def run(self, exposure, background):
self.log.info("Adding fake galaxies at real positions")
PARENT = lsst.afw.image.PARENT
psf = exposure.getPsf()
md = exposure.getMetadata()
calib = exposure.getCalib()
expBBox = exposure.getBBox(PARENT)
wcs = exposure.getWcs()
skyToPixelMatrix = (wcs.getLinearTransform().invert().getMatrix() /
3600.0)
"""Deal with the skipped ones."""
skipLog = 'runAddFake.skipped'
if not os.path.isfile(skipLog):
os.system('touch ' + skipLog)
if self.config.galType is 'cosmos':
import galsim
exLevel = self.config.exclusionLevel
cosmosCat = galsim.COSMOSCatalog(exclusion_level=exLevel)
else:
cosmosCat = None
for igal, gal in enumerate(self.galData):
try:
galident = gal["ID"]
except KeyError:
galident = igal + 1
try:
flux = calib.getFlux(float(gal['mag']))
except KeyError:
raise KeyError("No mag column in %s" % self.config.galList)
try:
coordAdd = lsst.afw.geom.Point2D(gal['RA'], gal['DEC'])
galCoord = lsst.afw.coord.Coord(coordAdd)
except KeyError:
raise("No RA/DEC column in %s table" % self.config.galList)
galXY = wcs.skyToPixel(galCoord)
bboxI = exposure.getBBox(PARENT)
bboxI.grow(self.config.maxMargin)
if not bboxI.contains(lsst.afw.geom.Point2I(galXY)):
# Will just skip this object
continue
# Check the magnitude
if gal['mag'] <= 0:
self.log.info("Mag <= 0: Skipping %d" % galident)
self.log.info(" mag: %7.3d" % gal['mag'])
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , negMag\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
# This is extrapolating for the PSF, probably not a good idea
# Return an Image of the PSF, in a form suitable for convolution.
# The returned image is normalized to sum to unity.
psfImage = psf.computeKernelImage(galXY)
try:
addShear = self.config.addShear
prec = self.config.sersic_prec
galType = self.config.galType
if self.config.galType is not 'cosmos':
galArray = makeFake.makeGalaxy(flux, gal,
psfImage.getArray(),
galType=galType,
cosmosCat=None,
calib=None,
addShear=addShear,
transform=skyToPixelMatrix)
else:
galArray = makeFake.makeGalaxy(flux, gal,
psfImage.getArray(),
cosmosCat=cosmosCat,
calib=calib,
galType=galType,
addShear=addShear,
sersic_prec=prec,
transform=skyToPixelMatrix)
except IndexError as ierr:
self.log.info("GalSim Index Error: Skipping %d" % galident)
self.log.info(ierr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimI\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except KeyError as kerr:
self.log.info("GalSim Key Error: Skipping %d" % galident)
self.log.info(kerr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimK\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except ValueError as verr:
self.log.info("GalSim Value Error: Skipping %d" % galident)
self.log.info(verr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimV\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except RuntimeError as rerr:
self.log.info("GalSim Runtime Error: Skipping %d" % galident)
self.log.info(rerr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimR\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except Exception as uerr:
self.log.info("Unexpected Error: Skipping %d" % galident)
self.log.info(uerr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , Unexpected\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
galImage = lsst.afw.image.ImageF(galArray.astype(np.float32))
galBBox = galImage.getBBox(PARENT)
galX0 = (galXY.getX() - galBBox.getWidth()/2.0 + 0.5)
galY0 = (galXY.getY() - galBBox.getHeight()/2.0 + 0.5)
galImage = lsst.afw.math.offsetImage(galImage,
galX0, galY0,
'lanczos3')
galBBox = galImage.getBBox(PARENT)
# Check that we're within the larger exposure, otherwise crop
parentBox = galImage.getBBox(PARENT)
if expBBox.contains(parentBox) is False:
newBBox = galImage.getBBox(PARENT)
newBBox.clip(expBBox)
if newBBox.getArea() <= 0:
self.log.info("BBoxEdge Error: Skipping %d" % galident)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , bboxEdge\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
self.log.info("Cropping FAKE%d from %s to %s" % (galident,
str(galBBox), str(newBBox)))
galImage = galImage.Factory(galImage, newBBox,
PARENT)
galBBox = newBBox
# Add Noise: Optional?
galMaskedImage = fsl.addNoise(galImage, exposure.getDetector(),
rand_gen=self.npRand)
# Put information of the added fake galaxies into the header
md.set("FAKE%s" % str(galident), "%.3f, %.3f" % (galXY.getX(),
galXY.getY()))
self.log.info("Adding fake %s at: %.1f,%.1f" % (str(galident),
galXY.getX(),
galXY.getY()))
galMaskedImage.getMask().set(self.bitmask)
try:
galMaskedImage.getMask().removeAndClearMaskPlane('FAKE',
True)
except Exception:
pass
try:
galMaskedImage.getMask().removeAndClearMaskPlane('CROSSTALK',
True)
except Exception:
pass
try:
galMaskedImage.getMask().removeAndClearMaskPlane('UNMASKEDNAN',
True)
except Exception:
pass
maskedImage = exposure.getMaskedImage()
try:
maskedImage.getMask().removeAndClearMaskPlane('CROSSTALK',
True)
except Exception:
pass
try:
maskedImage.getMask().removeAndClearMaskPlane('UNMASKEDNAN',
True)
except Exception:
pass
try:
maskedImage.getMask().removeAndClearMaskPlane('FAKE', True)
except Exception:
pass
BBox = galMaskedImage.getBBox(PARENT)
subMaskedImage = maskedImage.Factory(exposure.getMaskedImage(),
BBox,
PARENT)
subMaskedImage += galMaskedImage
"""
def run(self, exposure, background):
self.log.info("Adding fake random galaxies")
psf = exposure.getPsf()
psfBBox = psf.computeImage().getBBox()
minMargin = max(psfBBox.getWidth(), psfBBox.getHeight()) / 2 + 1
md = exposure.getMetadata()
expBBox = exposure.getBBox()
scalingMatrix = np.array([[0.0, 1.0], [1.0, 0.0]]) / exposure.getWcs().pixelScale().asArcseconds()
if self.config.nGal == 0:
doGal = enumerate(self.galData)
else:
inds = self.npRand.choice(range(len(self.galData)), size=self.config.nGal, replace=False)
doGal = zip(inds, self.galData[inds])
for igal, gal in doGal:
try:
galident = gal["ID"]
except KeyError:
galident = igal + 1
try:
flux = exposure.getCalib().getFlux(float(gal["mag"]))
except KeyError:
raise KeyError("No mag column in %s table" % self.config.galList)
# don't put the galaxy within one PSF box of the edge
# or within the given pixel margin
if self.config.margin is not None:
margin = self.config.margin
else:
margin = minMargin
bboxI = exposure.getBBox(lsst.afw.image.PARENT)
bboxI.grow(-margin)
bboxD = lsst.afw.geom.BoxD(bboxI)
x = self.rng.flat(bboxD.getMinX(), bboxD.getMaxX())
y = self.rng.flat(bboxD.getMinY(), bboxD.getMaxY())
# TODO: check for overlaps here and regenerate x,y if necessary
psfImage = psf.computeKernelImage(lsst.afw.geom.Point2D(x, y))
galArray = makeFake.makeGalaxy(flux, gal, psfImage.getArray(), self.config.galType, transform=scalingMatrix)
galImage = lsst.afw.image.ImageF(galArray.astype(np.float32))
galBBox = galImage.getBBox(lsst.afw.image.PARENT)
galImage = lsst.afw.math.offsetImage(
galImage, x - galBBox.getWidth() / 2.0 + 0.5, y - galBBox.getHeight() / 2.0 + 0.5, "lanczos3"
)
galBBox = galImage.getBBox(lsst.afw.image.PARENT)
# check that we're within the larger exposure, otherwise crop
if expBBox.contains(galImage.getBBox(lsst.afw.image.PARENT)) is False:
newBBox = galImage.getBBox(lsst.afw.image.PARENT)
newBBox.clip(expBBox)
self.log.info("Cropping FAKE%d from %s to %s" % (galident, str(galBBox), str(newBBox)))
galImage = galImage.Factory(galImage, newBBox, lsst.afw.image.PARENT)
galBBox = newBBox
galMaskedImage = fsl.addNoise(galImage, exposure.getDetector(), rand_gen=self.npRand)
mask = galMaskedImage.getMask()
mask.set(self.bitmask)
md.set("FAKE%d" % gal["ID"], "%.3f, %.3f" % (x, y))
self.log.info("Adding fake at: %.1f,%.1f" % (x, y))
# TODO: set the mask
galMaskedImage.getMask().set(self.bitmask)
subMaskedImage = exposure.getMaskedImage().Factory(
exposure.getMaskedImage(), galMaskedImage.getBBox(lsst.afw.image.PARENT), lsst.afw.image.PARENT
)
subMaskedImage += galMaskedImage
def run(self, exposure, background):
self.log.info("Adding fake galaxies at real positions")
psf = exposure.getPsf()
md = exposure.getMetadata()
expBBox = exposure.getBBox(lsst.afw.image.PARENT)
wcs = exposure.getWcs()
skyToPixelMatrix = wcs.getLinearTransform().invert().getMatrix() / 3600.0
""" Deal with the skipped ones """
skipLog = 'runAddFake.skipped'
if not os.path.isfile(skipLog):
dum = os.system('touch ' + skipLog)
measCat = self.makeCatalog()
for igal, gal in enumerate(self.galData):
try:
galident = gal["ID"]
except KeyError:
galident = igal + 1
try:
flux = exposure.getCalib().getFlux(float(gal['mag']))
except KeyError:
raise KeyError("No mag column in %s table"%self.config.galList)
try:
galCoord = lsst.afw.coord.Coord(lsst.afw.geom.Point2D(gal['RA'], gal['DEC']))
except KeyError:
raise("No RA/DEC column in %s table"%self.config.galList)
galXY = wcs.skyToPixel(galCoord)
bboxI = exposure.getBBox(lsst.afw.image.PARENT)
bboxI.grow(self.config.maxMargin)
if not bboxI.contains(lsst.afw.geom.Point2I(galXY)):
#self.log.info("Not Useful: Skipping fake %d" % galident)
continue
#this is extrapolating for the PSF, probably not a good idea
psfImage = psf.computeKernelImage(galXY)
try:
galArray = makeFake.makeGalaxy(flux, gal, psfImage.getArray(),
self.config.galType,
transform = skyToPixelMatrix,
addShear=self.config.addShear)
except KeyError as kerr:
self.log.info("GalSim Key Error: Skipping fake %d"%galident)
self.log.info(" Mag, nSer, Reff, b/a: %5.2f, %5.2f, %6.2f, %4.1f"%(
gal['mag'], gal['sersic_n'], gal['reff'], gal['b_a']))
self.log.info(kerr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimK\n"%galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except ValueError as verr:
self.log.info("GalSim Value Error: Skipping fake %d"%galident)
self.log.info(" Mag, nSer, Reff, b/a: %5.2f, %5.2f, %6.2f, %4.1f"%(
gal['mag'], gal['sersic_n'], gal['reff'], gal['b_a']))
self.log.info(verr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimV\n"%galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except RuntimeError as rerr:
self.log.info("GalSim Runtime Error: Skipping fake %d"%galident)
self.log.info(" Mag, nSer, Reff, b/a: %5.2f, %5.2f, %6.2f, %4.1f"%(
gal['mag'], gal['sersic_n'], gal['reff'], gal['b_a']))
self.log.info(rerr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimR\n"%galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
galImage = lsst.afw.image.ImageF(galArray.astype(np.float32))
galBBox = galImage.getBBox(lsst.afw.image.PARENT)
galImage = lsst.afw.math.offsetImage(galImage,
galXY.getX() - galBBox.getWidth()/2.0 + 0.5,
galXY.getY() - galBBox.getHeight()/2.0 + 0.5,
'lanczos3')
galBBox = galImage.getBBox(lsst.afw.image.PARENT)
#check that we're within the larger exposure, otherwise crop
if expBBox.contains(galImage.getBBox(lsst.afw.image.PARENT)) is False:
newBBox = galImage.getBBox(lsst.afw.image.PARENT)
newBBox.clip(expBBox)
if newBBox.getArea() <= 0:
self.log.info("BBoxEdge Error: Skipping fake %d"%galident)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , bboxEdge\n"%galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
self.log.info("Cropping FAKE%d from %s to %s"%(galident, str(galBBox), str(newBBox)))
galImage = galImage.Factory(galImage, newBBox, lsst.afw.image.PARENT)
galBBox = newBBox
self.measureFake(exposure, galImage, galXY, measCat)
galMaskedImage = fsl.addNoise(galImage, exposure.getDetector(),
rand_gen=self.npRand)
# Put information of the added fake galaxies into the header
md.set("FAKE%s" % str(galident), "%.3f, %.3f" % (galXY.getX(), galXY.getY()))
self.log.info("Adding fake %s at: %.1f,%.1f"% (str(galident), galXY.getX(), galXY.getY()))
galMaskedImage.getMask().set(self.bitmask)
subMaskedImage = exposure.getMaskedImage().Factory(exposure.getMaskedImage(),
galMaskedImage.getBBox(lsst.afw.image.PARENT),
lsst.afw.image.PARENT)
subMaskedImage += galMaskedImage
self.measureParents(exposure, measCat)
return measCat
def run(self, exposure, sources, background):
self.log.info("Adding fake random galaxies")
psf = exposure.getPsf()
psfBBox = psf.computeImage().getBBox()
minMargin = max(psfBBox.getWidth(), psfBBox.getHeight())/2 + 1
md = exposure.getMetadata()
expBBox = exposure.getBBox()
for igal, gal in enumerate(self.galData):
try:
galident = gal["ID"]
except KeyError:
galident = igal + 1
try:
flux = exposure.getCalib().getFlux(float(gal['mag']))
except KeyError:
raise KeyError("No mag column in %s table"%self.config.galList)
#don't put the galaxy within one PSF box of the edge
#or within the given pixel margin
if self.config.margin is not None:
margin = self.config.margin
else:
margin = minMargin
bboxI = (exposure.getBBox(lsst.afw.image.PARENT))
bboxI.grow(-margin)
bboxD = lsst.afw.geom.BoxD(bboxI)
x = self.rng.flat(bboxD.getMinX(), bboxD.getMaxX())
y = self.rng.flat(bboxD.getMinY(), bboxD.getMaxY())
#TODO: check for overlaps here and regenerate x,y if necessary
psfImage = psf.computeKernelImage(lsst.afw.geom.Point2D(x, y))
galArray = makeFake.makeGalaxy(flux, gal, psfImage.getArray(),
self.config.galType )
galImage = lsst.afw.image.ImageF(galArray.astype(np.float32))
galBBox = galImage.getBBox(lsst.afw.image.PARENT)
galImage = lsst.afw.math.offsetImage(galImage,
x - galBBox.getWidth()/2.0 + 0.5,
y - galBBox.getHeight()/2.0 + 0.5,
'lanczos3')
galBBox = galImage.getBBox(lsst.afw.image.PARENT)
#check that we're within the larger exposure, otherwise crop
if expBBox.contains(galImage.getBBox(lsst.afw.image.PARENT)) is False:
newBBox = galImage.getBBox(lsst.afw.image.PARENT)
newBBox.clip(expBBox)
self.log.info("Cropping FAKE%d from %s to %s"%(galident, str(galBBox), str(newBBox)))
galImage = galImage.Factory(galImage, newBBox, lsst.afw.image.PARENT)
galBBox = newBBox
detector = exposure.getDetector()
ccd = lsst.afw.cameraGeom.cast_Ccd(detector)
amp = ccd.findAmp(lsst.afw.geom.Point2I(int(x), int(y)))
gain = amp.getElectronicParams().getGain()
#TODO: this is gaussian noise right now, probably good enough
varImage = lsst.afw.image.ImageF(galImage, True)
varImage /= gain
noiseArray = self.npRand.normal(loc=0.0,
scale=np.sqrt(np.abs(varImage.getArray())),
size=(galBBox.getHeight(),
galBBox.getWidth()))
noiseImage = lsst.afw.image.ImageF(noiseArray.astype(np.float32))
galImage += noiseImage
md.set("FAKE%d" % gal['ID'], "%.3f, %.3f" % (x, y))
self.log.info("Adding fake at: %.1f,%.1f"% (x, y))
galMaskedImage = lsst.afw.image.MaskedImageF(galImage, None, varImage)
#TODO: set the mask
galMaskedImage.getMask().set(self.bitmask)
subMaskedImage = exposure.getMaskedImage().Factory(exposure.getMaskedImage(),
galMaskedImage.getBBox(lsst.afw.image.PARENT),
lsst.afw.image.PARENT)
subMaskedImage += galMaskedImage
def run(self, exposure, background):
self.log.info("Adding fake galaxies at real positions")
PARENT = lsst.afw.image.PARENT
psf = exposure.getPsf()
md = exposure.getMetadata()
calib = exposure.getCalib()
expBBox = exposure.getBBox(PARENT)
wcs = exposure.getWcs()
skyToPixelMatrix = (wcs.getLinearTransform().invert().getMatrix() /
3600.0)
"""Deal with the skipped ones."""
skipLog = 'runAddFake.skipped'
if not os.path.isfile(skipLog):
os.system('touch ' + skipLog)
if self.config.galType is 'cosmos':
import galsim
exLevel = self.config.exclusionLevel
cosmosCat = galsim.COSMOSCatalog(exclusion_level=exLevel)
else:
cosmosCat = None
for igal, gal in enumerate(self.galData):
try:
galident = gal["ID"]
except KeyError:
galident = igal + 1
try:
flux = calib.getFlux(float(gal['mag']))
except KeyError:
raise KeyError("No mag column in %s" % self.config.galList)
try:
coordAdd = lsst.afw.geom.Point2D(gal['RA'], gal['DEC'])
galCoord = lsst.afw.coord.Coord(coordAdd)
except KeyError:
raise("No RA/DEC column in %s table" % self.config.galList)
galXY = wcs.skyToPixel(galCoord)
bboxI = exposure.getBBox(PARENT)
bboxI.grow(self.config.maxMargin)
if not bboxI.contains(lsst.afw.geom.Point2I(galXY)):
# Will just skip this object
continue
# Check the magnitude
if gal['mag'] <= 0:
self.log.info("Mag <= 0: Skipping %d" % galident)
self.log.info(" mag: %7.3d" % gal['mag'])
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , negMag\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
# This is extrapolating for the PSF, probably not a good idea
# Return an Image of the PSF, in a form suitable for convolution.
# The returned image is normalized to sum to unity.
psfImage = psf.computeKernelImage(galXY)
try:
addShear = self.config.addShear
prec = self.config.sersic_prec
galType = self.config.galType
if self.config.galType is not 'cosmos':
galArray = makeFake.makeGalaxy(flux, gal,
psfImage.getArray(),
galType=galType,
cosmosCat=None,
calib=None,
addShear=addShear,
transform=skyToPixelMatrix)
else:
galArray = makeFake.makeGalaxy(flux, gal,
psfImage.getArray(),
cosmosCat=cosmosCat,
calib=calib,
galType=galType,
addShear=addShear,
sersic_prec=prec,
transform=skyToPixelMatrix)
except IndexError as ierr:
self.log.info("GalSim Index Error: Skipping %d" % galident)
self.log.info(ierr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimI\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except KeyError as kerr:
self.log.info("GalSim Key Error: Skipping %d" % galident)
self.log.info(kerr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimK\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except ValueError as verr:
self.log.info("GalSim Value Error: Skipping %d" % galident)
self.log.info(verr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimV\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except RuntimeError as rerr:
self.log.info("GalSim Runtime Error: Skipping %d" % galident)
self.log.info(rerr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , galsimR\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
except Exception as uerr:
self.log.info("Unexpected Error: Skipping %d" % galident)
self.log.info(uerr.message)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , Unexpected\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
galImage = lsst.afw.image.ImageF(galArray.astype(np.float32))
galBBox = galImage.getBBox(PARENT)
galX0 = (galXY.getX() - galBBox.getWidth()/2.0 + 0.5)
galY0 = (galXY.getY() - galBBox.getHeight()/2.0 + 0.5)
galImage = lsst.afw.math.offsetImage(galImage,
galX0, galY0,
'lanczos3')
galBBox = galImage.getBBox(PARENT)
# Check that we're within the larger exposure, otherwise crop
parentBox = galImage.getBBox(PARENT)
if expBBox.contains(parentBox) is False:
newBBox = galImage.getBBox(PARENT)
newBBox.clip(expBBox)
if newBBox.getArea() <= 0:
self.log.info("BBoxEdge Error: Skipping %d" % galident)
with open(skipLog, "a") as slog:
try:
fcntl.flock(slog, fcntl.LOCK_EX)
slog.write("%8d , bboxEdge\n" % galident)
fcntl.flock(slog, fcntl.LOCK_UN)
except IOError:
continue
continue
self.log.info("Cropping FAKE%d from %s to %s" % (galident,
str(galBBox), str(newBBox)))
galImage = galImage.Factory(galImage, newBBox,
PARENT)
galBBox = newBBox
# Add Noise: Optional?
galMaskedImage = fsl.addNoise(galImage, exposure.getDetector(),
rand_gen=self.npRand)
# Put information of the added fake galaxies into the header
md.set("FAKE%s" % str(galident), "%.3f, %.3f" % (galXY.getX(),
galXY.getY()))
self.log.info("Adding fake %s at: %.1f,%.1f" % (str(galident),
galXY.getX(),
galXY.getY()))
# Set bit mask
galMaskedImage.getMask().set(self.bitmask)
maskedImage = exposure.getMaskedImage()
try:
maskedImage.getMask().removeAndClearMaskPlane('CROSSTALK', True)
except Exception:
pass
try:
maskedImage.getMask().removeAndClearMaskPlane('UNMASKEDNAN', True)
except Exception:
pass
try:
maskedImage.getMask().removeAndClearMaskPlane('FAKE', True)
except Exception:
pass
BBox = galMaskedImage.getBBox(PARENT)
subMaskedImage = maskedImage.Factory(exposure.getMaskedImage(),
BBox,
PARENT)
subMaskedImage += galMaskedImage
def run(self, exposure, background):
self.log.info("Adding fake random galaxies")
psf = exposure.getPsf()
psfBBox = psf.computeImage().getBBox()
minMargin = max(psfBBox.getWidth(), psfBBox.getHeight())/2 + 1
md = exposure.getMetadata()
expBBox = exposure.getBBox()
scalingMatrix = np.array([[0.0,1.0],[1.0,0.0]]) / exposure.getWcs().pixelScale().asArcseconds()
if self.config.nGal==0:
doGal = enumerate(self.galData)
else:
inds = self.npRand.choice(range(len(self.galData)), size=self.config.nGal, replace=False)
doGal = zip(inds, self.galData[inds])
for igal, gal in doGal:
try:
galident = gal["ID"]
except KeyError:
galident = igal + 1
try:
flux = exposure.getCalib().getFlux(float(gal['mag']))
except KeyError:
raise KeyError("No mag column in %s table"%self.config.galList)
#don't put the galaxy within one PSF box of the edge
#or within the given pixel margin
if self.config.margin is not None:
margin = self.config.margin
else:
margin = minMargin
bboxI = (exposure.getBBox(lsst.afw.image.PARENT))
bboxI.grow(-margin)
bboxD = lsst.afw.geom.BoxD(bboxI)
x = self.rng.flat(bboxD.getMinX(), bboxD.getMaxX())
y = self.rng.flat(bboxD.getMinY(), bboxD.getMaxY())
#TODO: check for overlaps here and regenerate x,y if necessary
psfImage = psf.computeKernelImage(lsst.afw.geom.Point2D(x, y))
galArray = makeFake.makeGalaxy( flux, gal, psfImage.getArray(), self.config.galType,
transform = scalingMatrix)
galImage = lsst.afw.image.ImageF(galArray.astype(np.float32))
galBBox = galImage.getBBox(lsst.afw.image.PARENT)
galImage = lsst.afw.math.offsetImage(galImage,
x - galBBox.getWidth()/2.0 + 0.5,
y - galBBox.getHeight()/2.0 + 0.5,
'lanczos3')
galBBox = galImage.getBBox(lsst.afw.image.PARENT)
#check that we're within the larger exposure, otherwise crop
if expBBox.contains(galImage.getBBox(lsst.afw.image.PARENT)) is False:
newBBox = galImage.getBBox(lsst.afw.image.PARENT)
newBBox.clip(expBBox)
self.log.info("Cropping FAKE%d from %s to %s"%(galident, str(galBBox), str(newBBox)))
galImage = galImage.Factory(galImage, newBBox, lsst.afw.image.PARENT)
galBBox = newBBox
galMaskedImage = fsl.addNoise(galImage, exposure.getDetector(), rand_gen=self.npRand)
mask = galMaskedImage.getMask()
mask.set(self.bitmask)
md.set("FAKE%d" % gal['ID'], "%.3f, %.3f" % (x, y))
self.log.info("Adding fake at: %.1f,%.1f"% (x, y))
#TODO: set the mask
galMaskedImage.getMask().set(self.bitmask)
subMaskedImage = exposure.getMaskedImage().Factory(exposure.getMaskedImage(),
galMaskedImage.getBBox(lsst.afw.image.PARENT),
lsst.afw.image.PARENT)
subMaskedImage += galMaskedImage
