C-XSC - A C++ Class Library for Extended Scientific Computing  2.5.4
cxsc::l_imatrix_slice Class Reference

The Multiple-Precision Data Type l_imatrix_slice. More...

#include <l_imatrix.hpp>

List of all members.

Public Member Functions

 l_imatrix_slice (l_imatrix &a, const int &l1, const int &u1, const int &l2, const int &u2) throw ()
 Constructor of class l_imatrix_slice.
 l_imatrix_slice (l_imatrix_slice &a, const int &l1, const int &u1, const int &l2, const int &u2) throw ()
 Constructor of class l_imatrix_slice.
 l_imatrix_slice (const l_imatrix_slice &ms) throw ()
 Constructor of class l_imatrix_slice.
l_imatrix_sliceoperator&= (const l_imatrix &m1) throw ()
 Allocates the intersection of the arguments to the first argument.
l_imatrix_sliceoperator&= (const l_imatrix_slice &ms2) throw ()
 Allocates the intersection of the arguments to the first argument.
l_imatrix_sliceoperator&= (const rmatrix &m1) throw ()
 Allocates the intersection of the arguments to the first argument.
l_imatrix_sliceoperator&= (const rmatrix_slice &ms2) throw ()
 Allocates the intersection of the arguments to the first argument.
l_imatrix_sliceoperator&= (const l_rmatrix &m1) throw ()
 Allocates the intersection of the arguments to the first argument.
l_imatrix_sliceoperator&= (const l_rmatrix_slice &ms2) throw ()
 Allocates the intersection of the arguments to the first argument.
l_imatrix_sliceoperator&= (const imatrix &m1) throw ()
 Allocates the intersection of the arguments to the first argument.
l_imatrix_sliceoperator&= (const imatrix_slice &ms2) throw ()
 Allocates the intersection of the arguments to the first argument.
l_imatrix_sliceoperator() () throw ()
 Operator for accessing the whole matrix.
l_imatrix_slice operator() (const int &m, const int &n) throw ()
 Operator for accessing a part of the matrix.
l_imatrix_slice operator() (const int &m1, const int &m2, const int &n1, const int &n2) throw ()
 Operator for accessing a part of the matrix.
l_imatrix_sliceoperator*= (const l_interval &c) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const l_imatrix &m) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const l_imatrix_slice &ms2) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const real &c) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const rmatrix &m) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const rmatrix_slice &ms2) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const l_real &c) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const l_rmatrix &m) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const l_rmatrix_slice &ms2) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const interval &c) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const imatrix &m) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator*= (const imatrix_slice &ms2) throw ()
 Implementation of multiplication and allocation operation.
l_imatrix_sliceoperator+= (const l_interval &c) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const l_imatrix &m1) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const l_imatrix_slice &ms2) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const real &c) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const rmatrix_slice &ms2) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const rmatrix &m1) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const l_real &c) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const l_rmatrix_slice &ms2) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const l_rmatrix &m1) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const interval &c) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const imatrix_slice &ms2) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator+= (const imatrix &m1) throw ()
 Implementation of addition and allocation operation.
l_imatrix_sliceoperator-= (const l_interval &c) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const l_imatrix &m1) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const l_imatrix_slice &ms2) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const real &c) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const rmatrix &m1) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const rmatrix_slice &ms2) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const l_real &c) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const l_rmatrix &m1) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const l_rmatrix_slice &ms2) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const interval &c) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const imatrix &m1) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator-= (const imatrix_slice &ms2) throw ()
 Implementation of subtraction and allocation operation.
l_imatrix_sliceoperator/= (const l_interval &c) throw ()
 Implementation of division and allocation operation.
l_imatrix_sliceoperator/= (const real &c) throw ()
 Implementation of division and allocation operation.
l_imatrix_sliceoperator/= (const l_real &c) throw ()
 Implementation of division and allocation operation.
l_imatrix_sliceoperator/= (const interval &c) throw ()
 Implementation of division and allocation operation.
l_imatrix_sliceoperator= (const l_imatrix &m) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_imatrix_slice &ms) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_interval &r) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_ivector &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_ivector_slice &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_imatrix_subv &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const rmatrix &m) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const rmatrix_slice &ms) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const real &r) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const rvector &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const rvector_slice &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const rmatrix_subv &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const imatrix &m) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const imatrix_slice &ms) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const interval &r) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const ivector &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const ivector_slice &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const imatrix_subv &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_rmatrix &m) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_rmatrix_slice &ms) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_real &r) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_rvector &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_rvector_slice &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_sliceoperator= (const l_rmatrix_subv &v) throw ()
 Implementation of standard assigning operator.
l_imatrix_subv operator[] (const int &i) throw ()
 Operator for accessing a single row of the matrix.
l_imatrix_subv operator[] (const cxscmatrix_column &i) throw ()
 Operator for accessing a single column of the matrix.
l_imatrix_sliceoperator|= (const l_imatrix &m1) throw ()
 Allocates the convex hull of the arguments to the first argument.
l_imatrix_sliceoperator|= (const l_imatrix_slice &ms2) throw ()
 Allocates the convex hull of the arguments to the first argument.
l_imatrix_sliceoperator|= (const rmatrix &m1) throw ()
 Allocates the convex hull of the arguments to the first argument.
l_imatrix_sliceoperator|= (const rmatrix_slice &ms2) throw ()
 Allocates the convex hull of the arguments to the first argument.
l_imatrix_sliceoperator|= (const l_rmatrix &m1) throw ()
 Allocates the convex hull of the arguments to the first argument.
l_imatrix_sliceoperator|= (const l_rmatrix_slice &ms2) throw ()
 Allocates the convex hull of the arguments to the first argument.
l_imatrix_sliceoperator|= (const imatrix &m1) throw ()
 Allocates the convex hull of the arguments to the first argument.
l_imatrix_sliceoperator|= (const imatrix_slice &ms2) throw ()
 Allocates the convex hull of the arguments to the first argument.

Detailed Description

The Multiple-Precision Data Type l_imatrix_slice.

This data type represents a partial l_imatrix.

See also:
l_imatrix

Definition at line 1279 of file l_imatrix.hpp.


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