/* prob5.c (LP problem basis constructing routines) */ /*********************************************************************** * This code is part of GLPK (GNU Linear Programming Kit). * Copyright (C) 2000-2013 Free Software Foundation, Inc. * Written by Andrew Makhorin . * * GLPK is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * GLPK 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 General Public * License for more details. * * You should have received a copy of the GNU General Public License * along with GLPK. If not, see . ***********************************************************************/ #include "env.h" #include "prob.h" /*********************************************************************** * NAME * * glp_set_row_stat - set (change) row status * * SYNOPSIS * * void glp_set_row_stat(glp_prob *lp, int i, int stat); * * DESCRIPTION * * The routine glp_set_row_stat sets (changes) status of the auxiliary * variable associated with i-th row. * * The new status of the auxiliary variable should be specified by the * parameter stat as follows: * * GLP_BS - basic variable; * GLP_NL - non-basic variable; * GLP_NU - non-basic variable on its upper bound; if the variable is * not double-bounded, this means the same as GLP_NL (only in * case of this routine); * GLP_NF - the same as GLP_NL (only in case of this routine); * GLP_NS - the same as GLP_NL (only in case of this routine). */ void glp_set_row_stat(glp_prob *lp, int i, int stat) { GLPROW *row; if (!(1 <= i && i <= lp->m)) xerror("glp_set_row_stat: i = %d; row number out of range\n", i); if (!(stat == GLP_BS || stat == GLP_NL || stat == GLP_NU || stat == GLP_NF || stat == GLP_NS)) xerror("glp_set_row_stat: i = %d; stat = %d; invalid status\n", i, stat); row = lp->row[i]; if (stat != GLP_BS) { switch (row->type) { case GLP_FR: stat = GLP_NF; break; case GLP_LO: stat = GLP_NL; break; case GLP_UP: stat = GLP_NU; break; case GLP_DB: if (stat != GLP_NU) stat = GLP_NL; break; case GLP_FX: stat = GLP_NS; break; default: xassert(row != row); } } if (row->stat == GLP_BS && stat != GLP_BS || row->stat != GLP_BS && stat == GLP_BS) { /* invalidate the basis factorization */ lp->valid = 0; } row->stat = stat; return; } /*********************************************************************** * NAME * * glp_set_col_stat - set (change) column status * * SYNOPSIS * * void glp_set_col_stat(glp_prob *lp, int j, int stat); * * DESCRIPTION * * The routine glp_set_col_stat sets (changes) status of the structural * variable associated with j-th column. * * The new status of the structural variable should be specified by the * parameter stat as follows: * * GLP_BS - basic variable; * GLP_NL - non-basic variable; * GLP_NU - non-basic variable on its upper bound; if the variable is * not double-bounded, this means the same as GLP_NL (only in * case of this routine); * GLP_NF - the same as GLP_NL (only in case of this routine); * GLP_NS - the same as GLP_NL (only in case of this routine). */ void glp_set_col_stat(glp_prob *lp, int j, int stat) { GLPCOL *col; if (!(1 <= j && j <= lp->n)) xerror("glp_set_col_stat: j = %d; column number out of range\n" , j); if (!(stat == GLP_BS || stat == GLP_NL || stat == GLP_NU || stat == GLP_NF || stat == GLP_NS)) xerror("glp_set_col_stat: j = %d; stat = %d; invalid status\n", j, stat); col = lp->col[j]; if (stat != GLP_BS) { switch (col->type) { case GLP_FR: stat = GLP_NF; break; case GLP_LO: stat = GLP_NL; break; case GLP_UP: stat = GLP_NU; break; case GLP_DB: if (stat != GLP_NU) stat = GLP_NL; break; case GLP_FX: stat = GLP_NS; break; default: xassert(col != col); } } if (col->stat == GLP_BS && stat != GLP_BS || col->stat != GLP_BS && stat == GLP_BS) { /* invalidate the basis factorization */ lp->valid = 0; } col->stat = stat; return; } /*********************************************************************** * NAME * * glp_std_basis - construct standard initial LP basis * * SYNOPSIS * * void glp_std_basis(glp_prob *lp); * * DESCRIPTION * * The routine glp_std_basis builds the "standard" (trivial) initial * basis for the specified problem object. * * In the "standard" basis all auxiliary variables are basic, and all * structural variables are non-basic. */ void glp_std_basis(glp_prob *lp) { int i, j; /* make all auxiliary variables basic */ for (i = 1; i <= lp->m; i++) glp_set_row_stat(lp, i, GLP_BS); /* make all structural variables non-basic */ for (j = 1; j <= lp->n; j++) { GLPCOL *col = lp->col[j]; if (col->type == GLP_DB && fabs(col->lb) > fabs(col->ub)) glp_set_col_stat(lp, j, GLP_NU); else glp_set_col_stat(lp, j, GLP_NL); } return; } /* eof */