# Submatrices and indices using Eigen

I'm currently working on a MATLAB project and I'd like to re-implement the most computational-heavy parts using C++ and Eigen. I'd like to know if there's a way to perform the following operation (MATLAB syntax):

``````B = A(A < 3);
``````

For those who are not familiar with MATLAB, the above-mentioned command initializes a matrix B made of the cells in A whose values are less than 3.

I've seen from a post on the Eigen forum that it's possible to obtain the indices of interest by using:

``````MatrixXi indices = (A.array() < 3).cast<int>();
``````

What I'd like to have is something like:

``````MatrixXd B = A(A.array() < 3);
``````

Thanks.

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Can you explain it in a way, which does not require knowing matlab? –  chill Nov 24 '12 at 10:13
I modified the question to accomodate your request –  burton0 Nov 24 '12 at 12:28
Is this question still valid? Or some methods for submatrix indexing have been developed meanwhile in Eigen? –  linello Dec 11 '14 at 12:32
AFAIK, there has been no improvement in this regard. Of course, I'll be glad of being proven wrong –  burton0 Apr 5 at 17:35

There currently is a feature request for selecting sub-matrices by indexing filed at the Eigen BugTracker system. Therefore, I doubt it will be possible that way.

The only workaround I could think of is to copy the data manually. Not very nice though.

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libigl has many wrappers for Eigen to make it feel more like MATLAB. In particular, there is a `slice` function so that you can call:

``````igl::slice(A,indices,B);
``````

which is equivalent to MATLAB's

``````B = A(indices)
``````
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Is this a feature of libigl or libigl calls some Eigen method to do this? –  linello Dec 11 '14 at 14:01

You can perform operations on selected elements only with `select()`, which is the equivalent for the ternary ?: operator. This is not exactly what you wanted, but should work in many cases.

``````MatrixXd B = (A.array() < 3).select(operation_on(A), MatrixXd::Zero(A.rows(), A.cols()));
``````

This will fill B with zeros if A<3 and the result of any required operation on A otherwise.

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