For std::unique_ptrs p1 and p2, what are differences between std::move() and std::unique_ptr::reset()?

p1 = std::move(p2);


3 Answers 3


The answer should be obvious from the standard's specification of move assignment in [unique.ptr.single.assign]/2:

Effects: Transfers ownership from u to *this as if by calling reset(u.release()) followed by an assignment from std::forward<D>(u.get_deleter()).

Clearly move assignment is not the same as reset(u.release()) because it does something additional.

The additional effect is important, without it you can get undefined behaviour with custom deleters:

#include <cstdlib>
#include <memory>

struct deleter
  bool use_free;
  template<typename T>
    void operator()(T* p) const
      if (use_free)
        delete p;

int main()
  std::unique_ptr<int, deleter> p1((int*)std::malloc(sizeof(int)), deleter{true});
  std::unique_ptr<int, deleter> p2;
  std::unique_ptr<int, deleter> p3;

  p2 = std::move(p1);  // OK

  p3.reset(p2.release());  // UNDEFINED BEHAVIOUR!
  • Do you mean that for the deleter of p3, use_free is uninitialized?
    – chaosink
    Aug 10, 2019 at 12:34
  • 1
    @chaosink no, it's initialized to false, which means it will do delete p which is wrong for a pointer obtained from malloc. Aug 12, 2019 at 11:08

The first one is capable of warning you if there is a destructor mismatch, for example. In addition, release() is a very dangerous function, and your trivial example is correct but many other uses are not. It's best to simply never, ever use this function.

  • 3
    @Ali Since reset doesn't have any preconditions, you can always call it, since any move is specified to leave the moved from object in an unsdefined but valid state, which makes the use of any function without preconditions always valid. It's just when relying on certain preconditions (like the pointer being nullptr, but maybe even that is guaranteed for std::unique_ptr by standard) which requires you to first check the respective condition. Moving doesn't invalidate an object in any way, that's a common misunderstanding. Dec 13, 2012 at 13:11
  • 2
    @Ali after any move, the object is guaranteed to be in a valid, but indeterminate state. std::unique_ptr makes a further guarantee that it will be a null pointer after being moved from. Dec 13, 2012 at 13:12
  • 3
    @Ali: It's so dangerous because basically the only safe thing you can do with the return value is put it right back in another unique_ptr<T, Del>. Virtually anything else will lead to things like deleter mismatches, memory leaks, or double deletes.
    – Puppy
    Dec 13, 2012 at 13:14
  • 4
    If the deleters don't match the first one isn't just capable of warning, it will refuse to compile. This is a Good Thing Dec 13, 2012 at 13:36
  • 1
    Also, the first one will move the requisite deleter, I believe, whereas the second will make no change to any deleter state.
    – Puppy
    Dec 13, 2012 at 13:49

The second version might not be exception safe, I think. It is equivalent to:

auto __tmp = p2.release();

Thus if the call to std::unique_ptr::reset throws (which may be the case if the deletion of the managed object throws), then you have an unreferred object which won't get destroyed ever. In case of the move assignment, the std::unique_ptr can (and should) wait with the actual move until p1's original object has been destroyed properly.

But note, that this is only a problem if the destructor of the managed object could throw, which is in nearly all cases wrong in itself, or if you use a custom deleter which might throw. So in practice there isn't usually any behavioural difference between the two code snippets.

EDIT: In the end Jonathan points out in his comment, that the custom deleter is required by the standard not to throw, which indeed makes the throwing of std::unique_ptr::reset pretty unlikely/non-conformant. But he also points out that there is another difference, in that only a move assignment also moves any custom deleters, which he has also written an answer for.

But disregarding actual resulting behaviour, there is a huge conceptual difference between the two. If a move assignment is appropriate, then do a move assignment and try not to emulate it by some other code. In fact I cannot image any reason to replace the first code snippet one-to-one by the second. DeadMG is right in that std::unique_ptr::release should only be used if you really know what you're doing and in which context you're messing with unmanaged dynamic objects.

  • "So in practice there isn't usually any behavioural difference between the two code snippets." This is not true, one moves the deleter and one doesn't. This is very important if the deleter is stateful. Dec 13, 2012 at 13:30
  • 2
    Y'know, std::unique_ptr's move assignment operator is specified as "Transfers ownership from u to *this as if by calling reset(u.release()) [...]". The standard relies heavily on destructors not throwing.
    – Xeo
    Dec 13, 2012 at 13:31
  • @JonathanWakely Hah, right! Didn't think too much about custom deleters. Dec 13, 2012 at 13:32
  • Also, deletion of the managed object must not throw exceptions, see [unique.ptr.single.modifiers]/3 Dec 13, 2012 at 13:33
  • @Xeo But does it also rely on deleters not throwing? In then end after Jonathan's comment this standard quote seem a bit too general at all, even for an "as if"-sentence. Dec 13, 2012 at 13:33

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