Householder rank-revealing QR decomposition of a matrix with column-pivoting. More...
#include <ColPivHouseholderQR.h>
Detailed Description
template<typename _MatrixType>
class Eigen::ColPivHouseholderQR< _MatrixType >
Householder rank-revealing QR decomposition of a matrix with column-pivoting.
- Parameters:
-
MatrixType the type of the matrix of which we are computing the QR decomposition
This class performs a rank-revealing QR decomposition of a matrix A into matrices P, Q and R such that
![\[ \mathbf{A} \, \mathbf{P} = \mathbf{Q} \, \mathbf{R} \]](form_165.png)
by using Householder transformations. Here, P is a permutation matrix, Q a unitary matrix and R an upper triangular matrix.
This decomposition performs column pivoting in order to be rank-revealing and improve numerical stability. It is slower than HouseholderQR, and faster than FullPivHouseholderQR.
- See also:
- MatrixBase::colPivHouseholderQr()
Definition at line 37 of file ColPivHouseholderQR.h.
Member Typedef Documentation
| typedef internal::plain_diag_type<MatrixType>::type Eigen::ColPivHouseholderQR< _MatrixType >::HCoeffsType |
Definition at line 53 of file ColPivHouseholderQR.h.
| typedef HouseholderSequence<MatrixType,HCoeffsType>::ConjugateReturnType Eigen::ColPivHouseholderQR< _MatrixType >::HouseholderSequenceType |
Definition at line 58 of file ColPivHouseholderQR.h.
| typedef MatrixType::Index Eigen::ColPivHouseholderQR< _MatrixType >::Index |
Definition at line 51 of file ColPivHouseholderQR.h.
| typedef internal::plain_row_type<MatrixType, Index>::type Eigen::ColPivHouseholderQR< _MatrixType >::IntRowVectorType |
Definition at line 55 of file ColPivHouseholderQR.h.
| typedef Matrix<Scalar, RowsAtCompileTime, RowsAtCompileTime, Options, MaxRowsAtCompileTime, MaxRowsAtCompileTime> Eigen::ColPivHouseholderQR< _MatrixType >::MatrixQType |
Definition at line 52 of file ColPivHouseholderQR.h.
| typedef _MatrixType Eigen::ColPivHouseholderQR< _MatrixType >::MatrixType |
Definition at line 41 of file ColPivHouseholderQR.h.
| typedef PermutationMatrix<ColsAtCompileTime, MaxColsAtCompileTime> Eigen::ColPivHouseholderQR< _MatrixType >::PermutationType |
Definition at line 54 of file ColPivHouseholderQR.h.
| typedef internal::plain_row_type<MatrixType, RealScalar>::type Eigen::ColPivHouseholderQR< _MatrixType >::RealRowVectorType |
Definition at line 57 of file ColPivHouseholderQR.h.
| typedef MatrixType::RealScalar Eigen::ColPivHouseholderQR< _MatrixType >::RealScalar |
Definition at line 50 of file ColPivHouseholderQR.h.
| typedef internal::plain_row_type<MatrixType>::type Eigen::ColPivHouseholderQR< _MatrixType >::RowVectorType |
Definition at line 56 of file ColPivHouseholderQR.h.
| typedef MatrixType::Scalar Eigen::ColPivHouseholderQR< _MatrixType >::Scalar |
Definition at line 49 of file ColPivHouseholderQR.h.
Member Enumeration Documentation
| anonymous enum |
Definition at line 42 of file ColPivHouseholderQR.h.
Constructor & Destructor Documentation
| Eigen::ColPivHouseholderQR< _MatrixType >::ColPivHouseholderQR | ( | ) | [inline] |
Default Constructor.
The default constructor is useful in cases in which the user intends to perform decompositions via ColPivHouseholderQR::compute(const MatrixType&).
Definition at line 66 of file ColPivHouseholderQR.h.
| Eigen::ColPivHouseholderQR< _MatrixType >::ColPivHouseholderQR | ( | Index | rows, |
| Index | cols | ||
| ) | [inline] |
Default Constructor with memory preallocation.
Like the default constructor but with preallocation of the internal data according to the specified problem size.
- See also:
- ColPivHouseholderQR()
Definition at line 81 of file ColPivHouseholderQR.h.
| Eigen::ColPivHouseholderQR< _MatrixType >::ColPivHouseholderQR | ( | const MatrixType & | matrix | ) | [inline] |
Definition at line 91 of file ColPivHouseholderQR.h.
Member Function Documentation
| MatrixType::RealScalar Eigen::ColPivHouseholderQR< MatrixType >::absDeterminant | ( | ) | const |
- Returns:
- the absolute value of the determinant of the matrix of which *this is the QR decomposition. It has only linear complexity (that is, O(n) where n is the dimension of the square matrix) as the QR decomposition has already been computed.
- Note:
- This is only for square matrices.
- Warning:
- a determinant can be very big or small, so for matrices of large enough dimension, there is a risk of overflow/underflow. One way to work around that is to use logAbsDeterminant() instead.
- See also:
- logAbsDeterminant(), MatrixBase::determinant()
Definition at line 343 of file ColPivHouseholderQR.h.
| Index Eigen::ColPivHouseholderQR< _MatrixType >::cols | ( | void | ) | const [inline] |
Definition at line 257 of file ColPivHouseholderQR.h.
| const PermutationType& Eigen::ColPivHouseholderQR< _MatrixType >::colsPermutation | ( | ) | const [inline] |
Definition at line 141 of file ColPivHouseholderQR.h.
| ColPivHouseholderQR< MatrixType > & Eigen::ColPivHouseholderQR< MatrixType >::compute | ( | const MatrixType & | matrix | ) |
Definition at line 359 of file ColPivHouseholderQR.h.
| Index Eigen::ColPivHouseholderQR< _MatrixType >::dimensionOfKernel | ( | ) | const [inline] |
- Returns:
- the dimension of the kernel of the matrix of which *this is the QR decomposition.
- Note:
- This method has to determine which pivots should be considered nonzero. For that, it uses the threshold value that you can control by calling setThreshold(const RealScalar&).
Definition at line 198 of file ColPivHouseholderQR.h.
| const HCoeffsType& Eigen::ColPivHouseholderQR< _MatrixType >::hCoeffs | ( | ) | const [inline] |
Definition at line 258 of file ColPivHouseholderQR.h.
| ColPivHouseholderQR< MatrixType >::HouseholderSequenceType Eigen::ColPivHouseholderQR< MatrixType >::householderQ | ( | void | ) | const |
- Returns:
- the matrix Q as a sequence of householder transformations
Definition at line 501 of file ColPivHouseholderQR.h.
| const internal::solve_retval<ColPivHouseholderQR, typename MatrixType::IdentityReturnType> Eigen::ColPivHouseholderQR< _MatrixType >::inverse | ( | void | ) | const [inline] |
- Returns:
- the inverse of the matrix of which *this is the QR decomposition.
- Note:
- If this matrix is not invertible, the returned matrix has undefined coefficients. Use isInvertible() to first determine whether this matrix is invertible.
Definition at line 249 of file ColPivHouseholderQR.h.
| bool Eigen::ColPivHouseholderQR< _MatrixType >::isInjective | ( | ) | const [inline] |
- Returns:
- true if the matrix of which *this is the QR decomposition represents an injective linear map, i.e. has trivial kernel; false otherwise.
- Note:
- This method has to determine which pivots should be considered nonzero. For that, it uses the threshold value that you can control by calling setThreshold(const RealScalar&).
Definition at line 211 of file ColPivHouseholderQR.h.
| bool Eigen::ColPivHouseholderQR< _MatrixType >::isInvertible | ( | ) | const [inline] |
- Returns:
- true if the matrix of which *this is the QR decomposition is invertible.
- Note:
- This method has to determine which pivots should be considered nonzero. For that, it uses the threshold value that you can control by calling setThreshold(const RealScalar&).
Definition at line 236 of file ColPivHouseholderQR.h.
| bool Eigen::ColPivHouseholderQR< _MatrixType >::isSurjective | ( | ) | const [inline] |
- Returns:
- true if the matrix of which *this is the QR decomposition represents a surjective linear map; false otherwise.
- Note:
- This method has to determine which pivots should be considered nonzero. For that, it uses the threshold value that you can control by calling setThreshold(const RealScalar&).
Definition at line 224 of file ColPivHouseholderQR.h.
| MatrixType::RealScalar Eigen::ColPivHouseholderQR< MatrixType >::logAbsDeterminant | ( | ) | const |
- Returns:
- the natural log of the absolute value of the determinant of the matrix of which *this is the QR decomposition. It has only linear complexity (that is, O(n) where n is the dimension of the square matrix) as the QR decomposition has already been computed.
- Note:
- This is only for square matrices.
- This method is useful to work around the risk of overflow/underflow that's inherent to determinant computation.
- See also:
- absDeterminant(), MatrixBase::determinant()
Definition at line 351 of file ColPivHouseholderQR.h.
| const MatrixType& Eigen::ColPivHouseholderQR< _MatrixType >::matrixQR | ( | ) | const [inline] |
- Returns:
- a reference to the matrix where the Householder QR decomposition is stored
Definition at line 133 of file ColPivHouseholderQR.h.
| RealScalar Eigen::ColPivHouseholderQR< _MatrixType >::maxPivot | ( | ) | const [inline] |
- Returns:
- the absolute value of the biggest pivot, i.e. the biggest diagonal coefficient of R.
Definition at line 327 of file ColPivHouseholderQR.h.
| Index Eigen::ColPivHouseholderQR< _MatrixType >::nonzeroPivots | ( | ) | const [inline] |
- Returns:
- the number of nonzero pivots in the QR decomposition. Here nonzero is meant in the exact sense, not in a fuzzy sense. So that notion isn't really intrinsically interesting, but it is still useful when implementing algorithms.
- See also:
- rank()
Definition at line 318 of file ColPivHouseholderQR.h.
| Index Eigen::ColPivHouseholderQR< _MatrixType >::rank | ( | ) | const [inline] |
- Returns:
- the rank of the matrix of which *this is the QR decomposition.
- Note:
- This method has to determine which pivots should be considered nonzero. For that, it uses the threshold value that you can control by calling setThreshold(const RealScalar&).
Definition at line 182 of file ColPivHouseholderQR.h.
| Index Eigen::ColPivHouseholderQR< _MatrixType >::rows | ( | void | ) | const [inline] |
Definition at line 256 of file ColPivHouseholderQR.h.
| ColPivHouseholderQR& Eigen::ColPivHouseholderQR< _MatrixType >::setThreshold | ( | const RealScalar & | threshold | ) | [inline] |
Allows to prescribe a threshold to be used by certain methods, such as rank(), who need to determine when pivots are to be considered nonzero. This is not used for the QR decomposition itself.
When it needs to get the threshold value, Eigen calls threshold(). By default, this uses a formula to automatically determine a reasonable threshold. Once you have called the present method setThreshold(const RealScalar&), your value is used instead.
- Parameters:
-
threshold The new value to use as the threshold.
A pivot will be considered nonzero if its absolute value is strictly greater than 
where maxpivot is the biggest pivot.
If you want to come back to the default behavior, call setThreshold(Default_t)
Definition at line 277 of file ColPivHouseholderQR.h.
| ColPivHouseholderQR& Eigen::ColPivHouseholderQR< _MatrixType >::setThreshold | ( | Default_t | ) | [inline] |
Allows to come back to the default behavior, letting Eigen use its default formula for determining the threshold.
You should pass the special object Eigen::Default as parameter here.
qr.setThreshold(Eigen::Default);
See the documentation of setThreshold(const RealScalar&).
Definition at line 292 of file ColPivHouseholderQR.h.
| const internal::solve_retval<ColPivHouseholderQR, Rhs> Eigen::ColPivHouseholderQR< _MatrixType >::solve | ( | const MatrixBase< Rhs > & | b | ) | const [inline] |
This method finds a solution x to the equation Ax=b, where A is the matrix of which *this is the QR decomposition, if any exists.
- Parameters:
-
b the right-hand-side of the equation to solve.
- Returns:
- a solution.
- Note:
- The case where b is a matrix is not yet implemented. Also, this code is space inefficient.
Example:
Output:
Definition at line 123 of file ColPivHouseholderQR.h.
| RealScalar Eigen::ColPivHouseholderQR< _MatrixType >::threshold | ( | ) | const [inline] |
Returns the threshold that will be used by certain methods such as rank().
See the documentation of setThreshold(const RealScalar&).
Definition at line 302 of file ColPivHouseholderQR.h.
Member Data Documentation
PermutationType Eigen::ColPivHouseholderQR< _MatrixType >::m_colsPermutation [protected] |
Definition at line 332 of file ColPivHouseholderQR.h.
RealRowVectorType Eigen::ColPivHouseholderQR< _MatrixType >::m_colSqNorms [protected] |
Definition at line 335 of file ColPivHouseholderQR.h.
IntRowVectorType Eigen::ColPivHouseholderQR< _MatrixType >::m_colsTranspositions [protected] |
Definition at line 333 of file ColPivHouseholderQR.h.
Index Eigen::ColPivHouseholderQR< _MatrixType >::m_det_pq [protected] |
Definition at line 339 of file ColPivHouseholderQR.h.
HCoeffsType Eigen::ColPivHouseholderQR< _MatrixType >::m_hCoeffs [protected] |
Definition at line 331 of file ColPivHouseholderQR.h.
bool Eigen::ColPivHouseholderQR< _MatrixType >::m_isInitialized [protected] |
Definition at line 336 of file ColPivHouseholderQR.h.
RealScalar Eigen::ColPivHouseholderQR< _MatrixType >::m_maxpivot [protected] |
Definition at line 337 of file ColPivHouseholderQR.h.
Index Eigen::ColPivHouseholderQR< _MatrixType >::m_nonzero_pivots [protected] |
Definition at line 338 of file ColPivHouseholderQR.h.
RealScalar Eigen::ColPivHouseholderQR< _MatrixType >::m_prescribedThreshold [protected] |
Definition at line 337 of file ColPivHouseholderQR.h.
MatrixType Eigen::ColPivHouseholderQR< _MatrixType >::m_qr [protected] |
Definition at line 330 of file ColPivHouseholderQR.h.
RowVectorType Eigen::ColPivHouseholderQR< _MatrixType >::m_temp [protected] |
Definition at line 334 of file ColPivHouseholderQR.h.
bool Eigen::ColPivHouseholderQR< _MatrixType >::m_usePrescribedThreshold [protected] |
Definition at line 336 of file ColPivHouseholderQR.h.
The documentation for this class was generated from the following file: