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|
"""
Tests for parsing STC-X into ASTs.
"""
#c Copyright 2008-2024, the GAVO project <gavo@ari.uni-heidelberg.de>
#c
#c This program is free software, covered by the GNU GPL. See the
#c COPYING file in the source distribution.
import base64
import bz2
import datetime
from gavo.helpers import testhelpers
from gavo import stc
from gavo import utils
from gavo.stc import dm
def _unwrapSample(samp):
return bz2.decompress(base64.b64decode(samp))
class STCXForestResource(testhelpers.TestResource):
"""An abstract base for resources unpacking and parsing a base64-encoded
bzipped STC-X to a list of abstract syntax trees.
The input is defined in the data attribute
"""
def make(self, ignored):
return stc.parseSTCX(_unwrapSample(self.data))
class _M81EventHrefDoc(STCXForestResource):
data = (
'QlpoOTFBWSZTWR0wcQMAAUJfgFVQeAP/968v30C/79/gQAKarDXOnRhJKnpoFH5U'
'/SQ9JpoGj0gaANNBpoBoJQkyamFNHqepo9Q0GjQDNT1DQNDTagEik1T2pH6SHqHq'
'D9SaAeoNA0AAAAkiRNGJoNAaRp6QaA0AAaGQ0rQgogbQIYDaEFrEAsAAmvjLYdnr'
'7/VzvPTQJzceGZ52FelzjIxHQT3UziB5u7eO7LwmYMwa8/NX8hc9GpQIB+KS2yBW'
'quVK4oUBejQ2LCugvJQ7U5EeDiXThsWUsmTNgwS/U+lDWtVRTCtERDRihXmQc/IK'
'gbJeU2FAUOrQtUKHtJOhQ2HjiqS4USEWcksAhiIToay9DBX0l6mU7sxMhOhbRsQz'
'yW3ArFwPxTozlEVZBmlHQlBWHhwZ9ap1cmUfVt1xHwIXStzNkfl/W3TBIkQdZJB6'
'kgKDweHbNDQ8shZJE7JowGQ0xzY8iaIIaGjxCo3iLUiaqgqvpBzpybz0/1RULfqT'
'UqqUhoJqKVUX6NIM5VQYPAKTYGIjRsyE4d9tG3IFzGxRLcGeDuwMDfZMZXzKuDQa'
'8fg6tcK1pe4aShKwpiDBnp0PqHTw5Ba5RjHEtBHUZ1Mh5qZWkk4jf2gJBKFt9VAO'
'iYhpJLpNrMA7ERKoG4tVijL1gWehETCVtOIjJTWohYCNgwl3kH1CiWUqMKMQo0DE'
'BIjGajRMVqd5WULkNXipxksrE2hWhEZIKALZjLIhkUq+U0SAv44E6kRKG4MKFFVV'
'CepRZDaq8ycJHLJNKIhaWlTK4jPWShlUhSuBBOA6iGGAYVKIkYENovlY6kJ1aCEE'
'bUZhkWIiAzwq8HMycp0016msgGQgf4u5IpwoSA6YOIGA')
class M81EventHrefTest(testhelpers.VerboseTest):
resources = [('asf', _M81EventHrefDoc())]
def testRefPresent(self):
sys = self.asf[1][1].astroSystem
self.assertEqual(sys.libraryId, "ivo://STClib/CoordSys#TT-ICRS-TOPO")
def testValuesPresent(self):
sys = self.asf[1][1].astroSystem
self.assertEqual(sys.spaceFrame.refFrame, "ICRS")
class _M81ImageDoc(STCXForestResource):
data = (
'QlpoOTFBWSZTWeE9tcIAA5nfgHgwcPf//7//38C////wYAh8wMb5xndy7oYURCip'
'AoEJIpMhGj0MQCaD0hpoNDQGQAAAA00Q0JomIp6T1PU0ANGmjQAABoeppoAcAwjC'
'aYhgEAyAGEaZMmEYCGgk1EmqZNGhHqnoymZQaeo9TIAyB6T0gNBoGhwDCMJpiGAQ'
'DIAYRpkyYRgIaCRITQIaNRpoyARo0T0QaANA0A0D1GAkJDSSEBirCMGKpIrEiyLF'
'iyIgoQRBSAdMJJOOcc7OL/vV27tOq00ogAIhSW6EUQUoN1OieuYnm+98+RZAhWtx'
'ZUaCzBcw5YbRESDGUvyqw9I9A5HoY7nq2C1YXCk3FNeU3rGghvNdwVFtcSC4iZXm'
'68X2aROpXZipGZE2W8yYqWDGS3kxIPBbeaxwdJ4a6i9xnB0bAFJZSeWmy5ZRaRDU'
'WAiQ0EMYQzId7ninjzYCxgRqOYvI40H91x4a0jvtjzZTgaLs8SJDSeW5syGWm+w9'
'4d1S82nER5KiBF+bEpO7236tiW9C90KZvBy4gfIuRZqIvBHUYGassNqNV6ti5A7R'
'WbNFors4GVh7zKB2Yf9VNYByJQY0ahh8SSWAIFtIAJkySKku6sqK02spuECk0quS'
'zybgtlTl9oseyiZEl56Z0zXeiwXi3G+8Hiq2SR7RqVmnBcxhndbYohrFB0sQ7g6o'
'JdPfkr7gtWMXhqWZdelhtcOIITQOOYfrNwxgeEg5XTx6w1Jjiq6pYC4UTZMTIymV'
'KhQo6Eq7Xi4KTlNNXO2SaKLscWI+lxAok3VYTRXD2iXsmn9oKVTt4foSGnugeooN'
'FscVQYLoYmCrGN/rmTxyYYh0UKPjxaMNZnJ57AssqqqFDF6jF/e6XnMKNEnalMpD'
'MwqBUQwOmCpigKItVCpGKlNQGHnp33dTmXAk0Lox23UImoRcd2FQhs26TIxs4Poi'
'7zxOI5C4kKeJ6K0rId7gaqx3u0nfBeTZtADPQ0MqxWVSrBazpSK1ykLi6qDQAzUK'
'KliGWylWBgVtEcKN2vDEqnlhRsRiCXwwcl5SIBZYJzpDpQJOIKHw3fF4H5nXB71U'
'5At42MYz1VFdkEgkEg6ij7IUGq8ajlnYJjFNDVg1qVmgCvnHy9xhmCyiP4XapEei'
'kRmGKtZme1YnZyh3JTLbrmM+ib0/ks1gnnPAb0vEZ4fw4Dn8W1sbuvGe90/IfvPt'
'9s61URFXiOIRO34R66Vqt+H9bJsneYa9artxDmYaHMQ5iVv58urW3V3WT1fAQ55p'
'pEzVcw0qqvQVSrsh4k9wOQ6jr6F7C64bGV7AuPSKZpVih1HD0kM7u0VnaULBttsY'
'6i3I+lM5dwt6NR/XnXmRgiqNxzolwXqPaZSUyExpp14KRIYx8ATi9e+OO3o5e8GH'
'IHVhAeCnky5Dqd6nIak560KctpREHX3+70MJMioeSE+OBsuTwggsgsM8+NbChV9O'
'kwb+wW6tcYXmKkaAiC84/Oh6BGRjC4rgNjxYmBeUBmXudnhsXBG5pjWdpu1ZhCF5'
'AUphURDR43mkYDGFa7ywkKlogvaKaaF7A11hjaHdzi4kTFmSpJlCiE2apxEsrY0F'
'IDg0sNu88s1pNjyDn6tMYmUt1YoxqQdMWOIZ05MFu7euzAeuqqqHl19yyYZQw0GG'
'ELic5J0iRMIBjBjQYiyv3cAVMBWeMyQscmx0VsZSOgTZvAkelCJ6LBcjSosqFM9R'
'hzm2eZVSvNBGG3sO2MyoLFBrzxmQO8gmGGOvMUa6heb3ClnW3eBVIwEzKy5NHzOY'
'sDDgEy0LHj41PGICqsDfS4kzyh3yk0nlA0yPJs0a8rwbGxg2xuyxPa4LRVDxyqag'
'FxesAzmHW5oWueBLJS77DSJFWJPQbTrOcLBsxa4GVslvAkkMDyzFbqP0W32NoGJi'
'XcLmvVuoO6jBQ4C0LOjFCRAQRI9yiV5thyeZ0tWxQgxA5NG3BGmh0yNI1DS1eweF'
'MFxsmwGILEUZGKEYYrN3YBtga4YukZTKWJCYqE6QcZjIaF2nAHsSvlPTvbJDEtvi'
'DWqK+U9JKZMhTmNgRhytahHQB3LBRgwYxRmW4dk+ditudUoKGgRRiE+VwSDzAhoT'
'BphoLDrsciQYAltGAbTXYrrKh0GKYub1afJbVGJl1Axph1MUCkc20zF06nC3zhaI'
'Ktw3BAMZMUYC/cWYxJo8pLiLKiSK9JIZOVx2+TEmNaXcX8S/3HjoFBFWMxRQn9AX'
'ylVAmWEL0ZUwnDOE/27p3roN1UKM5u9OqtjoVgpYEYWu8jJElr8te5airNkTtQVK'
'XqdVPTMvFKenQVSnqCISYXFq+NcEKnII9Jf6JrtDvvM86mL0FmuEbCaEUGKC0U5m'
'tdROFOBsKtFGTQoEoVcUJRZFpzTQsCwWMpDTGDjgFQxJFA5UQKeKFxvRaid84Me9'
'B/xxRMWaZhsuJHLYlxq8FNoLCLFlHlR3EGxyRzIsACxSvB20szNUTFaejh2nDiyq'
'4PXco3d+IxDaT/xdyRThQkOE9tcI')
class M81ImageTest(testhelpers.VerboseTest):
resources = [('asf', _M81ImageDoc())]
def testRootTag(self):
self.assertTrue(self.asf[0][0].endswith("ObservatoryLocation"))
self.assertTrue(self.asf[1][0].endswith("ObservationLocation"))
def testTimeFrame(self):
frame = self.asf[0][1].astroSystem.timeFrame
self.assertEqual(frame.timeScale, "TT")
self.assertEqual(frame.refPos.standardOrigin, "TOPOCENTER")
def testSpaceFrame(self):
frame = self.asf[0][1].astroSystem.spaceFrame
self.assertEqual(frame.flavor, "SPHERICAL")
self.assertEqual(frame.nDim, 3)
self.assertEqual(frame.refPos.standardOrigin, "TOPOCENTER")
frame = self.asf[1][1].astroSystem.spaceFrame
self.assertEqual(frame.flavor, "SPHERICAL")
self.assertEqual(frame.nDim, 2)
self.assertEqual(frame.refFrame, 'ICRS')
self.assertEqual(frame.refPos.standardOrigin, "TOPOCENTER")
def testSimplePlace(self):
p = self.asf[0][1].place
self.assertEqual(p.unit, ("deg", "deg", "m"))
self.assertAlmostEqual(p.value[0], 248.4056)
self.assertEqual(p.value[2], 2158.)
self.assertTrue(p.frame is self.asf[0][1].astroSystem.spaceFrame,
"Wrong frame on positions")
def testComplexPlaces(self):
p = self.asf[1][1].place
self.assertEqual(p.unit, ("deg", "deg"))
self.assertAlmostEqual(p.value[0], 148.88821)
self.assertAlmostEqual(p.resolution.values[0][1], 0.00025)
self.assertAlmostEqual(p.pixSize.values[0][1], 0.0001)
self.assertAlmostEqual(p.error.radii[0], 0.0003)
self.assertTrue(p.frame is self.asf[1][1].astroSystem.spaceFrame,
"Wrong frame on complex places")
def testTime(self):
p = self.asf[1][1].time
self.assertEqual(p.unit, "s")
self.assertEqual(p.value, datetime.datetime(2004, 7, 15, 8, 23, 56))
self.assertEqual(p.resolution.values[0], 1000.0)
self.assertEqual(p.pixSize.values[0], 1000.0)
self.assertTrue(p.frame is self.asf[1][1].astroSystem.timeFrame,
"Wrong frame on time.")
def testSpectral(self):
p = self.asf[1][1].freq
self.assertEqual(p.unit, "Angstrom")
self.assertEqual(p.value, 4600.)
self.assertEqual(p.resolution.values[0], 400.0)
self.assertEqual(p.pixSize.values[0], 400.0)
self.assertTrue(p.frame is self.asf[1][1].astroSystem.spectralFrame,
"Wrong frame on spectral.")
def testTimeInterval(self):
p = self.asf[1][1].timeAs[0]
self.assertEqual(p.lowerLimit, datetime.datetime(2004, 7, 15, 8, 17, 36))
self.assertEqual(p.upperLimit, datetime.datetime(2004, 7, 15, 8, 30, 16))
self.assertTrue(p.frame is self.asf[1][1].astroSystem.timeFrame,
"Wrong frame on time interval.")
def testSpectralInterval(self):
p = self.asf[1][1].freqAs[0]
self.assertEqual(p.lowerLimit, 4400.)
self.assertEqual(p.upperLimit, 4800.)
self.assertTrue(p.frame is self.asf[1][1].astroSystem.spectralFrame,
"Wrong frame on spectral interval.")
def testSpaceInterval(self):
p = self.asf[1][1].areas[0]
self.assertAlmostEqual(p.lowerLimit[0], 148.18821)
self.assertAlmostEqual(p.upperLimit[1], 69.31529)
self.assertTrue(p.frame is self.asf[1][1].astroSystem.spaceFrame,
"Wrong frame on space interval.")
class _ChandraResDoc(STCXForestResource):
data = (
'QlpoOTFBWSZTWXXPk0MAAhHfgGAicuf//69332C/79/xUAV+dhrEm1baakVq00Ek'
'gImNTTKaGnqp+mUn6mTGomm0A1Gj9KP1T1PUNDjJk00wmRkDAjE0YIwg0aYABBKa'
'JqBpFNgk9TI9R6I9CBoNAGgAaNDjJk00wmRkDAjE0YIwg0aYABBIkTFNJmUNMTUZ'
'NGmQAZNAaB6gAMCSSbQkTSSTE0xMGMGwaE2CYMGm2CbQMGCaYhHELOL7bcd06We+'
'qTBa0M4MP8HYa46G1H16ViT9j5QL+xL4lCYKm6+CeROvZtIcK2/l56d3jld28JtK'
'M+SNZe+vlNBL5R3Pm0WhkRh+EM1U8GjHB87+dz2fXVb5eUsMeaTzHe601323uozb'
'aUt3ma7J2plHM4qthppjHNPBOPfeQ8Sx77zU5vzQv15YxsO9ROU28k4d8gU6vWih'
'0qzhwhbcRPxBe0F6xdTKwcufq9tULLuLMpd7Mn0xnwnaNhr77E3zaYCQM/drGT08'
'm5RW9Lq2eOLnG0QqDIC753+BZSAvUecET93DDx0N3uw8QOJaQsYomXltuREJLXKb'
'U4JNLJu2mHEhTgRWvUFkkIQSPs9j0SmdAdUmEmEW6KtjbbPIYCEeY50LBp2ZQz3k'
'yKke56tCMdwOMsEvhLzh19wjwTKKPjWOL8dPYzNOcbZlcSDzoeBkRcDwYTMJOYQO'
'5rKdgdm6EMHq00F66ev3u2yJbIrlIkksKFS2LYkV8w3PdbbMq93XAJJFiLoTh0rl'
'o9cRXvUfLjaFiURAFebj0jxpNpGZJvWMgYzb1JomboUOsWY3FctvOZcrTU7asQf9'
'Sl7ZXJ8GlMaPjxRn6WaqrLyRxUBQE8KLOvgfO4dqTNlsmim8bgaUagpVgwpMZpRr'
'J/MoQ9d5OZATBznEufCjnMzNJzsjEPkxgHkuM1o2K07S5mUwceTW6pAkkrmuzyho'
'aVvhwGnkNDbi7Gjv6to8p39AV+g+IK8sod7aaOkLHVwhNMaYtli1A82OI6YOeuZl'
'Y33momJ7FVoqwvi8zOZaxtPQbx6OYM6Z5dA6niweVqCLUpNT1K5LSphVZAMCKhsJ'
'kGSCGoKVBpWGstxYKkyk5Y6DK8tZyzshFDO4lQSsURSk9YTCohiBOnEDuzpA4yTG'
'xjP6larwFwAX5nKcGJu9YTJhYeIWdCy72ZJrKRvQGLWt1mYxbYwywI7gV32XW7oT'
'SmQWJ0zO1Q4jJohuVJMhI79GILvFxMjOeknExIrgPXs5kXN5wB+MKB3U9F+udPJd'
'25IxaG0FkW1YhAZDAgqpBxlnqO4Cv0jRFXuLjbGX9oZAElgcHIpjZkgjlIqSY6AG'
'3ehXtNG/O1msYEmSGQE3jpBibWabrBBMEOkhJkmqbJ2pAhnQbxULO4Ii6CgPKYl3'
'nBnJpVwsj0mdzehlBa9+knqSUVNPsQi6uQ24JCYtq9DEMWILROZMzKOYlepX3ykk'
'+FMaWjZslMzLU0Gw1VVgd4rQnBRAmCbWQiHdslAGiViwWKwYM5W7YAnEkCTXiuNf'
'DGb/UhXo25uab9eyFqKsPOHQs9wzGruUB3JFUiVIXUMnhtHYUhuX7Ig/IXWO1YVk'
'gKEB7qZ9owRJszRmQRhQHnJ0WgSLVJFMhMdwxxADmrEEbupKYFhZlvpYBZd968yK'
'ypXBpiku1cs1LACYOHuGs7UurQFIkEq8zIwPBxEqNDJ2WcvWvCj92JE53jGo51pB'
'Z//F3JFOFCQdc+TQwA==')
class ChandraResDocTest(testhelpers.VerboseTest):
resources = [('asf', _ChandraResDoc())]
def testTimeCoord(self):
p = self.asf[0][1].time
self.assertEqual(p.frame.timeScale, "TT")
self.assertEqual(p.unit, "s")
self.assertAlmostEqual(p.error.values[0], 0.000005)
self.assertAlmostEqual(p.error.values[1], 0.0001)
self.assertAlmostEqual(p.resolution.values[0], 0.000016)
self.assertAlmostEqual(p.resolution.values[1], 3.)
self.assertAlmostEqual(p.size.values[0], 1000.)
self.assertAlmostEqual(p.size.values[1], 170000.)
def testPosition(self):
p = self.asf[0][1].place
self.assertEqual(p.frame.refPos.standardOrigin, "TOPOCENTER")
self.assertEqual(p.frame.nDim, 2)
self.assertEqual(p.frame.flavor, "SPHERICAL")
self.assertEqual(p.unit, ("arcsec", "arcsec"))
self.assertEqual(p.error.radii[0], 1.)
self.assertEqual(p.resolution.radii[0], 0.5)
self.assertEqual(p.size.values[0], (1000, 1000))
self.assertEqual(p.size.values[1], (4000, 4000))
def testSpectral(self):
p = self.asf[0][1].freq
self.assertEqual(p.unit, "keV")
self.assertAlmostEqual(p.error.values[0], 0.1)
self.assertAlmostEqual(p.resolution.values[0], 0.02)
self.assertAlmostEqual(p.resolution.values[1], 2.)
self.assertEqual(p.size.values[0], 2.)
self.assertEqual(p.size.values[1], 10.)
def testTimeInterval(self):
p = self.asf[0][1].timeAs[0]
self.assertEqual(p.frame, self.asf[0][1].astroSystem.timeFrame)
self.assertEqual(p.upperLimit, None)
self.assertEqual(p.lowerLimit, datetime.datetime(1999, 7, 23, 16, 0))
def testAreas(self):
p = self.asf[0][1].areas[0]
self.assertEqual(p.frame, self.asf[0][1].astroSystem.spaceFrame)
self.assertTrue(isinstance(p, dm.AllSky))
self.assertAlmostEqual(p.fillFactor, 0.02)
def testSpectralInterval(self):
p = self.asf[0][1].freqAs[0]
self.assertEqual(p.frame, self.asf[0][1].astroSystem.spectralFrame)
self.assertAlmostEqual(p.lowerLimit, 0.12)
self.assertAlmostEqual(p.upperLimit, 10)
class _RegistryLibsysAllskyDoc(STCXForestResource):
data = (
'QlpoOTFBWSZTWbsA/ikAAF1fgCoUWAP5tywm3kC/79/wMAFaTQGiFAyPKAGTQ9Q/UIAA2oA0oyIy'
'ZGaBoJkBoYIGIMEkk0majJlDYmpggZDRiabKNMkaVQEjnKlyUTCUiQyPS5/u306M28PJ7Jt2hBDU'
'BQBb4yS+2ZwoMeBGL/3n3fG1CCySEzkcnxQs+gbSwCu8nI0KqgUgBaZjMaknn3KWw1MpoKWKKFVP'
'JuVewMNex8WyYZHJHAGVZKysN4cb+QSBwDCTm0VwTPGucbqS8OIUBd+KF6rTEpbRFW7TniThL55m'
'PWTpnSSwJpQZIHDqYxgcnGy/JGx10KaBiTCdZONoQOQOcDLSY3ku+seDWS2WNn6h0wKpkyiSjrNk'
'3V4Yk19qG6JxEThaMYQIFGsyFSzdvfSQAyGhxIiBphlTo6y1xlI/DoMwwwzNqgp0aiSzuEDFCcil'
'S4JjTIXqwZThUSucuajfvzLH4lBiP8XckU4UJC7AP4pA')
class RegistryLibsysTest(testhelpers.VerboseTest):
resources = [('asf', _RegistryLibsysAllskyDoc())]
def testAllWell(self):
self.assertEqual(stc.getSTCS(self.asf[0][1]),
"AllSky ICRS TOPOCENTER Size 0.016666666666666666\n"
"System UTC-ICRS-TOPO")
class _RegistryNullsysAllskyDoc(STCXForestResource):
data = (
'QlpoOTFBWSZTWRE+RJAAABffgAAQUAPoFywAXACvb9/gMADMbDSmgANMjTTIAGQE'
'qEAARgA2oJpgJSUw0am1NpoT1GE000bRKgStWchqCad81qfj8LwCnL9zDHIBPYCM'
'oUJOaBaYwpPaRRhMaFpSsup1RZ5MuCZxEsF1qrPpubmICzU2XEkCg6DxpUTFJmZn'
'EhsTijJtTxxpeHiFjyMkDkonuS5QZp3tCBewrJQaSo85IUGI5gwb+FrFpySqkgiF'
'DSZikcHgoPIDBEHxk4mSNn/F3JFOFCQET5EkAA==')
class NullSystemTest(testhelpers.VerboseTest):
resources = [('asf', _RegistryNullsysAllskyDoc())]
def testAllWell(self):
self.assertEqual(stc.getSTCS(self.asf[0][1]),
"AllSky UNKNOWNFrame")
class GeometriesTest(testhelpers.VerboseTest):
def _getAST(self, geo):
return stc.parseSTCX(('<ObservationLocation xmlns="%s">'%stc.STCNamespace)+
'<AstroCoordSystem id="x">'
'<SpaceFrame><ICRS/></SpaceFrame>'
'</AstroCoordSystem><AstroCoordArea coord_system_id="x">'+
geo+
'</AstroCoordArea></ObservationLocation>')[0][1]
def testCircle(self):
ast = self._getAST("<Circle><Center><C1>15</C1><C2>40</C2></Center>"
"<Radius>3</Radius></Circle>")
p = ast.areas[0]
self.assertTrue(isinstance(p, dm.Circle))
self.assertEqual(p.radius, 3.0)
self.assertEqual(p.center, (15.0, 40.0))
def testEllipse(self):
ast = self._getAST("<Ellipse><Center><C1>10</C1><C2>12</C2></Center>"
'<SemiMajorAxis>3</SemiMajorAxis><SemiMinorAxis>2</SemiMinorAxis>'
'<PosAngle unit="rad">1</PosAngle></Ellipse>')
p = ast.areas[0]
self.assertTrue(isinstance(p, dm.Ellipse))
self.assertEqual(p.center, (10.0, 12.0))
self.assertEqual(p.smajAxis, 3.0)
self.assertEqual(p.sminAxis, 2.0)
self.assertEqual(p.posAngle, 57.295779513082323)
def testBox(self):
ast = self._getAST("<Box><Center><C1>10</C1><C2>12</C2></Center>"
'<Size><C1>1</C1><C2>1.5</C2></Size></Box>')
p = ast.areas[0]
self.assertTrue(isinstance(p, dm.Box))
self.assertEqual(p.center, (10.0, 12.0))
self.assertEqual(p.boxsize, (1.0, 1.5))
def testPolygon(self):
ast = self._getAST("<Polygon><Vertex><C1>10</C1><C2>12</C2></Vertex>"
'<Vertex><C1>1</C1><C2>1.5</C2></Vertex></Polygon>')
p = ast.areas[0]
self.assertTrue(isinstance(p, dm.Polygon))
self.assertEqual(p.vertices, ((10., 12.), (1., 1.5)))
def testConvex(self):
ast = self._getAST("<Convex>"
'<Halfspace><Vector><C1>10</C1><C2>12</C2><C3>1</C3></Vector>'
'<Offset>0.125</Offset></Halfspace>'
'<Halfspace><Vector><C1>-10</C1><C2>-12</C2><C3>-1</C3></Vector>'
'<Offset>-0.125</Offset></Halfspace>'
'</Convex>')
p = ast.areas[0]
self.assertTrue(isinstance(p, dm.Convex))
self.assertEqual(p.vectors,
((10.0, 12.0, 1.0, 0.125), (-10.0, -12.0, -1.0, -0.125)))
class SimpleSTCXSrcTest(testhelpers.VerboseTest):
def _getAST(self, frame, area, coo=""):
if coo!="":
coo = '<AstroCoords coord_system_id="x">'+coo+"</AstroCoords>"
return stc.parseSTCX(('<ObservationLocation xmlns="%s">'%stc.STCNamespace)+
'<AstroCoordSystem id="x">%s</AstroCoordSystem>'+
coo+
'<AstroCoordArea coord_system_id="x">'+
area+
'</AstroCoordArea></ObservationLocation>')[0][1]
class UnitsTest(SimpleSTCXSrcTest):
def testSimpleCoo(self):
ast = self._getAST("<TimeFrame/>",
'<Time unit="a">2003-03-03T03:04:05</Time>')
self.assertEqual(ast.time.unit, "a")
def testSpatial2DEmpty(self):
ast = self._getAST("<SpaceFrame><ICRS/></SpaceFrame>",
'<Position2D unit="rad"/>')
self.assertEqual(ast.place.unit, ("rad", "rad"))
def testSpatial2DMixed(self):
ast = self._getAST("<SpaceFrame><ICRS/></SpaceFrame>",
'<Position2D unit="deg"><Value2><C1 pos_unit="deg">1</C1><C2 pos_unit="arcsec"'
'>2</C2></Value2></Position2D>')
self.assertEqual(ast.place.unit, ("deg", "arcsec"))
class MiscSrcTest(SimpleSTCXSrcTest):
def testEpoch(self):
ast = self._getAST("<SpaceFrame><ICRS/></SpaceFrame>",
'<Position3D><Epoch yearDef="B">400</Epoch></Position3D>')
self.assertEqual(ast.place.epoch, 400.0)
self.assertEqual(ast.place.yearDef, "B")
class _CompoundSTCX(STCXForestResource):
data = (
'QlpoOTFBWSZTWcPIAfcAAYhfgFVVUAP4N79v38C//9/wQALbbrG2wBgkkEmp+lG9'
'U2poNGgaMaQAaD1GIAGmQiSaAND0I00AaAANGgACSVDQGgAA0AAAAAAAKokI0npM'
'p4mCPUTahiDIADQGGpDEgnoEDIYZJmEAlCQIGCzm08G5bPrGa1ZrwRrY85dwVZMK'
'YIYN6DQyttyTcKQSIQWJ3czPWgkfhSRWsPVKu4kri2fnO7GhBWMgu7RQZpz0RHSq'
'7nVajQac9cIZLDwivnIuYw8cNeGUyjhKChhKC3U0lMKT7SwVnKYpgGTLYWRfljBi'
'iLEEik8lWlWBPIWQIug7hGyHFybImyUHllSXgPSA7XruAMlvaPE2G/gFcSdrImSR'
'hpDn8kJlsy9YNYNXqymqloarQ1RQCjsRkjG/PLWMQQSRPAmVeDzc81simSZxlKdq'
'RQSJHzVKqplhgYzA5zNnc6ot9oQa3xtv6sAaPfVKUu9z/pnMmUz1tgQKuNN4BPmU'
'ST3lXxdAdyWLe6xyM9WjgDv7mM1uVg+DA+/2dzqxs62KVQ5XA0eeKHxYGZWc0WIy'
'uhFTEaWbJbLNpTRNW+qqk2VKFyxpwo5Hgo4ooaDCXiscxrUfjvR2Y3GsRstNRtVI'
'xwl24Y/j+tJyr0ysWtbaeGBc7zK57zcyY12iIWNpqLEWIvNy9uWFM+9kouzNTjmy'
'aU4Sx1+lbF7FEcKTCioNldZlXYnC9iUVIxxOAe9uXktb16lb2uLEiZG01Nm9OlGi'
'LYON4skRyLmcWm9pVlSNaxFI2LS5XBXlZFU4sSUzNjx6152NSibEYmLBHTGU5rFy'
'PIvpUiJCfNminMshWlcDpSfYbxYK8UhjT6x5QihSqHoiikmKF4ILb9HFSkDQ9ecw'
'lcz/F3JFOFCQw8gB9w==')
class CompoundParseTest(testhelpers.VerboseTest):
resources = [("asf", _CompoundSTCX())]
def testAreasPresent(self):
self.assertEqual(len(self.asf[0][1].areas), 1)
def testDifferenceShape(self):
area = self.asf[0][1].areas[0]
self.assertTrue(isinstance(area, dm.Difference))
self.assertTrue(isinstance(area.children[0], dm.AllSky))
self.assertTrue(isinstance(area.children[1], dm.Union))
def testCircle(self):
area = self.asf[0][1].areas[0]
circ = area.children[1].children[0]
self.assertEqual(circ.center, (10., 10.))
self.assertEqual(circ.radius, 2.)
def testNegation(self):
area = self.asf[0][1].areas[0]
innerDiff = area.children[1].children[1].children[2]
self.assertTrue(isinstance(innerDiff, dm.Not))
class CompoundUnitsTest(SimpleSTCXSrcTest):
def testNegationUnitFails(self):
self.assertRaises(stc.STCNotImplementedError, self._getAST,
"<SpaceFrame><ICRS/></SpaceFrame>",
'<Union><Negation unit="deg"><AllSky/></Negation><Circle>'
'<Center><C1>12.0</C1><C2>13.0</C2></Center><Radius>1.0</Radius>'
'</Circle></Union>')
def testDifferingParentUnitFails(self):
self.assertRaises(stc.STCNotImplementedError, self._getAST,
"<SpaceFrame><ICRS/></SpaceFrame>",
'<Union unit="deg"><AllSky unit="rad"/><Circle>'
'<Center><C1>12.0</C1><C2>13.0</C2></Center><Radius>1.0</Radius>'
'</Circle></Union>')
def testDifferingSiblingUnitFails(self):
self.assertRaises(stc.STCNotImplementedError, self._getAST,
"<SpaceFrame><ICRS/></SpaceFrame>",
'<Union><AllSky unit="rad"/><Circle>'
'<Center><C1 unit="deg">12.0</C1><C2 unit="deg">13.0</C2>'
'</Center><Radius>1.0</Radius></Circle></Union>')
def testUnitInheritance(self):
ast = self._getAST("<SpaceFrame><ICRS/></SpaceFrame>",
'<Union><AllSky/><Circle>'
'<Center><C1 unit="deg">12.0</C1><C2 unit="arcmin">13.0</C2>'
'</Center><Radius>1.0</Radius></Circle></Union>')
self.assertEqual(ast.place.unit, ("deg", "arcmin"))
def testAreaUnitCoercion(self):
ast = self._getAST("<SpaceFrame><ICRS/></SpaceFrame>",
'<Union><AllSky/><Circle unit="deg">'
'<Center><C1>12.0</C1><C2>13.0</C2>'
'</Center><Radius>1.0</Radius></Circle></Union>',
'<Position2D unit="rad"/>')
self.assertEqual(ast.place.unit, ("rad", "rad"))
self.assertAlmostEqual(ast.areas[0].children[1].radius, 1*utils.DEG)
class PositionAddedTest(SimpleSTCXSrcTest):
def testGeometry(self):
ast = self._getAST("<SpaceFrame><ICRS/></SpaceFrame>",
'<AllSky/>', " ")
self.assertEqual(ast.place.unit, ("deg", "deg"))
AST0 = stc.parseSTCS("Time TT unit d\n"
"Position ICRS BARYCENTER 0 0 unit deg\n"
"Spectral BARYCENTER unit m\n"
"Redshift OPTICAL")
class RealWorldMessTest(testhelpers.VerboseTest):
def testAllSky(self):
ast = stc.parseSTCX(
"""<stc:STCResourceProfile xmlns:stc="http://www.ivoa.net/xml/STC/stc-v1.30.xsd" xmlns:xlink="http://www.w3.org/1999/xlink">
<stc:AstroCoordSystem xlink:type="simple" xlink:href="ivo://STClib/CoordSys#UTC-ICRS-TOPO" id="_cygob2xmm_UTC-ICRS-TOPO"/>
<stc:AstroCoords coord_system_id="_cygob2xmm_UTC-ICRS-TOPO">
<stc:Position1D>
<stc:Size pos_unit="deg">0.0166666666666666667</stc:Size></stc:Position1D>
</stc:AstroCoords>
<stc:AstroCoordArea coord_system_id="_cygob2xmm_UTC-ICRS-TOPO">
<stc:AllSky/></stc:AstroCoordArea></stc:STCResourceProfile>""")[0][1]
self.assertEqual(
stc.conformTo(ast, AST0).areas[0].__class__.__name__, "AllSky")
def testShittyPolygon(self):
ast = stc.parseSTCX("""
<stc:STCResourceProfile xmlns:stc="http://www.ivoa.net/xml/STC/stc-v1.30.xsd" xmlns:xlink="http://www.w3.org/1999/xlink">
<stc:AstroCoordSystem id="UTC-ICRS-TOPO" xlink:href="ivo://STClib/CoordSys#UTC-ICRS-TOPO" xlink:type="simple"/>
<stc:AstroCoordArea coord_system_id="UTC-ICRS-TOPO">
<stc:TimeInterval>
<stc:StartTime>
<stc:Timescale>UTC</stc:Timescale>
<stc:ISOTime>1965-01-01T00:00:00Z</stc:ISOTime>
</stc:StartTime>
<stc:StopTime>
<stc:Timescale>UTC</stc:Timescale>
<stc:ISOTime>1980-01-01T00:00:00Z</stc:ISOTime>
</stc:StopTime>
</stc:TimeInterval>
<stc:Polygon unit="deg">
<stc:Vertex>
<stc:Position>
<stc:C1>360</stc:C1>
<stc:C2>-15</stc:C2>
</stc:Position>
</stc:Vertex>
<stc:Vertex>
<stc:Position>
<stc:C1>180</stc:C1>
<stc:C2>-15</stc:C2>
</stc:Position>
</stc:Vertex>
<stc:Vertex>
<stc:Position>
<stc:C1>0</stc:C1>
<stc:C2>-15</stc:C2>
</stc:Position>
<stc:SmallCircle/>
</stc:Vertex>
</stc:Polygon>
<stc:SpectralInterval unit="Angstrom">
<stc:LoLimit>3400</stc:LoLimit>
<stc:HiLimit>6900</stc:HiLimit>
</stc:SpectralInterval>
</stc:AstroCoordArea>
</stc:STCResourceProfile>""")[0][1]
self.assertEqual(
stc.conformTo(ast, AST0).areas[0].__class__.__name__, "Polygon")
def testInferredFrame(self):
ast = stc.parseSTCX("""
<ns0:STCResourceProfile xmlns:ns0="http://www.ivoa.net/xml/STC/stc-v1.30.xsd">
<ns0:AstroCoordSystem id="aelhouge">
<ns0:TimeFrame id="ahbhouge">
<ns0:TimeScale>TT</ns0:TimeScale><ns0:UNKNOWNRefPos /></ns0:TimeFrame><ns0:SpaceFrame id="apphouge">
<ns0:ICRS /><ns0:UNKNOWNRefPos /><ns0:SPHERICAL coord_naxes="2" /></ns0:SpaceFrame></ns0:AstroCoordSystem><ns0:AstroCoordArea coord_system_id="aelhouge">
<ns0:TimeInterval frame_id="ahbhouge">
<ns0:StartTime>
<ns0:ISOTime>2003-04-01T00:00:00</ns0:ISOTime></ns0:StartTime><ns0:StopTime>
<ns0:ISOTime>2009-03-31T23:59:59</ns0:ISOTime></ns0:StopTime></ns0:TimeInterval><ns0:Union>
<ns0:Box unit="deg">
<ns0:Center>
<ns0:C1>36.0</ns0:C1><ns0:C2>-6.0</ns0:C2></ns0:Center><ns0:Size>
<ns0:C1>6.0</ns0:C1><ns0:C2>5.0</ns0:C2></ns0:Size></ns0:Box><ns0:Box unit="deg">
<ns0:Center>
<ns0:C1>211.5</ns0:C1><ns0:C2>52.0</ns0:C2></ns0:Center><ns0:Size>
<ns0:C1>4.0</ns0:C1><ns0:C2>3.0</ns0:C2></ns0:Size></ns0:Box><ns0:Box unit="deg">
<ns0:Center>
<ns0:C1>334.0</ns0:C1><ns0:C2>0.5</ns0:C2></ns0:Center><ns0:Size>
<ns0:C1>4.0</ns0:C1><ns0:C2>3.0</ns0:C2></ns0:Size></ns0:Box></ns0:Union></ns0:AstroCoordArea></ns0:STCResourceProfile>
""")[0][1]
self.assertEqual(
stc.conformTo(ast, AST0).areas[0].__class__.__name__, "Union")
def _wrapSample(srcPath):
import textwrap
bzstr = bz2.compress(open(srcPath).read()
).encode("base64").replace(b"\n", b"")
print("\n".join(" '%s'"%s for s in textwrap.wrap(bzstr, width=64)))
if __name__=="__main__":
import sys
if len(sys.argv)>1 and sys.argv[1].startswith("/"):
_wrapSample(sys.argv[1])
else:
testhelpers.main(RealWorldMessTest)
|
