Lines Matching refs:deg
35 RA = 1.0 * u.deg
36 DEC = 2.0 * u.deg
69 c = SkyCoord(90*u.deg, -11*u.deg)
155 assert allclose(sc.ra, 1 * u.deg)
156 assert allclose(sc.dec, 2 * u.deg)
159 assert allclose(sc.ra, 1 * u.deg)
160 assert allclose(sc.dec, 2 * u.deg)
174 sc1 = SkyCoord('8 00 00 +5 00 00.0', unit=(u.hour, u.deg), frame='icrs')
176 assert allclose(sc1.ra, Angle(120 * u.deg))
177 assert allclose(sc1.dec, Angle(5 * u.deg))
179 sc11 = SkyCoord('8h00m00s+5d00m00.0s', unit=(u.hour, u.deg), frame='icrs')
181 assert allclose(sc1.ra, Angle(120 * u.deg))
182 assert allclose(sc1.dec, Angle(5 * u.deg))
184 sc2 = SkyCoord('8 00 -5 00 00.0', unit=(u.hour, u.deg), frame='icrs')
186 assert allclose(sc2.ra, Angle(120 * u.deg))
187 assert allclose(sc2.dec, Angle(-5 * u.deg))
189 sc3 = SkyCoord('8 00 -5 00.6', unit=(u.hour, u.deg), frame='icrs')
191 assert allclose(sc3.ra, Angle(120 * u.deg))
192 assert allclose(sc3.dec, Angle(-5.01 * u.deg))
194 sc4 = SkyCoord('J080000.00-050036.00', unit=(u.hour, u.deg), frame='icrs')
196 assert allclose(sc4.ra, Angle(120 * u.deg))
197 assert allclose(sc4.dec, Angle(-5.01 * u.deg))
199 sc41 = SkyCoord('J080000+050036', unit=(u.hour, u.deg), frame='icrs')
201 assert allclose(sc41.ra, Angle(120 * u.deg))
202 assert allclose(sc41.dec, Angle(+5.01 * u.deg))
204 sc5 = SkyCoord('8h00.6m -5d00.6m', unit=(u.hour, u.deg), frame='icrs')
206 assert allclose(sc5.ra, Angle(120.15 * u.deg))
207 assert allclose(sc5.dec, Angle(-5.01 * u.deg))
209 sc6 = SkyCoord('8h00.6m -5d00.6m', unit=(u.hour, u.deg), frame='fk4')
211 assert allclose(sc6.ra, Angle(120.15 * u.deg))
212 assert allclose(sc6.dec, Angle(-5.01 * u.deg))
214 sc61 = SkyCoord('8h00.6m-5d00.6m', unit=(u.hour, u.deg), frame='fk4')
216 assert allclose(sc6.ra, Angle(120.15 * u.deg))
217 assert allclose(sc6.dec, Angle(-5.01 * u.deg))
219 sc61 = SkyCoord('8h00.6-5d00.6', unit=(u.hour, u.deg), frame='fk4')
221 assert allclose(sc6.ra, Angle(120.15 * u.deg))
222 assert allclose(sc6.dec, Angle(-5.01 * u.deg))
224 sc7 = SkyCoord("J1874221.60+122421.6", unit=u.deg)
226 assert allclose(sc7.ra, Angle(187.706 * u.deg))
227 assert allclose(sc7.dec, Angle(12.406 * u.deg))
230 SkyCoord('8 00 -5 00.6', unit=(u.deg, u.deg), frame='galactic')
237 for unit in ('deg', 'deg,deg', ' deg , deg ', u.deg, (u.deg, u.deg),
240 assert allclose(sc.ra, Angle(1 * u.deg))
241 assert allclose(sc.dec, Angle(2 * u.deg))
246 assert allclose(sc.ra, Angle(15 * u.deg))
247 assert allclose(sc.dec, Angle(30 * u.deg))
249 for unit in ('hourangle,deg', (u.hourangle, u.deg)):
251 assert allclose(sc.ra, Angle(15 * u.deg))
252 assert allclose(sc.dec, Angle(2 * u.deg))
254 for unit in ('deg,deg,deg,deg', [u.deg, u.deg, u.deg, u.deg], None):
259 for unit in ('m', (u.m, u.deg), ''):
269 (1 * u.deg, 2 * u.deg),
284 sc = SkyCoord([1 * u.deg, 1 * u.deg], [2 * u.deg, 2 * u.deg])
289 SkyCoord([1 * u.deg, 2 * u.deg]) # this list is taken as RA w/ missing dec
301 assert allclose(sc.ra - [1, 3] * u.deg, 0 * u.deg)
302 assert allclose(sc.dec - [2, 4] * u.deg, 0 * u.deg)
305 assert allclose(sc.ra - [1, 3] * u.deg, 0 * u.deg)
306 assert allclose(sc.dec - [2, 4] * u.deg, 0 * u.deg)
313 coord = SphericalRepresentation(lon=8 * u.deg, lat=5 * u.deg, distance=1 * u.kpc)
358 sc1 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg, obstime=obstime)
359 sc2 = SkyCoord([1, 20]*u.deg, [3, 4]*u.deg, obstime=obstime)
376 sc1 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg, radial_velocity=[1, 2]*u.km/u.s)
377 sc2 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg, radial_velocity=[1, 20]*u.km/u.s)
388 sc1 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg, obstime='B1955')
395 sc1 = SkyCoord(1*u.deg, 2*u.deg, obstime='B1955')
396 sc2 = SkyCoord(1*u.deg, 2*u.deg)
448 sc0 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg, obstime='B1955', frame=frame)
449 sc2 = SkyCoord([10, 20]*u.deg, [30, 40]*u.deg, obstime='B1955', frame=frame)
453 assert np.allclose(sc1.ra.to_value(u.deg), [1, 10])
454 assert np.allclose(sc1.dec.to_value(u.deg), [3, 30])
460 assert np.allclose(sc1.ra.to_value(u.deg), [10, 10])
461 assert np.allclose(sc1.dec.to_value(u.deg), [30, 30])
465 assert np.allclose(sc1.ra.to_value(u.deg), [10, 20])
466 assert np.allclose(sc1.dec.to_value(u.deg), [30, 40])
470 assert np.allclose(sc1.ra.to_value(u.deg), [20, 10])
471 assert np.allclose(sc1.dec.to_value(u.deg), [40, 30])
475 sc = SkyCoord(np.ones((2, 1))*u.deg, np.ones((1, 3))*u.deg)
476 sc[1, 1] = SkyCoord(0*u.deg, 0*u.deg)
477 expected = np.ones((2, 3))*u.deg
486 sc0 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg, radial_velocity=[1, 2]*u.km/u.s,
488 sc2 = SkyCoord([10, 20]*u.deg, [30, 40]*u.deg, radial_velocity=[10, 20]*u.km/u.s,
493 assert np.allclose(sc1.ra.to_value(u.deg), [1, 10])
494 assert np.allclose(sc1.dec.to_value(u.deg), [3, 30])
501 assert np.allclose(sc1.ra.to_value(u.deg), [10, 10])
502 assert np.allclose(sc1.dec.to_value(u.deg), [30, 30])
507 assert np.allclose(sc1.ra.to_value(u.deg), [10, 20])
508 assert np.allclose(sc1.dec.to_value(u.deg), [30, 40])
513 assert np.allclose(sc1.ra.to_value(u.deg), [20, 10])
514 assert np.allclose(sc1.dec.to_value(u.deg), [40, 30])
523 sc0 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg, frame='fk4')
524 sc2 = SkyCoord([10, 20]*u.deg, [30, 40]*u.deg, frame='fk4', obstime=obstime)
541 sc1 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg,
543 sc2 = SkyCoord([10, 20]*u.deg, [30, 40]*u.deg, radial_velocity=[10, 20]*u.km/u.s)
550 sc0 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg)
551 sc1 = SkyCoord(5*u.deg, 6*u.deg)
552 sc3 = SkyCoord([10, 20]*u.deg, [30, 40]*u.deg)
553 sc4 = SkyCoord([[1, 2], [3, 4]]*u.deg,
554 [[5, 6], [7, 8]]*u.deg)
555 sc5 = SkyCoord([[10, 2], [30, 4]]*u.deg,
556 [[50, 6], [70, 8]]*u.deg)
560 assert skycoord_equal(sc, SkyCoord([1, 5, 2]*u.deg, [3, 6, 4]*u.deg))
564 assert skycoord_equal(sc, SkyCoord([10, 20, 1, 2]*u.deg, [30, 40, 3, 4]*u.deg))
568 assert skycoord_equal(sc, SkyCoord([1, 2, 10, 20]*u.deg, [3, 4, 30, 40]*u.deg))
572 assert skycoord_equal(sc, SkyCoord([[1, 2], [10, 2], [30, 4], [3, 4]]*u.deg,
573 [[5, 6], [50, 6], [70, 8], [7, 8]]*u.deg))
577 sc0 = SkyCoord([1, 2]*u.deg, [3, 4]*u.deg)
578 sc1 = SkyCoord(5*u.deg, 6*u.deg)
580 sc4 = SkyCoord([[1, 2], [3, 4]]*u.deg,
581 [[5, 6], [7, 8]]*u.deg)
673 sc1 = SkyCoord(0 * u.deg, 1 * u.deg)
674 sc2 = cls_other(0 * u.deg, 2 * u.deg)
678 assert (sep - 1 * u.deg)/u.deg < 1e-10
683 sc3 = SkyCoord(1 * u.deg, 1 * u.deg, distance=1 * u.kpc)
684 sc4 = cls_other(1 * u.deg, 1 * u.deg, distance=2 * u.kpc)
691 sc1 = SkyCoord(0 * u.deg, 1 * u.deg, frame='icrs')
692 sc2 = SkyCoord(1 * u.deg, 1 * u.deg, frame='icrs', distance=1 * u.kpc)
699 sc3 = SkyCoord(0.25 * u.deg, [1, 2.5] * u.deg, frame='icrs')
702 sc_default = SkyCoord(0 * u.deg, 1 * u.deg)
708 sc2 = SkyCoord(1 * u.deg, 1 * u.deg, frame='icrs', distance=1 * u.kpc)
724 sc = SkyCoord(0 * u.deg, 1 * u.deg, frame='icrs')
725 sc_arr = SkyCoord(0 * u.deg, [1, 2] * u.deg, frame='icrs')
726 sc_empty = SkyCoord([] * u.deg, [] * u.deg, frame='icrs')
770 sc = SkyCoord(0 * u.deg, 1 * u.deg)
771 sc_arr = SkyCoord(0 * u.deg, [1, 2] * u.deg)
785 c1 = SkyCoord(0*u.deg, 0*u.deg)
787 c2 = SkyCoord(1*u.deg, 0*u.deg)
788 assert_allclose(c1.position_angle(c2) - 90.0 * u.deg, 0*u.deg)
790 c3 = SkyCoord(1*u.deg, 0.1*u.deg)
791 assert c1.position_angle(c3) < 90*u.deg
793 c4 = SkyCoord(0*u.deg, 1*u.deg)
794 assert_allclose(c1.position_angle(c4), 0*u.deg)
796 carr1 = SkyCoord(0*u.deg, [0, 1, 2]*u.deg)
797 carr2 = SkyCoord([-1, -2, -3]*u.deg, [0.1, 1.1, 2.1]*u.deg)
804 cicrs = SkyCoord(0*u.deg, 0*u.deg, frame='icrs')
805 cfk5 = SkyCoord(1*u.deg, 0*u.deg, frame='fk5')
807 assert cicrs.position_angle(cfk5) > 90.0 * u.deg
808 assert cicrs.position_angle(cfk5) < 91.0 * u.deg
825 cfk5 = SkyCoord(1*u.deg, 0*u.deg, frame='fk5')
826 cfk5B1950 = SkyCoord(1*u.deg, 0*u.deg, frame='fk5', equinox='B1950')
835 assert 179 < (posang_forward - posang_backward).wrap_at(360*u.deg).degree < 181
836 dcfk5 = SkyCoord(1*u.deg, 0*u.deg, frame='fk5', distance=1*u.pc)
837 dcfk5B1950 = SkyCoord(1*u.deg, 0*u.deg, frame='fk5', equinox='B1950',
849 for sc1 in [SkyCoord(0*u.deg,-90*u.deg), # South pole
850 SkyCoord(0 * u.deg, 90 * u.deg), # North pole
851 SkyCoord(1*u.deg,2*u.deg),
853 unit=u.deg, frame='fk4'),
855 unit=u.deg, frame='icrs'),
857 unit=(u.rad, u.deg), frame='barycentricmeanecliptic')]:
858 for sc2 in [SkyCoord(5*u.deg,10*u.deg),
860 unit=u.deg, frame='galactic')]:
872 sc1 = SkyCoord(0*u.deg, 89*u.deg)
873 for posang,sep in [(0*u.deg, 2*u.deg), (180*u.deg, 358*u.deg)]:
883 sc1 = SkyCoord(10*u.deg, 47*u.deg)
885 sc2 = sc1.directional_offset_by(posang, 180*u.deg)
887 sc2 = sc1.directional_offset_by(posang, 360*u.deg)
893 sc1 = SkyCoord(10*u.deg, 60*u.deg)
894 sc2 = sc1.directional_offset_by(90*u.deg, 1.0*u.deg)
910 t.add_column(Column(data=[1, 2, 3], name='ra', unit=u.deg))
911 t.add_column(Column(data=[4, 5, 6], name='dec', unit=u.deg))
915 assert allclose(c.ra.to(u.deg), [1, 2, 3] * u.deg)
916 assert allclose(c.dec.to(u.deg), [4, 5, 6] * u.deg)
1118 SkyCoord(1, 2, 3, unit=u.deg, representation_type='spherical')
1137 ref = SkyCoord(0.1 * u.deg, -89. * u.deg, frame='icrs')
1165 c = SkyCoord(1 * u.deg, 2 * u.deg, frame=FK5)
1174 c = SkyCoord(1 * u.deg, 2 * u.deg, frame=FK4)
1179 c = SkyCoord(1 * u.deg, 2 * u.deg, frame=FK4, obstime='J1980')
1184 c = SkyCoord(1 * u.deg, 2 * u.deg, frame=FK4, equinox='J1975', obstime='J1980')
1194 c = SkyCoord(1 * u.deg, 2 * u.deg, frame='fk5')
1195 c1 = SkyCoord(1 * u.deg, 2 * u.deg, frame='fk5', equinox='B1950.000')
1205 c1 = SkyCoord(1 * u.deg, 2 * u.deg)
1220 c1 = SkyCoord(np.arange(10.) * u.hourangle, np.arange(20., 30.) * u.deg)
1230 c1 = SkyCoord(1 * u.deg, 2 * u.deg)
1257 idx1_sky, idx2_sky, d2d_sky, d3d_sky = sc1.search_around_sky(sc2, 10*u.deg)
1264 c1 = SkyCoord(3 * u.deg, 4 * u.deg,
1269 c2 = SkyCoord(3 * u.deg, 4 * u.deg,
1270 frame=FK5(1. * u.deg, 2 * u.deg,
1277 c3 = SkyCoord(3 * u.deg, 4 * u.deg, frame=c1)
1282 c = SkyCoord(3 * u.deg, 4 * u.deg, frame=FK5(equinox='J2010'), equinox='J2001')
1296 npt.assert_array_equal(sc.ra.deg, tab['RA[J2000]'])
1297 npt.assert_array_equal(sc.dec.deg, tab['DEC[J2000]'])
1307 sc2 = SkyCoord.guess_from_table(tab, unit=u.deg)
1308 npt.assert_array_equal(sc2.ra.deg, tab['RA[J2000]'])
1309 npt.assert_array_equal(sc2.dec.deg, tab['DEC[J2000]'])
1314 SkyCoord.guess_from_table(tab, unit=u.deg)
1318 tab['RA[J2000]'].unit = u.deg
1319 tab['DEC[J2000]'].unit = u.deg
1345 SkyCoord.guess_from_table(tab, ra=tab['RA[J2000]'], unit=u.deg)
1349 sc3 = SkyCoord.guess_from_table(tab, ra=oldra, unit=u.deg)
1350 npt.assert_array_equal(sc3.ra.deg, oldra)
1351 npt.assert_array_equal(sc3.dec.deg, tab['DEC[J2000]'])
1355 l, b = np.arange(2).reshape(2, 1) * u.deg
1385 sc = SkyCoord(ra=[1, 2, 3]*u.deg, dec=[4, 5, 6]*u.deg)
1389 assert np.all(scnew.ra == [1, 3]*u.deg)
1390 assert np.all(scnew.dec == [4, 6]*u.deg)
1399 frobj = ICRS(2*u.deg, 5*u.deg)
1400 reprobj = UnitSphericalRepresentation(3*u.deg, 6*u.deg)
1406 scfk5_j2000 = SkyCoord(1*u.deg, 4*u.deg, frame='fk5')
1409 scfk5_j2010 = SkyCoord(1*u.deg, 4*u.deg, frame='fk5', equinox='J2010')
1414 scfk5_2_j2010 = SkyCoord(2*u.deg, 5*u.deg, frame='fk5', equinox='J2010')
1415 scfk5_3_j2010 = SkyCoord(3*u.deg, 6*u.deg, frame='fk5', equinox='J2010')
1431 sci1 = SkyCoord(1*u.deg, 2*u.deg, frame='icrs')
1432 sci2 = SkyCoord(1*u.deg, 3*u.deg, frame='icrs')
1441 scf1 = SkyCoord(1*u.deg, 2*u.deg, frame='fk5')
1442 scf2 = SkyCoord(1*u.deg, 2*u.deg, frame='fk5', equinox='J2005')
1445 scf3 = SkyCoord(1*u.deg, 2*u.deg, frame='fk5', obstime='J2005')
1460 gcrs = GCRS(1*u.deg, 2*u.deg, obsgeoloc=CartesianRepresentation([1, 2, 3], unit=u.m))
1474 sc = SkyCoord(135*u.deg, 65*u.deg)
1478 scs = SkyCoord([135]*2*u.deg, [65]*2*u.deg)
1506 sc = SkyCoord([1, 1] * u.deg, [2, 2] * u.deg)
1519 i1deg = ICRS(1*u.deg, 1*u.deg)
1521 assert_allclose(dra, 1*u.deg)
1522 assert_allclose(ddec, 1*u.deg)
1553 init_c = SkyCoord(40.*u.deg, 40.*u.deg, frame=frame)
1554 new_c = init_c.spherical_offsets_by(3.534*u.deg, 2.2134*u.deg)
1557 assert init_c.separation(back_c) < 1e-10*u.deg
1568 sc_before = SkyCoord(1*u.deg, 2*u.deg, frame='icrs')
1583 sc_after1 = SkyCoord(1*u.deg, 2*u.deg, frame='icrs')
1587 sc_after2 = SkyCoord(1*u.deg, 2*u.deg, frame='icrs', fakeattr=1)
1600 i = SkyCoord(1*u.deg, 2*u.deg)
1616 sc = SkyCoord(1.*u.deg, 2.*u.deg, frame='fk5')
1634 sc = SkyCoord([5, 10], [20, 30], unit=u.deg, obstime=obstime_string)
1666 frame = ICRS(ra=10.*u.deg, dec=0*u.deg,
1668 pm_ra_cosdec=0.1*u.deg/u.yr,
1703 assert 0.5*u.deg < applied3.ra-c1.ra < .7*u.deg
1707 assert quantity_allclose(applied1.ra-c1.ra, (applied3.ra-c1.ra)*2, atol=1e-3*u.deg)
1709 assert not quantity_allclose(applied1.ra-c1.ra, (applied3.ra-c1.ra)*2, atol=1e-4*u.deg)
1730 SkyCoord(lat=1*u.deg, lon=2*u.deg, frame=BlahBleeBlopFrame)
1740 SkyCoord(ra=150*u.deg, dec=-11*u.deg,
1745 SkyCoord(l=150*u.deg, b=-11*u.deg,
1823 defaultunit=u.deg),
1826 defaultunit=u.deg),
1832 fr = MockHeliographicStonyhurst(lon=1*u.deg, lat=2*u.deg, radius=10*u.au)
1833 SkyCoord(0*u.deg, fr.lat, fr.radius, frame=fr) # this was the failure
1847 coord = SkyCoord(lon=1*u.deg, lat=2*u.deg, frame=MultipleAliasesFrame)
1889 assert_allclose(angle, 0*u.deg, atol=1e-15*u.deg, rtol=0)
1894 assert_allclose(angle, 0 * u.deg, atol=1e-15*u.deg, rtol=0)