LSSTApplications  11.0-13-gbb96280,12.1+18,12.1+7,12.1-1-g14f38d3+72,12.1-1-g16c0db7+5,12.1-1-g5961e7a+84,12.1-1-ge22e12b+23,12.1-11-g06625e2+4,12.1-11-g0d7f63b+4,12.1-19-gd507bfc,12.1-2-g7dda0ab+38,12.1-2-gc0bc6ab+81,12.1-21-g6ffe579+2,12.1-21-gbdb6c2a+4,12.1-24-g941c398+5,12.1-3-g57f6835+7,12.1-3-gf0736f3,12.1-37-g3ddd237,12.1-4-gf46015e+5,12.1-5-g06c326c+20,12.1-5-g648ee80+3,12.1-5-gc2189d7+4,12.1-6-ga608fc0+1,12.1-7-g3349e2a+5,12.1-7-gfd75620+9,12.1-9-g577b946+5,12.1-9-gc4df26a+10
LSSTDataManagementBasePackage
estimateBackground.py
1 #!/usr/bin/env python
2 
3 #
4 # LSST Data Management System
5 # Copyright 2008, 2009, 2010 LSST Corporation.
6 #
7 # This product includes software developed by the
8 # LSST Project (http://www.lsst.org/).
9 #
10 # This program is free software: you can redistribute it and/or modify
11 # it under the terms of the GNU General Public License as published by
12 # the Free Software Foundation, either version 3 of the License, or
13 # (at your option) any later version.
14 #
15 # This program is distributed in the hope that it will be useful,
16 # but WITHOUT ANY WARRANTY; without even the implied warranty of
17 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 # GNU General Public License for more details.
19 #
20 # You should have received a copy of the LSST License Statement and
21 # the GNU General Public License along with this program. If not,
22 # see <http://www.lsstcorp.org/LegalNotices/>.
23 #
24 
25 from __future__ import division
26 import os
27 import lsst.utils
28 import lsst.afw.image as afwImage
29 import lsst.afw.math as afwMath
30 import lsst.afw.display.ds9 as ds9
31 
32 try:
33  display
34 except NameError:
35  display = not False
36 
37 ################################################
38 
39 def getImage():
40  imagePath = os.path.join(lsst.utils.getPackageDir("afwdata"),
41  "DC3a-Sim", "sci", "v5-e0", "v5-e0-c011-a00.sci_img.fits")
42  return afwImage.MaskedImageF(imagePath)
43 
44 def simpleBackground(image):
45  binsize = 128
46  nx = int(image.getWidth()/binsize) + 1
47  ny = int(image.getHeight()/binsize) + 1
48  bctrl = afwMath.BackgroundControl(nx, ny)
49 
50  bkgd = afwMath.makeBackground(image, bctrl)
51 
52  statsImage = afwMath.cast_BackgroundMI(bkgd).getStatsImage()
53 
54  image -= bkgd.getImageF(afwMath.Interpolate.NATURAL_SPLINE)
55 
56  return bkgd
57 
58 def complexBackground(image):
59  binsize = 128
60  nx = int(image.getWidth()/binsize) + 1
61  ny = int(image.getHeight()/binsize) + 1
62 
63  sctrl = afwMath.StatisticsControl()
64  sctrl.setNumSigmaClip(3)
65  sctrl.setNumIter(4)
66  sctrl.setAndMask(afwImage.MaskU.getPlaneBitMask(["INTRP", "EDGE"]))
67  sctrl.setNoGoodPixelsMask(afwImage.MaskU.getPlaneBitMask("BAD"))
68  sctrl.setNanSafe(True)
69  if False:
70  sctrl.setWeighted(True)
71  sctrl.setCalcErrorFromInputVariance(True)
72 
73  bctrl = afwMath.BackgroundControl(nx, ny, sctrl, afwMath.MEANCLIP)
74 
75  bkgd = afwMath.makeBackground(image, bctrl)
76 
77  statsImage = afwMath.cast_BackgroundMI(bkgd).getStatsImage()
78  ds9.mtv(statsImage.getVariance())
79 
80  bkdgImages = dict(SPLINE = bkgd.getImageF(afwMath.Interpolate.NATURAL_SPLINE),
81  LINEAR = bkgd.getImageF(afwMath.Interpolate.LINEAR))
82 
83  return bkgd
84 
85 def main():
86  image = getImage()
87 
88  if display:
89  ds9.mtv(image, frame=0)
90 
91  bkgd = simpleBackground(image)
92  image = getImage()
93  bkgd = complexBackground(image)
94 
95  if display:
96  ds9.mtv(image, frame=1)
97  ds9.mtv(afwMath.cast_BackgroundMI(bkgd).getStatsImage(), frame=2)
98 
99  order = 2
100  actrl = afwMath.ApproximateControl(afwMath.ApproximateControl.CHEBYSHEV, order, order)
101  approx = bkgd.getApproximate(actrl)
102 
103  approx.getImage()
104  approx.getMaskedImage()
105  approx.getImage(order - 1)
106 
107 #################################################
108 if __name__ == '__main__':
109  main()
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