LSST Applications  21.0.0-139-g4e3796b1+8e0e4477b2,22.0.0+22452ee3e8,22.0.0+5c8c79b9bb,22.0.0+64c1bc5aa5,22.0.0+a7cb47fe15,22.0.0+c28b2074bc,22.0.0+d0d93e33b5,22.0.1-1-g7d6de66+8fa39470f7,22.0.1-1-g87000a6+9f9726e262,22.0.1-1-g8760c09+64c1bc5aa5,22.0.1-1-g8e32f31+d0d93e33b5,22.0.1-10-g779eefa+7cd471aaa9,22.0.1-12-g3bd7ecb+46a3b70696,22.0.1-14-g86e9b50+99e7338883,22.0.1-17-ge5a99e88+8a77b73346,22.0.1-18-g473f1e9+8fa39470f7,22.0.1-2-g1cb3e5b+b4ba395e9d,22.0.1-2-g8ef0a89+8fa39470f7,22.0.1-2-g92698f7+a7cb47fe15,22.0.1-2-ga9b0f51+64c1bc5aa5,22.0.1-2-gb66926d+d0d93e33b5,22.0.1-2-gcb770ba+25b68d6910,22.0.1-2-ge470956+2bf6a8d4a7,22.0.1-21-g532228a4+ca1041e437,22.0.1-28-g197addcb9+e812cf48d3,22.0.1-3-g59f966b+3a013779d7,22.0.1-3-g8c1d971+f4bf734fca,22.0.1-3-g997b569+0b1c48e3e0,22.0.1-3-gaaec9c0+a441c9b5a1,22.0.1-4-g1930a60+a886f25f17,22.0.1-4-g5b7b756+d686d30ffd,22.0.1-4-g8623105+8fa39470f7,22.0.1-7-g3402376+8ed7904e4c,22.0.1-7-gba73697+a886f25f17,master-g5f2689bdc5+c28b2074bc,w.2021.37
LSST Data Management Base Package
utils.cc
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2  * LSST Data Management System
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22 
25 
26 #include "lsst/sphgeom/utils.h"
27 
28 #include <cmath>
29 
31 
32 
33 namespace lsst {
34 namespace sphgeom {
35 
37  Vector3d const & a,
38  Vector3d const & b,
39  Vector3d const & n)
40 {
41  Vector3d vxn = v.cross(n);
42  if (vxn.dot(a) > 0.0 && vxn.dot(b) < 0.0) {
43  // v is in the lune defined by the half great circle passing through
44  // n and a and the half great circle passing through n and b, so p
45  // is in the interior of the great circle segment from a to b. The
46  // angle θ between p and v satisfies ‖v‖ ‖n‖ sin θ = |v·n|,
47  // and ‖v‖ ‖n‖ cos θ = ‖v × n‖. The desired squared chord length is
48  // 4 sin²(θ/2).
49  double s = std::fabs(v.dot(n));
50  double c = vxn.getNorm();
51  double theta = (c == 0.0) ? 0.5 * PI : std::atan(s / c);
52  double d = std::sin(0.5 * theta);
53  return 4.0 * d * d;
54  }
55  return 4.0;
56 }
57 
59  Vector3d const & a,
60  Vector3d const & b,
61  Vector3d const & n)
62 {
63  Vector3d vxn = v.cross(n);
64  if (vxn.dot(a) < 0.0 && vxn.dot(b) > 0.0) {
65  // v is in the lune defined by the half great circle passing through
66  // n and -a and the half great circle passing through n and -b, so p
67  // is in the interior of the great circle segment from a to b. The
68  // angle θ between p and v satisfies ‖v‖ ‖n‖ sin θ = |v·n|,
69  // and ‖v‖ ‖n‖ cos θ = -‖v × n‖. The desired squared chord length is
70  // 4 sin²(θ/2).
71  double s = std::fabs(v.dot(n));
72  double c = - vxn.getNorm();
73  double d = std::sin(0.5 * std::atan2(s, c));
74  return 4.0 * d * d;
75  }
76  return 0.0;
77 }
78 
80  UnitVector3d const & v1,
81  UnitVector3d const & v2)
82 {
83  // For the details, see:
84  //
85  // The centroid and inertia tensor for a spherical triangle
86  // John E. Brock
87  // 1974, Naval Postgraduate School, Monterey Calif.
88  //
89  // https://openlibrary.org/books/OL25493734M/The_centroid_and_inertia_tensor_for_a_spherical_triangle
90 
91  Vector3d x01 = v0.robustCross(v1); // twice the cross product of v0 and v1
92  Vector3d x12 = v1.robustCross(v2);
93  Vector3d x20 = v2.robustCross(v0);
94  double s01 = 0.5 * x01.normalize(); // sine of the angle between v0 and v1
95  double s12 = 0.5 * x12.normalize();
96  double s20 = 0.5 * x20.normalize();
97  double c01 = v0.dot(v1); // cosine of the angle between v0 and v1
98  double c12 = v1.dot(v2);
99  double c20 = v2.dot(v0);
100  double a0 = (s12 == 0.0 && c12 == 0.0) ? 0.0 : std::atan2(s12, c12);
101  double a1 = (s20 == 0.0 && c20 == 0.0) ? 0.0 : std::atan2(s20, c20);
102  double a2 = (s01 == 0.0 && c01 == 0.0) ? 0.0 : std::atan2(s01, c01);
103  return 0.5 * (x01 * a2 + x12 * a0 + x20 * a1);
104 }
105 
106 }} // namespace lsst::sphgeom
table::Key< int > b
table::Key< int > a
This file declares a class for representing unit vectors in ℝ³.
T atan2(T... args)
T atan(T... args)
UnitVector3d is a unit vector in ℝ³ with components stored in double precision.
Definition: UnitVector3d.h:55
double dot(Vector3d const &v) const
dot returns the inner product of this unit vector and v.
Definition: UnitVector3d.h:152
Vector3d robustCross(UnitVector3d const &v) const
a.robustCross(b) is (b + a).cross(b - a) - twice the cross product of a and b.
Definition: UnitVector3d.h:161
Vector3d is a vector in ℝ³ with components stored in double precision.
Definition: Vector3d.h:44
double dot(Vector3d const &v) const
dot returns the inner product of this vector and v.
Definition: Vector3d.h:73
double getNorm() const
getNorm returns the L2 norm of this vector.
Definition: Vector3d.h:81
double normalize()
normalize scales this vector to have unit norm and returns its norm prior to scaling.
Definition: Vector3d.cc:41
Vector3d cross(Vector3d const &v) const
cross returns the cross product of this vector and v.
Definition: Vector3d.h:101
T fabs(T... args)
double getMaxSquaredChordLength(Vector3d const &v, Vector3d const &a, Vector3d const &b, Vector3d const &n)
Let p be the unit vector furthest from v that lies on the plane with normal n in the direction of the...
Definition: utils.cc:58
Vector3d getWeightedCentroid(UnitVector3d const &v0, UnitVector3d const &v1, UnitVector3d const &v2)
getWeightedCentroid returns the center of mass of the given spherical triangle (assuming a uniform ma...
Definition: utils.cc:79
double getMinSquaredChordLength(Vector3d const &v, Vector3d const &a, Vector3d const &b, Vector3d const &n)
Let p be the unit vector closest to v that lies on the plane with normal n in the direction of the cr...
Definition: utils.cc:36
constexpr double PI
Definition: constants.h:36
A base class for image defects.
T sin(T... args)
This file declares miscellaneous utility functions.