The bug with polynomial division was fixed.
This commit is contained in:
parent
e9bac2e0e2
commit
b153876f41
2
Makefile
2
Makefile
@ -12,7 +12,7 @@ INCLUDES = -I. -I/opt/local/include
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# OPTFLAGS = -g
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OPTFLAGS = -O2 -g
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# OPTFLAGS = -O2 -g -DNDEBUG
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# OPTFLAGS = -O2 -DNDEBUG
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LDFLAGS = -L/opt/local/lib
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@ -365,7 +365,7 @@ class multivariate_laurentpoly
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void check () const;
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#endif
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multivariate_laurentpoly evaluate(T val, unsigned index) const;
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multivariate_laurentpoly& evaluate(T val, unsigned index);
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static void show_ring ()
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{
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@ -515,15 +515,6 @@ std::ostream& operator << (std::ostream& os, const multivariate_laurentpoly<T>&
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return os << pol.to_string();
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}
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template<class T, class U>
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multivariate_laurentpoly<T> reduce(const multivariate_laurentpoly<U>& pol) {
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multivariate_laurentpoly<T> res;
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for(typename map<unsigned, U>::const_iter i = pol.coeffs; i; i++) {
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res += multivariate_laurentpoly<T>(i.val(), i.key());
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}
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return res;
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}
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// functions below were added to verify several periodicity criteria
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// function below inverts every occurence of a variable x_index
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@ -550,22 +541,34 @@ multivariate_laurentpoly<T> invert_variable(const multivariate_laurentpoly<T>& p
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template<class T>
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multivariate_laurentpoly<T>
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multivariate_laurentpoly<T>::evaluate(T val, unsigned index) const {
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evaluate_with_copy(multivariate_laurentpoly<T> pol,
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T val, unsigned index) {
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using polynomial = multivariate_laurentpoly<T>;
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using monomial = multivariate_laurent_monomial;
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polynomial res;
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for(typename map<monomial, T>::const_iter i = coeffs; i; i++) {
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for(typename map<monomial, T>::const_iter i = pol.coeffs; i; ++i) {
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if(i.key().m % index) {
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int exp = i.key().m[index];
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monomial mon = i.key();
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mon.m.yank(index);
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polynomial temp = polynomial(i.val() * pow(val, exp), mon);
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res += temp;
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monomial mon;
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for(map<unsigned, int>::const_iter j = i.key().m; j; ++j) {
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if(j.key() != index)
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mon *= monomial(VARIABLE, j.key(), j.val());
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}
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res += polynomial(i.val() * pow(val, exp), mon);
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}
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else {
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monomial mon(COPY, i.key());
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res += polynomial(i.val(), mon);
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}
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else
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res += polynomial(i.val(), i.key());
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}
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return res;
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}
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template<class T>
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multivariate_laurentpoly<T>&
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multivariate_laurentpoly<T>::evaluate(T val, unsigned index) {
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*this = evaluate_with_copy<T>(*this, val, index);
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return *this;
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}
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#endif // _KNOTKIT_ALGEBRA_MULTIVARIATE_LAURENPOLY_H
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63
kk.cpp
63
kk.cpp
@ -3,6 +3,7 @@
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#include <fstream>
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#include <vector>
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#include <utility>
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#include <cctype>
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const char *program_name;
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@ -330,15 +331,65 @@ int compute_s_inv(knot_diagram& kd) {
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void check_periodicity(std::string out_file) {
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if(periodicity_test == "all") {
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Kh_periodicity_checker Kh_pc(kd);
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Przytycki_periodicity_checker P_pc(Kh_pc.get_KhP().evaluate(-1, eval_index));
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Kh_periodicity_checker Kh_pc(kd, std::string(knot));
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for(auto& p : primes_list) {
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std::cout << "Przytycki's criterion: "
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<< P_pc(p) << std::endl
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<< "Kh criterion: "
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std::cout << "Kh criterion: "
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<< Kh_pc(p) << std::endl;
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}
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}
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else if(periodicity_test == "all_seq") {
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std::string k(knot);
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// first check whether the number of crossings is bigger or lower than 10
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if(isdigit(k[1])) {
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// at least 10 crossings
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if(k[1] == '0') {
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// ten crossings
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int num_cr = 10;
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int knot_index = stoi(k.substr(3));
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for(int i = knot_index; i < rolfsen_crossing_knots(num_cr); i++) {
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std::string knot_name = std::to_string(num_cr) + "_" + std::to_string(i);
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knot_diagram kd_temp = parse_knot(knot_name.c_str());
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kd.marked_edge = 1;
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Kh_periodicity_checker Kh_pc(kd_temp, knot_name);
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for(auto& p : primes_list) {
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std::cout << "Kh criterion: "
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<< Kh_pc(p) << std::endl;
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}
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}
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}
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else {
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int num_cr = stoi(k.substr(0,2));
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int knot_index = stoi(k.substr(3));
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char alt = k[2];
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bool alternating = (alt == 'a' ? true : false);
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for(int i = knot_index; i <= htw_knots(num_cr, alternating); i++) {
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std::string knot_name = std::to_string(num_cr) + alt + std::to_string(i);
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knot_diagram kd_temp = parse_knot(knot_name.c_str());
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kd.marked_edge = 1;
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Kh_periodicity_checker Kh_pc(kd_temp, knot_name);
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for(auto& p : primes_list) {
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std::cout << "Kh criterion: "
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<< Kh_pc(p) << std::endl;
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}
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}
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}
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}
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else {
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// at most nine crossings
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int num_cr = stoi(k.substr(0, 1));
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int knot_index = stoi(k.substr(2));
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for(int i = knot_index; i <= rolfsen_crossing_knots(num_cr); i++) {
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std::string knot_name = std::to_string(num_cr) + "_" + std::to_string(i);
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knot_diagram kd_temp = parse_knot(knot_name.c_str());
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kd.marked_edge = 1;
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Kh_periodicity_checker Kh_pc(kd_temp, knot_name);
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for(auto& p : primes_list) {
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std::cout << "Kh criterion: "
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<< Kh_pc(p) << std::endl;
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}
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}
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}
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}
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else {
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if(period == 2 || period == 3) {
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std::cout << "Sorry, the criteria don't work for period "
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@ -360,7 +411,7 @@ void check_periodicity(std::string out_file) {
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std::cout << P_pc(period) << std::endl;
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}
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else if(periodicity_test == "Kh") {
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Kh_periodicity_checker Kh_pc(kd);
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Kh_periodicity_checker Kh_pc(kd, std::string(knot));
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if(out_file.size() != 0)
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out << Kh_pc(period) << std::endl;
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else
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241
periodicity.cpp
241
periodicity.cpp
@ -28,6 +28,7 @@ bool Przytycki_periodicity_checker::check(int period) const {
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return pcc(jones_pol);
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}
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}
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return false;
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}
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std::string Przytycki_periodicity_checker::operator () (int period) const {
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@ -37,114 +38,6 @@ std::string Przytycki_periodicity_checker::operator () (int period) const {
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return res.str();
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}
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template<class T>
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polynomial_iterator<T>::polynomial_iterator(const multivariate_laurentpoly<T>& pol,
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start_pos sp) {
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for(typename map<monomial, T>::const_iter i = pol.coeffs; i; ++i) {
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monomials.push_back(i.key());
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bounds.push_back(i.val());
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current_pos.push_back(Z(0));
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}
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if(sp == start_pos::begin) {
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level = 0;
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}
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else {
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level = bounds.size();
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}
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#ifndef NDEBUG
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check_current_pos();
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#endif
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}
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#ifndef NDEBUG
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template<class T>
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void polynomial_iterator<T>::check_current_pos() {
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assert(bounds.size() == monomials.size());
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assert(bounds.size() == current_pos.size());
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assert(level <= current_pos.size());
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for(unsigned i = 0; i < current_pos.size(); i++) {
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if(i < level) {
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assert((current_pos[i] <= bounds[i]) &&
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Z(0) <= (current_pos[i]));
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}
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else if(i == level) {
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if(level > 0)
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assert(current_pos[i] <= bounds[i] && Z(0) < current_pos[i]);
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else
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assert((current_pos[i] <= bounds[i]) && Z(0) <= (current_pos[i]));
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}
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else
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assert(current_pos[i] == Z(0));
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}
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}
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#endif // NDEBUG
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template<class T>
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polynomial_iterator<T>&
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polynomial_iterator<T>::operator ++ () {
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#ifndef NDEBUG
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check_current_pos();
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#endif
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if(level == monomials.size())
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return *this;
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unsigned i = 0;
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while(i <= level) {
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#ifndef NDEBUG
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check_current_pos();
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#endif
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if(current_pos[i] < bounds[i]) {
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current_pos[i] += 1;
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break;
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}
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else {
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if(i == level) {
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if(level < monomials.size() - 1) {
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current_pos[i] = 0;
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current_pos[i+1] += 1;
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level++;
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break;
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}
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else {
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level++;
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break;
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}
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}
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else {
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current_pos[i] = 0;
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}
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}
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i++;
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}
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return *this;
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}
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template<class T>
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multivariate_laurentpoly<T> polynomial_iterator<T>::operator *() const {
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polynomial res;
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for(unsigned i = 0; i <= level; i++) {
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res += polynomial(current_pos[i], monomials[i]);
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}
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return res;
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}
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template<class T>
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std::string polynomial_iterator<T>::write_self() const {
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std::ostringstream res;
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res << "level = " << level << std::endl
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<< "monomials:" << std::endl;
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for(auto& mon : monomials)
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res << mon << std::endl;
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res << "bounds: " << std::endl;
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for(auto& b : bounds)
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res << b << std::endl;
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res << "current_pos: " << std::endl;
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for(auto& pos : current_pos)
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res << pos << std::endl;
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return res.str();
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}
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void Kh_periodicity_checker::compute_knot_polynomials(knot_diagram& kd) {
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unsigned m = kd.num_components ();
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@ -241,49 +134,123 @@ Kh_periodicity_checker::compute_quotient_and_remainder(const polynomial& quot,
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return std::make_pair(quotient, remainder);
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}
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std::map<multivariate_laurentpoly<Z>, std::pair<Z,Z>>
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Kh_periodicity_checker::compute_bounds(const polynomial& p, int period) const {
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std::map<polynomial, std::pair<Z, Z>> bounds;
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periodic_congruence_checker<Z> pcc(period);
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for(map<monomial, Z>::const_iter i = p.coeffs; i; ++i) {
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monomial mon;
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int exp = 0;
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if(i.key().m % ev_index) {
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exp = i.key().m[ev_index];
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for(map<unsigned, int>::const_iter j = i.key().m; j; ++j) {
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if(j.key() != ev_index) {
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int v = j.val() % (2 * period);
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if(v < 0) v += (2 * period);
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mon *= monomial(VARIABLE, j.key(), v);
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}
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}
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}
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else {
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for(map<unsigned, int>::const_iter j = i.key().m; j; ++j) {
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int v = j.val() % (2 + period);
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if (v < 0) v += (2 * period);
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mon *= monomial(VARIABLE, j.key(), v);
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}
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}
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// std::cout << polynomial(i.val() * pow(-1, exp), mon) << "\n";
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Z v_temp = i.val() * pow(-1, exp);
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polynomial p_temp = (polynomial(1, mon) * mul).evaluate(-1, ev_index);
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p_temp = pcc.reduce(p_temp - invert_variable(p_temp, index));
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if(v_temp >= 0)
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bounds[p_temp].second += (v_temp * period);
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else
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bounds[p_temp].first += (v_temp * period);
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}
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// for(std::map<polynomial, std::pair<Z,Z>>::iterator mi = bounds.begin(); mi != bounds.end(); ++mi) {
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// std::cout << "Monomial: " << mi->first << "\n";
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// std::cout << "Max: " << std::get<1>(mi->second)
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// << ", Min: " << std::get<0>(mi->second) << "\n";
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// }
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return bounds;
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}
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std::vector<multivariate_laurentpoly<Z>>
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Kh_periodicity_checker::compute_basis_polynomials(int period) const {
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std::vector<polynomial> res;
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periodic_congruence_checker<Z> pcc(period);
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for(int i = 1; i < period; i += 2) {
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res.push_back(pcc.reduce(get_basis_polynomial(i)));
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}
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return res;
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}
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multivariate_laurentpoly<Z> Kh_periodicity_checker::get_basis_polynomial(monomial mon) const {
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return (polynomial(Z(1), mon) * mul).evaluate(-1, ev_index) -
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invert_variable((polynomial(Z(1), mon) * mul).evaluate(-1, ev_index), index);
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}
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bool Kh_periodicity_checker::check(const polynomial& q,
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const polynomial& r,
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int period) const {
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periodic_congruence_checker<Z> pcc(period);
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polynomial t = leep + mul * r;
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if(q == 0) {
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return pcc(t.evaluate(-1,1));
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}
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if(verbose)
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std::cout << "Checking congruences...";
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polynomial_iterator<Z> pi(q);
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polynomial_iterator<Z> pi_end(q, polynomial_iterator<Z>::start_pos::end);
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Z count = pi.get_count();
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if(verbose)
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std::cout << count << " candidates..." << std::endl;
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Z step = 1;
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if(count >= 32)
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step = count / 32;
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Z c = 0;
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while(pi != pi_end) {
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//std::cout << "pi: " << std::endl << pi;
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polynomial temp = t + polynomial(period - 1) * mul * (*pi);
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if(pcc(temp.evaluate(-1,1))) {
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std::cout << "Candidates:" << std::endl
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<< "EKhP_1 = " << temp << std::endl
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<< "EKhP_" << (period - 1) << " = "
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<< (polynomial(period - 1) * mul *(r - *pi))
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<< std::endl;
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polynomial t = (leep + mul * (r - q)).evaluate(-1, ev_index);
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t = pcc.reduce(t - invert_variable(t, index));
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if(pcc(t)) {
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return true;
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}
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++pi;
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c += 1;
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if(verbose && c % step == 0)
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std::cout << c << "/" << count << "..." << std::endl;
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else if(q == 0)
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return false;
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// std::cout << t << std::endl;
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// std::cout << q << "\n";
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std::map<polynomial, std::pair<Z,Z>> bounds = compute_bounds(q, period);
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for(std::map<polynomial, std::pair<Z,Z>>::iterator it = bounds.begin();
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it != bounds.end(); ++it) {
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polynomial mon = it->first;
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}
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std::vector<polynomial> basis_polynomials = compute_basis_polynomials(period);
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polynomial p = pcc.reduce(get_basis_polynomial(2 * period - 1));
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for(Z i = bounds[p].first; i <= bounds[p].second; i += 5) {
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polynomial p_temp = t + polynomial(i, VARIABLE, index, 0) * p;
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// std::cout << "i = " << i << "\n";
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// std::cout << "p_temp = " << p_temp << "\n";
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if(p_temp == 0)
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return true;
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for(std::vector<polynomial>::iterator it = basis_polynomials.begin(); it != basis_polynomials.end(); ++it) {
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pair<monomial, Z> m = p_temp.coeffs.head();
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monomial mon = m.first;
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Z c = m.second;
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polynomial pp = pcc.reduce(get_basis_polynomial(mon));
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if(pp == *it) {
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if(c < bounds[pp].first || c > bounds[pp].second)
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break;
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else {
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// std::cout << "pp = " << pp << "\n";
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p_temp -= polynomial(c, VARIABLE, index, 0) * pp;
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// std::cout << "p_temp = " << p_temp << "\n";
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if(p_temp == 0)
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return true;
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}
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}
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}
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}
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return false;
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}
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std::string Kh_periodicity_checker::operator () (int period) const {
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std::ostringstream out;
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// first check Przytycki's criterion
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Przytycki_periodicity_checker P_pc(evaluate_with_copy<Z>(khp, -1, ev_index));
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if(!P_pc.check(period)) {
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out << knot_name << ": period = " << period << ": No (Przytycki's criterion).";
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}
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else {
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std::pair<polynomial, polynomial> q_r = compute_quotient_and_remainder(quot, period);
|
||||
bool res = check(std::get<0>(q_r), std::get<1>(q_r), period);
|
||||
out << knot << ": period = " << period << ": "
|
||||
out << knot_name << ": period = " << period << ": "
|
||||
<< (res ? "Maybe" : "No");
|
||||
}
|
||||
return out.str();
|
||||
}
|
||||
|
@ -5,6 +5,7 @@
|
||||
#include <sstream>
|
||||
#include <string>
|
||||
#include <vector>
|
||||
#include <utility>
|
||||
|
||||
extern bool verbose;
|
||||
extern const char* knot;
|
||||
@ -30,8 +31,6 @@ protected:
|
||||
return pol - inv;
|
||||
}
|
||||
|
||||
bool reduce(const polynomial& pol) const;
|
||||
|
||||
public:
|
||||
periodic_congruence_checker(int pprime = 5,
|
||||
unsigned ind = invert_index) :
|
||||
@ -41,13 +40,17 @@ public:
|
||||
|
||||
virtual ~periodic_congruence_checker() {};
|
||||
|
||||
const polynomial reduce(const polynomial& pol) const;
|
||||
|
||||
bool operator() (const polynomial& pol) const {
|
||||
return reduce(prepare_polynomial(pol));
|
||||
return reduce(prepare_polynomial(pol)) == 0;
|
||||
// return reduce(prepare_polynomial(pol)) == 0;
|
||||
}
|
||||
};
|
||||
|
||||
template<class T>
|
||||
bool periodic_congruence_checker<T>::reduce(const multivariate_laurentpoly<T>& pol) const {
|
||||
const multivariate_laurentpoly<T>
|
||||
periodic_congruence_checker<T>::reduce(const multivariate_laurentpoly<T>& pol) const {
|
||||
polynomial res;
|
||||
for(typename map<monomial, T>::const_iter i = pol.coeffs; i; i++) {
|
||||
int c = i.key().m[index] % (2 * prime);
|
||||
@ -56,9 +59,7 @@ bool periodic_congruence_checker<T>::reduce(const multivariate_laurentpoly<T>& p
|
||||
monomial mon = monomial(VARIABLE, index, c);
|
||||
res += polynomial(i.val(), mon);
|
||||
}
|
||||
// if(verbose)
|
||||
// std::cout << "reduced = " << res << "\n";
|
||||
return res == 0;
|
||||
return res;
|
||||
}
|
||||
|
||||
class Przytycki_periodicity_checker {
|
||||
@ -67,79 +68,16 @@ class Przytycki_periodicity_checker {
|
||||
|
||||
polynomial jones_pol;
|
||||
|
||||
bool check(int period) const;
|
||||
|
||||
public:
|
||||
Przytycki_periodicity_checker(polynomial j) : jones_pol(j) {}
|
||||
|
||||
~Przytycki_periodicity_checker() {}
|
||||
|
||||
bool check(int period) const;
|
||||
|
||||
std::string operator() (int period) const;
|
||||
};
|
||||
|
||||
template<class T>
|
||||
class polynomial_iterator {
|
||||
using polynomial = multivariate_laurentpoly<T>;
|
||||
using monomial = multivariate_laurent_monomial;
|
||||
|
||||
std::vector<monomial> monomials;
|
||||
std::vector<T> bounds;
|
||||
std::vector<T> current_pos;
|
||||
unsigned level;
|
||||
|
||||
void check_current_pos();
|
||||
|
||||
public:
|
||||
enum class start_pos { begin, end };
|
||||
|
||||
polynomial_iterator(const polynomial& init,
|
||||
start_pos sp = start_pos::begin);
|
||||
polynomial_iterator(const polynomial_iterator& pi) =default;
|
||||
polynomial_iterator(polynomial_iterator&& pi) =default;
|
||||
|
||||
~polynomial_iterator() {}
|
||||
|
||||
polynomial_iterator& operator = (const polynomial_iterator& pi) =default;
|
||||
polynomial_iterator& operator = (polynomial_iterator&& pi) =default;
|
||||
|
||||
polynomial_iterator& operator ++();
|
||||
|
||||
bool operator == (const polynomial_iterator& pi) const {
|
||||
if(level == monomials.size() || pi.level == pi.monomials.size()) {
|
||||
return level == pi.level &&
|
||||
monomials == pi.monomials &&
|
||||
bounds == pi.bounds;
|
||||
}
|
||||
else {
|
||||
return level == pi.level &&
|
||||
bounds == pi.bounds &&
|
||||
monomials == pi.monomials &&
|
||||
current_pos == pi.current_pos;
|
||||
}
|
||||
}
|
||||
bool operator != (const polynomial_iterator& pi) const {
|
||||
return !(*this == pi);
|
||||
}
|
||||
polynomial operator*() const;
|
||||
|
||||
T get_count() const {
|
||||
Z res = 1;
|
||||
for(auto& v : bounds)
|
||||
res *= (v + 1);
|
||||
return res;
|
||||
}
|
||||
|
||||
std::string write_self() const;
|
||||
friend inline std::ostream& operator << (std::ostream& os, const polynomial_iterator& pi) {
|
||||
return os << pi.write_self();
|
||||
}
|
||||
};
|
||||
|
||||
template<class T>
|
||||
std::ostream& operator << (std::ostream& os, const polynomial_iterator<T>& pi) {
|
||||
return os << *pi;
|
||||
}
|
||||
|
||||
class Kh_periodicity_checker {
|
||||
using polynomial = multivariate_laurentpoly<Z>;
|
||||
using monomial = multivariate_laurent_monomial;
|
||||
@ -150,15 +88,25 @@ class Kh_periodicity_checker {
|
||||
polynomial khp, leep, quot;
|
||||
polynomial mul;
|
||||
|
||||
std::string knot_name;
|
||||
|
||||
void compute_knot_polynomials(knot_diagram& kd);
|
||||
void compute_quot();
|
||||
std::pair<polynomial, polynomial> compute_quotient_and_remainder(const polynomial& p,
|
||||
int period) const;
|
||||
// std::list<polynomial> generate_candidates(const polynomial& q) const;
|
||||
std::map<polynomial, std::pair<Z,Z>>
|
||||
compute_bounds(const polynomial& p, int period) const;
|
||||
polynomial get_basis_polynomial(int exp) const {
|
||||
return (polynomial(1, VARIABLE, index, exp) * mul).evaluate(-1, ev_index) -
|
||||
invert_variable((polynomial(1, VARIABLE, index, exp) * mul).evaluate(-1, ev_index), index);
|
||||
}
|
||||
polynomial get_basis_polynomial(monomial mon) const;
|
||||
std::vector<polynomial> compute_basis_polynomials(int period) const;
|
||||
bool check(const polynomial& q, const polynomial& r, int period) const;
|
||||
|
||||
public:
|
||||
Kh_periodicity_checker(knot_diagram& kd) {
|
||||
Kh_periodicity_checker(knot_diagram& kd, std::string knot_n) :
|
||||
knot_name(knot_n) {
|
||||
ev_index = 1;
|
||||
index = 2;
|
||||
mul = polynomial(Z(1))
|
||||
|
Loading…
Reference in New Issue
Block a user