1 | /* glpapi14.c (processing models in GNU MathProg language) */ |
---|
2 | |
---|
3 | /*********************************************************************** |
---|
4 | * This code is part of GLPK (GNU Linear Programming Kit). |
---|
5 | * |
---|
6 | * Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, |
---|
7 | * 2009, 2010 Andrew Makhorin, Department for Applied Informatics, |
---|
8 | * Moscow Aviation Institute, Moscow, Russia. All rights reserved. |
---|
9 | * E-mail: <mao@gnu.org>. |
---|
10 | * |
---|
11 | * GLPK is free software: you can redistribute it and/or modify it |
---|
12 | * under the terms of the GNU General Public License as published by |
---|
13 | * the Free Software Foundation, either version 3 of the License, or |
---|
14 | * (at your option) any later version. |
---|
15 | * |
---|
16 | * GLPK is distributed in the hope that it will be useful, but WITHOUT |
---|
17 | * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY |
---|
18 | * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public |
---|
19 | * License for more details. |
---|
20 | * |
---|
21 | * You should have received a copy of the GNU General Public License |
---|
22 | * along with GLPK. If not, see <http://www.gnu.org/licenses/>. |
---|
23 | ***********************************************************************/ |
---|
24 | |
---|
25 | #define GLP_TRAN_DEFINED |
---|
26 | typedef struct MPL glp_tran; |
---|
27 | |
---|
28 | #include "glpmpl.h" |
---|
29 | #include "glpapi.h" |
---|
30 | |
---|
31 | glp_tran *glp_mpl_alloc_wksp(void) |
---|
32 | { /* allocate the MathProg translator workspace */ |
---|
33 | glp_tran *tran; |
---|
34 | tran = mpl_initialize(); |
---|
35 | return tran; |
---|
36 | } |
---|
37 | |
---|
38 | #if 1 /* 08/XII-2009 */ |
---|
39 | void _glp_mpl_init_rand(glp_tran *tran, int seed) |
---|
40 | { if (tran->phase != 0) |
---|
41 | xerror("glp_mpl_init_rand: invalid call sequence\n"); |
---|
42 | rng_init_rand(tran->rand, seed); |
---|
43 | return; |
---|
44 | } |
---|
45 | #endif |
---|
46 | |
---|
47 | int glp_mpl_read_model(glp_tran *tran, const char *fname, int skip) |
---|
48 | { /* read and translate model section */ |
---|
49 | int ret; |
---|
50 | if (tran->phase != 0) |
---|
51 | xerror("glp_mpl_read_model: invalid call sequence\n"); |
---|
52 | ret = mpl_read_model(tran, (char *)fname, skip); |
---|
53 | if (ret == 1 || ret == 2) |
---|
54 | ret = 0; |
---|
55 | else if (ret == 4) |
---|
56 | ret = 1; |
---|
57 | else |
---|
58 | xassert(ret != ret); |
---|
59 | return ret; |
---|
60 | } |
---|
61 | |
---|
62 | int glp_mpl_read_data(glp_tran *tran, const char *fname) |
---|
63 | { /* read and translate data section */ |
---|
64 | int ret; |
---|
65 | if (!(tran->phase == 1 || tran->phase == 2)) |
---|
66 | xerror("glp_mpl_read_data: invalid call sequence\n"); |
---|
67 | ret = mpl_read_data(tran, (char *)fname); |
---|
68 | if (ret == 2) |
---|
69 | ret = 0; |
---|
70 | else if (ret == 4) |
---|
71 | ret = 1; |
---|
72 | else |
---|
73 | xassert(ret != ret); |
---|
74 | return ret; |
---|
75 | } |
---|
76 | |
---|
77 | int glp_mpl_generate(glp_tran *tran, const char *fname) |
---|
78 | { /* generate the model */ |
---|
79 | int ret; |
---|
80 | if (!(tran->phase == 1 || tran->phase == 2)) |
---|
81 | xerror("glp_mpl_generate: invalid call sequence\n"); |
---|
82 | ret = mpl_generate(tran, (char *)fname); |
---|
83 | if (ret == 3) |
---|
84 | ret = 0; |
---|
85 | else if (ret == 4) |
---|
86 | ret = 1; |
---|
87 | return ret; |
---|
88 | } |
---|
89 | |
---|
90 | void glp_mpl_build_prob(glp_tran *tran, glp_prob *prob) |
---|
91 | { /* build LP/MIP problem instance from the model */ |
---|
92 | int m, n, i, j, t, kind, type, len, *ind; |
---|
93 | double lb, ub, *val; |
---|
94 | if (tran->phase != 3) |
---|
95 | xerror("glp_mpl_build_prob: invalid call sequence\n"); |
---|
96 | /* erase the problem object */ |
---|
97 | glp_erase_prob(prob); |
---|
98 | /* set problem name */ |
---|
99 | glp_set_prob_name(prob, mpl_get_prob_name(tran)); |
---|
100 | /* build rows (constraints) */ |
---|
101 | m = mpl_get_num_rows(tran); |
---|
102 | if (m > 0) |
---|
103 | glp_add_rows(prob, m); |
---|
104 | for (i = 1; i <= m; i++) |
---|
105 | { /* set row name */ |
---|
106 | glp_set_row_name(prob, i, mpl_get_row_name(tran, i)); |
---|
107 | /* set row bounds */ |
---|
108 | type = mpl_get_row_bnds(tran, i, &lb, &ub); |
---|
109 | switch (type) |
---|
110 | { case MPL_FR: type = GLP_FR; break; |
---|
111 | case MPL_LO: type = GLP_LO; break; |
---|
112 | case MPL_UP: type = GLP_UP; break; |
---|
113 | case MPL_DB: type = GLP_DB; break; |
---|
114 | case MPL_FX: type = GLP_FX; break; |
---|
115 | default: xassert(type != type); |
---|
116 | } |
---|
117 | if (type == GLP_DB && fabs(lb - ub) < 1e-9 * (1.0 + fabs(lb))) |
---|
118 | { type = GLP_FX; |
---|
119 | if (fabs(lb) <= fabs(ub)) ub = lb; else lb = ub; |
---|
120 | } |
---|
121 | glp_set_row_bnds(prob, i, type, lb, ub); |
---|
122 | /* warn about non-zero constant term */ |
---|
123 | if (mpl_get_row_c0(tran, i) != 0.0) |
---|
124 | xprintf("glp_mpl_build_prob: row %s; constant term %.12g ig" |
---|
125 | "nored\n", |
---|
126 | mpl_get_row_name(tran, i), mpl_get_row_c0(tran, i)); |
---|
127 | } |
---|
128 | /* build columns (variables) */ |
---|
129 | n = mpl_get_num_cols(tran); |
---|
130 | if (n > 0) |
---|
131 | glp_add_cols(prob, n); |
---|
132 | for (j = 1; j <= n; j++) |
---|
133 | { /* set column name */ |
---|
134 | glp_set_col_name(prob, j, mpl_get_col_name(tran, j)); |
---|
135 | /* set column kind */ |
---|
136 | kind = mpl_get_col_kind(tran, j); |
---|
137 | switch (kind) |
---|
138 | { case MPL_NUM: |
---|
139 | break; |
---|
140 | case MPL_INT: |
---|
141 | case MPL_BIN: |
---|
142 | glp_set_col_kind(prob, j, GLP_IV); |
---|
143 | break; |
---|
144 | default: |
---|
145 | xassert(kind != kind); |
---|
146 | } |
---|
147 | /* set column bounds */ |
---|
148 | type = mpl_get_col_bnds(tran, j, &lb, &ub); |
---|
149 | switch (type) |
---|
150 | { case MPL_FR: type = GLP_FR; break; |
---|
151 | case MPL_LO: type = GLP_LO; break; |
---|
152 | case MPL_UP: type = GLP_UP; break; |
---|
153 | case MPL_DB: type = GLP_DB; break; |
---|
154 | case MPL_FX: type = GLP_FX; break; |
---|
155 | default: xassert(type != type); |
---|
156 | } |
---|
157 | if (kind == MPL_BIN) |
---|
158 | { if (type == GLP_FR || type == GLP_UP || lb < 0.0) lb = 0.0; |
---|
159 | if (type == GLP_FR || type == GLP_LO || ub > 1.0) ub = 1.0; |
---|
160 | type = GLP_DB; |
---|
161 | } |
---|
162 | if (type == GLP_DB && fabs(lb - ub) < 1e-9 * (1.0 + fabs(lb))) |
---|
163 | { type = GLP_FX; |
---|
164 | if (fabs(lb) <= fabs(ub)) ub = lb; else lb = ub; |
---|
165 | } |
---|
166 | glp_set_col_bnds(prob, j, type, lb, ub); |
---|
167 | } |
---|
168 | /* load the constraint matrix */ |
---|
169 | ind = xcalloc(1+n, sizeof(int)); |
---|
170 | val = xcalloc(1+n, sizeof(double)); |
---|
171 | for (i = 1; i <= m; i++) |
---|
172 | { len = mpl_get_mat_row(tran, i, ind, val); |
---|
173 | glp_set_mat_row(prob, i, len, ind, val); |
---|
174 | } |
---|
175 | /* build objective function (the first objective is used) */ |
---|
176 | for (i = 1; i <= m; i++) |
---|
177 | { kind = mpl_get_row_kind(tran, i); |
---|
178 | if (kind == MPL_MIN || kind == MPL_MAX) |
---|
179 | { /* set objective name */ |
---|
180 | glp_set_obj_name(prob, mpl_get_row_name(tran, i)); |
---|
181 | /* set optimization direction */ |
---|
182 | glp_set_obj_dir(prob, kind == MPL_MIN ? GLP_MIN : GLP_MAX); |
---|
183 | /* set constant term */ |
---|
184 | glp_set_obj_coef(prob, 0, mpl_get_row_c0(tran, i)); |
---|
185 | /* set objective coefficients */ |
---|
186 | len = mpl_get_mat_row(tran, i, ind, val); |
---|
187 | for (t = 1; t <= len; t++) |
---|
188 | glp_set_obj_coef(prob, ind[t], val[t]); |
---|
189 | break; |
---|
190 | } |
---|
191 | } |
---|
192 | /* free working arrays */ |
---|
193 | xfree(ind); |
---|
194 | xfree(val); |
---|
195 | return; |
---|
196 | } |
---|
197 | |
---|
198 | int glp_mpl_postsolve(glp_tran *tran, glp_prob *prob, int sol) |
---|
199 | { /* postsolve the model */ |
---|
200 | int i, j, m, n, stat, ret; |
---|
201 | double prim, dual; |
---|
202 | if (!(tran->phase == 3 && !tran->flag_p)) |
---|
203 | xerror("glp_mpl_postsolve: invalid call sequence\n"); |
---|
204 | if (!(sol == GLP_SOL || sol == GLP_IPT || sol == GLP_MIP)) |
---|
205 | xerror("glp_mpl_postsolve: sol = %d; invalid parameter\n", |
---|
206 | sol); |
---|
207 | m = mpl_get_num_rows(tran); |
---|
208 | n = mpl_get_num_cols(tran); |
---|
209 | if (!(m == glp_get_num_rows(prob) && |
---|
210 | n == glp_get_num_cols(prob))) |
---|
211 | xerror("glp_mpl_postsolve: wrong problem object\n"); |
---|
212 | if (!mpl_has_solve_stmt(tran)) |
---|
213 | { ret = 0; |
---|
214 | goto done; |
---|
215 | } |
---|
216 | for (i = 1; i <= m; i++) |
---|
217 | { if (sol == GLP_SOL) |
---|
218 | { stat = glp_get_row_stat(prob, i); |
---|
219 | prim = glp_get_row_prim(prob, i); |
---|
220 | dual = glp_get_row_dual(prob, i); |
---|
221 | } |
---|
222 | else if (sol == GLP_IPT) |
---|
223 | { stat = 0; |
---|
224 | prim = glp_ipt_row_prim(prob, i); |
---|
225 | dual = glp_ipt_row_dual(prob, i); |
---|
226 | } |
---|
227 | else if (sol == GLP_MIP) |
---|
228 | { stat = 0; |
---|
229 | prim = glp_mip_row_val(prob, i); |
---|
230 | dual = 0.0; |
---|
231 | } |
---|
232 | else |
---|
233 | xassert(sol != sol); |
---|
234 | if (fabs(prim) < 1e-9) prim = 0.0; |
---|
235 | if (fabs(dual) < 1e-9) dual = 0.0; |
---|
236 | mpl_put_row_soln(tran, i, stat, prim, dual); |
---|
237 | } |
---|
238 | for (j = 1; j <= n; j++) |
---|
239 | { if (sol == GLP_SOL) |
---|
240 | { stat = glp_get_col_stat(prob, j); |
---|
241 | prim = glp_get_col_prim(prob, j); |
---|
242 | dual = glp_get_col_dual(prob, j); |
---|
243 | } |
---|
244 | else if (sol == GLP_IPT) |
---|
245 | { stat = 0; |
---|
246 | prim = glp_ipt_col_prim(prob, j); |
---|
247 | dual = glp_ipt_col_dual(prob, j); |
---|
248 | } |
---|
249 | else if (sol == GLP_MIP) |
---|
250 | { stat = 0; |
---|
251 | prim = glp_mip_col_val(prob, j); |
---|
252 | dual = 0.0; |
---|
253 | } |
---|
254 | else |
---|
255 | xassert(sol != sol); |
---|
256 | if (fabs(prim) < 1e-9) prim = 0.0; |
---|
257 | if (fabs(dual) < 1e-9) dual = 0.0; |
---|
258 | mpl_put_col_soln(tran, j, stat, prim, dual); |
---|
259 | } |
---|
260 | ret = mpl_postsolve(tran); |
---|
261 | if (ret == 3) |
---|
262 | ret = 0; |
---|
263 | else if (ret == 4) |
---|
264 | ret = 1; |
---|
265 | done: return ret; |
---|
266 | } |
---|
267 | |
---|
268 | void glp_mpl_free_wksp(glp_tran *tran) |
---|
269 | { /* free the MathProg translator workspace */ |
---|
270 | mpl_terminate(tran); |
---|
271 | return; |
---|
272 | } |
---|
273 | |
---|
274 | /* eof */ |
---|