I'm not sure what you want, but I'll try to explain.

You're mixing double and float in your code (a MatrixXf is a matrix where every entry is a float). I'll assume for the moment that this was unintentional amd that you want to use double everywhere; see below for if this was really your intention.

The instruction `Map<MatrixXd>(arrayd, n, n) = matrix`

copies the entries of `matrix`

into `arrayd`

. It is equivalent to the loop

```
for (int i = 0; i < n; ++i)
for (int j = 0; j < n; ++j)
arrayd[i + j*n] = matrix(i, j);
```

To copy the entries of `arrayd`

into `matrix`

, you would use the inverse assignment: `matrix = Map<MatrixXd>(arrayd, n, n)`

.

However, usually the following technique is more useful:

```
void foo(MatrixXd matrix, int n) {
double* arrayd = matrix.data();
// do something with the array
}
```

Now arrayd points to the entries in the matrix and you can process it as any C++ array. The data is shared between `matrix`

and `arrayd`

, so you do not have to copy anything back at the end. Incidentally, you do not need to pass `n`

to the function `foo()`

, because it is stored in the matrix; use matrix.rows() and matrix.cols() to query its value.

If you do want to copy a MatrixXf to an array of doubles, then you need to include the cast explicitly. The syntax in Eigen for this is: `Map<MatrixXd>(arrayd, n, n) = matrix.cast<double>()`

.