class mrpt::math::CMatrixF¶
This class is a “CSerializable” wrapper for “CMatrixFloat”.
For a complete introduction to Matrices and vectors in MRPT, see: https://www.mrpt.org/Matrices_vectors_arrays_and_Linear_Algebra_MRPT_and_Eigen_classes
#include <mrpt/math/CMatrixF.h> class CMatrixF: public mrpt::serialization::CSerializable, public mrpt::math::CMatrixDynamic { public: // typedefs typedef T Scalar; typedef int Index; typedef T& reference; typedef const T& const_reference; typedef int size_type; typedef std::ptrdiff_t difference_type; typedef Eigen::Matrix<T, RowsAtCompileTime, ColsAtCompileTime, StorageOrder, RowsAtCompileTime, ColsAtCompileTime> eigen_t; typedef typename vec_t::iterator iterator; typedef typename vec_t::const_iterator const_iterator; // fields static constexpr int RowsAtCompileTime = -1; static constexpr int ColsAtCompileTime = -1; static constexpr int SizeAtCompileTime = -1; static constexpr int is_mrpt_type = 1; static constexpr int StorageOrder = 1; // construction CMatrixF(); CMatrixF(size_t row, size_t col); CMatrixF(const CMatrixFloat& m); CMatrixF(const CMatrixDynamic<double>& m); template <typename OtherDerived> CMatrixF(const Eigen::MatrixBase<OtherDerived>& other); // methods iterator begin(); const_iterator begin() const; iterator end(); const_iterator end() const; const_iterator cbegin() const; const_iterator cend() const; template <class OTHERMAT> CMatrixF& operator = (const OTHERMAT& m); template <typename OtherDerived> CMatrixF& operator = (const Eigen::MatrixBase<OtherDerived>& other); template <class MAT> void setFromMatrixLike(const MAT& m); void resize( size_t row, size_t col ); CMatrixDynamic& derived(); const CMatrixDynamic& derived() const; void conservativeResize( size_t row, size_t col ); template <typename VECTOR> void setRow( const Index row, const VECTOR& v ); template <typename VECTOR> void setCol( const Index col, const VECTOR& v ); CMatrixDynamic<float> cast_float() const; CMatrixDynamic<double> cast_double() const; };
Inherited Members¶
public: // methods void setConstant(const Scalar value); void setConstant(size_t nrows, size_t ncols, const Scalar value); void setConstant(size_t nrows, const Scalar value); void assign(const std::size_t N, const Scalar value); void setZero(); void setZero(size_t nrows, size_t ncols); void setZero(size_t nrows); static Derived Constant(const Scalar value); static Derived Constant(size_t nrows, size_t ncols, const Scalar value); static Derived Zero(); static Derived Zero(size_t nrows, size_t ncols); auto block(int start_row, int start_col, int BLOCK_ROWS, int BLOCK_COLS); auto block(int start_row, int start_col, int BLOCK_ROWS, int BLOCK_COLS) const; auto transpose(); auto transpose() const; auto array(); auto array() const; auto operator - () const; template <typename S2, class D2> auto operator + (const MatrixVectorBase<S2, D2>& m2) const; template <typename S2, class D2> void operator += (const MatrixVectorBase<S2, D2>& m2); template <typename S2, class D2> auto operator - (const MatrixVectorBase<S2, D2>& m2) const; template <typename S2, class D2> void operator -= (const MatrixVectorBase<S2, D2>& m2); template <typename S2, class D2> auto operator * (const MatrixVectorBase<S2, D2>& m2) const; auto operator * (const Scalar s) const; template <int N> CMatrixFixed<Scalar, N, 1> tail() const; template <int N> CMatrixFixed<Scalar, N, 1> head() const; Scalar& coeffRef(int r, int c); const Scalar& coeff(int r, int c) const; Scalar minCoeff(std::size_t& outIndexOfMin) const; Scalar minCoeff(std::size_t& rowIdx, std::size_t& colIdx) const; Scalar maxCoeff(std::size_t& outIndexOfMax) const; Scalar maxCoeff(std::size_t& rowIdx, std::size_t& colIdx) const; void operator += (Scalar s); void operator -= (Scalar s); void operator *= (Scalar s); CMatrixDynamic<Scalar> operator * (const CMatrixDynamic<Scalar>& v); Derived operator + (const Derived& m2) const; void operator += (const Derived& m2); Derived operator - (const Derived& m2) const; void operator -= (const Derived& m2); Derived operator * (const Derived& m2) const; Scalar dot(const MatrixVectorBase<Scalar, Derived>& v) const; template <typename OTHERMATVEC> bool operator == (const OTHERMATVEC& o) const; template <typename OTHERMATVEC> bool operator != (const OTHERMATVEC& o) const; Derived& mvbDerived(); const Derived& mvbDerived() const; auto col(int colIdx); auto col(int colIdx) const; auto row(int rowIdx); auto row(int rowIdx) const; template <typename VECTOR_LIKE> void extractRow(int rowIdx, VECTOR_LIKE& v) const; template <typename VECTOR_LIKE> VECTOR_LIKE extractRow(int rowIdx) const; template <typename VECTOR_LIKE> void extractColumn(int colIdx, VECTOR_LIKE& v) const; template <typename VECTOR_LIKE> VECTOR_LIKE extractColumn(int colIdx) const; template <int BLOCK_ROWS, int BLOCK_COLS> CMatrixFixed<Scalar, BLOCK_ROWS, BLOCK_COLS> extractMatrix( const int start_row = 0, const int start_col = 0 ) const; CMatrixDynamic<Scalar> extractMatrix( const int BLOCK_ROWS, const int BLOCK_COLS, const int start_row, const int start_col ) const; Derived& mbDerived(); const Derived& mbDerived() const; void setIdentity(); void setIdentity(const std::size_t N); static Derived Identity(); static Derived Identity(const std::size_t N); CMatrixDynamic& operator = (const CMatrixDynamic<T>& m); template <typename U> CMatrixDynamic& operator = (const CMatrixDynamic<U>& m); template <class Derived> CMatrixDynamic& operator = (const Eigen::MatrixBase<Derived>& m); template <std::size_t ROWS, std::size_t COLS> CMatrixDynamic& operator = (const CMatrixFixed<T, ROWS, COLS>& m); template <typename V, size_t N> CMatrixDynamic& operator = (V(&) theArray [N]); CMatrixDynamic& operator = (CMatrixDynamic&& m);
Construction¶
CMatrixF()
Constructor.
CMatrixF(size_t row, size_t col)
Constructor.
CMatrixF(const CMatrixFloat& m)
Copy constructor.
CMatrixF(const CMatrixDynamic<double>& m)
Copy constructor.
template <typename OtherDerived> CMatrixF(const Eigen::MatrixBase<OtherDerived>& other)
Constructor from any other Eigen class.
Methods¶
template <class OTHERMAT> CMatrixF& operator = (const OTHERMAT& m)
Assignment operator for float matrixes.
template <typename OtherDerived> CMatrixF& operator = (const Eigen::MatrixBase<OtherDerived>& other)
Assignment operator from any other Eigen class.