move omega subdir to omega_interface
[barvinok/uuh.git] / param_util.c
blobb1b202b7edaf482600a2196a82f4af569bc08b28
1 #include <assert.h>
2 #include <barvinok/options.h>
3 #include "param_util.h"
4 #include "topcom.h"
5 #include "config.h"
7 #define ALLOC(type) (type*)malloc(sizeof(type))
8 #define ALLOCN(type,n) (type*)malloc((n) * sizeof(type))
10 void Param_Vertex_Common_Denominator(Param_Vertices *V)
12 unsigned dim;
13 Value lcm;
14 int i;
16 assert(V->Vertex->NbRows > 0);
17 dim = V->Vertex->NbColumns-2;
19 value_init(lcm);
21 value_assign(lcm, V->Vertex->p[0][dim+1]);
22 for (i = 1; i < V->Vertex->NbRows; ++i)
23 value_lcm(lcm, V->Vertex->p[i][dim+1], lcm);
25 for (i = 0; i < V->Vertex->NbRows; ++i) {
26 if (value_eq(V->Vertex->p[i][dim+1], lcm))
27 continue;
28 value_division(V->Vertex->p[i][dim+1], lcm, V->Vertex->p[i][dim+1]);
29 Vector_Scale(V->Vertex->p[i], V->Vertex->p[i],
30 V->Vertex->p[i][dim+1], dim+1);
31 value_assign(V->Vertex->p[i][dim+1], lcm);
34 value_clear(lcm);
37 /* Plug in the parametric vertex Vertex (nvar x (nparam + 2))
38 * in the constraint constraint (1 + nvar + nparam + 1).
39 * The result is stored in row (1 + nparam + 1),
40 * with the denominator in position 0.
42 void Param_Inner_Product(Value *constraint, Matrix *Vertex, Value *row)
44 unsigned nparam = Vertex->NbColumns - 2;
45 unsigned nvar = Vertex->NbRows;
46 int j;
47 Value tmp, tmp2;
49 value_set_si(row[0], 1);
50 Vector_Set(row+1, 0, nparam+1);
52 value_init(tmp);
53 value_init(tmp2);
55 for (j = 0 ; j < nvar; ++j) {
56 value_set_si(tmp, 1);
57 value_assign(tmp2, constraint[1+j]);
58 if (value_ne(row[0], Vertex->p[j][nparam+1])) {
59 value_assign(tmp, row[0]);
60 value_lcm(row[0], row[0], Vertex->p[j][nparam+1]);
61 value_division(tmp, row[0], tmp);
62 value_multiply(tmp2, tmp2, row[0]);
63 value_division(tmp2, tmp2, Vertex->p[j][nparam+1]);
65 Vector_Combine(row+1, Vertex->p[j], row+1, tmp, tmp2, nparam+1);
67 value_set_si(tmp, 1);
68 Vector_Combine(row+1, constraint+1+nvar, row+1, tmp, row[0], nparam+1);
70 value_clear(tmp);
71 value_clear(tmp2);
74 static Param_Polyhedron *PL_P2PP(Polyhedron *Din, Polyhedron *Cin,
75 struct barvinok_options *options)
77 unsigned MaxRays = options->MaxRays;
78 if (MaxRays & (POL_NO_DUAL | POL_INTEGER))
79 MaxRays = 0;
80 return Polyhedron2Param_Domain(Din, Cin, MaxRays);
83 /* Compute a dummy Param_Domain that contains all vertices of Param_Domain D
84 * (which contains the vertices of P) that lie on the facet obtained by
85 * saturating constraint c of P
87 Param_Domain *Param_Polyhedron_Facet(Param_Polyhedron *PP, Param_Domain *D,
88 Value *constraint)
90 int nv;
91 Param_Vertices *V;
92 unsigned nparam = PP->V->Vertex->NbColumns-2;
93 Vector *row = Vector_Alloc(1+nparam+1);
94 Param_Domain *FD = ALLOC(Param_Domain);
95 FD->Domain = 0;
96 FD->next = 0;
98 nv = (PP->nbV - 1)/(8*sizeof(int)) + 1;
99 FD->F = ALLOCN(unsigned, nv);
100 memset(FD->F, 0, nv * sizeof(unsigned));
102 FORALL_PVertex_in_ParamPolyhedron(V, D, PP) /* _i, _ix, _bx internal counters */
103 int n;
104 Param_Inner_Product(constraint, V->Vertex, row->p);
105 if (First_Non_Zero(row->p+1, nparam+1) == -1)
106 FD->F[_ix] |= _bx;
107 END_FORALL_PVertex_in_ParamPolyhedron;
109 Vector_Free(row);
111 return FD;
114 #ifndef POINTS2TRIANGS_PATH
115 Param_Polyhedron *TC_P2PP(Polyhedron *P, Polyhedron *C,
116 struct barvinok_options *options)
118 return NULL;
120 #endif
122 Param_Polyhedron *Polyhedron2Param_Polyhedron(Polyhedron *P, Polyhedron *C,
123 struct barvinok_options *options)
125 switch(options->chambers) {
126 case BV_CHAMBERS_POLYLIB:
127 return PL_P2PP(P, C, options);
128 break;
129 case BV_CHAMBERS_TOPCOM:
130 return TC_P2PP(P, C, options);
131 break;
132 default:
133 assert(0);
137 #define INT_BITS (sizeof(unsigned) * 8)
139 /* Wegner's method for counting the number of ones in a bit vector */
140 int bit_vector_count(unsigned *F, int F_len)
142 int i;
143 int count = 0;
145 for (i = 0; i < F_len; ++i) {
146 unsigned v = F[i];
147 while (v) {
148 v &= v-1;
149 ++count;
152 return count;
155 void Param_Vertex_Set_Facets(Param_Polyhedron *PP, Param_Vertices *V)
157 if (!V->Facets) {
158 unsigned nparam = V->Vertex->NbColumns - 2;
159 int len = (PP->Constraints->NbRows+INT_BITS-1)/INT_BITS;
160 int i, ix;
161 unsigned bx;
162 Vector *row = Vector_Alloc(1 + nparam + 1);
164 V->Facets = (unsigned *)calloc(len, sizeof(unsigned));
165 for (i = 0, ix = 0, bx = MSB; i < PP->Constraints->NbRows; ++i) {
166 Param_Inner_Product(PP->Constraints->p[i], V->Vertex, row->p);
167 if (First_Non_Zero(row->p+1, nparam+1) == -1)
168 V->Facets[ix] |= bx;
169 NEXT(ix, bx);
171 Vector_Free(row);
175 Polyhedron *Param_Vertex_Cone(Param_Polyhedron *PP, Param_Vertices *V,
176 struct barvinok_options *options)
178 int i, j, ix;
179 unsigned bx;
180 int len = (PP->Constraints->NbRows+INT_BITS-1)/INT_BITS;
181 int n;
182 Matrix *M;
183 Polyhedron *C;
184 unsigned nvar = V->Vertex->NbRows;
185 unsigned nparam = V->Vertex->NbColumns - 2;
187 if (!V->Facets)
188 Param_Vertex_Set_Facets(PP, V);
189 n = bit_vector_count(V->Facets, len);
191 M = Matrix_Alloc(n, 1+nvar+1);
192 assert(M);
193 for (i = 0, j = 0, ix = 0, bx = MSB; i < PP->Constraints->NbRows; ++i) {
194 if (V->Facets[ix] & bx)
195 Vector_Copy(PP->Constraints->p[i], M->p[j++], 1+nvar);
196 NEXT(ix, bx);
198 C = Constraints2Polyhedron(M, options->MaxRays);
199 assert(C);
200 Matrix_Free(M);
201 return C;
204 /* Compute activity domain of a parametric vertex. */
205 void Param_Vertex_Domain(Param_Vertices *V, Polyhedron *P)
207 int i;
208 unsigned nparam = V->Vertex->NbColumns-2;
210 if (V->Domain)
211 return;
213 V->Domain = Matrix_Alloc(P->NbConstraints, 1+nparam+1);
214 for (i = 0; i < P->NbConstraints; ++i) {
215 Param_Inner_Product(P->Constraint[i], V->Vertex, V->Domain->p[i]);
216 value_assign(V->Domain->p[i][0], P->Constraint[i][0]);