#include <iostream>

class NoCopyMove {
    NoCopyMove(int a) : a_(a), b_(a) {}
    NoCopyMove(int a, int b) : a_(a), b_(b) {}

    NoCopyMove(const NoCopyMove&) = delete;
    NoCopyMove& operator=(const NoCopyMove&) = delete;
    NoCopyMove(NoCopyMove&&) = delete;
    NoCopyMove& operator=(NoCopyMove&&) = delete;

    int a_;
    int b_;

int main()
    std::tuple<NoCopyMove, NoCopyMove> t {6, 9};
    std::cout << std::get<0>(t).a_ << std::endl;   
    std::tuple<NoCopyMove, NoCopyMove> t2 {{6, 7}, {8, 9}};
    return 0;

I'm trying to make a tuple of classes that has more than 2 arguments as their constructor. If there is just one constructor argument it works.

main.cpp:45:28: error: no matching constructor for initialization of 'std::tuple<NoCopyMove>'
    std::tuple<NoCopyMove> t2 {{6, 7}, {8, 9}}};
                           ^  ~~~~~~~~~~~~~~~~

Probably some kind of hint to the compiler would be needed but I have no idea how I could do that. Any kind of keyword and hint will be appreciated.

  • 4
    A side note: I think you have a typo: {8, 9}}}; should be {8, 9}}; (i.e. only 2 }).
    – wohlstad
    Feb 28, 2023 at 8:42
  • 1
    Also from the compiler error it seems you are instantiating a tuple with only one element of type NoCopyMove.
    – chrysante
    Feb 28, 2023 at 8:45
  • Tuple is not an aggregate, so it can't be initialized using aggregate initialization, and when you look at expression {{6, 7}, {8, 9}} - it probably have type something like std::initializer_list<std::initializer_list<int>> or something similar which doesn't match nor tuple nor your constructor.
    – sklott
    Feb 28, 2023 at 8:53
  • 1
    Just one excessive closing brace. Remove it, and report back please.
    – Red.Wave
    Feb 28, 2023 at 10:06
  • 1
    Side note: purpose of tuple is to store some data for later in generic programing. IMPO using tuples outside of templates makes code harder to read and maintain. So from that point of view if you have some generic code which needs keep data for later use, then your class you have problem with (NoCopyMove) do not meet requirements of this generic code. If you do not have generic code, then define struct which will be tailored to store and construct NoCopyMove with multiple arguments.
    – Marek R
    Feb 28, 2023 at 10:26

2 Answers 2


Aside from the extraneous closing brace, there is no way you can construct a tuple of uncopyable and immoveable types like this. std::tuple does not support piecewise or 'emplace-style' construction and as mentioned in the comments it is also not an aggregate, so it needs to copy or move the individual elements in place. The constructor you would expect to be chosen here is the one which takes each type in the tuple by const & and quoting cppreference:

This overload participates in overload resolution only if sizeof...(Types) >= 1 and std::is_copy_constructible::value is true for all i.

However your types are not copy constructible, so you are out of luck if this really is what you need to do.

std::tuple<NoCopyMove, NoCopyMove> t2 {{6, 7}, {8, 9}}};

is actually

std::tuple<NoCopyMove, NoCopyMove> t2 {NoCopyMove{6, 7}, NoCopyMove{8, 9}}};

and so requires move or copy constructor.

In C++17, with mandatory copy elision, with extra layer

template <typename... Ts>
struct Args
    Args(Ts... args) : tuple{std::forward<Ts>(args)...} {}

    template <typename T>
    operator T() && { return std::make_from_tuple<T>(std::move(tuple)); }

    std::tuple<Ts...> tuple;

template <typename... Ts>
Args(Ts&&...) -> Args<Ts&&...>;

you might do:

std::tuple<NoCopyMove, NoCopyMove> t2 {Args{6, 7}, Args{8, 9}}};


And so you construct in place NoCopyMove from Args{..}.

  • 1
    Note that this question is tagged C++14, but this answer requires at least C++17 for make_from_tuple, CTAD, and mandatory prvalue copy elision. Feb 28, 2023 at 21:54
  • @MilesBudnek: indeed. whereas make_from_tuple can be reimplemented, and CTAD replaced by makeArgs, there are no replacement for mandatory prvalue copy elision :/
    – Jarod42
    Mar 1, 2023 at 14:27
  • Could you explain more precisely why the copy elision kicks in? std::tuple<SomeStruct> t{SomeStruct{someArgs...)} gives 2 objects: the one in the tuple and the temporary. std::tuple<SomeStruct> t{Args{someArgs...)} gives only one object. Isn't the conversion constructing also a SomeStruct temporary?
    – Oersted
    Apr 8 at 14:44

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