33 populate_sattle_visit_cache)
34from lsst.meas.algorithms
import SkyObjectsTask, SourceDetectionTask, SetPrimaryFlagsTask, MaskStreaksTask
35from lsst.meas.algorithms
import FindGlintTrailsTask, FindCosmicRaysConfig, findCosmicRays
36from lsst.meas.base import ForcedMeasurementTask, ApplyApCorrTask, DetectorVisitIdGeneratorConfig
37import lsst.meas.deblender
38import lsst.meas.extensions.trailedSources
39import lsst.meas.extensions.shapeHSM
44from lsst.utils.timer
import timeMethod
46from .
import DipoleFitTask
48__all__ = [
"DetectAndMeasureConfig",
"DetectAndMeasureTask",
49 "DetectAndMeasureScoreConfig",
"DetectAndMeasureScoreTask"]
53 """Raised when the residuals in footprints of stars used to compute the
54 psf-matching kernel exceeds the configured maximum.
57 msg = (
"The ratio of residual power in source footprints on the"
58 " difference image to the power in the footprints on the"
59 f
" science image was {ratio}, which exceeds the maximum"
60 f
" threshold of {threshold}")
67 return {
"ratio": self.
ratio,
73 """Raised when there are no diaSources detected on an image difference.
76 msg = (
"No diaSources detected!")
85 """Raised if the cosmic ray task fails with too many cosmics.
90 Maximum number of cosmic rays allowed.
93 msg = f
"Cosmic ray task found more than {maxCosmicRays} cosmics."
97 self.
_metadata[
"maxCosmicRays"] = maxCosmicRays
101 return f
"{self.msg}: {self.metadata}"
105 for key, value
in self.
_metadata.items():
106 if not (isinstance(value, int)
or isinstance(value, float)
or isinstance(value, str)):
107 raise TypeError(f
"{key} is of type {type(value)}, but only (int, float, str) are allowed.")
112 dimensions=(
"instrument",
"visit",
"detector"),
113 defaultTemplates={
"coaddName":
"deep",
114 "warpTypeSuffix":
"",
116 science = pipeBase.connectionTypes.Input(
117 doc=
"Input science exposure.",
118 dimensions=(
"instrument",
"visit",
"detector"),
119 storageClass=
"ExposureF",
120 name=
"{fakesType}calexp"
122 matchedTemplate = pipeBase.connectionTypes.Input(
123 doc=
"Warped and PSF-matched template used to create the difference image.",
124 dimensions=(
"instrument",
"visit",
"detector"),
125 storageClass=
"ExposureF",
126 name=
"{fakesType}{coaddName}Diff_matchedExp",
128 difference = pipeBase.connectionTypes.Input(
129 doc=
"Result of subtracting template from science.",
130 dimensions=(
"instrument",
"visit",
"detector"),
131 storageClass=
"ExposureF",
132 name=
"{fakesType}{coaddName}Diff_differenceTempExp",
134 kernelSources = pipeBase.connectionTypes.Input(
135 doc=
"Final selection of sources used for psf matching.",
136 dimensions=(
"instrument",
"visit",
"detector"),
137 storageClass=
"SourceCatalog",
138 name=
"{fakesType}{coaddName}Diff_psfMatchSources"
140 outputSchema = pipeBase.connectionTypes.InitOutput(
141 doc=
"Schema (as an example catalog) for output DIASource catalog.",
142 storageClass=
"SourceCatalog",
143 name=
"{fakesType}{coaddName}Diff_diaSrc_schema",
145 diaSources = pipeBase.connectionTypes.Output(
146 doc=
"Detected diaSources on the difference image.",
147 dimensions=(
"instrument",
"visit",
"detector"),
148 storageClass=
"SourceCatalog",
149 name=
"{fakesType}{coaddName}Diff_diaSrc",
151 subtractedMeasuredExposure = pipeBase.connectionTypes.Output(
152 doc=
"Difference image with detection mask plane filled in.",
153 dimensions=(
"instrument",
"visit",
"detector"),
154 storageClass=
"ExposureF",
155 name=
"{fakesType}{coaddName}Diff_differenceExp",
157 differenceBackground = pipeBase.connectionTypes.Output(
158 doc=
"Background model that was subtracted from the difference image.",
159 dimensions=(
"instrument",
"visit",
"detector"),
160 storageClass=
"Background",
161 name=
"difference_background",
163 maskedStreaks = pipeBase.connectionTypes.Output(
164 doc=
'Catalog of streak fit parameters for the difference image.',
165 storageClass=
"ArrowNumpyDict",
166 dimensions=(
"instrument",
"visit",
"detector"),
167 name=
"{fakesType}{coaddName}Diff_streaks",
169 glintTrailInfo = pipeBase.connectionTypes.Output(
170 doc=
'Dict of fit parameters for glint trails in the catalog.',
171 storageClass=
"ArrowNumpyDict",
172 dimensions=(
"instrument",
"visit",
"detector"),
173 name=
"trailed_glints",
176 def __init__(self, *, config):
177 super().__init__(config=config)
178 if not (self.config.doCalculateResidualMetics):
179 self.inputs.remove(
"kernelSources")
180 if not (self.config.writeStreakInfo
and self.config.doMaskStreaks):
181 self.outputs.remove(
"maskedStreaks")
182 if not (self.config.doSubtractBackground
and self.config.doWriteBackground):
183 self.outputs.remove(
"differenceBackground")
184 if not (self.config.writeGlintInfo):
185 self.outputs.remove(
"glintTrailInfo")
188class DetectAndMeasureConfig(pipeBase.PipelineTaskConfig,
189 pipelineConnections=DetectAndMeasureConnections):
190 """Config for DetectAndMeasureTask
192 doMerge = pexConfig.Field(
195 doc=
"Merge positive and negative diaSources with grow radius "
196 "set by growFootprint"
198 doForcedMeasurement = pexConfig.Field(
201 doc=
"Force photometer diaSource locations on PVI?"
203 doAddMetrics = pexConfig.Field(
206 doc=
"Add columns to the source table to hold analysis metrics?"
208 doSubtractBackground = pexConfig.Field(
210 doc=
"Subtract a background model from the image before detection?",
213 doWriteBackground = pexConfig.Field(
215 doc=
"Persist the fitted background model?",
218 doCalculateResidualMetics = pexConfig.Field(
220 doc=
"Calculate metrics to assess image subtraction quality for the task"
224 subtractInitialBackground = pexConfig.ConfigurableField(
225 target=lsst.meas.algorithms.SubtractBackgroundTask,
226 doc=
"Task to perform intial background subtraction, before first detection pass.",
228 subtractFinalBackground = pexConfig.ConfigurableField(
229 target=lsst.meas.algorithms.SubtractBackgroundTask,
230 doc=
"Task to perform final background subtraction, after first detection pass.",
232 doFindCosmicRays = pexConfig.Field(
234 doc=
"Detect and mask cosmic rays on the difference image?"
235 "CRs can be interpolated over by setting cosmicray.keepCRs=False",
238 cosmicray = pexConfig.ConfigField(
239 dtype=FindCosmicRaysConfig,
240 doc=
"Options for finding and masking cosmic rays",
242 detection = pexConfig.ConfigurableField(
243 target=SourceDetectionTask,
244 doc=
"Final source detection for diaSource measurement",
246 streakDetection = pexConfig.ConfigurableField(
247 target=SourceDetectionTask,
248 doc=
"Separate source detection used only for streak masking",
250 doDeblend = pexConfig.Field(
253 doc=
"Deblend DIASources after detection?"
255 deblend = pexConfig.ConfigurableField(
256 target=lsst.meas.deblender.SourceDeblendTask,
257 doc=
"Task to split blended sources into their components."
259 measurement = pexConfig.ConfigurableField(
260 target=DipoleFitTask,
261 doc=
"Task to measure sources on the difference image.",
263 doApCorr = lsst.pex.config.Field(
266 doc=
"Run subtask to apply aperture corrections"
268 applyApCorr = lsst.pex.config.ConfigurableField(
269 target=ApplyApCorrTask,
270 doc=
"Task to apply aperture corrections"
272 forcedMeasurement = pexConfig.ConfigurableField(
273 target=ForcedMeasurementTask,
274 doc=
"Task to force photometer science image at diaSource locations.",
276 growFootprint = pexConfig.Field(
279 doc=
"Grow positive and negative footprints by this many pixels before merging"
281 diaSourceMatchRadius = pexConfig.Field(
284 doc=
"Match radius (in arcseconds) for DiaSource to Source association"
286 doSkySources = pexConfig.Field(
289 doc=
"Generate sky sources?",
291 skySources = pexConfig.ConfigurableField(
292 target=SkyObjectsTask,
293 doc=
"Generate sky sources",
295 doMaskStreaks = pexConfig.Field(
298 doc=
"Turn on streak masking",
300 maskStreaks = pexConfig.ConfigurableField(
301 target=MaskStreaksTask,
302 doc=
"Subtask for masking streaks. Only used if doMaskStreaks is True. "
303 "Adds a mask plane to an exposure, with the mask plane name set by streakMaskName.",
305 streakBinFactor = pexConfig.Field(
308 doc=
"Bin scale factor to use when rerunning detection for masking streaks. "
309 "Only used if doMaskStreaks is True.",
311 writeStreakInfo = pexConfig.Field(
314 doc=
"Record the parameters of any detected streaks. For LSST, this should be turned off except for "
317 findGlints = pexConfig.ConfigurableField(
318 target=FindGlintTrailsTask,
319 doc=
"Subtask for finding glint trails, usually caused by satellites or debris."
321 writeGlintInfo = pexConfig.Field(
324 doc=
"Record the parameters of any detected glint trails."
326 setPrimaryFlags = pexConfig.ConfigurableField(
327 target=SetPrimaryFlagsTask,
328 doc=
"Task to add isPrimary and deblending-related flags to the catalog."
330 badSourceFlags = lsst.pex.config.ListField(
332 doc=
"Sources with any of these flags set are removed before writing the output catalog.",
333 default=(
"base_PixelFlags_flag_offimage",
334 "base_PixelFlags_flag_interpolatedCenterAll",
335 "base_PixelFlags_flag_badCenter",
336 "base_PixelFlags_flag_edgeCenter",
337 "base_PixelFlags_flag_nodataCenter",
338 "base_PixelFlags_flag_saturatedCenter",
339 "base_PixelFlags_flag_saturated_templateCenter",
340 "base_PixelFlags_flag_spikeCenter",
343 clearMaskPlanes = lsst.pex.config.ListField(
345 doc=
"Mask planes to clear before running detection.",
346 default=(
"DETECTED",
"DETECTED_NEGATIVE",
"NOT_DEBLENDED",
"STREAK"),
348 doRejectBadMaskPlaneDetections = pexConfig.Field(
351 doc=
"Reject any peaks detected on ``badMaskPlanes`` before measurement."
352 "These should all be rejected downstream by ``badSourceFlags``, "
353 "but filtering earlier can save time."
355 badMaskPlanes = lsst.pex.config.ListField(
357 doc=
"Detections whose footprint peak lies on a pixel with any of these"
358 " mask planes set will be rejected before measurement."
359 " Any missing mask planes will be silently ignored.",
360 default=(
"NO_DATA",
"BAD",
"SAT",
"EDGE"),
362 raiseOnBadSubtractionRatio = pexConfig.Field(
365 doc=
"Raise an error if the ratio of power in detected footprints"
366 " on the difference image to the power in footprints on the science"
367 " image exceeds ``badSubtractionRatioThreshold``",
369 badSubtractionRatioThreshold = pexConfig.Field(
372 doc=
"Maximum ratio of power in footprints on the difference image to"
373 " the same footprints on the science image."
374 "Only used if ``raiseOnBadSubtractionRatio`` is set",
376 badSubtractionVariationThreshold = pexConfig.Field(
379 doc=
"Maximum standard deviation of the ratio of power in footprints on"
380 " the difference image to the same footprints on the science image."
381 "Only used if ``raiseOnBadSubtractionRatio`` is set",
383 raiseOnNoDiaSources = pexConfig.Field(
386 doc=
"Raise an algorithm error if no diaSources are detected.",
388 run_sattle = pexConfig.Field(
391 doc=
"If true, dia source bounding boxes will be sent for verification"
392 "to the sattle service."
394 sattle_historical = pexConfig.Field(
397 doc=
"If re-running a pipeline that requires sattle, this should be set "
398 "to True. This will populate sattle's cache with the historic data "
399 "closest in time to the exposure."
401 idGenerator = DetectorVisitIdGeneratorConfig.make_field()
403 def setDefaults(self):
408 self.subtractInitialBackground.binSize = 8
409 self.subtractInitialBackground.useApprox =
False
410 self.subtractInitialBackground.statisticsProperty =
"MEDIAN"
411 self.subtractInitialBackground.doFilterSuperPixels =
True
412 self.subtractInitialBackground.ignoredPixelMask = [
"BAD",
420 self.subtractFinalBackground.binSize = 40
421 self.subtractFinalBackground.useApprox =
False
422 self.subtractFinalBackground.statisticsProperty =
"MEDIAN"
423 self.subtractFinalBackground.doFilterSuperPixels =
True
424 self.subtractFinalBackground.ignoredPixelMask = [
"BAD",
431 self.cosmicray.keepCRs =
True
433 self.detection.thresholdPolarity =
"both"
434 self.detection.thresholdValue = 5.0
435 self.detection.reEstimateBackground =
False
436 self.detection.thresholdType =
"pixel_stdev"
437 self.detection.excludeMaskPlanes = []
440 self.streakDetection.thresholdType = self.detection.thresholdType
441 self.streakDetection.reEstimateBackground =
False
442 self.streakDetection.excludeMaskPlanes = self.detection.excludeMaskPlanes
443 self.streakDetection.thresholdValue = self.detection.thresholdValue
445 self.streakDetection.thresholdPolarity =
"positive"
447 self.streakDetection.nSigmaToGrow = 0
450 self.maskStreaks.onlyMaskDetected =
False
452 self.maskStreaks.maxStreakWidth = 100
455 self.maskStreaks.maxFitIter = 10
457 self.maskStreaks.nSigmaMask = 2
460 self.maskStreaks.absMinimumKernelHeight = 2
462 self.measurement.plugins.names |= [
"ext_trailedSources_Naive",
463 "base_LocalPhotoCalib",
465 "ext_shapeHSM_HsmSourceMoments",
466 "ext_shapeHSM_HsmPsfMoments",
467 "base_ClassificationSizeExtendedness",
469 self.measurement.slots.psfShape =
"ext_shapeHSM_HsmPsfMoments"
470 self.measurement.slots.shape =
"ext_shapeHSM_HsmSourceMoments"
471 self.measurement.plugins[
"base_SdssCentroid"].maxDistToPeak = 5.0
472 self.forcedMeasurement.plugins = [
"base_TransformedCentroid",
"base_PsfFlux"]
473 self.forcedMeasurement.copyColumns = {
474 "id":
"objectId",
"parent":
"parentObjectId",
"coord_ra":
"coord_ra",
"coord_dec":
"coord_dec"}
475 self.forcedMeasurement.slots.centroid =
"base_TransformedCentroid"
476 self.forcedMeasurement.slots.shape =
None
479 self.measurement.plugins[
"base_PixelFlags"].masksFpAnywhere = [
480 "STREAK",
"INJECTED",
"INJECTED_TEMPLATE",
"HIGH_VARIANCE",
"SATURATED_TEMPLATE",
"SPIKE"]
481 self.measurement.plugins[
"base_PixelFlags"].masksFpCenter = [
482 "STREAK",
"INJECTED",
"INJECTED_TEMPLATE",
"HIGH_VARIANCE",
"SATURATED_TEMPLATE",
"SPIKE"]
483 self.skySources.avoidMask = [
"DETECTED",
"DETECTED_NEGATIVE",
"BAD",
"NO_DATA",
"EDGE"]
489 if not os.getenv(
"SATTLE_URI_BASE"):
490 raise pexConfig.FieldValidationError(DetectAndMeasureConfig.run_sattle, self,
491 "Sattle requested but SATTLE_URI_BASE "
492 "environment variable not set.")
495class DetectAndMeasureTask(lsst.pipe.base.PipelineTask):
496 """Detect and measure sources on a difference image.
498 ConfigClass = DetectAndMeasureConfig
499 _DefaultName =
"detectAndMeasure"
501 def __init__(self, **kwargs):
502 super().__init__(**kwargs)
503 self.schema = afwTable.SourceTable.makeMinimalSchema()
506 if self.config.doSubtractBackground:
507 self.makeSubtask(
"subtractInitialBackground")
508 self.makeSubtask(
"subtractFinalBackground")
509 self.makeSubtask(
"detection", schema=self.schema)
510 if self.config.doDeblend:
511 self.makeSubtask(
"deblend", schema=self.schema)
512 self.makeSubtask(
"setPrimaryFlags", schema=self.schema, isSingleFrame=
True)
513 self.makeSubtask(
"measurement", schema=self.schema,
514 algMetadata=self.algMetadata)
515 if self.config.doApCorr:
516 self.makeSubtask(
"applyApCorr", schema=self.measurement.schema)
517 if self.config.doForcedMeasurement:
518 self.schema.addField(
519 "ip_diffim_forced_PsfFlux_instFlux",
"D",
520 "Forced PSF flux measured on the direct image.",
522 self.schema.addField(
523 "ip_diffim_forced_PsfFlux_instFluxErr",
"D",
524 "Forced PSF flux error measured on the direct image.",
526 self.schema.addField(
527 "ip_diffim_forced_PsfFlux_area",
"F",
528 "Forced PSF flux effective area of PSF.",
530 self.schema.addField(
531 "ip_diffim_forced_PsfFlux_flag",
"Flag",
532 "Forced PSF flux general failure flag.")
533 self.schema.addField(
534 "ip_diffim_forced_PsfFlux_flag_noGoodPixels",
"Flag",
535 "Forced PSF flux not enough non-rejected pixels in data to attempt the fit.")
536 self.schema.addField(
537 "ip_diffim_forced_PsfFlux_flag_edge",
"Flag",
538 "Forced PSF flux object was too close to the edge of the image to use the full PSF model.")
539 self.schema.addField(
540 "ip_diffim_forced_template_PsfFlux_instFlux",
"D",
541 "Forced PSF flux measured on the template image.",
543 self.schema.addField(
544 "ip_diffim_forced_template_PsfFlux_instFluxErr",
"D",
545 "Forced PSF flux error measured on the template image.",
547 self.schema.addField(
548 "ip_diffim_forced_template_PsfFlux_area",
"F",
549 "Forced template PSF flux effective area of PSF.",
551 self.schema.addField(
552 "ip_diffim_forced_template_PsfFlux_flag",
"Flag",
553 "Forced template PSF flux general failure flag.")
554 self.schema.addField(
555 "ip_diffim_forced_template_PsfFlux_flag_noGoodPixels",
"Flag",
556 "Forced template PSF flux not enough non-rejected pixels in data to attempt the fit.")
557 self.schema.addField(
558 "ip_diffim_forced_template_PsfFlux_flag_edge",
"Flag",
559 """Forced template PSF flux object was too close to the edge of the image """
560 """to use the full PSF model.""")
561 self.makeSubtask(
"forcedMeasurement", refSchema=self.schema)
563 self.schema.addField(
"refMatchId",
"L",
"unique id of reference catalog match")
564 self.schema.addField(
"srcMatchId",
"L",
"unique id of source match")
567 self.makeSubtask(
"skySources", schema=self.schema)
568 if self.config.doMaskStreaks:
569 self.makeSubtask(
"maskStreaks")
570 self.makeSubtask(
"streakDetection")
571 self.makeSubtask(
"findGlints")
572 self.schema.addField(
"glint_trail",
"Flag",
"DiaSource is part of a glint trail.")
573 self.schema.addField(
"reliability", type=
"F", doc=
"Reliability score of the DiaSource")
574 self.schema.addField(
"reliabilityVersion", type=str, size=7, doc=
"Version of the reliability model")
581 for flag
in self.config.badSourceFlags:
582 if flag
not in self.schema:
583 raise pipeBase.InvalidQuantumError(
"Field %s not in schema" % flag)
586 self.outputSchema = afwTable.SourceCatalog(self.schema)
587 self.outputSchema.getTable().setMetadata(self.algMetadata)
589 def runQuantum(self, butlerQC: pipeBase.QuantumContext,
590 inputRefs: pipeBase.InputQuantizedConnection,
591 outputRefs: pipeBase.OutputQuantizedConnection):
592 inputs = butlerQC.get(inputRefs)
593 idGenerator = self.config.idGenerator.apply(butlerQC.quantum.dataId)
594 idFactory = idGenerator.make_table_id_factory()
597 measurementResults = pipeBase.Struct(
598 subtractedMeasuredExposure=
None,
601 differenceBackground=
None,
604 self.run(**inputs, idFactory=idFactory, measurementResults=measurementResults)
605 except pipeBase.AlgorithmError
as e:
606 error = pipeBase.AnnotatedPartialOutputsError.annotate(
609 measurementResults.subtractedMeasuredExposure,
610 measurementResults.diaSources,
611 measurementResults.maskedStreaks,
614 butlerQC.put(measurementResults, outputRefs)
616 butlerQC.put(measurementResults, outputRefs)
619 def run(self, science, matchedTemplate, difference, kernelSources=None,
620 idFactory=None, measurementResults=None):
621 """Detect and measure sources on a difference image.
623 The difference image will be convolved with a gaussian approximation of
624 the PSF to form a maximum likelihood image for detection.
625 Close positive and negative detections will optionally be merged into
627 Sky sources, or forced detections in background regions, will optionally
628 be added, and the configured measurement algorithm will be run on all
633 science : `lsst.afw.image.ExposureF`
634 Science exposure that the template was subtracted from.
635 matchedTemplate : `lsst.afw.image.ExposureF`
636 Warped and PSF-matched template that was used produce the
638 difference : `lsst.afw.image.ExposureF`
639 Result of subtracting template from the science image.
640 kernelSources : `lsst.afw.table.SourceCatalog`, optional
641 Final selection of sources that was used for psf matching.
642 idFactory : `lsst.afw.table.IdFactory`, optional
643 Generator object used to assign ids to detected sources in the
644 difference image. Ids from this generator are not set until after
645 deblending and merging positive/negative peaks.
646 measurementResults : `lsst.pipe.base.Struct`, optional
647 Result struct that is modified to allow saving of partial outputs
648 for some failure conditions. If the task completes successfully,
649 this is also returned.
653 measurementResults : `lsst.pipe.base.Struct`
655 ``subtractedMeasuredExposure`` : `lsst.afw.image.ExposureF`
656 Subtracted exposure with detection mask applied.
657 ``diaSources`` : `lsst.afw.table.SourceCatalog`
658 The catalog of detected sources.
659 ``differenceBackground`` : `lsst.afw.math.BackgroundList`
660 Background that was subtracted from the difference image.
662 if measurementResults
is None:
663 measurementResults = pipeBase.Struct()
664 if idFactory
is None:
665 idFactory = lsst.meas.base.IdGenerator().make_table_id_factory()
668 self._prepareInputs(difference)
669 if self.config.doSubtractBackground:
670 background = self._fitAndSubtractBackground(differenceExposure=difference)
672 background = afwMath.BackgroundList()
674 if self.config.doFindCosmicRays:
675 self.findAndMaskCosmicRays(difference)
680 table = afwTable.SourceTable.make(self.schema)
681 results = self.detection.
run(
685 background=background,
688 measurementResults.differenceBackground = background
690 if self.config.doDeblend:
691 sources, positives, negatives = self._deblend(difference,
696 positives = afwTable.SourceCatalog(self.schema)
697 results.positive.makeSources(positives)
698 negatives = afwTable.SourceCatalog(self.schema)
699 results.negative.makeSources(negatives)
700 sources = results.sources
702 self.processResults(science, matchedTemplate, difference,
703 sources, idFactory, kernelSources,
706 measurementResults=measurementResults)
707 return measurementResults
709 def _prepareInputs(self, difference):
710 """Ensure that we start with an empty detection and deblended mask.
714 difference : `lsst.afw.image.ExposureF`
715 The difference image that will be used for detecting diaSources.
716 The mask plane will be modified in place.
720 lsst.pipe.base.UpstreamFailureNoWorkFound
721 If the PSF is not usable for measurement.
724 sigma = difference.psf.computeShape(difference.psf.getAveragePosition()).getDeterminantRadius()
726 raise pipeBase.UpstreamFailureNoWorkFound(
"Invalid PSF detected! PSF width evaluates to NaN.")
728 mask = difference.mask
729 for mp
in self.config.clearMaskPlanes:
730 if mp
not in mask.getMaskPlaneDict():
731 mask.addMaskPlane(mp)
732 mask &= ~mask.getPlaneBitMask(self.config.clearMaskPlanes)
734 def _fitAndSubtractBackground(self, differenceExposure, scoreExposure=None):
735 """Fit the final background to ``differenceExposure``.
737 A rough background is first fit on the difference and an internal
738 first-pass detection is run on the (background-subtracted) clone; the
739 resulting detection mask is then transferred to ``differenceExposure``
740 so the final background fit can mask out real sources. This two-pass
741 scheme is what suppresses spurious detections from glints and
742 extended structures: the small-binsize initial fit aggressively
743 over-subtracts those features, and the resulting peak mask lets the
744 large-binsize final fit produce a clean background. When
745 ``scoreExposure`` is supplied (score-image variant), the final
746 background is also subtracted from its image so the caller's final
747 detection runs on a properly background-subtracted score.
749 The first-pass detection's `Struct` is discarded; only the mask it
750 leaves on the clone is used downstream.
754 differenceExposure : `lsst.afw.image.ExposureF`
755 Difference image. The final background is subtracted from its
756 image in place but its mask is not modified.
757 scoreExposure : `lsst.afw.image.ExposureF`, optional
758 Maximum-likelihood score image. When supplied, the final
759 background is also subtracted from its image.
763 background : `lsst.afw.math.BackgroundList`
764 The fit final background.
766 if scoreExposure
is None:
767 detectionExposure = differenceExposure.clone()
768 background = self.subtractInitialBackground.
run(detectionExposure).background
773 background = self.subtractInitialBackground.
run(differenceExposure.clone()).background
774 detectionExposure = scoreExposure.clone()
775 detectionExposure.image -= background.getImage()
777 table = afwTable.SourceTable.make(self.schema)
780 exposure=detectionExposure,
782 background=background,
788 detectedBit = differenceExposure.mask.getPlaneBitMask([
"DETECTED"])
789 detectedPix = detectionExposure.mask.array & detectedBit > 0
790 detectedNegativeBit = differenceExposure.mask.getPlaneBitMask([
"DETECTED_NEGATIVE"])
791 detectedNegativePix = detectionExposure.mask.array & detectedNegativeBit > 0
792 differenceExposure.mask.array[detectedPix] |= detectedBit
793 differenceExposure.mask.array[detectedNegativePix] |= detectedNegativeBit
794 background = self.subtractFinalBackground.
run(differenceExposure).background
795 if scoreExposure
is not None:
798 scoreExposure.image -= background.getImage()
801 def processResults(self, science, matchedTemplate, difference, sources, idFactory,
802 kernelSources=None, positives=None, negatives=None, measurementResults=None):
803 """Measure and process the results of source detection.
807 science : `lsst.afw.image.ExposureF`
808 Science exposure that the template was subtracted from.
809 matchedTemplate : `lsst.afw.image.ExposureF`
810 Warped and PSF-matched template that was used produce the
812 difference : `lsst.afw.image.ExposureF`
813 Result of subtracting template from the science image.
814 sources : `lsst.afw.table.SourceCatalog`
815 Detected sources on the difference exposure.
816 idFactory : `lsst.afw.table.IdFactory`
817 Generator object used to assign ids to detected sources in the
819 kernelSources : `lsst.afw.table.SourceCatalog`, optional
820 Final selection of sources that was used for psf matching.
821 positives : `lsst.afw.table.SourceCatalog`, optional
822 Positive polarity footprints.
823 negatives : `lsst.afw.table.SourceCatalog`, optional
824 Negative polarity footprints.
825 measurementResults : `lsst.pipe.base.Struct`, optional
826 Result struct that is modified to allow saving of partial outputs
827 for some failure conditions. If the task completes successfully,
828 this is also returned.
832 measurementResults : `lsst.pipe.base.Struct`
834 ``subtractedMeasuredExposure`` : `lsst.afw.image.ExposureF`
835 Subtracted exposure with detection mask applied.
836 ``diaSources`` : `lsst.afw.table.SourceCatalog`
837 The catalog of detected sources.
839 if measurementResults
is None:
840 measurementResults = pipeBase.Struct()
841 self.metadata[
"nUnmergedDiaSources"] = len(sources)
842 if self.config.doMerge:
844 if len(positives) > 0:
845 peakSchema = positives[0].getFootprint().peaks.schema
846 elif len(negatives) > 0:
847 peakSchema = negatives[0].getFootprint().peaks.schema
849 peakSchema = afwDetection.PeakTable.makeMinimalSchema()
850 mergeList = afwDetection.FootprintMergeList(self.schema,
851 [
"positive",
"negative"], peakSchema)
852 initialDiaSources = afwTable.SourceCatalog(self.schema)
856 mergeList.addCatalog(initialDiaSources.table, positives,
"positive", minNewPeakDist=0)
857 mergeList.addCatalog(initialDiaSources.table, negatives,
"negative", minNewPeakDist=0)
858 mergeList.getFinalSources(initialDiaSources)
861 initialDiaSources[
"is_negative"] = initialDiaSources[
"merge_footprint_negative"] & \
862 ~initialDiaSources[
"merge_footprint_positive"]
863 self.log.info(
"Merging detections into %d sources", len(initialDiaSources))
865 initialDiaSources = sources
869 for source
in initialDiaSources:
872 initialDiaSources.getTable().setIdFactory(idFactory)
873 initialDiaSources.setMetadata(self.algMetadata)
875 self.metadata[
"nMergedDiaSources"] = len(initialDiaSources)
877 if self.config.doMaskStreaks:
878 streakInfo = self._runStreakMasking(difference)
880 if self.config.doSkySources:
881 self.addSkySources(initialDiaSources, difference.mask, difference.info.id)
883 if self.config.doRejectBadMaskPlaneDetections:
886 initialDiaSources = self._rejectBadMaskedDetections(initialDiaSources, difference.mask)
888 if not initialDiaSources.isContiguous():
889 initialDiaSources = initialDiaSources.copy(deep=
True)
891 self.measureDiaSources(initialDiaSources, science, difference, matchedTemplate)
894 diaSources = self._removeBadSources(initialDiaSources)
896 if self.config.run_sattle:
897 diaSources = self.filterSatellites(diaSources, science)
900 diaSources, trail_parameters = self._find_glint_trails(diaSources)
901 if self.config.writeGlintInfo:
902 measurementResults.mergeItems(trail_parameters,
'glintTrailInfo')
904 if self.config.doForcedMeasurement:
905 self.measureForcedSources(diaSources, science, difference.getWcs())
906 self.measureForcedSources(diaSources, matchedTemplate, difference.getWcs(),
913 difference.image.array[difference.mask.array & difference.mask.getPlaneBitMask(
'NO_DATA') > 0] = 0
915 measurementResults.subtractedMeasuredExposure = difference
917 if self.config.doMaskStreaks
and self.config.writeStreakInfo:
918 measurementResults.maskedStreaks = streakInfo.maskedStreaks
920 if kernelSources
is not None:
921 self.calculateMetrics(science, difference, diaSources, kernelSources)
923 if np.count_nonzero(~diaSources[
"sky_source"]) > 0:
924 measurementResults.diaSources = diaSources
925 elif self.config.raiseOnNoDiaSources:
927 elif len(diaSources) > 0:
930 measurementResults.diaSources = diaSources
931 self.log.info(
"Measured %d diaSources and %d sky sources",
932 np.count_nonzero(~diaSources[
"sky_source"]),
933 np.count_nonzero(diaSources[
"sky_source"])
935 return measurementResults
937 def _deblend(self, difference, positiveFootprints, negativeFootprints):
938 """Deblend the positive and negative footprints and return a catalog
939 containing just the children, and the deblended footprints.
943 difference : `lsst.afw.image.Exposure`
944 Result of subtracting template from the science image.
945 positiveFootprints, negativeFootprints : `lsst.afw.detection.FootprintSet`
946 Positive and negative polarity footprints measured on
947 ``difference`` to be deblended separately.
951 sources : `lsst.afw.table.SourceCatalog`
952 Positive and negative deblended children.
953 positives, negatives : `lsst.afw.table.SourceCatalog`
954 Deblended positive and negative polarity sources with footprints
955 detected on ``difference``.
958 def deblend(footprints, negative=False):
959 """Deblend a positive or negative footprint set,
960 and return the deblended children.
964 footprints : `lsst.afw.detection.FootprintSet`
966 Set True if the footprints contain negative fluxes
970 sources : `lsst.afw.table.SourceCatalog`
972 sources = afwTable.SourceCatalog(self.schema)
973 footprints.makeSources(sources)
976 difference_inverted = difference.clone()
977 difference_inverted.image *= -1
978 self.deblend.
run(exposure=difference_inverted, sources=sources)
979 children = sources[sources[
"parent"] != 0]
981 for child
in children:
982 footprint = child.getFootprint()
983 array = footprint.getImageArray()
986 self.deblend.
run(exposure=difference, sources=sources)
987 self.setPrimaryFlags.
run(sources)
988 children = sources[
"detect_isDeblendedSource"] == 1
989 sources = sources[children].copy(deep=
True)
991 sources[
'parent'] = 0
992 return sources.copy(deep=
True)
994 positives = deblend(positiveFootprints)
995 negatives = deblend(negativeFootprints, negative=
True)
997 sources = afwTable.SourceCatalog(self.schema)
998 sources.reserve(len(positives) + len(negatives))
999 sources.extend(positives, deep=
True)
1000 sources.extend(negatives, deep=
True)
1001 if len(negatives) > 0:
1002 sources[-len(negatives):][
"is_negative"] =
True
1003 return sources, positives, negatives
1005 def _rejectBadMaskedDetections(self, initialDiaSources, mask):
1006 """Remove detections whose footprint peak lies on a bad-masked pixel.
1008 Detections are rejected if any peak of the source footprint falls on a
1009 pixel with any of the ``config.badMaskPlanes`` bits set.
1013 initialDiaSources : `lsst.afw.table.SourceCatalog`
1014 The catalog of detected peaks.
1015 mask : `lsst.afw.image.Mask`
1016 Mask of the image used for detection.
1020 initialDiaSources : `lsst.afw.table.SourceCatalog`
1021 The catalog with bad-masked detections removed.
1023 if not self.config.badMaskPlanes
or len(initialDiaSources) == 0:
1024 self.metadata[
"nRejectedBadMaskPlanes"] = 0
1025 return initialDiaSources
1027 presentPlanes = [mp
for mp
in self.config.badMaskPlanes
1028 if mp
in mask.getMaskPlaneDict()]
1029 if not presentPlanes:
1030 self.metadata[
"nRejectedBadMaskPlanes"] = 0
1031 return initialDiaSources
1033 badBitMask = mask.getPlaneBitMask(presentPlanes)
1034 x0, y0 = mask.getXY0()
1036 selector = np.ones(len(initialDiaSources), dtype=bool)
1037 for i, source
in enumerate(initialDiaSources):
1038 peaks = source.getFootprint().getPeaks()
1040 ix = peak.getIx() - x0
1041 iy = peak.getIy() - y0
1042 if mask.array[iy, ix] & badBitMask:
1045 nRejected = np.count_nonzero(~selector)
1046 self.metadata[
"nRejectedBadMaskPlanes"] = nRejected
1048 self.log.info(
"Rejected %d detections on pixels with bad mask "
1049 "planes %s before measurement.",
1050 nRejected, presentPlanes)
1051 return initialDiaSources[selector].copy(deep=
True)
1053 def _removeBadSources(self, diaSources):
1054 """Remove unphysical diaSources from the catalog.
1058 diaSources : `lsst.afw.table.SourceCatalog`
1059 The catalog of detected sources.
1063 diaSources : `lsst.afw.table.SourceCatalog`
1064 The updated catalog of detected sources, with any source that has a
1065 flag in ``config.badSourceFlags`` set removed.
1067 selector = np.ones(len(diaSources), dtype=bool)
1068 for flag
in self.config.badSourceFlags:
1069 flags = diaSources[flag]
1070 nBad = np.count_nonzero(flags)
1072 self.log.debug(
"Found %d unphysical sources with flag %s.", nBad, flag)
1074 nBadTotal = np.count_nonzero(~selector)
1075 self.metadata[
"nRemovedBadFlaggedSources"] = nBadTotal
1076 self.log.info(
"Removed %d unphysical sources.", nBadTotal)
1077 return diaSources[selector].copy(deep=
True)
1079 def _find_glint_trails(self, diaSources):
1080 """Define a new flag column for diaSources that are in a glint trail.
1084 diaSources : `lsst.afw.table.SourceCatalog`
1085 The catalog of detected sources.
1089 diaSources : `lsst.afw.table.SourceCatalog`
1090 The updated catalog of detected sources, with a new bool column
1091 called 'glint_trail' added.
1093 trail_parameters : `dict`
1094 Parameters of all the trails that were found.
1096 if self.config.doSkySources:
1098 candidateDiaSources = diaSources[~diaSources[
"sky_source"]].copy(deep=
True)
1100 candidateDiaSources = diaSources
1101 trailed_glints = self.findGlints.
run(candidateDiaSources)
1102 glint_mask = [
True if id
in trailed_glints.trailed_ids
else False for id
in diaSources[
'id']]
1103 if np.any(glint_mask):
1104 diaSources[
'glint_trail'] = np.array(glint_mask)
1106 slopes = np.array([trail.slope
for trail
in trailed_glints.parameters])
1107 intercepts = np.array([trail.intercept
for trail
in trailed_glints.parameters])
1108 stderrs = np.array([trail.stderr
for trail
in trailed_glints.parameters])
1109 lengths = np.array([trail.length
for trail
in trailed_glints.parameters])
1110 angles = np.array([trail.angle
for trail
in trailed_glints.parameters])
1111 parameters = {
'slopes': slopes,
'intercepts': intercepts,
'stderrs': stderrs,
'lengths': lengths,
1114 trail_parameters = pipeBase.Struct(glintTrailInfo=parameters)
1116 return diaSources, trail_parameters
1118 def addSkySources(self, diaSources, mask, seed,
1120 """Add sources in empty regions of the difference image
1121 for measuring the background.
1125 diaSources : `lsst.afw.table.SourceCatalog`
1126 The catalog of detected sources.
1127 mask : `lsst.afw.image.Mask`
1128 Mask plane for determining regions where Sky sources can be added.
1130 Seed value to initialize the random number generator.
1133 subtask = self.skySources
1134 if subtask.config.nSources <= 0:
1135 self.metadata[f
"n_{subtask.getName()}"] = 0
1137 skySourceFootprints = subtask.run(mask=mask, seed=seed, catalog=diaSources)
1138 self.metadata[f
"n_{subtask.getName()}"] = len(skySourceFootprints)
1140 def measureDiaSources(self, diaSources, science, difference, matchedTemplate):
1141 """Use (matched) template and science image to constrain dipole fitting.
1145 diaSources : `lsst.afw.table.SourceCatalog`
1146 The catalog of detected sources.
1147 science : `lsst.afw.image.ExposureF`
1148 Science exposure that the template was subtracted from.
1149 difference : `lsst.afw.image.ExposureF`
1150 Result of subtracting template from the science image.
1151 matchedTemplate : `lsst.afw.image.ExposureF`
1152 Warped and PSF-matched template that was used produce the
1156 for mp
in self.config.measurement.plugins[
"base_PixelFlags"].masksFpAnywhere:
1157 difference.mask.addMaskPlane(mp)
1160 self.measurement.
run(diaSources, difference, science, matchedTemplate)
1161 if self.config.doApCorr:
1162 apCorrMap = difference.getInfo().getApCorrMap()
1163 if apCorrMap
is None:
1164 self.log.warning(
"Difference image does not have valid aperture correction; skipping.")
1166 self.applyApCorr.
run(
1168 apCorrMap=apCorrMap,
1171 def measureForcedSources(self, diaSources, image, wcs, template=False):
1172 """Perform forced measurement of the diaSources on a direct image.
1176 diaSources : `lsst.afw.table.SourceCatalog`
1177 The catalog of detected sources.
1178 image: `lsst.afw.image.ExposureF`
1179 Exposure that the forced measurement is being performed on
1180 wcs : `lsst.afw.geom.SkyWcs`
1181 Coordinate system definition (wcs) for the exposure.
1183 Is the forced measurement being performed on the template?
1187 forcedSources = self.forcedMeasurement.generateMeasCat(image, diaSources, wcs)
1188 self.forcedMeasurement.
run(forcedSources, image, diaSources, wcs)
1191 base_key =
'ip_diffim_forced_template_PsfFlux'
1193 base_key =
'ip_diffim_forced_PsfFlux'
1194 mapper = afwTable.SchemaMapper(forcedSources.schema, diaSources.schema)
1195 mapper.addMapping(forcedSources.schema.find(
"base_PsfFlux_instFlux")[0],
1196 f
"{base_key}_instFlux",
True)
1197 mapper.addMapping(forcedSources.schema.find(
"base_PsfFlux_instFluxErr")[0],
1198 f
"{base_key}_instFluxErr",
True)
1199 mapper.addMapping(forcedSources.schema.find(
"base_PsfFlux_area")[0],
1200 f
"{base_key}_area",
True)
1201 mapper.addMapping(forcedSources.schema.find(
"base_PsfFlux_flag")[0],
1202 f
"{base_key}_flag",
True)
1203 mapper.addMapping(forcedSources.schema.find(
"base_PsfFlux_flag_noGoodPixels")[0],
1204 f
"{base_key}_flag_noGoodPixels",
True)
1205 mapper.addMapping(forcedSources.schema.find(
"base_PsfFlux_flag_edge")[0],
1206 f
"{base_key}_flag_edge",
True)
1207 for diaSource, forcedSource
in zip(diaSources, forcedSources):
1208 diaSource.assign(forcedSource, mapper)
1210 def findAndMaskCosmicRays(self, difference):
1211 """Detect and mask cosmic rays on the difference image.
1215 difference : `lsst.afw.image.Exposure`
1216 The background-subtracted difference image.
1217 The mask plane will be modified in place.
1223 crs = findCosmicRays(
1224 difference.maskedImage,
1227 pexConfig.makePropertySet(self.config.cosmicray),
1228 self.config.cosmicray.keepCRs,
1234 mask = difference.maskedImage.mask
1235 crBit = mask.getPlaneBitMask(
"CR")
1236 afwDetection.setMaskFromFootprintList(mask, crs, crBit)
1239 text =
"masked" if self.config.cosmicray.keepCRs
else "interpolated over"
1240 self.log.info(
"Identified and %s %s cosmic rays.", text, num)
1241 self.metadata[
"cosmic_ray_count"] = num
1243 def calculateMetrics(self, science, difference, diaSources, kernelSources):
1244 """Add difference image QA metrics to the Task metadata.
1246 This may be used to produce corresponding metrics (see
1247 lsst.analysis.tools.tasks.diffimTaskDetectorVisitMetricAnalysis).
1251 science : `lsst.afw.image.ExposureF`
1252 Science exposure that was subtracted.
1253 difference : `lsst.afw.image.Exposure`
1254 The target difference image to calculate metrics for.
1255 diaSources : `lsst.afw.table.SourceCatalog`
1256 The catalog of detected sources.
1257 kernelSources : `lsst.afw.table.SourceCatalog`
1258 Final selection of sources that was used for psf matching.
1260 mask = difference.mask
1261 badPix = (mask.array & mask.getPlaneBitMask(self.config.detection.excludeMaskPlanes)) > 0
1262 self.metadata[
"nGoodPixels"] = np.sum(~badPix)
1263 self.metadata[
"nBadPixels"] = np.sum(badPix)
1264 detPosPix = (mask.array & mask.getPlaneBitMask(
"DETECTED")) > 0
1265 detNegPix = (mask.array & mask.getPlaneBitMask(
"DETECTED_NEGATIVE")) > 0
1266 self.metadata[
"nPixelsDetectedPositive"] = np.sum(detPosPix)
1267 self.metadata[
"nPixelsDetectedNegative"] = np.sum(detNegPix)
1270 self.metadata[
"nBadPixelsDetectedPositive"] = np.sum(detPosPix)
1271 self.metadata[
"nBadPixelsDetectedNegative"] = np.sum(detNegPix)
1273 metricsMaskPlanes = list(mask.getMaskPlaneDict().keys())
1274 for maskPlane
in metricsMaskPlanes:
1276 self.metadata[
"%s_mask_fraction"%maskPlane.lower()] = evaluateMaskFraction(mask, maskPlane)
1277 except InvalidParameterError:
1278 self.metadata[
"%s_mask_fraction"%maskPlane.lower()] = -1
1279 self.log.info(
"Unable to calculate metrics for mask plane %s: not in image"%maskPlane)
1281 if self.config.doSkySources:
1282 skySources = diaSources[diaSources[
"sky_source"]]
1285 metrics = computeDifferenceImageMetrics(science, difference, kernelSources, sky_sources=skySources)
1287 self.metadata[
"residualFootprintRatioMean"] = metrics.differenceFootprintRatioMean
1288 self.metadata[
"residualFootprintRatioStdev"] = metrics.differenceFootprintRatioStdev
1289 self.metadata[
"differenceFootprintSkyRatioMean"] = metrics.differenceFootprintSkyRatioMean
1290 self.metadata[
"differenceFootprintSkyRatioStdev"] = metrics.differenceFootprintSkyRatioStdev
1291 self.log.info(
"Mean, stdev of ratio of difference to science "
1292 "pixels in star footprints: %5.4f, %5.4f",
1293 self.metadata[
"residualFootprintRatioMean"],
1294 self.metadata[
"residualFootprintRatioStdev"])
1295 if self.config.raiseOnBadSubtractionRatio:
1296 if metrics.differenceFootprintRatioMean > self.config.badSubtractionRatioThreshold:
1298 threshold=self.config.badSubtractionRatioThreshold)
1299 if metrics.differenceFootprintRatioStdev > self.config.badSubtractionVariationThreshold:
1301 threshold=self.config.badSubtractionVariationThreshold)
1303 def getSattleDiaSourceAllowlist(self, diaSources, science):
1304 """Query the sattle service and determine which diaSources are allowed.
1308 diaSources : `lsst.afw.table.SourceCatalog`
1309 The catalog of detected sources.
1310 science : `lsst.afw.image.ExposureF`
1311 Science exposure that was subtracted.
1315 allow_list : `list` of `int`
1316 diaSourceIds of diaSources that can be made public.
1321 Raised if sattle call does not return success.
1323 wcs = science.getWcs()
1324 visit_info = science.getInfo().getVisitInfo()
1325 visit_id = visit_info.getId()
1326 sattle_uri_base = os.getenv(
'SATTLE_URI_BASE')
1328 dia_sources_json = []
1329 for source
in diaSources:
1330 source_bbox = source.getFootprint().getBBox()
1331 corners = wcs.pixelToSky([
lsst.geom.Point2D(c)
for c
in source_bbox.getCorners()])
1332 bbox_radec = [[pt.getRa().asDegrees(), pt.getDec().asDegrees()]
for pt
in corners]
1333 dia_sources_json.append({
"diasource_id": source[
"id"],
"bbox": bbox_radec})
1335 payload = {
"visit_id": visit_id,
"detector_id": science.getDetector().getId(),
1336 "diasources": dia_sources_json,
"historical": self.config.sattle_historical}
1338 sattle_output = requests.put(f
'{sattle_uri_base}/diasource_allow_list',
1342 if sattle_output.status_code == 404:
1343 self.log.warning(f
'Visit {visit_id} not found in sattle cache, re-sending')
1344 populate_sattle_visit_cache(visit_info, historical=self.config.sattle_historical)
1345 sattle_output = requests.put(f
'{sattle_uri_base}/diasource_allow_list', json=payload)
1347 sattle_output.raise_for_status()
1349 return sattle_output.json()[
'allow_list']
1351 def filterSatellites(self, diaSources, science):
1352 """Remove diaSources overlapping predicted satellite positions.
1356 diaSources : `lsst.afw.table.SourceCatalog`
1357 The catalog of detected sources.
1358 science : `lsst.afw.image.ExposureF`
1359 Science exposure that was subtracted.
1363 filterdDiaSources : `lsst.afw.table.SourceCatalog`
1364 Filtered catalog of diaSources
1367 allow_list = self.getSattleDiaSourceAllowlist(diaSources, science)
1370 allow_set = set(allow_list)
1371 allowed_ids = [source[
'id']
in allow_set
for source
in diaSources]
1372 diaSources = diaSources[np.array(allowed_ids)].copy(deep=
True)
1374 self.log.warning(
'Sattle allowlist is empty, all diaSources removed')
1375 diaSources = diaSources[0:0].copy(deep=
True)
1378 def _runStreakMasking(self, difference):
1379 """Do streak masking and optionally save the resulting streak
1380 fit parameters in a catalog.
1382 Only returns non-empty streakInfo if self.config.writeStreakInfo
1383 is set. The difference image is binned by self.config.streakBinFactor
1384 (and detection is run a second time) so that regions with lower
1385 surface brightness streaks are more likely to fall above the
1386 detection threshold.
1390 difference: `lsst.afw.image.Exposure`
1391 The exposure in which to search for streaks. Must have a detection
1396 streakInfo: `lsst.pipe.base.Struct`
1397 ``rho`` : `np.ndarray`
1398 Angle of detected streak.
1399 ``theta`` : `np.ndarray`
1400 Distance from center of detected streak.
1401 ``sigma`` : `np.ndarray`
1402 Width of streak profile.
1403 ``reducedChi2`` : `np.ndarray`
1404 Reduced chi2 of the best-fit streak profile.
1405 ``modelMaximum`` : `np.ndarray`
1406 Peak value of the fit line profile.
1408 maskedImage = difference.maskedImage
1411 self.config.streakBinFactor,
1412 self.config.streakBinFactor)
1413 binnedExposure = afwImage.ExposureF(binnedMaskedImage.getBBox())
1414 binnedExposure.setMaskedImage(binnedMaskedImage)
1416 binnedExposure.mask &= ~binnedExposure.mask.getPlaneBitMask(
'DETECTED')
1418 sigma = difference.psf.computeShape(difference.psf.getAveragePosition()).getDeterminantRadius()
1419 _table = afwTable.SourceTable.make(afwTable.SourceTable.makeMinimalSchema())
1420 self.streakDetection.
run(table=_table, exposure=binnedExposure, doSmooth=
True,
1421 sigma=sigma/self.config.streakBinFactor)
1422 binnedDetectedMaskPlane = binnedExposure.mask.array & binnedExposure.mask.getPlaneBitMask(
'DETECTED')
1423 rescaledDetectedMaskPlane = binnedDetectedMaskPlane.repeat(self.config.streakBinFactor,
1424 axis=0).repeat(self.config.streakBinFactor,
1427 streakMaskedImage = maskedImage.clone()
1428 ysize, xsize = rescaledDetectedMaskPlane.shape
1429 streakMaskedImage.mask.array[:ysize, :xsize] |= rescaledDetectedMaskPlane
1431 streaks = self.maskStreaks.
run(streakMaskedImage)
1432 streakMaskPlane = streakMaskedImage.mask.array & streakMaskedImage.mask.getPlaneBitMask(
'STREAK')
1434 maskedImage.mask.array |= streakMaskPlane
1436 if self.config.writeStreakInfo:
1437 rhos = np.array([line.rho
for line
in streaks.lines])
1438 thetas = np.array([line.theta
for line
in streaks.lines])
1439 sigmas = np.array([line.sigma
for line
in streaks.lines])
1440 chi2s = np.array([line.reducedChi2
for line
in streaks.lines])
1441 modelMaximums = np.array([line.modelMaximum
for line
in streaks.lines])
1442 streakInfo = {
'rho': rhos,
'theta': thetas,
'sigma': sigmas,
'reducedChi2': chi2s,
1443 'modelMaximum': modelMaximums}
1445 streakInfo = {
'rho': np.array([]),
'theta': np.array([]),
'sigma': np.array([]),
1446 'reducedChi2': np.array([]),
'modelMaximum': np.array([])}
1447 return pipeBase.Struct(maskedStreaks=streakInfo)
1451 scoreExposure = pipeBase.connectionTypes.Input(
1452 doc=
"Maximum likelihood image for detection.",
1453 dimensions=(
"instrument",
"visit",
"detector"),
1454 storageClass=
"ExposureF",
1455 name=
"{fakesType}{coaddName}Diff_scoreTempExp",
1457 scoreMeasuredExposure = pipeBase.connectionTypes.Output(
1458 doc=
"Score image after backgrond subtraction and detection.",
1459 dimensions=(
"instrument",
"visit",
"detector"),
1460 storageClass=
"ExposureF",
1461 name=
"{fakesType}{coaddName}Diff_scoreExp",
1465class DetectAndMeasureScoreConfig(DetectAndMeasureConfig,
1466 pipelineConnections=DetectAndMeasureScoreConnections):
1470class DetectAndMeasureScoreTask(DetectAndMeasureTask):
1471 """Detect DIA sources using a score image,
1472 and measure the detections on the difference image.
1474 Source detection is run on the supplied score, or maximum likelihood,
1475 image. Note that no additional convolution will be done in this case.
1476 Close positive and negative detections will optionally be merged into
1478 Sky sources, or forced detections in background regions, will optionally
1479 be added, and the configured measurement algorithm will be run on all
1482 ConfigClass = DetectAndMeasureScoreConfig
1483 _DefaultName =
"detectAndMeasureScore"
1486 def run(self, science, matchedTemplate, difference, scoreExposure, kernelSources,
1487 idFactory=None, measurementResults=None):
1488 """Detect and measure sources on a score image.
1492 science : `lsst.afw.image.ExposureF`
1493 Science exposure that the template was subtracted from.
1494 matchedTemplate : `lsst.afw.image.ExposureF`
1495 Warped and PSF-matched template that was used produce the
1497 difference : `lsst.afw.image.ExposureF`
1498 Result of subtracting template from the science image.
1499 scoreExposure : `lsst.afw.image.ExposureF`
1500 Score or maximum likelihood difference image
1501 kernelSources : `lsst.afw.table.SourceCatalog`
1502 Final selection of sources that was used for psf matching.
1503 idFactory : `lsst.afw.table.IdFactory`, optional
1504 Generator object used to assign ids to detected sources in the
1505 difference image. Ids from this generator are not set until after
1506 deblending and merging positive/negative peaks.
1507 measurementResults : `lsst.pipe.base.Struct`, optional
1508 Result struct that is modified to allow saving of partial outputs
1509 for some failure conditions. If the task completes successfully,
1510 this is also returned.
1514 measurementResults : `lsst.pipe.base.Struct`
1516 ``subtractedMeasuredExposure`` : `lsst.afw.image.ExposureF`
1517 Subtracted exposure with detection mask applied.
1518 ``scoreMeasuredExposure`` : `lsst.afw.image.ExposureF`
1519 Score exposure with detection mask applied.
1520 ``diaSources`` : `lsst.afw.table.SourceCatalog`
1521 The catalog of detected sources.
1522 ``differenceBackground`` : `lsst.afw.math.BackgroundList`
1523 Background that was subtracted from the difference image.
1525 if measurementResults
is None:
1526 measurementResults = pipeBase.Struct()
1527 if idFactory
is None:
1528 idFactory = lsst.meas.base.IdGenerator().make_table_id_factory()
1531 self._prepareInputs(difference)
1532 self._prepareInputs(scoreExposure)
1533 if self.config.doSubtractBackground:
1534 background = self._fitAndSubtractBackground(
1535 differenceExposure=difference, scoreExposure=scoreExposure,
1538 background = afwMath.BackgroundList()
1540 if self.config.doFindCosmicRays:
1543 self.findAndMaskCosmicRays(difference)
1544 scoreExposure.mask.array |= difference.mask.array
1549 table = afwTable.SourceTable.make(self.schema)
1550 detectResults = self.detection.
run(
1552 exposure=scoreExposure,
1554 background=background,
1557 measurementResults.differenceBackground = background
1558 measurementResults.scoreMeasuredExposure = scoreExposure
1563 detectedBit = difference.mask.getPlaneBitMask([
"DETECTED"])
1564 detectedPix = scoreExposure.mask.array & detectedBit > 0
1565 detectedNegativeBit = difference.mask.getPlaneBitMask([
"DETECTED_NEGATIVE"])
1566 detectedNegativePix = scoreExposure.mask.array & detectedNegativeBit > 0
1567 difference.mask.array[detectedPix] |= detectedBit
1568 difference.mask.array[detectedNegativePix] |= detectedNegativeBit
1570 edgeBit = difference.mask.getPlaneBitMask([
"EDGE"])
1571 edgePix = scoreExposure.mask.array & edgeBit > 0
1572 difference.mask.array[edgePix] |= edgeBit
1574 if self.config.doDeblend:
1575 sources, positives, negatives = self._deblend(difference,
1576 detectResults.positive,
1577 detectResults.negative)
1579 self.processResults(science, matchedTemplate, difference,
1580 sources, idFactory, kernelSources,
1581 positives=positives,
1582 negatives=negatives,
1583 measurementResults=measurementResults)
1586 positives = afwTable.SourceCatalog(self.schema)
1587 detectResults.positive.makeSources(positives)
1588 negatives = afwTable.SourceCatalog(self.schema)
1589 detectResults.negative.makeSources(negatives)
1590 self.processResults(science, matchedTemplate, difference,
1591 detectResults.sources, idFactory, kernelSources,
1592 positives=positives,
1593 negatives=negatives,
1594 measurementResults=measurementResults)
1595 return measurementResults
__init__(self, *, ratio, threshold)
__init__(self, maxCosmicRays, **kwargs)
std::shared_ptr< ImageT > binImage(ImageT const &inImage, int const binX, int const binY, lsst::afw::math::Property const flags=lsst::afw::math::MEAN)
run(self, *, coaddExposureHandles, bbox, wcs, dataIds, physical_filter, visit=None)