| #include <unsupported/Eigen/Polynomials> |
| #include <vector> |
| #include <iostream> |
| |
| using namespace Eigen; |
| using namespace std; |
| |
| int main() |
| { |
| typedef Matrix<double,5,1> Vector5d; |
| |
| Vector5d roots = Vector5d::Random(); |
| cout << "Roots: " << roots.transpose() << endl; |
| Eigen::Matrix<double,6,1> polynomial; |
| roots_to_monicPolynomial( roots, polynomial ); |
| |
| PolynomialSolver<double,5> psolve( polynomial ); |
| cout << "Complex roots: " << psolve.roots().transpose() << endl; |
| |
| std::vector<double> realRoots; |
| psolve.realRoots( realRoots ); |
| Map<Vector5d> mapRR( &realRoots[0] ); |
| cout << "Real roots: " << mapRR.transpose() << endl; |
| |
| cout << endl; |
| cout << "Illustration of the convergence problem with the QR algorithm: " << endl; |
| cout << "---------------------------------------------------------------" << endl; |
| Eigen::Matrix<float,7,1> hardCase_polynomial; |
| hardCase_polynomial << |
| -0.957, 0.9219, 0.3516, 0.9453, -0.4023, -0.5508, -0.03125; |
| cout << "Hard case polynomial defined by floats: " << hardCase_polynomial.transpose() << endl; |
| PolynomialSolver<float,6> psolvef( hardCase_polynomial ); |
| cout << "Complex roots: " << psolvef.roots().transpose() << endl; |
| Eigen::Matrix<float,6,1> evals; |
| for( int i=0; i<6; ++i ){ evals[i] = std::abs( poly_eval( hardCase_polynomial, psolvef.roots()[i] ) ); } |
| cout << "Norms of the evaluations of the polynomial at the roots: " << evals.transpose() << endl << endl; |
| |
| cout << "Using double's almost always solves the problem for small degrees: " << endl; |
| cout << "-------------------------------------------------------------------" << endl; |
| PolynomialSolver<double,6> psolve6d( hardCase_polynomial.cast<double>() ); |
| cout << "Complex roots: " << psolve6d.roots().transpose() << endl; |
| for( int i=0; i<6; ++i ) |
| { |
| std::complex<float> castedRoot( psolve6d.roots()[i].real(), psolve6d.roots()[i].imag() ); |
| evals[i] = std::abs( poly_eval( hardCase_polynomial, castedRoot ) ); |
| } |
| cout << "Norms of the evaluations of the polynomial at the roots: " << evals.transpose() << endl << endl; |
| |
| cout.precision(10); |
| cout << "The last root in float then in double: " << psolvef.roots()[5] << "\t" << psolve6d.roots()[5] << endl; |
| std::complex<float> castedRoot( psolve6d.roots()[5].real(), psolve6d.roots()[5].imag() ); |
| cout << "Norm of the difference: " << std::abs( psolvef.roots()[5] - castedRoot ) << endl; |
| } |