I want to write an Adapter
for two different classes ClassA
and ClassB
- neither are mine and both have template member functions. I want to use Adapter
as argument of a pure virtual member function of a class Base
in order to avoid overloading of Base::do_something
for ClassA
and ClassB
since a lot of classes will inherit from Base
.
The code below is based on static polymorphism and shows how far I have got. However, extending the Adapter
to work with a third class, say ClassC
, always requires to change Adapter
.
I wonder if there is a better way out there to write such an adapter which also can be easily extended (like in the classical adapter pattern). It would be great if someone could give me a good hint.
#include <iostream>
#include <typeinfo>
#include <variant>
template<class ...Ts>
struct overloaded : Ts...
{
overloaded(const Ts&... args) : Ts(args)... { }
using Ts::operator()...;
};
struct ClassA
{
template <class T>
std::string get_type() const {return typeid(T()).name();}
};
struct ClassB
{
template <class T>
void old_print_type() const {std::cout << typeid(T()).name();}
};
struct Adapter
{
template <class Adaptee>
Adapter (Adaptee* a) : adaptee(a) {};
template <class T>
void print_type() const
{
std::visit(overloaded(
[](ClassA* v){ std::cout << v->get_type<T>();},
[](ClassB* v){ v->old_print_type<T>();}
),adaptee);
}
using adaptee_type = std::variant<ClassA*,ClassB*>;
adaptee_type adaptee;
};
struct Base
{
virtual void do_something(const Adapter&) = 0;
virtual ~Base() = default;
};
int main()
{
ClassA a;
ClassB b;
Adapter adapterA(&a);
Adapter adapterB(&b);
adapterA.print_type<double>();
std::cout << std::endl;
adapterB.print_type<double>();
}
adaptee_type
seems required. you might move all specific stuff from insideAdaptater
class, but not sure you gain something with that.Adapter
. but as I said it is similar to your version.