LSST Applications 27.0.0,g0265f82a02+469cd937ee,g02d81e74bb+21ad69e7e1,g1470d8bcf6+cbe83ee85a,g2079a07aa2+e67c6346a6,g212a7c68fe+04a9158687,g2305ad1205+94392ce272,g295015adf3+81dd352a9d,g2bbee38e9b+469cd937ee,g337abbeb29+469cd937ee,g3939d97d7f+72a9f7b576,g487adcacf7+71499e7cba,g50ff169b8f+5929b3527e,g52b1c1532d+a6fc98d2e7,g591dd9f2cf+df404f777f,g5a732f18d5+be83d3ecdb,g64a986408d+21ad69e7e1,g858d7b2824+21ad69e7e1,g8a8a8dda67+a6fc98d2e7,g99cad8db69+f62e5b0af5,g9ddcbc5298+d4bad12328,ga1e77700b3+9c366c4306,ga8c6da7877+71e4819109,gb0e22166c9+25ba2f69a1,gb6a65358fc+469cd937ee,gbb8dafda3b+69d3c0e320,gc07e1c2157+a98bf949bb,gc120e1dc64+615ec43309,gc28159a63d+469cd937ee,gcf0d15dbbd+72a9f7b576,gdaeeff99f8+a38ce5ea23,ge6526c86ff+3a7c1ac5f1,ge79ae78c31+469cd937ee,gee10cc3b42+a6fc98d2e7,gf1cff7945b+21ad69e7e1,gfbcc870c63+9a11dc8c8f
LSST Data Management Base Package
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_healpixPixelization.py
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1# This file is part of sphgeom.
2#
3# Developed for the LSST Data Management System.
4# This product includes software developed by the LSST Project
5# (http://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 software is dual licensed under the GNU General Public License and also
10# under a 3-clause BSD license. Recipients may choose which of these licenses
11# to use; please see the files gpl-3.0.txt and/or bsd_license.txt,
12# respectively. If you choose the GPL option then the following text applies
13# (but note that there is still no warranty even if you opt for BSD instead):
14#
15# This program is free software: you can redistribute it and/or modify
16# it under the terms of the GNU General Public License as published by
17# the Free Software Foundation, either version 3 of the License, or
18# (at your option) any later version.
19#
20# This program is distributed in the hope that it will be useful,
21# but WITHOUT ANY WARRANTY; without even the implied warranty of
22# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
23# GNU General Public License for more details.
24#
25# You should have received a copy of the GNU General Public License
26# along with this program. If not, see <http://www.gnu.org/licenses/>.
27__all__ = ["HealpixPixelization"]
28
29import hpgeom as hpg
30import numpy as np
31
32from ._sphgeom import Box, Circle, ConvexPolygon, Ellipse, LonLat, RangeSet, Region, UnitVector3d
33from .pixelization_abc import PixelizationABC
34
35
37 """HEALPix pixelization class.
38
39 Parameters
40 ----------
41 level : `int`
42 Pixelization level. HEALPix nside = 2**level
43 """
44
45 MAX_LEVEL = 17
46
47 def __init__(self, level: int):
48 if level < 0:
49 raise ValueError("HealPix level must be >= 0.")
50
51 self._level = level
52 self._nside = 2**level
53
54 self._npix = hpg.nside_to_npixel(self._nside)
55
56 # Values used to do pixel/region intersections
57 self._bit_shift = 8
58 self._nside_highres = self._nside * (2 ** (self._bit_shift // 2))
59
60 @property
61 def nside(self):
62 return self._nside
63
64 def getLevel(self):
65 return self._level
66
67 level = property(getLevel)
68
69 def universe(self) -> RangeSet:
70 return RangeSet(0, self._npix)
71
72 def pixel(self, i) -> Region:
73 # This is arbitrarily returning 4 points on a side
74 # to approximate the pixel shape.
75 varr = hpg.angle_to_vector(*hpg.boundaries(self._nside, i, step=4))
76 return ConvexPolygon([UnitVector3d(*c) for c in varr])
77
78 def index(self, v: UnitVector3d) -> int:
79 return hpg.vector_to_pixel(self._nside, v.x(), v.y(), v.z())
80
81 def toString(self, i: int) -> str:
82 return str(i)
83
84 def envelope(self, region: Region, maxRanges: int = 0):
85 if maxRanges > 0:
86 # If this is important, the rangeset can be consolidated.
87 raise NotImplementedError("HealpixPixelization: maxRanges not implemented")
88 pixels_highres = self._interior_pixels_from_region(self._nside_highres, region)
89
90 # Dilate the high resolution pixels by one to ensure that the full
91 # region is completely covered at high resolution.
92 neighbors = hpg.neighbors(self._nside_highres, pixels_highres)
93 # Shift back to the original resolution and uniquify
94 pixels = np.unique(np.right_shift(neighbors.ravel(), self._bit_shift))
95
96 return RangeSet(pixels)
97
98 def interior(self, region: Region, maxRanges: int = 0):
99 if maxRanges > 0:
100 # If this is important, the rangeset can be consolidated.
101 raise NotImplementedError("HealpixPixelization: maxRanges not implemented")
102 pixels = self._interior_pixels_from_region(self._nside, region)
103
104 # Check that the corners of the pixels are entirely enclosed in
105 # the region
106
107 # Returns arrays [npixels, ncorners], where ncorners is 4.
108 corners_lon, corners_lat = hpg.boundaries(self._nside, pixels, step=1, degrees=False)
109
110 corners_int = region.contains(corners_lon.ravel(), corners_lat.ravel()).reshape((len(pixels), 4))
111 interior = np.sum(corners_int, axis=1) == 4
112 pixels = pixels[interior]
113
114 return RangeSet(pixels)
115
116 def _interior_pixels_from_region(self, nside: int, region: Region):
117 """Get interior pixels from a region.
118
119 Parameters
120 ----------
121 nside : `int`
122 Healpix nside to retrieve interior pixels.
123 region : `lsst.sphgeom.Region`
124 Sphgeom region to find interior pixels.
125
126 Returns
127 -------
128 pixels : `np.ndarray`
129 Array of pixels at resolution nside, nest ordering.
130 """
131 if isinstance(region, Circle):
132 center = LonLat(region.getCenter())
133 pixels = hpg.query_circle(
134 nside,
135 center.getLon().asRadians(),
136 center.getLat().asRadians(),
137 region.getOpeningAngle().asRadians(),
138 degrees=False,
139 )
140 elif isinstance(region, ConvexPolygon):
141 vertices = np.array([[v.x(), v.y(), v.z()] for v in region.getVertices()])
142 pixels = hpg.query_polygon_vec(nside, vertices)
143 elif isinstance(region, Box):
144 pixels = hpg.query_box(
145 nside,
146 region.getLon().getA().asRadians(),
147 region.getLon().getB().asRadians(),
148 region.getLat().getA().asRadians(),
149 region.getLat().getB().asRadians(),
150 degrees=False,
151 )
152 elif isinstance(region, Ellipse):
153 # hpgeom supports query_ellipse given center, alpha, beta,
154 # and orientation. However, until we figure out how to get
155 # the orientation out of the Ellipse region, we will use the
156 # bounding circle as was done with healpy.
157 _circle = region.getBoundingCircle()
158 center = LonLat(_circle.getCenter())
159 pixels = hpg.query_circle(
160 nside,
161 center.getLon().asRadians(),
162 center.getLat().asRadians(),
163 _circle.getOpeningAngle().asRadians(),
164 degrees=False,
165 )
166 else:
167 raise ValueError("Invalid region.")
168
169 return pixels
170
171 def __eq__(self, other):
172 if isinstance(other, HealpixPixelization):
173 return self._level == other._level
174
175 def __repr__(self):
176 return f"HealpixPixelization({self._level})"
177
178 def __reduce__(self):
179 return (self.__class__, (self._level,))
table::PointKey< int > pixel