update isl for normalization of isl_term_get_div result
[barvinok.git] / ilp.c
blob5209b0ad012a73955840011c8e6b92869d642943
1 #include <barvinok/options.h>
2 #include <barvinok/sample.h>
3 #include "ilp.h"
5 static int matrix_add(Matrix *M, int n, Value *v)
7 if (n >= M->NbRows)
8 Matrix_Extend(M, 3*(M->NbRows+10)/2);
9 Vector_Copy(v, M->p[n], M->NbColumns);
10 return n+1;
13 /* Computes and returns an integer point of P attaining the minimum
14 * value in [min, max] with respect to the linear objective function obj.
15 * If there is no such point, then a NULL pointer is returned.
16 * If misses is not a NULL pointer, then any other points found along
17 * the way are stored in this matrix, updating *n_misses.
19 Vector *Polyhedron_Integer_Minimum(Polyhedron *P, Value *obj,
20 Value min, Value max,
21 Matrix *misses, int *n_misses,
22 struct barvinok_options *options)
24 int divide = 0;
25 Vector *opt = NULL;
26 Value l, u, tmp;
27 value_init(l);
28 value_init(u);
29 value_init(tmp);
30 value_assign(l, min);
31 value_assign(u, max);
33 while (value_le(l, u)) {
34 int i;
35 Matrix *M = Matrix_Alloc(P->NbConstraints + 2, 2 + P->Dimension);
36 Polyhedron *Q;
37 Vector *sample;
39 if (divide) {
40 value_subtract(tmp, u, l);
41 mpz_fdiv_q_ui(tmp, tmp, 2);
42 value_addto(tmp, tmp, l);
43 } else {
44 value_assign(tmp, u);
47 for (i = 0; i < P->NbConstraints; ++i)
48 Vector_Copy(P->Constraint[i], M->p[i+2], P->Dimension+2);
49 value_set_si(M->p[0][0], 1);
50 Vector_Copy(obj, M->p[0]+1, P->Dimension);
51 value_oppose(M->p[0][1+P->Dimension], l);
52 value_set_si(M->p[1][0], 1);
53 Vector_Oppose(obj, M->p[1]+1, P->Dimension);
54 value_assign(M->p[1][1+P->Dimension], tmp);
56 Q = Constraints2Polyhedron(M, options->MaxRays);
57 Matrix_Free(M);
59 sample = Polyhedron_Sample(Q, options);
60 Polyhedron_Free(Q);
62 if (sample) {
63 Inner_Product(obj, sample->p, P->Dimension, &u);
64 value_decrement(u, u);
65 divide = 1;
66 if (opt) {
67 if (misses)
68 *n_misses = matrix_add(misses, *n_misses, opt->p);
69 Vector_Free(opt);
71 opt = sample;
72 } else {
73 if (!divide)
74 break;
75 value_increment(l, tmp);
76 divide = 0;
80 value_clear(l);
81 value_clear(u);
82 value_clear(tmp);
84 return opt;