# How to access a specific (row,col) index in an C++ Eigen sparse matrix?

I'm working in C++ with a sparse matrix in Eigen. I would like to read the data stored in a specific row and column index just like I would with a regular eigen matrix.

``````std::vector<Eigen::Triplet<double>> tripletList;

// TODO: populate triplet list with non-zero entries of matrix

Eigen::SparseMatrix<double> matrix(nRows, nCols);
matrix.setFromTriplets(tripletList.begin(), tripletList.end());

// TODO:  set iRow and iCol to be valid indices.

// How to read the value at a specific row and column index?
// double value = matrix(iRow, iCol);  // Compiler error
``````

How do I go about performing this type of indexing operation?

• One possible solution is to construct a dense matrix from the sparse matrix (`Eigen::MatrixXd dense = Eigen::MatrixXd(sparse);`), but this has a large computational cost and is undesirable in most applications. Feb 21, 2017 at 19:29

Try `coeff`:

``````double value = matrix.coeff(iRow, iCol);
``````

If you want a non-const version use `coeffRef` instead. Note that when using `coeffRef` if the element doesn't exist, it will be inserted.

This Code work for me

``````for (int i=0; i<matrix.rows(); ++i){
for(int j=0; i<matrix.cols(); ++j)
cout << " i,j=" << i << ","
<< j << " value="
<< matrix.coeff(i,j)
<< std::endl;
}

``````

Here is how to do it in the raw:

The methods you want are `innerIndexPtr`, `outerIndexPtr`, `InnerNNZs` and `valuePtr`.

``````struct sparseIndex {
std::size_t row, col;
template<class SparseMatrix, class Scalar=typename SparseMatrix::Scalar>
Scalar get_from( SparseMatrix const& m, Scalar def={} ) const {
if ((std::size_t)m.cols() >= col) return def;
auto* inner_index_start = m.innerIndexPtr()+m.outerIndexPtr()[col];
auto* inner_index_end = inner_index_start;
if (auto* nzp = m.innerNonZeroPtr()) { // returns null if compressed
inner_index_end += nzp[col];
} else {
inner_index_end = m.innerIndexPtr()+m.outerIndexPtr()[col+1];
}
auto search_result = std::equal_range(
inner_index_start,
inner_index_end,
(typename SparseMatrix::StorageIndex)row
);
if (search_result.first == search_result.second) return def;
if ((std::size_t)*search_result.first != row) return def;
return m.valuePtr()[search_result.first-m.innerIndexPtr()];
}
};
``````

Use:

``````auto r = sparseIndex{2,2}.get_from( sparseMatrix );
``````

Code not tested. Based off these docs and these docs which disagree in some details.

I suspect I just reimplmeented `.coeff`, so take this with a grain of salt. :)

• Please do not post not tested code or huge code blocks without explanation. Oct 24, 2018 at 3:20