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(This question is not about the shrink_to_fit tricks (using swap() or shrink_to_fit() in C++11).)

If I use a vector only through insert(), erase(), push_back(), pop_back(), clear(), when the capacity is not enough, it will increase and reallocation for the vector will occur. But under what circumstances will the capacity reduce? And will capacity reduction necessarily cause reallocation?

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4 Answers 4

The standard guarantees that no references/iterators will be invalidated during e.g. pop_back. From [container.requirements.general]:

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.

And there is no specification otherwise for e.g. pop_back.

So that implies that reallocation cannot occur.1


1. It has been suggested in comments to another answer that perhaps the memory corresponding to a popped element could be freed, which wouldn't invalidate any references to "live" elements.

But then that would prevent the array from regrowing, as the standard specifically says that insertions cannot provoke a reallocation until the size exceeds the capacity. From [vector.capacity]:

It is guaranteed that no reallocation takes place during insertions that happen after a call to reserve() until the time when an insertion would make the size of the vector greater than the value of capacity().

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What's the conclusion, then? It seems that these sum to that the capacity will never reduce, considering the memory of a vector is contiguous. –  updogliu May 22 '12 at 1:48

Nope, pop_back() doesn't do it. Others certainly don't. The only way is the way you mentioned.

template< typename T, class Allocator >
void shrink_capacity(std::vector<T,Allocator>& v)
{
   std::vector<T,Allocator>(v.begin(),v.end()).swap(v);
}

And shrink_to_fit() in c++11

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And that C++03 solution indeed causes a reallocation plus associated copies. (C++11 should use moves). –  MSalters May 21 '12 at 14:59
    
+1 as other answers mention "never" too much –  Basilevs May 22 '12 at 4:27

It could be reduced when usage is below 1/4 of capacity (this will give amortized constant cost of reallocation). But STL implementation is not obligated to reduce vector anytime, when you use only methods you have listed.

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8  
The standard guarantees that no references/iterators will be invalidated during e.g. pop_back. So that implies that reallocation cannot occur. –  Oliver Charlesworth May 21 '12 at 14:55
    
For vector capacity (allocated memory) and reserved space (the actual number of elements) are two different things. You can not have reliable iterator to element at index above reserved space. And you could free its memory. Anyway reallocation happens, when vector grows. –  Greg May 21 '12 at 15:04
1  
@Greg : No, because std::vector<>'s memory is guaranteed to be contiguous -- you can't reallocate (or shrink) some portion without reallocating the entire buffer. –  ildjarn May 21 '12 at 15:07
1  
@Greg : No, the standard specifically permits reference/iterator invalidation during push_back(), but not during pop_back() or erase() (except for the directly-affected elements and those that follow, of course). –  ildjarn May 21 '12 at 15:10
2  
@LucTouraille: if the Allocator interface had some kind of "reallocate" operation, then maybe vectors could reallocate downwards without invalidating references. But it doesn't, so they can't. –  Steve Jessop May 21 '12 at 15:13

The C++ Standard doesn't need std::vector to reduce the capacity() at any point of time during its existence. This is strictly implementation dependent So Implementations might on their own but you shouldn't rely on that behavior.

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4  
I don't think it's implementation dependent -- I'm pretty sure it's not allowed. If, for example, if you have 1000 items in a vector, clear it, then push_back 1000 more items, the latter can't invalidate any iterators, so it can't involve any reallocation. –  Jerry Coffin May 21 '12 at 14:58
    
@JerryCoffin: Do you mean standard does not allow to reduce capacity? –  Alok Save May 21 '12 at 15:04
2  
Yes, I think that's pretty much correct. –  Jerry Coffin May 21 '12 at 15:04
    
I guess technically it could reduce capacity without reallocating, but that would seem a bit pointless. –  Oliver Charlesworth May 21 '12 at 15:09
1  
@bames53: Yes, the clear invalidates all existing iterators/reference/pointers. What I'm talking about, however, is while you're inserting 1000 elements again. You insert 1000 elemnts, clear(), then insert one element, get its iterator, then insert 999 more -- that iterator you obtained to the first inserted element must remain valid (because capacity was previously >=1000, and has never been reduced). –  Jerry Coffin May 21 '12 at 15:18

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