libs/numeric/interval/examples/newton-raphson.cpp
/* Boost example/newton-raphson.cpp * Newton iteration for intervals * * Copyright 2003 Guillaume Melquiond * * Distributed under the Boost Software License, Version 1.0. * (See accompanying file LICENSE_1_0.txt or * copy at http://www.boost.org/LICENSE_1_0.txt) */ #include <boost/numeric/interval.hpp> #include <vector> #include <algorithm> #include <utility> #include <iostream> #include <iomanip> template <class I> I f(const I& x) { return x * (x - 1.) * (x - 2.) * (x - 3.) * (x - 4.); } template <class I> I f_diff(const I& x) { return (((5. * x - 40.) * x + 105.) * x - 100.) * x + 24.; } static const double max_width = 1e-10; static const double alpha = 0.75; using namespace boost; using namespace numeric; using namespace interval_lib; // First method: no empty intervals typedef interval<double> I1_aux; typedef unprotect<I1_aux>::type I1; std::vector<I1> newton_raphson(const I1& xs) { std::vector<I1> l, res; I1 vf, vd, x, x1, x2; l.push_back(xs); while (!l.empty()) { x = l.back(); l.pop_back(); bool x2_used; double xx = median(x); vf = f<I1>(xx); vd = f_diff<I1>(x); if (zero_in(vf) && zero_in(vd)) { x1 = I1::whole(); x2_used = false; } else { x1 = xx - division_part1(vf, vd, x2_used); if (x2_used) x2 = xx - division_part2(vf, vd); } if (overlap(x1, x)) x1 = intersect(x, x1); else if (x2_used) { x1 = x2; x2_used = false; } else continue; if (x2_used) { if (overlap(x2, x)) x2 = intersect(x, x2); else x2_used = false; } if (x2_used && width(x2) > width(x1)) std::swap(x1, x2); if (!zero_in(f(x1))) { if (x2_used) { x1 = x2; x2_used = false; } else continue; } if (width(x1) < max_width) res.push_back(x1); else if (width(x1) > alpha * width(x)) { std::pair<I1, I1> p = bisect(x); if (zero_in(f(p.first))) l.push_back(p.first); x2 = p.second; x2_used = true; } else l.push_back(x1); if (x2_used && zero_in(f(x2))) { if (width(x2) < max_width) res.push_back(x2); else l.push_back(x2); } } return res; } // Second method: with empty intervals typedef change_checking<I1_aux, checking_no_nan<double> >::type I2_aux; typedef unprotect<I2_aux>::type I2; std::vector<I2> newton_raphson(const I2& xs) { std::vector<I2> l, res; I2 vf, vd, x, x1, x2; l.push_back(xs); while (!l.empty()) { x = l.back(); l.pop_back(); double xx = median(x); vf = f<I2>(xx); vd = f_diff<I2>(x); if (zero_in(vf) && zero_in(vd)) { x1 = x; x2 = I2::empty(); } else { bool x2_used; x1 = intersect(x, xx - division_part1(vf, vd, x2_used)); x2 = intersect(x, xx - division_part2(vf, vd, x2_used)); } if (width(x2) > width(x1)) std::swap(x1, x2); if (empty(x1) || !zero_in(f(x1))) { if (!empty(x2)) { x1 = x2; x2 = I2::empty(); } else continue; } if (width(x1) < max_width) res.push_back(x1); else if (width(x1) > alpha * width(x)) { std::pair<I2, I2> p = bisect(x); if (zero_in(f(p.first))) l.push_back(p.first); x2 = p.second; } else l.push_back(x1); if (!empty(x2) && zero_in(f(x2))) { if (width(x2) < max_width) res.push_back(x2); else l.push_back(x2); } } return res; } template<class T, class Policies> std::ostream &operator<<(std::ostream &os, const boost::numeric::interval<T, Policies> &x) { os << "[" << x.lower() << ", " << x.upper() << "]"; return os; } int main() { { I1_aux::traits_type::rounding rnd; std::vector<I1> res = newton_raphson(I1(-1, 5.1)); std::cout << "Results: " << std::endl << std::setprecision(12); for(std::vector<I1>::const_iterator i = res.begin(); i != res.end(); ++i) std::cout << " " << *i << std::endl; std::cout << std::endl; } { I2_aux::traits_type::rounding rnd; std::vector<I2> res = newton_raphson(I2(-1, 5.1)); std::cout << "Results: " << std::endl << std::setprecision(12); for(std::vector<I2>::const_iterator i = res.begin(); i != res.end(); ++i) std::cout << " " << *i << std::endl; std::cout << std::endl; } }