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If I allocated an std::vector to a certain size and capacity using resize() and reserve() at the beginning of my program, is it possible that pop_back() may "break" the reserved capacity and cause reallocations?

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5 Answers 5

up vote 15 down vote accepted

No. The only way to shrink a vector's capacity is the swap trick

template< typename T, class Allocator >
void shrink_capacity(std::vector<T,Allocator>& v)

and even that isn't guaranteed to work according to the standard. (Although it's hard to imagine an implementation where it wouldn't work.)

As far as I know, the next version of the C++ standard (what used to be C++0x, but now became C++1x) will have std::vector<>::shrink_to_fit().

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Its still 0x. The x is a hex digit (so we still have 6 years to ratify it) :-) –  Loki Astari Oct 8 '09 at 10:25
@Martin: I know that one, but it doesn't fly. For example, C++11 would be C++0xB. So C++0x would have to be changed to either C++1x or C++0xx. :) –  sbi Oct 8 '09 at 10:32
@sbi A beer from me [C++11]) –  doc May 22 '12 at 12:36

No. pop_back() will not shrink the capacity of vector. use std::vector<T>(v).swap(v) instead.

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pop_XXX will never change the capacity. push_XXX can change the capacity if you try to push more stuff on than the capacity allows.

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NO. Same as push_back , pop_back won't impact the capacity(). They just impact the size().


I should have said push_back won't change the capacity when the v.size() < v.capacity().

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Here is the code of std::vector::pop_back()

void pop_back()
{   // erase element at end
   if (!empty())
   {    // erase last element
      _Dest_val(this->_Alval, this->_Mylast - 1);

Function only calls the Destructor and decreases pointer to the last element. Code from VC (Release). So it does not affect on capacity (or reallocation) of vector.

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One particular implementation isn't enough information to determine what the standard requires. And this may not be the same implementation that the person asking the question uses. –  Adrian McCarthy May 20 '14 at 16:37

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