/* spxchuzc.h */ /*********************************************************************** * This code is part of GLPK (GNU Linear Programming Kit). * Copyright (C) 2015 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 . ***********************************************************************/ #ifndef SPXCHUZC_H #define SPXCHUZC_H #include "spxlp.h" #define spx_chuzc_sel _glp_spx_chuzc_sel int spx_chuzc_sel(SPXLP *lp, const double d[/*1+n-m*/], double tol, double tol1, int list[/*1+n-m*/]); /* select eligible non-basic variables */ #define spx_chuzc_std _glp_spx_chuzc_std int spx_chuzc_std(SPXLP *lp, const double d[/*1+n-m*/], int num, const int list[]); /* choose non-basic variable (Dantzig's rule) */ typedef struct SPXSE SPXSE; struct SPXSE { /* projected steepest edge and Devex pricing data block */ int valid; /* content validity flag */ char *refsp; /* char refsp[1+n]; */ /* refsp[0] is not used; * refsp[k], 1 <= k <= n, is the flag meaning that variable x[k] * is in the reference space */ double *gamma; /* double gamma[1+n-m]; */ /* gamma[0] is not used; * gamma[j], 1 <= j <= n-m, is the weight for reduced cost d[j] * of non-basic variable xN[j] in the current basis */ double *work; /* double work[1+m]; */ /* working array */ }; #define spx_alloc_se _glp_spx_alloc_se void spx_alloc_se(SPXLP *lp, SPXSE *se); /* allocate pricing data block */ #define spx_reset_refsp _glp_spx_reset_refsp void spx_reset_refsp(SPXLP *lp, SPXSE *se); /* reset reference space */ #define spx_eval_gamma_j _glp_spx_eval_gamma_j double spx_eval_gamma_j(SPXLP *lp, SPXSE *se, int j); /* compute projeted steepest edge weight directly */ #define spx_chuzc_pse _glp_spx_chuzc_pse int spx_chuzc_pse(SPXLP *lp, SPXSE *se, const double d[/*1+n-m*/], int num, const int list[]); /* choose non-basic variable (projected steepest edge) */ #define spx_update_gamma _glp_spx_update_gamma double spx_update_gamma(SPXLP *lp, SPXSE *se, int p, int q, const double trow[/*1+n-m*/], const double tcol[/*1+m*/]); /* update projected steepest edge weights exactly */ #define spx_free_se _glp_spx_free_se void spx_free_se(SPXLP *lp, SPXSE *se); /* deallocate pricing data block */ #endif /* eof */