template class mrpt::math::CSparseSymmetricalMatrix¶
A sparse matrix container for square symmetrical content around the main diagonal.
This class saves half of the space with respect to CSparseMatrixTemplate since only those entries (c,r) such as c>=r are really stored, but both (c,r) and (r,c) can be retrieved or set and both redirect to the same internal cell container.
See also:
#include <mrpt/math/CSparseMatrixTemplate.h> template <class T> class CSparseSymmetricalMatrix: public mrpt::math::CSparseMatrixTemplate { public: // construction CSparseSymmetricalMatrix(); CSparseSymmetricalMatrix(const CSparseSymmetricalMatrix& o); CSparseSymmetricalMatrix(const CSparseMatrixTemplate<T>& o); // methods void resize(size_t matrixSize); T operator () ( size_t r, size_t c ) const; T& operator () ( size_t r, size_t c ); };
Inherited Members¶
public: // typedefs typedef typename std::map<std::pair<size_t, size_t>, T> SparseMatrixMap; typedef typename SparseMatrixMap::const_iterator const_iterator; typedef typename SparseMatrixMap::const_reverse_iterator const_reverse_iterator; // methods T operator () (size_t r, size_t c) const; bool exists(size_t r, size_t c) const; T& operator () (size_t r, size_t c); size_t rows() const; size_t cols() const; template <typename VECTOR> void getRow(size_t nRow, VECTOR& vec) const; template <typename VECTOR> void getColumn(size_t nCol, VECTOR& vec) const; void insert(size_t row, size_t column, const T& obj); template <class MATRIX_LIKE> void insertMatrix( size_t row, size_t column, const MATRIX_LIKE& mat ); const_iterator begin() const; const_iterator end() const; const_reverse_iterator rbegin() const; const_reverse_iterator rend() const; template <typename VECTOR> void setRow( size_t nRow, const VECTOR& vec, const T& nullObject = T() ); template <typename VECTOR> void setColumn( size_t nCol, const VECTOR& vec, const T& nullObject = T() ); void resize(size_t nRows, size_t nCols); CSparseMatrixTemplate<T> operator () (size_t firstRow, size_t lastRow, size_t firstColumn, size_t lastColumn) const; template <typename VECTOR> void asVector(VECTOR& vec) const; size_t getNonNullElements() const; bool empty() const; size_t getNullElements() const; bool isNull(size_t nRow, size_t nCol) const; bool isNotNull(size_t nRow, size_t nCol) const; void clear(); void purge(T nullObject = T());