Public Types | Public Member Functions | Protected Attributes | List of all members
Eigen::Tridiagonalization< _MatrixType > Class Template Reference

Tridiagonal decomposition of a selfadjoint matrix. More...

#include <Tridiagonalization.h>

Public Types

enum  {
  Size = MatrixType::RowsAtCompileTime, SizeMinusOne = Size == Dynamic ? Dynamic : (Size > 1 ? Size - 1 : 1), Options = MatrixType::Options, MaxSize = MatrixType::MaxRowsAtCompileTime,
  MaxSizeMinusOne = MaxSize == Dynamic ? Dynamic : (MaxSize > 1 ? MaxSize - 1 : 1)
}
 
typedef Matrix< Scalar, SizeMinusOne, 1, Options &~RowMajor, MaxSizeMinusOne, 1 > CoeffVectorType
 
typedef internal::conditional< NumTraits< Scalar >::IsComplex, typename internal::add_const_on_value_type< typename Diagonal< const MatrixType >::RealReturnType >::type, const Diagonal< const MatrixType > >::type DiagonalReturnType
 
typedef internal::plain_col_type< MatrixType, RealScalar >::type DiagonalType
 
typedef HouseholderSequence< MatrixType, typename internal::remove_all< typename CoeffVectorType::ConjugateReturnType >::type > HouseholderSequenceType
 Return type of matrixQ() More...
 
typedef MatrixType::Index Index
 
typedef internal::TridiagonalizationMatrixTReturnType< MatrixTypeRealViewMatrixTReturnType
 
typedef _MatrixType MatrixType
 Synonym for the template parameter _MatrixType. More...
 
typedef internal::remove_all< typename MatrixType::RealReturnType >::type MatrixTypeRealView
 
typedef NumTraits< Scalar >::Real RealScalar
 
typedef MatrixType::Scalar Scalar
 
typedef internal::conditional< NumTraits< Scalar >::IsComplex, typename internal::add_const_on_value_type< typename Diagonal< Block< const MatrixType, SizeMinusOne, SizeMinusOne > >::RealReturnType >::type, const Diagonal< Block< const MatrixType, SizeMinusOne, SizeMinusOne > > >::type SubDiagonalReturnType
 
typedef Matrix< RealScalar, SizeMinusOne, 1, Options &~RowMajor, MaxSizeMinusOne, 1 > SubDiagonalType
 

Public Member Functions

Tridiagonalizationcompute (const MatrixType &matrix)
 Computes tridiagonal decomposition of given matrix. More...
 
DiagonalReturnType diagonal () const
 Returns the diagonal of the tridiagonal matrix T in the decomposition. More...
 
CoeffVectorType householderCoefficients () const
 Returns the Householder coefficients. More...
 
HouseholderSequenceType matrixQ () const
 Returns the unitary matrix Q in the decomposition. More...
 
MatrixTReturnType matrixT () const
 Returns an expression of the tridiagonal matrix T in the decomposition. More...
 
const MatrixTypepackedMatrix () const
 Returns the internal representation of the decomposition. More...
 
SubDiagonalReturnType subDiagonal () const
 Returns the subdiagonal of the tridiagonal matrix T in the decomposition. More...
 
 Tridiagonalization (Index size=Size==Dynamic?2:Size)
 Default constructor. More...
 
 Tridiagonalization (const MatrixType &matrix)
 Constructor; computes tridiagonal decomposition of given matrix. More...
 

Protected Attributes

CoeffVectorType m_hCoeffs
 
bool m_isInitialized
 
MatrixType m_matrix
 

Detailed Description

template<typename _MatrixType>
class Eigen::Tridiagonalization< _MatrixType >

Tridiagonal decomposition of a selfadjoint matrix.

Template Parameters
_MatrixTypethe type of the matrix of which we are computing the tridiagonal decomposition; this is expected to be an instantiation of the Matrix class template.

This class performs a tridiagonal decomposition of a selfadjoint matrix $ A $ such that: $ A = Q T Q^* $ where $ Q $ is unitary and $ T $ a real symmetric tridiagonal matrix.

A tridiagonal matrix is a matrix which has nonzero elements only on the main diagonal and the first diagonal below and above it. The Hessenberg decomposition of a selfadjoint matrix is in fact a tridiagonal decomposition. This class is used in SelfAdjointEigenSolver to compute the eigenvalues and eigenvectors of a selfadjoint matrix.

Call the function compute() to compute the tridiagonal decomposition of a given matrix. Alternatively, you can use the Tridiagonalization(const MatrixType&) constructor which computes the tridiagonal Schur decomposition at construction time. Once the decomposition is computed, you can use the matrixQ() and matrixT() functions to retrieve the matrices Q and T in the decomposition.

The documentation of Tridiagonalization(const MatrixType&) contains an example of the typical use of this class.

See also
class HessenbergDecomposition, class SelfAdjointEigenSolver

Definition at line 61 of file Tridiagonalization.h.

Member Typedef Documentation

template<typename _MatrixType>
typedef Matrix<Scalar, SizeMinusOne, 1, Options & ~RowMajor, MaxSizeMinusOne, 1> Eigen::Tridiagonalization< _MatrixType >::CoeffVectorType

Definition at line 80 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef internal::conditional<NumTraits<Scalar>::IsComplex, typename internal::add_const_on_value_type<typename Diagonal<const MatrixType>::RealReturnType>::type, const Diagonal<const MatrixType> >::type Eigen::Tridiagonalization< _MatrixType >::DiagonalReturnType

Definition at line 89 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef internal::plain_col_type<MatrixType, RealScalar>::type Eigen::Tridiagonalization< _MatrixType >::DiagonalType

Definition at line 81 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef HouseholderSequence<MatrixType,typename internal::remove_all<typename CoeffVectorType::ConjugateReturnType>::type> Eigen::Tridiagonalization< _MatrixType >::HouseholderSequenceType

Return type of matrixQ()

Definition at line 99 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef MatrixType::Index Eigen::Tridiagonalization< _MatrixType >::Index

Definition at line 70 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef internal::TridiagonalizationMatrixTReturnType<MatrixTypeRealView> Eigen::Tridiagonalization< _MatrixType >::MatrixTReturnType

Definition at line 84 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef _MatrixType Eigen::Tridiagonalization< _MatrixType >::MatrixType

Synonym for the template parameter _MatrixType.

Definition at line 66 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef internal::remove_all<typename MatrixType::RealReturnType>::type Eigen::Tridiagonalization< _MatrixType >::MatrixTypeRealView

Definition at line 83 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef NumTraits<Scalar>::Real Eigen::Tridiagonalization< _MatrixType >::RealScalar

Definition at line 69 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef MatrixType::Scalar Eigen::Tridiagonalization< _MatrixType >::Scalar

Definition at line 68 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef internal::conditional<NumTraits<Scalar>::IsComplex, typename internal::add_const_on_value_type<typename Diagonal< Block<const MatrixType,SizeMinusOne,SizeMinusOne> >::RealReturnType>::type, const Diagonal< Block<const MatrixType,SizeMinusOne,SizeMinusOne> > >::type Eigen::Tridiagonalization< _MatrixType >::SubDiagonalReturnType

Definition at line 96 of file Tridiagonalization.h.

template<typename _MatrixType>
typedef Matrix<RealScalar, SizeMinusOne, 1, Options & ~RowMajor, MaxSizeMinusOne, 1> Eigen::Tridiagonalization< _MatrixType >::SubDiagonalType

Definition at line 82 of file Tridiagonalization.h.

Member Enumeration Documentation

template<typename _MatrixType>
anonymous enum
Enumerator
Size 
SizeMinusOne 
Options 
MaxSize 
MaxSizeMinusOne 

Definition at line 72 of file Tridiagonalization.h.

Constructor & Destructor Documentation

template<typename _MatrixType>
Eigen::Tridiagonalization< _MatrixType >::Tridiagonalization ( Index  size = Size==Dynamic ? 2 : Size)
inline

Default constructor.

Parameters
[in]sizePositive integer, size of the matrix whose tridiagonal decomposition will be computed.

The default constructor is useful in cases in which the user intends to perform decompositions via compute(). The size parameter is only used as a hint. It is not an error to give a wrong size, but it may impair performance.

See also
compute() for an example.

Definition at line 113 of file Tridiagonalization.h.

template<typename _MatrixType>
Eigen::Tridiagonalization< _MatrixType >::Tridiagonalization ( const MatrixType matrix)
inline

Constructor; computes tridiagonal decomposition of given matrix.

Parameters
[in]matrixSelfadjoint matrix whose tridiagonal decomposition is to be computed.

This constructor calls compute() to compute the tridiagonal decomposition.

Example:

Output: 

 

Definition at line 129 of file Tridiagonalization.h.







Member Function Documentation








template<typename _MatrixType> 



  

  
      

        

          Tridiagonalization& Eigen::Tridiagonalization< _MatrixType >::compute 
          (
          const MatrixType
          matrix)
          
        

      

  		
  
inline  
  







Computes tridiagonal decomposition of given matrix. 


Parameters

  

    
[in]matrixSelfadjoint matrix whose tridiagonal decomposition is to be computed. 

  

  




Returns
Reference to *this 


The tridiagonal decomposition is computed by bringing the columns of the matrix successively in the required form using Householder reflections. The cost is $ 4n^3/3 $ flops, where $ n $ denotes the size of the given matrix.


This method reuses of the allocated data in the Tridiagonalization object, if the size of the matrix does not change.


Example: 
 Output: 
 

Definition at line 155 of file Tridiagonalization.h.













template<typename MatrixType > 

      

        

          Tridiagonalization< MatrixType >::DiagonalReturnType Eigen::Tridiagonalization< MatrixType >::diagonal 
          (
          )
           const
        

      





Returns the diagonal of the tridiagonal matrix T in the decomposition. 


Returns
expression representing the diagonal of T


Precondition
Either the constructor Tridiagonalization(const MatrixType&) or the member function compute(const MatrixType&) has been called before to compute the tridiagonal decomposition of a matrix.


Example: 
 Output: 
See also
matrixT(), subDiagonal() 



Definition at line 305 of file Tridiagonalization.h.













template<typename _MatrixType> 



  

  
      

        

          CoeffVectorType Eigen::Tridiagonalization< _MatrixType >::householderCoefficients 
          (
          )
           const
        

      

  		
  
inline  
  







Returns the Householder coefficients. 


Returns
a const reference to the vector of Householder coefficients


Precondition
Either the constructor Tridiagonalization(const MatrixType&) or the member function compute(const MatrixType&) has been called before to compute the tridiagonal decomposition of a matrix.


The Householder coefficients allow the reconstruction of the matrix $ Q $ in the tridiagonal decomposition from the packed data.


Example: 
 Output: 
See also
packedMatrix(), Householder module 



Definition at line 180 of file Tridiagonalization.h.













template<typename _MatrixType> 



  

  
      

        

          HouseholderSequenceType Eigen::Tridiagonalization< _MatrixType >::matrixQ 
          (
          void 
          )
           const
        

      

  		
  
inline  
  







Returns the unitary matrix Q in the decomposition. 


Returns
object representing the matrix Q


Precondition
Either the constructor Tridiagonalization(const MatrixType&) or the member function compute(const MatrixType&) has been called before to compute the tridiagonal decomposition of a matrix.


This function returns a light-weight object of template class HouseholderSequence. You can either apply it directly to a matrix or you can convert it to a matrix of type MatrixType.


See also
Tridiagonalization(const MatrixType&) for an example, matrixT(), class HouseholderSequence 



Definition at line 238 of file Tridiagonalization.h.













template<typename _MatrixType> 



  

  
      

        

          MatrixTReturnType Eigen::Tridiagonalization< _MatrixType >::matrixT 
          (
          )
           const
        

      

  		
  
inline  
  







Returns an expression of the tridiagonal matrix T in the decomposition. 


Returns
expression object representing the matrix T


Precondition
Either the constructor Tridiagonalization(const MatrixType&) or the member function compute(const MatrixType&) has been called before to compute the tridiagonal decomposition of a matrix.


Currently, this function can be used to extract the matrix T from internal data and copy it to a dense matrix object. In most cases, it may be sufficient to directly use the packed matrix or the vector expressions returned by diagonal() and subDiagonal() instead of creating a new dense copy matrix with this function.


See also
Tridiagonalization(const MatrixType&) for an example, matrixQ(), packedMatrix(), diagonal(), subDiagonal() 



Definition at line 263 of file Tridiagonalization.h.













template<typename _MatrixType> 



  

  
      

        

          const MatrixType& Eigen::Tridiagonalization< _MatrixType >::packedMatrix 
          (
          )
           const
        

      

  		
  
inline  
  







Returns the internal representation of the decomposition. 


Returns
a const reference to a matrix with the internal representation of the decomposition.


Precondition
Either the constructor Tridiagonalization(const MatrixType&) or the member function compute(const MatrixType&) has been called before to compute the tridiagonal decomposition of a matrix.


The returned matrix contains the following information:
    

  • the strict upper triangular part is equal to the input matrix A.
    • 

  • the diagonal and lower sub-diagonal represent the real tridiagonal symmetric matrix T.
    • 

  • the rest of the lower part contains the Householder vectors that, combined with Householder coefficients returned by householderCoefficients(), allows to reconstruct the matrix Q as $ Q = H_{N-1} \ldots H_1 H_0 $. Here, the matrices $ H_i $ are the Householder transformations $ H_i = (I - h_i v_i v_i^T) $ where $ h_i $ is the $ i $th Householder coefficient and $ v_i $ is the Householder vector defined by $ v_i = [ 0, \ldots, 0, 1, M(i+2,i), \ldots, M(N-1,i) ]^T $ with M the matrix returned by this function.
    • 



See LAPACK for further details on this packed storage.


Example: 
 Output: 
See also
householderCoefficients() 



Definition at line 217 of file Tridiagonalization.h.













template<typename MatrixType > 

      

        

          Tridiagonalization< MatrixType >::SubDiagonalReturnType Eigen::Tridiagonalization< MatrixType >::subDiagonal 
          (
          )
           const
        

      





Returns the subdiagonal of the tridiagonal matrix T in the decomposition. 


Returns
expression representing the subdiagonal of T


Precondition
Either the constructor Tridiagonalization(const MatrixType&) or the member function compute(const MatrixType&) has been called before to compute the tridiagonal decomposition of a matrix.


See also
diagonal() for an example, matrixT() 



Definition at line 313 of file Tridiagonalization.h.







Member Data Documentation








template<typename _MatrixType> 



  

  
      

        

          CoeffVectorType Eigen::Tridiagonalization< _MatrixType >::m_hCoeffs
        

      

  		
  
protected  
  







Definition at line 299 of file Tridiagonalization.h.













template<typename _MatrixType> 



  

  
      

        

          bool Eigen::Tridiagonalization< _MatrixType >::m_isInitialized
        

      

  		
  
protected  
  







Definition at line 300 of file Tridiagonalization.h.













template<typename _MatrixType> 



  

  
      

        

          MatrixType Eigen::Tridiagonalization< _MatrixType >::m_matrix
        

      

  		
  
protected  
  







Definition at line 298 of file Tridiagonalization.h.







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







tuw_aruco

Author(s): Lukas Pfeifhofer

autogenerated on Mon Jun 10 2019 15:41:12