LSST Applications 26.0.0,g0265f82a02+6660c170cc,g07994bdeae+30b05a742e,g0a0026dc87+17526d298f,g0a60f58ba1+17526d298f,g0e4bf8285c+96dd2c2ea9,g0ecae5effc+c266a536c8,g1e7d6db67d+6f7cb1f4bb,g26482f50c6+6346c0633c,g2bbee38e9b+6660c170cc,g2cc88a2952+0a4e78cd49,g3273194fdb+f6908454ef,g337abbeb29+6660c170cc,g337c41fc51+9a8f8f0815,g37c6e7c3d5+7bbafe9d37,g44018dc512+6660c170cc,g4a941329ef+4f7594a38e,g4c90b7bd52+5145c320d2,g58be5f913a+bea990ba40,g635b316a6c+8d6b3a3e56,g67924a670a+bfead8c487,g6ae5381d9b+81bc2a20b4,g93c4d6e787+26b17396bd,g98cecbdb62+ed2cb6d659,g98ffbb4407+81bc2a20b4,g9ddcbc5298+7f7571301f,ga1e77700b3+99e9273977,gae46bcf261+6660c170cc,gb2715bf1a1+17526d298f,gc86a011abf+17526d298f,gcf0d15dbbd+96dd2c2ea9,gdaeeff99f8+0d8dbea60f,gdb4ec4c597+6660c170cc,ge23793e450+96dd2c2ea9,gf041782ebf+171108ac67
LSST Data Management Base Package
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focalPlaneProjector.py
Go to the documentation of this file.
1# This file is part of fgcmcal.
2#
3# Developed for the LSST Data Management System.
4# This product includes software developed by the LSST Project
5# (https://www.lsst.org).
6# See the COPYRIGHT file at the top-level directory of this distribution
7# for details of code ownership.
8#
9# This program is free software: you can redistribute it and/or modify
10# it under the terms of the GNU General Public License as published by
11# the Free Software Foundation, either version 3 of the License, or
12# (at your option) any later version.
13#
14# This program is distributed in the hope that it will be useful,
15# but WITHOUT ANY WARRANTY; without even the implied warranty of
16# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17# GNU General Public License for more details.
18#
19# You should have received a copy of the GNU General Public License
20# along with this program. If not, see <https://www.gnu.org/licenses/>.
21"""A class to project the focal plane in arbitrary rotations for fgcm.
22
23This file contains a class used by fgcm ...
24"""
25from functools import lru_cache
26import warnings
27import numpy as np
28
29import lsst.afw.image as afwImage
30import lsst.afw.cameraGeom as afwCameraGeom
31import lsst.geom as geom
32from lsst.obs.base import createInitialSkyWcs
33
34__all__ = ['FocalPlaneProjector']
35
36
38 """
39 Class to project the focal plane onto the sky.
40
41 Parameters
42 ----------
44 Camera from the butler.
45 defaultOrientation : `int`
46 Default camera orientation in degrees. This angle is the position
47 angle of the focal plane +Y with respect to north.
48 """
49 def __init__(self, camera, defaultOrientation):
50 self.camera = camera
51
52 # Put the reference boresight at the equator to avoid cos(dec) problems.
53 self.boresight = geom.SpherePoint(180.0*geom.degrees, 0.0*geom.degrees)
54 self.flipX = False
55 self.defaultOrientation = int(defaultOrientation) % 360
56
57 def _makeWcsDict(self, orientation):
58 """
59 Make a dictionary of WCSs at the reference boresight position.
60
61 Parameters
62 ----------
63 orientation : `int`
64 Orientation in degrees. This angle is the position
65 angle of the focal plane +Y with respect to north.
66
67 Returns
68 -------
69 wcsDict : `dict`
70 Dictionary of WCS, with the detector id as the key.
71 """
72 _orientation = orientation*geom.degrees
73
74 visitInfo = afwImage.VisitInfo(boresightRaDec=self.boresight,
75 boresightRotAngle=_orientation,
76 rotType=afwImage.RotType.SKY)
77
78 wcsDict = {}
79
80 for detector in self.camera:
81 detectorId = detector.getId()
82 wcsDict[detectorId] = createInitialSkyWcs(visitInfo, detector, self.flipX)
83
84 return wcsDict
85
86 def __call__(self, orientation, nstep=100, use_cache=True):
87 """
88 Make a focal plane projection mapping for use with fgcm.
89
90 Parameters
91 ----------
92 orientation : `float` or `int`
93 Camera orientation in degrees. This angle is the position
94 angle of the focal plane +Y with respect to north.
95 nstep : `int`
96 Number of steps in x/y per detector for the mapping.
97 use_cache : `bool`, optional
98 Use integerized cached lookup.
99
100 Returns
101 -------
102 projectionMapping : `np.ndarray`
103 A projection mapping object with x, y, x_size, y_size,
104 delta_ra_cent, delta_dec_cent, delta_ra, delta_dec for
105 each detector id.
106 """
107 if not np.isfinite(orientation):
108 warnings.warn('Encountered non-finite orientation; using default.')
109 _orientation = self.defaultOrientation
110 else:
111 _orientation = orientation % 360
112
113 if use_cache:
114 _orientation = int(_orientation)
115
116 return self._compute_cached_projection(int(_orientation), nstep=nstep)
117 else:
118 return self._compute_projection(_orientation, nstep=nstep)
119
120 @lru_cache(maxsize=360)
121 def _compute_cached_projection(self, orientation, nstep=50):
122 """
123 Compute the focal plane projection, with caching.
124
125 Parameters
126 ----------
127 orientation : `int`
128 Camera orientation in degrees. This angle is the position
129 angle of the focal plane +Y with respect to north.
130 nstep : `int`
131 Number of steps in x/y per detector for the mapping.
132
133 Returns
134 -------
135 projectionMapping : `np.ndarray`
136 A projection mapping object with x, y, x_size, y_size,
137 delta_ra_cent, delta_dec_cent, delta_ra, delta_dec for
138 each detector id.
139 """
140 return self._compute_projection(orientation, nstep=nstep)
141
142 def _compute_projection(self, orientation, nstep=50):
143 """
144 Compute the focal plane projection.
145
146 Parameters
147 ----------
148 orientation : `float` or `int`
149 Camera orientation in degrees. This angle is the position
150 angle of the focal plane +Y with respect to north.
151 nstep : `int`
152 Number of steps in x/y per detector for the mapping.
153
154 Returns
155 -------
156 projectionMapping : `np.ndarray`
157 A projection mapping object with x, y, x_size, y_size,
158 delta_ra_cent, delta_dec_cent, delta_ra, delta_dec for
159 each detector id.
160 """
161 wcsDict = self._makeWcsDict(orientation)
162
163 # Need something for the max detector ...
164 deltaMapper = np.zeros(len(self.camera), dtype=[('id', 'i4'),
165 ('x', 'f8', nstep**2),
166 ('y', 'f8', nstep**2),
167 ('x_size', 'i4'),
168 ('y_size', 'i4'),
169 ('delta_ra_cent', 'f8'),
170 ('delta_dec_cent', 'f8'),
171 ('delta_ra', 'f8', nstep**2),
172 ('delta_dec', 'f8', nstep**2)])
173
174 for detector in self.camera:
175 detectorId = detector.getId()
176
177 deltaMapper['id'][detectorId] = detectorId
178
179 xSize = detector.getBBox().getMaxX()
180 ySize = detector.getBBox().getMaxY()
181
182 xValues = np.linspace(0.0, xSize, nstep)
183 yValues = np.linspace(0.0, ySize, nstep)
184
185 deltaMapper['x'][detectorId, :] = np.repeat(xValues, yValues.size)
186 deltaMapper['y'][detectorId, :] = np.tile(yValues, xValues.size)
187 deltaMapper['x_size'][detectorId] = xSize
188 deltaMapper['y_size'][detectorId] = ySize
189
190 radec = wcsDict[detector.getId()].pixelToSkyArray(deltaMapper['x'][detectorId, :],
191 deltaMapper['y'][detectorId, :],
192 degrees=True)
193
194 deltaMapper['delta_ra'][detectorId, :] = radec[0] - self.boresight.getRa().asDegrees()
195 deltaMapper['delta_dec'][detectorId, :] = radec[1] - self.boresight.getDec().asDegrees()
196
197 detCenter = wcsDict[detector.getId()].pixelToSky(detector.getCenter(afwCameraGeom.PIXELS))
198 deltaMapper['delta_ra_cent'][detectorId] = (detCenter.getRa()
199 - self.boresight.getRa()).asDegrees()
200 deltaMapper['delta_dec_cent'][detectorId] = (detCenter.getDec()
201 - self.boresight.getDec()).asDegrees()
202
203 return deltaMapper
table::Key< std::string > object
Definition VisitInfo.cc:232
An immutable representation of a camera.
Definition Camera.h:43
Information about a single exposure of an imaging camera.
Definition VisitInfo.h:68
__call__(self, orientation, nstep=100, use_cache=True)
Point in an unspecified spherical coordinate system.
Definition SpherePoint.h:57