update isl for change in interface/extract_interface interface
[barvinok.git] / reduce_domain.c
blob868091bb825f19072fca6fe96b80ed23829a0d43
1 #include <assert.h>
2 #include <barvinok/options.h>
3 #include <barvinok/util.h>
4 #include <barvinok/barvinok.h>
5 #include "reduce_domain.h"
7 Polyhedron *true_context(Polyhedron *P, Polyhedron *C, unsigned MaxRays)
9 unsigned nparam = C->Dimension;
10 Polyhedron *tmp = Polyhedron_Project(P, nparam);
11 C = DomainIntersection(tmp, C, MaxRays);
12 Polyhedron_Free(tmp);
13 return C;
16 Vector *inner_point(Polyhedron *P)
18 Vector *average;
19 int nv = 0;
20 Value fc, fv;
21 unsigned dim = P->Dimension;
22 int i;
24 average = Vector_Alloc(1+dim+1);
26 POL_ENSURE_VERTICES(P);
27 for (i = 0; i < P->NbRays; ++i) {
28 if (value_zero_p(P->Ray[i][1+dim]))
29 continue;
30 ++nv;
31 if (nv == 1) {
32 Vector_Copy(P->Ray[i]+1, average->p+1, dim+1);
33 continue;
35 if (nv == 2) {
36 value_init(fc);
37 value_init(fv);
39 value_assign(fc, average->p[1+dim]);
40 value_lcm(average->p[1+dim], fc, P->Ray[i][1+dim]);
41 value_division(fc, average->p[1+dim], fc);
42 value_division(fv, average->p[1+dim], P->Ray[i][1+dim]);
43 Vector_Combine(average->p+1, P->Ray[i]+1, average->p+1, fc, fv, dim);
45 if (nv > 1) {
46 value_set_si(fc, nv);
47 value_multiply(average->p[1+dim], average->p[1+dim], fc);
48 Vector_Normalize(average->p+1, dim+1);
49 value_clear(fc);
50 value_clear(fv);
52 for (i = 0; i < P->NbRays; ++i) {
53 if (value_notzero_p(P->Ray[i][1+dim]))
54 continue;
55 Vector_Add(average->p+1, P->Ray[i]+1, average->p+1, dim);
57 return average;
60 int is_internal(Vector *point, Value *constraint)
62 int p;
63 unsigned dim = point->Size-2;
65 Inner_Product(constraint+1, point->p+1, dim+1, &point->p[0]);
66 if (value_notzero_p(point->p[0]))
67 return value_pos_p(point->p[0]);
69 p = First_Non_Zero(constraint+1, dim);
70 return value_pos_p(constraint[1+p]);
73 Polyhedron *reduce_domain(Polyhedron *D, int nd,
74 Vector *inner, struct barvinok_options *options)
76 Polyhedron *rVD;
77 Value c;
78 int i;
79 Matrix *constraints;
80 int changed;
82 rVD = D->next ? DomainConvex(D, options->MaxRays) : Polyhedron_Copy(D);
84 /* If there is only one chamber, then we don't need to take care
85 * of possible overlaps.
86 * Plus, this decomposition may be the result of a recursive call
87 * and then some of the assumptions used in determining whether
88 * the domain is too small in geometric dimension no longer apply.
90 if (nd == 1) {
91 return rVD;
94 assert(rVD->Dimension == inner->Size-2);
95 constraints = Polyhedron2Constraints(rVD);
96 changed = 0;
97 for (i = 0; i < constraints->NbRows; ++i) {
98 if (!is_internal(inner, constraints->p[i])) {
99 value_decrement(constraints->p[i][1+rVD->Dimension],
100 constraints->p[i][1+rVD->Dimension]);
101 changed = 1;
104 if (changed) {
105 Polyhedron_Free(rVD);
106 rVD = Constraints2Polyhedron(constraints, options->MaxRays);
108 Matrix_Free(constraints);
110 rVD = DomainConstraintSimplify(rVD, options->MaxRays);
111 POL_ENSURE_FACETS(rVD);
112 if (emptyQ(rVD)) {
113 Domain_Free(rVD);
114 return 0;
117 value_init(c);
118 barvinok_count_with_options(rVD, &c, options);
119 if (value_zero_p(c)) {
120 Domain_Free(rVD);
121 rVD = 0;
123 value_clear(c);
125 return rVD;