class for mathematical square matrix
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#include <Matrix.h>
List of all members.
Public Member Functions
Detailed Description
template<typename Obj, unsigned int SIZE>
class tlp::Matrix< Obj, SIZE >
class for mathematical square matrix
Enables to create a Square Matrix of Obj with a limited size and provides Mathematical operation. Mathematical operators must be defined for Obj. Out of bound accesses are only checked in debug mode.
- Author:
- : David Auber auber@tulip-software.org
-
Contributor : Maxime Delorme
- Version:
- 0.0.2 27/04/2005
Constructor & Destructor Documentation
template<typename Obj , unsigned int SIZE>
template<typename Obj , unsigned int SIZE>
template<typename Obj , unsigned int SIZE>
tlp::Matrix< Obj, SIZE >::Matrix |
( |
const std::vector< std::vector< Obj > > & |
covarianceMatrix | ) |
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Member Function Documentation
template<typename Obj , unsigned int SIZE>
Returns the cofactor Matrix of this
template<typename Obj , unsigned int SIZE>
Compute the determinant of the matrix,
template<typename Obj , unsigned int SIZE>
MATRIX& tlp::Matrix< Obj, SIZE >::fill |
( |
Obj |
obj | ) |
[inline] |
Fill the matrix with the value of obj
template<typename Obj , unsigned int SIZE>
Inverse the matrix and return "&(*this)"
template<typename Obj , unsigned int SIZE>
bool tlp::Matrix< Obj, SIZE >::operator!= |
( |
const MATRIX & |
| ) |
const [inline] |
Check non equality of two Matrices
template<typename Obj , unsigned int SIZE>
MATRIX& tlp::Matrix< Obj, SIZE >::operator*= |
( |
const MATRIX & |
mat | ) |
[inline] |
Multiply the matrix by another matrix and return "&(*this)"
template<typename Obj , unsigned int SIZE>
MATRIX& tlp::Matrix< Obj, SIZE >::operator*= |
( |
const Obj & |
obj | ) |
[inline] |
Multiply all elements of the matrix by obj, return "&(*this)"
template<typename Obj , unsigned int SIZE>
MATRIX& tlp::Matrix< Obj, SIZE >::operator+= |
( |
const MATRIX & |
mat | ) |
[inline] |
add another matrix to the current one and return "&(*this)"
template<typename Obj , unsigned int SIZE>
MATRIX& tlp::Matrix< Obj, SIZE >::operator-= |
( |
const MATRIX & |
mat | ) |
[inline] |
substract another matrix from the current and return "&(*this)"
template<typename Obj , unsigned int SIZE>
MATRIX tlp::Matrix< Obj, SIZE >::operator/ |
( |
const Obj & |
obj | ) |
const |
Returns a new matrix equal to the division of the matrix by obj"
template<typename Obj , unsigned int SIZE>
MATRIX tlp::Matrix< Obj, SIZE >::operator/ |
( |
const MATRIX & |
mat2 | ) |
const |
Returns a new matrix equal to the division of the matrix by another matrix"
template<typename Obj , unsigned int SIZE>
MATRIX& tlp::Matrix< Obj, SIZE >::operator/= |
( |
const MATRIX & |
mat | ) |
[inline] |
Divide the matrix by another one return "&(*this)"
template<typename Obj , unsigned int SIZE>
MATRIX& tlp::Matrix< Obj, SIZE >::operator/= |
( |
const Obj & |
obj | ) |
[inline] |
Divide all elements of the matrix by obj, return "&(*this)"
template<typename Obj , unsigned int SIZE>
bool tlp::Matrix< Obj, SIZE >::operator== |
( |
const MATRIX & |
| ) |
const [inline] |
Check equality of two Matrices
template<typename Obj , unsigned int SIZE>
Vector<Obj,SIZE> tlp::Matrix< Obj, SIZE >::powerIteration |
( |
const unsigned int |
nIterations | ) |
const [inline] |
Returns a new vector equal to the most influent eigenvector of the matrix
template<typename Obj , unsigned int SIZE>
Transpose the matrix and return "&(*this)".
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