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LSST Data Management Base Package
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_AffineTransform.cc
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1/*
2 * Developed for the LSST Data Management System.
3 * This product includes software developed by the LSST Project
4 * (https://www.lsst.org).
5 * See the COPYRIGHT file at the top-level directory of this distribution
6 * for details of code ownership.
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 GNU General Public License
19 * along with this program. If not, see <https://www.gnu.org/licenses/>.
20 */
21
22#include "pybind11/pybind11.h"
23#include "pybind11/eigen.h"
24#include "pybind11/stl.h"
25
26#include "ndarray/pybind11.h"
27
29#include "lsst/utils/python.h"
30
31namespace py = pybind11;
32using namespace pybind11::literals;
33
34namespace lsst {
35namespace geom {
36
37void wrapAffineTransform(utils::python::WrapperCollection & wrappers) {
38 wrappers.wrapType(
39 py::class_<AffineTransform, std::shared_ptr<AffineTransform>>(wrappers.module, "AffineTransform"),
40 [](auto & mod, auto & cls) mutable {
41
42 // Parameters enum is really only used as integer constants.
43 cls.attr("XX") = py::cast(int(AffineTransform::Parameters::XX));
44 cls.attr("YX") = py::cast(int(AffineTransform::Parameters::YX));
45 cls.attr("XY") = py::cast(int(AffineTransform::Parameters::XY));
46 cls.attr("YY") = py::cast(int(AffineTransform::Parameters::YY));
47 cls.attr("X") = py::cast(int(AffineTransform::Parameters::X));
48 cls.attr("Y") = py::cast(int(AffineTransform::Parameters::Y));
49
50 /* Constructors */
51 cls.def(py::init<>());
52 cls.def(py::init<Eigen::Matrix3d const &>(), "matrix"_a);
53 cls.def(py::init<Eigen::Matrix2d const &>(), "linear"_a);
54 cls.def(py::init<Eigen::Vector2d const &>(), "translation"_a);
55 cls.def(py::init<Eigen::Matrix2d const &, Eigen::Vector2d const &>(),
56 "linear"_a, "translation"_a);
57 cls.def(py::init<LinearTransform const &>(), "linear"_a);
58 cls.def(py::init<Extent2D const &>(), "translation"_a);
59 cls.def(py::init<LinearTransform const &, Extent2D const &>(), "linear"_a, "translation"_a);
60
61 /* Operators and special methods */
62 cls.def("__mul__", &AffineTransform::operator*, py::is_operator());
63 cls.def("__call__",
64 py::overload_cast<Point2D const &>(&AffineTransform::operator(), py::const_));
65 cls.def("__call__",
66 py::overload_cast<Extent2D const &>(&AffineTransform::operator(), py::const_));
67 cls.def("__call__",
68 // We use pybind11's wrappers for the Python C API to
69 // delegate to other wrapped methods because:
70 // - defining this in pure Python is tricky because it's
71 // an overload, not a standalone method;
72 // - we'd rather not add a new pure-Python file just for
73 // this;
74 // - using py::vectorize internal to the method would
75 // involve defining a new internal callable every time
76 // this method is called.
77 // The other viable alternative would be to define
78 // applyX and applyY as Python callables with py::vectorize
79 // outside the lambda as C++ local variables, and then
80 // capture them by value in the lambda. This just seems
81 // slightly cleaner, as it's closer to how one would
82 // implement this in pure Python, if it wasn't an overload.
83 [](py::object self, py::object x, py::object y) {
84 return py::make_tuple(self.attr("applyX")(x, y),
85 self.attr("applyY")(x, y));
86 },
87 "x"_a, "y"_a);
88 cls.def("__setitem__", [](AffineTransform &self, int i, double value) {
89 if (i < 0 || i > 5) {
90 PyErr_Format(PyExc_IndexError, "Invalid index for AffineTransform: %d", i);
91 throw py::error_already_set();
92 }
93 self[i] = value;
94 });
95 cls.def("__getitem__", [](AffineTransform const &self, int row, int col) {
96 if (row < 0 || row > 2 || col < 0 || col > 2) {
97 PyErr_Format(PyExc_IndexError, "Invalid index for AffineTransform: %d, %d", row, col);
98 throw py::error_already_set();
99 }
100 return (self.getMatrix())(row, col);
101 });
102 cls.def("__getitem__", [](AffineTransform const &self, int i) {
103 if (i < 0 || i > 5) {
104 PyErr_Format(PyExc_IndexError, "Invalid index for AffineTransform: %d", i);
105 throw py::error_already_set();
106 }
107 return self[i];
108 });
109 cls.def("__str__", [](AffineTransform const &self) {
110 return py::str(py::cast(self.getMatrix())); }
111 );
112 cls.def("__repr__", [](AffineTransform const &self) {
113 return py::str("AffineTransform(\n{}\n)").format(py::cast(self.getMatrix()));
114 });
115 cls.def("__reduce__", [cls](AffineTransform const &self) {
116 return py::make_tuple(cls, py::make_tuple(py::cast(self.getMatrix())));
117 });
118
119 /* Members */
120 cls.def("inverted", &AffineTransform::inverted);
121 cls.def("isIdentity", &AffineTransform::isIdentity);
122 cls.def("getTranslation", (Extent2D & (AffineTransform::*)()) & AffineTransform::getTranslation);
123 cls.def("getLinear", (LinearTransform & (AffineTransform::*)()) & AffineTransform::getLinear);
124 cls.def("getMatrix", &AffineTransform::getMatrix);
125 cls.def("getParameterVector", &AffineTransform::getParameterVector);
126 cls.def("setParameterVector", &AffineTransform::setParameterVector);
127 cls.def("applyX", py::vectorize(&AffineTransform::applyX), "x"_a, "y"_a);
128 cls.def("applyY", py::vectorize(&AffineTransform::applyY), "x"_a, "y"_a);
129 cls.def_static("makeScaling", py::overload_cast<double>(&AffineTransform::makeScaling));
130 cls.def_static("makeScaling", py::overload_cast<double, double>(&AffineTransform::makeScaling));
131 cls.def_static("makeRotation", &AffineTransform::makeRotation, "angle"_a);
132 cls.def_static("makeTranslation", &AffineTransform::makeTranslation, "translation"_a);
133
134 /* Non-members */
135 mod.def("makeAffineTransformFromTriple", makeAffineTransformFromTriple);
136 }
137 );
138}
139
140} // namespace geom
141} // namespace lsst
An affine coordinate transformation consisting of a linear transformation and an offset.
static AffineTransform makeRotation(Angle t) noexcept
Construct a new AffineTransform that represents a CCW rotation in radians.
bool isIdentity() const noexcept
Whether the transform is a no-op.
void setParameterVector(ParameterVector const &vector) noexcept
Set the transform matrix elements from a parameter vector.
Matrix const getMatrix() const noexcept
Return the transform as a full 3x3 matrix.
double applyY(double x, double y) const noexcept
ParameterVector const getParameterVector() const noexcept
Return the transform matrix elements as a parameter vector.
AffineTransform const inverted() const
Return the inverse transform.
Extent2D const & getTranslation() const noexcept
static AffineTransform makeTranslation(Extent2D translation) noexcept
Construct a new AffineTransform that represents a pure translation.
static AffineTransform makeScaling(double s) noexcept
Construct a new AffineTransform that represents a uniform scaling.
double applyX(double x, double y) const noexcept
Transform a point given and returned as separate double values.
LinearTransform const & getLinear() const noexcept
A 2D linear coordinate transformation.
void wrapAffineTransform(utils::python::WrapperCollection &wrappers)
AffineTransform makeAffineTransformFromTriple(Point2D const &p1, Point2D const &p2, Point2D const &p3, Point2D const &q1, Point2D const &q2, Point2D const &q3)
int row
Definition: CR.cc:145
int col
Definition: CR.cc:144