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implement the continuous generation algorithm of Givens rotations by Anderson (2000)
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@ -87,7 +87,7 @@ template<typename Scalar> class PlanarRotation
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};
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/** Makes \c *this as a Jacobi rotation \a J such that applying \a J on both the right and left sides of the selfadjoint 2x2 matrix
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* \f$ B = \left ( \begin{array}{cc} x & y \\ * & z \end{array} \right )\f$ yields a diagonal matrix \f$ A = J^* B J \f$
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* \f$ B = \left ( \begin{array}{cc} x & y \\ \overline y & z \end{array} \right )\f$ yields a diagonal matrix \f$ A = J^* B J \f$
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*
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* \sa MatrixBase::makeJacobi(const MatrixBase<Derived>&, int, int), MatrixBase::applyOnTheLeft(), MatrixBase::applyOnTheRight()
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*/
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@ -123,7 +123,7 @@ bool PlanarRotation<Scalar>::makeJacobi(RealScalar x, Scalar y, RealScalar z)
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}
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/** Makes \c *this as a Jacobi rotation \c J such that applying \a J on both the right and left sides of the 2x2 selfadjoint matrix
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* \f$ B = \left ( \begin{array}{cc} \text{this}_{pp} & \text{this}_{pq} \\ * & \text{this}_{qq} \end{array} \right )\f$ yields
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* \f$ B = \left ( \begin{array}{cc} \text{this}_{pp} & \text{this}_{pq} \\ \overline \text{this}_{pq} & \text{this}_{qq} \end{array} \right )\f$ yields
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* a diagonal matrix \f$ A = J^* B J \f$
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*
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* Example: \include Jacobi_makeJacobi.cpp
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@ -140,7 +140,7 @@ inline bool PlanarRotation<Scalar>::makeJacobi(const MatrixBase<Derived>& m, int
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/** Makes \c *this as a Givens rotation \c G such that applying \f$ G^* \f$ to the left of the vector
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* \f$ V = \left ( \begin{array}{c} p \\ q \end{array} \right )\f$ yields:
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* \f$ G^* V = \left ( \begin{array}{c} z \\ 0 \end{array} \right )\f$.
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* \f$ G^* V = \left ( \begin{array}{c} r \\ 0 \end{array} \right )\f$.
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*
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* The value of \a z is returned if \a z is not null (the default is null).
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* Also note that G is built such that the cosine is always real.
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@ -148,6 +148,10 @@ inline bool PlanarRotation<Scalar>::makeJacobi(const MatrixBase<Derived>& m, int
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* Example: \include Jacobi_makeGivens.cpp
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* Output: \verbinclude Jacobi_makeGivens.out
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*
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* This function implements the continuous Givens rotation generation algorithm
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* found in Anderson (2000), Discontinuous Plane Rotations and the Symmetric Eigenvalue Problem.
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* LAPACK Working Note 150, University of Tennessee, UT-CS-00-454, December 4, 2000.
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*
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* \sa MatrixBase::applyOnTheLeft(), MatrixBase::applyOnTheRight()
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*/
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template<typename Scalar>
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@ -159,52 +163,97 @@ void PlanarRotation<Scalar>::makeGivens(const Scalar& p, const Scalar& q, Scalar
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// specialization for complexes
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template<typename Scalar>
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void PlanarRotation<Scalar>::makeGivens(const Scalar& p, const Scalar& q, Scalar* z, ei_meta_true)
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void PlanarRotation<Scalar>::makeGivens(const Scalar& p, const Scalar& q, Scalar* r, ei_meta_true)
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{
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RealScalar scale, absx, absxy;
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if(q==Scalar(0))
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{
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// return identity
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m_c = Scalar(1);
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m_s = Scalar(0);
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if(z) *z = p;
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m_c = ei_real(p)<0 ? Scalar(-1) : Scalar(1);
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m_s = 0;
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if(r) *r = m_c * p;
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}
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else if(p==Scalar(0))
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{
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m_c = 0;
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m_s = -q/ei_abs(q);
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if(r) *r = ei_abs(q);
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}
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else
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{
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scale = ei_norm1(p);
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absx = scale * ei_sqrt(ei_abs2(p/scale));
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scale = ei_abs(scale) + ei_norm1(q);
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absxy = scale * ei_sqrt((absx/scale)*(absx/scale) + ei_abs2(q/scale));
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m_c = Scalar(absx / absxy);
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Scalar np = p/absx;
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m_s = -ei_conj(np) * q / absxy;
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if(z) *z = np * absxy;
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RealScalar p1 = ei_norm1(p);
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RealScalar q1 = ei_norm1(q);
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if(p1>=q1)
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{
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Scalar ps = p / p1;
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RealScalar p2 = ei_abs2(ps);
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Scalar qs = q / p1;
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RealScalar q2 = ei_abs2(qs);
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RealScalar u = ei_sqrt(RealScalar(1) + q2/p2);
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if(ei_real(p)<RealScalar(0))
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u = -u;
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m_c = Scalar(1)/u;
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m_s = -qs*ei_conj(ps)*(m_c/p2);
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if(r) *r = p * u;
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}
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else
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{
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Scalar ps = p / q1;
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RealScalar p2 = ei_abs2(ps);
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Scalar qs = q / q1;
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RealScalar q2 = ei_abs2(qs);
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RealScalar u = q1 * ei_sqrt(p2 + q2);
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if(ei_real(p)<RealScalar(0))
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u = -u;
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p1 = ei_abs(p);
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ps = p/p1;
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m_c = p1/u;
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m_s = -ei_conj(ps) * (q/u);
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if(r) *r = ps * u;
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}
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}
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}
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// specialization for reals
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// TODO compute z
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template<typename Scalar>
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void PlanarRotation<Scalar>::makeGivens(const Scalar& p, const Scalar& q, Scalar* z, ei_meta_false)
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void PlanarRotation<Scalar>::makeGivens(const Scalar& p, const Scalar& q, Scalar* r, ei_meta_false)
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{
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ei_assert(z==0 && "not implemented yet");
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// from Golub's "Matrix Computations", algorithm 5.1.3
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if(q==0)
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{
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m_c = 1; m_s = 0;
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m_c = p<Scalar(0) ? Scalar(-1) : Scalar(1);
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m_s = 0;
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if(r) *r = ei_abs(p);
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}
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else if(ei_abs(q)>ei_abs(p))
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else if(p==0)
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{
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Scalar t = -p/q;
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m_s = Scalar(1)/ei_sqrt(1+t*t);
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m_c = m_s * t;
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m_c = 0;
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m_s = q<Scalar(0) ? Scalar(1) : Scalar(-1);
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if(r) *r = ei_abs(q);
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}
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else if(p>q)
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{
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Scalar t = q/p;
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Scalar u = ei_sqrt(Scalar(1) + ei_abs2(t));
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if(p<Scalar(0))
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u = -u;
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m_c = Scalar(1)/u;
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m_s = -t * m_c;
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if(r) *r = p * u;
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}
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else
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{
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Scalar t = -q/p;
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m_c = Scalar(1)/ei_sqrt(1+t*t);
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m_s = m_c * t;
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Scalar t = p/q;
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Scalar u = ei_sqrt(Scalar(1) + ei_abs2(t));
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if(q<Scalar(0))
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u = -u;
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m_s = -Scalar(1)/u;
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m_c = t * m_s;
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if(r) *r = q * u;
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}
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}
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/****************************************************************************************
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