| GeneralizedEigenSolver<MatrixXf> ges; | |
| MatrixXf A = MatrixXf::Random(4,4); | |
| MatrixXf B = MatrixXf::Random(4,4); | |
| ges.compute(A, B); | |
| cout << "The (complex) numerators of the generalzied eigenvalues are: " << ges.alphas().transpose() << endl; | |
| cout << "The (real) denominatore of the generalzied eigenvalues are: " << ges.betas().transpose() << endl; | |
| cout << "The (complex) generalzied eigenvalues are (alphas./beta): " << ges.eigenvalues().transpose() << endl; |