olzhas · March 16, 2017 11:43
diff --git a/pseudoinverse.cpp b/pseudoinverse.cpp
 #include <Eigen/Dense>

 template <class MatT>
 Eigen::Matrix<typename MatT::Scalar, MatT::ColsAtCompileTime, MatT::RowsAtCompileTime>
 pseudoinverse(const MatT &mat, typename MatT::Scalar tolerance = typename MatT::Scalar{1e-4}) // choose appropriately
 {
    typedef typename MatT::Scalar Scalar;
    auto svd = mat.jacobiSvd(Eigen::ComputeFullU | Eigen::ComputeFullV);
    const auto &singularValues = svd.singularValues();
    Eigen::Matrix<Scalar, MatT::ColsAtCompileTime, MatT::RowsAtCompileTime> singularValuesInv(mat.cols(), mat.rows());
    singularValuesInv.setZero();
    for (unsigned int i = 0; i < singularValues.size(); ++i) {
        if (singularValues(i) > tolerance)
        {
            singularValuesInv(i, i) = Scalar{1} / singularValues(i);
        }
        else
        {
            singularValuesInv(i, i) = Scalar{0};
        }
    }
    return svd.matrixV() * singularValuesInv * svd.matrixU().adjoint();
 }
	#include <Eigen/Dense>

	template <class MatT>
	Eigen::Matrix<typename MatT::Scalar, MatT::ColsAtCompileTime, MatT::RowsAtCompileTime>
	pseudoinverse(const MatT &mat, typename MatT::Scalar tolerance = typename MatT::Scalar{1e-4}) // choose appropriately
	{
	typedef typename MatT::Scalar Scalar;
	auto svd = mat.jacobiSvd(Eigen::ComputeFullU \| Eigen::ComputeFullV);
	const auto &singularValues = svd.singularValues();
	Eigen::Matrix<Scalar, MatT::ColsAtCompileTime, MatT::RowsAtCompileTime> singularValuesInv(mat.cols(), mat.rows());
	singularValuesInv.setZero();
	for (unsigned int i = 0; i < singularValues.size(); ++i) {
	if (singularValues(i) > tolerance)
	{
	singularValuesInv(i, i) = Scalar{1} / singularValues(i);
	}
	else
	{
	singularValuesInv(i, i) = Scalar{0};
	}
	}
	return svd.matrixV() * singularValuesInv * svd.matrixU().adjoint();
	}