class SouthCelestialPoleTest(unittest.TestCase): def setUp(self): self.prop = SouthCelestialPole() def test_basic_information_after_creation(self): self.assertEqual(len(self.prop.sky_region.selections), 1) self.assertEqual(self.prop.sky_region.selections[0].limit_type, "Dec") self.assertEqual(self.prop.sky_region.selections[0].minimum_limit, -90.0) self.assertEqual(len(self.prop.sky_exclusion.selections), 1) self.assertEqual(self.prop.sky_exclusion.selections[0].limit_type, "GP") self.assertEqual(self.prop.sky_exclusion.selections[0].minimum_limit, 0.0) self.assertEqual(self.prop.sky_constraints.max_airmass, 2.5) self.assertEqual(self.prop.sky_constraints.max_cloud, 0.7) self.assertEqual(self.prop.sky_nightly_bounds.twilight_boundary, -12.0) self.assertEqual(len(self.prop.filters), 6) self.assertEqual(self.prop.filters['u'].num_visits, 30) self.assertEqual(self.prop.filters['u'].bright_limit, 21.0) self.assertEqual(self.prop.filters['i'].num_visits, 30.0) self.assertEqual(self.prop.filters['i'].bright_limit, 19.5) self.assertFalse(self.prop.scheduling.accept_serendipity) self.assertFalse(self.prop.scheduling.accept_consecutive_visits) self.assertEqual(self.prop.scheduling.airmass_bonus, 0.5) def test_set_topic(self): in_topic = scheduler_generalPropConfigC() out_topic = self.prop.set_topic(in_topic) self.assertEqual(out_topic.name, "SouthCelestialPole") self.assertEqual(out_topic.num_region_selections, 1) self.assertEqual(out_topic.num_exclusion_selections, 1) self.assertEqual(out_topic.region_minimums[1], 0.0) self.assertEqual(out_topic.num_filters, 6) self.assertEqual(out_topic.max_seeing[5], 2.0) self.assertEqual(out_topic.num_filter_exposures[5], 2) self.assertEqual(out_topic.exposures[11], 15.0) self.assertEqual(out_topic.max_cloud, 0.7) self.assertEqual(out_topic.airmass_bonus, 0.5) def test_proposal_fields(self): fd = FieldsDatabase() fs = FieldSelection() ids = self.prop.proposal_fields(fd, fs) self.assertEqual(len(ids), 293)
class SouthCelestialPoleTest(unittest.TestCase): def setUp(self): self.prop = SouthCelestialPole() def test_basic_information_after_creation(self): self.assertEqual(len(self.prop.sky_region.selections), 1) self.assertEqual(self.prop.sky_region.selections[0].limit_type, "Dec") self.assertEqual(self.prop.sky_region.selections[0].minimum_limit, -90.0) self.assertEqual(len(self.prop.sky_exclusion.selections), 1) self.assertEqual(self.prop.sky_exclusion.selections[0].limit_type, "GP") self.assertEqual(self.prop.sky_exclusion.selections[0].minimum_limit, 0.0) self.assertEqual(self.prop.sky_constraints.max_airmass, 2.5) self.assertEqual(self.prop.sky_constraints.max_cloud, 0.7) self.assertEqual(self.prop.sky_nightly_bounds.twilight_boundary, -12.0) self.assertEqual(len(self.prop.filters), 6) self.assertEqual(self.prop.filters['u'].num_visits, 30) self.assertEqual(self.prop.filters['u'].bright_limit, 21.0) self.assertEqual(self.prop.filters['i'].num_visits, 30.0) self.assertEqual(self.prop.filters['i'].bright_limit, 19.5) self.assertFalse(self.prop.scheduling.accept_serendipity) self.assertFalse(self.prop.scheduling.accept_consecutive_visits) self.assertEqual(self.prop.scheduling.airmass_bonus, 0.5) def test_set_topic(self): in_topic = scheduler_generalPropConfigC() out_topic = self.prop.set_topic(in_topic) self.assertEqual(out_topic.name, "SouthCelestialPole") self.assertEqual(out_topic.num_region_selections, 1) self.assertEqual(out_topic.num_exclusion_selections, 1) self.assertEqual(out_topic.region_minimums[1], 0.0) self.assertEqual(out_topic.num_filters, 6) self.assertEqual(out_topic.max_seeing[5], 2.0) self.assertEqual(out_topic.num_filter_exposures[5], 2) self.assertEqual(out_topic.exposures[11], 15.0) self.assertEqual(out_topic.max_cloud, 0.7) self.assertEqual(out_topic.airmass_bonus, 0.5)
def setUp(self): self.prop = SouthCelestialPole()