I made this function to extract blocks from a `Eigen::SparseMatrix<double,ColMaior>`

```
typedef Triplet<double> Tri;
SparseMatrix<double> sparseBlock(SparseMatrix<double,ColMajor> M,
int ibegin, int jbegin, int icount, int jcount){
//only for ColMajor Sparse Matrix
assert(ibegin+icount <= M.rows());
assert(jbegin+jcount <= M.cols());
int Mj,Mi,i,j,currOuterIndex,nextOuterIndex;
vector<Tri> tripletList;
tripletList.reserve(M.nonZeros());
for(j=0; j<jcount; j++){
Mj=j+jbegin;
currOuterIndex = M.outerIndexPtr()[Mj];
nextOuterIndex = M.outerIndexPtr()[Mj+1];
for(int a = currOuterIndex; a<nextOuterIndex; a++){
Mi=M.innerIndexPtr()[a];
if(Mi < ibegin) continue;
if(Mi >= ibegin + icount) break;
i=Mi-ibegin;
tripletList.push_back(Tri(i,j,M.valuePtr()[a]));
}
}
SparseMatrix<double> matS(icount,jcount);
matS.setFromTriplets(tripletList.begin(), tripletList.end());
return matS;
}
```

And these if the sub-matrix is in one of the four corners:

```
SparseMatrix<double> sparseTopLeftBlock(SparseMatrix<double> M,
int icount, int jcount){
return sparseBlock(M,0,0,icount,jcount);
}
SparseMatrix<double> sparseTopRightBlock(SparseMatrix<double> M,
int icount, int jcount){
return sparseBlock(M,0,M.cols()-jcount,icount,jcount);
}
SparseMatrix<double> sparseBottomLeftBlock(SparseMatrix<double> M,
int icount, int jcount){
return sparseBlock(M,M.rows()-icount,0,icount,jcount);
}
SparseMatrix<double> sparseBottomRightBlock(SparseMatrix<double> M,
int icount, int jcount){
return sparseBlock(M,M.rows()-icount,M.cols()-jcount,icount,jcount);
}
```