AssembleCoaddTask¶
- class lsst.pipe.tasks.assembleCoadd.AssembleCoaddTask(*args, **kwargs)¶
Bases:
CoaddBaseTask
,PipelineTask
Assemble a coadded image from a set of warps.
Each Warp that goes into a coadd will typically have an independent photometric zero-point. Therefore, we must scale each Warp to set it to a common photometric zeropoint. WarpType may be one of ‘direct’ or ‘psfMatched’, and the boolean configs
config.makeDirect
andconfig.makePsfMatched
set which of the warp types will be coadded. The coadd is computed as a mean with optional outlier rejection. Criteria for outlier rejection are set inAssembleCoaddConfig
. Finally, Warps can have bad ‘NaN’ pixels which received no input from the source calExps. We interpolate over these bad (NaN) pixels.AssembleCoaddTask
uses several sub-tasks. These areScaleZeroPointTask
create and use an
imageScaler
object to scale the photometric zeropoint for each WarpInterpImageTask
interpolate across bad pixels (NaN) in the final coadd
You can retarget these subtasks if you wish.
- Raises:
- RuntimeError
Raised if unable to define mask plane for bright objects.
Notes
Debugging:
AssembleCoaddTask
has no debug variables of its own. Some of the subtasks may supportlsstDebug
variables. See the documentation for the subtasks for further information.Examples
AssembleCoaddTask
assembles a set of warped images into a coadded image. TheAssembleCoaddTask
can be invoked by runningassembleCoadd.py
with the flag ‘–legacyCoadd’. Usage of assembleCoadd.py expects two inputs: a data reference to the tract patch and filter to be coadded, and a list of Warps to attempt to coadd. These are specified using--id
and--selectId
, respectively:--id = [KEY=VALUE1[^VALUE2[^VALUE3...] [KEY=VALUE1[^VALUE2[^VALUE3...] ...]] --selectId [KEY=VALUE1[^VALUE2[^VALUE3...] [KEY=VALUE1[^VALUE2[^VALUE3...] ...]]
Only the Warps 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
AssembleCoaddTask
in the larger context of multi-band processing, we will generate the HSC-I & -R band coadds from HSC engineering test data provided in theci_hsc
package. To begin, assuming that the lsst stack has been already set up, we must set up the obs_subaru andci_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 first run:processCcd
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
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 exposures for each visit. To coadd the warped data, we call assembleCoadd.py as follows:
assembleCoadd.py --legacyCoadd $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
that 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 assembleCoadd.py --legacyCoadd $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
(but note that normally, one would use theSafeClipAssembleCoaddTask
rather thanAssembleCoaddTask
to make the coadd.Attributes Summary
Methods Summary
applyAltMaskPlanes
(mask, altMaskSpans)Apply in place alt mask formatted as SpanSets to a mask.
assembleMetadata
(coaddExposure, ...)Set the metadata for the coadd.
assembleOnlineMeanCoadd
(coaddExposure, ...)Assemble the coadd using the "online" method.
assembleSubregion
(coaddExposure, bbox, ...)Assemble the coadd for a sub-region.
Empty (clear) the metadata for this Task and all sub-Tasks.
filterWarps
(inputs, goodVisits)Return list of only inputRefs with visitId in goodVisits ordered by goodVisit.
Convenience method to provide the bitmask from the mask plane names
Get metadata for all tasks.
Get the task name as a hierarchical name including parent task names.
getName
()Get the name of the task.
Return resource configuration for this task.
Get a dictionary of all tasks as a shallow copy.
getTempExpDatasetName
([warpType])Return warp name for given warpType and task config
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.makeSupplementaryDataGen3
(butlerQC, ...)Deprecated since version v25.0.
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[, ...])Interpolate over missing data and mask bright stars.
removeMaskPlanes
(maskedImage)Unset the mask of an image for mask planes specified in the config.
run
(skyInfo, tempExpRefList, ...[, ...])Assemble a coadd from input warps.
runQuantum
(butlerQC, inputRefs, outputRefs)Method to do butler IO and or transforms to provide in memory objects for tasks run method
setBrightObjectMasks
(exposure, brightObjectMasks)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.
Attributes Documentation
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.
- mask
- Returns:
- mask
lsst.afw.image.Mask
Updated mask.
- mask
- assembleMetadata(coaddExposure, tempExpRefList, weightList)¶
Set the metadata for the coadd.
This basic implementation sets the filter from the first input.
- assembleOnlineMeanCoadd(coaddExposure, tempExpRefList, imageScalerList, weightList, altMaskList, statsCtrl, nImage=None)¶
Assemble the coadd using the “online” method.
This method takes a running sum of images and weights to save memory. It only works for MEAN statistics.
- Parameters:
- coaddExposure
lsst.afw.image.Exposure
The target exposure for the 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.
- 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
- 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.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
- filterWarps(inputs, goodVisits)¶
Return list of only inputRefs with visitId in goodVisits ordered by goodVisit.
- Parameters:
- inputs
list
ofDeferredDatasetRef
List of
lsst.pipe.base.connections.DeferredDatasetRef
with dataId containing visit.- goodVisit
dict
Dictionary with good visitIds as the keys. Value ignored.
- inputs
- Returns:
- filteredInputs
list
ofDeferredDatasetRef
Filtered and sorted list of inputRefs with visitId in goodVisits ordered by goodVisit.
- filteredInputs
- getBadPixelMask()¶
Convenience method to provide the bitmask from the mask plane names
- getFullMetadata() TaskMetadata ¶
Get metadata for all tasks.
- Returns:
- metadata
TaskMetadata
The keys are the full task name. Values are metadata for the top-level task and all subtasks, sub-subtasks, etc.
- metadata
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.
- getFullName() str ¶
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
- getResourceConfig() ResourceConfig | None ¶
Return resource configuration for this task.
- Returns:
- Object of type
ResourceConfig
orNone
if resource - configuration is not defined for this task.
- Object of type
- getTaskDict() Dict[str, ReferenceType[Task]] ¶
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
- classmethod makeField(doc: str) ConfigurableField ¶
Make a
lsst.pex.config.ConfigurableField
for this task.- Parameters:
- doc
str
Help text for the field.
- doc
- Returns:
- configurableField
lsst.pex.config.ConfigurableField
A
ConfigurableField
for this task.
- configurableField
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("brief description of task")
- makeSubtask(name: str, **keyArgs: Any) None ¶
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”.
- name
Notes
The subtask must be defined by
Task.config.name
, an instance ofConfigurableField
orRegistryField
.
- makeSupplementaryDataGen3(butlerQC, inputRefs, outputRefs)¶
Deprecated since version v25.0: makeSupplementaryDataGen3 is deprecated in favor of _makeSupplementaryData
- 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.
- prepareStats(mask=None)¶
Prepare the statistics for coadding images.
- Parameters:
- mask
int
, optional Bit mask value to exclude from coaddition.
- mask
- Returns:
- stats
Struct
Statistics as a struct with attributes:
statsCtrl
Statistics control object for coadd (
StatisticsControl
).statsFlags
Statistic for coadd (
Property
).
- stats
- processResults(coaddExposure, brightObjectMasks=None, dataId=None)¶
Interpolate over missing data and mask bright stars.
- 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
- Raises:
- InvalidParameterError
Raised if no mask plane with that name was found.
- run(skyInfo, tempExpRefList, imageScalerList, weightList, altMaskList=None, mask=None, supplementaryData=None)¶
Assemble a coadd from input warps.
Assemble the coadd using the provided list of coaddTempExps. Since the full coadd covers a patch (a large area), the assembly is performed over small areas on the image at a time in order to conserve memory usage. Iterate over subregions within the outer bbox of the patch using
assembleSubregion
to stack the corresponding subregions from the coaddTempExps with the statistic specified. Set the edge bits the coadd mask based on the weight map.- Parameters:
- skyInfo
Struct
Struct with geometric information about the patch.
- tempExpRefList
list
List of data references to Warps (previously called CoaddTempExps).
- imageScalerList
list
List of image scalers.
- weightList
list
List of weights.
- altMaskList
list
, optional List of alternate masks to use rather than those stored with tempExp.
- mask
int
, optional Bit mask value to exclude from coaddition.
- supplementaryData
Struct
, optional Struct with additional data products needed to assemble coadd. Only used by subclasses that implement
_makeSupplementaryData
and overriderun
.
- skyInfo
- Returns:
- result
Struct
Results as a struct with attributes:
coaddExposure
Coadded exposure (
lsst.afw.image.Exposure
).nImage
Exposure count image (
lsst.afw.image.Image
), if requested.inputMap
Bit-wise map of inputs, if requested.
warpRefList
Input list of refs to the warps (
lsst.daf.butler.DeferredDatasetHandle
) (unmodified).imageScalerList
Input list of image scalers (
list
) (unmodified).weightList
Input list of weights (
list
) (unmodified).
- result
- Raises:
- lsst.pipe.base.NoWorkFound
Raised if no data references are provided.
- runQuantum(butlerQC, inputRefs, outputRefs)¶
Method to do butler IO and or transforms to provide in memory objects for tasks run method
- Parameters:
- butlerQC
ButlerQuantumContext
A butler which is specialized to operate in the context of a
lsst.daf.butler.Quantum
.- inputRefs
InputQuantizedConnection
Datastructure whose attribute names are the names that identify connections defined in corresponding
PipelineTaskConnections
class. The values of these attributes are thelsst.daf.butler.DatasetRef
objects associated with the defined input/prerequisite connections.- outputRefs
OutputQuantizedConnection
Datastructure whose attribute names are the names that identify connections defined in corresponding
PipelineTaskConnections
class. The values of these attributes are thelsst.daf.butler.DatasetRef
objects associated with the defined output connections.
- butlerQC
- setBrightObjectMasks(exposure, brightObjectMasks, dataId=None)¶
Set the bright object masks.
- Parameters:
- exposure
lsst.afw.image.Exposure
Exposure under consideration.
- brightObjectMasks
lsst.afw.table
Table of bright objects to mask.
- dataId
lsst.daf.butler.DataId
, optional Data identifier dict for patch.
- 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.
- statsCtrl
- Returns:
- 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