def testCreationOfPhoSimCatalog_2(self):
"""
Make sure that we can create PhoSim input catalogs using the returned
ObservationMetaData.
Use the actual DefaultPhoSimHeader map; make sure that opsim_version
does not make it into the header.
"""
dbName = tempfile.mktemp(dir=ROOT, prefix='obsMetaDataGeneratorTest-', suffix='.db')
makePhoSimTestDB(filename=dbName)
bulgeDB = testGalaxyBulgeDBObj(driver='sqlite', database=dbName)
gen = self.gen
results = gen.getObservationMetaData(fieldRA=np.degrees(1.370916),
telescopeFilter='i')
testCat = PhoSimCatalogSersic2D(bulgeDB, obs_metadata=results[0])
testCat.phoSimHeaderMap = DefaultPhoSimHeaderMap
with lsst.utils.tests.getTempFilePath('.txt') as catName:
testCat.write_catalog(catName)
ct_lines = 0
with open(catName, 'r') as in_file:
for line in in_file:
ct_lines += 1
self.assertNotIn('opsim_version', line)
self.assertGreater(ct_lines, 10) # check that some lines did get written
if os.path.exists(dbName):
os.unlink(dbName)
def testNoisyCatalog(self):
"""
Compare noisy and noiseless images drawn from the same catalog.
Make sure that the pixel-by-pixel difference between the two is
as expected from Poisson statistics.
"""
noisyCatName = os.path.join(self.scratch_dir, 'testNoisyCatalog.sav')
cleanCatName = os.path.join(self.scratch_dir, 'testCleanCatalog.sav')
gals = testGalaxyBulgeDBObj(driver=self.driver, database=self.dbName)
noisyCat = noisyCatalog(gals, obs_metadata=self.obs_metadata)
cleanCat = backgroundCatalog(gals, obs_metadata=self.obs_metadata)
noisyCat.write_catalog(noisyCatName)
cleanCat.write_catalog(cleanCatName)
self.compareCatalogs(cleanCat, noisyCat,
PhotometricParameters().gain,
PhotometricParameters().readnoise)
if os.path.exists(noisyCatName):
os.unlink(noisyCatName)
if os.path.exists(cleanCatName):
os.unlink(cleanCatName)
def testMultipleImages(self):
"""
Test that GalSimInterpreter puts the right number of counts on images of multiple objects
"""
dbName = 'galSimTestMultipleDB.db'
driver = 'sqlite'
if os.path.exists(dbName):
os.unlink(dbName)
displacedRA = numpy.array([72.0/3600.0, 55.0/3600.0, 75.0/3600.0])
displacedDec = numpy.array([0.0, 15.0/3600.0, -15.0/3600.0])
obs_metadata = makePhoSimTestDB(filename=dbName, size=1,
displacedRA=displacedRA, displacedDec=displacedDec,
bandpass=self.bandpassNameList,
m5=self.m5, seeing=self.seeing)
gals = testGalaxyBulgeDBObj(driver=driver, database=dbName)
cat = testGalaxyCatalog(gals, obs_metadata=obs_metadata)
catName = 'multipleCatalog.sav'
cat.write_catalog(catName)
self.catalogTester(catName=catName, catalog=cat, nameRoot='multiple')
if os.path.exists(catName):
os.unlink(catName)
stars = testStarsDBObj(driver=driver, database=dbName)
cat = testStarCatalog(stars, obs_metadata=obs_metadata)
catName = 'multipleStarCatalog.sav'
cat.write_catalog(catName)
self.catalogTester(catName=catName, catalog=cat, nameRoot='multipleStars')
if os.path.exists(catName):
os.unlink(catName)
if os.path.exists(dbName):
os.unlink(dbName)
def testCompoundFitsFiles_one_empty(self):
"""
Test that GalSimInterpreter puts the right number of counts on images
containing different types of objects in the case where one of the
input catalogs is empty (really, this is testing that we can
successfully copy the GalSimInterpreter and all of the supporting
properties from an empty GalSimCatalog to another GalSimCatalog)
"""
driver = 'sqlite'
dbName1 = os.path.join(self.scratch_dir, 'galSimTestCompound1DB_one_empty.db')
if os.path.exists(dbName1):
os.unlink(dbName1)
deltaRA = np.array([72.0/3600.0, 55.0/3600.0, 75.0/3600.0])
deltaDec = np.array([0.0, 15.0/3600.0, -15.0/3600.0])
obs_metadata1 = makePhoSimTestDB(filename=dbName1, size=1,
deltaRA=deltaRA, deltaDec=deltaDec,
bandpass=self.bandpassNameList,
m5=self.m5, seeing=self.seeing)
dbName2 = os.path.join(self.scratch_dir, 'galSimTestCompound2DB_one_empty.db')
if os.path.exists(dbName2):
os.unlink(dbName2)
deltaRA = np.array([55.0/3600.0, 60.0/3600.0, 62.0/3600.0])
deltaDec = np.array([-3.0/3600.0, 10.0/3600.0, 10.0/3600.0])
obs_metadata2 = makePhoSimTestDB(filename=dbName2, size=1,
deltaRA=deltaRA, deltaDec=deltaDec,
bandpass=self.bandpassNameList,
m5=self.m5, seeing=self.seeing)
gals = testGalaxyBulgeDBObj(driver=driver, database=dbName1)
# shift the obs_metadata so that the catalog will not contain
# any objects
ra0 = obs_metadata1.pointingRA
dec0 = obs_metadata1.pointingDec
obs_metadata1.pointingRA = ra0 + 20.0
cat1 = testGalaxyCatalog(gals, obs_metadata=obs_metadata1)
cat1.camera_wrapper = GalSimCameraWrapper(self.camera)
catName = os.path.join(self.scratch_dir, 'compoundCatalog_one_empty.sav')
cat1.write_catalog(catName)
with open(catName, "r") as input_file:
input_lines = input_file.readlines()
self.assertEqual(len(input_lines), 1) # just the header
self.assertFalse(hasattr(cat1, 'bandpassDict'))
stars = testStarsDBObj(driver=driver, database=dbName2)
cat2 = testStarCatalog(stars, obs_metadata=obs_metadata2)
cat2.copyGalSimInterpreter(cat1)
cat2.write_catalog(catName, write_header=False, write_mode='a')
self.catalogTester(catName=catName, catalog=cat2, nameRoot='compound_one_empty')
if os.path.exists(dbName1):
os.unlink(dbName1)
if os.path.exists(dbName2):
os.unlink(dbName2)
if os.path.exists(catName):
os.unlink(catName)
def setUp(self):
self.tempDB = os.path.join(self.scratch_dir, 'PhoSimTestDatabase.db')
self.obs_metadata = makePhoSimTestDB(size=10, filename=self.tempDB)
self.bulgeDB = testGalaxyBulgeDBObj(driver='sqlite',
database=self.tempDB)
self.diskDB = testGalaxyDiskDBObj(driver='sqlite',
database=self.tempDB)
self.agnDB = testGalaxyAgnDBObj(driver='sqlite', database=self.tempDB)
self.starDB = testStarsDBObj(driver='sqlite', database=self.tempDB)
filter_translation = {'u': 0, 'g': 1, 'r': 2, 'i': 3, 'z': 4, 'y': 5}
alt, az, pa = altAzPaFromRaDec(self.obs_metadata.pointingRA,
self.obs_metadata.pointingDec,
self.obs_metadata,
includeRefraction=False)
self.control_header = [
'moondec %.7f\n' %
np.degrees(self.obs_metadata.OpsimMetaData['moondec']),
'rottelpos %.7f\n' %
np.degrees(self.obs_metadata.OpsimMetaData['rottelpos']),
'declination %.17f\n' % self.obs_metadata.pointingDec,
'moonalt %.7f\n' %
np.degrees(self.obs_metadata.OpsimMetaData['moonalt']),
'rotskypos %.17f\n' % self.obs_metadata.rotSkyPos,
'moonra %.7f\n' %
np.degrees(self.obs_metadata.OpsimMetaData['moonra']),
'sunalt %.7f\n' %
np.degrees(self.obs_metadata.OpsimMetaData['sunalt']),
'mjd %.17f\n' % (self.obs_metadata.mjd.TAI + 16.5 / 86400.0),
'azimuth %.17f\n' % az,
'rightascension %.17f\n' % self.obs_metadata.pointingRA,
'dist2moon %.7f\n' %
np.degrees(self.obs_metadata.OpsimMetaData['dist2moon']),
'filter %d\n' % filter_translation[self.obs_metadata.bandpass],
'altitude %.17f\n' % alt
]
def testCreationOfPhoSimCatalog(self):
"""
Make sure that we can create PhoSim input catalogs using the returned
ObservationMetaData. This test will just make sure that all of the
expected header entries are there.
"""
scratch_dir = os.path.join(getPackageDir('sims_catUtils'), 'tests',
'scratchSpace')
dbName = os.path.join(scratch_dir, 'obsMetaDataGeneratorTest.db')
catName = os.path.join(scratch_dir,
'testPhoSimFromObsMetaDataGenerator.txt')
if os.path.exists(dbName):
os.unlink(dbName)
makePhoSimTestDB(filename=dbName)
bulgeDB = testGalaxyBulgeDBObj(driver='sqlite', database=dbName)
gen = self.gen
results = gen.getObservationMetaData(fieldRA=np.degrees(1.370916),
telescopeFilter='i')
testCat = PhoSimCatalogSersic2D(bulgeDB, obs_metadata=results[0])
testCat.phoSimHeaderMap = {}
testCat.write_catalog(catName)
if os.path.exists(catName):
os.unlink(catName)
if os.path.exists(dbName):
os.unlink(dbName)
def testCreationOfPhoSimCatalog_3(self):
"""
Make sure that we can create PhoSim input catalogs using the returned
ObservationMetaData.
Test that an error is actually raised if we try to build a PhoSim catalog
with a v3 header map using a v4 ObservationMetaData
"""
dbName = tempfile.mktemp(dir=ROOT, prefix='obsMetaDataGeneratorTest-', suffix='.db')
makePhoSimTestDB(filename=dbName)
bulgeDB = testGalaxyBulgeDBObj(driver='sqlite', database=dbName)
opsim_db = os.path.join(getPackageDir('sims_data'), 'OpSimData',
'astro-lsst-01_2014.db')
assert os.path.isfile(opsim_db)
gen = ObservationMetaDataGenerator(opsim_db, driver='sqlite')
results = gen.getObservationMetaData(fieldRA=(70.0, 85.0),
telescopeFilter='i')
self.assertGreater(len(results), 0)
testCat = PhoSimCatalogSersic2D(bulgeDB, obs_metadata=results[0])
testCat.phoSimHeaderMap = DefaultPhoSimHeaderMap
with lsst.utils.tests.getTempFilePath('.txt') as catName:
with self.assertRaises(RuntimeError):
testCat.write_catalog(catName)
if os.path.exists(dbName):
os.unlink(dbName)
def setUp(self):
self.obs_metadata = makePhoSimTestDB(size=10)
self.bulgeDB = testGalaxyBulgeDBObj(driver='sqlite', database='PhoSimTestDatabase.db')
self.diskDB = testGalaxyDiskDBObj(driver='sqlite', database='PhoSimTestDatabase.db')
self.agnDB = testGalaxyAgnDBObj(driver='sqlite', database='PhoSimTestDatabase.db')
self.starDB = testStarsDBObj(driver='sqlite', database='PhoSimTestDatabase.db')
baseLineFileName = lsst.utils.getPackageDir('sims_catUtils')+'/tests/testData/phoSimControlCatalog.txt'
self.baseLineFile = open(baseLineFileName,'r')
def setUpClass(cls):
cls.dbName = tempfile.mktemp(dir=ROOT, prefix='PhoSimVariabilityDatabase-', suffix='.db')
cls.obs_metadata = makePhoSimTestDB(size=10, filename=cls.dbName)
cls.obs_metadata.mjd = ModifiedJulianDate(TAI=60000.0)
cls.bulgeDB = testGalaxyBulgeDBObj(driver='sqlite', database=cls.dbName)
cls.diskDB = testGalaxyDiskDBObj(driver='sqlite', database=cls.dbName)
cls.agnDB = testGalaxyAgnDBObj(driver='sqlite', database=cls.dbName)
cls.starDB = testStarsDBObj(driver='sqlite', database=cls.dbName)
def testCompoundFitsFiles(self):
"""
Test that GalSimInterpreter puts the right number of counts on images
containing different types of objects
"""
driver = "sqlite"
dbName1 = "galSimTestCompound1DB.db"
if os.path.exists(dbName1):
os.unlink(dbName1)
deltaRA = np.array([72.0 / 3600.0, 55.0 / 3600.0, 75.0 / 3600.0])
deltaDec = np.array([0.0, 15.0 / 3600.0, -15.0 / 3600.0])
obs_metadata1 = makePhoSimTestDB(
filename=dbName1,
size=1,
deltaRA=deltaRA,
deltaDec=deltaDec,
bandpass=self.bandpassNameList,
m5=self.m5,
seeing=self.seeing,
)
dbName2 = "galSimTestCompound2DB.db"
if os.path.exists(dbName2):
os.unlink(dbName2)
deltaRA = np.array([55.0 / 3600.0, 60.0 / 3600.0, 62.0 / 3600.0])
deltaDec = np.array([-3.0 / 3600.0, 10.0 / 3600.0, 10.0 / 3600.0])
obs_metadata2 = makePhoSimTestDB(
filename=dbName2,
size=1,
deltaRA=deltaRA,
deltaDec=deltaDec,
bandpass=self.bandpassNameList,
m5=self.m5,
seeing=self.seeing,
)
gals = testGalaxyBulgeDBObj(driver=driver, database=dbName1)
cat1 = testGalaxyCatalog(gals, obs_metadata=obs_metadata1)
catName = "compoundCatalog.sav"
cat1.write_catalog(catName)
stars = testStarsDBObj(driver=driver, database=dbName2)
cat2 = testStarCatalog(stars, obs_metadata=obs_metadata2)
cat2.copyGalSimInterpreter(cat1)
cat2.write_catalog(catName, write_header=False, write_mode="a")
self.catalogTester(catName=catName, catalog=cat2, nameRoot="compound")
if os.path.exists(dbName1):
os.unlink(dbName1)
if os.path.exists(dbName2):
os.unlink(dbName2)
if os.path.exists(catName):
os.unlink(catName)
def testGalaxyBulges(self):
"""
Test that GalSimInterpreter puts the right number of counts on images of galaxy bulges
"""
catName = 'testBulgeCat.sav'
gals = testGalaxyBulgeDBObj(driver=self.driver, database=self.dbName)
cat = testGalaxyCatalog(gals, obs_metadata = self.obs_metadata)
cat.write_catalog(catName)
self.catalogTester(catName=catName, catalog=cat, nameRoot='bulge')
if os.path.exists(catName):
os.unlink(catName)
def setUp(cls):
cls.dbName = 'PhoSimVariabilityDatabase.db'
if os.path.exists(cls.dbName):
os.unlink(cls.dbName)
cls.obs_metadata = makePhoSimTestDB(size=10, filename=cls.dbName)
cls.bulgeDB = testGalaxyBulgeDBObj(driver='sqlite', database=cls.dbName)
cls.diskDB = testGalaxyDiskDBObj(driver='sqlite', database=cls.dbName)
cls.agnDB = testGalaxyAgnDBObj(driver='sqlite', database=cls.dbName)
cls.starDB = testStarsDBObj(driver='sqlite', database=cls.dbName)
def testGalaxyBulges(self):
"""
Test that GalSimInterpreter puts the right number of counts on images of galaxy bulges
"""
catName = os.path.join(self.scratch_dir, 'testBulgeCat.sav')
gals = testGalaxyBulgeDBObj(driver=self.driver, database=self.dbName)
cat = testGalaxyCatalog(gals, obs_metadata=self.obs_metadata)
cat.write_catalog(catName)
self.catalogTester(catName=catName, catalog=cat, nameRoot='bulge')
if os.path.exists(catName):
os.unlink(catName)
def testPSFimages(self):
"""
Test that GalSimInterpreter puts the right number of counts on images of Galaxy bulges convolved
with a PSF
"""
catName = "testPSFcat.sav"
gals = testGalaxyBulgeDBObj(driver=self.driver, database=self.dbName)
cat = psfCatalog(gals, obs_metadata=self.obs_metadata)
cat.write_catalog(catName)
self.catalogTester(catName=catName, catalog=cat, nameRoot="psf")
if os.path.exists(catName):
os.unlink(catName)
def testBackground(self):
"""
Test that GalSimInterpreter puts the right number of counts on images of Galaxy bulges with
a sky background
"""
catName = "testBackgroundCat.sav"
gals = testGalaxyBulgeDBObj(driver=self.driver, database=self.dbName)
cat = backgroundCatalog(gals, obs_metadata=self.obs_metadata)
cat.write_catalog(catName)
self.catalogTester(catName=catName, catalog=cat, nameRoot="background")
if os.path.exists(catName):
os.unlink(catName)
def testCompoundFitsFiles(self):
"""
Test that GalSimInterpreter puts the right number of counts on images
containing different types of objects
"""
driver = 'sqlite'
dbName1 = os.path.join(self.scratch_dir, 'galSimTestCompound1DB.db')
if os.path.exists(dbName1):
os.unlink(dbName1)
deltaRA = np.array([72.0 / 3600.0, 55.0 / 3600.0, 75.0 / 3600.0])
deltaDec = np.array([0.0, 15.0 / 3600.0, -15.0 / 3600.0])
obs_metadata1 = makePhoSimTestDB(filename=dbName1,
size=1,
deltaRA=deltaRA,
deltaDec=deltaDec,
bandpass=self.bandpassNameList,
m5=self.m5,
seeing=self.seeing)
dbName2 = os.path.join(self.scratch_dir, 'galSimTestCompound2DB.db')
if os.path.exists(dbName2):
os.unlink(dbName2)
deltaRA = np.array([55.0 / 3600.0, 60.0 / 3600.0, 62.0 / 3600.0])
deltaDec = np.array([-3.0 / 3600.0, 10.0 / 3600.0, 10.0 / 3600.0])
obs_metadata2 = makePhoSimTestDB(filename=dbName2,
size=1,
deltaRA=deltaRA,
deltaDec=deltaDec,
bandpass=self.bandpassNameList,
m5=self.m5,
seeing=self.seeing)
gals = testGalaxyBulgeDBObj(driver=driver, database=dbName1)
cat1 = testGalaxyCatalog(gals, obs_metadata=obs_metadata1)
cat1.camera_wrapper = GalSimCameraWrapper(self.camera)
catName = os.path.join(self.scratch_dir, 'compoundCatalog.sav')
cat1.write_catalog(catName)
stars = testStarsDBObj(driver=driver, database=dbName2)
cat2 = testStarCatalog(stars, obs_metadata=obs_metadata2)
cat2.copyGalSimInterpreter(cat1)
cat2.write_catalog(catName, write_header=False, write_mode='a')
self.catalogTester(catName=catName, catalog=cat2, nameRoot='compound')
if os.path.exists(dbName1):
os.unlink(dbName1)
if os.path.exists(dbName2):
os.unlink(dbName2)
if os.path.exists(catName):
os.unlink(catName)
def testBackground(self):
"""
Test that GalSimInterpreter puts the right number of counts on images of Galaxy bulges with
a sky background
"""
catName = os.path.join(self.scratch_dir, 'testBackgroundCat.sav')
gals = testGalaxyBulgeDBObj(driver=self.driver, database=self.dbName)
cat = backgroundCatalog(gals, obs_metadata=self.obs_metadata)
cat.camera_wrapper = GalSimCameraWrapper(self.camera)
cat.write_catalog(catName)
self.catalogTester(catName=catName, catalog=cat, nameRoot='background')
if os.path.exists(catName):
os.unlink(catName)
def testMultipleImages(self):
"""
Test that GalSimInterpreter puts the right number of counts on images of multiple objects
"""
dbName = os.path.join(self.scratch_dir, 'galSimTestMultipleDB.db')
driver = 'sqlite'
if os.path.exists(dbName):
os.unlink(dbName)
deltaRA = np.array([72.0 / 3600.0, 55.0 / 3600.0, 75.0 / 3600.0])
deltaDec = np.array([0.0, 15.0 / 3600.0, -15.0 / 3600.0])
obs_metadata = makePhoSimTestDB(filename=dbName,
size=1,
deltaRA=deltaRA,
deltaDec=deltaDec,
bandpass=self.bandpassNameList,
m5=self.m5,
seeing=self.seeing)
gals = testGalaxyBulgeDBObj(driver=driver, database=dbName)
cat = testGalaxyCatalog(gals, obs_metadata=obs_metadata)
cat.camera_wrapper = GalSimCameraWrapper(self.camera)
catName = os.path.join(self.scratch_dir, 'multipleCatalog.sav')
cat.write_catalog(catName)
self.catalogTester(catName=catName, catalog=cat, nameRoot='multiple')
if os.path.exists(catName):
os.unlink(catName)
stars = testStarsDBObj(driver=driver, database=dbName)
cat = testStarCatalog(stars, obs_metadata=obs_metadata)
cat.camera_wrapper = GalSimCameraWrapper(self.camera)
catName = os.path.join(self.scratch_dir, 'multipleStarCatalog.sav')
cat.write_catalog(catName)
self.catalogTester(catName=catName,
catalog=cat,
nameRoot='multipleStars')
if os.path.exists(catName):
os.unlink(catName)
if os.path.exists(dbName):
os.unlink(dbName)
def setUp(self):
self.obs_metadata = makePhoSimTestDB(size=10)
self.bulgeDB = testGalaxyBulgeDBObj(driver='sqlite', database='PhoSimTestDatabase.db')
self.diskDB = testGalaxyDiskDBObj(driver='sqlite', database='PhoSimTestDatabase.db')
self.agnDB = testGalaxyAgnDBObj(driver='sqlite', database='PhoSimTestDatabase.db')
self.starDB = testStarsDBObj(driver='sqlite', database='PhoSimTestDatabase.db')
filter_translation={'u':0,'g':1, 'r':2, 'i':3, 'z':4, 'y':5}
self.control_header = ['Opsim_moondec %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['Opsim_moondec'][0]),
'Opsim_rottelpos %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['Opsim_rottelpos'][0]),
'Unrefracted_Dec %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['pointingDec'][0]),
'Opsim_moonalt %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['Opsim_moonalt'][0]),
'Opsim_rotskypos %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['Opsim_rotskypos'][0]),
'Opsim_moonra %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['Opsim_moonra'][0]),
'Opsim_sunalt %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['Opsim_sunalt'][0]),
'Opsim_expmjd %.9g\n' % self.obs_metadata.phoSimMetaData['Opsim_expmjd'][0],
'Unrefracted_Azimuth %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['Unrefracted_Azimuth'][0]),
'Unrefracted_RA %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['pointingRA'][0]),
'Opsim_dist2moon %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['Opsim_dist2moon'][0]),
'Opsim_filter %d\n' % filter_translation[self.obs_metadata.phoSimMetaData['Opsim_filter'][0]],
'Unrefracted_Altitude %.9g\n' % numpy.degrees(self.obs_metadata.phoSimMetaData['Unrefracted_Altitude'][0])]
def testCreationOfPhoSimCatalog(self):
"""
Make sure that we can create PhoSim input catalogs using the returned
ObservationMetaData. This test will just make sure that all of the
expected header entries are there.
"""
dbName = tempfile.mktemp(dir=ROOT, prefix='obsMetaDataGeneratorTest-', suffix='.db')
makePhoSimTestDB(filename=dbName)
bulgeDB = testGalaxyBulgeDBObj(driver='sqlite', database=dbName)
gen = self.gen
results = gen.getObservationMetaData(fieldRA=np.degrees(1.370916),
telescopeFilter='i')
testCat = PhoSimCatalogSersic2D(bulgeDB, obs_metadata=results[0])
testCat.phoSimHeaderMap = {}
with lsst.utils.tests.getTempFilePath('.txt') as catName:
testCat.write_catalog(catName)
if os.path.exists(dbName):
os.unlink(dbName)
def testNoisyCatalog(self):
"""
Compare noisy and noiseless images drawn from the same catalog.
Make sure that the pixel-by-pixel difference between the two is
as expected from Poisson statistics.
"""
noisyCatName = 'testNoisyCatalog.sav'
cleanCatName = 'testCleanCatalog.sav'
gals = testGalaxyBulgeDBObj(driver=self.driver, database=self.dbName)
noisyCat = noisyCatalog(gals, obs_metadata=self.obs_metadata)
cleanCat = backgroundCatalog(gals, obs_metadata=self.obs_metadata)
noisyCat.write_catalog(noisyCatName)
cleanCat.write_catalog(cleanCatName)
self.compareCatalogs(cleanCat, noisyCat, PhotometricParameters().gain, PhotometricParameters().readnoise)
if os.path.exists(noisyCatName):
os.unlink(noisyCatName)
if os.path.exists(cleanCatName):
os.unlink(cleanCatName)
def setUp(self):
self.tempDB = os.path.join(self.scratch_dir, 'PhoSimTestDatabase.db')
self.obs_metadata = makePhoSimTestDB(size=10, filename=self.tempDB)
self.bulgeDB = testGalaxyBulgeDBObj(driver='sqlite', database=self.tempDB)
self.diskDB = testGalaxyDiskDBObj(driver='sqlite', database=self.tempDB)
self.agnDB = testGalaxyAgnDBObj(driver='sqlite', database=self.tempDB)
self.starDB = testStarsDBObj(driver='sqlite', database=self.tempDB)
filter_translation = {'u': 0, 'g': 1, 'r': 2, 'i': 3, 'z': 4, 'y': 5}
alt, az, pa = altAzPaFromRaDec(self.obs_metadata.pointingRA,
self.obs_metadata.pointingDec,
self.obs_metadata, includeRefraction=False)
self.control_header = ['moondec %.7f\n' % np.degrees(self.obs_metadata.OpsimMetaData['moondec']),
'rottelpos %.7f\n' % np.degrees(self.obs_metadata.OpsimMetaData['rottelpos']),
'declination %.17f\n' % self.obs_metadata.pointingDec,
'moonalt %.7f\n' % np.degrees(self.obs_metadata.OpsimMetaData['moonalt']),
'rotskypos %.17f\n' % self.obs_metadata.rotSkyPos,
'moonra %.7f\n' % np.degrees(self.obs_metadata.OpsimMetaData['moonra']),
'sunalt %.7f\n' % np.degrees(self.obs_metadata.OpsimMetaData['sunalt']),
'mjd %.17f\n' % (self.obs_metadata.mjd.TAI+16.5/86400.0),
'azimuth %.17f\n' % az,
'rightascension %.17f\n' % self.obs_metadata.pointingRA,
'dist2moon %.7f\n' % np.degrees(self.obs_metadata.OpsimMetaData['dist2moon']),
'filter %d\n' % filter_translation[self.obs_metadata.bandpass],
'altitude %.17f\n' % alt]
