Is that really so? I thought storage re-use was fine.

Hmm, guess you're right. There are still alignment issues here though.

Yeah what I meant was I thought storage re-use was fine to the point that the deletion would be well-defined. But I had a quick scan through the relevant standardese and there's nothing to that effect

@FrançoisAndrieux Seems the standard requires the type of the thing you delete to match the thing you got back from new, regardless. Which seems like a bit of a bastard actually if that thing has been replaced.

This is true new[] ... delete is a problem. I though of the other points but not to that one. Nice catch.

@FrançoisAndrieux Yes, but the actual dynamic allocation wasn't a T, and that is a problem. delete needs the same type new used.

@FrançoisAndrieux Yeah but that's not the new that allocated and it's not the new that the delete is to match - it's a separate thing

Oh I see it now. Seems like you would need a deleter that calls ~T and then deletes a std::byte[]? Seems odd to delete an array of objects that don't exist anymore.

Yeah I think that's Nathan's suggestion, and at first glance it seems appropriate. But, thinking about it, since we're to give delete a pointer of what is no longer the type of the actual stuff in the storage, is that even well-defined? Are we in a no-win situation?

Would it be sufficient to have a deleter that does ptr->~T(); delete[] ptr;? Edit : Might have to cast the pointer to std::byte* first, or maybe void* since you don't want a destructor call anyway. Edit 2 : deleteing a void* might be UB if it compiles at all.

@FrançoisAndrieux maybe ptr->~T(); delete[] reinterpret_cast<std::byte*>(ptr);?

@LightnessRacesinOrbit It should be legal to give ::delete the pointer cast back to the source type.

@NathanOliver Seems reasonable, though I think the lifetime of the array is over once you placement new over it. I'm not sure whether or not that's a problem. If it was an array of a more complex type, you would have needed to call the destructors ahead of the placement new so it would definitively not be OK (delete[] would destroy them again). Not sure if trivial types have an exemption for this.

@FrançoisAndrieux you could placement-new the array back after destroying T if that's the case. But I would hope that's not necessary for array of trivial type.

@FrançoisAndrieux to complete my previous comment: You couldn't actually use array-placement-new because of silliness of the standard. You would need to construct individually in a loop. Then there is possibility of exception in their constructor which cannot be dealt with neatly because we are in a destructor. In conclusion: Reusing memory of non-trivial types is a trap.

@eerorika Yes, I assumed you meant construct the elements in a loop. But many default constructors are non-throwing. It's just like std::vector in a way. If you are using a non-copyable type with a throwing move constructor and assignment operator in an std::vector you are asking for trouble. It seems unwise to reuse the storage of an array of non-trivial types but if those types have non-throwing default constructors I don't see why it couldn't be made to work safely. But if you tried with an array of elements that can't safely be constructed, it's doubly your problem.

I thought the whole point of matching new with delete and new[] with delete[] was that the in-heap representation could be different, e.g., the array alloc/dealloc had to remember - somewhere - the size of array and that might make the alloc/dealloc different. With some heap implementations it may not matter - but it some it might!

@FrançoisAndrieux done

I'm still wary of this. If the original new created something non-trivial that you destructed before re-using the storage, the final delete (if you cast to the original pointer type) is going to invoke destructors wrongly, no? This can't be what the standard wants us to do, surely. [edit: er, so what François said, in other words :P]

@LightnessRacesinOrbit I think all bets are off if you use a non trivial type as the base for placement new. There might be some way to make it legal but IDK. since std::byte is a trivial type it is fine in this case.

@LightnessRacesinOrbit eerorika proposed earlier that you might be able to placement new the elements back into the original array before delete[]. In any case it sounds like a bad idea for a design, but it might be possible to make it work reliably. Edit : Though it seems like a topic for another question.

@NathanOliver I didn't get your last sentence about new (memory.release()) T(). Why would the memory own by that T be reused?

@YSC I've edited it to make it more clear. Let me know if that makes sense now.

@NathanOliver "if you use type that has non trivial destruction" you mean std::byte? If yes I totally agree and get it.

@YSC Yes. I'm talking about the original type (std::byte)

@FrançoisAndrieux Yeah but if T is heavy you don't want to be creating objects solely to regain the privilege of destroying them :D If we're interpreting this right then I reckon this is a design flaw because there is specific wording for reusing storage of non-trivial things so we're clearly supposed to be able to do it