lexmin.cc: indicator: reorder member initializer list to match field order
[barvinok.git] / 4coins.cc
blob8f6c8f198595a40900089717693d1ab581260429
1 #include <assert.h>
2 #include <iostream>
3 #include <barvinok/genfun.h>
4 #include <barvinok/util.h>
5 #include <barvinok/barvinok.h>
6 #include <barvinok/basis_reduction.h>
7 #include "config.h"
9 using std::cout;
10 using std::cerr;
11 using std::endl;
13 static Polyhedron *uncone(Polyhedron *C, unsigned MaxRays)
15 Matrix *Constraints;
16 Polyhedron *P;
17 int i;
19 Constraints = Matrix_Alloc(C->NbConstraints, 1+(C->Dimension-1)+1);
20 for (i = 0; i < C->NbConstraints; ++i) {
21 /* positivity constraints */
22 if (First_Non_Zero(C->Constraint[i]+1, C->Dimension) == -1) {
23 assert(i == C->NbConstraints-1);
24 Constraints->NbRows = i;
25 break;
27 assert(value_zero_p(C->Constraint[i][1+C->Dimension]));
28 Vector_Copy(C->Constraint[i], Constraints->p[i], 1+C->Dimension);
30 P = Constraints2Polyhedron(Constraints, MaxRays);
31 Matrix_Free(Constraints);
33 return P;
36 int main(int argc, char **argv)
38 Matrix *M;
39 Polyhedron *P, *C, *B;
40 Vector *small;
41 Matrix *T, *basis;
42 gen_fun *S, *S_shift, *hp, *S_divide, *frob;
43 vec_ZZ up;
44 Value c;
45 bool ok;
46 QQ mone(-1, 1);
47 Vector *coins;
48 barvinok_options *options = barvinok_options_new_with_defaults();
50 coins = Vector_Read();
51 assert(coins);
52 assert(coins->Size == 4);
54 M = Matrix_Alloc(5, 7);
55 Vector_Copy(coins->p, M->p[0]+1, 4);
56 Vector_Free(coins);
57 value_set_si(M->p[0][1+4], -1);
58 for (int i = 0; i < 4; ++i) {
59 value_set_si(M->p[1+i][0], 1);
60 value_set_si(M->p[1+i][1+i], 1);
62 C = Constraints2Polyhedron(M, options->MaxRays);
63 Matrix_Free(M);
64 C = remove_equalities_p(C, 4, NULL, options->MaxRays);
65 assert(C->NbEq == 0);
66 Polyhedron_Print(stderr, P_VALUE_FMT, C);
68 B = uncone(C, options->MaxRays);
70 basis = Polyhedron_Reduced_Basis(B, options);
71 small = Vector_Alloc(B->Dimension + 2);
72 Vector_Copy(basis->p[0], small->p, B->Dimension);
73 Matrix_Free(basis);
74 Polyhedron_Free(B);
76 T = Matrix_Alloc(small->Size, small->Size);
77 Vector_Copy(small->p, T->p[0], small->Size);
78 ok = unimodular_complete(T, 1);
79 assert(ok);
80 Vector_Free(small);
81 Vector_Exchange(T->p[0], T->p[2], T->NbColumns);
82 Matrix_Print(stderr, P_VALUE_FMT, T);
84 Polyhedron_Print(stderr, P_VALUE_FMT, C);
85 P = Polyhedron_Image(C, T, options->MaxRays);
86 Matrix_Free(T);
87 Polyhedron_Free(C);
89 Polyhedron_Print(stderr, P_VALUE_FMT, P);
91 up.SetLength(2);
92 up[0] = 1;
93 up[1] = 0;
95 S = barvinok_enumerate_scarf_series(P, 2, 2, options);
96 S->print(std::cerr, 0, NULL);
97 cerr << endl;
99 S_shift = new gen_fun(S);
100 S_divide = new gen_fun(S);
101 S_divide->divide(up);
102 S_divide->shift(up);
104 value_init(c);
106 do {
107 S_shift->shift(up);
108 hp = S->Hadamard_product(S_shift, options);
109 S->add(mone, hp, options);
110 delete hp;
112 S_divide->shift(up);
113 hp = S->Hadamard_product(S_divide, options);
114 ok = hp->summate(&c);
115 if (ok)
116 assert(value_zero_p(c));
117 delete hp;
118 } while(!ok);
120 value_clear(c);
122 frob = S->summate(1, options);
123 frob->print(std::cout, 0, NULL);
124 cout << endl;
125 delete frob;
127 delete S_shift;
128 delete S_divide;
129 delete S;
131 Polyhedron_Free(P);
132 barvinok_options_free(options);