Rotation given by a cosine-sine pair. More...
#include <ForwardDeclarations.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 (const RealScalar &x, const Scalar &y, const 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 |
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 defined by its cosine c
and sine s
as follow:
You can apply the respective counter-clockwise rotation to a column vector v
by applying its adjoint on the left: that translates to the following Eigen code:
Definition at line 228 of file ForwardDeclarations.h.
typedef NumTraits<Scalar>::Real Eigen::JacobiRotation< Scalar >::RealScalar |
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void Eigen::JacobiRotation< Scalar >::makeGivens | ( | const Scalar & | p, |
const Scalar & | q, | ||
Scalar * | z = 0 |
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Makes *this
as a Givens rotation G
such that applying to the left of the vector yields: .
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:
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.
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Makes *this
as a Jacobi rotation J
such that applying J on both the right and left sides of the 2x2 selfadjoint matrix yields a diagonal matrix
Example:
bool Eigen::JacobiRotation< Scalar >::makeJacobi | ( | const RealScalar & | x, |
const Scalar & | y, | ||
const RealScalar & | z | ||
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Makes *this
as a Jacobi rotation J such that applying J on both the right and left sides of the selfadjoint 2x2 matrix yields a diagonal matrix
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