astrometrySourceSelector.py

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#
# LSST Data Management System
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# Copyright 2008-2017  AURA/LSST.
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"""Select sources that are useful for astrometry.
 
Such sources have good signal-to-noise, are well centroided, not blended,
and not flagged with a handful of "bad" flags.
"""
 
__all__ = ["AstrometrySourceSelectorConfig", "AstrometrySourceSelectorTask"]
 
import numpy as np
 
import lsst.pex.config as pexConfig
from .sourceSelector import BaseSourceSelectorConfig, BaseSourceSelectorTask, sourceSelectorRegistry
from lsst.pipe.base import Struct
from functools import reduce
 
 
class AstrometrySourceSelectorConfig(BaseSourceSelectorConfig):
    badFlags = pexConfig.ListField(
        doc="List of flags which cause a source to be rejected as bad",
        dtype=str,
        default=[
            "base_PixelFlags_flag_edge",
            "base_PixelFlags_flag_interpolatedCenter",
            "base_PixelFlags_flag_saturatedCenter",
            "base_PixelFlags_flag_crCenter",
            "base_PixelFlags_flag_bad",
        ],
    )
    sourceFluxType = pexConfig.Field(
        doc="Type of source flux; typically one of Ap or Psf",
        dtype=str,
        default="Ap",
    )
    minSnr = pexConfig.Field(
        dtype=float,
        doc="Minimum allowed signal-to-noise ratio for sources used for matching "
        "(in the flux specified by sourceFluxType); <= 0 for no limit",
        default=10,
    )
 
 
@pexConfig.registerConfigurable("astrometry", sourceSelectorRegistry)
class AstrometrySourceSelectorTask(BaseSourceSelectorTask):
    """Select sources that are useful for astrometry.
 
    Good astrometry sources have high signal/noise, are non-blended, and
    did not have certain "bad" flags set during source extraction. They need not
    be PSF sources, just have reliable centroids.
    """
    ConfigClass = AstrometrySourceSelectorConfig
 
    def __init__(self, *args, **kwargs):
        BaseSourceSelectorTask.__init__(self, *args, **kwargs)
 
    def selectSources(self, sourceCat, matches=None, exposure=None):
        """Return a selection of sources that are useful for astrometry.
 
        Parameters:
        -----------
        sourceCat : `lsst.afw.table.SourceCatalog`
            Catalog of sources to select from.
            This catalog must be contiguous in memory.
        matches : `list` of `lsst.afw.table.ReferenceMatch` or None
            Ignored in this SourceSelector.
        exposure : `lsst.afw.image.Exposure` or None
            The exposure the catalog was built from; used for debug display.
 
        Return
        ------
        struct : `lsst.pipe.base.Struct`
            The struct contains the following data:
 
            - selected : `array` of `bool``
                Boolean array of sources that were selected, same length as
                sourceCat.
        """
        self._getSchemaKeys_getSchemaKeys(sourceCat.schema)
 
        bad = reduce(lambda x, y: np.logical_or(x, sourceCat.get(y)), self.config.badFlags, False)
        good = self._isGood_isGood(sourceCat)
        return Struct(selected=good & ~bad)
 
    def _getSchemaKeys(self, schema):
        """Extract and save the necessary keys from schema with asKey.
        """
        self.parentKeyparentKey = schema["parent"].asKey()
        self.nChildKeynChildKey = schema["deblend_nChild"].asKey()
        self.centroidXKeycentroidXKey = schema["slot_Centroid_x"].asKey()
        self.centroidYKeycentroidYKey = schema["slot_Centroid_y"].asKey()
        self.centroidXErrKeycentroidXErrKey = schema["slot_Centroid_xErr"].asKey()
        self.centroidYErrKeycentroidYErrKey = schema["slot_Centroid_yErr"].asKey()
        self.centroidFlagKeycentroidFlagKey = schema["slot_Centroid_flag"].asKey()
 
        self.edgeKeyedgeKey = schema["base_PixelFlags_flag_edge"].asKey()
        self.interpolatedCenterKeyinterpolatedCenterKey = schema["base_PixelFlags_flag_interpolatedCenter"].asKey()
        self.saturatedKeysaturatedKey = schema["base_PixelFlags_flag_saturated"].asKey()
 
        fluxPrefix = "slot_%sFlux_" % (self.config.sourceFluxType,)
        self.instFluxKeyinstFluxKey = schema[fluxPrefix + "instFlux"].asKey()
        self.fluxFlagKeyfluxFlagKey = schema[fluxPrefix + "flag"].asKey()
        self.instFluxErrKeyinstFluxErrKey = schema[fluxPrefix + "instFluxErr"].asKey()
 
    def _isMultiple(self, sourceCat):
        """Return True for each source that is likely multiple sources.
        """
        test = (sourceCat.get(self.parentKeyparentKey) != 0) | (sourceCat.get(self.nChildKeynChildKey) != 0)
        # have to currently manage footprints on a source-by-source basis.
        for i, cat in enumerate(sourceCat):
            footprint = cat.getFootprint()
            test[i] |= (footprint is not None) and (len(footprint.getPeaks()) > 1)
        return test
 
    def _hasCentroid(self, sourceCat):
        """Return True for each source that has a valid centroid
        """
        def checkNonfiniteCentroid():
            """Return True for sources with non-finite centroids.
            """
            return ~np.isfinite(sourceCat.get(self.centroidXKeycentroidXKey)) | \
                ~np.isfinite(sourceCat.get(self.centroidYKeycentroidYKey))
        assert ~checkNonfiniteCentroid().any(), \
            "Centroids not finite for %d unflagged sources." % (checkNonfiniteCentroid().sum())
        return np.isfinite(sourceCat.get(self.centroidXErrKeycentroidXErrKey)) \
            & np.isfinite(sourceCat.get(self.centroidYErrKeycentroidYErrKey)) \
            & ~sourceCat.get(self.centroidFlagKeycentroidFlagKey)
 
    def _goodSN(self, sourceCat):
        """Return True for each source that has Signal/Noise > config.minSnr.
        """
        if self.config.minSnr <= 0:
            return True
        else:
            with np.errstate(invalid="ignore"):  # suppress NAN warnings
                return sourceCat.get(self.instFluxKeyinstFluxKey)/sourceCat.get(self.instFluxErrKeyinstFluxErrKey) > self.config.minSnr
 
    def _isUsable(self, sourceCat):
        """Return True for each source that is usable for matching, even if it may
        have a poor centroid.
 
        For a source to be usable it must:
        - have a valid centroid
        - not be deblended
        - have a valid flux (of the type specified in this object's constructor)
        - have adequate signal-to-noise
        """
 
        return self._hasCentroid_hasCentroid(sourceCat) \
            & ~self._isMultiple_isMultiple(sourceCat) \
            & self._goodSN_goodSN(sourceCat) \
            & ~sourceCat.get(self.fluxFlagKeyfluxFlagKey)
 
    def _isGood(self, sourceCat):
        """Return True for each source that is usable for matching and likely has a
        good centroid.
 
        The additional tests for a good centroid, beyond isUsable, are:
        - not interpolated in the center
        - not saturated
        - not near the edge
        """
 
        return self._isUsable_isUsable(sourceCat) \
            & ~sourceCat.get(self.saturatedKeysaturatedKey) \
            & ~sourceCat.get(self.interpolatedCenterKeyinterpolatedCenterKey) \
            & ~sourceCat.get(self.edgeKeyedgeKey)
 
    def _isBadFlagged(self, source):
        """Return True if any of config.badFlags are set for this source.
        """
        return any(source.get(flag) for flag in self.config.badFlags)