62

Given availability of make_unique and make_shared, as well as automatic deletion by unique_ptr and shared_ptr destructors, what are the situations (apart from supporting legacy code) for using new and delete in C++14?

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    And your question would actually be valid back to C++11 too (earlier if you include Boost) – Cory Kramer Jun 10 '15 at 17:15
  • I don't see how this is a duplicate of that question. You still need to use raw pointers even if you never use new and/or delete. – Galik Jun 10 '15 at 17:24
  • I would say when you want to call the special operator new as no_throw, placement new or to implement custom allocator (that you want to wrap anyway in a make_my_unique). – Jarod42 Jun 10 '15 at 17:27
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    @CoryKramer: I mentioned C++14 only because C++11 standard only had make_shared, but not make_unique, and that omission makes new useful. – Michael Jun 10 '15 at 17:27
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    Not worthy of a separate answer, so any answer may copy this - I believe new is still the idiomatic way to perform in-place construction. – Drew Dormann Jun 10 '15 at 18:07
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While smart pointers are preferable to raw pointers in many cases, there are still lots of use-cases for new/delete in C++14.

If you need to write anything that requires in-place construction, for example:

  • a memory pool
  • an allocator
  • a tagged variant
  • binary messages to a buffer

you will need to use placement new and, possibly, delete. No way around that.

For some containers that you want to write, you may want to use raw pointers for storage.

Even for the standard smart pointers, you will still need new if you want to use custom deleters since make_unique and make_shared don't allow for that.

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    You also probably need new if you are working with a pre-existing library that implements some kind of GC (Qt, I am looking at you). – sbabbi Jun 10 '15 at 18:17
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    Interesting. Placement new is a separate beast though. Suppose now that hypothetical C++2x would add place_unique and place_shared, would there still be a need for new/delete? – Michael Jun 10 '15 at 18:25
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    For in-place construction there's std::allocator which allows to cleanly and generically allocate/deallocate and construct/destroy elements. – edmz Jun 10 '15 at 18:26
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    @Michael What in the world is place_shared? Placement new is syntax to directly call a constructor on a block of memory. Non-placement new is about first getting space, then constructing. unique_ptr and shared_ptr are about managing lifetime. make_unique and make_shared are a combo of getting resources, constructing and managing them in a smart ptr. Placement new, because it does not deal in resources (just construction), is orthogonal to resource management. – Yakk - Adam Nevraumont Jun 11 '15 at 15:06
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    @NirFriedman Yes: non-custom placement new is paired with manually calling the destructor in the same way non-placement new is paired with calling delete. In a sense, placement new is only tangentially related to non-placement new: non-placement new effectively calls new, and delete calls the destructor. – Yakk - Adam Nevraumont Jun 11 '15 at 15:07
7

It is a relatively common choice to use make_unique and make_shared rather than raw calls to new. It is not, however, mandatory. Assuming you choose to follow that convention, there are a few places to use new.

First, non-custom placement new (I'll neglect the "non-custom" part, and just call it placement new) is a completely different card game than standard (non-placement) new. It is logically paired with manually calling a destructor. Standard new both acquires a resource from the free store, and constructs an object in it. It is paired with delete, which destroys the object and recycles the storage to the free store. In a sense, standard new calls placement new internally, and standard delete calls the destructor internally.

Placement new is the way you directly call a constructor on some storage, and is required for advanced lifetime management code. If you are implementing optional, a type safe union on aligned storage, or a smart pointer (with unified storage and non-unified lifetime, like make_shared), you will be using placement new. Then at the end of a particular object's lifetime, you directly call its destructor. Like non-placement new and delete, placement new and manual destructor calls come in pairs.

Custom placement new is another reason to use new. Custom placement new can be used to allocate resources from a non-global pool -- scoped allocation, or allocation into a cross-process shared memory page, allocation into video card shared memory, etc -- and other purposes. If you want to write make_unique_from_custom that allocates its memory using custom placement new, you'd have to use the new keyword. Custom placement new could act like placement new (in that it doesn't actually acquire resources, but rather the resource is somehow passed in), or it could act like standard new (in that it acquires resources, maybe using the arguments passed in).

Custom placement delete is called if a custom placement new throws, so you might need to write that. In C++ you don't call custom placement delete, it (C++) calls you(r overload).

Finally, make_shared and make_unique are incomplete functions in that they don't support custom deleters.

If you are writing make_unique_with_deleter, you can still use make_unique to allocate the data, and .release() it into your unique-with-deleter's care. If your deleter wants to stuff its state into the pointed-to buffer instead of into the unique_ptr or into a separate allocation, you'll need to use placement new here.

For make_shared, client code doesn't have access to the "reference counting stub" creation code. As far as I can tell you cannot easily both have the "combined allocation of object and reference counting block" and a custom deleter.

In addition, make_shared causes the resource allocation (the storage) for the object itself to persist as long as weak_ptrs to it persist: in some cases this may not be desirable, so you'd want to do a shared_ptr<T>(new T(...)) to avoid that.

In the few cases where you want to call non-placement new, you can call make_unique, then .release() the pointer if you want to manage separately from that unique_ptr. This increases your RAII coverage of resources, and means that if there are exceptions or other logic errors, you are less likely to leak.


I noted above I didn't know how to use a custom deleter with a shared pointer that uses a single allocation block easily. Here is a sketch of how to do it trickily:

template<class T, class D>
struct custom_delete {
  std::tuple<
    std::aligned_storage< sizeof(T), alignof(T) >,
    D,
    bool
  > data;
  bool bCreated() const { return std::get<2>(data); }
  void markAsCreated() { std::get<2>()=true; }
  D&& d()&& { return std::get<1>(std::move(data)); }
  void* buff() { return &std::get<0>(data); }
  T* t() { return static_cast<T*>(static_cast<void*>(buff())); }
  template<class...Ts>
  explicit custom_delete(Ts...&&ts):data(
    {},D(std::forward<Ts>(ts)...),false
  ){}
  custom_delete(custom_delete&&)=default;
  ~custom_delete() {
    if (bCreated())
      std::move(*this).d()(t());
  }
};

template<class T, class D, class...Ts, class dD=std::decay_t<D>>
std::shared_ptr<T> make_shared_with_deleter(
  D&& d,
  Ts&&... ts
) {
  auto internal = std::make_shared<custom_delete<T, dD>>(std::forward<D>(d));
  if (!internal) return {};
  T* r = new(internal->data.buff()) T(std::forward<Ts>(ts...));
  internal->markAsCreated();
  return { internal, r };
}

I think that should do it. I made an attempt to allow stateless deleters to use no up space by using a tuple, but I may have screwed up.

In a library-quality solution, if T::T(Ts...) is noexcept, I could remove the bCreated overhead, as there would be no opportunity for a custom_delete to have to be destroyed before the T is constructed.

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  • "As far as I can tell you cannot both have the "combined allocation of object and reference counting block" and a custom deleter" I think you can use allocate_shared for that purpose. – dyp Jun 11 '15 at 17:15
  • @dyp How do you inject the custom deleter with allocate_shared? I know how to store extra data, but I don't know how to avoid the destructor of the T from being called when the reference count goes to zero. I guess I could create a buffer with a bool tracking if it has been constructed and a deleter that invokes my custom deletion action, allocate that, use god-mode shared ptr constructor (shared_ptr<T>( shared_ptr<Y>&, T* ) to alias the type of the shared_ptr from a pointer to that to a pointer to T while constructing and setting said bool? Gah, and has a bool of overhead! – Yakk - Adam Nevraumont Jun 11 '15 at 17:26
  • Hmm cppreference claims for allocate_shared that "A copy of alloc is stored as part of the control block so that it can be used to deallocate it once both shared and weak reference counts reach zero." but I can't find such a guarantee in the Standard.. – dyp Jun 11 '15 at 17:29
  • @dyp that deallocation would happen when the weak pointer count goes to zero anyhow, not when the strong pointer count goes to zero. The deleter is called when the strong pointer count reaches zero, and that is what I'm trying to inject into the single-block shared ptr. – Yakk - Adam Nevraumont Jun 11 '15 at 17:31
  • Yes, I was not commenting on the second part of that paragraph (separate deletion of control block and owned object) but on the first part (creation of a shared_ptr with a custom deleter via a single allocation). – dyp Jun 11 '15 at 17:34
4

The only reason I can think of is that occasionally you may wish to use a custom deleter with your unique_ptr or shared_ptr. To use a custom deleter you need to create the smart pointer directly, passing in the result of new. Even this isn't frequent but it does come up in practice.

Other than that it seems that make_shared/make_unique should cover pretty much all uses.

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    is there an error with the design in my answer, which allows you to create a shared_ptr with a custom deleter without calling non-placement new directly? For unique_ptr, it is even easier: create std::unique_ptr<T, D>( make_unique<T>(...).release(), deleter ) -- no call to new! (offer invalid if deleter constructor throws). – Yakk - Adam Nevraumont Jun 11 '15 at 18:20
1

I would say the only reason for new and delete is to implement other kinds of smart pointers.

For example, the library still does not have intrusive pointers as boost::intrusive_ptr, which is a pity since they are superior for performance reasons to shared pointers, as Andrei Alexandrescu points out.

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