Rotation given by a cosine-sine pair. More...

#include <Jacobi.h>

Public Types
typedef NumTraits< Scalar >::Real	RealScalar
Public Member Functions
JacobiRotation	adjoint () const
Scalar &	c ()
Scalar	c () const
	JacobiRotation ()
	JacobiRotation (const Scalar &c, const Scalar &s)
void	makeGivens (const Scalar &p, const Scalar &q, Scalar *z=0)
template<typename Derived >
bool	makeJacobi (const MatrixBase< Derived > &, typename Derived::Index p, typename Derived::Index q)
bool	makeJacobi (RealScalar x, Scalar y, RealScalar z)
JacobiRotation	operator* (const JacobiRotation &other)
Scalar &	s ()
Scalar	s () const
JacobiRotation	transpose () const
Protected Member Functions
void	makeGivens (const Scalar &p, const Scalar &q, Scalar *z, internal::true_type)
void	makeGivens (const Scalar &p, const Scalar &q, Scalar *z, internal::false_type)
Protected Attributes
Scalar	m_c
Scalar	m_s

Detailed Description

template<typename Scalar>
class Eigen::JacobiRotation< Scalar >

Rotation given by a cosine-sine pair.

This class represents a Jacobi or Givens rotation. This is a 2D rotation in the plane J of angle $\theta$ defined by its cosine c and sine s as follow: $J = \left ( \begin{array}{cc} c & \overline s \\ -s & \overline c \end{array} \right )$

You can apply the respective counter-clockwise rotation to a column vector v by applying its adjoint on the left: $ v = J^* v $ that translates to the following Eigen code:

 v.applyOnTheLeft(J.adjoint());

See also:: MatrixBase::applyOnTheLeft(), MatrixBase::applyOnTheRight()

Definition at line 34 of file Jacobi.h.

Member Typedef Documentation

template<typename Scalar>

typedef NumTraits<Scalar>::Real Eigen::JacobiRotation< Scalar >::RealScalar

Definition at line 37 of file Jacobi.h.

Constructor & Destructor Documentation

template<typename Scalar>

Eigen::JacobiRotation< Scalar >::JacobiRotation ( ) [inline]

Default constructor without any initialization.

Definition at line 40 of file Jacobi.h.

template<typename Scalar>

Eigen::JacobiRotation< Scalar >::JacobiRotation	(	const Scalar &	c,
		const Scalar &	s
	)		`[inline]`

Construct a planar rotation from a cosine-sine pair (c, s).

Definition at line 43 of file Jacobi.h.

Member Function Documentation

template<typename Scalar>

JacobiRotation Eigen::JacobiRotation< Scalar >::adjoint ( ) const [inline]

Returns the adjoint transformation

Definition at line 61 of file Jacobi.h.

template<typename Scalar>

Scalar& Eigen::JacobiRotation< Scalar >::c ( ) [inline]

Definition at line 45 of file Jacobi.h.

template<typename Scalar>

Scalar Eigen::JacobiRotation< Scalar >::c ( ) const [inline]

Definition at line 46 of file Jacobi.h.

template<typename Scalar >

void Eigen::JacobiRotation< Scalar >::makeGivens	(	const Scalar &	p,
		const Scalar &	q,
		Scalar *	z = `0`
	)

Makes *this as a Givens rotation G such that applying $ G^* $ to the left of the vector $V = \left ( \begin{array}{c} p \\ q \end{array} \right )$ yields: $G^* V = \left ( \begin{array}{c} r \\ 0 \end{array} \right )$ .

The value of z is returned if z is not null (the default is null). Also note that G is built such that the cosine is always real.

Example:

Output:

This function implements the continuous Givens rotation generation algorithm found in Anderson (2000), Discontinuous Plane Rotations and the Symmetric Eigenvalue Problem. LAPACK Working Note 150, University of Tennessee, UT-CS-00-454, December 4, 2000.

See also:: MatrixBase::applyOnTheLeft(), MatrixBase::applyOnTheRight()

Definition at line 145 of file Jacobi.h.

template<typename Scalar >

void Eigen::JacobiRotation< Scalar >::makeGivens	(	const Scalar &	p,
		const Scalar &	q,
		Scalar *	z,
		internal::true_type
	)		`[protected]`

Definition at line 153 of file Jacobi.h.

template<typename Scalar >

void Eigen::JacobiRotation< Scalar >::makeGivens	(	const Scalar &	p,
		const Scalar &	q,
		Scalar *	z,
		internal::false_type
	)		`[protected]`

Definition at line 208 of file Jacobi.h.

template<typename Scalar >

template<typename Derived >

bool Eigen::JacobiRotation< Scalar >::makeJacobi	(	const MatrixBase< Derived > &	m,
		typename Derived::Index	p,
		typename Derived::Index	q
	)		`[inline]`

Makes *this as a Jacobi rotation J such that applying J on both the right and left sides of the 2x2 selfadjoint matrix $B = \left ( \begin{array}{cc} \text{this}_{pp} & \text{this}_{pq} \\ (\text{this}_{pq})^* & \text{this}_{qq} \end{array} \right )$ yields a diagonal matrix $ A = J^* B J $

Example:

Output:

See also:: JacobiRotation::makeJacobi(RealScalar, Scalar, RealScalar), MatrixBase::applyOnTheLeft(), MatrixBase::applyOnTheRight()

Definition at line 123 of file Jacobi.h.

template<typename Scalar >

bool Eigen::JacobiRotation< Scalar >::makeJacobi	(	RealScalar	x,
		Scalar	y,
		RealScalar	z
	)

Makes *this as a Jacobi rotation J such that applying J on both the right and left sides of the selfadjoint 2x2 matrix $B = \left ( \begin{array}{cc} x & y \\ \overline y & z \end{array} \right )$ yields a diagonal matrix $ A = J^* B J $

See also:: MatrixBase::makeJacobi(const MatrixBase<Derived>&, Index, Index), MatrixBase::applyOnTheLeft(), MatrixBase::applyOnTheRight()

Definition at line 82 of file Jacobi.h.

template<typename Scalar>

JacobiRotation Eigen::JacobiRotation< Scalar >::operator* ( const JacobiRotation< Scalar > & other ) [inline]

Concatenates two planar rotation

Definition at line 51 of file Jacobi.h.

template<typename Scalar>

Scalar& Eigen::JacobiRotation< Scalar >::s ( ) [inline]

Definition at line 47 of file Jacobi.h.

template<typename Scalar>

Scalar Eigen::JacobiRotation< Scalar >::s ( ) const [inline]

Definition at line 48 of file Jacobi.h.

template<typename Scalar>

JacobiRotation Eigen::JacobiRotation< Scalar >::transpose ( ) const [inline]

Returns the transposed transformation

Definition at line 58 of file Jacobi.h.

Member Data Documentation

template<typename Scalar>

Scalar Eigen::JacobiRotation< Scalar >::m_c [protected]

Definition at line 73 of file Jacobi.h.

template<typename Scalar>

Scalar Eigen::JacobiRotation< Scalar >::m_s [protected]

Definition at line 73 of file Jacobi.h.

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

Jacobi.h

Public Types

Public Member Functions

Protected Member Functions

Protected Attributes

Detailed Description

template<typename Scalar> class Eigen::JacobiRotation< Scalar >

Member Typedef Documentation

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation

template<typename Scalar>
class Eigen::JacobiRotation< Scalar >