Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.


A while back, I ran into some behaviour that I found very strange and seemingly incorrect and I filed a bug report with GCC about it. You can see the report and the response I got here:


(I'm going to replicate most of that here.)

At the time, I didn't understand the answer, but was not a member of StackOverflow and didn't have anyone to ask about it, so I just hacked a work-around and went on. But recently, I was revisiting this code and I still don't understand the rationale for this not being a bug, so...

My Question

In the C++ stdlib distribution included with with my Mac (currently OS X, Darwin 12.2.0 x86_64), the implementation of std::vector::erase() from /usr/include/c++/4.2.1/vector.tcc lines 106-116 is shown here:

template<typename _Tp, typename _Alloc>
  typename vector<_Tp, _Alloc>::iterator
  vector<_Tp, _Alloc>::
  erase(iterator __position)
    if (__position + 1 != end())
      std::copy(__position + 1, end(), __position);
    return __position;

Note that destroy() will be called for the element that is last in the vector prior to the call to this erase(), instead of being called for the element pointed to by __position. I believe this is incorrect -- I think it should instead call destroy() for the element pointed to by __position. For simple POD types, this isn't that big of a deal, but for classes where the destructors have side effects (such as smart pointers), it can be critical.

The following code illustrates the problem:

#include <vector>
#include <iostream>

class MyClass
    int m_x;
     MyClass(int x) : m_x(x) { }
        std::cerr << "Destroying with m_x=" << m_x << std::endl;

int main(void)
    std::vector<MyClass> testvect;

    std::cerr << "ABOUT TO DELETE #3:" << std::endl;

    testvect.erase(testvect.begin() + 2);

    std::cerr << "DONE WITH DELETE." << std::endl;

    return 0;

When I compile this with g++ version 4.2.1 (no command line arguments) on my Mac, it produces the following when I run it:

Destroying with m_x=1
Destroying with m_x=2
Destroying with m_x=3
Destroying with m_x=4
Destroying with m_x=5
Destroying with m_x=5
Destroying with m_x=1
Destroying with m_x=2
Destroying with m_x=4
Destroying with m_x=5

Note that the key line after the "ABOUT TO DELETE #3" message shows that the destructor was actually called for the (copy of the) fifth thing I added. Importantly, the destructor for #3 is never called!!

It appears that the version of erase() that takes a range (two iterators) also has a similar problem.

So my question is, am I wrong to expect that the destructor of the element I am erasing from a vector gets called? It seems that if you can't count on this, you can't safely use smart pointers in vectors. Or is this just a bug in the STL vector implementation distributed by Apple? Am I missing something obvious?

share|improve this question
The destructor for 3 is called, but it now contains a 5. –  K-ballo Oct 19 '12 at 21:27
It will be cleaned up when #3 is assigned a #4. Just change your vector to hold shared_ptr< MyClass > and check it out. –  K-ballo Oct 19 '12 at 21:29
Add print statements to your copy-constructor and assignment operations and you will understand. –  K-ballo Oct 19 '12 at 21:30
@Turix: Why? #3 doesn't get destroyed; it just gets assigned a new value. –  cHao Oct 19 '12 at 21:34
@Turix: The destructor for #3 IS called, it just happens to contain a #4 now. The default assignment operator does not call the destructor, it just does an element-wise copy. An assignment operator for a smart pointer would call the destructor of the pointed-to element. –  K-ballo Oct 19 '12 at 21:34

4 Answers 4

up vote 4 down vote accepted

When you erase the element containing a 3, the following elements have to be shifted back to fill the void. Then element #3 gets assigned what #4 has, and #4 gets assigned what #5 has. The last element, #5, is left with whatever value it has since it is about to be deleted anyway.

When the vector goes out of scope, you see the remaining 4 elements being destroyed.

If you were to hold smart pointers in your vector, the resources will be properly freed when the assignment operator is called.

share|improve this answer
thanks. I get it now! –  Turix Oct 19 '12 at 21:41

Actually, there is no problem. In the line

std::copy(__position + 1, end(), __position);

the deleted element gets overwritten with consecutive elements; if it holds resources that need to be freed, it would do so in its operator=.

In C++11, you would want to use move instead of copy; but what you posted is an OK C++03 implementation for std::vector::erase.

share|improve this answer

The destructor only get called for the last element, but the object being erased gets overwritten by assigning from the next element to it. So the assignment operator frees up the old resources. When the type is a smart pointer, that means doing adjusting the reference and, if appropriate, deleting the controlled object.

share|improve this answer

It's a reasonable point, there are at least two different ways that you could think to implement erase:

  • destroy element 3, then copy-construct element 3 from 4, then 4 from 5, then destroy 5.
  • copy-assign to 3 from 4, then to 4 from 5, then destroy 5.

C++11 introduces a third way to do it:

  • move-assign to 3 from 4, then to 4 from 5, then destroy 5.

In fact for vector::erase the first way is forbidden by the C++03 standard in

Complexity: The destructor of T is called the number of times equal to the number of the elements erased, but the assignment operator of T is called the number of times equal to the number of elements in the vector after the erased elements.

Although this text is designed primarily to indicate the runtime complexity of the operation, you see that it mandates the second implementation. C++11 says the same thing with "move assignment" in place of "assignment".

There's also a more fundamental problem with the first way, which is that in general (although not for int and hence not for MyClass either), copying can fail. If erase destroyed the third element of the vector, and then the copy from the 4th element failed then the vector would be in a rather dangerous state -- the third element isn't a proper object any more. So the restriction in the standard does rather more than just define the runtime, it prevents this bad failure case.

share|improve this answer
If a copy assignment fails, can you really trust anything about the assignee then either? –  cHao Oct 19 '12 at 21:56
@cHao: I suppose it depends on the programmer, but a minimal requirement is that after such failure the destination must be capable of being destructed without triggering undefined behavior. For maximum robustness the copy assignment operator would offer the "strong exception guarantee", meaning that if the copy throws then the destination is unmodified. Provided you can write a nothrow swap for your type, you can achieve this by first copying the source, then swapping the destination with the copy. None of which applies to MyClass of course, it can do nothrow assignment. –  Steve Jessop Oct 19 '12 at 21:57
And yes, as a corollary those "rule of zero" people are writing classes whose copy assignment operators offer only the weak exception guarantee. At least, when they have two data members whose copies can fail, they are. This is often fine, since a caller who wants a strongly-safe operation can copy-and-swap for themselves, it just needs to be documented. –  Steve Jessop Oct 20 '12 at 21:04

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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