Inheritance diagram for INMOST::MatrixConcatRows< Var >:

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Collaboration diagram for INMOST::MatrixConcatRows< Var >:

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Public Types
typedef AbstractMatrix< Var >::enumerator	enumerator

Public Types inherited from INMOST::AbstractMatrix< Var >
typedef AbstractMatrixReadOnly< Var >::enumerator	enumerator

Public Types inherited from INMOST::AbstractMatrixReadOnly< Var >
typedef unsigned	enumerator

Public Member Functions
__INLINE enumerator	Rows () const
	Number of rows. More...

__INLINE enumerator	Cols () const
	Number of columns. More...

	MatrixConcatRows (AbstractMatrix< Var > &rA, AbstractMatrix< Var > &rB)

	MatrixConcatRows (const MatrixConcatRows &b)

__INLINE Var	compute (enumerator i, enumerator j) const
	Access element of the matrix by row and column indices without right to change the element. More...

__INLINE Var &	operator() (enumerator i, enumerator j)
	Access element of the matrix by row and column indices without right to change the element. More...

__INLINE const Var &	get (enumerator i, enumerator j) const
	Access element of the matrix by row and column indices without right to change the element. More...

void	Resize (enumerator rows, enumerator cols)
	This is a stub function to fulfill abstract inheritance. More...

__INLINE INMOST_DATA_ENUM_TYPE	GetMatrixCount () const
	Retrieve number of indices of derivatives.

Public Member Functions inherited from INMOST::AbstractMatrix< Var >
	AbstractMatrix ()
	Construct empty matrix.

AbstractMatrix &	operator= (AbstractMatrix const &other)
	Assign matrix of the same type. More...

template<typename typeB >
AbstractMatrix &	operator= (AbstractMatrixReadOnly< typeB > const &other)
	Assign matrix of another type. More...

AbstractMatrix &	operator= (Var const &b)
	Assign value to all entries of the matrix. More...

void	Zero ()
	Set all the elements of the matrix to zero.

virtual void	Swap (AbstractMatrix< Var > &b)
	Exchange contents of two matrices.

template<typename typeB >
AbstractMatrix &	operator-= (const AbstractMatrixReadOnly< typeB > &other)
	Subtract a matrix and store result in the current. More...

template<typename typeB >
AbstractMatrix &	operator-= (const AbstractMatrix< typeB > &other)
	Subtract a matrix and store result in the current. More...

template<typename typeB >
AbstractMatrix &	operator+= (const AbstractMatrixReadOnly< typeB > &other)
	Add a matrix and store result in the current. More...

template<typename typeB >
AbstractMatrix &	operator+= (const AbstractMatrix< typeB > &other)
	Add a matrix and store result in the current. More...

template<typename typeB >
AbstractMatrix &	operator*= (const AbstractMatrixReadOnly< typeB > &B)
	Multiply matrix with another matrix in-place. More...

template<typename typeB >
AbstractMatrix &	operator*= (typeB coef)
	Multiply the matrix by the coefficient of the same type and store the result. More...

template<typename typeB >
AbstractMatrix &	operator/= (typeB coef)
	Divide the matrix by the coefficient of the same type and store the result. More...

SubMatrix< Var >	operator() (enumerator first_row, enumerator last_row, enumerator first_col, enumerator last_col)
	Extract submatrix of a matrix for in-place manipulation of elements. More...

BlockOfMatrix< Var >	BlockOf (enumerator nrows, enumerator ncols, enumerator offset_row, enumerator offset_col)
	Define matrix as a part of a matrix of larger size with in-place manipulation of elements. More...

MatrixTranspose< Var >	Transpose ()
	Transpose the current matrix with access to elements. More...

MatrixRepack< Var >	Repack (enumerator rows, enumerator cols)
	Change representation of the matrix into matrix of another size. More...

MatrixConcatCols< Var >	ConcatCols (AbstractMatrix< Var > &B)
	Concatenate B matrix as columns of current matrix. More...

MatrixConcatRows< Var >	ConcatRows (AbstractMatrix< Var > &B)
	Concatenate B matrix as rows of current matrix. More...

bool	CheckNans () const
	Check all matrix entries for not a number. More...

bool	CheckInfs () const
	Check all matrix entries for infinity. More...

bool	CheckNansInfs () const
	Check all matrix entries for not a number and infinity. More...

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	Transform (const AbstractMatrix< typeB > &other) const
	Transformation matrix from current vector to provided vector using shortest arc rotation. More...

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	Transform (const AbstractMatrixReadOnly< typeB > &other) const
	Transformation matrix from current vector to provided vector using shortest arc rotation. More...

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	CrossProduct (const AbstractMatrix< typeB > &other) const
	Cross-product operation for a vector. More...

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	CrossProduct (const AbstractMatrixReadOnly< typeB > &other) const
	Cross-product operation for a vector. More...

template<typename typeB >
Promote< Var, typeB >::type	DotProduct (const AbstractMatrix< typeB > &other) const
	Computes dot product by summing up multiplication of entries with the same indices in the current and the provided matrix. More...

template<typename typeB >
Promote< Var, typeB >::type	DotProduct (const AbstractMatrixReadOnly< typeB > &other) const
	Computes dot product by summing up multiplication of entries with the same indices in the current and the provided matrix. More...

template<typename typeB >
Promote< Var, typeB >::type	operator^ (const AbstractMatrix< typeB > &other) const
	Computes dot product by summing up multiplication of entries with the same indices in the current and the provided matrix. More...

template<typename typeB >
Promote< Var, typeB >::type	operator^ (const AbstractMatrixReadOnly< typeB > &other) const
	Computes dot product by summing up multiplication of entries with the same indices in the current and the provided matrix. More...

SelfPromote< Var >::type	FrobeniusNorm () const
	Computes frobenious norm of the matrix. More...

Var	MaxNorm () const
	Computes maximum absolute value of the matrix. More...

Var	Trace () const
	Calculate sum of the diagonal elements of the matrix. More...

void	Print (INMOST_DATA_REAL_TYPE threshold=1.0e-10, std::ostream &sout=std::cout) const
	Output matrix to screen. More...

bool	isSymmetric (double eps=1.0e-7) const
	Check if the matrix is symmetric. More...

void	MPT (INMOST_DATA_ENUM_TYPE Perm, INMOST_DATA_REAL_TYPE SL=NULL, INMOST_DATA_REAL_TYPE *SR=NULL) const
	Maximum product transversal. More...

virtual	~AbstractMatrix ()
	Destructor.

template<typename typeB >
AbstractMatrix< Var > &	operator-= (const AbstractMatrix< typeB > &other)

template<typename typeB >
AbstractMatrix< Var > &	operator-= (const AbstractMatrixReadOnly< typeB > &other)

template<typename typeB >
AbstractMatrix< Var > &	operator+= (const AbstractMatrix< typeB > &other)

template<typename typeB >
AbstractMatrix< Var > &	operator+= (const AbstractMatrixReadOnly< typeB > &other)

template<typename typeB >
AbstractMatrix< Var > &	*operator=** (const AbstractMatrixReadOnly< typeB > &B)

template<typename typeB >
AbstractMatrix< Var > &	*operator=** (typeB coef)

template<typename typeB >
AbstractMatrix< Var > &	operator/= (typeB coef)

Public Member Functions inherited from INMOST::AbstractMatrixReadOnly< Var >
bool	CheckNans () const
	Check all matrix entries for not a number. More...

bool	CheckInfs () const
	Check all matrix entries for infinity. More...

bool	CheckNansInfs () const
	Check all matrix entries for not a number and infinity. More...

Var	Det () const
	Matrix determinant.

bool	SVD (AbstractMatrix< Var > &U, AbstractMatrix< Var > &Sigma, AbstractMatrix< Var > &V, bool order_singular_values=true, bool nonnegative=true) const
	Singular value decomposition. More...

bool	cSVD (AbstractMatrix< Var > &U, AbstractMatrix< Var > &Sigma, AbstractMatrix< Var > &V) const
	Singular value decomposition. More...

ConstMatrixTranspose< Var >	Transpose () const
	Transpose current matrix. More...

ConstMatrixConjugateTranspose< Var >	ConjugateTranspose () const
	Transpose and conjugate current matrix. More...

ConstMatrixConjugate< Var >	Conjugate () const
	Conjugate current matrix. More...

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	CrossProduct (const AbstractMatrixReadOnly< typeB > &other) const
	Cross-product operation for a vector. More...

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	Transform (const AbstractMatrixReadOnly< typeB > &other) const
	Transformation matrix from current vector to provided vector using shortest arc rotation. More...

template<typename typeB >
MatrixDifference< Var, typeB >	operator- (const AbstractMatrixReadOnly< typeB > &other) const
	Subtract a matrix. More...

template<typename typeB >
MatrixSum< Var, typeB >	operator+ (const AbstractMatrixReadOnly< typeB > &other) const
	Add a matrix. More...

template<typename typeB >
MatrixMul< Var, typeB, typename Promote< Var, typeB >::type >	operator* (const AbstractMatrixReadOnly< typeB > &other) const
	Multiply the matrix by another matrix. More...

MatrixUnaryMinus< Var >	operator- () const
	Unary minus. Change sign of each element of the matrix.

template<typename typeB >
KroneckerProduct< Var, typeB >	Kronecker (const AbstractMatrixReadOnly< typeB > &other) const
	Kronecker product, latex symbol \otimes. More...

Matrix< Var >	Invert (int *ierr=NULL) const
	Inverts matrix using Crout-LU decomposition with full pivoting for maximum element. More...

Matrix< Var >	CholeskyInvert (int *ierr=NULL) const
	Inverts symmetric positive-definite matrix using Cholesky decomposition.

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	Solve (const AbstractMatrixReadOnly< typeB > &B, int *ierr=NULL) const
	Finds X in A*X=B, where A and B are general matrices. More...

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	CholeskySolve (const AbstractMatrixReadOnly< typeB > &B, int *ierr=NULL) const
	Finds X in A*X=B, where A is a square symmetric positive definite matrix. More...

Var	Trace () const
	Calculate sum of the diagonal elements of the matrix. More...

void	Print (INMOST_DATA_REAL_TYPE threshold=1.0e-10, std::ostream &sout=std::cout) const
	Output matrix to screen. More...

bool	isSymmetric (double eps=1.0e-7) const
	Check if the matrix is symmetric. More...

template<typename typeB >
Promote< Var, typeB >::type	DotProduct (const AbstractMatrixReadOnly< typeB > &other) const
	Computes dot product by summing up multiplication of entries with the same indices in the current and the provided matrix. More...

template<typename typeB >
Promote< Var, typeB >::type	operator^ (const AbstractMatrixReadOnly< typeB > &other) const
	Computes dot product by summing up multiplication of entries with the same indices in the current and the provided matrix. More...

SelfPromote< Var >::type	FrobeniusNorm () const
	Computes frobenius norm of the matrix. More...

Var	MaxNorm () const
	Computes maximum absolute value of the matrix. More...

Matrix< Var >	PseudoInvert (INMOST_DATA_REAL_TYPE tol=0, int *ierr=NULL) const
	Calculates Moore-Penrose pseudo-inverse of the matrix. More...

Matrix< Var >	Power (INMOST_DATA_REAL_TYPE n, int *ierr=NULL) const
	Calcuate A^n, where n is some real value. More...

Matrix< Var >	Root (INMOST_DATA_ENUM_TYPE iter=25, INMOST_DATA_REAL_TYPE tol=1.0e-7, int *ierr=NULL) const
	Calculate square root of A matrix by Babylonian method. More...

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	PseudoSolve (const AbstractMatrixReadOnly< typeB > &B, INMOST_DATA_REAL_TYPE tol=0, int *ierr=NULL) const
	Solves the system of equations of the form A*X=B, with A and B matrices. More...

Matrix< Var >	ExtractSubMatrix (enumerator ibeg, enumerator iend, enumerator jbeg, enumerator jend) const
	Extract submatrix of a matrix. More...

ConstMatrixRepack< Var >	Repack (enumerator rows, enumerator cols) const
	Change representation of the matrix into matrix of another size. More...

ConstSubMatrix< Var >	operator() (enumerator first_row, enumerator last_row, enumerator first_col, enumerator last_col) const
	Extract submatrix of a matrix for in-place manipulation of elements. More...

ConstBlockOfMatrix< Var >	BlockOf (enumerator nrows, enumerator ncols, enumerator offset_row, enumerator offset_col) const
	Define matrix as a part of a matrix of larger size with in-place manipulation of elements. More...

template<typename typeB >
MatrixMulCoef< Var, typeB, typename Promote< Var, typeB >::type >	operator* (const typeB &coef) const
	Multiply the matrix by a coefficient. More...

template<class A >
MatrixMulShellCoef< Var, shell_expression< A >, typename Promote< Var, variable >::type >	operator* (shell_expression< A > const &coef) const
	Multiply the matrix by a coefficient. More...

template<typename typeB >
MatrixDivCoef< Var, typeB, typename Promote< Var, typeB >::type >	operator/ (const typeB &coef) const
	Divide the matrix by a coefficient of a different type. More...

template<class A >
MatrixDivShellCoef< Var, shell_expression< A >, typename Promote< Var, variable >::type >	operator/ (shell_expression< A > const &coef) const
	Divide the matrix by a coefficient of a different type. More...

template<typename typeB >
Matrix< typename Promote< Var, typeB >::type >	operator/ (const AbstractMatrixReadOnly< typeB > &other) const
	Performs B^{-1}*A, multiplication by inverse matrix from left. More...

ConstMatrixConcatCols< Var >	ConcatCols (const AbstractMatrixReadOnly< Var > &B) const
	Concatenate B matrix as columns of current matrix. More...

template<typename VarB >
ConstMatrixConcatCols2< Var, VarB, typename Promote< Var, VarB >::type >	ConcatCols (const AbstractMatrixReadOnly< VarB > &B) const
	Concatenate B matrix as columns of current matrix. More...

ConstMatrixConcatRows< Var >	ConcatRows (const AbstractMatrixReadOnly< Var > &B) const
	Concatenate B matrix as rows of current matrix. More...

template<typename VarB >
ConstMatrixConcatRows2< Var, VarB, typename Promote< Var, VarB >::type >	ConcatRows (const AbstractMatrixReadOnly< VarB > &B) const
	Concatenate B matrix as rows of current matrix. More...

virtual	~AbstractMatrixReadOnly ()
	Destructor.

__INLINE Matrix< Promote< variable, variable >::type >	CholeskySolve (const AbstractMatrixReadOnly< variable > &B, int *ierr) const

__INLINE Matrix< Promote< INMOST_DATA_REAL_TYPE, variable >::type >	CholeskySolve (const AbstractMatrixReadOnly< variable > &B, int *ierr) const

__INLINE Matrix< Promote< variable, INMOST_DATA_REAL_TYPE >::type >	CholeskySolve (const AbstractMatrixReadOnly< INMOST_DATA_REAL_TYPE > &B, int *ierr) const

Additional Inherited Members
Static Protected Attributes inherited from INMOST::AbstractMatrixBase
static thread_private< Sparse::RowMerger >	merger

Detailed Description

template<typename Var>
class INMOST::MatrixConcatRows< Var >

Definition at line 2866 of file inmost_dense.h.

Member Function Documentation

◆ Cols()

template<typename Var >

__INLINE enumerator INMOST::MatrixConcatRows< Var >::Cols ( ) const

inlinevirtual

Number of columns.

Returns: Number of columns.

Implements INMOST::AbstractMatrixReadOnly< Var >.

Definition at line 2880 of file inmost_dense.h.

◆ compute()

template<typename Var >

__INLINE Var INMOST::MatrixConcatRows< Var >::compute	(	enumerator	i,
		enumerator	j
	)		const

inlinevirtual

Access element of the matrix by row and column indices without right to change the element.

Parameters

i	Row index.
j	Column index.

Returns: Reference to constant element.

Implements INMOST::AbstractMatrixReadOnly< Var >.

Definition at line 2889 of file inmost_dense.h.

◆ get()

template<typename Var >

__INLINE const Var& INMOST::MatrixConcatRows< Var >::get	(	enumerator	i,
		enumerator	j
	)		const

inlinevirtual

Access element of the matrix by row and column indices without right to change the element.

Parameters

i	Row index.
j	Column index.

Returns: Reference to constant element.

Implements INMOST::AbstractMatrix< Var >.

Definition at line 2907 of file inmost_dense.h.

◆ operator()()

template<typename Var >

__INLINE Var& INMOST::MatrixConcatRows< Var >::operator()	(	enumerator	i,
		enumerator	j
	)

inlinevirtual

Access element of the matrix by row and column indices without right to change the element.

Parameters

i	Row index.
j	Column index.

Returns: Reference to element.

Implements INMOST::AbstractMatrix< Var >.

Definition at line 2898 of file inmost_dense.h.

◆ Resize()

template<typename Var >

void INMOST::MatrixConcatRows< Var >::Resize	(	enumerator	rows,
		enumerator	cols
	)

inlinevirtual

This is a stub function to fulfill abstract inheritance.

BlockOfMatrix cannot change it's size, since it just points to a part of the larger empty matrix.

Implements INMOST::AbstractMatrix< Var >.

Definition at line 2914 of file inmost_dense.h.

◆ Rows()

template<typename Var >

__INLINE enumerator INMOST::MatrixConcatRows< Var >::Rows ( ) const

inlinevirtual

Number of rows.

Returns: Number of rows.

Implements INMOST::AbstractMatrixReadOnly< Var >.

Definition at line 2877 of file inmost_dense.h.

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

Public Types

Public Member Functions

Additional Inherited Members

Detailed Description

template<typename Var> class INMOST::MatrixConcatRows< Var >

Member Function Documentation

◆ Cols()

◆ compute()

◆ get()

◆ operator()()

◆ Resize()

◆ Rows()

template<typename Var>
class INMOST::MatrixConcatRows< Var >