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- import unittest
-
- from datetime import date
-
- from kosmorrolib import events
- from kosmorrolib.data import Event
- from kosmorrolib.core import get_timescale
-
-
- class MyTestCase(unittest.TestCase):
- def test_event_only_accepts_valid_values(self):
- with self.assertRaises(ValueError):
- Event('SUPERNOVA', None, get_timescale().now())
-
- def test_find_oppositions(self):
- # Test case: Mars opposition
- # Source of the information: https://promenade.imcce.fr/en/pages6/887.html#mar
- o1 = (events.search_events(date(2020, 10, 13)), '^2020-10-13T23:25')
- o2 = (events.search_events(date(2022, 12, 8)), '^2022-12-08T05:41')
- o3 = (events.search_events(date(2025, 1, 16)), '^2025-01-16T02:38')
- o4 = (events.search_events(date(2027, 2, 19)), '^2027-02-19T15:50')
-
- for (o, expected_date) in [o1, o2, o3, o4]:
- self.assertEqual(1, len(o), 'Expected 1 event for %s, got %d' % (expected_date, len(o)))
- self.assertEqual('OPPOSITION', o[0].event_type)
- self.assertEqual('MARS', o[0].objects[0].skyfield_name)
- self.assertRegex(o[0].start_time.isoformat(), expected_date)
- self.assertIsNone(o[0].end_time)
- self.assertEqual('Mars is in opposition', o[0].get_description())
-
- def test_find_conjunctions(self):
- # Test case: Mars opposition
- # Source of the information: https://promenade.imcce.fr/en/pages6/887.html#mar
- c1 = (events.search_events(date(2020, 1, 2)), [(['MERCURY', 'JUPITER BARYCENTER'], '^2020-01-02T15:20')])
- c2 = (events.search_events(date(2020, 1, 12)), [(['MERCURY', 'SATURN BARYCENTER'], '^2020-01-12T04:34'),
- (['MERCURY', 'PLUTO BARYCENTER'], '^2020-01-12T06:56')])
-
- for (c, expected_dates) in [c1, c2]:
- self.assertEqual(len(expected_dates), len(c),
- 'Expected %d event(s) for %s, got %d' % (len(expected_dates), expected_dates, len(c)))
-
- i = 0
- for conjunction in c:
- self.assertEqual('CONJUNCTION', conjunction.event_type)
- objects, expected_date = expected_dates[i]
-
- j = 0
- self.assertRegex(conjunction.start_time.isoformat(), expected_date)
- for object in objects:
- self.assertEqual(object, conjunction.objects[j].skyfield_name)
- j += 1
-
- self.assertIsNone(conjunction.end_time)
- self.assertRegex(conjunction.get_description(), ' are in conjunction$')
-
- i += 1
-
- def test_find_maximal_elongation(self):
- e = events.search_events(date(2020, 2, 10))
- self.assertEquals(1, len(e), 'Expected 1 events, got %d.' % len(e))
- e = e[0]
- self.assertEquals('MAXIMAL_ELONGATION', e.event_type)
- self.assertEquals(1, len(e.objects))
- self.assertEquals('MERCURY', e.objects[0].skyfield_name)
- self.assertEqual('18.2°', e.details)
- self.assertEquals((2020, 2, 10, 13, 46), (e.start_time.year, e.start_time.month, e.start_time.day,
- e.start_time.hour, e.start_time.minute))
-
- e = events.search_events(date(2020, 3, 24))
- self.assertEquals(2, len(e), 'Expected 2 events, got %d.' % len(e))
- self.assertEquals('MAXIMAL_ELONGATION', e[0].event_type)
- self.assertEquals(1, len(e[0].objects))
- self.assertEquals('MERCURY', e[0].objects[0].skyfield_name)
- self.assertEqual('27.8°', e[0].details)
- self.assertEquals((2020, 3, 24, 1, 56), (e[0].start_time.year, e[0].start_time.month, e[0].start_time.day,
- e[0].start_time.hour, e[0].start_time.minute))
-
- self.assertEquals('MAXIMAL_ELONGATION', e[1].event_type)
- self.assertEquals(1, len(e[1].objects))
- self.assertEquals('VENUS', e[1].objects[0].skyfield_name)
- self.assertEqual('46.1°', e[1].details)
- self.assertEquals((2020, 3, 24, 21, 58), (e[1].start_time.year, e[1].start_time.month, e[1].start_time.day,
- e[1].start_time.hour, e[1].start_time.minute))
-
-
- if __name__ == '__main__':
- unittest.main()
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