Lines Matching refs:deg
189 i1 = ICRS(r.SphericalRepresentation(1*u.deg, 2*u.deg, 3*u.kpc))
190 i2 = ICRS(r.UnitSphericalRepresentation(lon=1*u.deg, lat=2*u.deg))
193 i3 = ICRS(ra=1*u.deg, dec=2*u.deg, distance=3*u.kpc)
194 i4 = ICRS(ra=1*u.deg, dec=2*u.deg)
209 i1.ra = [11.]*u.deg
214 TOL = 1e-10*u.deg
216 i = ICRS(1*u.deg, 2*u.deg)
217 assert (i.ra - 1*u.deg) < TOL
218 assert (i.dec - 2*u.deg) < TOL
220 g = Galactic(1*u.deg, 2*u.deg)
221 assert (g.l - 1*u.deg) < TOL
222 assert (g.b - 2*u.deg) < TOL
224 a = AltAz(1*u.deg, 2*u.deg)
225 assert (a.az - 1*u.deg) < TOL
226 assert (a.alt - 2*u.deg) < TOL
229 ICRS(1*u.deg, 2*u.deg, 1*u.deg, 2*u.deg)
232 sph = r.SphericalRepresentation(1*u.deg, 2*u.deg, 3*u.kpc)
233 ICRS(sph, 1*u.deg, 2*u.deg)
271 i2 = ICRS(ra=1*u.deg, dec=2*u.deg)
272 i3 = ICRS(ra=1*u.deg, dec=2*u.deg, distance=3*u.kpc)
280 i2 = ICRS(ra=[1.1, 2.1]*u.deg, dec=[2.1, 3.1]*u.deg)
281 i3 = ICRS(ra=[1.1, 2.1]*u.deg, dec=[-15.6, 17.1]*u.deg, distance=[11., 21.]*u.kpc)
292 i = ICRS(ra=1*u.deg, dec=2*u.deg,
310 i2 = ICRS(ra=2.*u.deg, dec=2.*u.deg)
311 i2_many = ICRS(ra=[2., 4.]*u.deg, dec=[2., -8.1]*u.deg)
362 i1 = NewICRS1(rara=10*u.degree, decdec=-12*u.deg, distance=1000*u.pc,
366 assert allclose(i1.rara, 10*u.deg)
368 assert allclose(i1.decdec, -12*u.deg)
377 assert allclose(i1.rara, 10*u.deg)
378 assert allclose(i1.decdec, -12*u.deg)
392 i2 = NewICRS2(ang1=10*u.degree, ang2=-12*u.deg, howfar=1000*u.pc)
393 assert allclose(i2.ang1, 10*u.deg)
395 assert allclose(i2.ang2, -12*u.deg)
408 i3 = NewICRS3(lon=10*u.degree, lat=-12*u.deg, distance=1000*u.pc,
420 rep = r.SphericalRepresentation(1*u.deg, 2*u.deg, 3*u.kpc)
447 i = ICRS(ra=[1]*u.deg, dec=[2]*u.deg)
451 i.data._lat[:] = 0*u.deg
459 aa = AltAz(alt=1*u.deg, az=2*u.deg, obstime=Time('J2000'))
470 [1, 2, 3]*u.deg, [4, 5, 6]*u.deg, [7, 8, 9]*u.kpc)
488 i = ICRS(ra=[1, 2]*u.deg, dec=[3, 4]*u.deg)
497 i = ICRS(ra=[1, 2]*u.deg, dec=[3, 4]*u.deg, distance=[5, 6]*u.kpc)
503 f = FK5(ra=1*u.deg, dec=2*u.deg, equinox=Time('J2001'))
512 i = ICRS(ra=[1, 2]*u.deg, dec=[3, 4]*u.deg)
518 f = FK5(ra=1*u.deg, dec=2*u.deg, equinox=Time('J2001'))
527 i1 = ICRS(ra=[1, 2]*u.deg, dec=[3, 4]*u.deg)
537 coo1 = ICRS(ra=[[0.], [10.], [20.]]*u.deg,
538 dec=[[-30.], [30.], [60.]]*u.deg)
548 sc0 = FK4([1, 2]*u.deg, [3, 4]*u.deg, obstime=obstime)
549 sc2 = FK4([10, 20]*u.deg, [30, 40]*u.deg, obstime=obstime)
558 assert np.allclose(sc1.ra.to_value(u.deg), [1, 10])
559 assert np.allclose(sc1.dec.to_value(u.deg), [3, 30])
565 assert np.allclose(sc1.ra.to_value(u.deg), [10, 10])
566 assert np.allclose(sc1.dec.to_value(u.deg), [30, 30])
570 assert np.allclose(sc1.ra.to_value(u.deg), [10, 20])
571 assert np.allclose(sc1.dec.to_value(u.deg), [30, 40])
575 assert np.allclose(sc1.ra.to_value(u.deg), [20, 10])
576 assert np.allclose(sc1.dec.to_value(u.deg), [40, 30])
583 sc1 = FK4([[1, 2], [3, 4]] * u.deg, [[5, 6], [7, 8]] * u.deg)
584 sc2 = FK4([[10, 20], [30, 40]] * u.deg, [[50, 60], [70, 80]] * u.deg)
586 assert np.allclose(sc1.ra.to_value(u.deg), [[10, 20], [3, 4]])
587 assert np.allclose(sc1.dec.to_value(u.deg), [[50, 60], [7, 8]])
594 sc0 = FK4([1, 2]*u.deg, [3, 4]*u.deg, radial_velocity=[1, 2]*u.km/u.s,
596 sc2 = FK4([10, 20]*u.deg, [30, 40]*u.deg, radial_velocity=[10, 20]*u.km/u.s,
601 assert np.allclose(sc1.ra.to_value(u.deg), [1, 10])
602 assert np.allclose(sc1.dec.to_value(u.deg), [3, 30])
609 assert np.allclose(sc1.ra.to_value(u.deg), [10, 10])
610 assert np.allclose(sc1.dec.to_value(u.deg), [30, 30])
615 assert np.allclose(sc1.ra.to_value(u.deg), [10, 20])
616 assert np.allclose(sc1.dec.to_value(u.deg), [30, 40])
621 assert np.allclose(sc1.ra.to_value(u.deg), [20, 10])
622 assert np.allclose(sc1.dec.to_value(u.deg), [40, 30])
629 sc0 = FK4([1, 2]*u.deg, [3, 4]*u.deg)
630 sc2 = FK4([10, 20]*u.deg, [30, 40]*u.deg, obstime=obstime)
662 i1 = ICRS(ra=0*u.deg, dec=1*u.deg)
663 i2 = ICRS(ra=0*u.deg, dec=2*u.deg)
666 assert_allclose(sep.deg, 1.)
668 i3 = ICRS(ra=[1, 2]*u.deg, dec=[3, 4]*u.deg, distance=[5, 6]*u.kpc)
669 i4 = ICRS(ra=[1, 2]*u.deg, dec=[3, 4]*u.deg, distance=[4, 5]*u.kpc)
675 i5 = ICRS(ra=[1, 2]*u.deg, dec=[3, 4]*u.deg, distance=[5, 6]*u.kpc,
678 i6 = ICRS(ra=[1, 2]*u.deg, dec=[3, 4]*u.deg, distance=[7, 8]*u.kpc,
686 i7 = ICRS(ra=1*u.deg, dec=2*u.deg, distance=3*u.one)
687 i8 = ICRS(ra=1*u.deg, dec=2*u.deg, distance=4*u.one)
701 c = FK4(1 * u.deg, 2 * u.deg, equinox='J2001.5', obstime='2000-01-01 12:00:00')
706 c = FK4(1 * u.deg, 2 * u.deg, equinox=1.5)
710 c = FK4(1 * u.deg, 2 * u.deg, obstime='hello')
715 FK4([1, 2] * u.deg, [2, 3] * u.deg, obstime=['J2000', 'J2001'])
717 FK4(1 * u.deg, 2 * u.deg, obstime=['J2000', 'J2001'])
726 c1 = FK5(ra=1*u.deg, dec=1*u.deg)
727 c2 = FK5(ra=1*u.deg, dec=1*u.deg, equinox=FK5.get_frame_attr_names()['equinox'])
728 c3 = FK5(ra=1*u.deg, dec=1*u.deg, equinox=Time('J2001.5'))
737 c4 = c1.realize_frame(r.UnitSphericalRepresentation(3*u.deg, 4*u.deg))
738 c5 = c2.realize_frame(r.UnitSphericalRepresentation(3*u.deg, 4*u.deg))
745 aa = AltAz(1*u.deg, 2*u.deg)
749 aa2 = AltAz(1*u.deg, 2*u.deg, obstime='J2000')
752 aa3 = AltAz(1*u.deg, 2*u.deg, location=EarthLocation(0*u.deg, 0*u.deg, 0*u.m))
757 hd = HADec(1*u.hourangle, 2*u.deg)
759 assert hd.dec == 2*u.deg
763 hd2 = HADec(23*u.hourangle, -2*u.deg, obstime='J2000',
764 location=EarthLocation(0*u.deg, 0*u.deg, 0*u.m))
766 assert hd2.dec == -2*u.deg
780 icrs = ICRS(ra=1*u.deg, dec=1*u.deg)
850 icrs = ICRS(ra=1*u.deg, dec=1*u.deg)
860 icrs = ICRS(ra=0*u.deg, dec=0*u.deg, distance=10*u.kpc,
911 sc1 = FK4([1, 2]*u.deg, [3, 4]*u.deg, obstime=obstime)
912 sc2 = FK4([1, 20]*u.deg, [3, 4]*u.deg, obstime=obstime)
929 sc1 = FK4([1, 2]*u.deg, [3, 4]*u.deg, radial_velocity=[1, 2]*u.km/u.s)
930 sc2 = FK4([1, 2]*u.deg, [3, 4]*u.deg, radial_velocity=[1, 20]*u.km/u.s)
946 sc1 = FK4([1, 2, 3]*u.deg, [3, 4, 5]*u.deg)
952 sc2 = FK4(1*u.deg, 2*u.deg, 2, representation_type='spherical')
958 sc1 = FK4(1*u.deg, 2*u.deg, radial_velocity=1*u.km/u.s)
959 sc2 = FK4(1*u.deg, 2*u.deg, pm_ra_cosdec=1*u.mas/u.yr, pm_dec=1*u.mas/u.yr)
965 sc1 = FK5(1*u.deg, 2*u.deg)
966 sc2 = FK5(1*u.deg, 2*u.deg, equinox='J1999')
973 sc1 = FK4(1*u.deg, 2*u.deg)
974 sc2 = FK5(1*u.deg, 2*u.deg, equinox='J2000')
980 sc1 = FK4(1*u.deg, 2*u.deg)
991 c = ICRS(1*u.deg, 2*u.deg)
1018 i = ICRS([]*u.deg, []*u.deg)
1041 someval = QuantityAttribute(unit=u.deg)
1046 frame = MyCoord(someval=15*u.deg)
1047 assert u.isclose(frame.someval, 15*u.deg)
1052 someval = QuantityAttribute(15*u.deg)
1055 assert u.isclose(frame.someval, 15*u.deg)
1058 frame = MyCoord2(someval=np.ones(3)*u.deg)
1060 assert np.all(frame.someval == 1*u.deg)
1066 frame = MyCoord3(someval=np.ones(3)*u.deg)
1073 MyCoord3(someval=1.*u.deg)
1097 el = EarthLocation(lon=12.3*u.deg, lat=45.6*u.deg, height=1*u.km)
1098 it = ITRS(r.SphericalRepresentation(lon=12.3*u.deg, lat=45.6*u.deg, distance=1*u.km))
1099 gc = GCRS(ra=12.3*u.deg, dec=45.6*u.deg, distance=6375*u.km)
1131 i2 = ICRS(1*u.deg, 2*u.deg)
1141 f2 = FK5(1*u.deg, 2*u.deg, equinox='J2000')
1167 f1 = FrameWithCoordinateAttribute(coord_attr=HCRS(1*u.deg, 2*u.deg, obstime='J2000'))
1168 f2 = FrameWithCoordinateAttribute(coord_attr=HCRS(3*u.deg, 4*u.deg, obstime='J2000'))
1169 f3 = FrameWithCoordinateAttribute(coord_attr=HCRS(1*u.deg, 2*u.deg, obstime='J2001'))
1208 frame = FK5(representation_type=r.SphericalRepresentation, ra=32 * u.deg, dec=20 * u.deg)
1217 frame = FK5(representation_type=NewSphericalRepresentation, lon=32 * u.deg, lat=20 * u.deg)
1236 frame = FK5(NewUnitSphericalRepresentation(lon=32 * u.deg, lat=20 * u.deg),
1247 c = ICRS([1, 1] * u.deg, [2, 2] * u.deg)
1274 i = ICRS(1*u.deg, 2*u.deg)
1288 i = ICRS([[1, 2], [3, 4]]*u.deg, [[10, 20], [30, 40]]*u.deg)
1297 i.data.lon[:, 0] = [100, 200]*u.deg
1303 assert_allclose(i.ra, [[100, 2], [200, 4]]*u.deg)
1304 assert_allclose(i.dec, [[10, 20], [30, 40]]*u.deg)
1309 i = ICRS(1*u.deg, 2*u.deg)
1318 i.data.lon[()] = 10*u.deg
1324 assert i.ra == 10 * u.deg
1325 assert i.dec == 2 * u.deg
1354 ICRS(ra=150 * u.deg)
1358 ICRS(ra=150*u.deg, dec=-11*u.deg,
1368 pic = PhysicsICRS(phi=1*u.deg, theta=25*u.deg, r=1*u.kpc)
1371 picu = PhysicsICRS(phi=1*u.deg, theta=25*u.deg)
1394 RepresentationMapping('phi', 'theta', u.deg),
1398 frame = NameChangeFrame(0*u.deg, 0*u.arcsec, 0*u.AU)
1493 hcrs = HCRS(1*u.deg, 2*u.deg, 3*u.AU, obstime='2001-02-03')
1502 gcrs = GCRS(4*u.deg, 5*u.deg, 6*u.AU, obstime='2004-05-06')