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// ***********************************************************************
//
// Moocho: Multi-functional Object-Oriented arCHitecture for Optimization
// Copyright (2003) Sandia Corporation
//
// Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive
// license for use of this work by or on behalf of the U.S. Government.
//
// This library is free software; you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation; either version 2.1 of the
// License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
// USA
// Questions? Contact Roscoe A. Bartlett (rabartl@sandia.gov)
//
// ***********************************************************************
// @HEADER
#ifndef LIN_ALG_OP_PACK_DECL_H
#define LIN_ALG_OP_PACK_DECL_H
#include "DenseLinAlgPack_DVectorOp.hpp"
#include "DenseLinAlgPack_DMatrixOp.hpp"
namespace LinAlgOpPack {
typedef DenseLinAlgPack::value_type value_type;
using DenseLinAlgPack::DVector;
using DenseLinAlgPack::DVectorSlice;
using DenseLinAlgPack::DMatrix;
using DenseLinAlgPack::DMatrixSlice;
using DenseLinAlgPack::Vt_S;
using DenseLinAlgPack::Vp_StV;
using DenseLinAlgPack::Vp_StMtV;
using DenseLinAlgPack::V_InvMtV;
using DenseLinAlgPack::Mp_StM;
using DenseLinAlgPack::Mp_StMtM;
using DenseLinAlgPack::M_StInvMtM;
// //////////////////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////////////////
/* * @name Default Linear Algebra implementation operations.
*
* These are template functions that can be used to perform simpler
* linear algebra operations given more elaborate ones. The idea is that
* for each combination of vector and matrix types, the BLAS like operations
* must be provided and then these template functions provide related
* linear algebra operations. The user can override these default implementations
* by defining the exact functions himself.
*
* Warning\\
* In general it is not allowed for the lhs argument to be used in the rhs expression.
* Concidering aliasing would have make the operations much more complicated.
* So unless you are sure that it is okay, do not use a vector or matrix object
* in both the lhs and rhs expressions.
*
* The nameing covension for these functions is the same as for the linear algebra
* functions for #DVectorSlice# and #DMatrixSlice#.
*/
// @{
// //////////////////////////////////////////////////////////////////////////////
// ///////////////////////////////////////////////////////////////////////////////
/* * @name Level 1 BLAS for Vectors
*
* For these functions to work for the type V the following function must
* be defined:
*
* // vs_lhs += alpha * V_rhs \\
* void Vp_StV(DVectorSlice* vs_lhs, value_type alpha, const V& V_rhs);
*
* The rest of these level 1 BLAS functions implement the variations.
*/
// @{
// //////////////////////////////////////////////////////////////////////////////
/* * @name += operations
*/
// @{
/** \brief . */
/* * vs_lhs += V_rhs.
*
* Calls: #Vp_StV(vs_lhs,1.0,V_rhs);#
*/
template <class V>
void Vp_V(DVectorSlice* vs_lhs, const V& V_rhs);
// end += operations
// @}
// //////////////////////////////////////////////////////////////////////////////
/* * @name = operations with DVector as lhs
*/
// @{
/** \brief . */
/* * v_lhs = V_rhs.
*
* Calls: #Vp_V(&(*v_lhs)(),V_rhs);#
*/
template <class V>
void assign(DVector* v_lhs, const V& V_rhs);
/** \brief . */
/* * v_lhs = alpha * V_rhs.
*
* Calls: #Vp_StV(&(*v_lhs)(),alpha,V_rhs);#
*/
template <class V>
void V_StV(DVector* v_lhs, value_type alpha, const V& V_rhs);
/** \brief . */
/* * v_lhs = - V_rhs.
*
* Calls: #V_StV(&(*v_lhs)(),-1.0,V_rhs);#
*/
template <class V>
void V_mV(DVector* v_lhs, const V& V_rhs);
///
/* * v_lhs = V1_rhs1 + V2_rhs2.
*
* Calls: #Vp_V(&(*v_lhs)(),V1_rhs1); Vp_V(&(*v_lhs)(),V1_rhs2);#
*/
template <class V1, class V2>
void V_VpV(DVector* v_lhs, const V1& V1_rhs1, const V2& V2_rhs2);
/** \brief . */
/* * v_lhs = V_rhs1 - V_rhs2.
*
* Calls: #Vp_V(&(*v_lhs)(),V1_rhs1); Vp_StV(&(*v_lhs)(),-1.0,V2_rhs2);#
*/
template <class V1, class V2>
void V_VmV(DVector* v_lhs, const V1& V1_rhs1, const V2& V2_rhs2);
/** \brief . */
/* * v_lhs = alpha * V_rhs1 + vs_rhs2.
*
* Calls: #Vp_StV(&(*v_lhs)(),alpha,V_rhs1);#
*/
template <class V>
void V_StVpV(DVector* v_lhs, value_type alpha, const V& V_rhs1
, const DVectorSlice& vs_rhs2);
// end = operations with DVector as lhs
// @}
// //////////////////////////////////////////////////////////////////////////////
/* * @name = operations with DVectorSlice as lhs
*/
// @{
/** \brief . */
/* * vs_lhs = V_rhs.
*
* Calls: #Vp_V(vs_lhs,V_rhs);#
*/
template <class V>
void assign(DVectorSlice* vs_lhs, const V& V_rhs);
/** \brief . */
/* * vs_lhs = alpha * V_rhs.
*
* Calls: #Vp_StV(vs_lhs,alpha,V_rhs);#
*/
template <class V>
void V_StV(DVectorSlice* vs_lhs, value_type alpha, const V& V_rhs);
/** \brief . */
/* * vs_lhs = - V_rhs.
*
* Calls: #V_StV(vs_lhs,-1.0,V_rhs);#
*/
template <class V>
void V_mV(DVectorSlice* vs_lhs, const V& V_rhs);
///
/* * vs_lhs = V1_rhs1 + V2_rhs2.
*
* Calls: #Vp_V(vs_lhs,V1_rhs1); Vp_V(vs_lhs,V1_rhs2);#
*/
template <class V1, class V2>
void V_VpV(DVectorSlice* vs_lhs, const V1& V1_rhs1, const V2& V2_rhs2);
/** \brief . */
/* * vs_lhs = V_rhs1 - V_rhs2.
*
* Calls: #Vp_V(vs_lhs,V1_rhs1); Vp_StV(vs_lhs,-1.0,V2_rhs2);#
*/
template <class V1, class V2>
void V_VmV(DVectorSlice* vs_lhs, const V1& V1_rhs1, const V2& V2_rhs2);
/** \brief . */
/* * vs_lhs = alpha * V_rhs1 + vs_rhs2.
*
* Calls: #Vp_StV(vs_lhs,alpha,V_rhs1);#
*/
template <class V>
void V_StVpV(DVectorSlice* vs_lhs, value_type alpha, const V& V_rhs1
, const DVectorSlice& vs_rhs2);
// end = operations with DVectorSlice as lhs
// @}
// end Level 1 BLAS for Vectors
// @}
// //////////////////////////////////////////////////////////////////////////////
// ///////////////////////////////////////////////////////////////////////////////
/* * @name Level 1 BLAS for Matrices
*
* For these functions to work for the type M the following function must
* be defined:
*
* // gms_lhs += alpha * op(M_rhs) \\
* void Mp_StM(DMatrixSlice* vs_lhs, value_type alpha, const V& V_rhs, BLAS_Cpp::Transp);
*
* The rest of these level 1 BLAS functions implement the variations.
*/
// @{
// //////////////////////////////////////////////////////////////////////////////
/* * @name += operations
*/
// @{
/** \brief . */
/* * gms_lhs += op(M_rhs).
*
* Calls: #Mp_StM(gms_lhs,1.0,M_rhs,trans_rhs);#
*/
template <class M>
void Mp_M(DMatrixSlice* gms_lhs, const M& M_rhs, BLAS_Cpp::Transp trans_rhs);
// end += operations
// @}
// //////////////////////////////////////////////////////////////////////////////
/* * @name = operations with DMatrix as lhs
*/
// @{
/** \brief . */
/* * gm_lhs = op(M_rhs).
*
* Calls: #Mp_M(&(*gm_lhs)(),M_rhs,trans_rhs);#
*/
template <class M>
void assign(DMatrix* gm_lhs, const M& M_rhs, BLAS_Cpp::Transp trans_rhs);
/** \brief . */
/* * gm_lhs = alpha * M_rhs.
*
* Calls: #Mp_StM(&(*gm_lhs)(),alpha,M_rhs,trans_rhs);#
*/
template <class M>
void M_StM(DMatrix* v_lhs, value_type alpha, const M& M_rhs
, BLAS_Cpp::Transp trans_rhs);
/** \brief . */
/* * gm_lhs = - op(M_rhs).
*
* Calls: #M_StM(&(*gm_lhs)(),-1.0,M_rhs,trans_rhs);#
*/
template <class M>
void M_mM(DMatrix* gm_lhs, const M& M_rhs, BLAS_Cpp::Transp trans_rhs) ;
///
/* * gm_lhs = op(M1_rhs1) + op(M2_rhs2).
*
* Calls: #Mp_M(&(*gm_lhs)(),M1_rhs1,trans_rhs1); Mp_M(&(*gm_lhs)(),M1_rhs2,trans_rhs2);#
*/
template <class M1, class M2>
void M_MpM(DMatrix* gm_lhs, const M1& M1_rhs1, BLAS_Cpp::Transp trans_rhs1
, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2);
/** \brief . */
/* * gm_lhs = op(M_rhs1) - op(M_rhs2).
*
* Calls: #Mp_M(&(*gm_lhs)(),M1_rhs1,trans_rhs1); Mp_StM(&(*gm_lhs)(),-1.0,M2_rhs2,trans_rhs2);#
*/
template <class M1, class M2>
void M_MmM(DMatrix* gm_lhs, const M1& M1_rhs1, BLAS_Cpp::Transp trans_rhs1
, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2);
/** \brief . */
/* * gm_lhs = alpha * op(M_rhs1) + op(gms_rhs2).
*
* Calls: #Mp_StM(&(*gm_lhs)(),alpha,M_rhs1,trans_rhs1);#
*/
template <class M>
void M_StMpM(DMatrix* gm_lhs, value_type alpha, const M& M_rhs1, BLAS_Cpp::Transp trans_rhs1
, const DMatrixSlice& gms_rhs2, BLAS_Cpp::Transp trans_rhs2);
// end = operations with DMatrix as lhs
// @}
// //////////////////////////////////////////////////////////////////////////////
/* * @name = operations with DMatrixSlice as lhs
*/
// @{
/** \brief . */
/* * gms_lhs = op(M_rhs).
*
* Calls: #Mp_M(gms_lhs,M_rhs,trans_rhs);#
*/
template <class M>
void assign(DMatrixSlice* gms_lhs, const M& M_rhs, BLAS_Cpp::Transp trans_rhs);
/** \brief . */
/* * gm_lhs = alpha * M_rhs.
*
* Calls: #Mp_StM(&(*gm_lhs)(),alpha,M_rhs,trans_rhs);#
*/
template <class M>
void M_StM(DMatrixSlice* gms_lhs, value_type alpha, const M& M_rhs
, BLAS_Cpp::Transp trans_rhs);
/** \brief . */
/* * gm_lhs = - op(M_rhs).
*
* Calls: #M_StM(&(*gm_lhs)(),-1.0,M_rhs,trans_rhs);#
*/
template <class M>
void M_mM(DMatrixSlice* gms_lhs, const M& M_rhs, BLAS_Cpp::Transp trans_rhs) ;
///
/* * gms_lhs = op(M1_rhs1) + op(M2_rhs2).
*
* Calls: #Mp_M(gms_lhs,M1_rhs1,trans_rhs1); Mp_M(gms_lhs,M1_rhs2,trans_rhs2);#
*/
template <class M1, class M2>
void M_MpM(DMatrixSlice* gms_lhs, const M1& M1_rhs1, BLAS_Cpp::Transp trans_rhs1
, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2);
/** \brief . */
/* * gms_lhs = op(M_rhs1) - op(M_rhs2).
*
* Calls: #Mp_M(gms_lhs,M1_rhs1,trans_rhs1); Mp_StM(gms_lhs,-1.0,M2_rhs2,trans_rhs2);#
*/
template <class M1, class M2>
void M_MmM(DMatrixSlice* gms_lhs, const M1& M1_rhs1, BLAS_Cpp::Transp trans_rhs1
, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2);
/** \brief . */
/* * gms_lhs = alpha * op(M_rhs1) + op(gms_rhs2).
*
* Calls: #Mp_StM(gms_lhs,alpha,M_rhs1,trans_rhs1);#
*/
template <class M>
void M_StMpM(DMatrixSlice* gms_lhs, value_type alpha, const M& M_rhs1, BLAS_Cpp::Transp trans_rhs1
, const DMatrixSlice& gms_rhs2, BLAS_Cpp::Transp trans_rhs2);
// end = operations with DMatrixSlice as lhs
// @}
// end Level 1 BLAS for Matrices
// @}
// //////////////////////////////////////////////////////////////////////////////
// ///////////////////////////////////////////////////////////////////////
/* * @name Level 2 BLAS
*
* These operations implement variations on the Level-2 BLAS operation:\\
*
* vs_lhs = alpha * op(M_rhs1) * V_rhs2 + beta * vs_lhs
*/
// @{
// //////////////////////////////////////////////////////////////////////////////
/* * @name += operations
*/
// @{
/** \brief . */
/* * vs_lhs += op(M_rhs1) * V_rhs2.
*
* Calls: #Vp_StMtV(vs_lhs,1.0,M_rhs1,trans_rhs1,V_rhs2);#
*/
template <class M, class V>
void Vp_MtV(DVectorSlice* vs_lhs, const M& M_rhs1, BLAS_Cpp::Transp trans_rhs1
, const V& V_rhs2);
/** \brief . */
/* * vs_lhs = op(M_rhs1) * V_rhs2 + beta * vs_lhs.
*
* Calls: #Vp_StMtV(vs_lhs,1.0,M_rhs1,trans_rhs1,V_rhs2,beta);#
*/
template <class M, class V>
void Vp_MtV(DVectorSlice* vs_lhs, const M& M_rhs1, BLAS_Cpp::Transp trans_rhs1
, const V& V_rhs2, value_type beta);
// end += operations
// @}
// //////////////////////////////////////////////////////////////////////////////
/* * @name = operations with DVector as lhs
*/
// @{
/** \brief . */
/* * v_lhs = alpha * op(M_rhs1) * V_rhs2.
*
* Calls: #Vp_StMtV(&(*v_lhs)(),alpha,M_rhs1,trans_rhs1,V_rhs2);#
*/
template <class M, class V>
void V_StMtV(DVector* v_lhs, value_type alpha, const M& M_rhs1
, BLAS_Cpp::Transp trans_rhs1, const V& V_rhs2);
/** \brief . */
/* * v_lhs = op(M_rhs1) * V_rhs2.
*
* Calls: #Vp_MtV(&(*v_lhs)(),M_rhs1,trans_rhs1,V_rhs2);#
*/
template <class M, class V>
void V_MtV(DVector* v_lhs, const M& M_rhs1, BLAS_Cpp::Transp trans_rhs1
, const V& V_rhs2);
// end = operations with DVector as lhs
// @}
// //////////////////////////////////////////////////////////////////////////////
/* * @name = operations with DVectorSlice as lhs
*/
// @{
/** \brief . */
/* * vs_lhs = alpha * op(M_rhs1) * V_rhs2.
*
* Calls: #Vp_StMtV(vs_lhs,alpha,M_rhs1,trans_rhs1,V_rhs2);#
*/
template <class M, class V>
void V_StMtV(DVectorSlice* vs_lhs, value_type alpha, const M& M_rhs1
, BLAS_Cpp::Transp trans_rhs1, const V& V_rhs2);
/** \brief . */
/* * vs_lhs = op(M_rhs1) * V_rhs2.
*
* Calls: #Vp_MtV(vs_lhs,M_rhs1,trans_rhs1,V_rhs2);#
*/
template <class M, class V>
void V_MtV(DVectorSlice* vs_lhs, const M& M_rhs1, BLAS_Cpp::Transp trans_rhs1
, const V& V_rhs2);
// end = operations with DVectorSlice as lhs
// @}
// end Level 2 BLAS
// @}
// //////////////////////////////////////////////////////////////////////////////
// //////////////////////////////////////////////////////////////////////////////
/* * @name Level 3 BLAS
*
* These operations are based on the Level-3 BLAS operation:
*
* gms_lhs = alpha * op(M1_rhs1) * op(M2_rhs2) + beta * gms_lhs
*/
// @{
// //////////////////////////////////////////////////////////////////////////////
/* * @name += operations
*/
// @{
/** \brief . */
/* * gms_lhs += op(M1_rhs1) * op(M2_rhs2).
*
* Calls: #Mp_StMtM(gms_lhs,1.0,M1_rhs1,trans_rhs1,M2_rhs2,trans_rhs2);#
*/
template <class M1, class M2>
void Mp_MtM(DMatrixSlice* gms_lhs, const M1& M1_rhs1, BLAS_Cpp::Transp trans_rhs1
, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2);
/** \brief . */
/* * gms_lhs = op(M1_rhs1) * op(M2_rhs2) + beta * gms_rhs.
*
* Calls: #Mp_StMtM(gms_lhs,1.0,M1_rhs1,trans_rhs1,M2_rhs2,trans_rhs2,beta);#
*/
template <class M1, class M2>
void Mp_MtM(DMatrixSlice* gms_lhs, const M1& M1_rhs1, BLAS_Cpp::Transp trans_rhs1
, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2, value_type beta);
// end += operations
// @}
// //////////////////////////////////////////////////////////////////////////////
/* * @name = operations with DMatrix as lhs
*/
// @{
/** \brief . */
/* * gm_lhs = alpha * op(M1_rhs1) * op(M2_rhs2).
*
* Calls: #Mp_StMtM(&(*gm_lhs)(),alpha,M1_rhs1,trans_rhs1,M2_rhs2,trans_rhs2);#
*/
template <class M1, class M2>
void M_StMtM(DMatrix* gm_lhs, value_type alpha, const M1& M1_rhs1
, BLAS_Cpp::Transp trans_rhs1, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2);
/** \brief . */
/* * gm_lhs = op(M1_rhs1) * op(M2_rhs2).
*
* Calls: #Mp_MtM(&(*gm_lhs)(),M1_rhs1,trans_rhs1,M2_rhs2,trans_rhs2);#
*/
template <class M1, class M2>
void M_MtM(DMatrix* gm_lhs, const M1& M1_rhs1
, BLAS_Cpp::Transp trans_rhs1, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2);
// end = operations with DMatrix as lhs
// @}
// //////////////////////////////////////////////////////////////////////////////
/* * @name = operations with DMatrixSlice as lhs
*/
// @{
/** \brief . */
/* * gms_lhs = alpha * op(M1_rhs1) * op(M2_rhs2).
*
* Calls: #Mp_StMtM(gms_lhs,alpha,M1_rhs1,trans_rhs1,M2_rhs2,trans_rhs2);#
*/
template <class M1, class M2>
void M_StMtM(DMatrixSlice* gms_lhs, value_type alpha, const M1& M1_rhs1
, BLAS_Cpp::Transp trans_rhs1, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2);
/** \brief . */
/* * gms_lhs = op(M1_rhs1) * op(M2_rhs2).
*
* Calls: #Mp_MtM(gms_lhs,M1_rhs1,trans_rhs1,M2_rhs2,trans_rhs2);#
*/
template <class M1, class M2>
void M_MtM(DMatrixSlice* gms_lhs, const M1& M1_rhs1
, BLAS_Cpp::Transp trans_rhs1, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2);
// end = operations with DMatrixSlice as lhs
// @}
// end Level 3 BLAS
// @}
// end Default Linear Algebra Implementations
// @}
// ///////////////////////////////////////////////////////////////////////////
// ///////////////////////////////////////////////////////////////////////////
// Inline definitions
// ///////////////////////////////////////////////////////////////////////////////
// Level 1 BLAS for Vectors
// vs_lhs += V_rhs.
template <class V>
inline
void Vp_V(DVectorSlice* vs_lhs, const V& V_rhs) {
Vp_StV(vs_lhs,1.0,V_rhs);
}
// v_lhs = - V_rhs.
template <class V>
inline
void V_mV(DVector* v_lhs, const V& V_rhs) {
V_StV(v_lhs,-1.0,V_rhs);
}
// vs_lhs = - V_rhs.
template <class V>
inline
void V_mV(DVectorSlice* vs_lhs, const V& V_rhs) {
V_StV(vs_lhs,-1.0,V_rhs);
}
// ///////////////////////////////////////////////////////////////////////////////
// Level 1 BLAS for Matrices
// gms_lhs += op(M_rhs).
template <class M>
inline
void Mp_M(DMatrixSlice* gms_lhs, const M& M_rhs, BLAS_Cpp::Transp trans_rhs) {
Mp_StM(gms_lhs,1.0,M_rhs,trans_rhs);
}
// gm_lhs = - op(M_rhs).
template <class M>
inline
void M_mM(DMatrix* gm_lhs, const M& M_rhs, BLAS_Cpp::Transp trans_rhs) {
M_StM(gm_lhs,-1.0,M_rhs,trans_rhs);
}
// gms_lhs = - op(M_rhs).
template <class M>
inline
void M_mM(DMatrixSlice* gms_lhs, const M& M_rhs, BLAS_Cpp::Transp trans_rhs) {
M_StM(gms_lhs,-1.0,M_rhs,trans_rhs);
}
// ///////////////////////////////////////////////////////////////////////
// Level 2 BLAS
// vs_lhs += op(M_rhs1) * V_rhs2.
template <class M, class V>
inline
void Vp_MtV(DVectorSlice* vs_lhs, const M& M_rhs1, BLAS_Cpp::Transp trans_rhs1
, const V& V_rhs2)
{
Vp_StMtV(vs_lhs,1.0,M_rhs1,trans_rhs1,V_rhs2);
}
// vs_lhs = op(M_rhs1) * V_rhs2 + beta * vs_lhs.
template <class M, class V>
inline
void Vp_MtV(DVectorSlice* vs_lhs, const M& M_rhs1, BLAS_Cpp::Transp trans_rhs1
, const V& V_rhs2, value_type beta)
{
Vp_StMtV(vs_lhs,1.0,M_rhs1,trans_rhs1,V_rhs2,beta);
}
// //////////////////////////////////////////////////////////////////////////////
// Level 3 BLAS
// gms_lhs += op(M1_rhs1) * op(M2_rhs2).
template <class M1, class M2>
inline
void Mp_MtM(DMatrixSlice* gms_lhs, const M1& M1_rhs1, BLAS_Cpp::Transp trans_rhs1
, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2)
{
Mp_StMtM(gms_lhs,1.0,M1_rhs1,trans_rhs1,M2_rhs2,trans_rhs2);
}
// gms_lhs = op(M1_rhs1) * op(M2_rhs2) + beta * gms_rhs.
template <class M1, class M2>
inline
void Mp_MtM(DMatrixSlice* gms_lhs, const M1& M1_rhs1, BLAS_Cpp::Transp trans_rhs1
, const M2& M2_rhs2, BLAS_Cpp::Transp trans_rhs2, value_type beta)
{
Mp_StMtM(gms_lhs,1.0,M1_rhs1,trans_rhs1,M2_rhs2,trans_rhs2,beta);
}
} // end namespace LinAlgOpPack
#endif // LIN_ALG_OP_PACK_DECL_H
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