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I have built a sparse matrix mat from a list of triplets

Eigen::SparseMatrix<double, Eigen::RowMajor> mat(Nbins,Ndata);
mat.setFromTriplets(tripletList.begin(), tripletList.end());

Now I would like to create a new matrix ret, which only contains the rows of the previous matrix which are not empty. I do it as follows

Eigen::SparseMatrix<double, Eigen::RowMajor> ret(Nbins,Ndata);
unsigned Nrow=0;
for (unsigned i=0; i<Nbins; ++i) {
  auto mrow = mat.row(i);
  if (mrow.sum()>0) {
    ret.row(Nrow++) = mrow;
  }
}
ret.conservativeResize(Nrow,Ndata);

However, doing it this way is slow and inefficient. Slow because quick profiling suggests it spends most of its time on ret.row(Nrow++) = mrow;. Inefficient because we are also copying all the data twice.

Is there a better solution? I feel one has to fiddle with the inner vectors but I get confused by them and I don't know how user-proof it is to play with them.

EDIT: In my application, matrices are row major, and I want to remove empty rows. mat is not needed, just ret. All coefficients are positive hence the way I check for nonzero rows. The triplets are sorted but column-major. There are no duplicate triplets.

5
  • Are you removing empty rows or columns? (Removing columns from a RowMajor matrix will be very inefficient) And do you need the original matrix mat as well, or just ret? If you don't need mat, the best solution would be to write a hand-tuned setFromTriplets function for your use-case.
    – chtz
    Jun 5, 2018 at 17:24
  • Also, mrow.sum()>0 can be false, even for non-empty rows. Is this behavior intended?
    – chtz
    Jun 5, 2018 at 17:32
  • Matrices are row major indeed. mat is not needed, just ret. Sorry I forgot to say that in my case all coefficients are positive hence the way I check for nonzero rows
    – yannick
    Jun 5, 2018 at 21:13
  • Could you edit your question, then? Also, what about my other question? And follow-up question: Are the triplets in any organized order, when you construct mat?
    – chtz
    Jun 6, 2018 at 7:03
  • done. let me know if the edit suits you
    – yannick
    Jun 6, 2018 at 8:49

1 Answer 1

1

Found it! Instead of writing a hand-made setFromTriplets, I went with a modification of the tripletList. The interface of Eigen::Triplet makes it very easy.

//get which rows are empty
std::vector<bool> has_value(Nbins,false);
for (auto tr : tripletList) has_value[tr.row()] = true; 

//create map from old to new indices
std::map<unsigned,unsigned> row_map;
unsigned new_idx=0;
for (unsigned old_idx=0; old_idx<Nbins; old_idx++) 
   if(has_value[old_idx])
      row_map[old_idx]=new_idx++;

//make new triplet list, dropping empty rows
std::vector<Eigen::Triplet<double> > newTripletList;
newTripletList.reserve(Ndata);
for (auto tr : tripletList) 
   newTripletList.push_back(
      Eigen::Triplet<double>(row_map[tr.row()],tr.col(),tr.value()));

//form new matrix and return
Eigen::SparseMatrix<double, Eigen::RowMajor> ret(new_idx,Ndata);
ret.setFromTriplets(newTripletList.begin(), newTripletList.end());
3
  • have you found any solution that can do the removal after the sparse matrix has already been created? Oct 2, 2018 at 14:01
  • in my example, the matrix has already been created too, it's in triplet form. I'm not sure what you are asking
    – yannick
    Nov 20, 2018 at 9:57
  • I mean that in this example you are creating a new triplet list and then performing a large amount of data copy. I wondered of a solution where the removal of empty rows and columns would be possible without copying data Nov 20, 2018 at 10:42

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