LSST Applications 24.1.6,g063fba187b+56b85ce14a,g0f08755f38+df8a265115,g12f32b3c4e+891a09f10d,g1524ad2192+7a5d7b3fbd,g1653933729+a8ce1bb630,g168dd56ebc+a8ce1bb630,g28da252d5a+07cb1400be,g2bbee38e9b+ae03bbfc84,g2bc492864f+ae03bbfc84,g3156d2b45e+6e55a43351,g347aa1857d+ae03bbfc84,g35bb328faa+a8ce1bb630,g3a166c0a6a+ae03bbfc84,g3e281a1b8c+c5dd892a6c,g414038480c+6b9177ef31,g41af890bb2+8f257c4c0b,g781aacb6e4+a8ce1bb630,g7af13505b9+7137b3b17d,g80478fca09+6df6903293,g82479be7b0+091ce1d07f,g858d7b2824+df8a265115,g89c8672015+f4add4ffd5,g9125e01d80+a8ce1bb630,g9726552aa6+414189b318,ga5288a1d22+4a2bca08d7,gacef1a1666+c9a8ff65f4,gb58c049af0+d64f4d3760,gbcfae0f0a0+de1d42d831,gc28159a63d+ae03bbfc84,gcf0d15dbbd+72117bf34e,gda6a2b7d83+72117bf34e,gdaeeff99f8+1711a396fd,ge500cccec5+c8c9c9af63,ge79ae78c31+ae03bbfc84,gf0baf85859+c1f95f4921,gfa517265be+df8a265115,gfa999e8aa5+17cd334064,gfb92a5be7c+df8a265115
LSST Data Management Base Package
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tests.py
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2# LSST Data Management System
3# Copyright 2008-2017 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"""
24Test utility code for shapelets library; here so it can be used
25in multiple test scripts and tests in downstream packages.
26"""
27import numpy
28try:
29 import scipy.ndimage
30except ImportError:
31 scipy = None
32
34import lsst.geom
36
37
38class ShapeletTestCase(lsst.utils.tests.TestCase):
39
40 @staticmethod
41 def makeUnitVector(i, n):
42 v = numpy.zeros(n, dtype=float)
43 v[i] = 1.0
44 return v
45
46 @staticmethod
47 def makeImage(function, x, y):
48 z = numpy.zeros((y.size, x.size), dtype=float)
49 e = function.evaluate()
50 for i, py in enumerate(y):
51 for j, px in enumerate(x):
52 z[i, j] = e(float(px), float(py))
53 return z
54
55 @staticmethod
56 def makeRandomShapeletFunction(order=2, zeroCenter=False, ellipse=None, scale=1.0):
57 center = lsst.geom.Point2D()
58 if not zeroCenter:
59 center = lsst.geom.Point2D(numpy.random.randn(), numpy.random.randn())
60 if ellipse is None:
63 float(numpy.random.uniform(low=1, high=2)),
64 float(numpy.random.uniform(low=1, high=2)),
65 float(numpy.random.uniform(low=0, high=numpy.pi))
66 ),
67 center
68 )
69 coefficients = numpy.random.randn(lsst.shapelet.computeSize(order))
70 result = lsst.shapelet.ShapeletFunction(order, lsst.shapelet.HERMITE, coefficients)
71 result.setEllipse(ellipse)
72 result.getEllipse().scale(scale)
73 return result
74
75 @staticmethod
76 def makeRandomMultiShapeletFunction(nComponents=3, ellipse=None):
77 components = []
78 for n in range(nComponents):
79 components.append(ShapeletTestCase.makeRandomShapeletFunction(ellipse=ellipse))
81
82 def compareShapeletFunctions(self, a, b, rtolEllipse=1E-13, rtolCoeff=1E-13,
83 atolEllipse=1E-14, atolCoeff=1E-14):
84 self.assertEqual(a.getOrder(), b.getOrder())
85 self.assertEqual(a.getBasisType(), b.getBasisType())
86 self.assertFloatsAlmostEqual(a.getEllipse().getParameterVector(),
87 b.getEllipse().getParameterVector(),
88 rtol=rtolEllipse, atol=atolEllipse)
89 self.assertFloatsAlmostEqual(a.getCoefficients(), b.getCoefficients(),
90 rtol=rtolCoeff, atol=atolCoeff)
91
93 keep = []
94 for s in msf.getComponents():
95 if not numpy.allclose(s.getCoefficients(), 0.0):
96 params = tuple(s.getEllipse().getParameterVector()) + tuple(s.getCoefficients())
97 keep.append((params, s))
99 keep.sort(key=lambda t: numpy.sum(t[0]))
100 for params, s in keep:
101 msf.addComponent(s)
102 return msf
103
104 def compareMultiShapeletFunctions(self, a, b, simplify=True, rtolEllipse=1E-13, rtolCoeff=1E-13,
105 atolEllipse=1E-14, atolCoeff=1E-14):
106 if simplify:
109 self.assertEqual(len(a.getComponents()), len(b.getComponents()))
110 for sa, sb in zip(a.getComponents(), b.getComponents()):
111 self.compareShapeletFunctions(sa, sb, rtolEllipse=rtolEllipse, rtolCoeff=rtolCoeff,
112 atolEllipse=atolEllipse, atolCoeff=atolCoeff)
113
114 def checkMoments(self, function, x, y, z):
115 gx, gy = numpy.meshgrid(x, y)
116 m = z.sum()
117 dipole = lsst.geom.Point2D((gx * z).sum() / m, (gy * z).sum() / m)
118 gx -= dipole.getX()
119 gy -= dipole.getY()
121 (gx**2 * z).sum() / m,
122 (gy**2 * z).sum() / m,
123 (gx * gy * z).sum() / m
124 )
125 imageMoments = lsst.afw.geom.ellipses.Ellipse(quadrupole, dipole)
126 shapeletMoments = function.evaluate().computeMoments()
127 self.assertFloatsAlmostEqual(imageMoments.getCenter().getX(),
128 shapeletMoments.getCenter().getX(), rtol=1E-3)
129 self.assertFloatsAlmostEqual(imageMoments.getCenter().getY(),
130 shapeletMoments.getCenter().getY(), rtol=1E-3)
131 self.assertFloatsAlmostEqual(imageMoments.getCore().getIxx(),
132 shapeletMoments.getCore().getIxx(), rtol=1E-3)
133 self.assertFloatsAlmostEqual(imageMoments.getCore().getIyy(),
134 shapeletMoments.getCore().getIyy(), rtol=1E-3)
135 self.assertFloatsAlmostEqual(imageMoments.getCore().getIxy(),
136 shapeletMoments.getCore().getIxy(), rtol=1E-3)
137 integral = numpy.trapz(numpy.trapz(z, gx, axis=1), y, axis=0)
138 self.assertFloatsAlmostEqual(integral, function.evaluate().integrate(), rtol=1E-3)
139
140 def checkConvolution(self, f1, f2):
141 bbox = lsst.geom.Box2I(lsst.geom.Point2I(-50, -50), lsst.geom.Point2I(50, 50))
142 i1 = lsst.afw.image.ImageD(bbox)
143 f1.evaluate().addToImage(i1)
144 self.assertFloatsAlmostEqual(i1.getArray().sum(), f1.evaluate().integrate(), rtol=1E-3)
145 i2 = lsst.afw.image.ImageD(bbox)
146 f2.evaluate().addToImage(i2)
147 self.assertFloatsAlmostEqual(i2.getArray().sum(), f2.evaluate().integrate(), rtol=1E-3)
148 fc1 = f1.convolve(f2)
149 fc2 = f2.convolve(f1)
150 ic1 = lsst.afw.image.ImageD(bbox)
151 fc1.evaluate().addToImage(ic1)
152 ic2 = lsst.afw.image.ImageD(bbox)
153 fc2.evaluate().addToImage(ic2)
154 self.assertFloatsAlmostEqual(ic1.getArray(), ic2.getArray())
155 out = lsst.afw.image.ImageD(bbox)
156 if scipy is None:
157 print("Skipping convolution test; scipy could not be imported.")
158 return
159 # I'm using scipy.ndimage to convolve test images, because I can't figure
160 # out how to make afw do it (afw can convolve images with kernels, but two similarly-sized
161 # are apparently another matter; if I try to make a FixedKernel from one of the images,
162 # I can't even make the operation commutative, let alone correct.
163 scipy.ndimage.convolve(i1.getArray(), i2.getArray(), output=out.getArray(),
164 mode="constant", cval=0.0)
165 self.assertFloatsAlmostEqual(out.getArray(), ic1.getArray(), rtol=1E-4, atol=1E-5)
166 self.assertFloatsAlmostEqual(out.getArray(), ic2.getArray(), rtol=1E-4, atol=1E-5)
167 return fc1, fc2
An ellipse core for the semimajor/semiminor axis and position angle parametrization (a,...
Definition Axes.h:47
An ellipse defined by an arbitrary BaseCore and a center point.
Definition Ellipse.h:51
An ellipse core with quadrupole moments as parameters.
Definition Quadrupole.h:47
An integer coordinate rectangle.
Definition Box.h:55
A multi-scale shapelet function.
A 2-d function defined by an expansion onto a Gauss-Laguerre or Gauss-Hermite basis.
compareMultiShapeletFunctions(self, a, b, simplify=True, rtolEllipse=1E-13, rtolCoeff=1E-13, atolEllipse=1E-14, atolCoeff=1E-14)
Definition tests.py:105
checkMoments(self, function, x, y, z)
Definition tests.py:114
compareShapeletFunctions(self, a, b, rtolEllipse=1E-13, rtolCoeff=1E-13, atolEllipse=1E-14, atolCoeff=1E-14)
Definition tests.py:83
makeRandomMultiShapeletFunction(nComponents=3, ellipse=None)
Definition tests.py:76
makeRandomShapeletFunction(order=2, zeroCenter=False, ellipse=None, scale=1.0)
Definition tests.py:56
int computeSize(int order)
Return the size of the coefficient vector for the given order.
Definition constants.h:97