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.
    – MattKelly
    Feb 21, 2017 at 19:29

3 Answers 3


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(
      (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()];


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. :)

  • 3
    Please do not post not tested code or huge code blocks without explanation.
    – user650261
    Oct 24, 2018 at 3:20

Your Answer

Reminder: Answers generated by Artificial Intelligence tools are not allowed on Stack Overflow. Learn more

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.