test: initialize nbMat
[barvinok.git] / dpoly.cc
blob010a1e81ef71fcb47c16acb0f728be73b131c293
1 #include <iostream>
2 #include <vector>
3 #include "dpoly.h"
5 using std::cerr;
6 using std::endl;
7 using std::vector;
9 /* Construct truncated expansion of (1+t)^(degree),
10 * computing the first 1+d coefficients
12 dpoly::dpoly(int d, ZZ& degree, int offset)
14 coeff.SetLength(d+1);
16 /* For small degrees, we only need to compute some coefficients */
17 int min = d + offset;
18 if (degree >= 0 && degree < ZZ(INIT_VAL, min))
19 min = to_int(degree);
21 ZZ c = ZZ(INIT_VAL, 1);
22 if (!offset)
23 coeff[0] = c;
24 for (int i = 1; i <= min; ++i) {
25 c *= (degree -i + 1);
26 c /= i;
27 coeff[i-offset] = c;
31 void dpoly::operator += (const dpoly& t)
33 assert(coeff.length() == t.coeff.length());
34 for (int i = 0; i < coeff.length(); ++i)
35 coeff[i] += t.coeff[i];
38 void dpoly::operator *= (const ZZ& f)
40 for (int i = 0; i < coeff.length(); ++i)
41 coeff[i] *= f;
44 void dpoly::operator *= (dpoly& f)
46 assert(coeff.length() == f.coeff.length());
47 vec_ZZ old = coeff;
48 coeff = f.coeff[0] * coeff;
49 for (int i = 1; i < coeff.length(); ++i)
50 for (int j = 0; i+j < coeff.length(); ++j)
51 coeff[i+j] += f.coeff[i] * old[j];
54 mpq_t *dpoly::div(dpoly& d) const
56 int len = coeff.length();
57 Value tmp;
58 value_init(tmp);
59 mpq_t* c = new mpq_t[coeff.length()];
60 mpq_t qtmp;
61 mpq_init(qtmp);
62 for (int i = 0; i < len; ++i) {
63 mpq_init(c[i]);
64 zz2value(coeff[i], tmp);
65 mpq_set_z(c[i], tmp);
67 for (int j = 1; j <= i; ++j) {
68 zz2value(d.coeff[j], tmp);
69 mpq_set_z(qtmp, tmp);
70 mpq_mul(qtmp, qtmp, c[i-j]);
71 mpq_sub(c[i], c[i], qtmp);
74 zz2value(d.coeff[0], tmp);
75 mpq_set_z(qtmp, tmp);
76 mpq_div(c[i], c[i], qtmp);
78 value_clear(tmp);
79 mpq_clear(qtmp);
81 return c;
84 void dpoly::clear_div(mpq_t *c) const
86 int len = coeff.length();
88 for (int i = 0; i < len; ++i)
89 mpq_clear(c[i]);
90 delete [] c;
93 void dpoly::div(dpoly& d, mpq_t count, ZZ& sign)
95 int len = coeff.length();
96 mpq_t *c = div(d);
98 if (sign == -1)
99 mpq_sub(count, count, c[len-1]);
100 else
101 mpq_add(count, count, c[len-1]);
103 clear_div(c);
106 void dpoly::div(dpoly& d, mpq_t *count, const mpq_t& factor)
108 int len = coeff.length();
109 mpq_t *c = div(d);
111 for (int i = 0; i < len; ++i) {
112 mpq_mul(c[len-1 - i], c[len-1 - i], factor);
113 mpq_add(count[i], count[i], c[len-1 - i]);
116 clear_div(c);
119 void dpoly_r::add_term(int i, const vector<int>& powers, const ZZ& coeff)
121 if (coeff == 0)
122 return;
124 dpoly_r_term tmp;
125 tmp.powers = powers;
126 dpoly_r_term_list::iterator k = c[i].find(&tmp);
127 if (k != c[i].end()) {
128 (*k)->coeff += coeff;
129 return;
131 dpoly_r_term *t = new dpoly_r_term;
132 t->powers = powers;
133 t->coeff = coeff;
134 c[i].insert(t);
137 dpoly_r::dpoly_r(int len, int dim)
139 denom = 1;
140 this->len = len;
141 this->dim = dim;
142 c = new dpoly_r_term_list[len];
145 dpoly_r::dpoly_r(dpoly& num, int dim)
147 denom = 1;
148 len = num.coeff.length();
149 c = new dpoly_r_term_list[len];
150 this->dim = dim;
151 vector<int> powers(dim, 0);
153 for (int i = 0; i < len; ++i) {
154 ZZ coeff = num.coeff[i];
155 add_term(i, powers, coeff);
159 dpoly_r::dpoly_r(dpoly& num, dpoly& den, int pos, int dim)
161 denom = 1;
162 len = num.coeff.length();
163 c = new dpoly_r_term_list[len];
164 this->dim = dim;
165 int powers[dim];
166 ZZ coeff;
168 for (int i = 0; i < len; ++i) {
169 vector<int> powers(dim, 0);
170 powers[pos] = 1;
172 add_term(i, powers, num.coeff[i]);
174 for (int j = 1; j <= i; ++j) {
175 dpoly_r_term_list::iterator k;
176 for (k = c[i-j].begin(); k != c[i-j].end(); ++k) {
177 powers = (*k)->powers;
178 powers[pos]++;
179 negate(coeff, den.coeff[j-1]);
180 coeff *= (*k)->coeff;
181 add_term(i, powers, coeff);
185 //dump();
188 dpoly_r::dpoly_r(const dpoly_r* num, dpoly& den, int pos, int dim)
190 denom = num->denom;
191 len = num->len;
192 c = new dpoly_r_term_list[len];
193 this->dim = dim;
194 ZZ coeff;
196 for (int i = 0 ; i < len; ++i) {
197 dpoly_r_term_list::iterator k;
198 for (k = num->c[i].begin(); k != num->c[i].end(); ++k) {
199 vector<int> powers = (*k)->powers;
200 powers[pos]++;
201 add_term(i, powers, (*k)->coeff);
204 for (int j = 1; j <= i; ++j) {
205 dpoly_r_term_list::iterator k;
206 for (k = c[i-j].begin(); k != c[i-j].end(); ++k) {
207 vector<int> powers = (*k)->powers;
208 powers[pos]++;
209 negate(coeff, den.coeff[j-1]);
210 coeff *= (*k)->coeff;
211 add_term(i, powers, coeff);
217 dpoly_r::~dpoly_r()
219 for (int i = 0 ; i < len; ++i)
220 for (dpoly_r_term_list::iterator k = c[i].begin(); k != c[i].end(); ++k) {
221 delete (*k);
223 delete [] c;
226 dpoly_r *dpoly_r::div(const dpoly& d) const
228 dpoly_r *rc = new dpoly_r(len, dim);
229 rc->denom = power(d.coeff[0], len);
230 ZZ inv_d = rc->denom / d.coeff[0];
231 ZZ coeff;
233 for (int i = 0; i < len; ++i) {
234 for (dpoly_r_term_list::iterator k = c[i].begin(); k != c[i].end(); ++k) {
235 coeff = (*k)->coeff * inv_d;
236 rc->add_term(i, (*k)->powers, coeff);
239 for (int j = 1; j <= i; ++j) {
240 dpoly_r_term_list::iterator k;
241 for (k = rc->c[i-j].begin(); k != rc->c[i-j].end(); ++k) {
242 coeff = - d.coeff[j] * (*k)->coeff / d.coeff[0];
243 rc->add_term(i, (*k)->powers, coeff);
247 return rc;
250 void dpoly_r::dump(void)
252 for (int i = 0; i < len; ++i) {
253 cerr << endl;
254 cerr << i << endl;
255 cerr << c[i].size() << endl;
256 for (dpoly_r_term_list::iterator j = c[i].begin(); j != c[i].end(); ++j) {
257 for (int k = 0; k < dim; ++k) {
258 cerr << (*j)->powers[k] << " ";
260 cerr << ": " << (*j)->coeff << "/" << denom << endl;
262 cerr << endl;