LSST Applications  21.0.0-147-g0e635eb1+1acddb5be5,22.0.0+052faf71bd,22.0.0+1ea9a8b2b2,22.0.0+6312710a6c,22.0.0+729191ecac,22.0.0+7589c3a021,22.0.0+9f079a9461,22.0.1-1-g7d6de66+b8044ec9de,22.0.1-1-g87000a6+536b1ee016,22.0.1-1-g8e32f31+6312710a6c,22.0.1-10-gd060f87+016f7cdc03,22.0.1-12-g9c3108e+df145f6f68,22.0.1-16-g314fa6d+c825727ab8,22.0.1-19-g93a5c75+d23f2fb6d8,22.0.1-19-gb93eaa13+aab3ef7709,22.0.1-2-g8ef0a89+b8044ec9de,22.0.1-2-g92698f7+9f079a9461,22.0.1-2-ga9b0f51+052faf71bd,22.0.1-2-gac51dbf+052faf71bd,22.0.1-2-gb66926d+6312710a6c,22.0.1-2-gcb770ba+09e3807989,22.0.1-20-g32debb5+b8044ec9de,22.0.1-23-gc2439a9a+fb0756638e,22.0.1-3-g496fd5d+09117f784f,22.0.1-3-g59f966b+1e6ba2c031,22.0.1-3-g849a1b8+f8b568069f,22.0.1-3-gaaec9c0+c5c846a8b1,22.0.1-32-g5ddfab5d3+60ce4897b0,22.0.1-4-g037fbe1+64e601228d,22.0.1-4-g8623105+b8044ec9de,22.0.1-5-g096abc9+d18c45d440,22.0.1-5-g15c806e+57f5c03693,22.0.1-7-gba73697+57f5c03693,master-g6e05de7fdc+c1283a92b8,master-g72cdda8301+729191ecac,w.2021.39
LSST Data Management Base Package
simpleMapper.py
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1 #
2 # LSST Data Management System
3 # Copyright 2008, 2009, 2010, 2011, 2012 LSST Corporation.
4 #
5 # This product includes software developed by the
6 # LSST Project (http://www.lsst.org/).
7 #
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9 # it under the terms of the GNU General Public License as published by
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16 # GNU General Public License for more details.
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19 # the GNU General Public License along with this program. If not,
20 # see <http://www.lsstcorp.org/LegalNotices/>.
21 #
22 
23 """Mapper and cameraGeom definition for extremely simple mock data.
24 
25 SimpleMapper inherits directly from Mapper, not CameraMapper. This means
26 we can avoid any problems with paf files at the expense of reimplementing
27 some parts of CameraMapper here. Jim is not sure this was the best
28 possible approach, but it gave him an opportunity to play around with
29 prototyping a future paf-free mapper class, and it does everything it
30 needs to do right now.
31 """
32 import os
33 import shutil
34 import re
35 
36 import lsst.geom
39 import lsst.afw.geom
40 import lsst.afw.image as afwImage
41 
42 __all__ = ("SimpleMapper", "makeSimpleCamera", "makeDataRepo")
43 
44 
46  """Base class of a hierarchy used by SimpleMapper to defined different kinds of types of objects
47  to persist.
48 
49  PersistenceType objects are never instantiated; only the type objects are used (we needed a
50  simple singleton struct that could be inherited, which is exactly what a Python type is).
51  """
52  python = None
53  cpp = "ignored"
54  storage = None
55  ext = ""
56  suffixes = ()
57 
58  @classmethod
59  def makeButlerLocation(cls, path, dataId, mapper, suffix=None, storage=None):
60  """Method called by SimpleMapping to implement a map_ method."""
61  return lsst.daf.persistence.ButlerLocation(cls.pythonpython, cls.cppcpp, cls.storagestorage, [path], dataId,
62  mapper=mapper,
63  storage=storage)
64 
65  def canStandardize(self, datasetType):
66  return False
67 
68 
70  """Persistence type for things that don't actually use daf_persistence.
71  """
72 
73  python = "lsst.daf.base.PropertySet" # something to import even when we don't need to
74 
75  @classmethod
76  def makeButlerLocation(cls, path, dataId, mapper, suffix=None, storage=None):
77  """Method called by SimpleMapping to implement a map_ method; overridden to not use the path."""
78  return lsst.daf.persistence.ButlerLocation(cls.pythonpythonpython, cls.cppcpp, cls.storagestorage, [], dataId,
79  mapper=mapper, storage=storage)
80 
81 
83  """Persistence type of Exposure images.
84  """
85 
86  python = "lsst.afw.image.ExposureF"
87  cpp = "ExposureF"
88  storage = "FitsStorage"
89  ext = ".fits"
90  suffixes = ("_sub",)
91 
92  @classmethod
93  def makeButlerLocation(cls, path, dataId, mapper, suffix=None, storage=None):
94  """Method called by SimpleMapping to implement a map_ method; overridden to support subimages."""
95  if suffix is None:
96  loc = super(ExposurePersistenceType, cls).makeButlerLocation(path, dataId, mapper, suffix=None,
97  storage=storage)
98  # Write options are never applicable for _sub, since that's only
99  # for read. None of the values aside from the "NONE"s matter, but
100  # writing explicit meaningless values for all of them to appease
101  # afw is the price we pay for trying to write a non-CameraMapper
102  # Mapper. It'll all get better with Gen3 (TM).
103  options = {
104  "compression.algorithm": "NONE",
105  "compression.columns": 0,
106  "compression.rows": 0,
107  "compression.quantizeLevel": 0.0,
108  "scaling.algorithm": "NONE",
109  "scaling.bzero": 0.0,
110  "scaling.bscale": 0.0,
111  "scaling.bitpix": 0,
112  "scaling.quantizeLevel": 0.0,
113  "scaling.quantizePad": 0.0,
114  "scaling.fuzz": False,
115  "scaling.seed": 0,
116  }
117  for prefix in ("image", "mask", "variance"):
118  for k, v in options.items():
119  loc.additionalData.set("{}.{}".format(prefix, k), v)
120  elif suffix == "_sub":
121  subId = dataId.copy()
122  bbox = subId.pop('bbox')
123  loc = super(ExposurePersistenceType, cls).makeButlerLocation(path, subId, mapper, suffix=None,
124  storage=storage)
125  loc.additionalData.set('llcX', bbox.getMinX())
126  loc.additionalData.set('llcY', bbox.getMinY())
127  loc.additionalData.set('width', bbox.getWidth())
128  loc.additionalData.set('height', bbox.getHeight())
129  if 'imageOrigin' in dataId:
130  loc.additionalData.set('imageOrigin',
131  dataId['imageOrigin'])
132  return loc
133 
134 
136  python = "lsst.skymap.BaseSkyMap"
137  storage = "PickleStorage"
138  ext = ".pickle"
139 
140 
142  python = "lsst.afw.table.BaseCatalog"
143  cpp = "BaseCatalog"
144  storage = "FitsCatalogStorage"
145  ext = ".fits"
146 
147 
149  python = "lsst.afw.table.SimpleCatalog"
150  cpp = "SimpleCatalog"
151 
152 
154  python = "lsst.afw.table.SourceCatalog"
155  cpp = "SourceCatalog"
156 
157 
159  python = "lsst.afw.table.ExposureCatalog"
160  cpp = "ExposureCatalog"
161 
162 
164  python = "lsst.afw.detection.PeakCatalog"
165  cpp = "PeakCatalog"
166 
167 
169  """Mapping object used to implement SimpleMapper, similar in intent to lsst.daf.peristence.Mapping.
170  """
171 
172  template = None
173  keys = {}
174 
175  def __init__(self, persistence, template=None, keys=None):
176  self.persistencepersistence = persistence
177  if template is not None:
178  self.templatetemplate = template
179  if keys is not None:
180  self.keyskeyskeys = keys
181 
182  def map(self, dataset, root, dataId, mapper, suffix=None, storage=None):
183  if self.templatetemplate is not None:
184  path = self.templatetemplate.format(dataset=dataset, ext=self.persistencepersistence.ext, **dataId)
185  else:
186  path = None
187  return self.persistencepersistence.makeButlerLocation(path, dataId, suffix=suffix, mapper=mapper,
188  storage=storage)
189 
190 
192  """Mapping for dataset types that are organized the same way as raw data (i.e. by CCD)."""
193 
194  template = "{dataset}-{visit:04d}-{ccd:01d}{ext}"
195  keys = dict(visit=int, ccd=int)
196 
197  def query(self, dataset, index, level, format, dataId):
198  dictList = index[dataset][level]
199  results = [list(d.values()) for d in dictList[dataId.get(level, None)]]
200  return results
201 
202 
204  """Mapping for dataset types that are organized according to a SkyMap subdivision of the sky."""
205 
206  template = "{dataset}-{filter}-{tract:02d}-{patch}{ext}"
207  keys = dict(filter=str, tract=int, patch=str)
208 
209 
211  """Mapping for CoaddTempExp datasets."""
212 
213  template = "{dataset}-{tract:02d}-{patch}-{visit:04d}{ext}"
214  keys = dict(tract=int, patch=str, visit=int)
215 
216 
218  """Mapping for forced_src datasets."""
219 
220  template = "{dataset}-{tract:02d}-{visit:04d}-{ccd:01d}{ext}"
221  keys = dict(tract=int, ccd=int, visit=int)
222 
223 
225  """Metaclass for SimpleMapper that creates map_ and query_ methods for everything found in the
226  'mappings' class variable.
227  """
228 
229  @staticmethod
230  def _makeMapClosure(dataset, mapping, suffix=None):
231  def mapClosure(self, dataId, write=False):
232  return mapping.map(dataset, self.root, dataId, self, suffix=suffix, storage=self.storage)
233  return mapClosure
234 
235  @staticmethod
236  def _makeQueryClosure(dataset, mapping):
237  def queryClosure(self, level, format, dataId):
238  return mapping.query(dataset, self.index, level, format, dataId)
239  return queryClosure
240 
241  def __init__(cls, name, bases, dict_): # noqa allow "cls" instead of "self"
242  type.__init__(cls, name, bases, dict_)
243  cls.keyDictkeyDict = dict()
244  for dataset, mapping in cls.mappings.items():
245  setattr(cls, "map_" + dataset, MapperMeta._makeMapClosure(dataset, mapping, suffix=None))
246  for suffix in mapping.persistence.suffixes:
247  setattr(cls, "map_" + dataset + suffix,
248  MapperMeta._makeMapClosure(dataset, mapping, suffix=suffix))
249  if hasattr(mapping, "query"):
250  setattr(cls, "query_" + dataset, MapperMeta._makeQueryClosure(dataset, mapping))
251  cls.keyDictkeyDict.update(mapping.keys)
252 
253 
254 class SimpleMapper(lsst.daf.persistence.Mapper, metaclass=MapperMeta):
255  """
256  An extremely simple mapper for an imaginary camera for use in integration tests.
257 
258  As SimpleMapper does not inherit from obs.base.CameraMapper, it does not
259  use a policy file to set mappings or a registry; all the information is here
260  (in the map_* and query_* methods).
261 
262  The imaginary camera's raw data format has only 'visit' and 'ccd' keys, with
263  two CCDs per visit (by default).
264  """
265 
266  mappings = dict(
267  calexp=RawMapping(ExposurePersistenceType),
268  forced_src=ForcedSrcMapping(SourceCatalogPersistenceType),
269  forced_src_schema=SimpleMapping(SourceCatalogPersistenceType,
270  template="{dataset}{ext}", keys={}),
271  truth=SimpleMapping(SimpleCatalogPersistenceType, template="{dataset}-{tract:02d}{ext}",
272  keys={"tract": int}),
273  simsrc=RawMapping(SimpleCatalogPersistenceType, template="{dataset}-{tract:02d}{ext}",
274  keys={"tract": int}),
275  observations=SimpleMapping(ExposureCatalogPersistenceType, template="{dataset}-{tract:02d}{ext}",
276  keys={"tract": int}),
277  ccdExposureId=RawMapping(BypassPersistenceType),
278  ccdExposureId_bits=SimpleMapping(BypassPersistenceType),
279  deepCoaddId=SkyMapping(BypassPersistenceType),
280  deepCoaddId_bits=SimpleMapping(BypassPersistenceType),
281  deepMergedCoaddId=SkyMapping(BypassPersistenceType),
282  deepMergedCoaddId_bits=SimpleMapping(BypassPersistenceType),
283  deepCoadd_skyMap=SimpleMapping(SkyMapPersistenceType, template="{dataset}{ext}", keys={}),
284  deepCoadd=SkyMapping(ExposurePersistenceType),
285  deepCoadd_filterLabel=SkyMapping(ExposurePersistenceType),
286  deepCoaddPsfMatched=SkyMapping(ExposurePersistenceType),
287  deepCoadd_calexp=SkyMapping(ExposurePersistenceType),
288  deepCoadd_calexp_background=SkyMapping(CatalogPersistenceType),
289  deepCoadd_icSrc=SkyMapping(SourceCatalogPersistenceType),
290  deepCoadd_icSrc_schema=SimpleMapping(SourceCatalogPersistenceType,
291  template="{dataset}{ext}", keys={}),
292  deepCoadd_src=SkyMapping(SourceCatalogPersistenceType),
293  deepCoadd_src_schema=SimpleMapping(SourceCatalogPersistenceType,
294  template="{dataset}{ext}", keys={}),
295  deepCoadd_peak_schema=SimpleMapping(PeakCatalogPersistenceType,
296  template="{dataset}{ext}", keys={}),
297  deepCoadd_ref=SkyMapping(SourceCatalogPersistenceType),
298  deepCoadd_ref_schema=SimpleMapping(SourceCatalogPersistenceType,
299  template="{dataset}{ext}", keys={}),
300  deepCoadd_det=SkyMapping(SourceCatalogPersistenceType),
301  deepCoadd_det_schema=SimpleMapping(SourceCatalogPersistenceType,
302  template="{dataset}{ext}", keys={}),
303  deepCoadd_mergeDet=SkyMapping(SourceCatalogPersistenceType),
304  deepCoadd_mergeDet_schema=SimpleMapping(SourceCatalogPersistenceType,
305  template="{dataset}{ext}", keys={}),
306  deepCoadd_deblendedFlux=SkyMapping(SourceCatalogPersistenceType),
307  deepCoadd_deblendedFlux_schema=SimpleMapping(SourceCatalogPersistenceType,
308  template="{dataset}{ext}", keys={}),
309  deepCoadd_deblendedModel=SkyMapping(SourceCatalogPersistenceType),
310  deepCoadd_deblendedModel_schema=SimpleMapping(SourceCatalogPersistenceType,
311  template="{dataset}{ext}", keys={}),
312  deepCoadd_meas=SkyMapping(SourceCatalogPersistenceType),
313  deepCoadd_meas_schema=SimpleMapping(SourceCatalogPersistenceType,
314  template="{dataset}{ext}", keys={}),
315  deepCoadd_forced_src=SkyMapping(SourceCatalogPersistenceType),
316  deepCoadd_forced_src_schema=SimpleMapping(SourceCatalogPersistenceType,
317  template="{dataset}{ext}", keys={}),
318  deepCoadd_mock=SkyMapping(ExposurePersistenceType),
319  deepCoaddPsfMatched_mock=SkyMapping(ExposurePersistenceType),
320  deepCoadd_directWarp=TempExpMapping(ExposurePersistenceType),
321  deepCoadd_directWarp_mock=TempExpMapping(ExposurePersistenceType),
322  deepCoadd_psfMatchedWarp=TempExpMapping(ExposurePersistenceType),
323  deepCoadd_psfMatchedWarp_mock=TempExpMapping(ExposurePersistenceType),
324  )
325 
326  levels = dict(
327  visit=['ccd'],
328  ccd=[],
329  )
330 
331  def __init__(self, root, **kwargs):
332  self.storagestorage = lsst.daf.persistence.Storage.makeFromURI(root)
333  super(SimpleMapper, self).__init__(**kwargs)
334  self.rootroot = root
335  self.cameracamera = makeSimpleCamera(nX=1, nY=2, sizeX=400, sizeY=200, gapX=2, gapY=2)
336  # NOTE: we set band/physical here because CoaddsTestCase.testCoaddInputs()
337  # expects "r" for both the input dataIds (gen2 dataIds could be either
338  # physical or band) and the output CoaddInputRecords.
339  # The original data had just `Filter("r")`, so this has always assumed
340  # that physicalLabel==bandLabel, even though CoaddInputRecords are physical.
341  self.filterLabelfilterLabel = afwImage.FilterLabel(band="r", physical="r")
342  self.updateupdate()
343 
344  def getDefaultLevel(self):
345  return "ccd"
346 
347  def getKeys(self, datasetType, level):
348  if datasetType is None:
349  keyDict = self.keyDictkeyDict
350  else:
351  keyDict = self.mappingsmappings[datasetType].keys
352  if level is not None and level in self.levelslevels:
353  keyDict = dict(keyDict)
354  for lev in self.levelslevels[level]:
355  if lev in keyDict:
356  del keyDict[lev]
357  return keyDict
358 
359  def update(self):
360  filenames = os.listdir(self.rootroot)
361  rawRegex = re.compile(r"(?P<dataset>\w+)-(?P<visit>\d+)-(?P<ccd>\d).*")
362  self.indexindex = {}
363  for filename in filenames:
364  m = rawRegex.match(filename)
365  if not m:
366  continue
367  index = self.indexindex.setdefault(m.group('dataset'), dict(ccd={None: []}, visit={None: []}))
368  visit = int(m.group('visit'))
369  ccd = int(m.group('ccd'))
370  d1 = dict(visit=visit, ccd=ccd)
371  d2 = dict(visit=visit)
372  index['ccd'].setdefault(visit, []).append(d1)
373  index['ccd'][None].append(d1)
374  index['visit'][visit] = [d2]
375  index['visit'][None].append(d1)
376 
377  def keys(self):
378  return self.keyDictkeyDict
379 
380  def bypass_camera(self, datasetType, pythonType, location, dataId):
381  return self.cameracamera
382 
383  def map_camera(self, dataId, write=False):
385  "lsst.afw.cameraGeom.Camera", "Camera", None, [], dataId, mapper=self, storage=self.storagestorage
386  )
387 
388  def std_calexp(self, item, dataId):
389  detectorId = dataId["ccd"]
390  detector = self.cameracamera[detectorId]
391  item.setDetector(detector)
392  item.setFilterLabel(self.filterLabelfilterLabel)
393  return item
394 
395  def _computeCcdExposureId(self, dataId):
396  return int(dataId["visit"]) * 10 + int(dataId["ccd"])
397 
398  def _computeCoaddId(self, dataId):
399  # Note: for real IDs, we'd want to include filter here, but it doesn't actually matter
400  # for any of the tests we've done so far, which all assume filter='r'
401  tract = int(dataId['tract'])
402  if tract < 0 or tract >= 128:
403  raise RuntimeError('tract not in range [0,128)')
404  patchX, patchY = (int(c) for c in dataId['patch'].split(','))
405  for p in (patchX, patchY):
406  if p < 0 or p >= 2**13:
407  raise RuntimeError('patch component not in range [0, 8192)')
408  return (tract * 2**13 + patchX) * 2**13 + patchY
409 
410  @staticmethod
411  def splitCcdExposureId(ccdExposureId):
412  return dict(visit=(int(ccdExposureId) // 10), ccd=(int(ccdExposureId) % 10))
413 
414  def bypass_ccdExposureId(self, datasetType, pythonType, location, dataId):
415  return self._computeCcdExposureId_computeCcdExposureId(dataId)
416 
417  def bypass_ccdExposureId_bits(self, datasetType, pythonType, location, dataId):
418  return 32
419 
420  def bypass_deepCoaddId(self, datasetType, pythonType, location, dataId):
421  return self._computeCoaddId_computeCoaddId(dataId)
422 
423  def bypass_deepCoaddId_bits(self, datasetType, pythonType, location, dataId):
424  return 1 + 7 + 13*2 + 3
425 
426  def bypass_deepMergedCoaddId(self, datasetType, pythonType, location, dataId):
427  return self._computeCoaddId_computeCoaddId(dataId)
428 
429  def bypass_deepMergedCoaddId_bits(self, datasetType, pythonType, location, dataId):
430  return 1 + 7 + 13*2 + 3
431 
432  def bypass_deepCoadd_filterLabel(self, *args, **kwargs):
433  """To return a useful filterLabel for MergeDetectionsTask."""
434  return afwImage.FilterLabel(band=self.filterLabelfilterLabel.bandLabel)
435 
436 
438  nX, nY,
439  sizeX, sizeY,
440  gapX, gapY,
441  pixelSize=1.0,
442  plateScale=20.0,
443  radialDistortion=0.925,
444 ):
445  """Create a camera
446 
447  @param[in] nx: number of detectors in x
448  @param[in] ny: number of detectors in y
449  @param[in] sizeX: detector size in x (pixels)
450  @param[in] sizeY: detector size in y (pixels)
451  @param[in] gapX: gap between detectors in x (mm)
452  @param[in] gapY: gap between detectors in y (mm)
453  @param[in] pixelSize: pixel size (mm) (a float)
454  @param[in] plateScale: plate scale in arcsec/mm; 20.0 is for LSST
455  @param[in] radialDistortion: radial distortion, in mm/rad^2
456  (the r^3 coefficient of the radial distortion polynomial
457  that converts FIELD_ANGLE in radians to FOCAL_PLANE in mm);
458  0.925 is the value Dave Monet measured for lsstSim data
459 
460  Each detector will have one amplifier (with no raw information).
461  """
462  pScaleRad = lsst.geom.arcsecToRad(plateScale)
463  radialDistortCoeffs = [0.0, 1.0/pScaleRad, 0.0, radialDistortion/pScaleRad]
464  focalPlaneToFieldAngle = lsst.afw.geom.makeRadialTransform(radialDistortCoeffs)
465 
466  ccdBBox = lsst.geom.Box2I(lsst.geom.Point2I(), lsst.geom.Extent2I(sizeX, sizeY))
467 
468  cameraBuilder = lsst.afw.cameraGeom.Camera.Builder("Simple Camera")
469 
470  detectorId = 0
471  for iY in range(nY):
472  cY = (iY - 0.5 * (nY - 1)) * (pixelSize * sizeY + gapY)
473  for iX in range(nX):
474  cX = (iX - 0.5 * (nX - 1)) * (pixelSize * sizeY + gapX)
475  fpPos = lsst.geom.Point2D(cX, cY)
476  detectorName = "detector %d,%d" % (iX, iY)
477 
478  detectorBuilder = cameraBuilder.add(detectorName, detectorId)
479  detectorBuilder.setSerial(detectorName + " serial")
480  detectorBuilder.setBBox(ccdBBox)
481  detectorBuilder.setOrientation(lsst.afw.cameraGeom.Orientation(fpPos))
482  detectorBuilder.setPixelSize(lsst.geom.Extent2D(pixelSize, pixelSize))
483 
485  ampName = "amp"
486  ampBuilder.setName(ampName)
487  ampBuilder.setBBox(ccdBBox)
488  ampBuilder.setGain(1.0)
489  ampBuilder.setReadNoise(5.0)
490 
491  detectorBuilder.append(ampBuilder)
492 
493  detectorId += 1
494 
495  cameraBuilder.setTransformFromFocalPlaneTo(lsst.afw.cameraGeom.FIELD_ANGLE, focalPlaneToFieldAngle)
496  return cameraBuilder.finish()
497 
498 
499 def makeDataRepo(root):
500  """
501  Create a data repository for SimpleMapper and return a butler for it.
502 
503  Clobbers anything already in the given path.
504  """
505  if os.path.exists(root):
506  shutil.rmtree(root)
507  os.makedirs(root)
508  with open(os.path.join(root, "_mapper"), "w") as f:
509  f.write("lsst.pipe.tasks.mocks.SimpleMapper\n")
510  return lsst.daf.persistence.Butler(root=root)
std::vector< SchemaItem< Flag > > * items
table::Key< int > type
Definition: Detector.cc:163
A mutable Amplifier subclass class that can be used to incrementally construct or modify Amplifiers.
Definition: Amplifier.h:305
A helper class for creating and modifying cameras.
Definition: Camera.h:208
Describe a detector's orientation in the focal plane.
Definition: Orientation.h:51
A group of labels for a filter in an exposure or coadd.
Definition: FilterLabel.h:58
An integer coordinate rectangle.
Definition: Box.h:55
def makeButlerLocation(cls, path, dataId, mapper, suffix=None, storage=None)
Definition: simpleMapper.py:76
def makeButlerLocation(cls, path, dataId, mapper, suffix=None, storage=None)
Definition: simpleMapper.py:93
def __init__(cls, name, bases, dict_)
def makeButlerLocation(cls, path, dataId, mapper, suffix=None, storage=None)
Definition: simpleMapper.py:59
def query(self, dataset, index, level, format, dataId)
def bypass_deepMergedCoaddId_bits(self, datasetType, pythonType, location, dataId)
def bypass_deepMergedCoaddId(self, datasetType, pythonType, location, dataId)
def bypass_ccdExposureId(self, datasetType, pythonType, location, dataId)
def bypass_deepCoadd_filterLabel(self, *args, **kwargs)
def map_camera(self, dataId, write=False)
def bypass_camera(self, datasetType, pythonType, location, dataId)
def bypass_deepCoaddId_bits(self, datasetType, pythonType, location, dataId)
def bypass_ccdExposureId_bits(self, datasetType, pythonType, location, dataId)
def bypass_deepCoaddId(self, datasetType, pythonType, location, dataId)
def map(self, dataset, root, dataId, mapper, suffix=None, storage=None)
def __init__(self, persistence, template=None, keys=None)
daf::base::PropertyList * list
Definition: fits.cc:913
std::shared_ptr< FrameSet > append(FrameSet const &first, FrameSet const &second)
Construct a FrameSet that performs two transformations in series.
Definition: functional.cc:33
std::shared_ptr< TransformPoint2ToPoint2 > makeRadialTransform(std::vector< double > const &coeffs)
A purely radial polynomial distortion.
Backwards-compatibility support for depersisting the old Calib (FluxMag0/FluxMag0Err) objects.
constexpr double arcsecToRad(double x) noexcept
Definition: Angle.h:55
def format(config, name=None, writeSourceLine=True, prefix="", verbose=False)
Definition: history.py:174
def makeSimpleCamera(nX, nY, sizeX, sizeY, gapX, gapY, pixelSize=1.0, plateScale=20.0, radialDistortion=0.925)