metaforce/gmm/gmm_dense_sylvester.h

/* -*- c++ -*- (enables emacs c++ mode) */
/*===========================================================================

 Copyright (C) 2003-2017 Yves Renard

 This file is a part of GetFEM++

 GetFEM++  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 3 of the License,  or
 (at your option) any later version along with the GCC Runtime Library
 Exception either version 3.1 or (at your option) any later version.
 This program  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 and GCC Runtime Library Exception for more details.
 You  should  have received a copy of the GNU Lesser General Public License
 along  with  this program;  if not, write to the Free Software Foundation,
 Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301, USA.

 As a special exception, you  may use  this file  as it is a part of a free
 software  library  without  restriction.  Specifically,  if   other  files
 instantiate  templates  or  use macros or inline functions from this file,
 or  you compile this  file  and  link  it  with other files  to produce an
 executable, this file  does  not  by itself cause the resulting executable
 to be covered  by the GNU Lesser General Public License.  This   exception
 does not  however  invalidate  any  other  reasons why the executable file
 might be covered by the GNU Lesser General Public License.

===========================================================================*/

/** @file gmm_dense_sylvester.h
    @author  Yves Renard <Yves.Renard@insa-lyon.fr>
    @date June 5, 2003.
    @brief Sylvester equation solver.
*/
#ifndef GMM_DENSE_SYLVESTER_H
#define GMM_DENSE_SYLVESTER_H

#include "gmm_kernel.h"

namespace gmm {

  /* ********************************************************************* */
  /*   Kronecker system matrix.                                            */
  /* ********************************************************************* */
  template <typename MAT1, typename MAT2, typename MAT3>
  void kron(const MAT1 &m1, const MAT2 &m2, const MAT3 &m3_,
	    bool init = true) {
    MAT3 &m3 = const_cast<MAT3 &>(m3_);
    size_type m = mat_nrows(m1), n = mat_ncols(m1);
    size_type l = mat_nrows(m2), k = mat_ncols(m2);

    GMM_ASSERT2(mat_nrows(m3) == m*l && mat_ncols(m3) == n*k,
		"dimensions mismatch");

    for (size_type i = 0; i < m; ++i)
      for (size_type j = 0; j < m; ++j)
	if (init)
	  gmm::copy(gmm::scaled(m2, m1(i,j)),
		    gmm::sub_matrix(m3, sub_interval(l*i, l),
				    sub_interval(k*j, k)));
	else
	  gmm::add(gmm::scaled(m2, m1(i,j)),
		    gmm::sub_matrix(m3, sub_interval(l*i, l),
				    sub_interval(k*j, k)));
  }
	

  /* ********************************************************************* */
  /*   Copy a matrix into a vector.                                        */
  /* ********************************************************************* */

  template <typename MAT, typename VECT>
  colmatrix_to_vector(const MAT &A, VECT &v, col_major) {
    size_type m = mat_nrows(A), n = mat_ncols(A);
    GMM_ASSERT2(m*n == vect_size(v), "dimensions mismatch");
    for (size_type i = 0; i < n; ++i)
      gmm::copy(mat_col(A, i), sub_vector(v, sub_interval(i*m, m)));
  }

  template <typename MAT, typename VECT>
  colmatrix_to_vector(const MAT &A, VECT &v, row_and_col)
  { colmatrix_to_vector(A, v, col_major()); }

  template <typename MAT, typename VECT>
  colmatrix_to_vector(const MAT &A, VECT &v, col_and_row)
  { colmatrix_to_vector(A, v, col_major()); }

  template <typename MAT, typename VECT>
  colmatrix_to_vector(const MAT &A, VECT &v, row_major) {
    size_type m = mat_nrows(mat), n = mat_ncols(A);
    GMM_ASSERT2(m*n == vect_size(v), "dimensions mismatch");
    for (size_type i = 0; i < m; ++i)
      gmm::copy(mat_row(A, i), sub_vector(v, sub_slice(i, n, m)));
  }

  template <typename MAT, typename VECT> inline
  colmatrix_to_vector(const MAT &A, const VECT &v_) {
    VECT &v = const_cast<VECT &>(v_);
    colmatrix_to_vector(A, v, typename linalg_traits<MAT>::sub_orientation());
  }


  /* ********************************************************************* */
  /*   Copy a vector into a matrix.                                        */
  /* ********************************************************************* */

  template <typename MAT, typename VECT>
  vector_to_colmatrix(const VECT &v, MAT &A, col_major) {
    size_type m = mat_nrows(A), n = mat_ncols(A);
    GMM_ASSERT2(m*n == vect_size(v), "dimensions mismatch");
    for (size_type i = 0; i < n; ++i)
      gmm::copy(sub_vector(v, sub_interval(i*m, m)), mat_col(A, i));
  }

  template <typename MAT, typename VECT>
  vector_to_colmatrix(const VECT &v, MAT &A, row_and_col)
  { vector_to_colmatrix(v, A, col_major()); }

  template <typename MAT, typename VECT>
  vector_to_colmatrix(const VECT &v, MAT &A, col_and_row)
  { vector_to_colmatrix(v, A, col_major()); }

  template <typename MAT, typename VECT>
  vector_to_colmatrix(const VECT &v, MAT &A, row_major) {
    size_type m = mat_nrows(mat), n = mat_ncols(A);
    GMM_ASSERT2(m*n == vect_size(v), "dimensions mismatch");
    for (size_type i = 0; i < m; ++i)
      gmm::copy(sub_vector(v, sub_slice(i, n, m)), mat_row(A, i));
  }

  template <typename MAT, typename VECT> inline
  vector_to_colmatrix(const VECT &v, const MAT &A_) {
    MAT &A = const_cast<MAT &>(A_);
    vector_to_colmatrix(v, A, typename linalg_traits<MAT>::sub_orientation());
  }

  /* ********************************************************************* */
  /*   Solve sylvester equation.                                           */
  /* ********************************************************************* */

  // very prohibitive solver, to be replaced ... 
  template <typename MAT1, typename MAT2, typename MAT3, typename MAT4 >
  void sylvester(const MAT1 &m1, const MAT2 &m2, const MAT3 &m3,
		 const MAT4 &m4_) {
    typedef typename linalg_traits<Mat>::value_type T;
    
    MAT3 &m4 = const_cast<MAT4 &>(m4_);
    size_type m = mat_nrows(m1), n = mat_ncols(m1);
    size_type l = mat_nrows(m2), k = mat_ncols(m2);
    
    GMM_ASSERT2(m == n && l == k && m == mat_nrows(m3) &&
		l == mat_ncols(m3) && m == mat_nrows(m4) && l == mat_ncols(m4),
		"dimensions mismatch");

    gmm::dense_matrix<T> akronb(m*l, m*l);
    gmm::dense_matrix<T> idm(m, m), idl(l,l);
    gmm::copy(identity_matrix(), idm);
    gmm::copy(identity_matrix(), idl);
    std::vector<T> x(m*l), c(m*l);
    
    kron(idl, m1, akronb);
    kron(gmm::transposed(m2), idm, akronb, false);

    colmatrix_to_vector(m3, c);
    lu_solve(akronb, c, x);
    vector_to_colmatrix(x, m4);

  }
}

#endif
DCLN cooking and various bug fixes 2017-10-17 05:51:53 +00:00			`/* -- c++ -- (enables emacs c++ mode) */`
			`/*===========================================================================`

			`Copyright (C) 2003-2017 Yves Renard`

			`This file is a part of GetFEM++`

			`GetFEM++ 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 3 of the License, or`
			`(at your option) any later version along with the GCC Runtime Library`
			`Exception either version 3.1 or (at your option) any later version.`
			`This program 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 and GCC Runtime Library Exception for more details.`
			`You should have received a copy of the GNU Lesser General Public License`
			`along with this program; if not, write to the Free Software Foundation,`
			`Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.`

			`As a special exception, you may use this file as it is a part of a free`
			`software library without restriction. Specifically, if other files`
			`instantiate templates or use macros or inline functions from this file,`
			`or you compile this file and link it with other files to produce an`
			`executable, this file does not by itself cause the resulting executable`
			`to be covered by the GNU Lesser General Public License. This exception`
			`does not however invalidate any other reasons why the executable file`
			`might be covered by the GNU Lesser General Public License.`

			`===========================================================================*/`

			`/** @file gmm_dense_sylvester.h`
			`@author Yves Renard <Yves.Renard@insa-lyon.fr>`
			`@date June 5, 2003.`
			`@brief Sylvester equation solver.`
			`*/`
			`#ifndef GMM_DENSE_SYLVESTER_H`
			`#define GMM_DENSE_SYLVESTER_H`

			`#include "gmm_kernel.h"`

			`namespace gmm {`

			`/* ********************************************************************* */`
			`/* Kronecker system matrix. */`
			`/* ********************************************************************* */`
			`template <typename MAT1, typename MAT2, typename MAT3>`
			`void kron(const MAT1 &m1, const MAT2 &m2, const MAT3 &m3_,`
			`bool init = true) {`
			`MAT3 &m3 = const_cast<MAT3 &>(m3_);`
			`size_type m = mat_nrows(m1), n = mat_ncols(m1);`
			`size_type l = mat_nrows(m2), k = mat_ncols(m2);`

			`GMM_ASSERT2(mat_nrows(m3) == ml && mat_ncols(m3) == nk,`
			`"dimensions mismatch");`

			`for (size_type i = 0; i < m; ++i)`
			`for (size_type j = 0; j < m; ++j)`
			`if (init)`
			`gmm::copy(gmm::scaled(m2, m1(i,j)),`
			`gmm::sub_matrix(m3, sub_interval(l*i, l),`
			`sub_interval(k*j, k)));`
			`else`
			`gmm::add(gmm::scaled(m2, m1(i,j)),`
			`gmm::sub_matrix(m3, sub_interval(l*i, l),`
			`sub_interval(k*j, k)));`
			`}`


			`/* ********************************************************************* */`
			`/* Copy a matrix into a vector. */`
			`/* ********************************************************************* */`

			`template <typename MAT, typename VECT>`
			`colmatrix_to_vector(const MAT &A, VECT &v, col_major) {`
			`size_type m = mat_nrows(A), n = mat_ncols(A);`
			`GMM_ASSERT2(m*n == vect_size(v), "dimensions mismatch");`
			`for (size_type i = 0; i < n; ++i)`
			`gmm::copy(mat_col(A, i), sub_vector(v, sub_interval(i*m, m)));`
			`}`

			`template <typename MAT, typename VECT>`
			`colmatrix_to_vector(const MAT &A, VECT &v, row_and_col)`
			`{ colmatrix_to_vector(A, v, col_major()); }`

			`template <typename MAT, typename VECT>`
			`colmatrix_to_vector(const MAT &A, VECT &v, col_and_row)`
			`{ colmatrix_to_vector(A, v, col_major()); }`

			`template <typename MAT, typename VECT>`
			`colmatrix_to_vector(const MAT &A, VECT &v, row_major) {`
			`size_type m = mat_nrows(mat), n = mat_ncols(A);`
			`GMM_ASSERT2(m*n == vect_size(v), "dimensions mismatch");`
			`for (size_type i = 0; i < m; ++i)`
			`gmm::copy(mat_row(A, i), sub_vector(v, sub_slice(i, n, m)));`
			`}`

			`template <typename MAT, typename VECT> inline`
			`colmatrix_to_vector(const MAT &A, const VECT &v_) {`
			`VECT &v = const_cast<VECT &>(v_);`
			`colmatrix_to_vector(A, v, typename linalg_traits<MAT>::sub_orientation());`
			`}`


			`/* ********************************************************************* */`
			`/* Copy a vector into a matrix. */`
			`/* ********************************************************************* */`

			`template <typename MAT, typename VECT>`
			`vector_to_colmatrix(const VECT &v, MAT &A, col_major) {`
			`size_type m = mat_nrows(A), n = mat_ncols(A);`
			`GMM_ASSERT2(m*n == vect_size(v), "dimensions mismatch");`
			`for (size_type i = 0; i < n; ++i)`
			`gmm::copy(sub_vector(v, sub_interval(i*m, m)), mat_col(A, i));`
			`}`

			`template <typename MAT, typename VECT>`
			`vector_to_colmatrix(const VECT &v, MAT &A, row_and_col)`
			`{ vector_to_colmatrix(v, A, col_major()); }`

			`template <typename MAT, typename VECT>`
			`vector_to_colmatrix(const VECT &v, MAT &A, col_and_row)`
			`{ vector_to_colmatrix(v, A, col_major()); }`

			`template <typename MAT, typename VECT>`
			`vector_to_colmatrix(const VECT &v, MAT &A, row_major) {`
			`size_type m = mat_nrows(mat), n = mat_ncols(A);`
			`GMM_ASSERT2(m*n == vect_size(v), "dimensions mismatch");`
			`for (size_type i = 0; i < m; ++i)`
			`gmm::copy(sub_vector(v, sub_slice(i, n, m)), mat_row(A, i));`
			`}`

			`template <typename MAT, typename VECT> inline`
			`vector_to_colmatrix(const VECT &v, const MAT &A_) {`
			`MAT &A = const_cast<MAT &>(A_);`
			`vector_to_colmatrix(v, A, typename linalg_traits<MAT>::sub_orientation());`
			`}`

			`/* ********************************************************************* */`
			`/* Solve sylvester equation. */`
			`/* ********************************************************************* */`

			`// very prohibitive solver, to be replaced ...`
			`template <typename MAT1, typename MAT2, typename MAT3, typename MAT4 >`
			`void sylvester(const MAT1 &m1, const MAT2 &m2, const MAT3 &m3,`
			`const MAT4 &m4_) {`
			`typedef typename linalg_traits<Mat>::value_type T;`

			`MAT3 &m4 = const_cast<MAT4 &>(m4_);`
			`size_type m = mat_nrows(m1), n = mat_ncols(m1);`
			`size_type l = mat_nrows(m2), k = mat_ncols(m2);`

			`GMM_ASSERT2(m == n && l == k && m == mat_nrows(m3) &&`
			`l == mat_ncols(m3) && m == mat_nrows(m4) && l == mat_ncols(m4),`
			`"dimensions mismatch");`

			`gmm::dense_matrix<T> akronb(ml, ml);`
			`gmm::dense_matrix<T> idm(m, m), idl(l,l);`
			`gmm::copy(identity_matrix(), idm);`
			`gmm::copy(identity_matrix(), idl);`
			`std::vector<T> x(ml), c(ml);`

			`kron(idl, m1, akronb);`
			`kron(gmm::transposed(m2), idm, akronb, false);`

			`colmatrix_to_vector(m3, c);`
			`lu_solve(akronb, c, x);`
			`vector_to_colmatrix(x, m4);`

			`}`
			`}`

			`#endif`