LSST Applications  21.0.0+04719a4bac,21.0.0-1-ga51b5d4+f5e6047307,21.0.0-11-g2b59f77+a9c1acf22d,21.0.0-11-ga42c5b2+86977b0b17,21.0.0-12-gf4ce030+76814010d2,21.0.0-13-g1721dae+760e7a6536,21.0.0-13-g3a573fe+768d78a30a,21.0.0-15-g5a7caf0+f21cbc5713,21.0.0-16-g0fb55c1+b60e2d390c,21.0.0-19-g4cded4ca+71a93a33c0,21.0.0-2-g103fe59+bb20972958,21.0.0-2-g45278ab+04719a4bac,21.0.0-2-g5242d73+3ad5d60fb1,21.0.0-2-g7f82c8f+8babb168e8,21.0.0-2-g8f08a60+06509c8b61,21.0.0-2-g8faa9b5+616205b9df,21.0.0-2-ga326454+8babb168e8,21.0.0-2-gde069b7+5e4aea9c2f,21.0.0-2-gecfae73+1d3a86e577,21.0.0-2-gfc62afb+3ad5d60fb1,21.0.0-25-g1d57be3cd+e73869a214,21.0.0-3-g357aad2+ed88757d29,21.0.0-3-g4a4ce7f+3ad5d60fb1,21.0.0-3-g4be5c26+3ad5d60fb1,21.0.0-3-g65f322c+e0b24896a3,21.0.0-3-g7d9da8d+616205b9df,21.0.0-3-ge02ed75+a9c1acf22d,21.0.0-4-g591bb35+a9c1acf22d,21.0.0-4-g65b4814+b60e2d390c,21.0.0-4-gccdca77+0de219a2bc,21.0.0-4-ge8a399c+6c55c39e83,21.0.0-5-gd00fb1e+05fce91b99,21.0.0-6-gc675373+3ad5d60fb1,21.0.0-64-g1122c245+4fb2b8f86e,21.0.0-7-g04766d7+cd19d05db2,21.0.0-7-gdf92d54+04719a4bac,21.0.0-8-g5674e7b+d1bd76f71f,master-gac4afde19b+a9c1acf22d,w.2021.13
LSST Data Management Base Package
_unitVector3d.cc
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22 #include "pybind11/pybind11.h"
23 
24 #include "lsst/sphgeom/python.h"
25 
26 #include "lsst/sphgeom/Angle.h"
27 #include "lsst/sphgeom/LonLat.h"
28 #include "lsst/sphgeom/Vector3d.h"
31 
32 namespace py = pybind11;
33 using namespace pybind11::literals;
34 
35 namespace lsst {
36 namespace sphgeom {
37 
38 template <>
40  // Provide the equivalent of the UnitVector3d to Vector3d C++ cast
41  // operator in Python
42  py::implicitly_convertible<UnitVector3d, Vector3d>();
43 
44  cls.def_static(
45  "orthogonalTo",
46  (UnitVector3d(*)(Vector3d const &)) & UnitVector3d::orthogonalTo,
47  "vector"_a);
48  cls.def_static("orthogonalTo",
49  (UnitVector3d(*)(Vector3d const &, Vector3d const &)) &
50  UnitVector3d::orthogonalTo,
51  "vector1"_a, "vector2"_a);
52  cls.def_static("orthogonalTo",
53  (UnitVector3d(*)(NormalizedAngle const &)) &
54  UnitVector3d::orthogonalTo,
55  "meridian"_a);
56  cls.def_static("northFrom", &UnitVector3d::northFrom, "vector"_a);
57  cls.def_static("X", &UnitVector3d::X);
58  cls.def_static("Y", &UnitVector3d::Y);
59  cls.def_static("Z", &UnitVector3d::Z);
60  // The fromNormalized static factory functions are not exposed to
61  // Python, as they are easy to misuse and intended only for performance
62  // critical code (i.e. not Python).
63 
64  cls.def(py::init<>());
65  cls.def(py::init<UnitVector3d const &>(), "unitVector"_a);
66  cls.def(py::init<Vector3d const &>(), "vector"_a);
67  cls.def(py::init<double, double, double>(), "x"_a, "y"_a, "z"_a);
68  cls.def(py::init<LonLat const &>(), "lonLat"_a);
69  cls.def(py::init<Angle, Angle>(), "lon"_a, "lat"_a);
70 
71  cls.def("__eq__", &UnitVector3d::operator==, py::is_operator());
72  cls.def("__ne__", &UnitVector3d::operator!=, py::is_operator());
73  cls.def("__neg__",
74  (UnitVector3d(UnitVector3d::*)() const) & UnitVector3d::operator-);
75  cls.def("__add__", &UnitVector3d::operator+, py::is_operator());
76  cls.def("__sub__",
77  (Vector3d(UnitVector3d::*)(Vector3d const &) const) &
78  UnitVector3d::operator-,
79  py::is_operator());
80  cls.def("__mul__", &UnitVector3d::operator*, py::is_operator());
81  cls.def("__truediv__", &UnitVector3d::operator/, py::is_operator());
82 
83  cls.def("x", &UnitVector3d::x);
84  cls.def("y", &UnitVector3d::y);
85  cls.def("z", &UnitVector3d::z);
86  cls.def("x", &UnitVector3d::dot);
87  cls.def("dot", &UnitVector3d::dot);
88  cls.def("cross", &UnitVector3d::cross);
89  cls.def("robustCross", &UnitVector3d::robustCross);
90  cls.def("cwiseProduct", &UnitVector3d::cwiseProduct);
91  cls.def("rotatedAround", &UnitVector3d::rotatedAround, "axis"_a, "angle"_a);
92 
93  cls.def("__len__", [](UnitVector3d const &self) { return py::int_(3); });
94  cls.def("__getitem__", [](UnitVector3d const &self, py::int_ i) {
95  return self(python::convertIndex(3, i));
96  });
97 
98  cls.def("__str__", [](UnitVector3d const &self) {
99  return py::str("[{!s}, {!s}, {!s}]")
100  .format(self.x(), self.y(), self.z());
101  });
102  cls.def("__repr__", [](UnitVector3d const &self) {
103  return py::str("UnitVector3d({!r}, {!r}, {!r})")
104  .format(self.x(), self.y(), self.z());
105  });
106 
107  // Do not implement __reduce__ for pickling. Why? Given:
108  //
109  // u = UnitVector3d(x, y, z)
110  // v = UnitVector3d(u.x(), u.y(), u.z())
111  //
112  // u may not be identical to v, since the constructor normalizes its input
113  // components. Furthermore, UnitVector3d::fromNormalized is not visible to
114  // Python, and even if it were, pybind11 is currently incapable of returning
115  // a picklable reference to it.
116  cls.def(py::pickle([](UnitVector3d const &self) { return py::make_tuple(self.x(), self.y(), self.z()); },
117  [](py::tuple t) {
118  if (t.size() != 3) {
119  throw std::runtime_error("Tuple size = " + std::to_string(t.size()) +
120  "; must be 3 for a UnitVector3d");
121  }
122  return new UnitVector3d(UnitVector3d::fromNormalized(
123  t[0].cast<double>(), t[1].cast<double>(), t[2].cast<double>()));
124  }));
125 }
126 
127 } // sphgeom
128 } // lsst
double x
This file contains a class representing spherical coordinates.
double z
Definition: Match.cc:44
int y
Definition: SpanSet.cc:49
This file declares a class for representing unit vectors in ℝ³.
This file declares a class for representing vectors in ℝ³.
NormalizedAngle is an angle that lies in the range [0, 2π), with one exception - a NormalizedAngle ca...
UnitVector3d is a unit vector in ℝ³ with components stored in double precision.
Definition: UnitVector3d.h:55
Vector3d is a vector in ℝ³ with components stored in double precision.
Definition: Vector3d.h:44
def dot(symb, c, r, frame=None, size=2, ctype=None, origin=afwImage.PARENT, *args, **kwargs)
Definition: ds9.py:100
void defineClass(py::class_< UnitVector3d, std::shared_ptr< UnitVector3d >> &cls)
A base class for image defects.
This file declares a class for representing angles.
T to_string(T... args)