See this answer for how to insert into without making copies of the map value.

std::map emplace without copying value

Continueing from that answer - suppose my Foo type looks something like this:

struct Foo {
  const int& intref_; 
  std::mutex mutex_;

Then initialized using aggregate-initialization like this



Foo{7, std::mutex()}

Would it be somehow possible to be emplaced into the map with type ?:

std::map<size_t, Foo> mymap;

I know I could just write a constructor for Foo - but can it be done with aggregate initialization instead ?

Link to compiler explorer:


Relevant c++ references:



  • Did you try it? What happened when you did? – davidbak Mar 4 at 9:35
  • @davidbak I did try it directly and it doesn't work on any major compiler – darune Mar 4 at 9:36
  • then perhaps a link to a coliru example with the example and compiler error message copied here would make your question better ... just a suggestion – davidbak Mar 4 at 9:39
  • @davidbak I can provide you the small code for the testing - but I do not think it is worth it to provide the compile error I see with a 'naive' approach. – darune Mar 4 at 9:40
  • mutex does not have a copy constructor. Why is the mutex there? Don't you want a new mutex for each object? Do you want all objects to share the same mutex? Or each object have it's own? – Kamil Cuk Mar 4 at 9:43

You may exploit casts to indirect your construction

template<typename T>
struct tag { using type = T; };

template<typename F>
struct initializer
    F f;
    template<typename T>
    operator T() &&
        return std::forward<F>(f)(tag<T>{});

template<typename F>
initializer(F&&) -> initializer<F>;

template<typename... Args>
auto initpack(Args&&... args)
    return initializer{[&](auto t) {
        using Ret = typename decltype(t)::type;
        return Ret{std::forward<Args>(args)...};

And use it as

struct Foo
  const int& intref_; 
  std::mutex mutex_;

void foo()
    int i = 42;
    std::map<int, Foo> m;

Note you can't prolong a temporary's lifetime by binding it to a non-stack reference.


It's not insomuch a problem with std::map::try_emplace, as it is with std::pair. As this simple declaration will reproduce an error rooted in the same problem:

std::pair<const int, Foo> p(

And it's not really a problem with std::pair alone. As the abstract of n4462 details, it's pretty prevalent. Simply put, that pair c'tor (as do many library functions) does its forwarding like this:


So no curly braces, and as such no aggregate initialization, only value initialization. Your only options today are to define an actual c'tor, or use something like Passer By's clever solution.

There is a paper in flight (p0960) that is meant to address it in future standard revisions, but only time will tell how that will evolve.

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