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I have a variadic class template that is used to create a top-level class for a variable number of classes. Each class that is to go in the top-level class is derived from a base class, as there is common functionality for them. I don't know the best way to store the derived classes in the parent class, but still be able to access the full functionality of the derived class.

If I store the variadic args in a vector, they'll all be stored as a base class and I can't access the derived functionality. If I store them in a tuple, I can't work out how to access the functions by derived type. If I try to access them as discussed here on SO then make_unique isn't available (C++14?).

So, I want to do the following:

class BaseElement {
    virtual int polymorphicFunction() {return 0;};

class DerivedElement1 : public BaseElement {
    virtual int polymorphicFunction() {return 1;};

class DerivedElement2 : public BaseElement {
    virtual int polymorphicFunction() {return 2;};

template<typename... systems>   // systems will always be of derived class of BaseElement
class System {
    System() : subsystems(systems{}...) {} ;  // all variadic elements stored in tuple
    // tuple used below, the system elements don't need to be stored in a container, I just want to access them 
    // I'd be happy to use a vector or access them directly as a member variable
    // provided that I can access the derived class.  I can't use RTTI.
    const std::tuple<systems...> subSystems;

    // pointer or reference, I don't mind, but pd1/2 will always exist, 
    // (but perhaps be NULL), even if there is no derived element passed to the template parameter
    DerivedElement1 *pd1; 
    DerivedElement2 *pd2;

//Desired usage
System<DerivedElement1> sys;  // sys->pd1 == &derivedElement1WithinTuple, sys->pd2 == NULL
System<DerivedElement2> sys;  // sys->pd2 == &derivedElement2WithinTuple, sys->pd2 == NULL
System<DerivedElement1, DerivedElement2> sys;  // sys->pd1 == &derivedElement1WithinTuple, sys->pd1 == &derivedElement1WithinTuple

Does anyone have any suggestions as to how I might achieve this please?

share|improve this question
It's pretty easy to write std::make_unique by yourself. You might not even need it, unless construction of one of the systems types might throw. –  Brian Jul 18 '14 at 18:19

1 Answer 1

up vote 1 down vote accepted


#include <cstdint>
#include <type_traits>
#include <tuple>

namespace detail

template <typename T, typename... Ts> struct get_index;

template <typename T, typename... Ts>
struct get_index<T, T, Ts...> : std::integral_constant<std::size_t, 0> {};

template <typename T, typename Tail, typename... Ts>
struct get_index<T, Tail, Ts...> :
    std::integral_constant<std::size_t, 1 + get_index<T, Ts...>::value> {};

template <typename T>
struct get_index<T> : std::integral_constant<std::size_t, 0> {}; // Not found

template <std::size_t N, typename... Ts>
safe_get(const std::tuple<Ts...>& t) noexcept
-> typename std::enable_if<N < sizeof...(Ts), decltype(&std::get<N < sizeof...(Ts) ? N : 0>(t))>::type
    return &std::get<N>(t);

template <std::size_t N, typename... Ts>
safe_get(const std::tuple<Ts...>&) noexcept
-> typename std::enable_if<sizeof...(Ts) <= N, nullptr_t>::type
    return nullptr;


You may have:

template <typename... systems>
class System {
    constexpr System() :
        pd1(detail::safe_get<detail::get_index<DerivedElement1, systems...>::value>(subSystems)),
        pd2(detail::safe_get<detail::get_index<DerivedElement2, systems...>::value>(subSystems))

    const std::tuple<systems...> subSystems;
    const DerivedElement1 *pd1;
    const DerivedElement2 *pd2;
share|improve this answer
Perfect, thanks very much! –  John Jul 20 '14 at 17:42

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