Program Listing for File complex-eigen-solver.hpp
↰ Return to documentation for file (include/nanoeigenpy/decompositions/complex-eigen-solver.hpp)
#pragma once
#include "nanoeigenpy/fwd.hpp"
#include <Eigen/Eigenvalues>
namespace nanoeigenpy {
namespace nb = nanobind;
using namespace nb::literals;
template <typename _MatrixType>
void exposeComplexEigenSolver(nb::module_ m, const char *name) {
using MatrixType = _MatrixType;
using Solver = Eigen::ComplexEigenSolver<MatrixType>;
if (check_registration_alias<Solver>(m)) {
return;
}
nb::class_<Solver>(m, name, "Complex Eigen Solver")
.def(nb::init<>(), "Default constructor.")
.def(nb::init<Eigen::DenseIndex>(), "size"_a,
"Default constructor with memory preallocation.")
.def(nb::init<const MatrixType &, bool>(), "matrix"_a,
"computeEigenvectors"_a = true,
"Computes eigendecomposition of given matrix")
.def("eigenvalues", &Solver::eigenvalues,
"Returns the eigenvalues of given matrix.",
nb::rv_policy::reference_internal)
.def("eigenvectors", &Solver::eigenvectors,
"Returns the eigenvectors of given matrix.",
nb::rv_policy::reference_internal)
.def(
"compute",
[](Solver &c, const MatrixType &matrix) -> Solver & {
return c.compute(matrix);
},
"matrix"_a, "Computes the eigendecomposition of given matrix.",
nb::rv_policy::reference)
.def(
"compute",
[](Solver &c, const MatrixType &matrix, bool computeEigenvectors)
-> Solver & { return c.compute(matrix, computeEigenvectors); },
"matrix"_a, "computeEigenvectors"_a,
"Computes the eigendecomposition of given matrix.",
nb::rv_policy::reference)
.def("info", &Solver::info,
"NumericalIssue if the input contains INF or NaN values or "
"overflow occured. Returns Success otherwise.")
.def("setMaxIterations", &Solver::setMaxIterations,
"Sets the maximum number of iterations allowed.",
nb::rv_policy::reference)
.def("getMaxIterations", &Solver::getMaxIterations,
"Returns the maximum number of iterations.")
.def(IdVisitor());
}
} // namespace nanoeigenpy