Their are many links to go the other way round but I am unable to find to get a std::vector from a Eigen::Matrix or Eigen::VectorXd in my specific case.
vector<int> vec(mat.data(), mat.data() + mat.rows() * mat.cols());

4
mat.rows() * mat.cols()
can be simplified tomat.size()
, however, be aware that this solution only work for a plainMatrix<>
object, while using aMap<>
as in my answer works for submatrices too. – ggael Sep 29 '14 at 10:58
You cannot typecast, but you can easily copy the data:
VectorXd v1;
v1 = ...;
vector<double> v2;
v2.resize(v1.size());
VectorXd::Map(&v2[0], v1.size()) = v1;

1
You can do this from and to Eigen vector :
//init a first vector
std::vector<float> v1;
v1.push_back(0.5);
v1.push_back(1.5);
v1.push_back(2.5);
v1.push_back(3.5);
//from v1 to an eignen vector
float* ptr_data = &v1[0];
Eigen::VectorXf v2 = Eigen::Map<Eigen::VectorXf, Eigen::Unaligned>(v1.data(), v1.size());
//from the eigen vector to the std vector
std::vector<float> v3(&v2[0], v2.data()+v2.cols()*v2.rows());
//to check
for(int i = 0; i < v1.size() ; i++){
std::cout << std::to_string(v1[i]) << "  " << std::to_string(v2[i]) << "  " << std::to_string(v3[i]) << std::endl;
}