vector<int> v;

If the second push_back causes a reallocation, the reference to the first integer in the vector will no longer be valid. So this isn't safe?

vector<int> v;
v.reserve(v.size() + 1);

This makes it safe?

  • 4
    A note: There is currently a discussion in the standard proposals forum. As part of it, someone gave an example implementation of push_back. Another poster noted a bug in it, that it didn't properly handle the case you describe. Nobody else, as far as I can tell, argued that this was not a bug. Not saying that's conclusive proof, just an observation. – Benjamin Lindley Sep 13 '13 at 15:33
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    I'm sorry but I don't know which answer to accept as there is still controversy over the correct answer. – Neil Kirk Sep 13 '13 at 15:35
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    I was asked to comment on this question by the 5th comment under: stackoverflow.com/a/18647445/576911. I'm doing so by upvoting every answer that currently says: yes, it is safe to push_back an element from the same vector. – Howard Hinnant Sep 14 '13 at 3:11
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    @BenVoigt: <shrug> If you disagree with what the standard says, or even if you agree with the standard, but do not think it says it clearly enough, this is always an option for you: cplusplus.github.io/LWG/lwg-active.html#submit_issue I've taken this option myself more times than I can remember. Sometimes successfully, sometimes not. If you want to debate what the standard says, or what it should say, SO is not an effective forum. Our conversation has no normative meaning. But you can have a chance at a normative impact by following the link above. – Howard Hinnant Sep 15 '13 at 3:02
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    @Polaris878 If push_back causes the vector to reach its capacity, the vector will allocate a new bigger buffer, copy over the old data, and then delete the old buffer. Then it will insert the new element. The problem is, the new element is a reference to data in the old buffer which has just been deleted. Unless push_back makes a copy of the value before deleting, it will be a bad reference. – Neil Kirk Sep 19 '13 at 9:27

It looks like http://www.open-std.org/jtc1/sc22/wg21/docs/lwg-closed.html#526 addressed this problem (or something very similar to it) as a potential defect in the standard:

1) Parameters taken by const reference can be changed during execution of the function


Given std::vector v:

v.insert(v.begin(), v[2]);

v[2] can be changed by moving elements of vector

The proposed resolution was that this was not a defect:

vector::insert(iter, value) is required to work because the standard doesn't give permission for it not to work.

  • I find permission in "If an argument to a function has an invalid value (such as a value outside the domain of the function or a pointer invalid for its intended use), the behavior is undefined." If reallocation occurs, then all iterators and references to elements are invalidated, meaning the parameter reference passed to the function is invalid as well. – Ben Voigt Sep 15 '13 at 0:54
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    I think the point is that the implementation is responsible for doing the reallocation. It is incumbent upon it to ensure the behaviour is defined if the input is initially defined. Since the specs clearly specify that push_back makes a copy, implementations must, at the expense of execution time perhaps, cache or copy all values before de-allocating. Since in this particular question there is no external references left, it doesn't matter if iterators and references are invalidated. – OlivierD Sep 16 '13 at 21:36
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    @NeilKirk I think this should be the authorative answer, it is also mentioned by Stephan T. Lavavej on Reddit using essentially the same arguments. – TemplateRex Sep 20 '13 at 12:50
  • v.insert(v.begin(), v[2]); cannot trigger a reallocation. So how does this answer the question? – ThomasMcLeod Mar 3 '17 at 16:20
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    @ThomasMcLeod: yes it can obviously trigger a reallocation. You are expanding the vector's size by inserting a new element. – Violet Giraffe Jul 23 '19 at 12:11

Yes, it's safe, and standard library implementations jump through hoops to make it so.

I believe implementers trace this requirement back to 23.2/11 somehow, but I can't figure out how, and I can't find something more concrete either. The best I can find is this article:


Inspection of libc++'s and libstdc++'s implementations shows that they are also safe.

  • 9
    Some backing would really help here. – chris Sep 13 '13 at 14:32
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    That is interesting, I must admit I had never considered the case but indeed it seems quite difficult to achieve. Does it also holds for vec.insert(vec.end(), vec.begin(), vec.end()); ? – Matthieu M. Sep 13 '13 at 14:32
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    @MatthieuM. No: Table 100 says: "pre: i and j are not iterators into a". – Sebastian Redl Sep 13 '13 at 14:34
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    I'm upvoting now as this is my recollection as well, but a reference is needed. – bames53 Sep 13 '13 at 14:55
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    Is 23.2/11 in the version you're using "Unless otherwise specified (either explicitly or by defining a function in terms of other functions), invoking a container member function or passing a container as an argument to a library function shall not invalidate iterators to, or change the values of, objects within that container." ? But vector.push_back DOES otherwise specify. "Causes reallocation if the new size is greater than the old capacity." and (at reserve) "Reallocation invalidates all the references, pointers, and iterators referring to the elements in the sequence." – Ben Voigt Sep 13 '13 at 19:07

The standard guarantees even your first example to be safe. Quoting C++11


3 In Tables 100 and 101 ... X denotes a sequence container class, a denotes a value of X containing elements of type T, ... t denotes an lvalue or a const rvalue of X::value_type

16 Table 101 ...

Expression a.push_back(t) Return type void Operational semantics Appends a copy of t. Requires: T shall be CopyInsertable into X. Container basic_string, deque, list, vector

So even though it's not exactly trivial, the implementation must guarantee it will not invalidate the reference when doing the push_back.

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    I don't see how this guarantees this to be safe. – jrok Sep 13 '13 at 15:03
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    @Angew: It absolutely does invalidate t, the only question is whether before or after making the copy. Your last sentence is certainly wrong. – Ben Voigt Sep 13 '13 at 15:06
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    @BenVoigt Since t meets the listed preconditions the described behavior is guaranteed. An implementation is not permitted to invalidate a precondition and then use that as an excuse not to behave as specified. – bames53 Sep 13 '13 at 15:06
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    @BenVoigt The client is not obligated to maintain the precondition throughout the call; only to ensure that it is met at the initiation of the call. – bames53 Sep 13 '13 at 15:08
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    @BenVoigt That's a good point but I believe there's that the functor passed to for_each is required not to invalidate the iterators. I can't come up with a reference for for_each, but I see on some algorithms text like "op and binary_op shall not invalidate iterators or subranges". – bames53 Sep 13 '13 at 15:25

It is not obvious that the first example is safe, because the simplest implementation of push_back would be to first reallocate the vector, if needed, and then copy the reference.

But at least it seems to be safe with Visual Studio 2010. Its implementation of push_back does special handling of the case when you push back an element in the vector. The code is structured as follows:

void push_back(const _Ty& _Val)
    {   // insert element at end
    if (_Inside(_STD addressof(_Val)))
        {   // push back an element
        {   // push back a non-element
  • 8
    I would like to know if the specification requires this to be safe. – Nawaz Sep 13 '13 at 14:59
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    According to the Standard it is not required to be safe. It is possible, however, to implement it in a safe manner. – Ben Voigt Sep 13 '13 at 15:01
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    @BenVoigt I'd say it is required to be safe (see my answer). – Angew is no longer proud of SO Sep 13 '13 at 15:02
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    @BenVoigt At the time you pass the reference, it is valid. – Angew is no longer proud of SO Sep 13 '13 at 15:06
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    @Angew: That isn't sufficient. You need to pass a reference that stays valid for the duration of the call, and this one doesn't. – Ben Voigt Sep 13 '13 at 15:12

This isn't a guarantee from the standard, but as another data point, v.push_back(v[0]) is safe for LLVM's libc++.

libc++'s std::vector::push_back calls __push_back_slow_path when it needs to reallocate memory:

void __push_back_slow_path(_Up& __x) {
  allocator_type& __a = this->__alloc();
  __split_buffer<value_type, allocator_type&> __v(__recommend(size() + 1), 
  // Note that we construct a copy of __x before deallocating
  // the existing storage or moving existing elements.
  // Moving existing elements happens here:
  // When __v goes out of scope, __x will be invalid.
  • The copy not only has to be made before deallocating the existing storage, but before moving from the existing elements. I suppose the moving of existing elements is done in __swap_out_circular_buffer, in which case this implementation is indeed safe. – Ben Voigt Sep 13 '13 at 17:47
  • @BenVoigt: good point, and you are indeed correct that the moving happens inside __swap_out_circular_buffer. (I've added some comments to note that.) – Nate Kohl Sep 13 '13 at 19:08

The first version is definitely NOT safe:

Operations on iterators obtained by calling a standard library container or string member function may access the underlying container, but shall not modify it. [ Note: In particular, container operations that invalidate iterators conflict with operations on iterators associated with that container. — end note ]

from section

Note that this is the section on data races, which people normally think of in conjunction with threading... but the actual definition involves "happens before" relationships, and I don't see any ordering relationship between the multiple side-effects of push_back in play here, namely the reference invalidation seems not to be defined as ordered with respect to copy-constructing the new tail element.

  • 1
    It should be understood that's a note, not a rule, so it's explaining a consequence of the foregoing rule... and the consequences are identical for references. – Ben Voigt Sep 13 '13 at 15:30
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    The result of v[0] is not an iterator, likewise, push_back() does not take an iterator. So, from a language lawyer perspective, your argument is void. Sorry. I know, that most iterators are pointers, and the point of invalidating an iterator, is pretty much the same as for references, but the part of the standard that you cite, is irrelevant to the situation at hand. – cmaster - reinstate monica Sep 13 '13 at 18:25
  • -1. It is completely irrelevant quote and doesn't answer it anyway. The committee says x.push_back(x[0]) is SAFE. – Nawaz Sep 21 '13 at 19:04

It is completely safe.

In your second example you have

v.reserve(v.size() + 1);

which is not needed because if vector goes out of its size, it will imply the reserve.

Vector is responsible for this stuff, not you.


Both are safe since push_back will copy the value, not the reference. If you are storing pointers, that is still safe as far as the vector is concerned, but just know that you'll have two elements of your vector pointing to the same data.

Section 23.2.1 General Container Requirements

  • a.push_back(t) Appends a copy of t. Requires: T shall be CopyInsertable into X.
  • a.push_back(rv) Appends a copy of rv. Requires: T shall be MoveInsertable into X.

Implementations of push_back must therefore ensure that a copy of v[0] is inserted. By counter example, assuming an implementation that would reallocate before copying, it would not assuredly append a copy of v[0] and as such violate the specs.

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    push_back will however also resize the vector, and in a naive implementation this will invalidate the reference before copying occurs. So unless you can back this up by a citation from the standard, I’ll consider it wrong. – Konrad Rudolph Sep 13 '13 at 14:50
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    By "this", do you mean the first or the second example? push_back will copy the value into the vector; but (as far as I can see) that might happen after reallocation, at which point the reference it's trying to copy from is no longer valid. – Mike Seymour Sep 13 '13 at 14:50
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    push_back receives its argument by reference. – bames53 Sep 13 '13 at 14:53
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    @OlivierD: It would have to (1) allocate new space (2) copy the new element (3) move-construct the existing elements (4) destroy the moved-from elements (5) free the old storage -- in THAT order -- to make the first version work. – Ben Voigt Sep 13 '13 at 14:59
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    @BenVoigt why else would a container require that a type be CopyInsertable if it's going to completely ignore that property anyway? – OlivierD Sep 13 '13 at 15:57

From Causes reallocation if the new size is greater than the old capacity. If no reallocation happens, all the iterators and references before the insertion point remain valid.

Since we're inserting at the end, no references will be invalidated if the vector isn't resized. So if the vector's capacity() > size() then it's guaranteed to work, otherwise it's guaranteed to be undefined behavior.

  • I believe that the specification actually guarantees this to work in either case. I'm waiting on a reference though. – bames53 Sep 13 '13 at 14:56
  • There is no mention of iterators or iterator safety in the question. – OlivierD Sep 13 '13 at 14:56
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    @OlivierD the iterator part is superfluous here: I'm interested in the references portion of the quote. – Mark B Sep 13 '13 at 14:59
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    It's actually guaranteed to be safe (see my answer, semantics of push_back). – Angew is no longer proud of SO Sep 13 '13 at 15:00

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