/usr/include/trilinos/DenseLinAlgPack_DMatrixAsTriSym.hpp is in libtrilinos-dev 10.4.0.dfsg-1ubuntu2.
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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 GEN_MATRIX_AS_TRI_SYM_H
#define GEN_MATRIX_AS_TRI_SYM_H
#include "DenseLinAlgPack_DMatrixClass.hpp"
namespace DenseLinAlgPack {
/* * @name Packaging arguments for GenMatrixSlices treated as triangular
* and symmetric matrices in BLAS-like linear algebra operations.
*
*/
// @{
// /////////////////////////////////////////////////////////////////////////////////////
/** \brief . */
/* * Aggregate information for a triangular matrix (element-wise) stored in a DMatrix.
*
* This is the type to be used as lhs and rhs arguments in element-wise
* linear algebra operations like assignment and binary arithmetic.
*/
class DMatrixSliceTriEle {
public:
/** \brief . */
DMatrixSliceTriEle(const DMatrixSlice& gms, BLAS_Cpp::Uplo uplo)
: gms_(const_cast<DMatrixSlice&>(gms)), uplo_(uplo)
{
#ifdef LINALGPACK_CHECK_RHS_SIZES
assert_gms_square(gms);
#endif
}
/** \brief . */
size_type rows() const {
return gms_.rows();
}
/** \brief . */
size_type cols() const {
return gms_.cols();
}
/** \brief . */
DMatrixSlice& gms() {
return gms_;
}
/** \brief . */
const DMatrixSlice& gms() const {
return gms_;
}
/** \brief . */
BLAS_Cpp::Uplo uplo() const {
return uplo_;
}
/// Allow address to be taken of rvalue of this object
DMatrixSliceTriEle* operator&() {
return this;
}
/** \brief . */
const DMatrixSliceTriEle* operator&() const {
return this;
}
private:
DMatrixSlice gms_;
BLAS_Cpp::Uplo uplo_;
// Not defined and not to be called
DMatrixSliceTriEle();
DMatrixSliceTriEle& operator=(const DMatrixSliceTriEle&);
}; // end class DMatrixSliceTriEle
inline
/// Return a triangular element-wise matrix
DMatrixSliceTriEle nonconst_tri_ele(DMatrixSlice gms, BLAS_Cpp::Uplo uplo)
{
return DMatrixSliceTriEle(gms, uplo);
}
inline
/** \brief . */
const DMatrixSliceTriEle tri_ele(const DMatrixSlice& gms, BLAS_Cpp::Uplo uplo)
{
return DMatrixSliceTriEle(gms, uplo);
}
// ////////////////////////////////////////////////////////////////////////////////
/** \brief . */
/* * Aggregate information for a triangular matrix (structure dependent) stored in a DMatrix.
*
* This is the type to be used as a rhs argument in linear algebra operations
* that are structure specific like the BLAS operations.
*/
class DMatrixSliceTri {
public:
/** \brief . */
DMatrixSliceTri(const DMatrixSlice& gms, BLAS_Cpp::Uplo uplo, BLAS_Cpp::Diag diag)
: gms_(const_cast<DMatrixSlice&>(gms)), uplo_(uplo), diag_(diag)
{
#ifdef LINALGPACK_CHECK_RHS_SIZES
assert_gms_square(gms);
#endif
}
/** \brief . */
size_type rows() const {
return gms_.rows();
}
/** \brief . */
size_type cols() const {
return gms_.cols();
}
/** \brief . */
DMatrixSlice& gms() {
return gms_;
}
/** \brief . */
const DMatrixSlice& gms() const {
return gms_;
}
/** \brief . */
BLAS_Cpp::Uplo uplo() const {
return uplo_;
}
/** \brief . */
BLAS_Cpp::Diag diag() const {
return diag_;
}
/// Allow address to be taken of rvalue of this object
DMatrixSliceTri* operator&() {
return this;
}
/** \brief . */
const DMatrixSliceTri* operator&() const {
return this;
}
private:
DMatrixSlice gms_;
BLAS_Cpp::Uplo uplo_;
BLAS_Cpp::Diag diag_;
// not defined and not to be called
DMatrixSliceTri();
DMatrixSliceTri& operator=(const DMatrixSliceTri&);
}; // end class DMatrixSliceTri
inline
/// Return a triangular matrix
DMatrixSliceTri nonconst_tri(DMatrixSlice gms, BLAS_Cpp::Uplo uplo, BLAS_Cpp::Diag diag)
{
return DMatrixSliceTri(gms, uplo, diag);
}
inline
/** \brief . */
const DMatrixSliceTri tri(const DMatrixSlice& gms, BLAS_Cpp::Uplo uplo, BLAS_Cpp::Diag diag)
{
return DMatrixSliceTri(gms, uplo, diag);
}
// /////////////////////////////////////////////////////////////////////////////////////////
/** \brief . */
/* * Aggregate information for a symmetric matrix stored in a DMatrix.
*
* This is the type to be used as both lhs and rhs arguments in linear algebra operations.
*/
class DMatrixSliceSym {
public:
/** \brief . */
DMatrixSliceSym(const DMatrixSlice& gms, BLAS_Cpp::Uplo uplo)
: gms_(const_cast<DMatrixSlice&>(gms)), uplo_(uplo)
{
#ifdef LINALGPACK_CHECK_RHS_SIZES
assert_gms_square(gms);
#endif
}
/** \brief . */
size_type rows() const {
return gms_.rows();
}
/** \brief . */
size_type cols() const {
return gms_.cols();
}
/** \brief . */
DMatrixSlice& gms() {
return gms_;
}
/** \brief . */
const DMatrixSlice& gms() const {
return gms_;
}
/** \brief . */
BLAS_Cpp::Uplo uplo() const {
return uplo_;
}
/// Allow address to be taken of rvalue of this object
DMatrixSliceSym* operator&() {
return this;
}
const DMatrixSliceSym* operator&() const {
return this;
}
private:
DMatrixSlice gms_;
BLAS_Cpp::Uplo uplo_;
// not defined and not to be called
DMatrixSliceSym();
DMatrixSliceSym& operator=(const DMatrixSliceTri&);
}; // end class DMatrixSliceSym
inline
/// Return a symmetric matrix
DMatrixSliceSym nonconst_sym(DMatrixSlice gms, BLAS_Cpp::Uplo uplo)
{
return DMatrixSliceSym(gms, uplo);
}
inline
/** \brief . */
const DMatrixSliceSym sym(const DMatrixSlice& gms, BLAS_Cpp::Uplo uplo)
{
return DMatrixSliceSym(gms, uplo);
}
// @}
} // end namespace DenseLinAlgPack
#endif // GEN_MATRIX_AS_TRI_SYM_H
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