This pop method needs a copy constructor. But I don't want to have this. I want that no constructor or the move constructor of the item is called. How must I implement it?

auto pop() {
    std::unique_lock<std::mutex> lock(mutex_);
    cond_.wait(lock, [this]() {return queue_.empty() == false; });

    T& item = queue_.front();

    return item;

T& item = queue_.front() requies a copy constructor after the compiler error message.

  • the quesiton is unclear. Is queue_ a std::queue ? std::queue::front() does not require copy nor move. Please post a minimal reproducible example, and include the compiler error in the question. I guess the issue you are having is actually from return item. Feb 12 at 9:56
  • 1
    There's no way to utilise copy ellision when you have to both remove element from container and pass it to somewhere else. It has to be copied or moved. Feb 12 at 9:56
  • In some way the "ownership" of the data has to be passed back from the queue to the caller (because after a pop, the queue is no longer the owner of the data). That includes, copy move or some modeling of shared ownership of the items in the queue (e.g. shared_ptr). Feb 12 at 9:59
  • 4
    item is a dangling reference after you called queue_.pop(). And auto return type is not deduced as reference, I suppose thats the error you currently face. Though that error saved you from more serious trouble. Feb 12 at 10:00
  • 2
    If you don't want constructors of T to be called, one way would be to store std::unique_ptr<T> in the queue instead and return that pointer. Feb 12 at 10:21

1 Answer 1


I want that no constructor or the move constructor of the item is called

Then you must make your code satisfy the conditions for return value optimization. It's a non-guaranteed form of copy elision that allows the compiler to either

  • Create no temporary return object.
  • If impossible, just move into the return object.

To accomplish that, you must return a local object, not a reference. In the code snippet you've shown, this is the minimal change to accomplish that:

T item = std::move(queue_.front());

We extract the item from the queue by moving, so move only types can work here.

When we do return item; it satisfies the conditions for return value optimization, and the return object is at most moved again whenever possible.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.