I want to write a routine to create the transpose of a matrix as a row major double matrix using *Eigen3* (inside *RcppEigen*). In the main I will use it for matrices of different size.

In Eigen3 the template `Matrix`

takes 6 arguments:

Three are compulsory:

*(Scalar, RowsAtCompileTime and ColsAtCompileTime)*Three are optional:

*(Options, MaxRowsAtCompileTime and MaxColsAtCompileTime)*

*Options*can be*RowMajor*or*ColMajor*

I prefer to dynamically assign the dimensions to matrices because I work with large datasets and I want to avoid wasting RAM.

So, I wrote the following

```
Eigen::MatrixXd mktrasp(Eigen::MatrixXd X const int n, const int p){
Eigen::Matrix<double, p, n, RowMajor> T;
T = X.transpose();
return T;
}
```

But I get the compiler errors

error: 'p' cannot appear in a constant-expression

error: 'n' cannot appear in a constant-expression

I imagine this happens because `n`

and `p`

are not known at compile time.

So I tried this solution

```
Eigen::MatrixXd mktrasp(Eigen::MatrixXd X, const int n, const int p){
Eigen::Matrix<double, Dynamic, Dynamic, RowMajor> T(p, n);
T = X.transpose();
return T;
}
```

This works but I have completely lost the plot. Is `T`

a dynamic matrix or fixed size now? Is it safe to do this? Can someone suggest a better approach?