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isl_basic_map_from_constraint: only return copy of bmap on equality constraints
[isl.git] / isl_scan.c
blobc8eba377c8a2b89486f4acfb8c16b6e784fc00b0
1 /*
2 * Copyright 2008-2009 Katholieke Universiteit Leuven
3 *
4 * Use of this software is governed by the GNU LGPLv2.1 license
5 *
6 * Written by Sven Verdoolaege, K.U.Leuven, Departement
7 * Computerwetenschappen, Celestijnenlaan 200A, B-3001 Leuven, Belgium
8 */
9
10 #include "isl_basis_reduction.h"
11 #include "isl_scan.h"
12 #include "isl_seq.h"
13 #include "isl_tab.h"
14 #include <isl_map_private.h>
15
16 struct isl_counter {
17 struct isl_scan_callback callback;
18 isl_int count;
19 isl_int max;
20 };
21
22 static int increment_counter(struct isl_scan_callback *cb,
23 __isl_take isl_vec *sample)
24 {
25 struct isl_counter *cnt = (struct isl_counter *)cb;
26
27 isl_int_add_ui(cnt->count, cnt->count, 1);
28
29 isl_vec_free(sample);
30
31 if (isl_int_is_zero(cnt->max) || isl_int_lt(cnt->count, cnt->max))
32 return 0;
33 return -1;
34 }
35
36 static int increment_range(struct isl_scan_callback *cb, isl_int min, isl_int max)
37 {
38 struct isl_counter *cnt = (struct isl_counter *)cb;
39
40 isl_int_add(cnt->count, cnt->count, max);
41 isl_int_sub(cnt->count, cnt->count, min);
42 isl_int_add_ui(cnt->count, cnt->count, 1);
43
44 if (isl_int_is_zero(cnt->max) || isl_int_lt(cnt->count, cnt->max))
45 return 0;
46 isl_int_set(cnt->count, cnt->max);
47 return -1;
48 }
49
50 /* Call callback->add with the current sample value of the tableau "tab".
51 */
52 static int add_solution(struct isl_tab *tab, struct isl_scan_callback *callback)
53 {
54 struct isl_vec *sample;
55
56 if (!tab)
57 return -1;
58 sample = isl_tab_get_sample_value(tab);
59 if (!sample)
60 return -1;
61
62 return callback->add(callback, sample);
63 }
64
65 static int scan_0D(struct isl_basic_set *bset,
66 struct isl_scan_callback *callback)
67 {
68 struct isl_vec *sample;
69
70 sample = isl_vec_alloc(bset->ctx, 1);
71 isl_basic_set_free(bset);
72
73 if (!sample)
74 return -1;
75
76 isl_int_set_si(sample->el[0], 1);
77
78 return callback->add(callback, sample);
79 }
80
81 /* Look for all integer points in "bset", which is assumed to be unbounded,
82 * and call callback->add on each of them.
83 *
84 * We first compute a reduced basis for the set and then scan
85 * the set in the directions of this basis.
86 * We basically perform a depth first search, where in each level i
87 * we compute the range in the i-th basis vector direction, given
88 * fixed values in the directions of the previous basis vector.
89 * We then add an equality to the tableau fixing the value in the
90 * direction of the current basis vector to each value in the range
91 * in turn and then continue to the next level.
92 *
93 * The search is implemented iteratively. "level" identifies the current
94 * basis vector. "init" is true if we want the first value at the current
95 * level and false if we want the next value.
96 * Solutions are added in the leaves of the search tree, i.e., after
97 * we have fixed a value in each direction of the basis.
98 */
99 int isl_basic_set_scan(struct isl_basic_set *bset,
100 struct isl_scan_callback *callback)
101 {
102 unsigned dim;
103 struct isl_mat *B = NULL;
104 struct isl_tab *tab = NULL;
105 struct isl_vec *min;
106 struct isl_vec *max;
107 struct isl_tab_undo **snap;
108 int level;
109 int init;
110 enum isl_lp_result res;
111
112 if (!bset)
113 return -1;
114
115 dim = isl_basic_set_total_dim(bset);
116 if (dim == 0)
117 return scan_0D(bset, callback);
118
119 min = isl_vec_alloc(bset->ctx, dim);
120 max = isl_vec_alloc(bset->ctx, dim);
121 snap = isl_alloc_array(bset->ctx, struct isl_tab_undo *, dim);
122
123 if (!min || !max || !snap)
124 goto error;
125
126 tab = isl_tab_from_basic_set(bset);
127 if (!tab)
128 goto error;
129 if (isl_tab_extend_cons(tab, dim + 1) < 0)
130 goto error;
131
132 tab->basis = isl_mat_identity(bset->ctx, 1 + dim);
133 if (1)
134 tab = isl_tab_compute_reduced_basis(tab);
135 if (!tab)
136 goto error;
137 B = isl_mat_copy(tab->basis);
138 if (!B)
139 goto error;
140
141 level = 0;
142 init = 1;
143
144 while (level >= 0) {
145 int empty = 0;
146 if (init) {
147 res = isl_tab_min(tab, B->row[1 + level],
148 bset->ctx->one, &min->el[level], NULL, 0);
149 if (res == isl_lp_empty)
150 empty = 1;
151 if (res == isl_lp_error || res == isl_lp_unbounded)
152 goto error;
153 isl_seq_neg(B->row[1 + level] + 1,
154 B->row[1 + level] + 1, dim);
155 res = isl_tab_min(tab, B->row[1 + level],
156 bset->ctx->one, &max->el[level], NULL, 0);
157 isl_seq_neg(B->row[1 + level] + 1,
158 B->row[1 + level] + 1, dim);
159 isl_int_neg(max->el[level], max->el[level]);
160 if (res == isl_lp_empty)
161 empty = 1;
162 if (res == isl_lp_error || res == isl_lp_unbounded)
163 goto error;
164 snap[level] = isl_tab_snap(tab);
165 } else
166 isl_int_add_ui(min->el[level], min->el[level], 1);
167
168 if (empty || isl_int_gt(min->el[level], max->el[level])) {
169 level--;
170 init = 0;
171 if (level >= 0)
172 if (isl_tab_rollback(tab, snap[level]) < 0)
173 goto error;
174 continue;
175 }
176 if (level == dim - 1 && callback->add == increment_counter) {
177 if (increment_range(callback,
178 min->el[level], max->el[level]))
179 goto error;
180 level--;
181 init = 0;
182 if (level >= 0)
183 if (isl_tab_rollback(tab, snap[level]) < 0)
184 goto error;
185 continue;
186 }
187 isl_int_neg(B->row[1 + level][0], min->el[level]);
188 if (isl_tab_add_valid_eq(tab, B->row[1 + level]) < 0)
189 goto error;
190 isl_int_set_si(B->row[1 + level][0], 0);
191 if (level < dim - 1) {
192 ++level;
193 init = 1;
194 continue;
195 }
196 if (add_solution(tab, callback) < 0)
197 goto error;
198 init = 0;
199 if (isl_tab_rollback(tab, snap[level]) < 0)
200 goto error;
201 }
202
203 isl_tab_free(tab);
204 free(snap);
205 isl_vec_free(min);
206 isl_vec_free(max);
207 isl_basic_set_free(bset);
208 isl_mat_free(B);
209 return 0;
210 error:
211 isl_tab_free(tab);
212 free(snap);
213 isl_vec_free(min);
214 isl_vec_free(max);
215 isl_basic_set_free(bset);
216 isl_mat_free(B);
217 return -1;
218 }
219
220 int isl_set_scan(__isl_take isl_set *set, struct isl_scan_callback *callback)
221 {
222 int i;
223
224 if (!set || !callback)
225 goto error;
226
227 set = isl_set_cow(set);
228 set = isl_set_make_disjoint(set);
229 set = isl_set_compute_divs(set);
230 if (!set)
231 goto error;
232
233 for (i = 0; i < set->n; ++i)
234 if (isl_basic_set_scan(isl_basic_set_copy(set->p[i]),
235 callback) < 0)
236 goto error;
237
238 isl_set_free(set);
239 return 0;
240 error:
241 isl_set_free(set);
242 return -1;
243 }
244
245 int isl_set_count_upto(__isl_keep isl_set *set, isl_int max, isl_int *count)
246 {
247 struct isl_counter cnt = { { &increment_counter } };
248
249 if (!set)
250 return -1;
251
252 isl_int_init(cnt.count);
253 isl_int_init(cnt.max);
254
255 isl_int_set_si(cnt.count, 0);
256 isl_int_set(cnt.max, max);
257 if (isl_set_scan(isl_set_copy(set), &cnt.callback) < 0 &&
258 isl_int_lt(cnt.count, cnt.max))
259 goto error;
260
261 isl_int_set(*count, cnt.count);
262 isl_int_clear(cnt.max);
263 isl_int_clear(cnt.count);
264
265 return 0;
266 error:
267 isl_int_clear(cnt.count);
268 return -1;
269 }
270
271 int isl_set_count(__isl_keep isl_set *set, isl_int *count)
272 {
273 if (!set)
274 return -1;
275 return isl_set_count_upto(set, set->ctx->zero, count);
276 }
Integer set library