/* spychuzc.h */ /*********************************************************************** * This code is part of GLPK (GNU Linear Programming Kit). * Copyright (C) 2015-2016 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 SPYCHUZC_H #define SPYCHUZC_H #include "spxlp.h" #define spy_chuzc_std _glp_spy_chuzc_std int spy_chuzc_std(SPXLP *lp, const double d[/*1+n-m*/], #if 0 /* 14/III-2016 */ double s, const double trow[/*1+n-m*/], double tol_piv, #else double r, const double trow[/*1+n-m*/], double tol_piv, #endif double tol, double tol1); /* choose non-basic variable (dual textbook ratio test) */ #define spy_chuzc_harris _glp_spy_chuzc_harris int spy_chuzc_harris(SPXLP *lp, const double d[/*1+n-m*/], #if 0 /* 14/III-2016 */ double s, const double trow[/*1+n-m*/], double tol_piv, #else double r, const double trow[/*1+n-m*/], double tol_piv, #endif double tol, double tol1); /* choose non-basic variable (dual Harris' ratio test) */ typedef struct SPYBP SPYBP; struct SPYBP { /* dual objective function break point */ int j; /* dual basic variable lambdaN[j], 1 <= j <= n-m, that intersects * zero at this break point */ double teta; /* ray parameter value, teta[j] >= 0, at this break point */ double dz; /* increment, zeta[j] - zeta[0], of the dual objective function * at this break point */ }; #if 0 /* 23/III-2016 */ #define spy_eval_bp _glp_spy_eval_bp int spy_eval_bp(SPXLP *lp, const double d[/*1+n-m*/], double r, const double trow[/*1+n-m*/], double tol_piv, SPYBP bp[/*1+n-m*/]); /* determine dual objective function break-points */ #endif #define spy_ls_eval_bp _glp_spy_ls_eval_bp int spy_ls_eval_bp(SPXLP *lp, const double d[/*1+n-m*/], double r, const double trow[/*1+n-m*/], double tol_piv, SPYBP bp[/*1+n-m*/]); /* determine dual objective function break-points */ #define spy_ls_select_bp _glp_spy_ls_select_bp int spy_ls_select_bp(SPXLP *lp, const double trow[/*1+n-m*/], int nbp, SPYBP bp[/*1+n-m*/], int num, double *slope, double teta_lim); /* select and process dual objective break-points */ #endif /* eof */