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magnum/src/Math/Matrix3.h

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#ifndef Magnum_Math_Matrix3_h
#define Magnum_Math_Matrix3_h
/*
Copyright © 2010, 2011, 2012 Vladimír Vondruš <mosra@centrum.cz>
This file is part of Magnum.
Magnum is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License version 3
only, as published by the Free Software Foundation.
Magnum is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License version 3 for more details.
*/
/** @file
* @brief Class Magnum::Math::Matrix3
*/
#include "Matrix.h"
#include "Point2D.h"
namespace Magnum { namespace Math {
/**
@brief 3x3 matrix for affine transformations in 2D
@tparam T Data type
Provides functions for transformations in 2D. See Matrix4 for 3D
transformations. See also @ref matrix-vector for brief introduction.
@see Magnum::Matrix3, SceneGraph::MatrixTransformation2D
@configurationvalueref{Magnum::Math::Matrix3}
*/
template<class T> class Matrix3: public Matrix<3, T> {
public:
/**
* @brief 2D translation matrix
* @param vector Translation vector
*
* @see translation(), Matrix4::translation(const Vector3&),
* Vector2::xAxis(), Vector2::yAxis()
*/
inline constexpr static Matrix3<T> translation(const Vector2<T>& vector) {
return Matrix3<T>( /* Column-major! */
T(1), T(0), T(0),
T(0), T(1), T(0),
vector.x(), vector.y(), T(1)
);
}
/**
* @brief 2D scaling matrix
* @param vector Scaling vector
*
* @see rotationScaling() const, Matrix4::scaling(const Vector3&),
* Vector2::xScale(), Vector2::yScale()
*/
inline constexpr static Matrix3<T> scaling(const Vector2<T>& vector) {
return Matrix3<T>( /* Column-major! */
vector.x(), T(0), T(0),
T(0), vector.y(), T(0),
T(0), T(0), T(1)
);
}
/**
* @brief 2D rotation matrix
* @param angle Rotation angle (counterclockwise, in radians)
*
* @see rotation() const, Matrix4::rotation(T, const Vector3&), deg(),
* rad()
*/
static Matrix3<T> rotation(T angle) {
T sine = std::sin(angle);
T cosine = std::cos(angle);
return Matrix3<T>( /* Column-major! */
cosine, sine, T(0),
-sine, cosine, T(0),
T(0), T(0), T(1)
);
}
/** @copydoc Matrix::Matrix(ZeroType) */
inline constexpr explicit Matrix3(typename Matrix<3, T>::ZeroType): Matrix<3, T>(Matrix<3, T>::Zero) {}
/** @copydoc Matrix::Matrix(IdentityType, T) */
inline constexpr /*implicit*/ Matrix3(typename Matrix<3, T>::IdentityType = (Matrix<3, T>::Identity), T value = T(1)): Matrix<3, T>(
value, T(0), T(0),
T(0), value, T(0),
T(0), T(0), value
) {}
/** @copydoc Matrix::Matrix */
#ifndef DOXYGEN_GENERATING_OUTPUT
template<class ...U> inline constexpr /*implicit*/ Matrix3(T first, U... next): Matrix<3, T>(first, next...) {}
#else
template<class ...U> inline constexpr /*implicit*/ Matrix3(T first, U... next) {}
#endif
/** @brief Copy constructor */
inline constexpr Matrix3(const RectangularMatrix<3, 3, T>& other): Matrix<3, T>(other) {}
/**
* @brief 2D rotation and scaling part of the matrix
*
* Upper-left 2x2 part of the matrix.
* @see rotation() const, rotation(T), Matrix4::rotationScaling() const
*/
inline Matrix<2, T> rotationScaling() const {
return Matrix<2, T>::from(
(*this)[0].xy(),
(*this)[1].xy());
}
/**
* @brief 2D rotation part of the matrix
*
* Normalized upper-left 2x2 part of the matrix.
* @see rotationScaling() const, rotation(T), Matrix4::rotation() const
*/
inline Matrix<2, T> rotation() const {
return Matrix<2, T>::from(
(*this)[0].xy().normalized(),
(*this)[1].xy().normalized());
}
/**
* @brief Right-pointing 2D vector
*
* First two elements of first column.
* @see Vector2::xAxis()
*/
inline Vector2<T>& right() { return (*this)[0].xy(); }
inline constexpr Vector2<T> right() const { return (*this)[0].xy(); } /**< @overload */
/**
* @brief Up-pointing 2D vector
*
* First two elements of second column.
* @see Vector2::yAxis()
*/
inline Vector2<T>& up() { return (*this)[1].xy(); }
inline constexpr Vector2<T> up() const { return (*this)[1].xy(); } /**< @overload */
/**
* @brief 2D translation part of the matrix
*
* First two elements of third column.
* @see translation(const Vector2&), Matrix4::translation()
*/
inline Vector2<T>& translation() { return (*this)[2].xy(); }
inline constexpr Vector2<T> translation() const { return (*this)[2].xy(); } /**< @overload */
#ifndef DOXYGEN_GENERATING_OUTPUT
inline Point2D<T> operator*(const Point2D<T>& other) const {
return Matrix<3, T>::operator*(other);
}
#endif
MAGNUM_MATRIX_SUBCLASS_IMPLEMENTATION(Matrix3, Vector3, 3)
MAGNUM_RECTANGULARMATRIX_SUBCLASS_OPERATOR_IMPLEMENTATION(3, 3, Matrix3<T>)
};
/** @debugoperator{Magnum::Math::Matrix3} */
template<class T> inline Corrade::Utility::Debug operator<<(Corrade::Utility::Debug debug, const Matrix3<T>& value) {
return debug << static_cast<const Matrix<3, T>&>(value);
}
}}
namespace Corrade { namespace Utility {
/** @configurationvalue{Magnum::Math::Matrix3} */
template<class T> struct ConfigurationValue<Magnum::Math::Matrix3<T>>: public ConfigurationValue<Magnum::Math::Matrix<3, T>> {};
}}
#endif