I have this simple example holder class which is explicitly non-moveable:

template <typename T>
struct holder
    holder() = default;

    holder(const holder& b)
        : t(b.t)

    holder(holder&& b) = delete;

    holder& operator=(const holder& b)
        t = b.t;
        return *this;

    holder& operator=(holder&& b) = delete;

    T t;

The following type is therefore also implicitly non-copyable (because of std::unique_ptr being such):

typedef holder<std::unique_ptr<int>> ptr;

So, as I would expect if I have a function like ptr foo();, calling it by either auto x = foo; or ptr x; x = foo(); produces a compilation error that a deleted function is being called.

However if I introduce another type a vector of ptr like so:

typedef std::vector<ptr> vec;

vec foo();

int main()
    vec x = foo();
    x = foo();
    return 0;

...this compiles fine.

How come? How does this even work?

(an example of the successful compilation can be found here)

  • 7
    But vector itself is still moveable (just a pointer & size swap) Commented Aug 19, 2016 at 8:04

1 Answer 1


Let alone RVO, a vector is movable independently from the element type's characteristics.

  • Indeed! When moving a vector there is no need to move its individual elements. How silly of me... Commented Aug 19, 2016 at 8:11

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