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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 ABSTRACT_LINALG_PACK_MATRIX_WITH_OP_SUB_VIEW_H
#define ABSTRACT_LINALG_PACK_MATRIX_WITH_OP_SUB_VIEW_H
#include <iosfwd>
#include "AbstractLinAlgPack_MatrixOp.hpp"
#include "Teuchos_RCP.hpp"
#include "AbstractLinAlgPack_VectorSpace.hpp"
namespace AbstractLinAlgPack {
/** \brief Standard subclass for representing a sub, possibly transposed, view of a matrix
*
* The matrix \c M_view represented by \c this is:
\verbatim
M_view = op(M_full(rng_rows,rng_cols))
\endverbatim
*
* ToDo: Finish Documentation!
*/
class MatrixOpSubView : public virtual MatrixOp {
public:
/** \brief . */
using MatrixOp::syrk;
/** \brief . */
typedef Teuchos::RCP<MatrixOp> mat_ptr_t;
/** @name Constructors/initalizers */
//@{
/** \brief Calls <tt>this->initialize(...)</tt>
*/
MatrixOpSubView(
const mat_ptr_t& M_full = Teuchos::null
,const Range1D& rng_rows = Range1D()
,const Range1D& rng_cols = Range1D()
,BLAS_Cpp::Transp M_trans = BLAS_Cpp::no_trans
);
/** \brief Initialize the view of a matrix.
*
* @param M_full [in] Smart pointer for the matrix to provide a view of.
* It is allowed for <tt>M_full.get() == NULL</tt> in which case
* \c this will become uninitialized and none of the rest of the
* arguments matter and any value will do (i.e. the default values).
* @param rng_rows [in] Range in the rows of <tt>*M_full</tt> that \c this will represent.
* Only significant if <tt>M_full.get() != NULL</tt>.
* @param rng_cols [in] Range in the columns of <tt>*M_full</tt> that \c this will represent.
* Only significant if <tt>M_full.get() != NULL</tt>.
* @param M_trans [in] If <tt>M_trans == no_trans</tt> then \c this will represent
* <tt>M_full(rng_rows,rng_cols)</tt>. If If <tt>M_trans == trans</tt>
* then \c this will represent the transpose <tt>M_full(rng_rows,rng_cols)'</tt>.
*
* Preconditions:<ul>
* <li>[<tt>M_full.get()!=NULL && !rng_rows.full_range()</tt>]
* <tt>rng_rows.ubound() <= M_full->rows()</tt> (throw <tt>std::invalid_argument</tt>)
* <li>[<tt>M_full.get()!=NULL && !rng_cols.full_range()</tt>]
* <tt>rng_cols.ubound() <= M_full->cols()</tt> (throw <tt>std::invalid_argument</tt>)
* </ul>
*
* Postconditions:<ul>
* <li><tt>this->M_full_ptr().get() == M_full.get()</tt>
* <li>[<tt>M_full.get()!=NULL</tt>] <tt>&this->M_full() == M_full.get()</tt>
* <li>[<tt>M_full.get()!=NULL && (rng_rows.full_range() || (rng_rows.lbound() == 1 && rng_rows.ubound() == M_full->rows()))</tt>]
* <tt>this->rng_rows().full_range() == true</tt>
* <li>[<tt>M_full.get()!=NULL && (rng_cols.full_range() || (rng_cols.lbound() == 1 && rng_cols.ubound() == M_full->cols()))</tt>]
* <tt>this->rng_cols().full_range() == true</tt>
* <li>[<tt>M_full.get()!=NULL</tt>] <tt>this->M_trans == M_trans</tt>
* <li>[<tt>M_full.get()==NULL</tt>] <tt>this->rng_rows() == Range1D::Invalid</tt>
* <li>[<tt>M_full.get()==NULL</tt>] <tt>this->rng_cols() == Range1D::Invalid</tt>
* </ul>
*/
void initialize(
const mat_ptr_t& M_full
,const Range1D& rng_rows = Range1D()
,const Range1D& rng_cols = Range1D()
,BLAS_Cpp::Transp M_trans = BLAS_Cpp::no_trans
);
//@}
/** @name Representation access */
//@{
/** \brief . */
const mat_ptr_t& M_full_ptr();
/** \brief . */
MatrixOp& M_full();
/** \brief . */
const MatrixOp& M_full() const;
/** \brief . */
Range1D rng_rows() const;
/** \brief . */
Range1D rng_cols() const;
/** \brief . */
BLAS_Cpp::Transp M_trans();
//@}
/** @name Overridden from MatrixBase */
//@{
/** \brief . */
size_type rows() const;
/** \brief . */
size_type cols() const;
/** \brief . */
size_type nz() const;
//@}
/** @name Overridden from MatrixOp */
//@{
/** \brief . */
const VectorSpace& space_cols() const;
/** \brief . */
const VectorSpace& space_rows() const;
/** \brief . */
MatrixOp::mat_ptr_t sub_view(const Range1D& row_rng, const Range1D& col_rng) const;
/** \brief . */
void zero_out();
/** \brief . */
void Mt_S( value_type alpha );
/** \brief . */
MatrixOp& operator=(const MatrixOp& M);
/** \brief . */
std::ostream& output(std::ostream& out) const;
/** \brief . */
bool Mp_StM(
MatrixOp* mwo_lhs, value_type alpha
, BLAS_Cpp::Transp trans_rhs) const;
/** \brief . */
bool Mp_StMtP(
MatrixOp* mwo_lhs, value_type alpha
, BLAS_Cpp::Transp M_trans
, const GenPermMatrixSlice& P_rhs, BLAS_Cpp::Transp P_rhs_trans
) const;
/** \brief . */
bool Mp_StPtM(
MatrixOp* mwo_lhs, value_type alpha
, const GenPermMatrixSlice& P_rhs, BLAS_Cpp::Transp P_rhs_trans
, BLAS_Cpp::Transp M_trans
) const;
/** \brief . */
bool Mp_StPtMtP(
MatrixOp* mwo_lhs, value_type alpha
,const GenPermMatrixSlice& P_rhs1, BLAS_Cpp::Transp P_rhs1_trans
,BLAS_Cpp::Transp M_trans
,const GenPermMatrixSlice& P_rhs2, BLAS_Cpp::Transp P_rhs2_trans
) const;
/** \brief . */
bool Mp_StM(
value_type alpha,const MatrixOp& M_rhs, BLAS_Cpp::Transp trans_rhs);
/** \brief . */
bool Mp_StMtP(
value_type alpha
,const MatrixOp& M_rhs, BLAS_Cpp::Transp M_trans
,const GenPermMatrixSlice& P_rhs, BLAS_Cpp::Transp P_rhs_trans
);
/** \brief . */
bool Mp_StPtM(
value_type alpha
,const GenPermMatrixSlice& P_rhs, BLAS_Cpp::Transp P_rhs_trans
,const MatrixOp& M_rhs, BLAS_Cpp::Transp M_trans
);
/** \brief . */
bool Mp_StPtMtP(
value_type alpha
,const GenPermMatrixSlice& P_rhs1, BLAS_Cpp::Transp P_rhs1_trans
,const MatrixOp& M_rhs, BLAS_Cpp::Transp M_trans
,const GenPermMatrixSlice& P_rhs2, BLAS_Cpp::Transp P_rhs2_trans
);
/** \brief . */
void Vp_StMtV(
VectorMutable* vs_lhs, value_type alpha, BLAS_Cpp::Transp trans_rhs1
, const Vector& v_rhs2, value_type beta) const;
/** \brief . */
void Vp_StMtV(
VectorMutable* vs_lhs, value_type alpha, BLAS_Cpp::Transp trans_rhs1
, const SpVectorSlice& sv_rhs2, value_type beta) const;
/** \brief . */
void Vp_StPtMtV(
VectorMutable* vs_lhs, value_type alpha
, const GenPermMatrixSlice& P_rhs1, BLAS_Cpp::Transp P_rhs1_trans
, BLAS_Cpp::Transp M_rhs2_trans
, const Vector& v_rhs3, value_type beta) const;
/** \brief . */
void Vp_StPtMtV(
VectorMutable* vs_lhs, value_type alpha
, const GenPermMatrixSlice& P_rhs1, BLAS_Cpp::Transp P_rhs1_trans
, BLAS_Cpp::Transp M_rhs2_trans
, const SpVectorSlice& sv_rhs3, value_type beta) const;
/** \brief . */
value_type transVtMtV(
const Vector& v_rhs1, BLAS_Cpp::Transp trans_rhs2
, const Vector& v_rhs3) const;
/** \brief . */
value_type transVtMtV(
const SpVectorSlice& sv_rhs1, BLAS_Cpp::Transp trans_rhs2
, const SpVectorSlice& sv_rhs3) const;
/** \brief . */
void syr2k(
BLAS_Cpp::Transp M_trans, value_type alpha
, const GenPermMatrixSlice& P1, BLAS_Cpp::Transp P1_trans
, const GenPermMatrixSlice& P2, BLAS_Cpp::Transp P2_trans
, value_type beta, MatrixSymOp* symwo_lhs ) const;
/** \brief . */
bool Mp_StMtM(
MatrixOp* mwo_lhs, value_type alpha
, BLAS_Cpp::Transp trans_rhs1, const MatrixOp& mwo_rhs2
, BLAS_Cpp::Transp trans_rhs2, value_type beta ) const;
/** \brief . */
bool Mp_StMtM(
MatrixOp* mwo_lhs, value_type alpha
, const MatrixOp& mwo_rhs1, BLAS_Cpp::Transp trans_rhs1
, BLAS_Cpp::Transp trans_rhs2, value_type beta ) const;
/** \brief . */
bool Mp_StMtM(
value_type alpha
,const MatrixOp& mvw_rhs1, BLAS_Cpp::Transp trans_rhs1
,const MatrixOp& mwo_rhs2,BLAS_Cpp::Transp trans_rhs2
,value_type beta );
/** \brief . */
bool syrk(
BLAS_Cpp::Transp M_trans, value_type alpha
, value_type beta, MatrixSymOp* sym_lhs ) const;
//@}
private:
#ifdef DOXYGEN_COMPILE
MatrixOp *M_full;
Range1D rng_rows;
Range1D rng_cols;
#else
mat_ptr_t M_full_;
Range1D rng_rows_;
Range1D rng_cols_;
BLAS_Cpp::Transp M_trans_;
VectorSpace::space_ptr_t space_cols_;
VectorSpace::space_ptr_t space_rows_;
#endif
//
void assert_initialized() const;
}; // end class MatrixOpSubView
// //////////////////////////////////
// Inline members
inline
const MatrixOpSubView::mat_ptr_t&
MatrixOpSubView::M_full_ptr()
{
return M_full_;
}
inline
MatrixOp& MatrixOpSubView::M_full()
{
return *M_full_;
}
inline
const MatrixOp& MatrixOpSubView::M_full() const
{
return *M_full_;
}
inline
Range1D MatrixOpSubView::rng_rows() const
{
return rng_rows_;
}
inline
Range1D MatrixOpSubView::rng_cols() const
{
return rng_rows_;
}
inline
BLAS_Cpp::Transp MatrixOpSubView::M_trans()
{
return M_trans_;
}
} // end namespace AbstractLinAlgPack
#endif // ABSTRACT_LINALG_PACK_MATRIX_WITH_OP_SUB_VIEW_H
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