iscc: add inverse operation
[barvinok.git] / conversion.cc
blob7d43959a7fbaca78b58196ed9761105c1c3d3982
1 #include <assert.h>
2 #include <gmp.h>
3 #include <NTL/mat_ZZ.h>
4 #include <barvinok/util.h>
5 #include "conversion.h"
7 #define SIZE(p) (((long *) (p))[1])
8 #define DATA(p) ((mp_limb_t *) (((long *) (p)) + 2))
10 void value2zz(Value v, ZZ& z)
12 int sa = v[0]._mp_size;
13 int abs_sa = sa < 0 ? -sa : sa;
15 _ntl_gsetlength(&z.rep, abs_sa);
16 mp_limb_t * adata = DATA(z.rep);
17 for (int i = 0; i < abs_sa; ++i)
18 adata[i] = v[0]._mp_d[i];
19 SIZE(z.rep) = sa;
22 void zz2value(const ZZ& z, Value& v)
24 if (!z.rep) {
25 value_set_si(v, 0);
26 return;
29 int sa = SIZE(z.rep);
30 int abs_sa = sa < 0 ? -sa : sa;
32 mp_limb_t * adata = DATA(z.rep);
33 _mpz_realloc(v, abs_sa);
34 for (int i = 0; i < abs_sa; ++i)
35 v[0]._mp_d[i] = adata[i];
36 v[0]._mp_size = sa;
39 void values2zz(Value *p, vec_ZZ& v, int len)
41 v.SetLength(len);
43 for (int i = 0; i < len; ++i) {
44 value2zz(p[i], v[i]);
50 void zz2values(const vec_ZZ& v, Value *p)
52 for (int i = 0; i < v.length(); ++i)
53 zz2value(v[i], p[i]);
57 * We just ignore the last column and row
58 * If the final element is not equal to one
59 * then the result will actually be a multiple of the input
61 void matrix2zz(Matrix *M, mat_ZZ& m, unsigned nr, unsigned nc)
63 m.SetDims(nr, nc);
65 for (int i = 0; i < nr; ++i) {
66 // assert(value_one_p(M->p[i][M->NbColumns - 1]));
67 for (int j = 0; j < nc; ++j) {
68 value2zz(M->p[i][j], m[i][j]);
73 Matrix *zz2matrix(const mat_ZZ& mat)
75 Matrix *M = Matrix_Alloc(mat.NumRows(), mat.NumCols());
76 assert(M);
78 for (int i = 0; i < mat.NumRows(); ++i)
79 zz2values(mat[i], M->p[i]);
80 return M;
83 Matrix *rays(Polyhedron *C)
85 unsigned dim = C->NbRays - 1; /* don't count zero vertex */
86 assert(C->NbRays - 1 == C->Dimension);
88 Matrix *M = Matrix_Alloc(dim+1, dim+1);
89 assert(M);
91 int i, c;
92 for (i = 0, c = 0; i <= dim && c < dim; ++i)
93 if (value_zero_p(C->Ray[i][dim+1])) {
94 Vector_Copy(C->Ray[i] + 1, M->p[c], dim);
95 value_set_si(M->p[c++][dim], 0);
97 assert(c == dim);
98 value_set_si(M->p[dim][dim], 1);
100 return M;
103 Matrix *rays2(Polyhedron *C)
105 unsigned dim = C->NbRays - 1; /* don't count zero vertex */
106 assert(C->NbRays - 1 == C->Dimension);
108 Matrix *M = Matrix_Alloc(dim, dim);
109 assert(M);
111 int i, c;
112 for (i = 0, c = 0; i <= dim && c < dim; ++i)
113 if (value_zero_p(C->Ray[i][dim+1]))
114 Vector_Copy(C->Ray[i] + 1, M->p[c++], dim);
115 assert(c == dim);
117 return M;
120 void rays(Polyhedron *C, mat_ZZ& rays)
122 unsigned dim = C->NbRays - 1; /* don't count zero vertex */
123 assert(C->NbRays - 1 == C->Dimension);
124 rays.SetDims(dim, dim);
126 int i, j;
127 for (i = 0, j = 0; i < C->NbRays; ++i) {
128 if (value_notzero_p(C->Ray[i][dim+1]))
129 continue;
130 values2zz(C->Ray[i]+1, rays[j], dim);
131 ++j;
135 void randomvector(Polyhedron *P, vec_ZZ& lambda, int nvar, int n_try)
137 Value tmp;
138 int max = 5 * 16;
139 unsigned int dim = P->Dimension;
140 value_init(tmp);
142 for (int i = 0; i < P->NbRays; ++i) {
143 for (int j = 1; j <= dim; ++j) {
144 value_absolute(tmp, P->Ray[i][j]);
145 int t = VALUE_TO_LONG(tmp) * 16;
146 if (t > max)
147 max = t;
150 for (int i = 0; i < P->NbConstraints; ++i) {
151 for (int j = 1; j <= dim; ++j) {
152 value_absolute(tmp, P->Constraint[i][j]);
153 int t = VALUE_TO_LONG(tmp) * 16;
154 if (t > max)
155 max = t;
158 value_clear(tmp);
160 max += max << n_try;
162 lambda.SetLength(nvar);
163 for (int k = 0; k < nvar; ++k) {
164 int r = random_int(max*dim)+2;
165 int v = (2*(r%2)-1) * (max/2*dim + (r >> 1));
166 lambda[k] = v;