27#ifndef _CXSC_LRVECRMAT_INL_INCLUDED
28#define _CXSC_LRVECRMAT_INL_INCLUDED
38 { _vmconstr<l_rvector,rmatrix,l_real>(*
this,sl); }
45 { _vmsconstr<l_rvector,rmatrix_slice,l_real>(*
this,sl); }
49 for (
int i=0, j=v.start;i<v.size;i++,j+=v.offset)
83 { _vmvaccu<dotprecision,l_rvector,rmatrix_subv>(dp,rv2,rv1); }
90 { _vmvaccu<dotprecision,l_rvector,rmatrix_subv>(dp,rv1,rv2); }
97 { _vmvaccu<idotprecision,l_rvector,rmatrix_subv>(dp,rv2,rv1); }
104 { _vmvaccu<idotprecision,l_rvector,rmatrix_subv>(dp,rv1,rv2); }
112 { _vmvaccu<dotprecision,l_rvector,rmatrix_subv>(dp,
l_rvector(rv2),rv1); }
119 { _vmvaccu<dotprecision,l_rvector,rmatrix_subv>(dp,
l_rvector(rv1),rv2); }
126 { _vmvaccu<idotprecision,l_rvector,rmatrix_subv>(dp,
l_rvector(rv2),rv1); }
133 { _vmvaccu<idotprecision,l_rvector,rmatrix_subv>(dp,
l_rvector(rv1),rv2); }
143 {
return _vmassign<l_rvector,rmatrix,l_real>(*
this,m); }
150 {
return _vmassign<l_rvector,rmatrix,l_real>(*
this,
rmatrix(m)); }
157 {
return _vsvassign(*
this,
rvector(m)); }
172 {
return _mvlmult<rmatrix,l_rvector,l_rvector>(m,v); }
179 {
return _msvlmult<rmatrix_slice,l_rvector,l_rvector>(ms,v); }
186 {
return _vmlmult<l_rvector,rmatrix,l_rvector>(v,m); }
193 {
return _vmslmult<l_rvector,rmatrix_slice,l_rvector>(v,ms); }
200 {
return _vmlmultassign<l_rvector,rmatrix,l_real>(v,m); }
207 {
return _vmslmultassign<l_rvector,rmatrix_slice,l_real>(v,ms); }
215 {
return _vmlmult<l_rvector,rmatrix,l_rvector>(
l_rvector(v),m); }
222 { *
this=*
this*m;
return *
this; }
The Data Type dotprecision.
The Data Type idotprecision.
The Multiple-Precision Data Type l_real.
The Multiple-Precision Data Type l_rvector_slice.
l_rvector_slice & operator=(const l_rvector_slice &sl) noexcept
Implementation of standard assigning operator.
l_rvector_slice & operator*=(const l_real &r) noexcept
Implementation of multiplication and allocation operation.
The Multiple-Precision Data Type l_rvector.
l_rvector() noexcept
Constructor of class l_rvector.
l_rvector & operator=(const l_rvector &rv) noexcept
Implementation of standard assigning operator.
The Data Type rmatrix_slice.
The Data Type rmatrix_subv.
The namespace cxsc, providing all functionality of the class library C-XSC.
INLINE l_rvector _l_rvector(const rmatrix_subv &rs) noexcept
Deprecated typecast, which only exist for the reason of compatibility with older versions of C-XSC.
cimatrix & operator*=(cimatrix &m, const cinterval &c) noexcept
Implementation of multiplication and allocation operation.
civector operator*(const cimatrix_subv &rv, const cinterval &s) noexcept
Implementation of multiplication operation.