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I have some implementer classes (impls) and some wrappers for user, implemented in C++. I want to hold impls and wrappers in two different tuples so that i can initialize my impls by a single allocation. (I have other reasons too:).

The thing is tuple class of visual studio 2012 standard library does not allow me to construct my wrapper tuple without a const referenced copy constructor of wrappers. sadly I need to const_cast in that case, such as:

#include <iostream>
#include <type_traits>
#include <tuple>
#include <typeinfo>

template <typename Member>
struct A
    A(Member& m) : member(m)
    { std::cout << typeid(Member).name() << " MMBR " << member << std::endl; }

    A(const Member& m) : member(const_cast<Member&>(m))
    { std::cout << typeid(Member).name() << " CMBR " << member << std::endl; }

    void Print()
        std::cout << typeid(Member).name() << " PRNT " << member << std::endl;

    Member& member;//yes I need to hold this as a mutable reference

int main()
    typedef std::tuple<A<int>, A<double>, A<short>> WrapperTuple;
    typedef std::tuple<int, double, short> Tuple;

    Tuple t(0, 1, 2);
    WrapperTuple w(t);

    return std::cin.get();

The code above compiles and runs as intended, but if I delete/comment out the const-ref-ctor of wrapper class A neither my VS2012 compiler nor my gcc4.7.2 compiler compiles the code. (1) What am I doing wrong?

Since I don't have a good documentation for c++11, I guess that variadic copy ctor of tuple only takes a const ref of other tuple. If so, (2) why doesn't tuple class have such ctor? I mean the main reason behind.

To sum up I want to hold all impls and wrappers together in a tuple so I can allocate with a single action (i.e. make_shared). Tuple is somewhat a must because I have written some helpers so that I can lookup by type in compile time (e.g. Get<A<int>>(w)) (3) Is there a neat way to hold a reference to the impl such that I would not need to allocate each impl separately.

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2 Answers 2

up vote 3 down vote accepted

The copy constructor of std::tuple, even the converting one, obviously copies all the elements, and since a copy shouldn't change the copied-from element, they're marked as const. This behaviour is perfectly reasonable, most of the time.

The workaround for your special case is a bit more involved that what you may like, but it works. The basic idea is that you, conceptually, don't want to copy the tuple, but you want to use it's elements as an initializer to the elements of your other tuple, as such their constness should be preserved.

template<unsigned...> struct seq{};
template<unsigned N, unsigned... Is>
struct gen_seq : gen_seq<N-1, N-1, Is...>{};
template<unsigned... Is>
struct gen_seq<0, Is...> : seq<Is...>{};

namespace aux{
template<class... Ts, unsigned... Is>
std::tuple<Ts&...> tie_all_(std::tuple<Ts...>& other, seq<Is...>){
  return std::tie(std::get<Is>(other)...);
} // aux::

template<class... Ts>
std::tuple<Ts&...> tie_all(std::tuple<Ts...>& other){
  return aux::tie_all_(other, gen_seq<sizeof...(Ts)>());

The code is used like this: WrapperTuple w(tie_all(t));. Now you can get rid of the Member const& constructor.

You could even go further and write a function that turns a tuple into a wrapper tuple, thus getting rid of having to specify the type manually:

template<class... Ts>
std::tuple<A<Ts>...> wrap_all(std::tuple<Ts...>& other){
  return tie_all(other);
// ...
auto w(wrap_all(t));

And if you have different wrapper classes:

template<template<class> class Wrapper, class... Ts>
std::tuple<Wrapper<Ts>...> wrap_all_in(std::tuple<Ts...>& other){
  return tie_all(other);
// ...
auto w = wrap_all_in<A>(t);
share|improve this answer
Your answer is just great thank you very much. But VS2012 is not supporting variadic templates at the moment. I have been trying to make this happen with recursive templates for like two hours now but I failed. It would be great if you can help with that situation. –  zahir Nov 29 '12 at 13:12
@zahir: You can download the November CTP which has an early implementation of variadic templates and try to get this to work. The recursive version would be just... ugly, and I'm not even sure it would work in VC11. :s –  Xeo Nov 29 '12 at 13:17
It is going to be tough to convince other people in project to install a CTP to work, but eventually your answer will be correct (assuming VC++ team in MS will come up with C++11 conformance). Just another thought, your answer has actually a more broader usage for mapping tuple elements into something else (like projection in relational algebra or select clause of a linq query) –  zahir Nov 29 '12 at 17:56
@zahir: Yes, the indices trick as we call it has lots of uses for expanding tuples, packs, arrays, general containers and just about anything else. –  Xeo Nov 29 '12 at 18:26

Why don't you just create wrapped_tuple template that wraps the whole tuple and provides an implementation of get? It seems redundant to hold references to individual tuple elements, since the tuple has a fixed layout and the compiler can emit trivial code to reference an individual element given a reference to the tuple.

For example (and doing this without variadic templates, which is a bit annoying):

template<typename Tuple> class wrapped_tuple;

template<size_t I, typename Tuple>
typename std::tuple_element<I, Tuple>::type&
Get(wrapped_tuple<Tuple>& w) {
  return std::get<I>(w.tuple_);

template<typename Tuple> class wrapped_tuple {
  template<size_t I, typename Uple>
  friend typename std::tuple_element<I, Uple>::type&
         ::Get(wrapped_tuple<Uple>& w);
    wrapped_tuple(Tuple& t) : tuple_(t) {}
    Tuple& tuple_;

template<typename Tuple>
wrapped_tuple<Tuple> wrap_tuple(Tuple& tup) {
  return wrapped_tuple<Tuple>(tup);

Here on ideone.

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Thanks for the answer, it is valid for the question I asked (My first question so please excuse me) but I have got some other utilities working with tuples and tuple utility functions so that I will need to implement those utilities for wrapper tuple too. Therefore Xeo's generic solution is a better match for me. –  zahir Nov 29 '12 at 17:58
@zahir, fair enough. You could easily make std::get and std::tuple_element work with my wrapper (or, possibly better, use unqualified get and tuple_element combined with using std::get; using std::tuple_element and ADL). Anyway, that's the way I'd approach the problem but YMMV. –  rici Nov 29 '12 at 18:02

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