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LSST Data Management Base Package
_matrix3d.cc
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1/*
2 * LSST Data Management System
3 * See COPYRIGHT file at the top of the source tree.
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 <https://www.lsstcorp.org/LegalNotices/>.
21 */
22#include "pybind11/pybind11.h"
23
24#include "lsst/sphgeom/python.h"
25
28
29namespace py = pybind11;
30using namespace pybind11::literals;
31
32namespace lsst {
33namespace sphgeom {
34
35namespace {
36Vector3d getRow(Matrix3d const &self, py::int_ row) {
37 return self.getRow(static_cast<int>(python::convertIndex(3, row)));
38}
39}
40
41template <>
43 cls.def(py::init<>());
44 cls.def(py::init<double, double, double, double, double, double, double,
45 double, double>(),
46 "m00"_a, "m01"_a, "m02"_a, "m10"_a, "m11"_a, "m12"_a, "m20"_a,
47 "m21"_a, "m22"_a);
48 cls.def(py::init<Vector3d const &>(), "diagonal"_a);
49 cls.def(py::init<double>(), "scale"_a);
50 cls.def(py::init<Matrix3d const &>(), "matrix"_a);
51
52 cls.def("__eq__", &Matrix3d::operator==, py::is_operator());
53 cls.def("__ne__", &Matrix3d::operator!=, py::is_operator());
54
55 // Add bounds checking to getRow and getColumn
56 cls.def("getRow", &getRow, "row"_a);
57 cls.def("getColumn",
58 [](Matrix3d const &self, py::int_ col) {
59 return self.getColumn(
60 static_cast<int>(python::convertIndex(3, col)));
61 },
62 "col"_a);
63
64 cls.def("__len__", [](Matrix3d const &self) { return py::int_(3); });
65 cls.def("__getitem__", &getRow, py::is_operator());
66 cls.def("__getitem__",
67 [](Matrix3d const &self, py::tuple t) {
68 if (t.size() > 2) {
69 throw py::index_error("Too many indexes for Matrix3d");
70 } else if (t.size() == 0) {
71 return py::cast(self);
72 } else if (t.size() == 1) {
73 return py::cast(getRow(self, t[0].cast<py::int_>()));
74 }
75 return py::cast(
76 self(python::convertIndex(3, t[0].cast<py::int_>()),
77 python::convertIndex(3, t[1].cast<py::int_>())));
78 },
79 py::is_operator());
80
81 cls.def("inner", &Matrix3d::inner, "matrix"_a);
82 cls.def("getSquaredNorm", &Matrix3d::getSquaredNorm);
83 cls.def("getNorm", &Matrix3d::getNorm);
84
85 cls.def("__mul__",
86 (Vector3d(Matrix3d::*)(Vector3d const &) const) &
87 Matrix3d::operator*,
88 "vector"_a, py::is_operator());
89 cls.def("__mul__",
90 (Matrix3d(Matrix3d::*)(Matrix3d const &) const) &
91 Matrix3d::operator*,
92 "matrix"_a, py::is_operator());
93 cls.def("__add__", &Matrix3d::operator+, py::is_operator());
94 cls.def("__sub__", &Matrix3d::operator-, py::is_operator());
95
96 cls.def("cwiseProduct", &Matrix3d::cwiseProduct);
97 cls.def("transpose", &Matrix3d::transpose);
98 cls.def("inverse", &Matrix3d::inverse);
99
100 cls.def("__str__", [](Matrix3d const &self) {
101 return py::str("[[{!s}, {!s}, {!s}],\n"
102 " [{!s}, {!s}, {!s}],\n"
103 " [{!s}, {!s}, {!s}]]")
104 .format(self(0, 0), self(0, 1), self(0, 2), self(1, 0),
105 self(1, 1), self(1, 2), self(2, 0), self(2, 1),
106 self(2, 2));
107 });
108 cls.def("__repr__", [](Matrix3d const &self) {
109 return py::str("Matrix3d({!r}, {!r}, {!r},\n"
110 " {!r}, {!r}, {!r},\n"
111 " {!r}, {!r}, {!r})")
112 .format(self(0, 0), self(0, 1), self(0, 2), self(1, 0),
113 self(1, 1), self(1, 2), self(2, 0), self(2, 1),
114 self(2, 2));
115 });
116 cls.def("__reduce__", [cls](Matrix3d const &self) {
117 auto args = py::make_tuple(self(0, 0), self(0, 1), self(0, 2),
118 self(1, 0), self(1, 1), self(1, 2),
119 self(2, 0), self(2, 1), self(2, 2));
120 return py::make_tuple(cls, args);
121 });
122}
123
124} // sphgeom
125} // lsst
This file contains a class representing 3x3 real matrices.
A 3x3 matrix with real entries stored in double precision.
Definition: Matrix3d.h:38
Matrix3d inverse() const
inverse returns the inverse of this matrix.
Definition: Matrix3d.h:152
double getNorm() const
getNorm returns the L2 (Frobenius) norm of this matrix.
Definition: Matrix3d.h:105
double inner(Matrix3d const &m) const
inner returns the Frobenius inner product of this matrix with m.
Definition: Matrix3d.h:94
Matrix3d transpose() const
transpose returns the transpose of this matrix.
Definition: Matrix3d.h:143
Matrix3d cwiseProduct(Matrix3d const &m) const
cwiseProduct returns the component-wise product of this matrix and m.
Definition: Matrix3d.h:136
double getSquaredNorm() const
getSquaredNorm returns the Frobenius inner product of this matrix with itself.
Definition: Matrix3d.h:102
Vector3d is a vector in ℝ³ with components stored in double precision.
Definition: Vector3d.h:44
ptrdiff_t convertIndex(ptrdiff_t len, pybind11::int_ i)
Convert a Python index i over a sequence with length len to a non-negative (C++ style) index,...
Definition: utils.h:40
void defineClass(Pybind11Class &cls)
A base class for image defects.
int row
Definition: CR.cc:145
int col
Definition: CR.cc:144