ObsTests¶
- class lsst.obs.base.tests.ObsTests¶
Bases:
ButlerGetTests
,MapperTests
,CameraTests
Aggregator class for all of the obs_* test classes.
Inherit from this class, then lsst.utils.tests.TestCase, in that order.
Example subclass:
class TestObs(lsst.obs.base.tests.ObsTests, lsst.utils.tests.TestCase): def setUp(self): self.setUp_tests(...) self.setUp_butler_get(...) self.setUp_mapper(...) self.setUp_camera(...)
Notes
The intention is for each obs package to have a single test class that inherits from this collector class, thus “automatically” getting all new tests. If those tests require setup that isn’t defined in a given obs package, that obs package will be broken until updated. This is intentional, as a way to prevent obs packages from falling behind out of neglect.
Methods Summary
setUp_butler_get
([ccdExposureId_bits, ...])Set up the necessary variables for butlerGet tests.
setUp_camera
([camera_name, n_detectors, ...])Set up the necessary variables for camera tests.
setUp_mapper
([output, path_to_raw, keys, ...])Set up the necessary variables for mapper tests.
setUp_tests
(butler, mapper, dataIds)Set up the necessary shared variables used by multiple tests.
tearDown
()Check that the butler returns the right type of camera.
Test that we can get a linearizer for good detectorIds.
Do bad detectorIds raise?
Simplest camera test: can we get a Camera instance, and does iterating return Detectors?
test_map
()Check the plate scale at center of focal plane
Test expansion of incomplete information of the available data in this obs package's testdata repo.
test_raw
()Test that
raw_header_wcs
returns the unmodified raw image header.Methods Documentation
- setUp_butler_get(ccdExposureId_bits=None, exposureIds=None, filters=None, exptimes=None, detectorIds=None, detector_names=None, detector_serials=None, dimensions=None, sky_origin=None, raw_subsets=None, good_detectorIds=None, bad_detectorIds=None, linearizer_type=None, raw_header_wcs=None)¶
Set up the necessary variables for butlerGet tests.
All “exposure name” entries below should correspond to an entry in self.dataIds.
- Parameters:
- ccdExposureId_bits
int
expected value of ccdExposureId_bits
- exposureIds
dict
dict of exposure name : ccdExposureId (the number as returned by the butler)
- filters
dict
dict of exposure name : filter name
- exptimes
dict
dict of exposure name : exposure time
- detector_names
dict
dict of exposure name : detector name
- detectorIds
dict
dict of exposure name : detectorId
- detector_serials
dict
dict of exposure name : detector serial
- dimensions
dict
dict of exposure name : dimensions (as a geom.Extent2I)
- sky_origin
tuple
offloat
Longitude, Latitude of ‘raw’ exposure
- raw_subsets
tuple
of (kwargs,int
) keyword args and expected number of subsets for
butler.subset('raw', **kwargs)
- good_detectorIds
list
ofint
list of valid ccd numbers
- bad_detectorIds
list
ofint
list of invalid ccd numbers
- linearizer_type
dict
dict of detectorId (usually
int
): LinearizerType (e.g. lsst.ip.isr.LinearizeLookupTable.LinearityType), or unittest.SkipTest to skip all linearizer tests.- raw_header_wcs
lsst.afw.geom.SkyWcs
The SkyWcs object that should be returned by
butler.get("raw_header_wcs", dataId=self.dataIds["raw"])
- ccdExposureId_bits
- setUp_camera(camera_name=None, n_detectors=None, first_detector_name=None, plate_scale=None)¶
Set up the necessary variables for camera tests.
- Parameters:
- camera_name
str
name of this camera
- n_detectors
int
number of detectors in this camera
- first_detector_name
str
name of the first detector in this camera
- plate_scale
lsst.geom.Angle
plate scale at center of focal plane, as angle-on-sky/mm
- camera_name
- setUp_mapper(output=None, path_to_raw=None, keys=None, query_format=None, queryMetadata=None, metadata_output_path=None, map_python_type=None, map_python_std_type=None, map_cpp_type=None, map_storage_name=None, raw_filename=None, default_level=None, raw_levels=None, test_config_metadata=True)¶
Set up the necessary variables for mapper tests.
- Parameters:
- output
str
full path to output repository (can be the same as data_dir input repository)
- path_to_raw
str
full path to the raw file referenced by dataIds[‘raw’]
- keys
set
dictionary keys that this mapper should contain
- query_format
list
format list for the results portion of queryMetadata
- queryMetadata
tuple
of (dict
,tuple
) dataIds and the results of calling them in queryMetadata
- metadata_output_path
str
path to metadata output associated with dataIds[‘raw’]
- map_python_type
type
full python type specification returned by the mapper for dataIds[‘raw’]
- map_python_std_type
type
full python type specification returned by the mapper for dataIds[‘raw’] after standardization
- map_cpp_type
str
C++ type specification returned by the mapper for dataIds[‘raw’]
- map_storage_name
str
butler name for the storage type dataIds[‘raw’]
- raw_filename
str
Name of the raw files returned by the mapper for dataIds[‘raw’]
- default_level
str
value returned from mapper.getDefaultLevel
- raw_levels
tuple
of (str
,set
ofstr
) (level, expect) level and expected mapper return for mapper.getKeys(‘raw’, level)
- test_config_metadata
bool
Test persisted config and metadata? These tests may not be appropriate for test stand data. Defaults to True.
- output
- setUp_tests(butler, mapper, dataIds)¶
Set up the necessary shared variables used by multiple tests.
- Parameters:
- butler: lsst.daf.persistence.Butler
A butler object, instantiated on the testdata repository for the obs package being tested.
- mapper: lsst.obs.CameraMapper
A CameraMapper object for your camera, instantiated on the testdata repository the obs package being tested.
- dataIds: dict
dictionary of (exposure name): (dataId of that exposure in the testdata repository), with unittest.SkipTest as the value for any exposures you do not have/do not want to test. It must contain a valid ‘raw’ dataId, in addition to ‘bias’,’flat’,’dark’, which may be set to SkipTest. For example:
self.dataIds = {'raw': {'visit': 1, 'filter': 'g'}, 'bias': {'visit': 1}, 'flat': {'visit': 1}, 'dark': unittest.SkipTest }
- tearDown()¶
- test_bias()¶
- test_camera_butler()¶
Check that the butler returns the right type of camera.
- test_can_standardize()¶
- test_dark()¶
- test_exposureId_bits()¶
- test_flat()¶
- test_get_dataset_types()¶
- test_get_default_level()¶
- test_get_keys_raw()¶
- test_get_linearizer()¶
Test that we can get a linearizer for good detectorIds.
- test_get_linearizer_bad_detectorIds()¶
Do bad detectorIds raise?
- test_iterable()¶
Simplest camera test: can we get a Camera instance, and does iterating return Detectors?
- test_keys()¶
- test_map()¶
- test_map_config_data()¶
- test_map_metadata_data()¶
- test_plate_scale()¶
Check the plate scale at center of focal plane
Check plate_scale using the FOCAL_PLANE to FIELD_ANGLE transform from the camera.
- test_query_metadata()¶
Test expansion of incomplete information of the available data in this obs package’s testdata repo.
- test_raw()¶
- test_raw_header_wcs()¶
Test that
raw_header_wcs
returns the unmodified raw image header.
- test_raw_sub_bbox()¶
- test_subset_raw()¶
- test_validate()¶