A 3x3 matrix with real entries stored in double precision. More...

#include <Matrix3d.h>

Public Member Functions
	Matrix3d ()
	This constructor creates a zero matrix. More...

	Matrix3d (double m00, double m01, double m02, double m10, double m11, double m12, double m20, double m21, double m22)
	This constructor creates a matrix from its components, where `mij` specifies the component for row `i` and column `j`. More...

	Matrix3d (Vector3d const &v)
	This constructor creates a diagonal matrix with diagonal components set to the components of `v`. More...

	Matrix3d (double s)
	This constructor returns the identity matrix scaled by `s`. More...

bool	operator== (Matrix3d const &m) const

bool	operator!= (Matrix3d const &m) const

Vector3d	getRow (int r) const
	`getRow` returns the `r`-th matrix row. Bounds are not checked. More...

Vector3d const &	getColumn (int c) const
	`getColumn` returns the `c`-th matrix column. Bounds are not checked. More...

double	operator() (int r, int c) const
	The function call operator returns the scalar at row `r` and column `c`. More...

double	inner (Matrix3d const &m) const
	`inner` returns the Frobenius inner product of this matrix with `m`. More...

double	getSquaredNorm () const
	`getSquaredNorm` returns the Frobenius inner product of this matrix with itself. More...

double	getNorm () const
	`getNorm` returns the L2 (Frobenius) norm of this matrix. More...

Vector3d	operator* (Vector3d const &v) const
	The multiplication operator returns the product of this matrix with vector `v`. More...

Matrix3d	operator* (Matrix3d const &m) const
	The multiplication operator returns the product of this matrix with matrix `m`. More...

Matrix3d	operator+ (Matrix3d const &m) const
	The addition operator returns the sum of this matrix and `m`. More...

Matrix3d	operator- (Matrix3d const &m) const
	The subtraction operator returns the difference between this matrix and `m`. More...

Matrix3d	cwiseProduct (Matrix3d const &m) const
	`cwiseProduct` returns the component-wise product of this matrix and `m`. More...

Matrix3d	transpose () const
	`transpose` returns the transpose of this matrix. More...

Matrix3d	inverse () const
	`inverse` returns the inverse of this matrix. More...

Detailed Description

A 3x3 matrix with real entries stored in double precision.

Definition at line 38 of file Matrix3d.h.

Constructor & Destructor Documentation

◆ Matrix3d() [1/4]

lsst::sphgeom::Matrix3d::Matrix3d ( )

inline

This constructor creates a zero matrix.

Definition at line 41 of file Matrix3d.h.

41{}

◆ Matrix3d() [2/4]

lsst::sphgeom::Matrix3d::Matrix3d	(	double	m00,
		double	m01,
		double	m02,
		double	m10,
		double	m11,
		double	m12,
		double	m20,
		double	m21,
		double	m22
	)

inline

This constructor creates a matrix from its components, where mij specifies the component for row i and column j.

Definition at line 45 of file Matrix3d.h.

    {
        _c[0] = Vector3d(m00, m10, m20);
        _c[1] = Vector3d(m01, m11, m21);
        _c[2] = Vector3d(m02, m12, m22);
    }

◆ Matrix3d() [3/4]

lsst::sphgeom::Matrix3d::Matrix3d ( Vector3d const & v )

inlineexplicit

This constructor creates a diagonal matrix with diagonal components set to the components of v.

Definition at line 56 of file Matrix3d.h.

                                          {
        _c[0] = Vector3d(v.x(), 0.0, 0.0);
        _c[1] = Vector3d(0.0, v.y(), 0.0);
        _c[2] = Vector3d(0.0, 0.0, v.z());
    }

◆ Matrix3d() [4/4]

lsst::sphgeom::Matrix3d::Matrix3d ( double s )

inlineexplicit

This constructor returns the identity matrix scaled by s.

Definition at line 63 of file Matrix3d.h.

                                {
        _c[0] = Vector3d(s, 0.0, 0.0);
        _c[1] = Vector3d(0.0, s, 0.0);
        _c[2] = Vector3d(0.0, 0.0, s);
    }

Member Function Documentation

◆ cwiseProduct()

Matrix3d lsst::sphgeom::Matrix3d::cwiseProduct ( Matrix3d const & m ) const

inline

cwiseProduct returns the component-wise product of this matrix and m.

Definition at line 136 of file Matrix3d.h.

                                                    {
        Matrix3d r;
        for (int i = 0; i < 3; ++i) { r._c[i] = _c[i].cwiseProduct(m._c[i]); }
        return r;
    }

◆ getColumn()

Vector3d const & lsst::sphgeom::Matrix3d::getColumn ( int c ) const

inline

getColumn returns the c-th matrix column. Bounds are not checked.

Definition at line 87 of file Matrix3d.h.

87{ return _c[c]; }

◆ getNorm()

double lsst::sphgeom::Matrix3d::getNorm ( ) const

inline

getNorm returns the L2 (Frobenius) norm of this matrix.

Definition at line 105 of file Matrix3d.h.

105{ return std::sqrt(getSquaredNorm()); }

lsst::sphgeom::Matrix3d::getSquaredNorm

double getSquaredNorm() const

getSquaredNorm returns the Frobenius inner product of this matrix with itself.

Definition: Matrix3d.h:102

std::sqrt

T sqrt(T... args)

◆ getRow()

Vector3d lsst::sphgeom::Matrix3d::getRow ( int r ) const

inline

getRow returns the r-th matrix row. Bounds are not checked.

Definition at line 82 of file Matrix3d.h.

                                 {
        return Vector3d(getColumn(0)(r), getColumn(1)(r), getColumn(2)(r));
    }

◆ getSquaredNorm()

double lsst::sphgeom::Matrix3d::getSquaredNorm ( ) const

inline

getSquaredNorm returns the Frobenius inner product of this matrix with itself.

Definition at line 102 of file Matrix3d.h.

102{ return inner(*this); }

lsst::sphgeom::Matrix3d::inner

double inner(Matrix3d const &m) const

inner returns the Frobenius inner product of this matrix with m.

Definition: Matrix3d.h:94

◆ inner()

double lsst::sphgeom::Matrix3d::inner ( Matrix3d const & m ) const

inline

inner returns the Frobenius inner product of this matrix with m.

Definition at line 94 of file Matrix3d.h.

                                           {
        Matrix3d p = cwiseProduct(m);
        Vector3d sum = p._c[0] + p._c[1] + p._c[2];
        return sum(0) + sum(1) + sum(2);
    }

◆ inverse()

Matrix3d lsst::sphgeom::Matrix3d::inverse ( ) const

inline

inverse returns the inverse of this matrix.

Definition at line 152 of file Matrix3d.h.

                             {
        Matrix3d inv;
        Matrix3d const & m = *this;
        // Find the first column of Adj(m), the adjugate matrix of m.
        Vector3d a0(m(1, 1) * m(2, 2) - m(2, 1) * m(1, 2),
                    m(1, 2) * m(2, 0) - m(2, 2) * m(1, 0),
                    m(1, 0) * m(2, 1) - m(2, 0) * m(1, 1));
        // Find 1.0/det(m), where the determinant of m is the dot product of
        // the first row of m with the first column of Adj(m).
        double rdet = 1.0 / (a0(0) * m(0,0) + a0(1) * m(0,1) + a0(2) * m(0,2));
        // The inverse of m is Adj(m)/det(m); compute it column by column.
        inv._c[0] = a0 * rdet;
        inv._c[1] = Vector3d((m(0, 2) * m(2, 1) - m(2, 2) * m(0, 1)) * rdet,
                             (m(0, 0) * m(2, 2) - m(2, 0) * m(0, 2)) * rdet,
                             (m(0, 1) * m(2, 0) - m(2, 1) * m(0, 0)) * rdet);
        inv._c[2] = Vector3d((m(0, 1) * m(1, 2) - m(1, 1) * m(0, 2)) * rdet,
                             (m(0, 2) * m(1, 0) - m(1, 2) * m(0, 0)) * rdet,
                             (m(0, 0) * m(1, 1) - m(1, 0) * m(0, 1)) * rdet);
        return inv;
    }

◆ operator!=()

bool lsst::sphgeom::Matrix3d::operator!= ( Matrix3d const & m ) const

inline

Definition at line 75 of file Matrix3d.h.

                                              {
        return _c[0] != m._c[0] ||
               _c[1] != m._c[1] ||
               _c[2] != m._c[2];
    }

◆ operator()()

double lsst::sphgeom::Matrix3d::operator()	(	int	r,
		int	c
	)		const

inline

The function call operator returns the scalar at row r and column c.

Bounds are not checked.

Definition at line 91 of file Matrix3d.h.

91{ return getColumn(c)(r); }

◆ operator*() [1/2]

Matrix3d lsst::sphgeom::Matrix3d::operator* ( Matrix3d const & m ) const

inline

The multiplication operator returns the product of this matrix with matrix m.

Definition at line 115 of file Matrix3d.h.

                                                 {
        Matrix3d r;
        for (int i = 0; i < 3; ++i) { r._c[i] = this->operator*(m._c[i]); }
        return r;
    }

◆ operator*() [2/2]

Vector3d lsst::sphgeom::Matrix3d::operator* ( Vector3d const & v ) const

inline

The multiplication operator returns the product of this matrix with vector v.

Definition at line 109 of file Matrix3d.h.

                                                 {
        return Vector3d(_c[0] * v(0) + _c[1] * v(1) + _c[2] * v(2));
    }

◆ operator+()

Matrix3d lsst::sphgeom::Matrix3d::operator+ ( Matrix3d const & m ) const

inline

The addition operator returns the sum of this matrix and m.

Definition at line 122 of file Matrix3d.h.

                                                 {
        Matrix3d r;
        for (int i = 0; i < 3; ++i) { r._c[i] = _c[i] + m._c[i]; }
        return r;
    }

◆ operator-()

Matrix3d lsst::sphgeom::Matrix3d::operator- ( Matrix3d const & m ) const

inline

The subtraction operator returns the difference between this matrix and m.

Definition at line 129 of file Matrix3d.h.

                                                 {
        Matrix3d r;
        for (int i = 0; i < 3; ++i) { r._c[i] = _c[i] - m._c[i]; }
        return r;
    }

◆ operator==()

bool lsst::sphgeom::Matrix3d::operator== ( Matrix3d const & m ) const

inline

Definition at line 69 of file Matrix3d.h.

                                              {
        return _c[0] == m._c[0] &&
               _c[1] == m._c[1] &&
               _c[2] == m._c[2];
    }

◆ transpose()

Matrix3d lsst::sphgeom::Matrix3d::transpose ( ) const

inline

transpose returns the transpose of this matrix.

Definition at line 143 of file Matrix3d.h.

                               {
        Matrix3d t;
        t._c[0] = Vector3d(_c[0].x(), _c[1].x(), _c[2].x());
        t._c[1] = Vector3d(_c[0].y(), _c[1].y(), _c[2].y());
        t._c[2] = Vector3d(_c[0].z(), _c[1].z(), _c[2].z());
        return t;
    }

The documentation for this class was generated from the following file:

/j/snowflake/release/lsstsw/stack/lsst-scipipe-4.0.1/Linux64/sphgeom/ga1cf026fa3+ac198e9f13/include/lsst/sphgeom/Matrix3d.h

Public Member Functions

Detailed Description

Constructor & Destructor Documentation

◆ Matrix3d() [1/4]

◆ Matrix3d() [2/4]

◆ Matrix3d() [3/4]

◆ Matrix3d() [4/4]

Member Function Documentation

◆ cwiseProduct()

◆ getColumn()

◆ getNorm()

◆ getRow()

◆ getSquaredNorm()

◆ inner()

◆ inverse()

◆ operator!=()

◆ operator()()

◆ operator*() [1/2]

◆ operator*() [2/2]

◆ operator+()

◆ operator-()

◆ operator==()

◆ transpose()