Is there a good way to use std::tie and create a new variable in one go? In other words, if a function returns an std::tuple and we want to ultimately break up the result into individual components, is there a way to do these assignments without defining variables beforehand?

For example, consider the following code:

#include <tuple>

struct Foo {
    Foo(int) {}
struct Bar{};

std::tuple <Foo,Bar> example() {
    return std::make_tuple(Foo(1),Bar()); 

int main() {
    auto bar = Bar {};

    // Without std::tie
        auto foo_bar = example();
        auto foo = std::get<0>(std::move(foo_bar));
        bar = std::get<1>(std::move(foo_bar));

    // With std::tie
    #if 0
        // Error: no default constructor
        Foo foo;
        std::tie(foo,bar) = example();


Basically, the function example returns a tuple. We already have a variable of type Bar that we want to assign into, but we need a new variable of type Foo. Without std::tie, we don't need to create a dummy instance of Foo, but the code requires us to put everything into a std::tuple first and then divide it. With std::tie, we have to allocate a dummy Foo first, but we don't have a default constructor to do so. Really, we're pretending that the constructors for Foo are complicated, so creating a dummy value first is undesirable. Ultimately, we'd just like to assign into both foo and bar, but want to do this assignment and allocate memory for Foo at the same time.

  • 2
    my head hurts reading the code, which is a sure sign that simpler logic is called for. Short answer is no. returning a tuple of values is a very efficient way to return and allocate. tie:: is just there to unpack values. If you must do this, consider tie-ing to a boost::optional<Foo> – Richard Hodges Mar 28 '15 at 0:31
  • The fact that Bar contains a Foo seems to be a setup for a failure. Once you divorce (extract) Foo from Bar, that 50% of Bar becomes "valid but potentially indeterminate / not otherwise specified". – rwong Mar 28 '15 at 0:35
  • One way to work around the need to separate them is for every other class that used to split a Foo from a Bar to simply accept a Bar and use its member Foo, or to keep Bar alive and pass around references to Foo. – rwong Mar 28 '15 at 0:37
  • 2
    There was a related discussion about a potential proposal related to this problem, check it out here: groups.google.com/a/isocpp.org/forum/#!topic/std-proposals/… – Mikael Persson Mar 28 '15 at 4:56
  • 1
    Because 'memory allocation' typically refers to dynamic memory allocation I rephrased the question in terms of variable definition/creation. Can I suggest you cut down your example? I think a lot of stuff is unnecessary. I believe the essence of what you are after can be boiled down to something like this. – Luc Danton Mar 28 '15 at 12:32

This feature is called structured bindings in C++17. Very welcome addition!

Sample usage:

#include <iostream>
#include <tuple>

int main()
    auto tuple = std::make_tuple(1, 'a', 2.3);

    // unpack the tuple into individual variables declared at the call site
    auto [ i, c, d ] = tuple;

    std::cout << "i=" << i << " c=" << c << " d=" << d << '\n';

    return 0;

Tested in GCC 7.2 with -std=c++17.


@MikaelPersson had the right link. Basically, there's no great way to do this. Though, there are some clever ways based on N3802. Namely, use

// This comes from the N3802 proposal for C++
template <typename F, typename Tuple, size_t... I>
decltype(auto) apply_impl(F&& f, Tuple&& t, std::index_sequence<I...>) {
    return std::forward<F>(f)(std::get<I>(std::forward<Tuple>(t))...);
template <typename F, typename Tuple>
decltype(auto) apply(F&& f, Tuple&& t) {
    using Indices =
    return apply_impl(std::forward<F>(f), std::forward<Tuple>(t), Indices{});

Then, write

// With compose
    auto foo = apply([&bar](auto && foo,auto && bar_) {
        return std::move(foo);
    }, example());

And, yes, this whole thing is ugly, but the situation did come up in some instance I had. Nevertheless, as @MikaelPersson's link shows, this is a general issue and not one fully resolved yet.

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