lemon-project-template-glpk

diff deps/glpk/src/glpscf.h @ 9:33de93886c88

Import GLPK 4.47
author Alpar Juttner <alpar@cs.elte.hu>
date Sun, 06 Nov 2011 20:59:10 +0100
parents
children
line diff
     1.1 --- /dev/null	Thu Jan 01 00:00:00 1970 +0000
     1.2 +++ b/deps/glpk/src/glpscf.h	Sun Nov 06 20:59:10 2011 +0100
     1.3 @@ -0,0 +1,126 @@
     1.4 +/* glpscf.h (Schur complement factorization) */
     1.5 +
     1.6 +/***********************************************************************
     1.7 +*  This code is part of GLPK (GNU Linear Programming Kit).
     1.8 +*
     1.9 +*  Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008,
    1.10 +*  2009, 2010, 2011 Andrew Makhorin, Department for Applied Informatics,
    1.11 +*  Moscow Aviation Institute, Moscow, Russia. All rights reserved.
    1.12 +*  E-mail: <mao@gnu.org>.
    1.13 +*
    1.14 +*  GLPK is free software: you can redistribute it and/or modify it
    1.15 +*  under the terms of the GNU General Public License as published by
    1.16 +*  the Free Software Foundation, either version 3 of the License, or
    1.17 +*  (at your option) any later version.
    1.18 +*
    1.19 +*  GLPK is distributed in the hope that it will be useful, but WITHOUT
    1.20 +*  ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
    1.21 +*  or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
    1.22 +*  License for more details.
    1.23 +*
    1.24 +*  You should have received a copy of the GNU General Public License
    1.25 +*  along with GLPK. If not, see <http://www.gnu.org/licenses/>.
    1.26 +***********************************************************************/
    1.27 +
    1.28 +#ifndef GLPSCF_H
    1.29 +#define GLPSCF_H
    1.30 +
    1.31 +/***********************************************************************
    1.32 +*  The structure SCF defines the following factorization of a square
    1.33 +*  nxn matrix C (which is the Schur complement):
    1.34 +*
    1.35 +*     F * C = U * P,
    1.36 +*
    1.37 +*  where F is a square transforming matrix, U is an upper triangular
    1.38 +*  matrix, P is a permutation matrix.
    1.39 +*
    1.40 +*  It is assumed that matrix C is small and dense, so matrices F and U
    1.41 +*  are stored in the dense format by rows as follows:
    1.42 +*
    1.43 +*        1         n       n_max    1         n       n_max
    1.44 +*      1 * * * * * * x x x x      1 * * * * * * x x x x
    1.45 +*        * * * * * * x x x x        . * * * * * x x x x
    1.46 +*        * * * * * * x x x x        . . * * * * x x x x
    1.47 +*        * * * * * * x x x x        . . . * * * x x x x
    1.48 +*        * * * * * * x x x x        . . . . * * x x x x
    1.49 +*      n * * * * * * x x x x      n . . . . . * x x x x
    1.50 +*        x x x x x x x x x x        . . . . . . x x x x
    1.51 +*        x x x x x x x x x x        . . . . . . . x x x
    1.52 +*        x x x x x x x x x x        . . . . . . . . x x
    1.53 +*  n_max x x x x x x x x x x  n_max . . . . . . . . . x
    1.54 +*
    1.55 +*             matrix F                   matrix U
    1.56 +*
    1.57 +*  where '*' are matrix elements, 'x' are reserved locations.
    1.58 +*
    1.59 +*  Permutation matrix P is stored in row-like format.
    1.60 +*
    1.61 +*  Matrix C normally is not stored.
    1.62 +*
    1.63 +*  REFERENCES
    1.64 +*
    1.65 +*  1. M.A.Saunders, "LUSOL: A basis package for constrained optimiza-
    1.66 +*     tion," SCCM, Stanford University, 2006.
    1.67 +*
    1.68 +*  2. M.A.Saunders, "Notes 5: Basis Updates," CME 318, Stanford Univer-
    1.69 +*     sity, Spring 2006.
    1.70 +*
    1.71 +*  3. M.A.Saunders, "Notes 6: LUSOL---a Basis Factorization Package,"
    1.72 +*     ibid. */
    1.73 +
    1.74 +typedef struct SCF SCF;
    1.75 +
    1.76 +struct SCF
    1.77 +{     /* Schur complement factorization */
    1.78 +      int n_max;
    1.79 +      /* maximal order of matrices C, F, U, P; n_max >= 1 */
    1.80 +      int n;
    1.81 +      /* current order of matrices C, F, U, P; n >= 0 */
    1.82 +      double *f; /* double f[1+n_max*n_max]; */
    1.83 +      /* matrix F stored by rows */
    1.84 +      double *u; /* double u[1+n_max*(n_max+1)/2]; */
    1.85 +      /* upper triangle of matrix U stored by rows */
    1.86 +      int *p; /* int p[1+n_max]; */
    1.87 +      /* matrix P; p[i] = j means that P[i,j] = 1 */
    1.88 +      int t_opt;
    1.89 +      /* type of transformation used to restore triangular structure of
    1.90 +         matrix U: */
    1.91 +#define SCF_TBG      1  /* Bartels-Golub elimination */
    1.92 +#define SCF_TGR      2  /* Givens plane rotation */
    1.93 +      int rank;
    1.94 +      /* estimated rank of matrices C and U */
    1.95 +      double *c; /* double c[1+n_max*n_max]; */
    1.96 +      /* matrix C stored in the same format as matrix F and used only
    1.97 +         for debugging; normally this array is not allocated */
    1.98 +      double *w; /* double w[1+n_max]; */
    1.99 +      /* working array */
   1.100 +};
   1.101 +
   1.102 +/* return codes: */
   1.103 +#define SCF_ESING    1  /* singular matrix */
   1.104 +#define SCF_ELIMIT   2  /* update limit reached */
   1.105 +
   1.106 +#define scf_create_it _glp_scf_create_it
   1.107 +SCF *scf_create_it(int n_max);
   1.108 +/* create Schur complement factorization */
   1.109 +
   1.110 +#define scf_update_exp _glp_scf_update_exp
   1.111 +int scf_update_exp(SCF *scf, const double x[], const double y[],
   1.112 +      double z);
   1.113 +/* update factorization on expanding C */
   1.114 +
   1.115 +#define scf_solve_it _glp_scf_solve_it
   1.116 +void scf_solve_it(SCF *scf, int tr, double x[]);
   1.117 +/* solve either system C * x = b or C' * x = b */
   1.118 +
   1.119 +#define scf_reset_it _glp_scf_reset_it
   1.120 +void scf_reset_it(SCF *scf);
   1.121 +/* reset factorization for empty matrix C */
   1.122 +
   1.123 +#define scf_delete_it _glp_scf_delete_it
   1.124 +void scf_delete_it(SCF *scf);
   1.125 +/* delete Schur complement factorization */
   1.126 +
   1.127 +#endif
   1.128 +
   1.129 +/* eof */