LSST Applications g0b6bd0c080+a72a5dd7e6,g1182afd7b4+2a019aa3bb,g17e5ecfddb+2b8207f7de,g1d67935e3f+06cf436103,g38293774b4+ac198e9f13,g396055baef+6a2097e274,g3b44f30a73+6611e0205b,g480783c3b1+98f8679e14,g48ccf36440+89c08d0516,g4b93dc025c+98f8679e14,g5c4744a4d9+a302e8c7f0,g613e996a0d+e1c447f2e0,g6c8d09e9e7+25247a063c,g7271f0639c+98f8679e14,g7a9cd813b8+124095ede6,g9d27549199+a302e8c7f0,ga1cf026fa3+ac198e9f13,ga32aa97882+7403ac30ac,ga786bb30fb+7a139211af,gaa63f70f4e+9994eb9896,gabf319e997+ade567573c,gba47b54d5d+94dc90c3ea,gbec6a3398f+06cf436103,gc6308e37c7+07dd123edb,gc655b1545f+ade567573c,gcc9029db3c+ab229f5caf,gd01420fc67+06cf436103,gd877ba84e5+06cf436103,gdb4cecd868+6f279b5b48,ge2d134c3d5+cc4dbb2e3f,ge448b5faa6+86d1ceac1d,gecc7e12556+98f8679e14,gf3ee170dca+25247a063c,gf4ac96e456+ade567573c,gf9f5ea5b4d+ac198e9f13,gff490e6085+8c2580be5c,w.2022.27
LSST Data Management Base Package
verifyWcs.py
Go to the documentation of this file.
2# LSST Data Management System
3# Copyright 2008, 2009, 2010 LSST Corporation.
4#
5# This product includes software developed by the
6# LSST Project (http://www.lsst.org/).
7#
8# This program is free software: you can redistribute it and/or modify
9# it under the terms of the GNU General Public License as published by
10# the Free Software Foundation, either version 3 of the License, or
11# (at your option) any later version.
12#
13# This program is distributed in the hope that it will be useful,
14# but WITHOUT ANY WARRANTY; without even the implied warranty of
15# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16# GNU General Public License for more details.
17#
18# You should have received a copy of the LSST License Statement and
19# the GNU General Public License along with this program. If not,
20# see <http://www.lsstcorp.org/LegalNotices/>.
21#
22
23__all__ = ["checkMatches"]
24
25
26import numpy as np
27import logging
28
29import lsst.geom
30import lsst.afw.detection as afwDetection
31import lsst.afw.math as afwMath
32import lsst.meas.algorithms as measAlg
33
34_LOG = logging.getLogger(__name__)
35
36
37def checkMatches(srcMatchSet, exposure, log=None):
38 """Check astrometric matches and assess Wcs quality by computing statics
39 over spacial cells in the image.
40
41 Parameters
42 ----------
43 srcMatchSet : `list` of `lsst.afw.table.ReferenceMatch`
44 List of matched sources to a reference catalog.
45 exposure : `lsst.afw.image.Exposure`
46 Image the sources in srcMatchSet were detected/measured in.
47 log : `lsst.log.Log` or `logging.Logger`
48 Logger object.
49
50 Returns
51 -------
52 values : `dict`
53 Result dictionary with fields:
54
55 - ``minObjectsPerCell`` : (`int`)
56 - ``maxObjectsPerCell`` : (`int`)
57 - ``meanObjectsPerCell`` : (`float`)
58 - ``stdObjectsPerCell`` : (`float`)
59 """
60 if not exposure:
61 return {}
62
63 if log is None:
64 log = _LOG
65
66 im = exposure.getMaskedImage().getImage()
67 width, height = im.getWidth(), im.getHeight()
68 nx, ny = 3, 3
69 w, h = width//nx, height//ny
70
71 if w == 0:
72 w = 1
73 while nx*w < width:
74 w += 1
75
76 if h == 0:
77 h = 1
78 while ny*h < height:
79 h += 1
80
81 cellSet = afwMath.SpatialCellSet(
82 lsst.geom.Box2I(lsst.geom.Point2I(0, 0), lsst.geom.Extent2I(width, height)), w, h)
83 #
84 # Populate cellSet
85 #
86 i = -1
87 for m in srcMatchSet:
88 i += 1
89
90 src = m.second
91 csrc = afwDetection.Source()
92 csrc.setId(i)
93 csrc.setXAstrom(src.getXAstrom())
94 csrc.setYAstrom(src.getYAstrom())
95
96 try:
97 cellSet.insertCandidate(measAlg.PsfCandidateF(csrc, exposure.getMaskedImage()))
98 except Exception as e:
99 log.warning("%s", e)
100
101 ncell = len(cellSet.getCellList())
102 nobj = np.ndarray(ncell, dtype='i')
103
104 for i in range(ncell):
105 cell = cellSet.getCellList()[i]
106
107 nobj[i] = cell.size()
108
109 dx = np.ndarray(cell.size())
110 dy = np.ndarray(cell.size())
111
112 j = 0
113 for cand in cell:
114 #
115 # Swig doesn't know that we're a SpatialCellImageCandidate; all it knows is that we have
116 # a SpatialCellCandidate so we need an explicit (dynamic) cast
117 #
118 mid = cand.getSource().getId()
119 dx[j] = srcMatchSet[mid].first.getXAstrom() - srcMatchSet[mid].second.getXAstrom()
120 dy[j] = srcMatchSet[mid].first.getYAstrom() - srcMatchSet[mid].second.getYAstrom()
121
122 j += 1
123
124 log.debug("%s %-30s %8s dx,dy = %5.2f,%5.2f rms_x,y = %5.2f,%5.2f",
125 cell.getLabel(), cell.getBBox(), ("nobj=%d" % cell.size()),
126 dx.mean(), dy.mean(), dx.std(), dy.std())
127
128 nobj.sort()
129
130 values = {}
131 values["minObjectsPerCell"] = int(nobj[0]) # otherwise it's a numpy integral type
132 values["maxObjectsPerCell"] = int(nobj[-1])
133 values["meanObjectsPerCell"] = nobj.mean()
134 values["stdObjectsPerCell"] = nobj.std()
135
136 return values
A class to contain the data, WCS, and other information needed to describe an image of the sky.
Definition: Exposure.h:72
A collection of SpatialCells covering an entire image.
Definition: SpatialCell.h:383
An integer coordinate rectangle.
Definition: Box.h:55
This static class includes a variety of methods for interacting with the the logging module.
Definition: Log.h:724
Fit spatial kernel using approximate fluxes for candidates, and solving a linear system of equations.
def checkMatches(srcMatchSet, exposure, log=None)
Definition: verifyWcs.py:37
Lightweight representation of a geometric match between two records.
Definition: Match.h:67