I have a matrix sized NxM and would like to create a matrix of complex numbers of size N/2 x M where the real numbers are the left side of the matrix and the complex part is the right side.

I came up with this:

```
auto complexmatrix= Shapes.block(0,0,Shapes.rows(),data.cols()) * std::complex<float>(1,0) +
Shapes.block(0,data.cols(),Shapes.rows(),data.cols())*std::complex<float>(0,1);
std::cout << complexmatrix<< std::endl;
```

Can this be optimized or are there a better way to create the complex matrix.

All in all, the code ended up like this. Feels like i am missing something from Eigen. The goal was to convert to Complex notation and subtract the row-wise mean from each row.

```
//Complex notation and Substracting Mean.
Eigen::MatrixXcf X = Shapes.block(0,0,Shapes.rows(),data.cols()) * std::complex<float>(0,1) +
Shapes.block(0,data.cols(),Shapes.rows(),data.cols())*std::complex<float>(1,0);
Eigen::VectorXcf Mean = X.rowwise().mean();
std::complex<float> *m_ptr = Mean.data();
for(n=0;n<Mean.rows();++n)
X.row(n) = X.row(n).array() - *m_ptr++;
```