Ok I have two classes, `matrix_row`

and `matrix_column`

, which (as their names say) represent rows and columns of matrices. I'm doing this to do operations between matrix rows/columns ("Lines") in an easy way. Something like `m1.row(1) = m1.column(0) + m2.row(7)`

.

Since the two types of lines are almost the same thing, except of the way to access the underlying elements, I have a CRTP base class holding all the operations. Then the two classes menctioned above inherit from it and specify its own way to access an element through static dispatch:

```
template<typename T , std::size_t ROWS , std::size_t COLUMNS , typename DERIVED>
struct line
{
std::reference_wrapper<matrix<T,ROWS,COLUMNS>> ref;
std::size_t index;
...
};
template<typename T , std::size_t ROWS , std::size_t COLUMNS>
struct matrix_row : public line<T,ROWS,COLUMNS,matrix_row<T,ROWS,COLUMNS>>
{
const T& at( std::size_t index ) const { return this->matrix_ref.get()[this->index][index]; }
T& at( std::size_t index ) { return this->matrix_ref.get()[this->index][index]; }
using base_t::operator=;
};
template<typename T , std::size_t ROWS , std::size_t COLUMNS>
struct matrix_column : public line<T,ROWS,COLUMNS,matrix_column<T,ROWS,COLUMNS>>
{
const T& at( std::size_t index ) const { return this->matrix_ref.get()[index][this->index]; }
T& at( std::size_t index ) { return this->matrix_ref.get()[index][this->index]; }
using base_t::operator=;
};
```

Everything seems to work until here, assigment between different types of lines included. Now I want to overload `std::swap()`

for lines, for algorithms that require matrix line swapping (Like Gaussian elimination for example). So I have added a `swap()`

function in my own namespace:

```
template<typename LHS_T , typename RHS_T ,
std::size_t LHS_Rs , std::size_t RHS_Rs ,
std::size_t LHS_Cs , std::size_t RHS_Cs ,
typename LHS_D , typename RHS_D
>
friend void swap( line<LHS_T,LHS_Rs,LHS_Cs,LHS_D>& lhs , line<RHS_T,RHS_Rs,RHS_Cs,RHS_D>& rhs )
{
assert( lhs.length == rhs.length );
for( std::size_t i = 0 ; i < lhs.length ; ++i )
std::swap( lhs[i] , rhs[i] );
}
```

Since I need different line types to be swapable (Exchange one column of a matrix with one row of the same length, for example), I defined the function to work with the base instead of the derived types.

I have two questions:

All the machinery is on the base class, the derived classes only serve to provide a custom access (

`at()`

) method.**I'm incurring on slicing problems doing swap on this way even if the memory layout of the derived classes is (Thats what I understand since there is no**`virtual`

nor extra data members) the same as the layout of the base?When using that

`swap()`

template, the compiler complains with`no known conversion from [derived] to [base]&`

errors.**What I'm missing? Why is a conversion needed if I'm using references to the base class?**

`static_cast<DERIVED*>(this)`

casting in the base class? – πάντα ῥεῖ Aug 4 at 17:27`std::swap()`

becomes resource swapping ("Take mine and give me yours"). And thats the case I'm trying to accomplish, where the "resources" are the underlying elements referenced by the matrix rows and columns. – Manu343726 Aug 4 at 18:06`using std::swap`

technique to call this`swap`

function for at least one object of a derived type, then`std::swap`

will be a better match, and this function will call some copy/move operations. (Unfortunately, there's no inheritance mechanism for`swap`

.) – dyp Aug 4 at 20:23