CfhtIsrTask¶
-
class
lsst.obs.cfht.cfhtIsrTask.
CfhtIsrTask
(**kwargs)¶ Bases:
lsst.ip.isr.IsrTask
Attributes Summary
canMultiprocess
Methods Summary
convertIntToFloat
(exposure)Convert exposure image from uint16 to float. darkCorrection
(exposure, darkExposure[, invert])Apply dark correction in place. debugView
(exposure, stepname)Utility function to examine ISR exposure at different stages. doLinearize
(detector)Check if linearization is needed for the detector cameraGeom. emptyMetadata
()Empty (clear) the metadata for this Task and all sub-Tasks. ensureExposure
(inputExp[, camera, detectorNum])Ensure that the data returned by Butler is a fully constructed exp. flatContext
(exp, flat[, dark])Context manager that applies and removes flats and darks, if the task is configured to apply them. flatCorrection
(exposure, flatExposure[, invert])Apply flat correction in place. getAllSchemaCatalogs
()Get schema catalogs for all tasks in the hierarchy, combining the results into a single dict. 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. getResourceConfig
()Return resource configuration for this task. getSchemaCatalogs
()Get the schemas generated by this task. getTaskDict
()Get a dictionary of all tasks as a shallow copy. 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.maskAmplifier
(ccdExposure, amp, defects)Identify bad amplifiers, saturated and suspect pixels. maskAndInterpolateDefects
(exposure, …)Mask and interpolate defects using mask plane “BAD”, in place. maskAndInterpolateNan
(exposure)“Mask and interpolate NaN/infs using mask plane “UNMASKEDNAN”, in place. maskDefect
(exposure, defectBaseList)Mask defects using mask plane “BAD”, in place. maskEdges
(exposure[, numEdgePixels, …])Mask edge pixels with applicable mask plane. maskNan
(exposure)Mask NaNs using mask plane “UNMASKEDNAN”, in place. maskNegativeVariance
(exposure)Identify and mask pixels with negative variance values. measureBackground
(exposure[, IsrQaConfig])Measure the image background in subgrids, for quality control. overscanCorrection
(ccdExposure, amp)Apply overscan correction in place. roughZeroPoint
(exposure)Set an approximate magnitude zero point for the exposure. run
(ccdExposure[, bias, linearizer, dark, …])Perform instrument signature removal on an exposure runQuantum
(butlerQC, inputRefs, outputRefs)Method to do butler IO and or transforms to provide in memory objects for tasks run method saturationDetection
(exposure, amp)Detect and mask saturated pixels in config.saturatedMaskName. saturationInterpolation
(exposure)Interpolate over saturated pixels, in place. suspectDetection
(exposure, amp)Detect and mask suspect pixels in config.suspectMaskName. timer
(name, logLevel)Context manager to log performance data for an arbitrary block of code. updateVariance
(ampExposure, amp[, …])Set the variance plane using the gain and read noise Attributes Documentation
-
canMultiprocess
= True¶
Methods Documentation
-
convertIntToFloat
(exposure)¶ Convert exposure image from uint16 to float.
If the exposure does not need to be converted, the input is immediately returned. For exposures that are converted to use floating point pixels, the variance is set to unity and the mask to zero.
Parameters: - exposure :
lsst.afw.image.Exposure
The raw exposure to be converted.
Returns: - newexposure :
lsst.afw.image.Exposure
The input
exposure
, converted to floating point pixels.
Raises: - RuntimeError
Raised if the exposure type cannot be converted to float.
- exposure :
-
darkCorrection
(exposure, darkExposure, invert=False)¶ Apply dark correction in place.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
- darkExposure :
lsst.afw.image.Exposure
Dark exposure of the same size as
exposure
.- invert :
Bool
, optional If True, re-add the dark to an already corrected image.
Raises: - RuntimeError
Raised if either
exposure
ordarkExposure
do not have their dark time defined.
See also
lsst.ip.isr.isrFunctions.darkCorrection
- exposure :
-
debugView
(exposure, stepname)¶ Utility function to examine ISR exposure at different stages.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to view.
- stepname :
str
State of processing to view.
- exposure :
-
doLinearize
(detector)¶ Check if linearization is needed for the detector cameraGeom.
Checks config.doLinearize and the linearity type of the first amplifier.
Parameters: - detector :
lsst.afw.cameraGeom.Detector
Detector to get linearity type from.
Returns: - doLinearize :
Bool
If True, linearization should be performed.
- detector :
-
emptyMetadata
() → None¶ Empty (clear) the metadata for this Task and all sub-Tasks.
-
ensureExposure
(inputExp, camera=None, detectorNum=None)¶ Ensure that the data returned by Butler is a fully constructed exp.
ISR requires exposure-level image data for historical reasons, so if we did not recieve that from Butler, construct it from what we have, modifying the input in place.
Parameters: - inputExp :
lsst.afw.image
image-type. The input data structure obtained from Butler. Can be
lsst.afw.image.Exposure
,lsst.afw.image.DecoratedImageU
, orlsst.afw.image.ImageF
- camera :
lsst.afw.cameraGeom.camera
, optional The camera associated with the image. Used to find the appropriate detector if detector is not already set.
- detectorNum :
int
, optional The detector in the camera to attach, if the detector is not already set.
Returns: - inputExp :
lsst.afw.image.Exposure
The re-constructed exposure, with appropriate detector parameters.
Raises: - TypeError
Raised if the input data cannot be used to construct an exposure.
- inputExp :
-
flatContext
(exp, flat, dark=None)¶ Context manager that applies and removes flats and darks, if the task is configured to apply them.
Parameters: - exp :
lsst.afw.image.Exposure
Exposure to process.
- flat :
lsst.afw.image.Exposure
Flat exposure the same size as
exp
.- dark :
lsst.afw.image.Exposure
, optional Dark exposure the same size as
exp
.
Yields: - exp :
lsst.afw.image.Exposure
The flat and dark corrected exposure.
- exp :
-
flatCorrection
(exposure, flatExposure, invert=False)¶ Apply flat correction in place.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
- flatExposure :
lsst.afw.image.Exposure
Flat exposure of the same size as
exposure
.- invert :
Bool
, optional If True, unflatten an already flattened image.
See also
lsst.ip.isr.isrFunctions.flatCorrection
- exposure :
-
getAllSchemaCatalogs
() → Dict[str, Any]¶ 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 :
-
getFullMetadata
() → lsst.pipe.base._task_metadata.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.
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
() → 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
() → Optional[ResourceConfig]¶ Return resource configuration for this task.
Returns: - Object of type
ResourceConfig
orNone
if resource - configuration is not defined for this task.
- Object of type
-
getSchemaCatalogs
() → Dict[str, Any]¶ 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 implementation 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 :
-
getTaskDict
() → Dict[str, weakref]¶ 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 :
-
classmethod
makeField
(doc: str) → lsst.pex.config.configurableField.ConfigurableField¶ 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("brief description of task")
- doc :
-
makeSubtask
(name: str, **keyArgs) → 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”.
Notes
The subtask must be defined by
Task.config.name
, an instance ofConfigurableField
orRegistryField
.- name :
-
maskAmplifier
(ccdExposure, amp, defects)¶ Identify bad amplifiers, saturated and suspect pixels.
Parameters: - ccdExposure :
lsst.afw.image.Exposure
Input exposure to be masked.
- amp :
lsst.afw.cameraGeom.Amplifier
Catalog of parameters defining the amplifier on this exposure to mask.
- defects :
lsst.ip.isr.Defects
List of defects. Used to determine if the entire amplifier is bad.
Returns: - badAmp :
Bool
If this is true, the entire amplifier area is covered by defects and unusable.
- ccdExposure :
-
maskAndInterpolateDefects
(exposure, defectBaseList)¶ Mask and interpolate defects using mask plane “BAD”, in place.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
- defectBaseList : defects-like
List of defects to mask and interpolate. Can be
lsst.ip.isr.Defects
orlist
oflsst.afw.image.DefectBase
.
See also
lsst.ip.isr.isrTask.maskDefect
- exposure :
-
maskAndInterpolateNan
(exposure)¶ “Mask and interpolate NaN/infs using mask plane “UNMASKEDNAN”, in place.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
See also
lsst.ip.isr.isrTask.maskNan
- exposure :
-
maskDefect
(exposure, defectBaseList)¶ Mask defects using mask plane “BAD”, in place.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
- defectBaseList : defect-type
List of defects to mask. Can be of type
lsst.ip.isr.Defects
orlist
oflsst.afw.image.DefectBase
.
Notes
Call this after CCD assembly, since defects may cross amplifier boundaries.
- exposure :
-
maskEdges
(exposure, numEdgePixels=0, maskPlane='SUSPECT', level='DETECTOR')¶ Mask edge pixels with applicable mask plane.
Parameters:
-
maskNan
(exposure)¶ Mask NaNs using mask plane “UNMASKEDNAN”, in place.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
Notes
We mask over all non-finite values (NaN, inf), including those that are masked with other bits (because those may or may not be interpolated over later, and we want to remove all NaN/infs). Despite this behaviour, the “UNMASKEDNAN” mask plane is used to preserve the historical name.
- exposure :
-
maskNegativeVariance
(exposure)¶ Identify and mask pixels with negative variance values.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
See also
lsst.ip.isr.isrFunctions.updateVariance
- exposure :
-
measureBackground
(exposure, IsrQaConfig=None)¶ Measure the image background in subgrids, for quality control.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
- IsrQaConfig :
lsst.ip.isr.IsrQaConfig
Configuration object containing parameters on which background statistics and subgrids to use.
- exposure :
-
overscanCorrection
(ccdExposure, amp)¶ Apply overscan correction in place.
This method does initial pixel rejection of the overscan region. The overscan can also be optionally segmented to allow for discontinuous overscan responses to be fit separately. The actual overscan subtraction is performed by the
lsst.ip.isr.overscan.OverscanTask
, which is called here after the amplifier is preprocessed.Parameters: - ccdExposure :
lsst.afw.image.Exposure
Exposure to have overscan correction performed.
- amp :
lsst.afw.cameraGeom.Amplifer
The amplifier to consider while correcting the overscan.
Returns: - overscanResults :
lsst.pipe.base.Struct
Result struct with components:
imageFit
Value or fit subtracted from the amplifier image data. (scalar or
lsst.afw.image.Image
)overscanFit
Value or fit subtracted from the overscan image data. (scalar or
lsst.afw.image.Image
)overscanImage
Image of the overscan region with the overscan correction applied. This quantity is used to estimate the amplifier read noise empirically. (
lsst.afw.image.Image
)edgeMask
Mask of the suspect pixels. (
lsst.afw.image.Mask
)overscanMean
Median overscan fit value. (
float
)overscanSigma
Clipped standard deviation of the overscan after correction. (
float
)
Raises: - RuntimeError
Raised if the
amp
does not contain raw pixel information.
See also
lsst.ip.isr.overscan.OverscanTask
- ccdExposure :
-
roughZeroPoint
(exposure)¶ Set an approximate magnitude zero point for the exposure.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
- exposure :
-
run
(ccdExposure, bias=None, linearizer=None, dark=None, flat=None, defects=None, fringes=None, bfKernel=None, **kwds)¶ Perform instrument signature removal on an exposure
Steps include: - Detect saturation, apply overscan correction, bias, dark and flat - Perform CCD assembly - Interpolate over defects, saturated pixels and all NaNs - Persist the ISR-corrected exposure as “postISRCCD” if
config.doWrite is TrueParameters: - ccdExposure :
lsst.afw.image.Exposure
Detector data.
- bias :
lsst.afw.image.exposure
Exposure of bias frame.
- linearizer :
lsst.ip.isr.LinearizeBase
callable Linearizing functor; a subclass of lsst.ip.isr.LinearizeBase.
- dark :
lsst.afw.image.exposure
Exposure of dark frame.
- flat :
lsst.afw.image.exposure
Exposure of flatfield.
- defects :
list
list of detects
- fringes :
lsst.afw.image.Exposure
or listlsst.afw.image.Exposure
exposure of fringe frame or list of fringe exposure
- bfKernel : None
kernel used for brighter-fatter correction; currently unsupported
- **kwds :
dict
additional kwargs forwarded to IsrTask.run.
Returns: - struct :
lsst.pipe.base.Struct
with fields: - exposure: the exposure after application of ISR
- ccdExposure :
-
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 :
-
saturationDetection
(exposure, amp)¶ Detect and mask saturated pixels in config.saturatedMaskName.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process. Only the amplifier DataSec is processed.
- amp :
lsst.afw.cameraGeom.Amplifier
Amplifier detector data.
See also
lsst.ip.isr.isrFunctions.makeThresholdMask
- exposure :
-
saturationInterpolation
(exposure)¶ Interpolate over saturated pixels, in place.
This method should be called after
saturationDetection
, to ensure that the saturated pixels have been identified in the SAT mask. It should also be called afterassembleCcd
, since saturated regions may cross amplifier boundaries.Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process.
See also
lsst.ip.isr.isrTask.saturationDetection
lsst.ip.isr.isrFunctions.interpolateFromMask
- exposure :
-
suspectDetection
(exposure, amp)¶ Detect and mask suspect pixels in config.suspectMaskName.
Parameters: - exposure :
lsst.afw.image.Exposure
Exposure to process. Only the amplifier DataSec is processed.
- amp :
lsst.afw.cameraGeom.Amplifier
Amplifier detector data.
See also
lsst.ip.isr.isrFunctions.makeThresholdMask
Notes
Suspect pixels are pixels whose value is greater than amp.getSuspectLevel(). This is intended to indicate pixels that may be affected by unknown systematics; for example if non-linearity corrections above a certain level are unstable then that would be a useful value for suspectLevel. A value of
nan
indicates that no such level exists and no pixels are to be masked as suspicious.- exposure :
-
timer
(name: str, logLevel: int = 10) → Iterator[None]¶ Context manager to log performance data for an arbitrary block of code.
Parameters: See also
timer.logInfo
Examples
Creating a timer context:
with self.timer("someCodeToTime"): pass # code to time
-
updateVariance
(ampExposure, amp, overscanImage=None, ptcDataset=None)¶ Set the variance plane using the gain and read noise
The read noise is calculated from the
overscanImage
if thedoEmpiricalReadNoise
option is set in the configuration; otherwise the value from the amplifier data is used.Parameters: - ampExposure :
lsst.afw.image.Exposure
Exposure to process.
- amp :
lsst.afw.cameraGeom.Amplifier
orFakeAmp
Amplifier detector data.
- overscanImage :
lsst.afw.image.MaskedImage
, optional. Image of overscan, required only for empirical read noise.
- ptcDataset :
lsst.ip.isr.PhotonTransferCurveDataset
, optional PTC dataset containing the gains and read noise.
Raises: - RuntimeError
Raised if either
usePtcGains
ofusePtcReadNoise
areTrue
, but ptcDataset is not provided.Raised if
`doEmpiricalReadNoise
isTrue
butoverscanImage
isNone
.
See also
lsst.ip.isr.isrFunctions.updateVariance
- ampExposure :
-