If I declare an object wrapped in a shared pointer:

std::shared_ptr<myClass> myClassObject(new myClass());

then I wanted to pass it as an argument to a method:


//the called method
void DoSomething(std::shared_ptr<myClass> arg1)
   arg1->someField = 4;

Does the above simply increment the shared_pt's reference count and everything is cool? Or does it leave a dangling pointer?

Are you still supposed to do this?:


void DoSomething(std::shared_ptr<myClass>* arg1)
   (*arg1)->someField = 4;

I think that the 2nd way may be more efficient because it only has to copy 1 address (as opposed to the whole smart pointer), but the 1st way seems more readable and I do not anticipate pushing performance limits. I just want to make sure there's not something dangerous about it.

Thank you.

  • 16
    const std::shared_ptr<myClass>& arg1 – Captain Obvlious May 31 '12 at 2:01
  • 3
    The second way is broken, the first is idiomatic if you actually need your function to share ownership. But, does DoSomething really need to share ownership? It looks like it should just take a reference instead... – ildjarn May 31 '12 at 2:03
  • 8
    @SteveH : It doesn't, but why should your function force special object ownership semantics on its callers if it doesn't actually need them? Your function does nothing that wouldn't be better as void DoSomething(myClass& arg1). – ildjarn May 31 '12 at 2:05
  • 2
    @SteveH : The entire purpose of smart pointers is to handle out of the ordinary object ownership issues -- if you don't have those, you shouldn't be using smart pointers in the first place. ;-] As to shared_ptr<> specifically, you must pass by value in order to actually share ownership. – ildjarn May 31 '12 at 2:09
  • 4
    Unrelated: in general, std::make_shared is not only more efficient, but also safer than the std::shared_ptr constructor. – R. Martinho Fernandes May 31 '12 at 3:31

I want to pass a shared pointer to a function. Can you help me with that?

Sure, I can help with you that. I assume you have some understanding of ownership semantics in C++. Is that true?

Yeah, I'm reasonably comfortable with the subject.


Ok, I can only think of two reasons to take a shared_ptr argument:

  1. The function wants to share ownership of the object;
  2. The function does some operation that works specifically on shared_ptrs.

Which one are you interested in?

I'm looking for a general answer, so I'm actually interested in both. I'm curious about what you mean in case #2, though.

Examples of such functions include std::static_pointer_cast, custom comparators, or predicates. For example, if you need to find all unique shared_ptr from a vector, you need such a predicate.

Ah, when the function actually needs to manipulate the smart pointer itself.


In that case, I think we should pass by reference.

Yes. And if it doesn't change the pointer, you want to pass by const reference. There's no need to copy since you don't need to share ownership. That's the other scenario.

Ok, got it. Let's talk about the other scenario.

The one where you share the ownership? Ok. How do you share ownership with shared_ptr?

By copying it.

Then the function will need to make a copy of a shared_ptr, correct?

Obviously. So I pass it by a reference to const and copy to a local variable?

No, that's a pessimization. If it is passed by reference, the function will have no choice but to make the copy manually. If it is passed by value the compiler will pick the best choice between a copy and a move and perform it automatically. So, pass by value.

Good point. I must remember that "Want Speed? Pass by Value." article more often.

Wait, what if the function stores the shared_ptr in a member variable, for example? Won't that make a redundant copy?

The function can simply move the shared_ptr argument into its storage. Moving a shared_ptr is cheap because it doesn't change any reference counts.

Ah, good idea.

But I'm thinking of a third scenario: what if you don't want to manipulate the shared_ptr, nor to share ownership?

In that case, shared_ptr is completely irrelevant to the function. If you want to manipulate the pointee, take a pointee, and let the callers pick what ownership semantics they want.

And should I take the pointee by reference or by value?

The usual rules apply. Smart pointers don't change anything.

Pass by value if I'm going to copy, pass by reference if I want to avoid a copy.


Hmm. I think you forgot yet another scenario. What if I want to share ownership, but only depending on a certain condition?

Ah, an interesting edge case. I don't expect that to happen often. But when it happens you can either pass by value and ignore the copy if you don't need it, or pass by reference and make the copy if you need it.

I risk one redundant copy in the first option, and lose a potential move in the second. Can't I eat the cake and have it too?

If you're in a situation where that really matters, you can provide two overloads, one taking a const lvalue reference, and another taking an rvalue reference. One copies, the other moves. A perfect-forwarding function template is another option.

I think that covers all the possible scenarios. Thank you very much.

  • 2
    @Jon: What for? This is all about should I do A or should I do B. I think we all know how to pass objects by value/reference, no? – sbi Jun 7 '12 at 10:14
  • 9
    Because prose like "Does that mean I'll pass it by a reference to const to make the copy? No, that's a pessimization" is confusing to a beginner. Passing by a reference to const does not make a copy. – Jon Jun 8 '12 at 12:20
  • 1
    @Martinho I disagree with the rule "If you want to manipulate the pointee, take a pointee,". As stated in this answer not taking temporary ownership of an object can be dangerous. In my opinion the default should be to pass a copy for temporary ownership to guarantee object validity for the duration of the function call. – radman Mar 9 '13 at 0:16
  • @radman No scenario in the answer you link to applies that rule, so it's completely irrelevant. Please write me a SSCCE where you pass by reference from a shared_ptr<T> ptr; (i.e. void f(T&), called with f(*ptr)) and the object does not outlives the call. Alternatively write one where you pass by value void f(T) and trouble strikes. – R. Martinho Fernandes Mar 9 '13 at 0:44
  • @Martinho check out my example code for the simple self contained correct example. The example is for void f(T&) and involves threads. I think my issue is that the tone of your answer discourages passing ownership of shared_ptr's, which is the safest, most intuitive and least complicated way of using them. I would be extremely against ever advising a beginner to extract a reference to data owned by a shared_ptr<> the possibilities for misuse are great and the benefit is minimal. – radman Mar 9 '13 at 4:52

I think people are unnecessarily scared of using raw pointers as function parameters. If the function is not going to store the pointer or otherwise affect its lifetime, a raw pointer works just as well and represents the lowest common denominator. Consider for example how you would pass a unique_ptr into a function that takes a shared_ptr as a parameter, either by value or by const reference?

void DoSomething(myClass * p);


A raw pointer as a function parameter does not prevent you from using smart pointers in the calling code, where it really matters.

  • 8
    If you're using a pointer, why not just use a reference? DoSomething(*a_smart_ptr) – Xeo May 31 '12 at 3:43
  • 5
    @Xeo, you're right - that would be even better. Sometimes you need to allow for the possibility of a NULL pointer though. – Mark Ransom May 31 '12 at 3:47
  • 1
    If you have a convention of using raw pointers as output parameters it's easier to spot in calling code that a variable may change, e.g.: compare fun(&x) to fun(x). In the latter example x could either be passed by value or as a const ref. It will as stated above also allow you to pass nullptrif you're not interested in the output... – Andreas Magnusson Aug 29 '12 at 12:13
  • 2
    @AndreasMagnusson: That pointer-as-output-parameter convention can give a false sense of security when dealing with pointers passed in from another source. Because in that case the call is fun(x) and *x is modified and the source has no &x to warn you. – Zan Lynx Oct 2 '13 at 23:07
  • what if the function call outlives the scope of the caller? There is a possibility that the shared ptr's destructor has been called, and now the function will be trying to access deleted memory, resulting in UB – Sridhar Thiagarajan Oct 21 '19 at 1:50

Yes, the entire idea about a shared_ptr<> is that multiple instances can hold the same raw pointer and the underlying memory will only be freed when there the last instance of shared_ptr<> is destroyed.

I would avoid a pointer to a shared_ptr<> as that defeats the purpose as you are now dealing with raw_pointers again.


Passing-by-value in your first example is safe but there is a better idiom. Pass by const reference when possible - I would say yes even when dealing with smart pointers. Your second example is not exactly broken but it's very !???. Silly, not accomplishing anything and defeats part of the point of smart pointers, and going to leave you in a buggy world of pain when you try to dereference and modify things.

  • 3
    No one is advocating passing by pointer, if you mean raw pointer. Passing by reference if there is no ownership contention is certainly idiomatic. The point is, regarding shared_ptr<> specifically, that you must make a copy in order to actually share ownership; if you have a reference or pointer to a shared_ptr<> then you're not sharing anything, and are subject to the same lifetime issues as a normal reference or pointer. – ildjarn May 31 '12 at 2:13
  • 2
    @ildjarn: Passing a constant reference is fine in this case. The original shared_ptr of the caller is guaranteed to outlast the function call, so the function is safe in using the shared_ptr<> const &. If it needs to store the pointer for a later time, it will need to copy (at this point a copy must be made, rather than holding a reference), but there is no need to incur the cost of copying unless you need to do it. I would go for passing a constant reference in this case.... – David Rodríguez - dribeas May 31 '12 at 2:20
  • 3
    @David : "Passing a constant reference is fine in this case." Not in any sane API -- why would an API mandate a smart pointer type that it's not even taking advantage of rather than just taking a normal const reference? That's almost as bad as lack of const-correctness. If your point is that technically it isn't hurting anything, then I certainly agree, but I don't think it's the Right thing to do. – ildjarn May 31 '12 at 2:21
  • 2
    ... if on the other hand, the function does not need to extend the lifetime of the object, then you can just remove the shared_ptr from the interface and pass a plain (const) reference to the pointed object. – David Rodríguez - dribeas May 31 '12 at 2:21
  • 3
    @David : What if your API consumer isn't using shared_ptr<> to begin with? Now your API is really just a pain in the neck, as it forces the caller to pointlessly change their object lifetime semantics just to use it. I don't see anything worth advocating in that, other than to say "it isn't technically hurting anything." I don't see anything controversial about 'if you don't need shared ownership, don't use shared_ptr<>'. – ildjarn May 31 '12 at 2:26

in your function DoSomething you are changing a data member of an instance of class myClass so what you are modifying is the managed (raw pointer) object not the (shared_ptr) object. Which means at the return point of this function all shared pointers to the managed raw pointer will see their data member: myClass::someField changed to a different value.

in this case, you are passing an object to a function with the guarantee that you are not modifying it (talking about shared_ptr not the owned object).

The idiom to express this is through: a const ref, like so

void DoSomething(const std::shared_ptr<myClass>& arg)

Likewise you are assuring the user of your function, that you are not adding another owner to the list of owners of the raw pointer. However, you kept the possibility to modify the underlying object pointed to by the raw pointer.

CAVEAT: Which means, if by some means someone calls shared_ptr::reset before you call your function, and at that moment it is the last shared_ptr owning the raw_ptr, then your object will be destroyed, and your function will manipulate a dangling Pointer to destroyed object. VERY DANGEROUS!!!

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.