В общем, пришел к такому решению. Возможно, кому-то из новичков (как я) пригодится. А экспертам - для развлечения покритиковать :)
#include <iostream>
#include <vector>
#include <memory>
#include <string>
#include <array>
#include <algorithm>
using std::vector;
using std::array;
using std::shared_ptr;
using std::pair;
using std::string;
enum class TYPE
{
CONTACT,
FLOW,
INOUT
};
struct fluid
{
static const vector<pair<TYPE, string>> entrails;
};
const vector<pair<TYPE, string>> fluid::entrails = {
{TYPE::CONTACT, "P"},
{TYPE::FLOW, "Q"},
{TYPE::CONTACT, "conc"}
};
struct thermo
{
static const vector<pair<TYPE, string>> entrails;
};
const vector<pair<TYPE, string>> thermo::entrails = {
{TYPE::CONTACT, "T"},
{TYPE::CONTACT, "heat"}
};
struct electro
{
static const vector<pair<TYPE, string>> entrails;
};
const vector<pair<TYPE, string>> electro::entrails = {
{TYPE::CONTACT, "P"},
{TYPE::FLOW, "I"}
};
/*****************************************************************************/
class BaseLink
{
static vector<BaseLink*> ALL_LINKS;
public:
~BaseLink() {};
BaseLink(const BaseLink&) = delete;
BaseLink(BaseLink&&) = delete;
BaseLink& operator=(const BaseLink&) = delete;
BaseLink& operator=(BaseLink&&) = delete;
static vector<BaseLink*> all_links();
virtual size_t dimension() const
{
return _entrails_vars.size();
}
virtual size_t count() const = 0;
virtual vector<string> names() const = 0;
protected:
BaseLink()
{
ALL_LINKS.push_back(this);
};
vector<double>_entrails_vars{};
};
vector<BaseLink*> BaseLink::ALL_LINKS = vector<BaseLink*>();
vector<BaseLink*> BaseLink::all_links()
{
return BaseLink::ALL_LINKS;
}
/*****************************************************************************/
template<typename T>
class Link: public BaseLink
{
static vector<Link*> links;
public:
Link(const std::initializer_list<T>& vars) : BaseLink(), _vars(vars)
{
_entrails_vars.resize(T::entrails.size());
links.push_back(this);
};
~Link() {};
static vector<Link*> get_links();
vector<string> names() const override
{
vector<string> names{};
for (const auto& [type, name] : T::entrails)
names.push_back(name);
return names;
}
size_t count() const override
{
return _vars.size();
}
void job()
{
/* тут я могу обрабатывать все экземпляры Link конкретного типа */
}
private:
vector<T> _vars{};
};
template<typename T>
vector<Link<T>*> Link<T>::links = vector<Link<T>*>();
template<typename T>
vector<Link<T>*> Link<T>::get_links()
{
//return links; // СМУЩАЕТ, НО РАБОТАЕТ
return Link<T>::links;
}
int main()
{
/*
* переменные fluid, thermo, electro создаются где-то в приложении
* тут просто заполняем дефолтными значениями для теста
*/
auto L1 = Link({fluid{}, fluid{}});
auto L2 = Link({ fluid{} });
auto L3 = Link({ thermo{} , thermo{} , thermo{} });
auto L4 = Link({ thermo{} , thermo{} , thermo{} , thermo{} });
auto L5 = Link({ thermo{} , thermo{} });
auto L6 = Link({ electro{} , electro{} , electro{} });
std::cout << "ALL LINKS:\n";
for (const auto& link : BaseLink::all_links())
{
std::cout << "\tdimension = " << link->dimension()
<< "; count = " << link->count() << ": names [";
for (const auto& name : link->names())
std::cout << name << ' ';
std::cout << "]\n";
}
std::cout << "fluid LINKS:\n";
for (const auto& link : Link<fluid>::get_links())
{
std::cout << "\tdimension = " << link->dimension()
<< "; count = " << link->count() << "\n";
}
std::cout << "thermo LINKS:\n";
for (const auto& link : Link<thermo>::get_links())
{
std::cout << "\tdimension = " << link->dimension()
<< "; count = " << link->count() << "\n";
}
std::cout << "electro LINKS:\n";
for (const auto& link : Link<electro>::get_links())
{
std::cout << "\tdimension = " << link->dimension()
<< "; count = " << link->count() << "\n";
}
return 0;
}
Вывод:
ALL LINKS:
dimension = 3; count = 2: names [P Q conc ]
dimension = 3; count = 1: names [P Q conc ]
dimension = 2; count = 3: names [T heat ]
dimension = 2; count = 4: names [T heat ]
dimension = 2; count = 2: names [T heat ]
dimension = 2; count = 3: names [P I ]
fluid LINKS:
dimension = 3; count = 2
dimension = 3; count = 1
thermo LINKS:
dimension = 2; count = 3
dimension = 2; count = 4
dimension = 2; count = 2
electro LINKS:
dimension = 2; count = 3