I have a std::vector named args (I don’t know the size of the vector at compile time) and a non movable type NonMoveable.

I want to create a vector of the same size as args, so that it equals to {NonMovable(args[0], additional_arg), NonMovable(args[1], additional_arg), …, NonMovable(args.back(), additional_arg)}

I don’t need to change the size of the vector later. How do I do that?

I can’t reserve() then emplace_back() because emplace_back() requires moving (to allow reallocation which is not possible in my case)

I do not want to use std::list because it is not contiguous.

  • @BaummitAugen emplace_back() requires MoveInsertable (reserve doesn't) – Barry Mar 1 at 22:18
  • you don't want to use unique_ptr? – andreaplanet Mar 1 at 22:20
  • @andreaplanet, I know about this option, but I'd rather not – RiaD Mar 1 at 22:20
  • 1
    Why not use std::deque, which doesn't require movable? – Mooing Duck Mar 1 at 22:22
  • and what about std::deque::emplace_back ? – andreaplanet Mar 1 at 22:22

You can:

  • Have a vector<unique_ptr<T>> or vector<optional<T>> or vector<some_other_defer_storage_mechanism<T>> instead of just vector<T> - these are all wrapper types that adding some functionality T without affecting T (unique_ptr<T> makes it movable, optional<T> ensures default construction so you can construct with the right size then emplace() within the optional, etc.)
  • Use deque<T> which does not require movability for emplace_back (although you lose Contiguity)
  • Write your own dynamic array that is roughly equivalent to a pair<unique_ptr<T[]>, size_t> that just allocates space for n Ts and then placement-news onto each of them, ensuring that destruction does the right thing. This isn't so bad to implement - since you won't be changing the size, you need to support a very minimal amount of overall operations.

Whichever one of these is the best answer really depends.

  • optional looks like a best choice to me. – SergeyA Mar 1 at 22:28
  • std::optional will not work in this case. Even though it has a default constructor, if it's non movable/copyable, neither will std::optional itself be. And a vector of unique pointers only assures contiguousness of the unique pointers themselves, and not the actual objects. – Sam Varshavchik Mar 1 at 22:53
  • @SamVarshavchik std::optional will work just fine. But really the point of listing a bunch of options is that I don't know exactly what OP needs. – Barry Mar 2 at 2:59

If you want the elements to be contiguous, you could use the good old 2 times dynamic array construction:

// allocate a dynamic array
NonMoveable *mv = std::allocator<NonMoveable>().allocate(args.size());

// use inplace new to construct the NonMoveable elements
for (unsigned int i = 0; i < args.size(); i++) {
    new(mv + i) NonMoveable(args[i], additional_arg);

...  // use the dynamic array

// Explicitely delete the elements
for (unsigned int i = 0; i < args.size(); i++) {

// and de-allocate
std::allocator<NonMoveable>().deallocate(mv, args.size());

It is rather C-ish but meets the contiguous requirement. Of course this should be encapsulated in a custom container to allow automatic destruction and de-allocation at container destruction.

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