C-XSC - A C++ Class Library for Extended Scientific Computing 2.5.4
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The Multiple-Precision Data Type l_imatrix_subv. More...
#include <l_imatrix.hpp>
Public Member Functions | |
l_imatrix_subv (const l_imatrix_subv &v) noexcept | |
Constructor of class l_imatrix_subv. | |
l_imatrix_subv (l_interval *d, const int &l, const int &u, const int &s, const int &st, const int &o) noexcept | |
Constructor of class l_imatrix_subv. | |
l_imatrix_subv & | operator&= (const ivector &rv) noexcept |
Allocates the intersection of the arguments to the first argument. | |
l_imatrix_subv & | operator&= (const ivector_slice &rv) noexcept |
Allocates the intersection of the arguments to the first argument. | |
l_imatrix_subv & | operator&= (const l_ivector &rv) noexcept |
Allocates the intersection of the arguments to the first argument. | |
l_imatrix_subv & | operator&= (const l_ivector_slice &rv) noexcept |
Allocates the intersection of the arguments to the first argument. | |
l_imatrix_subv & | operator&= (const l_rvector &rv) noexcept |
Allocates the intersection of the arguments to the first argument. | |
l_imatrix_subv & | operator&= (const l_rvector_slice &rv) noexcept |
Allocates the intersection of the arguments to the first argument. | |
l_imatrix_subv & | operator&= (const rvector &rv) noexcept |
Allocates the intersection of the arguments to the first argument. | |
l_imatrix_subv & | operator&= (const rvector_slice &rv) noexcept |
Allocates the intersection of the arguments to the first argument. | |
l_imatrix_subv & | operator() () noexcept |
Operator for accessing the whole vector. | |
l_imatrix_subv | operator() (const int &i) noexcept |
Operator for accessing a part of the vector. | |
l_imatrix_subv | operator() (const int &i1, const int &i2) noexcept |
Operator for accessing a part of the vector. | |
l_imatrix_subv & | operator*= (const interval &c) noexcept |
Implementation of multiplication and allocation operation. | |
l_imatrix_subv & | operator*= (const l_interval &c) noexcept |
Implementation of multiplication and allocation operation. | |
l_imatrix_subv & | operator*= (const l_real &c) noexcept |
Implementation of multiplication and allocation operation. | |
l_imatrix_subv & | operator*= (const real &c) noexcept |
Implementation of multiplication and allocation operation. | |
l_imatrix_subv & | operator+= (const interval &c) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const ivector &rv) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const ivector_slice &rv) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const l_interval &c) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const l_ivector &rv) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const l_ivector_slice &rv) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const l_real &c) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const l_rvector &rv) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const l_rvector_slice &rv) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const real &c) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const rvector &rv) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator+= (const rvector_slice &rv) noexcept |
Implementation of addition and allocation operation. | |
l_imatrix_subv & | operator-= (const interval &c) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const ivector &rv) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const ivector_slice &rv) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const l_interval &c) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const l_ivector &rv) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const l_ivector_slice &rv) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const l_real &c) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const l_rvector &rv) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const l_rvector_slice &rv) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const real &c) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const rvector &rv) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator-= (const rvector_slice &rv) noexcept |
Implementation of subtraction and allocation operation. | |
l_imatrix_subv & | operator/= (const interval &c) noexcept |
Implementation of division and allocation operation. | |
l_imatrix_subv & | operator/= (const l_interval &c) noexcept |
Implementation of division and allocation operation. | |
l_imatrix_subv & | operator/= (const l_real &c) noexcept |
Implementation of division and allocation operation. | |
l_imatrix_subv & | operator/= (const real &c) noexcept |
Implementation of division and allocation operation. | |
l_imatrix_subv & | operator= (const imatrix &m) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const imatrix_slice &m) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const imatrix_subv &rv) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const interval &r) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const ivector &v) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const ivector_slice &v) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_imatrix &m) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_imatrix_slice &m) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_imatrix_subv &rv) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_interval &r) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_ivector &v) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_ivector_slice &v) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_real &r) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_rmatrix &m) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_rmatrix_slice &m) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_rmatrix_subv &rv) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_rvector &v) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const l_rvector_slice &v) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const real &r) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const rmatrix &m) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const rmatrix_slice &m) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const rmatrix_subv &rv) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const rvector &v) noexcept |
Implementation of standard assigning operator. | |
l_imatrix_subv & | operator= (const rvector_slice &v) noexcept |
Implementation of standard assigning operator. | |
l_interval & | operator[] (const int &i) const noexcept |
Operator for accessing the single elements of the vector. | |
l_imatrix_subv & | operator|= (const ivector &rv) noexcept |
Allocates the convex hull of the arguments to the first argument. | |
l_imatrix_subv & | operator|= (const ivector_slice &rv) noexcept |
Allocates the convex hull of the arguments to the first argument. | |
l_imatrix_subv & | operator|= (const l_ivector &rv) noexcept |
Allocates the convex hull of the arguments to the first argument. | |
l_imatrix_subv & | operator|= (const l_ivector_slice &rv) noexcept |
Allocates the convex hull of the arguments to the first argument. | |
l_imatrix_subv & | operator|= (const l_rvector &rv) noexcept |
Allocates the convex hull of the arguments to the first argument. | |
l_imatrix_subv & | operator|= (const l_rvector_slice &rv) noexcept |
Allocates the convex hull of the arguments to the first argument. | |
l_imatrix_subv & | operator|= (const rvector &rv) noexcept |
Allocates the convex hull of the arguments to the first argument. | |
l_imatrix_subv & | operator|= (const rvector_slice &rv) noexcept |
Allocates the convex hull of the arguments to the first argument. | |
Friends | |
l_imatrix_subv | Col (const l_imatrix &m, const int &i) |
Returns one column of the matrix as a vector. | |
l_imatrix_subv | Col (l_imatrix &m, const int &i) |
Returns one column of the matrix as a vector. | |
int | Lb (const l_imatrix_subv &rv) noexcept |
Returns the lower bound of the vector. | |
l_imatrix_subv | Row (const l_imatrix &m, const int &i) |
Returns one row of the matrix as a vector. | |
l_imatrix_subv | Row (l_imatrix &m, const int &i) |
Returns one row of the matrix as a vector. | |
int | Ub (const l_imatrix_subv &rv) noexcept |
Returns the upper bound of the vector. | |
The Multiple-Precision Data Type l_imatrix_subv.
This Data Type provides one column or row of a matrix as a vector.
Definition at line 46 of file l_imatrix.hpp.