I didn't find information about performance issues with auto_ptr and shared_ptr(I use tr1 implementation). As shared_ptr is more complicated compared to auto_ptr so auto_ptr is faster? So in general question sounds like what can you say about performance of shared_ptr with comparison with auto_ptr?

PS: I know that now unique_ptr is preferable than auto_ptr, but not all compilers support it, so question is about auto_ptr and shared_ptr

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    There's probably a reason you didn't find such information. It's apples to oranges. – R. Martinho Fernandes Jun 12 '12 at 13:52
  • You should build a realistic use-case and profile it. – juanchopanza Jun 12 '12 at 13:53
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    @R.MartinhoFernandes: not really, no. It's a valid question with an answer that one might not have guessed without, uh, reading the documentation... – Cheers and hth. - Alf Jun 12 '12 at 13:58
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    It's not really apples to oranges. Its more like Fuji apples to granny Smith apples. – John Dibling Jun 12 '12 at 15:05
  1. When dereferencing there are no performance differences.

  2. If you allocate your shared_ptr's with make_shared you don't waste any heap allocations.

  3. When copying the pointer (not the object), a shared_ptr is a little bit slower because it needs to increase it's reference counter.

However, these probably does not matter, so stick with shared_ptr combined with make_shared.

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    shared_ptr is greedy, once it grabs hold of a pointer it never let's go (without deleting it), which to me is the most limiting factor. unique_ptr or auto_ptr can both relinquish ownership and allow the user to select any other type of pointer they may want. – David Rodríguez - dribeas Jun 12 '12 at 14:06
  • I agree with David. shared_ptr should not be your default smart pointer. It's heavy and it's forever. – R. Martinho Fernandes Jun 12 '12 at 14:09
  • @David: that's true, but it's not a comparison of the performance of the two. By definition you can only compare the performance of things that they both do. Things that only auto_ptr does, and shared_ptr doesn't, aren't part of a performance comparison. If the questioner needs facilities that shared_ptr doesn't have, then there's worse things wrong with this question than just the risk of somebody advising the use of shared_ptr :-) – Steve Jessop Jun 12 '12 at 14:13
  • @SteveJessop: Then the cost of copying should also be out of the equation, should it not? – David Rodríguez - dribeas Jun 12 '12 at 14:14
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    @R.MartinhoFernandes And it is unreliable---it can't handle cycles (admittedly, auto_ptrs way of avoiding them is somewhat brutal), and above all, if you make a shared_ptr twice from the same raw pointer, you're in deep trouble. – James Kanze Jun 12 '12 at 15:39

auto_ptr is a deprecated C++98 construct. As such, any performance benefit it might have is far outweighed by the fact that you shouldn't use it anymore in newly-written C++11 code, and instead badger the compiler / library maintainers to implement support for unique_ptr.

That being said, use what semantically fits your use case, unless you have profiled that you have a problem with *_ptr...


As with all performance issues: you need to measure it for yourself in your particular setup.

In general, though, you can expect some more overhead for a shared_ptr<> than for auto_ptr<> as it has to do some more work behind the scene to ensure proper shared behavior for the enclosed pointer.

On the other hand, the two are not really comparable: auto_ptr<> supports only one copy (the ownership is transfered on copy), while shared_ptr<> supports multiple copies. So unless you only use the above pointers for one copy-pointer, you cannot make a meaningful comparision. If you do use one-copy pointer and you are sure you will not need more copies, use the specialized auto_ptr<>.

In any case, whether the performance differences are significant depends on your particular project.


In general the only good answer is to measure.

But for this case you know that shared_ptr, unless you're using make_shared it involves a dynamic allocation of a counter block, and unless you have a really good small objects allocator, it's bound to be really slow (talking orders of magnitude) to create the first shared pointer to an object.

But then, perhaps with Boost and the standard library that allocation is really optimized. And maybe, probably!, you can use make_shared to use just 1 allocation for both the object and its control block. So … measure.

By the way, auto_ptr is deprecated.

With any modern compiler use unique_ptr instead.

  • Hmmm. It's only been a year since the standard has been adopted. It usually takes compiler writers five or more years for the new features to stabilize to the point where they can be used in production code. I'd says that auto_ptr is the way to go for most production code today. – James Kanze Jun 12 '12 at 15:36
  • @JamesKanze I see the practicality of your point, but it is the new standard, so why write code using a deprecated function? (It's deprecated in C++11 and people like Stephan Lavavej recommend not using it.) Is shared_ptr really that experimental? – Chris A. Jun 12 '12 at 15:38
  • Anyway, shared_ptr is more-or-less the same as in TR1, which is 6 years old. It's not as though compiler writers were blindsided by its sudden invention, some time in late 2011, and if nothing else the Boost implementation is fine for most production uses. Granted, unique_ptr is newer, but it's pretty close to the simplest thing you can do with move semantics that isn't completely pointless. You might like to wait 5 years before using it anyway, depending how cautious you are about the quality of your compiler, but you can use it sooner. – Steve Jessop Jun 12 '12 at 16:24
  • Oh, and another option is to implement your own smart pointer which has the same operations as auto_ptr and unique_ptr (construct, destroy, release, transfer ownership), but which doesn't fixate on operator= as the way to transfer ownership, and hence is neither weird like auto_ptr, nor reliant on move like unique_ptr. Personally I would say that's strictly superior to auto_ptr, and hence if you're on an old compiler and dislike shared_ptr, do that. – Steve Jessop Jun 12 '12 at 16:35
  • @ChrisA. Because you can't yet write it using the new function, because your compiler doesn't support it, or its support hasn't been validated with sufficient use. (My employer isn't in the compiler testing business.) And deprecated doesn't mean that it will disappear immediately. (I think some of the features deprecated in Fortran 66 are still around.) – James Kanze Jun 12 '12 at 16:40

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