SafeClipAssembleCoaddTask¶
-
class
lsst.pipe.tasks.assembleCoadd.
SafeClipAssembleCoaddTask
(*args, **kwargs)¶ Bases:
lsst.pipe.tasks.assembleCoadd.AssembleCoaddTask
Assemble a coadded image from a set of coadded temporary exposures, being careful to clip & flag areas with potential artifacts.
In
AssembleCoaddTask
, we compute the coadd as an clipped mean (i.e., we clip outliers). The problem with doing this is that when computing the coadd PSF at a given location, individual visit PSFs from visits with outlier pixels contribute to the coadd PSF and cannot be treated correctly. In this task, we correct for this behavior by creating a newbadMaskPlane
‘CLIPPED’. We populate this plane on the input coaddTempExps and the final coadd where- difference imaging suggests that there is an outlier and
- this outlier appears on only one or two images.
Such regions will not contribute to the final coadd. Furthermore, any routine to determine the coadd PSF can now be cognizant of clipped regions. Note that the algorithm implemented by this task is preliminary and works correctly for HSC data. Parameter modifications and or considerable redesigning of the algorithm is likley required for other surveys.
SafeClipAssembleCoaddTask
uses aSourceDetectionTask
“clipDetection” subtask and also sub-classesAssembleCoaddTask
. You can retarget theSourceDetectionTask
“clipDetection” subtask if you wish.Notes
The
lsst.pipe.base.CmdLineTask
interface supports a flag-d
to importdebug.py
from yourPYTHONPATH
; seebaseDebug
for more aboutdebug.py
files.SafeClipAssembleCoaddTask
has no debug variables of its own. TheSourceDetectionTask
“clipDetection” subtasks may support debug variables. See the documetation forSourceDetectionTask
“clipDetection” for further information.Examples
SafeClipAssembleCoaddTask
assembles a set of warpedcoaddTempExp
images into a coadded image. TheSafeClipAssembleCoaddTask
is invoked by running assembleCoadd.py without the flag ‘–legacyCoadd’.Usage of
assembleCoadd.py
expects a data reference to the tract patch and filter to be coadded (specified using ‘–id = [KEY=VALUE1[^VALUE2[^VALUE3…] [KEY=VALUE1[^VALUE2[^VALUE3…] …]]’) along with a list of coaddTempExps to attempt to coadd (specified using ‘–selectId [KEY=VALUE1[^VALUE2[^VALUE3…] [KEY=VALUE1[^VALUE2[^VALUE3…] …]]’). Only the coaddTempExps that cover the specified tract and patch will be coadded. A list of the available optional arguments can be obtained by calling assembleCoadd.py with the –help command line argument:assembleCoadd.py --help
To demonstrate usage of the
SafeClipAssembleCoaddTask
in the larger context of multi-band processing, we will generate the HSC-I & -R band coadds from HSC engineering test data provided in the ci_hsc package. To begin, assuming that the lsst stack has been already set up, we must set up the obs_subaru and ci_hsc packages. This defines the environment variable $CI_HSC_DIR and points at the location of the package. The raw HSC data live in the$CI_HSC_DIR/raw
directory. To begin assembling the coadds, we must firstprocessCcd
- process the individual ccds in $CI_HSC_RAW to produce calibrated exposures
makeSkyMap
- create a skymap that covers the area of the sky present in the raw exposures
makeCoaddTempExp
- warp the individual calibrated exposures to the tangent plane of the coadd</DD>
We can perform all of these steps by running
$CI_HSC_DIR scons warp-903986 warp-904014 warp-903990 warp-904010 warp-903988
This will produce warped coaddTempExps for each visit. To coadd the warped data, we call
assembleCoadd.py
as follows:assembleCoadd.py $CI_HSC_DIR/DATA --id patch=5,4 tract=0 filter=HSC-I --selectId visit=903986 ccd=16 --selectId visit=903986 ccd=22 --selectId visit=903986 ccd=23 --selectId visit=903986 ccd=100--selectId visit=904014 ccd=1 --selectId visit=904014 ccd=6 --selectId visit=904014 ccd=12 --selectId visit=903990 ccd=18 --selectId visit=903990 ccd=25 --selectId visit=904010 ccd=4 --selectId visit=904010 ccd=10 --selectId visit=904010 ccd=100 --selectId visit=903988 ccd=16 --selectId visit=903988 ccd=17 --selectId visit=903988 ccd=23 --selectId visit=903988 ccd=24
This will process the HSC-I band data. The results are written in
$CI_HSC_DIR/DATA/deepCoadd-results/HSC-I
.You may also choose to run:
scons warp-903334 warp-903336 warp-903338 warp-903342 warp-903344 warp-903346 nnn assembleCoadd.py $CI_HSC_DIR/DATA --id patch=5,4 tract=0 filter=HSC-R --selectId visit=903334 ccd=16 --selectId visit=903334 ccd=22 --selectId visit=903334 ccd=23 --selectId visit=903334 ccd=100 --selectId visit=903336 ccd=17 --selectId visit=903336 ccd=24 --selectId visit=903338 ccd=18 --selectId visit=903338 ccd=25 --selectId visit=903342 ccd=4 --selectId visit=903342 ccd=10 --selectId visit=903342 ccd=100 --selectId visit=903344 ccd=0 --selectId visit=903344 ccd=5 --selectId visit=903344 ccd=11 --selectId visit=903346 ccd=1 --selectId visit=903346 ccd=6 --selectId visit=903346 ccd=12
to generate the coadd for the HSC-R band if you are interested in following multiBand Coadd processing as discussed in
pipeTasks_multiBand
.Attributes Summary
canMultiprocess
Methods Summary
applyAltMaskPlanes
(mask, altMaskSpans)Apply in place alt mask formatted as SpanSets to a mask. applyOverrides
(config)A hook to allow a task to change the values of its config after the camera-specific overrides are loaded but before any command-line overrides are applied. assembleMetadata
(coaddExposure, …)Set the metadata for the coadd. assembleSubregion
(coaddExposure, bbox, …)Assemble the coadd for a sub-region. buildDifferenceImage
(skyInfo, …)Return an exposure that contains the difference between unclipped and clipped coadds. detectClip
(exp, tempExpRefList)Detect clipped regions on an exposure and set the mask on the individual tempExp masks. detectClipBig
(clipList, clipFootprints, …)Return individual warp footprints for large artifacts and append them to clipList
in place.emptyMetadata
()Empty (clear) the metadata for this Task and all sub-Tasks. getAllSchemaCatalogs
()Get schema catalogs for all tasks in the hierarchy, combining the results into a single dict. getBadPixelMask
()! getCalExp
(dataRef, bgSubtracted)!Return one “calexp” calibrated exposure getCoaddDatasetName
([warpType])Return coadd name for given warpType and task config getFullMetadata
()Get metadata for all tasks. getFullName
()Get the task name as a hierarchical name including parent task names. getName
()Get the name of the task. getSchemaCatalogs
()Get the schemas generated by this task. getSkyInfo
(patchRef)! getTaskDict
()Get a dictionary of all tasks as a shallow copy. getTempExpDatasetName
([warpType])Return warp name for given warpType and task config getTempExpRefList
(patchRef, calExpRefList)Generate list data references corresponding to warped exposures that lie within the patch to be coadded. makeField
(doc)Make a lsst.pex.config.ConfigurableField
for this task.makeSubtask
(name, **keyArgs)Create a subtask as a new instance as the name
attribute of this task.makeSupplementaryData
(dataRef, selectDataList)Make additional inputs to run() specific to subclasses. parseAndRun
([args, config, log, doReturnResults])Parse an argument list and run the command. prepareInputs
(refList)Prepare the input warps for coaddition by measuring the weight for each warp and the scaling for the photometric zero point. prepareStats
([mask])Prepare the statistics for coadding images. processResults
(coaddExposure, dataRef)Interpolate over missing data and mask bright stars. readBrightObjectMasks
(dataRef)Retrieve the bright object masks. removeMaskPlanes
(maskedImage)Unset the mask of an image for mask planes specified in the config. run
(skyInfo, tempExpRefList, …)Assemble the coadd for a region. runDataRef
(dataRef[, selectDataList])Assemble a coadd from a set of Warps. selectExposures
(patchRef[, skyInfo, …])! setBrightObjectMasks
(exposure, dataId, …)Set the bright object masks. setInexactPsf
(mask)Set INEXACT_PSF mask plane. setRejectedMaskMapping
(statsCtrl)Map certain mask planes of the warps to new planes for the coadd. shrinkValidPolygons
(coaddInputs)Shrink coaddInputs’ ccds’ ValidPolygons in place. timer
(name[, logLevel])Context manager to log performance data for an arbitrary block of code. writeConfig
(butler[, clobber, doBackup])Write the configuration used for processing the data, or check that an existing one is equal to the new one if present. writeMetadata
(dataRef)Write the metadata produced from processing the data. writePackageVersions
(butler[, clobber, …])Compare and write package versions. writeSchemas
(butler[, clobber, doBackup])Write the schemas returned by lsst.pipe.base.Task.getAllSchemaCatalogs
.Attributes Documentation
-
canMultiprocess
= True¶
Methods Documentation
-
applyAltMaskPlanes
(mask, altMaskSpans)¶ Apply in place alt mask formatted as SpanSets to a mask.
Parameters: - mask :
lsst.afw.image.Mask
Original mask.
- altMaskSpans :
dict
SpanSet lists to apply. Each element contains the new mask plane name (e.g. “CLIPPED and/or “NO_DATA”) as the key, and list of SpanSets to apply to the mask.
Returns: - mask :
lsst.afw.image.Mask
Updated mask.
- mask :
-
classmethod
applyOverrides
(config)¶ A hook to allow a task to change the values of its config after the camera-specific overrides are loaded but before any command-line overrides are applied.
Parameters: - config : instance of task’s
ConfigClass
Task configuration.
Notes
This is necessary in some cases because the camera-specific overrides may retarget subtasks, wiping out changes made in ConfigClass.setDefaults. See LSST Trac ticket #2282 for more discussion.
Warning
This is called by CmdLineTask.parseAndRun; other ways of constructing a config will not apply these overrides.
- config : instance of task’s
-
assembleMetadata
(coaddExposure, tempExpRefList, weightList)¶ Set the metadata for the coadd.
This basic implementation sets the filter from the first input.
Parameters:
-
assembleSubregion
(coaddExposure, bbox, tempExpRefList, imageScalerList, weightList, altMaskList, statsFlags, statsCtrl, nImage=None)¶ Assemble the coadd for a sub-region.
For each coaddTempExp, check for (and swap in) an alternative mask if one is passed. Remove mask planes listed in
config.removeMaskPlanes
. Finally, stack the actual exposures usinglsst.afw.math.statisticsStack
with the statistic specified by statsFlags. Typically, the statsFlag will be one of lsst.afw.math.MEAN for a mean-stack orlsst.afw.math.MEANCLIP
for outlier rejection using an N-sigma clipped mean where N and iterations are specified by statsCtrl. Assign the stacked subregion back to the coadd.Parameters: - coaddExposure :
lsst.afw.image.Exposure
The target exposure for the coadd.
- bbox :
lsst.afw.geom.Box
Sub-region to coadd.
- tempExpRefList :
list
List of data reference to tempExp.
- imageScalerList :
list
List of image scalers.
- weightList :
list
List of weights.
- altMaskList :
list
List of alternate masks to use rather than those stored with tempExp, or None. Each element is dict with keys = mask plane name to which to add the spans.
- statsFlags :
lsst.afw.math.Property
Property object for statistic for coadd.
- statsCtrl :
lsst.afw.math.StatisticsControl
Statistics control object for coadd.
- nImage :
lsst.afw.image.ImageU
, optional Keeps track of exposure count for each pixel.
- coaddExposure :
-
buildDifferenceImage
(skyInfo, tempExpRefList, imageScalerList, weightList)¶ Return an exposure that contains the difference between unclipped and clipped coadds.
Generate a difference image between clipped and unclipped coadds. Compute the difference image by subtracting an outlier-clipped coadd from an outlier-unclipped coadd. Return the difference image.
Parameters: - skyInfo :
lsst.pipe.base.Struct
Patch geometry information, from getSkyInfo
- tempExpRefList :
list
List of data reference to tempExp
- imageScalerList :
list
List of image scalers
- weightList :
list
List of weights
Returns: - exp :
lsst.afw.image.Exposure
Difference image of unclipped and clipped coadd wrapped in an Exposure
- skyInfo :
-
detectClip
(exp, tempExpRefList)¶ Detect clipped regions on an exposure and set the mask on the individual tempExp masks.
Detect footprints in the difference image after smoothing the difference image with a Gaussian kernal. Identify footprints that overlap with one or two input
coaddTempExps
by comparing the computed overlap fraction to thresholds set in the config. A different threshold is applied depending on the number of overlapping visits (restricted to one or two). If the overlap exceeds the thresholds, the footprint is considered “CLIPPED” and is marked as such on the coaddTempExp. Return a struct with the clipped footprints, the indices of thecoaddTempExps
that end up overlapping with the clipped footprints, and a list of new masks for thecoaddTempExps
.Parameters: - exp :
lsst.afw.image.Exposure
Exposure to run detection on.
- tempExpRefList :
list
List of data reference to tempExp.
Returns: - result :
lsst.pipe.base.Struct
Result struct with components:
clipFootprints
: list of clipped footprints.clipIndices
: indices for eachclippedFootprint
intempExpRefList
.
clipSpans
: List of dictionaries containing spanSet lists- to clip. Each element contains the new maskplane name
(“CLIPPED”) as the key and list of
SpanSets
as the value.
detectionFootprints
: List of DETECTED/DETECTED_NEGATIVE plane- compressed into footprints.
- exp :
-
detectClipBig
(clipList, clipFootprints, clipIndices, detectionFootprints, maskClipValue, maskDetValue, coaddBBox)¶ Return individual warp footprints for large artifacts and append them to
clipList
in place.Identify big footprints composed of many sources in the coadd difference that may have originated in a large diffuse source in the coadd. We do this by indentifying all clipped footprints that overlap significantly with each source in all the coaddTempExps.
Parameters: - clipList :
list
List of alt mask SpanSets with clipping information. Modified.
- clipFootprints :
list
List of clipped footprints.
- clipIndices :
list
List of which entries in tempExpClipList each footprint belongs to.
- maskClipValue
Mask value of clipped pixels.
- maskDetValue
Mask value of detected pixels.
- coaddBBox :
lsst.afw.geom.Box
BBox of the coadd and warps.
Returns: - bigFootprintsCoadd :
list
List of big footprints
- clipList :
-
emptyMetadata
()¶ Empty (clear) the metadata for this Task and all sub-Tasks.
-
getAllSchemaCatalogs
()¶ Get schema catalogs for all tasks in the hierarchy, combining the results into a single dict.
Returns: - schemacatalogs :
dict
Keys are butler dataset type, values are a empty catalog (an instance of the appropriate lsst.afw.table Catalog type) for all tasks in the hierarchy, from the top-level task down through all subtasks.
Notes
This method may be called on any task in the hierarchy; it will return the same answer, regardless.
The default implementation should always suffice. If your subtask uses schemas the override
Task.getSchemaCatalogs
, not this method.- schemacatalogs :
-
getBadPixelMask
()¶ ! @brief Convenience method to provide the bitmask from the mask plane names
-
getCalExp
(dataRef, bgSubtracted)¶ !Return one “calexp” calibrated exposure
@param[in] dataRef a sensor-level data reference @param[in] bgSubtracted return calexp with background subtracted? If False get the
calexp’s background background model and add it to the calexp.@return calibrated exposure
If config.doApplyUberCal, meas_mosaic calibrations will be applied to the returned exposure using applyMosaicResults.
-
getCoaddDatasetName
(warpType='direct')¶ Return coadd name for given warpType and task config
Parameters: - warpType : string
Either ‘direct’ or ‘psfMatched’
Returns: - CoaddDatasetName :
string
-
getFullMetadata
()¶ Get metadata for all tasks.
Returns: - metadata :
lsst.daf.base.PropertySet
The
PropertySet
keys are the full task name. Values are metadata for the top-level task and all subtasks, sub-subtasks, etc..
Notes
The returned metadata includes timing information (if
@timer.timeMethod
is used) and any metadata set by the task. The name of each item consists of the full task name with.
replaced by:
, followed by.
and the name of the item, e.g.:topLevelTaskName:subtaskName:subsubtaskName.itemName
using
:
in the full task name disambiguates the rare situation that a task has a subtask and a metadata item with the same name.- metadata :
-
getFullName
()¶ Get the task name as a hierarchical name including parent task names.
Returns: - fullName :
str
The full name consists of the name of the parent task and each subtask separated by periods. For example:
- The full name of top-level task “top” is simply “top”.
- The full name of subtask “sub” of top-level task “top” is “top.sub”.
- The full name of subtask “sub2” of subtask “sub” of top-level task “top” is “top.sub.sub2”.
- fullName :
-
getSchemaCatalogs
()¶ Get the schemas generated by this task.
Returns: - schemaCatalogs :
dict
Keys are butler dataset type, values are an empty catalog (an instance of the appropriate
lsst.afw.table
Catalog type) for this task.
See also
Task.getAllSchemaCatalogs
Notes
Warning
Subclasses that use schemas must override this method. The default implemenation returns an empty dict.
This method may be called at any time after the Task is constructed, which means that all task schemas should be computed at construction time, not when data is actually processed. This reflects the philosophy that the schema should not depend on the data.
Returning catalogs rather than just schemas allows us to save e.g. slots for SourceCatalog as well.
- schemaCatalogs :
-
getSkyInfo
(patchRef)¶ ! @brief Use @ref getSkyinfo to return the skyMap, tract and patch information, wcs and the outer bbox of the patch.
@param[in] patchRef data reference for sky map. Must include keys “tract” and “patch”
@return pipe_base Struct containing: - skyMap: sky map - tractInfo: information for chosen tract of sky map - patchInfo: information about chosen patch of tract - wcs: WCS of tract - bbox: outer bbox of patch, as an afwGeom Box2I
-
getTaskDict
()¶ Get a dictionary of all tasks as a shallow copy.
Returns: - taskDict :
dict
Dictionary containing full task name: task object for the top-level task and all subtasks, sub-subtasks, etc..
- taskDict :
-
getTempExpDatasetName
(warpType='direct')¶ Return warp name for given warpType and task config
Parameters: - warpType : string
Either ‘direct’ or ‘psfMatched’
Returns: - WarpDatasetName :
string
-
getTempExpRefList
(patchRef, calExpRefList)¶ Generate list data references corresponding to warped exposures that lie within the patch to be coadded.
Parameters: - patchRef :
dataRef
Data reference for patch.
- calExpRefList :
list
List of data references for input calexps.
Returns: - tempExpRefList :
list
List of Warp/CoaddTempExp data references.
- patchRef :
-
classmethod
makeField
(doc)¶ Make a
lsst.pex.config.ConfigurableField
for this task.Parameters: - doc :
str
Help text for the field.
Returns: - configurableField :
lsst.pex.config.ConfigurableField
A
ConfigurableField
for this task.
Examples
Provides a convenient way to specify this task is a subtask of another task.
Here is an example of use:
class OtherTaskConfig(lsst.pex.config.Config) aSubtask = ATaskClass.makeField("a brief description of what this task does")
- doc :
-
makeSubtask
(name, **keyArgs)¶ Create a subtask as a new instance as the
name
attribute of this task.Parameters: - name :
str
Brief name of the subtask.
- keyArgs
Extra keyword arguments used to construct the task. The following arguments are automatically provided and cannot be overridden:
- “config”.
- “parentTask”.
Notes
The subtask must be defined by
Task.config.name
, an instance of pex_config ConfigurableField or RegistryField.- name :
-
makeSupplementaryData
(dataRef, selectDataList)¶ Make additional inputs to run() specific to subclasses.
Available to be implemented by subclasses only if they need the coadd dataRef for performing preliminary processing before assembling the coadd.
Parameters: - dataRef :
lsst.daf.persistence.ButlerDataRef
Butler data reference for supplementary data.
- selectDataList :
list
List of data references to Warps.
- dataRef :
-
classmethod
parseAndRun
(args=None, config=None, log=None, doReturnResults=False)¶ Parse an argument list and run the command.
Parameters: - args :
list
, optional - config :
lsst.pex.config.Config
-type, optional Config for task. If
None
useTask.ConfigClass
.- log :
lsst.log.Log
-type, optional Log. If
None
use the default log.- doReturnResults :
bool
, optional If
True
, return the results of this task. Default isFalse
. This is only intended for unit tests and similar use. It can easily exhaust memory (if the task returns enough data and you call it enough times) and it will fail when using multiprocessing if the returned data cannot be pickled.
Returns: - struct :
lsst.pipe.base.Struct
Fields are:
argumentParser
: the argument parser.parsedCmd
: the parsed command returned by the argument parser’slsst.pipe.base.ArgumentParser.parse_args
method.taskRunner
: the task runner used to run the task (an instance ofTask.RunnerClass
).
Notes
Calling this method with no arguments specified is the standard way to run a command-line task from the command-line. For an example see
pipe_tasks
bin/makeSkyMap.py
or almost any other file in that directory.If one or more of the dataIds fails then this routine will exit (with a status giving the number of failed dataIds) rather than returning this struct; this behaviour can be overridden by specifying the
--noExit
command-line option.- args :
-
prepareInputs
(refList)¶ Prepare the input warps for coaddition by measuring the weight for each warp and the scaling for the photometric zero point.
Each Warp has its own photometric zeropoint and background variance. Before coadding these Warps together, compute a scale factor to normalize the photometric zeropoint and compute the weight for each Warp.
Parameters: - refList :
list
List of data references to tempExp
Returns: - result :
lsst.pipe.base.Struct
Result struct with components:
- refList :
-
prepareStats
(mask=None)¶ Prepare the statistics for coadding images.
Parameters: - mask :
int
, optional Bit mask value to exclude from coaddition.
Returns: - stats :
lsst.pipe.base.Struct
Statistics structure with the following fields:
statsCtrl
: Statistics control object for coadd- (
lsst.afw.math.StatisticsControl
)
statsFlags
: Statistic for coadd (lsst.afw.math.Property
)
- mask :
-
processResults
(coaddExposure, dataRef)¶ Interpolate over missing data and mask bright stars.
Parameters: - coaddExposure :
lsst.afw.image.Exposure
The coadded exposure to process.
- dataRef :
lsst.daf.persistence.ButlerDataRef
Butler data reference for supplementary data.
- coaddExposure :
-
readBrightObjectMasks
(dataRef)¶ Retrieve the bright object masks.
Returns None on failure.
Parameters: - dataRef :
lsst.daf.persistence.butlerSubset.ButlerDataRef
A Butler dataRef.
Returns: - result :
lsst.daf.persistence.butlerSubset.ButlerDataRef
Bright object mask from the Butler object, or None if it cannot be retrieved.
- dataRef :
-
removeMaskPlanes
(maskedImage)¶ Unset the mask of an image for mask planes specified in the config.
Parameters: - maskedImage :
lsst.afw.image.MaskedImage
The masked image to be modified.
- maskedImage :
-
run
(skyInfo, tempExpRefList, imageScalerList, weightList, *args, **kwargs)¶ Assemble the coadd for a region.
Compute the difference of coadds created with and without outlier rejection to identify coadd pixels that have outlier values in some individual visits. Detect clipped regions on the difference image and mark these regions on the one or two individual coaddTempExps where they occur if there is significant overlap between the clipped region and a source. This leaves us with a set of footprints from the difference image that have been identified as having occured on just one or two individual visits. However, these footprints were generated from a difference image. It is conceivable for a large diffuse source to have become broken up into multiple footprints acrosss the coadd difference in this process. Determine the clipped region from all overlapping footprints from the detected sources in each visit - these are big footprints. Combine the small and big clipped footprints and mark them on a new bad mask plane. Generate the coadd using
AssembleCoaddTask.run
without outlier removal. Clipped footprints will no longer make it into the coadd because they are marked in the new bad mask plane.Parameters: - skyInfo :
lsst.pipe.base.Struct
Patch geometry information, from getSkyInfo
- tempExpRefList :
list
List of data reference to tempExp
- imageScalerList :
list
List of image scalers
- weightList :
list
List of weights
Returns: - result :
lsst.pipe.base.Struct
Result struct with components:
coaddExposure
: coadded exposure (lsst.afw.image.Exposure
).nImage
: exposure count image (lsst.afw.image.Image
).
Notes
args and kwargs are passed but ignored in order to match the call signature expected by the parent task.
- skyInfo :
-
runDataRef
(dataRef, selectDataList=[])¶ Assemble a coadd from a set of Warps.
Coadd a set of Warps. Compute weights to be applied to each Warp and find scalings to match the photometric zeropoint to a reference Warp. Assemble the Warps using
run
. Interpolate over NaNs and optionally write the coadd to disk. Return the coadded exposure.Parameters: - dataRef :
lsst.daf.persistence.butlerSubset.ButlerDataRef
Data reference defining the patch for coaddition and the reference Warp (if
config.autoReference=False
). Used to access the following data products: -self.config.coaddName + "Coadd_skyMap"
-self.config.coaddName + "Coadd_ + <warpType> + "Warp"
(optionally) -self.config.coaddName + "Coadd"
- selectDataList :
list
List of data references to Warps. Data to be coadded will be selected from this list based on overlap with the patch defined by dataRef.
Returns: - retStruct :
lsst.pipe.base.Struct
Result struct with components:
coaddExposure
: coadded exposure (Exposure
).nImage
: exposure count image (Image
).
- dataRef :
-
selectExposures
(patchRef, skyInfo=None, selectDataList=[])¶ ! @brief Select exposures to coadd
Get the corners of the bbox supplied in skyInfo using @ref afwGeom.Box2D and convert the pixel positions of the bbox corners to sky coordinates using @ref skyInfo.wcs.pixelToSky. Use the @ref WcsSelectImagesTask_ “WcsSelectImagesTask” to select exposures that lie inside the patch indicated by the dataRef.
- @param[in] patchRef data reference for sky map patch. Must include keys “tract”, “patch”,
- plus the camera-specific filter key (e.g. “filter” or “band”)
@param[in] skyInfo geometry for the patch; output from getSkyInfo @return a list of science exposures to coadd, as butler data references
-
setBrightObjectMasks
(exposure, dataId, brightObjectMasks)¶ Set the bright object masks.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure under consideration.
- dataId :
lsst.daf.persistence.dataId
Data identifier dict for patch.
- brightObjectMasks :
lsst.afw.table
Table of bright objects to mask.
- exposure :
-
setInexactPsf
(mask)¶ Set INEXACT_PSF mask plane.
If any of the input images isn’t represented in the coadd (due to clipped pixels or chip gaps), the
CoaddPsf
will be inexact. Flag these pixels.Parameters: - mask :
lsst.afw.image.Mask
Coadded exposure’s mask, modified in-place.
- mask :
-
static
setRejectedMaskMapping
(statsCtrl)¶ Map certain mask planes of the warps to new planes for the coadd.
If a pixel is rejected due to a mask value other than EDGE, NO_DATA, or CLIPPED, set it to REJECTED on the coadd. If a pixel is rejected due to EDGE, set the coadd pixel to SENSOR_EDGE. If a pixel is rejected due to CLIPPED, set the coadd pixel to CLIPPED.
Parameters: - statsCtrl :
lsst.afw.math.StatisticsControl
Statistics control object for coadd
Returns: - statsCtrl :
-
shrinkValidPolygons
(coaddInputs)¶ Shrink coaddInputs’ ccds’ ValidPolygons in place.
Either modify each ccd’s validPolygon in place, or if CoaddInputs does not have a validPolygon, create one from its bbox.
Parameters: - coaddInputs :
lsst.afw.image.coaddInputs
Original mask.
- coaddInputs :
-
timer
(name, logLevel=10000)¶ Context manager to log performance data for an arbitrary block of code.
Parameters: - name :
str
Name of code being timed; data will be logged using item name:
Start
andEnd
.- logLevel
A
lsst.log
level constant.
See also
timer.logInfo
Examples
Creating a timer context:
with self.timer("someCodeToTime"): pass # code to time
- name :
-
writeConfig
(butler, clobber=False, doBackup=True)¶ Write the configuration used for processing the data, or check that an existing one is equal to the new one if present.
Parameters: - butler :
lsst.daf.persistence.Butler
Data butler used to write the config. The config is written to dataset type
CmdLineTask._getConfigName
.- clobber :
bool
, optional A boolean flag that controls what happens if a config already has been saved: -
True
: overwrite or rename the existing config, depending ondoBackup
. -False
: raiseTaskError
if this config does not match the existing config.- doBackup : bool, optional
Set to
True
to backup the config files if clobbering.
- butler :
-
writeMetadata
(dataRef)¶ Write the metadata produced from processing the data.
Parameters: - dataRef
Butler data reference used to write the metadata. The metadata is written to dataset type
CmdLineTask._getMetadataName
.
-
writePackageVersions
(butler, clobber=False, doBackup=True, dataset='packages')¶ Compare and write package versions.
Parameters: - butler :
lsst.daf.persistence.Butler
Data butler used to read/write the package versions.
- clobber :
bool
, optional A boolean flag that controls what happens if versions already have been saved: -
True
: overwrite or rename the existing version info, depending ondoBackup
. -False
: raiseTaskError
if this version info does not match the existing.- doBackup :
bool
, optional If
True
and clobbering, old package version files are backed up.- dataset :
str
, optional Name of dataset to read/write.
Raises: - TaskError
Raised if there is a version mismatch with current and persisted lists of package versions.
Notes
Note that this operation is subject to a race condition.
- butler :
-
writeSchemas
(butler, clobber=False, doBackup=True)¶ Write the schemas returned by
lsst.pipe.base.Task.getAllSchemaCatalogs
.Parameters: - butler :
lsst.daf.persistence.Butler
Data butler used to write the schema. Each schema is written to the dataset type specified as the key in the dict returned by
getAllSchemaCatalogs
.- clobber :
bool
, optional A boolean flag that controls what happens if a schema already has been saved: -
True
: overwrite or rename the existing schema, depending ondoBackup
. -False
: raiseTaskError
if this schema does not match the existing schema.- doBackup :
bool
, optional Set to
True
to backup the schema files if clobbering.
Notes
If
clobber
isFalse
and an existing schema does not match a current schema, then some schemas may have been saved successfully and others may not, and there is no easy way to tell which is which.- butler :