='ecef2ned')

        assert_allclose(pm.ned2ecef(*ned1, *lla0), xyz2, err_msg='ned2ecef')
        # %%
        assert_allclose(pm.ecef2enuv(vx, vy, vz, *lla0[:2]), (ve, vn, vu))

        assert_allclose(pm.ecef2nedv(vx, vy, vz, *lla0[:2]), (vn, ve, -vu))

        # %%
        enu3 = pm.geodetic2enu(*lla2, *lla0)
        ned3 = (enu3[1], enu3[0], -enu3[2])

        assert_allclose(pm.geodetic2ned(*lla2, *lla0),
                        ned3,
                        err_msg='geodetic2ned: deg')

        assert_allclose(pm.enu2geodetic(*enu3, *lla0),
                        lla2,
                        err_msg='enu2geodetic')

        assert_allclose(pm.ned2geodetic(*ned3, *lla0),
                        lla2,
                        err_msg='ned2geodetic')
Exemple #6
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    def test_geodetic(self):
        if pyproj:
            ecef = pyproj.Proj(proj='geocent', ellps='WGS84', datum='WGS84')
            lla = pyproj.Proj(proj='latlong', ellps='WGS84', datum='WGS84')

        x1, y1, z1 = pm.geodetic2ecef(tlat, tlon, talt)

        assert_allclose(
            pm.geodetic2ecef(radians(tlat), radians(tlon), talt, deg=False),
            (x1, y1, z1))

        assert_allclose((x1, y1, z1), (x0, y0, z0), err_msg='geodetic2ecef')

        assert_allclose(pm.ecef2geodetic(x1, y1, z1), (tlat, tlon, talt),
                        err_msg='ecef2geodetic')

        if pyproj:
            assert_allclose(pyproj.transform(lla, ecef, tlon, tlat, talt),
                            (x1, y1, z1))
            assert_allclose(pyproj.transform(ecef, lla, x1, y1, z1),
                            (tlon, tlat, talt))

        lat2, lon2, alt2 = pm.aer2geodetic(taz, tel, tsrange, tlat, tlon, talt)

        assert_allclose((lat2, lon2, alt2), (lat1, lon1, alt1),
                        err_msg='aer2geodetic')

        assert_allclose(pm.geodetic2aer(lat2, lon2, alt2, tlat, tlon, talt),
                        (taz, tel, tsrange),
                        err_msg='geodetic2aer')

        x2, y2, z2 = pm.aer2ecef(taz, tel, tsrange, tlat, tlon, talt)

        assert_allclose(
            pm.aer2ecef(radians(taz),
                        radians(tel),
                        tsrange,
                        radians(tlat),
                        radians(tlon),
                        talt,
                        deg=False), (a2x, a2y, a2z))

        assert_allclose((x2, y2, z2), (a2x, a2y, a2z), err_msg='aer2ecef')

        assert_allclose(pm.ecef2aer(x2, y2, z2, tlat, tlon, talt),
                        (taz, tel, tsrange),
                        err_msg='ecef2aer')

        e1, n1, u1 = pm.aer2enu(taz, tel, tsrange)

        assert_allclose((e1, n1, u1), (e0, n0, u0), err_msg='aer2enu')

        assert_allclose(pm.aer2ned(taz, tel, tsrange), (n0, e0, -u0),
                        err_msg='aer2ned')

        assert_allclose(pm.enu2aer(e1, n1, u1), (taz, tel, tsrange),
                        err_msg='enu2aer')

        assert_allclose(pm.ned2aer(n1, e1, -u1), (taz, tel, tsrange),
                        err_msg='ned2aer')

        assert_allclose(pm.enu2ecef(e1, n1, u1, tlat, tlon, talt),
                        (x2, y2, z2),
                        err_msg='enu2ecef')

        assert_allclose(pm.ecef2enu(x2, y2, z2, tlat, tlon, talt),
                        (e1, n1, u1),
                        err_msg='ecef2enu')

        assert_allclose(pm.ecef2ned(x2, y2, z2, tlat, tlon, talt),
                        (n1, e1, -u1),
                        err_msg='ecef2ned')

        assert_allclose(pm.ned2ecef(n1, e1, -u1, tlat, tlon, talt),
                        (x2, y2, z2),
                        err_msg='ned2ecef')
        # %%
        assert_allclose(pm.ecef2enuv(vx, vy, vz, tlat, tlon), (ve, vn, vu))

        assert_allclose(pm.ecef2nedv(vx, vy, vz, tlat, tlon), (vn, ve, -vu))

        #%%
        e3, n3, u3 = pm.geodetic2enu(lat2, lon2, alt2, tlat, tlon, talt)

        assert_allclose(pm.geodetic2ned(lat2, lon2, alt2, tlat, tlon, talt),
                        (n3, e3, -u3))

        assert_allclose(pm.enu2geodetic(e3, n3, u3, tlat, tlon, talt),
                        (lat2, lon2, alt2),
                        err_msg='enu2geodetic')

        assert_allclose(pm.ned2geodetic(n3, e3, -u3, tlat, tlon, talt),
                        (lat2, lon2, alt2),
                        err_msg='ned2geodetic')