# Eigen extracting submatrix from vector of indices

I have been googling for a while now, but cant find the answer to this simple question.

In matlab i can do this:

``````rows = [1 3 5 9];
A = rand(10);
B = A(rows, : );
``````

How do i do this in eigen? It does not seem like it is possible. The closest thing i have found is

``````MatrixXd a(10,10);
a.row(1);
``````

,but I want to get multiple rows/cols. Another user has also asked the question here: How to extract a subvector (of a Eigen::Vector) from a vector of indices in Eigen? , but I think there must some built in way of doing this because it is a really common operation I think.

Thanks.

While this was not possible at the time this question was asked, it has since been added in the development branch!

It's very straight forward:

``````Eigen::MatrixXf matrix;
Eigen::VectorXi columns;
Eigen::MatrixXf extracted_cols = matrix(Eigen::all, columns);
``````

So I'm guessing this will be in the 3.3.5 3.4 stable release. Until then the development branch is the way to go.

Unfortunately, this is still not directly supported even in Eigen 3.3. There has been this feature request for a while: http://eigen.tuxfamily.org/bz/show_bug.cgi?id=329

Gael linked to an example implementation in one of the comments there: http://eigen.tuxfamily.org/dox-devel/TopicCustomizing_NullaryExpr.html#title1

Ok, say for example you have a 3x3 matrix:

``````m = [3   -1   1; 2.5  1.5 6; 4    7   1]
``````

and say you want to extract following rows from m matrix:

``````[0 2], // row 0 and row 2
``````

essentially giving out following matrix:

``````new_extracted_matrix = [3 -1 1; 4  7 1]  // row 0 and row 2 of matrix m
``````

Main thing here is, let's create a vector v having contents [0 2], means we would extract following row indices from matrix m. Here is what i did:

``````#include <iostream>
#include <Eigen/Dense>
using namespace Eigen;
using namespace std;
int main()
{
Matrix3f m;
m(0,0) = 3;
m(0,1) = -1;
m(0,2) = 1;
m(1,0) = 2.5;
m(1,1) = m(1,0) + m(0,1);
m(1,2) = 6;
m(2,0) = 4;
m(2,1) = 7;
m(2,2) = 1;
std::cout << "Here is the matrix m:\n" << m << std::endl; // Creating a random 3x3 matrix
VectorXf v(2);
v(0) = 0; // Extracting row 0
v(1) = 2; // Extracting row 2

MatrixXf r(1,v.size());
for (int i=0;i<v.size();i++)
{
r.col(i) << v(i); // Creating indice vector
}
cout << "The extracted row indicies of above matrix: " << endl << r << endl;

MatrixXf N = MatrixXf::Zero(r.size(),m.cols());
for (int z=0;z<r.size();z++)
{
N.row(z) = m.row(r(z));
}

cout << "Extracted rows of given matrix: " << endl << N << endl;
}
``````

This would give us following output:

Here is the matrix m: [3 -1 1; 2.5 1.5 6; 4 7 1]

The extracted row indicies of above matrix: [0 2]

Extracted rows of given matrix: [3 -1 1; 4 7 1]