test: initialize nbMat
[barvinok.git] / reducer.h
blob3329c779ce4ba40a416bae7455c652b8e9394629
1 #ifndef REDUCER_H
2 #define REDUCER_H
4 #include <NTL/mat_ZZ.h>
5 #include <barvinok/NTL_QQ.h>
6 #include <barvinok/options.h>
7 #include "decomposer.h"
8 #include "dpoly.h"
10 #ifdef NTL_STD_CXX
11 using namespace NTL;
12 #endif
14 struct gen_fun;
16 extern struct OrthogonalException {} Orthogonal;
18 /* base for non-parametric counting */
19 struct np_base : public signed_cone_consumer {
20 unsigned dim;
21 ZZ one;
23 np_base(unsigned dim) {
24 this->dim = dim;
25 one = 1;
28 virtual void handle(const mat_ZZ& rays, Value *vertex, const QQ& c,
29 unsigned long det, int *closed,
30 barvinok_options *options) = 0;
31 virtual void handle(const signed_cone& sc, barvinok_options *options);
32 virtual void start(Polyhedron *P, barvinok_options *options);
33 void do_vertex_cone(const QQ& factor, Polyhedron *Cone,
34 Value *vertex, barvinok_options *options) {
35 current_vertex = vertex;
36 this->factor = factor;
37 barvinok_decompose(Cone, *this, options);
39 virtual void init(Polyhedron *P) {
41 virtual void reset() {
42 assert(0);
44 virtual void get_count(Value *result) {
45 assert(0);
47 virtual ~np_base() {
50 private:
51 QQ factor;
52 Value *current_vertex;
55 struct reducer : public np_base {
56 mat_ZZ vertex;
57 //vec_ZZ den;
58 ZZ num;
59 mpq_t tcount;
60 mpz_t tn;
61 mpz_t td;
62 int lower; // call base when only this many variables is left
64 reducer(unsigned dim) : np_base(dim) {
65 vertex.SetDims(1, dim);
66 //den.SetLength(dim);
67 mpq_init(tcount);
68 mpz_init(tn);
69 mpz_init(td);
72 ~reducer() {
73 mpq_clear(tcount);
74 mpz_clear(tn);
75 mpz_clear(td);
78 virtual void handle(const mat_ZZ& rays, Value *vertex, const QQ& c,
79 unsigned long det, int *closed, barvinok_options *options);
80 void reduce(const vec_QQ& c, const mat_ZZ& num, const mat_ZZ& den_f);
81 virtual void base(const QQ& c, const vec_ZZ& num, const mat_ZZ& den_f) = 0;
82 virtual void base(const vec_QQ& c, const mat_ZZ& num, const mat_ZZ& den_f);
83 virtual void split(const mat_ZZ& num, vec_ZZ& num_s, mat_ZZ& num_p,
84 const mat_ZZ& den_f, vec_ZZ& den_s, mat_ZZ& den_r) = 0;
85 virtual gen_fun *get_gf() {
86 assert(0);
87 return NULL;
91 void split_one(const mat_ZZ& num, vec_ZZ& num_s, mat_ZZ& num_p,
92 const mat_ZZ& den_f, vec_ZZ& den_s, mat_ZZ& den_r);
94 struct ireducer : public reducer {
95 ireducer(unsigned dim) : reducer(dim) {}
97 virtual void split(const mat_ZZ& num, vec_ZZ& num_s, mat_ZZ& num_p,
98 const mat_ZZ& den_f, vec_ZZ& den_s, mat_ZZ& den_r) {
99 split_one(num, num_s, num_p, den_f, den_s, den_r);
103 void normalize(ZZ& sign, vec_ZZ& num_s, mat_ZZ& num_p, vec_ZZ& den_s, vec_ZZ& den_p,
104 mat_ZZ& f);
106 // incremental counter
107 struct icounter : public ireducer {
108 mpq_t count;
110 icounter(unsigned dim) : ireducer(dim) {
111 mpq_init(count);
112 lower = 1;
114 ~icounter() {
115 mpq_clear(count);
117 virtual void base(const QQ& c, const vec_ZZ& num, const mat_ZZ& den_f);
118 virtual void get_count(Value *result) {
119 assert(value_one_p(&count[0]._mp_den));
120 value_assign(*result, &count[0]._mp_num);
124 void normalize(ZZ& sign, ZZ& num, vec_ZZ& den);
126 /* An incremental counter for possibly infinite sets.
127 * Rather than just keeping track of the constant term
128 * of the Laurent expansions, we also keep track of the
129 * coefficients of negative powers.
130 * If any of these is non-zero, then the counted set is infinite.
132 struct infinite_icounter : public ireducer {
133 /* an array of coefficients; count[i] is the coeffient of
134 * the term with power -i.
136 mpq_t *count;
137 unsigned len;
139 infinite_icounter(unsigned dim, unsigned maxlen) : ireducer(dim), len(maxlen+1) {
140 /* Not sure whether it works for dim != 1 */
141 assert(dim == 1);
142 count = new mpq_t[len];
143 for (int i = 0; i < len; ++i)
144 mpq_init(count[i]);
145 lower = 1;
147 ~infinite_icounter() {
148 for (int i = 0; i < len; ++i)
149 mpq_clear(count[i]);
150 delete [] count;
152 virtual void base(const QQ& c, const vec_ZZ& num, const mat_ZZ& den_f);
155 #endif