2 * Copyright (C) 2005-2011 University of Karlsruhe. All right reserved.
4 * This file is part of libFirm.
6 * This file may be distributed and/or modified under the terms of the
7 * GNU General Public License version 2 as published by the Free Software
8 * Foundation and appearing in the file LICENSE.GPL included in the
9 * packaging of this file.
11 * Licensees holding valid libFirm Professional Edition licenses may use
12 * this file in accordance with the libFirm Commercial License.
13 * Agreement provided with the Software.
15 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
16 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
22 * @author Matthias Braun
27 #include "lpp_gurobi.h"
38 #include "sp_matrix.h"
40 static char gurobi_cst_encoding[4] = { 0, GRB_EQUAL, GRB_LESS_EQUAL, GRB_GREATER_EQUAL };
41 static char gurobi_var_encoding[4] = { 0, 0, GRB_CONTINUOUS, GRB_BINARY };
43 typedef struct _gurobi_t {
50 static void check_gurobi_error(gurobi_t *grb, int error)
53 panic("gurobi error: %s", GRBgeterrormsg(grb->env));
57 static gurobi_t *new_gurobi(lpp_t *lpp)
61 gurobi_t *grb = XMALLOCZ(gurobi_t);
63 /* /tmp/firm_gurobi.log is a hack (see below) */
64 error = GRBloadenv(&grb->env, "/tmp/firm_gurobi.log");
65 check_gurobi_error(grb, error);
66 /* Matze: do not set the FILE* for logging output. Because:
67 * a) the function is deprecated
68 * b) gurobi closes the FILE handle when it is done, which leads to
69 * very unexpected effects when you pass stdout or stderr as logging
71 * The only thing gurobi sanely supports is giving a string with a filename
72 * :-( ...so we use /tmp/firm_gurobi.log as a temporary measure...
74 if (lpp->log != stdout && lpp->log != stderr) {
75 error = GRBsetintparam(grb->env, GRB_INT_PAR_OUTPUTFLAG, 0);
76 check_gurobi_error(grb, error);
82 static void free_gurobi(gurobi_t *grb)
84 GRBfreemodel(grb->model);
90 * Build CPLEX data structure from LPP matrix.
91 * @note: The LPP matrix is freed after this step, to save memory.
93 static void gurobi_construct(gurobi_t *grb)
99 int numcols, numrows, numentries;
100 int objsen, *matbeg, *matcnt, *matind;
101 double *obj, *rhs, *matval, *lb;
102 char *sense, *vartype;
103 char **colname, **rowname;
105 lpp_t *lpp = grb->lpp;
108 numcols = lpp->var_next-1;
109 numrows = lpp->cst_next-1;
110 numentries = matrix_get_entries(lpp->m);
111 objsen = lpp->opt_type == lpp_minimize ? 1 : -1;
114 obj = obstack_alloc(&obst, numcols * sizeof(*obj));
115 lb = obstack_alloc(&obst, numcols * sizeof(*lb));
116 colname = obstack_alloc(&obst, numcols * sizeof(*colname));
117 rowname = obstack_alloc(&obst, numrows * sizeof(*rowname));
118 vartype = obstack_alloc(&obst, numcols * sizeof(*vartype));
119 //indices = obstack_alloc(&obst, numcols * sizeof(*indices));
120 //startv = obstack_alloc(&obst, numcols * sizeof(*startv));
121 matbeg = obstack_alloc(&obst, numcols * sizeof(*matbeg));
122 matcnt = obstack_alloc(&obst, numcols * sizeof(*matcnt));
123 matind = obstack_alloc(&obst, numentries * sizeof(*matind));
124 matval = obstack_alloc(&obst, numentries * sizeof(*matval));
125 rhs = obstack_alloc(&obst, numrows * sizeof(*rhs));
126 sense = obstack_alloc(&obst, numrows * sizeof(*sense));
130 /* fill the CPLEX matrix*/
131 for (i = 0; i < numcols; ++i) {
132 lpp_name_t *curr_var = lpp->vars[1+i];
134 obj[i] = matrix_get(lpp->m, 0, 1+i);
137 colname[i] = (char*) curr_var->name;
138 vartype[i] = gurobi_var_encoding[curr_var->type.var_type];
142 matrix_foreach_in_col(lpp->m, 1 + i, elem) {
145 matind[o] = elem->row-1;
146 matval[o] = elem->val;
152 /* get constraint stuff (right hand side, type, name) */
153 for (i = 0; i < numrows; ++i) {
154 lpp_name_t *curr_cst = lpp->csts[1 + i];
156 rhs[i] = matrix_get(lpp->m, 1 + i, 0);
157 sense[i] = gurobi_cst_encoding[curr_cst->type.cst_type];
158 rowname[i] = (char*) curr_cst->name;
161 error = GRBloadmodel(grb->env, &grb->model, lpp->name, numcols, numrows,
162 objsen, 0, obj, sense, rhs, matbeg, matcnt, matind,
163 matval, lb, NULL, vartype, colname, rowname);
164 check_gurobi_error(grb, error);
165 grb->modelenv = GRBgetenv(grb->model);
167 obstack_free(&obst, NULL);
168 lpp_free_matrix(lpp);
171 static void gurobi_solve(gurobi_t *grb)
173 lpp_t *lpp = grb->lpp;
177 int numcols = lpp->var_next-1;
181 /* Set the time limit appropriately */
182 if(lpp->time_limit_secs > 0.0) {
183 error = GRBsetdblparam(grb->modelenv, GRB_DBL_PAR_TIMELIMIT, lpp->time_limit_secs);
184 check_gurobi_error(grb, error);
188 error = GRBoptimize(grb->model);
189 check_gurobi_error(grb, error);
191 /* get solution status */
192 error = GRBgetintattr(grb->model, GRB_INT_ATTR_STATUS, &optimstatus);
193 check_gurobi_error(grb, error);
195 switch (optimstatus) {
196 case GRB_OPTIMAL: lpp->sol_state = lpp_optimal; break;
197 case GRB_INFEASIBLE: lpp->sol_state = lpp_infeasible; break;
198 case GRB_INF_OR_UNBD: lpp->sol_state = lpp_inforunb; break;
199 case GRB_UNBOUNDED: lpp->sol_state = lpp_unbounded; break;
200 /* TODO: is this correct? */
201 default: lpp->sol_state = lpp_feasible; break;
204 if (lpp->sol_state >= lpp_feasible) {
205 /* get variable solution values */
206 values = alloca(numcols * sizeof(*values));
207 error = GRBgetdblattrarray(grb->model, GRB_DBL_ATTR_X, 0, numcols,
209 check_gurobi_error(grb, error);
210 for(i=0; i<numcols; ++i) {
211 lpp->vars[1+i]->value = values[i];
212 lpp->vars[1+i]->value_kind = lpp_value_solution;
215 /* Get the value of the objective function. */
216 error = GRBgetdblattr(grb->model, GRB_DBL_ATTR_OBJVAL, &lpp->objval);
217 check_gurobi_error(grb, error);
218 error = GRBgetdblattr(grb->model , GRB_DBL_ATTR_OBJBOUND,
221 lpp->best_bound = FP_NAN;
225 /* get some statistics */
226 error = GRBgetdblattr(grb->model, GRB_DBL_ATTR_ITERCOUNT, &iterations);
227 check_gurobi_error(grb, error);
228 lpp->iterations = (unsigned) iterations;
230 error = GRBgetdblattr(grb->model, GRB_DBL_ATTR_RUNTIME, &lpp->sol_time);
231 check_gurobi_error(grb, error);
234 void lpp_solve_gurobi(lpp_t *lpp)
236 gurobi_t *grb = new_gurobi(lpp);
237 gurobi_construct(grb);