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LSST Data Management Base Package
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Box.h
Go to the documentation of this file.
1/*
2 * This file is part of sphgeom.
3 *
4 * Developed for the LSST Data Management System.
5 * This product includes software developed by the LSST Project
6 * (http://www.lsst.org).
7 * See the COPYRIGHT file at the top-level directory of this distribution
8 * for details of code ownership.
9 *
10 * This software is dual licensed under the GNU General Public License and also
11 * under a 3-clause BSD license. Recipients may choose which of these licenses
12 * to use; please see the files gpl-3.0.txt and/or bsd_license.txt,
13 * respectively. If you choose the GPL option then the following text applies
14 * (but note that there is still no warranty even if you opt for BSD instead):
15 *
16 * This program is free software: you can redistribute it and/or modify
17 * it under the terms of the GNU General Public License as published by
18 * the Free Software Foundation, either version 3 of the License, or
19 * (at your option) any later version.
20 *
21 * This program is distributed in the hope that it will be useful,
22 * but WITHOUT ANY WARRANTY; without even the implied warranty of
23 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
24 * GNU General Public License for more details.
25 *
26 * You should have received a copy of the GNU General Public License
27 * along with this program. If not, see <http://www.gnu.org/licenses/>.
28 */
29
30#ifndef LSST_SPHGEOM_BOX_H_
31#define LSST_SPHGEOM_BOX_H_
32
36
37#include <iosfwd>
38#include <cstdint>
39
40#include "AngleInterval.h"
41#include "LonLat.h"
43#include "Region.h"
44#include "UnitVector3d.h"
45
46
47namespace lsst {
48namespace sphgeom {
49
62class Box : public Region {
63public:
64 static constexpr std::uint8_t TYPE_CODE = 'b';
65
66 // Factory functions
67 static Box fromDegrees(double lon1, double lat1, double lon2, double lat2) {
69 AngleInterval::fromDegrees(lat1, lat2));
70 }
71
72 static Box fromRadians(double lon1, double lat1, double lon2, double lat2) {
74 AngleInterval::fromRadians(lat1, lat2));
75 }
76
77 static Box empty() { return Box(); }
78
79 static Box full() { return Box(allLongitudes(), allLatitudes()); }
80
86
92
96 return AngleInterval(Angle(-0.5 * PI), Angle(0.5 * PI));
97 }
98
100 Box() {}
101
103 explicit Box(LonLat const & p) :
104 _lon(p.getLon()),
105 _lat(p.getLat())
106 {
107 _enforceInvariants();
108 }
109
113 Box(LonLat const & p1, LonLat const & p2) :
114 _lon(p1.getLon(), p2.getLon()),
115 _lat(p1.getLat(), p2.getLat())
116 {
117 _enforceInvariants();
118 }
119
122 Box(LonLat const & p, Angle w, Angle h) :
124 _lat(AngleInterval(p.getLat()).dilatedBy(h))
125 {
126 _enforceInvariants();
127 }
128
131 Box(NormalizedAngleInterval const & lon, AngleInterval const & lat) :
132 _lon(lon),
133 _lat(lat)
134 {
135 _enforceInvariants();
136 }
137
139 bool operator==(Box const & b) const {
140 return _lon == b._lon && _lat == b._lat;
141 }
142
143 bool operator!=(Box const & b) const { return !(*this == b); }
144
146 bool operator==(LonLat const & p) const {
147 return _lat == p.getLat() && _lon == p.getLon();
148 }
149
150 bool operator!=(LonLat const & p) const { return !(*this == p); }
151
153 NormalizedAngleInterval const & getLon() const { return _lon; }
154
156 AngleInterval const & getLat() const { return _lat; }
157
159 bool isEmpty() const { return _lat.isEmpty(); }
160
163 bool isFull() const { return _lon.isFull() && _lat == allLatitudes(); }
164
168 return LonLat(_lon.getCenter(), _lat.getCenter());
169 }
170
173 NormalizedAngle getWidth() const { return _lon.getSize(); }
174
177 Angle getHeight() const { return _lat.getSize(); }
178
182 bool contains(LonLat const & x) const {
183 return _lat.contains(x.getLat()) && _lon.contains(x.getLon());
184 }
185
186 bool contains(Box const & x) const {
187 return _lat.contains(x._lat) && _lon.contains(x._lon);
188 }
190
194 bool isDisjointFrom(LonLat const & x) const { return !intersects(x); }
195
196 bool isDisjointFrom(Box const & x) const { return !intersects(x); }
198
202 bool intersects(LonLat const & x) const {
203 return _lat.intersects(x.getLat()) && _lon.intersects(x.getLon());
204 }
205
206 bool intersects(Box const & x) const {
207 return _lat.intersects(x._lat) && _lon.intersects(x._lon);
208 }
210
214 bool isWithin(LonLat const & x) const {
215 return _lat.isWithin(x.getLat()) && _lon.isWithin(x.getLon());
216 }
217
218 bool isWithin(Box const & x) const {
219 return _lat.isWithin(x._lat) && _lon.isWithin(x._lon);
220 }
222
225 Box & clipTo(LonLat const & x) {
226 _lon.clipTo(x.getLon());
227 _lat.clipTo(x.getLat());
228 _enforceInvariants();
229 return *this;
230 }
231
235 Box & clipTo(Box const & x) {
236 _lon.clipTo(x.getLon());
237 _lat.clipTo(x.getLat());
238 _enforceInvariants();
239 return *this;
240 }
241
243 Box clippedTo(LonLat const & x) const { return Box(*this).clipTo(x); }
244
248 Box clippedTo(Box const & x) const { return Box(*this).clipTo(x); }
249
254 Box & expandTo(LonLat const & x) {
255 _lon.expandTo(x.getLon());
256 _lat.expandTo(x.getLat());
257 return *this;
258 }
259
260 Box & expandTo(Box const & x) {
261 _lon.expandTo(x.getLon());
262 _lat.expandTo(x.getLat());
263 return *this;
264 }
266
271 Box expandedTo(LonLat const & x) const { return Box(*this).expandTo(x); }
272 Box expandedTo(Box const & x) const { return Box(*this).expandTo(x); }
274
280 Box & dilateBy(Angle r);
281 Box dilatedBy(Angle r) const { return Box(*this).dilateBy(r); }
282
298 Box & dilateBy(Angle w, Angle h);
299 Box dilatedBy(Angle w, Angle h) const { return Box(*this).dilateBy(w, h); }
300 Box & erodeBy(Angle r) { return dilateBy(-r); }
301 Box & erodeBy(Angle w, Angle h) { return dilateBy(-w, -h); }
302 Box erodedBy(Angle r) const { return dilatedBy(-r); }
303 Box erodedBy(Angle w, Angle h) const { return dilatedBy(-w, -h); }
304
305 Relationship relate(LonLat const & p) const { return relate(Box(p)); }
306
308 double getArea() const;
309
310 // Region interface
312 return std::unique_ptr<Box>(new Box(*this));
313 }
314
315 Box getBoundingBox() const override { return *this; }
316 Box3d getBoundingBox3d() const override;
317 Circle getBoundingCircle() const override;
318
319 bool contains(UnitVector3d const & v) const override {
320 return contains(LonLat(v));
321 }
322
323 using Region::contains;
324
325 Relationship relate(Region const & r) const override {
326 // Dispatch on the type of r.
327 return invert(r.relate(*this));
328 }
329
330 Relationship relate(Box const & b) const override {
331 Relationship r1 = _lon.relate(b._lon);
332 Relationship r2 = _lat.relate(b._lat);
333 // If the box longitude or latitude intervals are disjoint, then the
334 // boxes are disjoint. The other spatial relationships must hold for
335 // both the longitude and latitude intervals in order to hold for the
336 // boxes.
337 return ((r1 & r2) & (CONTAINS | WITHIN)) | ((r1 | r2) & DISJOINT);
338 }
339
340 Relationship relate(Circle const &) const override;
341 Relationship relate(ConvexPolygon const &) const override;
342 Relationship relate(Ellipse const &) const override;
343
344 std::vector<std::uint8_t> encode() const override;
345
349 return decode(s.data(), s.size());
350 }
351 static std::unique_ptr<Box> decode(std::uint8_t const * buffer, size_t n);
353
354private:
355 static constexpr size_t ENCODED_SIZE = 33;
356
357 void _enforceInvariants() {
358 // Make sure that _lat ⊆ [-π/2, π/2].
359 _lat.clipTo(allLatitudes());
360 // Make sure that both longitude and latitude intervals are
361 // empty, or neither is. This simplifies the implementation
362 // of the spatial relation tests.
363 if (_lat.isEmpty()) {
365 } else if (_lon.isEmpty()) {
366 _lat = AngleInterval();
367 }
368 }
369
370 NormalizedAngleInterval _lon;
371 AngleInterval _lat;
372};
373
374std::ostream & operator<<(std::ostream &, Box const &);
375
376}} // namespace lsst::sphgeom
377
378#endif // LSST_SPHGEOM_BOX_H_
This file defines a class for representing angle intervals.
This file contains a class representing spherical coordinates.
This file declares a class representing closed intervals of normalized angles, i.e.
This file defines an interface for spherical regions.
table::Key< int > b
This file declares a class for representing unit vectors in ℝ³.
Angle represents an angle in radians.
Definition Angle.h:50
AngleInterval represents closed intervals of arbitrary angles.
static AngleInterval fromDegrees(double x, double y)
static AngleInterval fromRadians(double x, double y)
Box3d represents a box in ℝ³.
Definition Box3d.h:49
Box represents a rectangle in spherical coordinate space that contains its boundary.
Definition Box.h:62
Relationship relate(Box const &b) const override
Definition Box.h:330
Box erodedBy(Angle w, Angle h) const
Definition Box.h:303
Box clippedTo(LonLat const &x) const
clippedTo returns the intersection of this box and x.
Definition Box.h:243
Box getBoundingBox() const override
getBoundingBox returns a bounding-box for this region.
Definition Box.h:315
bool operator==(LonLat const &p) const
A box is equal to a point p if it contains only p.
Definition Box.h:146
AngleInterval const & getLat() const
getLat returns the latitude interval of this box.
Definition Box.h:156
Box dilatedBy(Angle r) const
Definition Box.h:281
static NormalizedAngle halfWidthForCircle(Angle r, Angle lat)
halfWidthForCircle computes the half-width of bounding boxes for circles with radius r and centers at...
Definition Box.cc:50
Box & erodeBy(Angle r)
Definition Box.h:300
Box()
This constructor creates an empty box.
Definition Box.h:100
bool operator!=(LonLat const &p) const
Definition Box.h:150
NormalizedAngle getWidth() const
getWidth returns the width in longitude angle of this box.
Definition Box.h:173
double getArea() const
getArea returns the area of this box in steradians.
Definition Box.cc:122
Box3d getBoundingBox3d() const override
getBoundingBox3d returns a 3-dimensional bounding-box for this region.
Definition Box.cc:134
static Box fromRadians(double lon1, double lat1, double lon2, double lat2)
Definition Box.h:72
bool isWithin(Box const &x) const
Definition Box.h:218
Box expandedTo(LonLat const &x) const
Definition Box.h:271
bool operator==(Box const &b) const
Two boxes are equal if they contain the same points.
Definition Box.h:139
Box dilatedBy(Angle w, Angle h) const
Definition Box.h:299
Box(LonLat const &p1, LonLat const &p2)
This constructor creates a box spanning the longitude interval [p1.getLon(), p2.getLon()] and latitud...
Definition Box.h:113
NormalizedAngleInterval const & getLon() const
getLon returns the longitude interval of this box.
Definition Box.h:153
bool operator!=(Box const &b) const
Definition Box.h:143
bool contains(UnitVector3d const &v) const override
contains tests whether the given unit vector is inside this region.
Definition Box.h:319
Relationship relate(LonLat const &p) const
Definition Box.h:305
bool isDisjointFrom(LonLat const &x) const
Definition Box.h:194
static std::unique_ptr< Box > decode(std::vector< std::uint8_t > const &s)
Definition Box.h:348
static constexpr std::uint8_t TYPE_CODE
Definition Box.h:64
Box(LonLat const &p)
This constructor creates a box containing a single point.
Definition Box.h:103
Box & expandTo(Box const &x)
Definition Box.h:260
static Box empty()
Definition Box.h:77
bool isFull() const
isFull returns true if this box contains all points on the unit sphere.
Definition Box.h:163
std::vector< std::uint8_t > encode() const override
encode serializes this region into an opaque byte string.
Definition Box.cc:454
Box expandedTo(Box const &x) const
Definition Box.h:272
Box & erodeBy(Angle w, Angle h)
Definition Box.h:301
Box & dilateBy(Angle r)
dilateBy minimally expands this Box to include all points within angular separation r of its boundary...
Definition Box.cc:85
Angle getHeight() const
getHeight returns the height in latitude angle of this box.
Definition Box.h:177
LonLat getCenter() const
getCenter returns the center of this box.
Definition Box.h:167
Box(LonLat const &p, Angle w, Angle h)
This constructor creates a box with center p, half-width (in longitude angle) w and half-height (in l...
Definition Box.h:122
std::unique_ptr< Region > clone() const override
clone returns a deep copy of this region.
Definition Box.h:311
static NormalizedAngleInterval allLongitudes()
allLongitudes returns a normalized angle interval containing all valid longitude angles.
Definition Box.h:89
bool isDisjointFrom(Box const &x) const
Definition Box.h:196
Box & clipTo(Box const &x)
x.clipTo(y) sets x to the smallest box containing the intersection of x and y.
Definition Box.h:235
Box(NormalizedAngleInterval const &lon, AngleInterval const &lat)
This constructor creates a box spanning the given longitude and latitude intervals.
Definition Box.h:131
bool isWithin(LonLat const &x) const
Definition Box.h:214
Relationship relate(Region const &r) const override
Definition Box.h:325
Box clippedTo(Box const &x) const
clippedTo returns the smallest box containing the intersection of this box and x.
Definition Box.h:248
bool intersects(Box const &x) const
Definition Box.h:206
Box erodedBy(Angle r) const
Definition Box.h:302
Box & expandTo(LonLat const &x)
Definition Box.h:254
static AngleInterval allLatitudes()
allLatitudes returns an angle interval containing all valid latitude angles.
Definition Box.h:95
bool contains(LonLat const &x) const
Definition Box.h:182
static Box fromDegrees(double lon1, double lat1, double lon2, double lat2)
Definition Box.h:67
bool isEmpty() const
isEmpty returns true if this box does not contain any points.
Definition Box.h:159
Box & clipTo(LonLat const &x)
clipTo shrinks this box until it contains only x.
Definition Box.h:225
static Box full()
Definition Box.h:79
bool contains(Box const &x) const
Definition Box.h:186
bool intersects(LonLat const &x) const
Definition Box.h:202
Circle getBoundingCircle() const override
getBoundingCircle returns a bounding-circle for this region.
Definition Box.cc:194
Circle is a circular region on the unit sphere that contains its boundary.
Definition Circle.h:54
ConvexPolygon is a closed convex polygon on the unit sphere.
Ellipse is an elliptical region on the sphere.
Definition Ellipse.h:177
bool isWithin(Scalar x) const
Definition Interval.h:147
Scalar getSize() const
getSize returns the size (length, width) of this interval.
Definition Interval.h:100
Interval & clipTo(Scalar x)
Definition Interval.h:166
bool isEmpty() const
isEmpty returns true if this interval does not contain any points.
Definition Interval.h:90
Relationship relate(Scalar x) const
Definition Interval.h:256
bool intersects(Scalar x) const
Definition Interval.h:137
Scalar getCenter() const
getCenter returns the center of this interval.
Definition Interval.h:96
Interval & expandTo(Scalar x)
Definition Interval.h:199
bool contains(Scalar x) const
Definition Interval.h:105
LonLat represents a spherical coordinate (longitude/latitude angle) pair.
Definition LonLat.h:55
Angle getLat() const
Definition LonLat.h:97
NormalizedAngle getLon() const
Definition LonLat.h:95
NormalizedAngle is an angle that lies in the range [0, 2π), with one exception - a NormalizedAngle ca...
NormalizedAngleInterval represents closed intervals of normalized angles, i.e.
bool isFull() const
isFull returns true if this interval contains all normalized angles.
NormalizedAngleInterval & clipTo(NormalizedAngle x)
clipTo shrinks this interval until all its points are in x.
NormalizedAngle getCenter() const
getCenter returns the center of this interval.
Relationship relate(NormalizedAngle x) const
NormalizedAngle getSize() const
getSize returns the size (length, width) of this interval.
NormalizedAngleInterval & expandTo(NormalizedAngle x)
static NormalizedAngleInterval fromDegrees(double a, double b)
static NormalizedAngleInterval fromRadians(double a, double b)
static NormalizedAngleInterval full()
bool isEmpty() const
isEmpty returns true if this interval does not contain any normalized angles.
Region is a minimal interface for 2-dimensional regions on the unit sphere.
Definition Region.h:87
virtual Relationship relate(Region const &) const =0
virtual bool contains(UnitVector3d const &) const =0
contains tests whether the given unit vector is inside this region.
UnitVector3d is a unit vector in ℝ³ with components stored in double precision.
std::ostream & operator<<(std::ostream &, Angle const &)
Definition Angle.cc:41
constexpr double PI
Definition constants.h:43
Relationship invert(Relationship r)
Given the relationship between two sets A and B (i.e.
double w
Definition CoaddPsf.cc:70