/usr/include/libwildmagic/Wm5Matrix2.h is in libwildmagic-dev 5.13-1ubuntu1.
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// Copyright (c) 1998-2014
// Distributed under the Boost Software License, Version 1.0.
// http://www.boost.org/LICENSE_1_0.txt
// http://www.geometrictools.com/License/Boost/LICENSE_1_0.txt
//
// File Version: 5.0.1 (2010/10/01)
#ifndef WM5MATRIX2_H
#define WM5MATRIX2_H
// Rotation matrices are of the form
// R = cos(t) -sin(t)
// sin(t) cos(t)
// where t > 0 indicates a counterclockwise rotation in the xy-plane.
#include "Wm5MathematicsLIB.h"
#include "Wm5Table.h"
#include "Wm5Vector2.h"
namespace Wm5
{
template <typename Real>
class Matrix2 : public Table<2,2,Real>
{
public:
// If makeZero is 'true', create the zero matrix; otherwise, create the
// identity matrix.
Matrix2 (bool makeZero = true);
// Copy constructor.
Matrix2 (const Matrix2& mat);
// Input mrc is in row r, column c.
Matrix2 (Real m00, Real m01, Real m10, Real m11);
// Create a matrix from an array of numbers. The input array is
// interpreted based on the bool input as
// true: entry[0..3] = {m00,m01,m10,m11} [row major]
// false: entry[0..3] = {m00,m10,m01,m11} [column major]
Matrix2 (const Real entry[4], bool rowMajor);
// Create matrices based on vector input. The bool is interpreted as
// true: vectors are columns of the matrix
// false: vectors are rows of the matrix
Matrix2 (const Vector2<Real>& u, const Vector2<Real>& v,
bool columns);
Matrix2 (const Vector2<Real>* vectors, bool columns);
// Create a diagonal matrix, m01 = m10 = 0.
Matrix2 (Real m00, Real m11);
// Create a rotation matrix (positive angle -> counterclockwise).
Matrix2 (Real angle);
// Create a tensor product U*V^T.
Matrix2 (const Vector2<Real>& u, const Vector2<Real>& v);
// Assignment.
Matrix2& operator= (const Matrix2& mat);
// Create various matrices.
void MakeZero ();
void MakeIdentity ();
void MakeDiagonal (Real m00, Real m11);
void MakeRotation (Real angle);
void MakeTensorProduct (const Vector2<Real>& u, const Vector2<Real>& v);
// Arithmetic operations.
Matrix2 operator+ (const Matrix2& mat) const;
Matrix2 operator- (const Matrix2& mat) const;
Matrix2 operator* (Real scalar) const;
Matrix2 operator/ (Real scalar) const;
Matrix2 operator- () const;
// Arithmetic updates.
Matrix2& operator+= (const Matrix2& mat);
Matrix2& operator-= (const Matrix2& mat);
Matrix2& operator*= (Real scalar);
Matrix2& operator/= (Real scalar);
// M*vec
Vector2<Real> operator* (const Vector2<Real>& vec) const;
// u^T*M*v
Real QForm (const Vector2<Real>& u, const Vector2<Real>& v) const;
// M^T
Matrix2 Transpose () const;
// M*mat
Matrix2 operator* (const Matrix2& mat) const;
// M^T*mat
Matrix2 TransposeTimes (const Matrix2& mat) const;
// M*mat^T
Matrix2 TimesTranspose (const Matrix2& mat) const;
// M^T*mat^T
Matrix2 TransposeTimesTranspose (const Matrix2& mat) const;
// Other operations.
Matrix2 Inverse (const Real epsilon = (Real)0) const;
Matrix2 Adjoint () const;
Real Determinant () const;
// The matrix must be a rotation for these functions to be valid. The
// last function uses Gram-Schmidt orthonormalization applied to the
// columns of the rotation matrix. The angle must be in radians, not
// degrees.
void ExtractAngle (Real& angle) const;
void Orthonormalize ();
// The matrix must be symmetric. Factor M = R * D * R^T where
// R = [u0|u1] is a rotation matrix with columns u0 and u1 and
// D = diag(d0,d1) is a diagonal matrix whose diagonal entries are d0
// and d1. The eigenvector u[i] corresponds to eigenvector d[i]. The
// eigenvalues are ordered as d0 <= d1.
void EigenDecomposition (Matrix2& rot, Matrix2& diag) const;
// Special matrices.
WM5_MATHEMATICS_ITEM static const Matrix2 ZERO;
WM5_MATHEMATICS_ITEM static const Matrix2 IDENTITY;
protected:
using Table<2,2,Real>::mEntry;
};
// c * M
template <typename Real>
inline Matrix2<Real> operator* (Real scalar, const Matrix2<Real>& mat);
// v^T * M
template <typename Real>
inline Vector2<Real> operator* (const Vector2<Real>& vec,
const Matrix2<Real>& mat);
#include "Wm5Matrix2.inl"
typedef Matrix2<float> Matrix2f;
typedef Matrix2<double> Matrix2d;
}
#endif
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