Eigen  3.4.90 (git rev 5a9f66fb35d03a4da9ef8976e67a61b30aa16dcf)
 
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Translation.h
1// This file is part of Eigen, a lightweight C++ template library
2// for linear algebra.
3//
4// Copyright (C) 2008 Gael Guennebaud <[email protected]>
5//
6// This Source Code Form is subject to the terms of the Mozilla
7// Public License v. 2.0. If a copy of the MPL was not distributed
8// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
9
10#ifndef EIGEN_TRANSLATION_H
11#define EIGEN_TRANSLATION_H
12
13// IWYU pragma: private
14#include "./InternalHeaderCheck.h"
15
16namespace Eigen {
17
32template <typename Scalar_, int Dim_>
33class Translation {
34 public:
35 EIGEN_MAKE_ALIGNED_OPERATOR_NEW_IF_VECTORIZABLE_FIXED_SIZE(Scalar_, Dim_)
37 enum { Dim = Dim_ };
39 typedef Scalar_ Scalar;
41 typedef Matrix<Scalar, Dim, 1> VectorType;
43 typedef Matrix<Scalar, Dim, Dim> LinearMatrixType;
45 typedef Transform<Scalar, Dim, Affine> AffineTransformType;
47 typedef Transform<Scalar, Dim, Isometry> IsometryTransformType;
48
49 protected:
50 VectorType m_coeffs;
51
52 public:
54 EIGEN_DEVICE_FUNC Translation() {}
56 EIGEN_DEVICE_FUNC inline Translation(const Scalar& sx, const Scalar& sy) {
57 eigen_assert(Dim == 2);
58 m_coeffs.x() = sx;
59 m_coeffs.y() = sy;
60 }
62 EIGEN_DEVICE_FUNC inline Translation(const Scalar& sx, const Scalar& sy, const Scalar& sz) {
63 eigen_assert(Dim == 3);
64 m_coeffs.x() = sx;
65 m_coeffs.y() = sy;
66 m_coeffs.z() = sz;
67 }
69 EIGEN_DEVICE_FUNC explicit inline Translation(const VectorType& vector) : m_coeffs(vector) {}
70
72 EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Scalar x() const { return m_coeffs.x(); }
74 EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Scalar y() const { return m_coeffs.y(); }
76 EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Scalar z() const { return m_coeffs.z(); }
77
79 EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Scalar& x() { return m_coeffs.x(); }
81 EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Scalar& y() { return m_coeffs.y(); }
83 EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Scalar& z() { return m_coeffs.z(); }
84
85 EIGEN_DEVICE_FUNC const VectorType& vector() const { return m_coeffs; }
86 EIGEN_DEVICE_FUNC VectorType& vector() { return m_coeffs; }
87
88 EIGEN_DEVICE_FUNC const VectorType& translation() const { return m_coeffs; }
89 EIGEN_DEVICE_FUNC VectorType& translation() { return m_coeffs; }
90
92 EIGEN_DEVICE_FUNC inline Translation operator*(const Translation& other) const {
93 return Translation(m_coeffs + other.m_coeffs);
94 }
95
97 EIGEN_DEVICE_FUNC inline AffineTransformType operator*(const UniformScaling<Scalar>& other) const;
98
100 template <typename OtherDerived>
101 EIGEN_DEVICE_FUNC inline AffineTransformType operator*(const EigenBase<OtherDerived>& linear) const;
102
104 template <typename Derived>
105 EIGEN_DEVICE_FUNC inline IsometryTransformType operator*(const RotationBase<Derived, Dim>& r) const {
106 return *this * IsometryTransformType(r);
107 }
108
110 // its a nightmare to define a templated friend function outside its declaration
111 template <typename OtherDerived>
112 friend EIGEN_DEVICE_FUNC inline AffineTransformType operator*(const EigenBase<OtherDerived>& linear,
113 const Translation& t) {
114 AffineTransformType res;
115 res.matrix().setZero();
116 res.linear() = linear.derived();
117 res.translation() = linear.derived() * t.m_coeffs;
118 res.matrix().row(Dim).setZero();
119 res(Dim, Dim) = Scalar(1);
120 return res;
121 }
122
124 template <int Mode, int Options>
125 EIGEN_DEVICE_FUNC inline Transform<Scalar, Dim, Mode> operator*(
126 const Transform<Scalar, Dim, Mode, Options>& t) const {
127 Transform<Scalar, Dim, Mode> res = t;
128 res.pretranslate(m_coeffs);
129 return res;
130 }
131
133 template <typename Derived>
134 inline std::enable_if_t<Derived::IsVectorAtCompileTime, VectorType> operator*(const MatrixBase<Derived>& vec) const {
135 return m_coeffs + vec.derived();
136 }
137
139 Translation inverse() const { return Translation(-m_coeffs); }
140
141 static const Translation Identity() { return Translation(VectorType::Zero()); }
142
148 template <typename NewScalarType>
149 EIGEN_DEVICE_FUNC inline typename internal::cast_return_type<Translation, Translation<NewScalarType, Dim> >::type
150 cast() const {
151 return typename internal::cast_return_type<Translation, Translation<NewScalarType, Dim> >::type(*this);
152 }
153
155 template <typename OtherScalarType>
156 EIGEN_DEVICE_FUNC inline explicit Translation(const Translation<OtherScalarType, Dim>& other) {
157 m_coeffs = other.vector().template cast<Scalar>();
158 }
159
164 EIGEN_DEVICE_FUNC bool isApprox(const Translation& other, const typename NumTraits<Scalar>::Real& prec =
165 NumTraits<Scalar>::dummy_precision()) const {
166 return m_coeffs.isApprox(other.m_coeffs, prec);
167 }
168};
169
172typedef Translation<float, 2> Translation2f;
173typedef Translation<double, 2> Translation2d;
174typedef Translation<float, 3> Translation3f;
175typedef Translation<double, 3> Translation3d;
177
178template <typename Scalar, int Dim>
179EIGEN_DEVICE_FUNC inline typename Translation<Scalar, Dim>::AffineTransformType Translation<Scalar, Dim>::operator*(
180 const UniformScaling<Scalar>& other) const {
181 AffineTransformType res;
182 res.matrix().setZero();
183 res.linear().diagonal().fill(other.factor());
184 res.translation() = m_coeffs;
185 res(Dim, Dim) = Scalar(1);
186 return res;
187}
188
189template <typename Scalar, int Dim>
190template <typename OtherDerived>
191EIGEN_DEVICE_FUNC inline typename Translation<Scalar, Dim>::AffineTransformType Translation<Scalar, Dim>::operator*(
192 const EigenBase<OtherDerived>& linear) const {
193 AffineTransformType res;
194 res.matrix().setZero();
195 res.linear() = linear.derived();
196 res.translation() = m_coeffs;
197 res.matrix().row(Dim).setZero();
198 res(Dim, Dim) = Scalar(1);
199 return res;
200}
201
202} // end namespace Eigen
203
204#endif // EIGEN_TRANSLATION_H
Eigen::DenseCoeffsBase< Derived, DirectWriteAccessors >::derived
Derived & derived()
Definition EigenBase.h:49
Eigen::MatrixBase
Base class for all dense matrices, vectors, and expressions.
Definition MatrixBase.h:52
Eigen::Matrix
The matrix class, also used for vectors and row-vectors.
Definition Matrix.h:186
Eigen::PlainObjectBase::setZero
Derived & setZero(Index size)
Definition CwiseNullaryOp.h:563
Eigen::RotationBase
Common base class for compact rotation representations.
Definition RotationBase.h:32
Eigen::Transform
Represents an homogeneous transformation in a N dimensional space.
Definition Transform.h:192
Eigen::Transform::linear
ConstLinearPart linear() const
Definition Transform.h:374
Eigen::Transform::translation
ConstTranslationPart translation() const
Definition Transform.h:384
Eigen::Transform::matrix
const MatrixType & matrix() const
Definition Transform.h:369
Eigen::Translation
Represents a translation transformation.
Definition Translation.h:33
Eigen::Translation::IsometryTransformType
Transform< Scalar, Dim, Isometry > IsometryTransformType
Definition Translation.h:47
Eigen::Translation::Translation
Translation(const VectorType &vector)
Definition Translation.h:69
Eigen::Translation::LinearMatrixType
Matrix< Scalar, Dim, Dim > LinearMatrixType
Definition Translation.h:43
Eigen::Translation::AffineTransformType
Transform< Scalar, Dim, Affine > AffineTransformType
Definition Translation.h:45
Eigen::Translation::operator*
Translation operator*(const Translation &other) const
Definition Translation.h:92
Eigen::Translation::y
EIGEN_CONSTEXPR Scalar & y()
Returns the y-translation as a reference.
Definition Translation.h:81
Eigen::Translation::operator*
std::enable_if_t< Derived::IsVectorAtCompileTime, VectorType > operator*(const MatrixBase< Derived > &vec) const
Definition Translation.h:134
Eigen::Translation::operator*
IsometryTransformType operator*(const RotationBase< Derived, Dim > &r) const
Definition Translation.h:105
Eigen::Translation::y
EIGEN_CONSTEXPR Scalar y() const
Returns the y-translation by value.
Definition Translation.h:74
Eigen::Translation::isApprox
bool isApprox(const Translation &other, const typename NumTraits< Scalar >::Real &prec=NumTraits< Scalar >::dummy_precision()) const
Definition Translation.h:164
Eigen::Translation::VectorType
Matrix< Scalar, Dim, 1 > VectorType
Definition Translation.h:41
Eigen::Translation::Scalar
Scalar_ Scalar
Definition Translation.h:39
Eigen::Translation::operator*
Transform< Scalar, Dim, Mode > operator*(const Transform< Scalar, Dim, Mode, Options > &t) const
Definition Translation.h:125
Eigen::Translation::operator*
friend AffineTransformType operator*(const EigenBase< OtherDerived > &linear, const Translation &t)
Definition Translation.h:112
Eigen::Translation::z
EIGEN_CONSTEXPR Scalar z() const
Returns the z-translation by value.
Definition Translation.h:76
Eigen::Translation::Translation
Translation()
Definition Translation.h:54
Eigen::Translation::x
EIGEN_CONSTEXPR Scalar & x()
Returns the x-translation as a reference.
Definition Translation.h:79
Eigen::Translation::z
EIGEN_CONSTEXPR Scalar & z()
Returns the z-translation as a reference.
Definition Translation.h:83
Eigen::Translation::x
EIGEN_CONSTEXPR Scalar x() const
Returns the x-translation by value.
Definition Translation.h:72
Eigen::Translation::Translation
Translation(const Translation< OtherScalarType, Dim > &other)
Definition Translation.h:156
Eigen::Translation::inverse
Translation inverse() const
Definition Translation.h:139
Eigen::Translation::cast
internal::cast_return_type< Translation, Translation< NewScalarType, Dim > >::type cast() const
Definition Translation.h:150
Eigen::UniformScaling
Represents a generic uniform scaling transformation.
Definition Scaling.h:47
Eigen
Namespace containing all symbols from the Eigen library.
Definition Core:137
Eigen::EigenBase
Definition EigenBase.h:33
Eigen::EigenBase::derived
Derived & derived()
Definition EigenBase.h:49
Eigen::NumTraits
Holds information about the various numeric (i.e. scalar) types allowed by Eigen.
Definition Meta.h:523