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evalue.c: add evalue_floor2frac
[barvinok.git] / omega / convert.cc
blob2c9aed13fcbf84aaac22c8e174f845d41583e732
1 #include "omega/convert.h"
2
3 static void max_index(Constraint_Handle c, varvector& vv, varvector& params)
4 {
5 for (Constr_Vars_Iter cvi(c); cvi; ++cvi) {
6 Variable_ID var = (*cvi).var;
7 if (find(vv.begin(), vv.end(), var) == vv.end() &&
8 find(params.begin(), params.end(), var) == params.end())
9 vv.push_back(var);
10 }
11 }
12
13 static void set_constraint(Matrix *M, int row,
14 Constraint_Handle c, varvector& vv, int geq)
15 {
16 value_set_si(M->p[row][0], geq);
17 for (int i = 0; i < vv.size(); ++i)
18 value_set_si(M->p[row][1+i], c.get_coef(vv[i]));
19 value_set_si(M->p[row][1+vv.size()], c.get_const());
20 }
21
22 Polyhedron *relation2Domain(Relation& r, varvector& vv, varvector& params,
23 unsigned MaxRays)
24 {
25 unsigned dim;
26 unsigned max_size;
27 Polyhedron *D = NULL;
28 Polyhedron **next = &D;
29
30 r.simplify();
31
32 if (r.is_set())
33 for (int j = 1; j <= r.n_set(); ++j)
34 vv.push_back(r.set_var(j));
35 else {
36 for (int j = 1; j <= r.n_inp(); ++j)
37 vv.push_back(r.input_var(j));
38 for (int j = 1; j <= r.n_out(); ++j)
39 vv.push_back(r.output_var(j));
40 }
41 dim = vv.size();
42
43 const Variable_ID_Tuple * globals = r.global_decls();
44 for (int i = 0; i < globals->size(); ++i)
45 params.push_back(r.get_local((*globals)[i+1]));
46
47 max_size = dim;
48 for (DNF_Iterator di(r.query_DNF()); di; ++di) {
49 vv.resize(dim);
50 for (EQ_Iterator ei = (*di)->EQs(); ei; ++ei)
51 max_index((*ei), vv, params);
52 for (GEQ_Iterator gi = (*di)->GEQs(); gi; ++gi)
53 max_index((*gi), vv, params);
54 if (vv.size() > max_size)
55 max_size = vv.size();
56 }
57
58 for (DNF_Iterator di(r.query_DNF()); di; ++di) {
59 int c = 0;
60
61 vv.resize(dim);
62
63 for (EQ_Iterator ei = (*di)->EQs(); ei; ++ei, ++c)
64 max_index((*ei), vv, params);
65 for (GEQ_Iterator gi = (*di)->GEQs(); gi; ++gi, ++c)
66 max_index((*gi), vv, params);
67 for (int i = 0; i < params.size(); ++i)
68 vv.push_back(params[i]);
69
70 Matrix *M = Matrix_Alloc(c, vv.size() + 2);
71 int row = 0;
72 for (EQ_Iterator ei = (*di)->EQs(); ei; ++ei)
73 set_constraint(M, row++, (*ei), vv, 0);
74 for (GEQ_Iterator gi = (*di)->GEQs(); gi; ++gi)
75 set_constraint(M, row++, (*gi), vv, 1);
76 *next = Constraints2Polyhedron(M, MaxRays);
77 Matrix_Free(M);
78 next = &(*next)->next;
79 }
80 vv.resize(dim);
81 return D;
82 }
83
84 typedef std::vector<Global_Var_Decl *> globalvector;
85
86 static void create_globals(globalvector& globals, unsigned nparam,
87 char **params)
88 {
89 for (int i = 0; i < nparam; ++i)
90 globals.push_back(new Global_Var_Decl(params[i]));
91 }
92
93 Relation Polyhedron2relation(Polyhedron *P,
94 unsigned exist, globalvector& globals)
95 {
96 int nvar = P->Dimension - exist - globals.size();
97 Relation r(nvar);
98 varvector vars;
99
100 F_Exists *e = r.add_exists();
101 F_And *base = e->add_and();
102
103 for (int j = 1; j <= r.n_set(); ++j)
104 vars.push_back(r.set_var(j));
105 for (int i = 0; i < exist; ++i)
106 vars.push_back(e->declare());
107 for (int i = 0; i < globals.size(); ++i)
108 vars.push_back(r.get_local(globals[i]));
109
110 for (int i = 0; i < P->NbConstraints; ++i) {
111 Constraint_Handle h;
112 if (value_notzero_p(P->Constraint[i][0]))
113 h = base->add_GEQ();
114 else
115 h = base->add_EQ();
116 for (int j = 1; j <= P->Dimension; ++j)
117 h.update_coef(vars[j-1], VALUE_TO_INT(P->Constraint[i][j]));
118 h.update_const(VALUE_TO_INT(P->Constraint[i][1+P->Dimension]));
119 }
120 r.finalize();
121 return r;
122 }
123
124 Relation Polyhedron2relation(Polyhedron *P,
125 unsigned exist, unsigned nparam, char **params)
126 {
127 globalvector globals;
128 create_globals(globals, nparam, params);
129 return Polyhedron2relation(P, exist, globals);
130 }
131
132 Relation Domain2relation(Polyhedron *D, unsigned nvar, unsigned nparam,
133 char **params)
134 {
135 globalvector globals;
136 create_globals(globals, nparam, params);
137
138 Relation r = Polyhedron2relation(D, D->Dimension - nvar - nparam,
139 globals);
140 for (Polyhedron *P = D->next; P; P = P->next) {
141 Relation s = Polyhedron2relation(P, P->Dimension - nvar - nparam,
142 globals);
143 r = Union(r, s);
144 }
145 return r;
146 }
147
148 void dump(Relation& r)
149 {
150 varvector vv;
151 varvector params;
152 struct barvinok_options *options = barvinok_options_new_with_defaults();
153 Polyhedron *D = relation2Domain(r, vv, params, options->MaxRays);
154 unsigned dim = r.is_set() ? r.n_set() : r.n_inp() + r.n_out();
155
156 if (D->next) {
157 fprintf(stderr, "Unions not supported\n");
158 } else {
159 unsigned exist = D->Dimension - params.size() - dim;
160 Polyhedron_PrintConstraints(stdout, P_VALUE_FMT, D);
161 fprintf(stdout, "\nE %d\nP %d\n\n", exist, params.size());
162 for (int i = 0; i < params.size(); ++i)
163 fprintf(stdout, "%s ", params[i]->char_name());
164 fprintf(stdout, "\n");
165 }
166
167 Domain_Free(D);
168 barvinok_options_free(options);
169 }
lattice point enumeration library