In short, the question is how to pass a

```
Eigen::Map<Eigen::MatrixXd>
```

object to a function which expects a

```
Eigen::MatrixXd
```

object.

Longer story:

I have this C++ function declaration

```
void npMatrix(const Eigen::MatrixXd &data, Eigen::MatrixXd &result);
```

together with this implementation

```
void npMatrix(const Eigen::MatrixXd &data, Eigen::MatrixXd &result)
{
//Just do s.th. with arguments
std::cout << data << std::endl;
result(1,1) = -5;
std::cout << result << std::endl;
}
```

I want to call this function from python using numpy.array as arguments. To this end, I use a wrapper function written in c++

```
void pyMatrix(const double* p_data, const int dimData[],
double* p_result, const int dimResult[]);
```

which takes a pointer to data, the size of the data array, a pointer to result, and the size of the result array. The data pointer points to a const patch of memory, since data is not to be altered while the patch of memory reserved for result is writeable. The implementation of the function

```
void pyMatrix(const double *p_data, const int dimData[], double *p_result, const int dimResult[])
{
Eigen::Map<const Eigen::MatrixXd> dataMap(p_data, dimData[0], dimData[1]);
Eigen::Map<Eigen::MatrixXd> resultMap(p_result, dimResult[0], dimResult[1]);
resultMap(0,0) = 100;
npMatrix(dataMap, resultMap);
}
```

defines a Eigen::Map for data and result, respectively. A Eigen::Map allows to access raw memory as a kind of Eigen::Matrix. The dataMap is of type

```
<const Eigen::MatrixXd>
```

since the associated memory is read only; resultMap in contrast is of type

```
<Eigen::MatrixXd>
```

since it must we writeable. The line

```
resultMap(0,0) = 100;
```

shows, that resultMap is in deed writeable. While passing dataMap to the npMatrix() where a const Eigen::MatrixXd is expected works, I could not find a way to pass resultMap in the same way. I am sure, the trouble comes from the fact, that the first argument of npMatrix is const, and the second is not. A possible solution I found is to define

```
Eigen::MatrixXd resultMatrix = resultMap;
```

and pass this resutlMatrix to npMatrix(). However, I guess, this creates a copy and hence kills the nice memory mapping of Eigen::Map. So my question is.

Is there a way to pass a Eigen:Map to a function which expects a non-const Eigen::MatrixXd instead?

As a side note: I could change npMatrix to expect a Eigen::Map, but since in the real project, functions are already there and tested, I would rather not temper with them.

To complete the question, here is the python file to call pyMatrix()

```
import ctypes as ct
import numpy as np
import matplotlib.pyplot as plt
# Load libfit and define input types
ct.cdll.LoadLibrary("/home/wmader/Methods/fdmb-refactor/build/pyinterface/libpyfit.so")
libfit = ct.CDLL("libpyfit.so")
libfit.pyMatrix.argtypes = [np.ctypeslib.ndpointer(dtype=np.float64, ndim=2),
np.ctypeslib.ndpointer(dtype=np.int32, ndim=1),
np.ctypeslib.ndpointer(dtype=np.float64, ndim=2, flags='WRITEABLE'),
np.ctypeslib.ndpointer(dtype=np.int32, ndim=1)
]
data = np.array(np.random.randn(10, 2), dtype=np.float64, order='F')
result = np.zeros_like(data, dtype=np.float64, order='F')
libfit.pyMatrix(data, np.array(data.shape, dtype=np.int32),
result, np.array(result.shape, dtype=np.int32))
```