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When a function should take a shared_ptr (from boost or C++11 STL), are you passing it

  • by const reference: void foo(const shared_ptr<T>& p)

  • or by value: void foo(shared_ptr<T> p) ?

I would prefer the first method because I suspect it to be faster. But is this really worth a though or are there any additional issues?

Could you please give the reasons for your choice or if the case, why you think that it does not matter.

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The problem is those aren't equivalent. The reference version screams "I'm going to alias some shared_ptr, and I can change it if I want.", while the value version says "I'm going to copy your shared_ptr, so while I can change it you'll never know.) A const-reference parameter is the real solution, which says "I'm going to alias some shared_ptr, and I promise not to change it." (Which is extremely similar to by-value semantics!) – GManNickG Jul 22 '10 at 16:01
Hey i would be interested in your guys opinion about returning a shared_ptr class member. Do you do it by const-refs? – Johannes Schaub - litb Jul 22 '10 at 16:01
Third possibility is to use std::move() with C++0x, this swaps both shared_ptr – Tomaka17 Jul 22 '10 at 16:04
@Johannes: I would return it by const-reference just to avoid any copying/ref-counting. Then again, I return all members by const-reference unless they're primitive. – GManNickG Jul 22 '10 at 16:31
possible duplicate of C++ - pointer passing question – kennytm Jul 22 '10 at 17:02
up vote 78 down vote accepted

This question has been discussed and answered by Scott, Andrei and Herb during Ask Us Anything session at C++ and Beyond 2011. Watch from 4min 34sec on shared_ptr performance and correctness.

Shortly, there is no reason to pass by value, unless there is multi-threading going on, but this needs to be considered separately.

Unless, you can move-optimise it as explained by Scott Meyers in the talk video linked above, but that is related to actual version of C++ you can use.

A major update to this discussion has happened during GoingNative 2012 conference's Interactive Panel: Ask Us Anything! which is worth watching, especially from 22:50.

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Thank you for pointing to the right location for reference. – q0987 Apr 3 '12 at 17:07
but as shown here it is cheaper to pass by value: shouldn't that be taken into account as well (at least for constructor arguments etc where a the shared_ptr is going to be made a member of the class)? – stijn Jan 8 '13 at 11:12
@stijn Yes and no. The Q&A you point is incomplete, unless it clarifies version of the C++ standard it refers to. It is very easy to spread general never/always rules which are simply misleading. Unless, readers take time to get familiar with David Abrahams article and references, or take posting date vs current C++ standard into account. So, both answers, mine and the one you pointed, is correct given the time of posting. – mloskot Jan 8 '13 at 12:14
agreed - I was asking because the question here is pretty old while your nswer is much more recent. Maybe you should state in the answer that it's more focused on pre C++11? – stijn Jan 8 '13 at 12:34
@stijn I've updated the answer. – mloskot Jan 8 '13 at 12:48

Personally I would use a const reference. There is no need to increment the reference count just to decrement it again for the sake of a function call.

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Go with the const reference – Nate W. Jul 22 '10 at 15:51
Why the downvote? This question essentially boils down to a matter of preference. I gave a reasonable explanation for my preference... – Evan Teran Jul 22 '10 at 17:51
I did not down-vote your answer, but before this is a matter of preference, there are pros and cons to each of the two possibilities to consider. And it would be good to know and discuss theses pros and cons. Afterwards everyone can make a decision for himself. – Danvil Jul 28 '10 at 12:18
@Danvil: taking into consideration of how shared_ptr works, the only possible downside to not passing by reference is a slight loss in performance. There are two causes here. a) the pointer aliasing feature means to pointers worth of data plus a counter (maybe 2 for weak refs) is copied, so it is slightly more expensive to copy the data round. b) atomic reference counting is slightly slower than plain old increment/decrement code, but is needed in order to be thread safe. Beyond that, the two methods are the same for most intents and purposes. – Evan Teran Jul 29 '10 at 2:02

Pass by const reference, it's faster. If you need to store it, say in some container, the ref. count will be auto-magically incremented by the copy operation.

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Please say why you down-vote. – Nikolai N Fetissov Jan 8 '13 at 14:59

Here's Herb Sutter's take

Guideline: Don’t pass a smart pointer as a function parameter unless you want to use or manipulate the smart pointer itself, such as to share or transfer ownership.

Guideline: Express that a function will store and share ownership of a heap object using a by-value shared_ptr parameter.

Guideline: Use a non-const shared_ptr& parameter only to modify the shared_ptr. Use a const shared_ptr& as a parameter only if you’re not sure whether or not you’ll take a copy and share ownership; otherwise use widget* instead (or if not nullable, a widget&).

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Thanks for the link to Sutter. It is an excellent article. I disagree with him on widget*, preferring optional<widget&> if C++14 is available. widget* is too ambiguous from old code. – Eponymous Jan 9 '15 at 15:57
+1 for including widget* and widget& as possibilities. Just to elaborate, passing widget* or widget& is probably the best option when the function is not examining/modifying the pointer object itself. The interface is more general, as it doesn't require a specific pointer type, and the performance issue of the shared_ptr reference count is dodged. – tgnottingham Sep 2 '15 at 19:33

I ran the code below, once with foo taking the shared_ptr by const& and again with foo taking the shared_ptr by value.

void foo(const std::shared_ptr<int>& p)
    static int x = 0;
    *p = ++x;

int main()
    auto p = std::make_shared<int>();
    auto start = clock();
    for (int i = 0; i < 10000000; ++i)
    std::cout << "Took " << clock() - start << " ms" << std::endl;

Using VS2015, x86 release build, on my intel core 2 quad (2.4GHz) processor

const shared_ptr&     - 10ms  
shared_ptr            - 281ms 

The copy by value version was an order of magnitude slower.
If you are calling a function synchronously from the current thread, prefer the const& version.

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Can you say what compiler, platform, and optimization settings you used? – Carlton Aug 26 '15 at 13:28
I used the debug build of vs2015, updated the answer to use the release build now. – tcb Aug 26 '15 at 13:53
I'm curious if when optimisation is turned on, you get the same results with both – Elliot Woods Jan 18 at 11:39

shared_ptr isn't large enough, nor do its constructor\destructor do enough work for there to be enough overhead from the copy to care about pass by reference vs pass by copy performance.

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Have you measured it? – curiousguy Oct 30 '11 at 4:29
@stonemetal: What about atomic instructions during creating new shared_ptr? – Quarra Oct 22 '14 at 14:37

Not knowing time cost of shared_copy copy operation where atomic increment and decrement is in, I suffered from much higher CPU usage problem. I never expected atomic increment and decrement may take so much cost.

Following my test result, int32 atomic increment and decrement takes 2 or 40 times than non-atomic increment and decrement. I got it on 3GHz Core i7 with Windows 8.1. The former result comes out when no contention occurs, the latter when high possibility of contention occurs. I keep in mind that atomic operations are at last hardware based lock. Lock is lock. Bad to performance when contention occurs.

Experiencing this, I always use byref(const shared_ptr&) than byval(shared_ptr).

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