/* wrmcf.c (write min-cost flow problem data in DIMACS format) */ /*********************************************************************** * This code is part of GLPK (GNU Linear Programming Kit). * Copyright (C) 2009-2016 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 . ***********************************************************************/ #include "env.h" #include "glpk.h" #define xfprintf glp_format /*********************************************************************** * NAME * * glp_write_mincost - write min-cost flow probl. data in DIMACS format * * SYNOPSIS * * int glp_write_mincost(glp_graph *G, int v_rhs, int a_low, int a_cap, * int a_cost, const char *fname); * * DESCRIPTION * * The routine glp_write_mincost writes minimum cost flow problem data * in DIMACS format to a text file. * * RETURNS * * If the operation was successful, the routine returns zero. Otherwise * it prints an error message and returns non-zero. */ int glp_write_mincost(glp_graph *G, int v_rhs, int a_low, int a_cap, int a_cost, const char *fname) { glp_file *fp; glp_vertex *v; glp_arc *a; int i, count = 0, ret; double rhs, low, cap, cost; if (v_rhs >= 0 && v_rhs > G->v_size - (int)sizeof(double)) xerror("glp_write_mincost: v_rhs = %d; invalid offset\n", v_rhs); if (a_low >= 0 && a_low > G->a_size - (int)sizeof(double)) xerror("glp_write_mincost: a_low = %d; invalid offset\n", a_low); if (a_cap >= 0 && a_cap > G->a_size - (int)sizeof(double)) xerror("glp_write_mincost: a_cap = %d; invalid offset\n", a_cap); if (a_cost >= 0 && a_cost > G->a_size - (int)sizeof(double)) xerror("glp_write_mincost: a_cost = %d; invalid offset\n", a_cost); xprintf("Writing min-cost flow problem data to '%s'...\n", fname); fp = glp_open(fname, "w"); if (fp == NULL) { xprintf("Unable to create '%s' - %s\n", fname, get_err_msg()); ret = 1; goto done; } xfprintf(fp, "c %s\n", G->name == NULL ? "unknown" : G->name), count++; xfprintf(fp, "p min %d %d\n", G->nv, G->na), count++; if (v_rhs >= 0) { for (i = 1; i <= G->nv; i++) { v = G->v[i]; memcpy(&rhs, (char *)v->data + v_rhs, sizeof(double)); if (rhs != 0.0) xfprintf(fp, "n %d %.*g\n", i, DBL_DIG, rhs), count++; } } for (i = 1; i <= G->nv; i++) { v = G->v[i]; for (a = v->out; a != NULL; a = a->t_next) { if (a_low >= 0) memcpy(&low, (char *)a->data + a_low, sizeof(double)); else low = 0.0; if (a_cap >= 0) memcpy(&cap, (char *)a->data + a_cap, sizeof(double)); else cap = 1.0; if (a_cost >= 0) memcpy(&cost, (char *)a->data + a_cost, sizeof(double)); else cost = 0.0; xfprintf(fp, "a %d %d %.*g %.*g %.*g\n", a->tail->i, a->head->i, DBL_DIG, low, DBL_DIG, cap, DBL_DIG, cost), count++; } } xfprintf(fp, "c eof\n"), count++; #if 0 /* FIXME */ xfflush(fp); #endif if (glp_ioerr(fp)) { xprintf("Write error on '%s' - %s\n", fname, get_err_msg()); ret = 1; goto done; } xprintf("%d lines were written\n", count); ret = 0; done: if (fp != NULL) glp_close(fp); return ret; } /* eof */