Is there a way to resize a std::vector to lower capacity when I no longer need previously reserved space?


Effective STL, by Scott Meyers, Item 17: Use the swap trick to trim excess capacity.


After that, persons is "shrunk to fit".

This relies on the fact that vector's copy constructor allocates only as much as memory as needed for the elements being copied.

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  • Suggest a fix to the grammar: 'shrunk', not 'shrinked' – James Hopkin Oct 31 '08 at 11:10
  • Nice. Do you maybe know why they didn't implement this as a method, as it looks as a common use case for the container? – bombardier Oct 31 '08 at 11:33
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    Once the vector has allocated a buffer, it's hard to delete[] the end of that buffer. And doing so simply guarantees that future insertions are going to require allocating a new buffer and copying averything to it (invalidating iterators). – Max Lybbert Oct 31 '08 at 16:52

If you're using C++11, you can use vec.shrink_to_fit(). In VS2010 at least, that does the swap trick for you.

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    It's not equivalent to the swap trick. shrink_to_fit is a non-binding request and is allowed to not do anything. – Cat Plus Plus Mar 1 '12 at 23:36
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    I said "in VS2010" but yeah, on other compilers it may not do it. – Alex Korban Mar 2 '12 at 0:12
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    @CatPlusPlus shrink_to_fit will in all likelihood do the swap trick or realloc, but with a small vector optimization that still won't reset capacity() to match size() because there's no heap allocation to shrink. I think that is the reason it's specified as "non-binding." – Potatoswatter Apr 29 '12 at 2:26

Create a new, temporary, vector from the existing one then call the swap method on the existing one, passing the temporary one in. Let the temporary (now with the old, oversized, buffer) go out of scope.

Hey presto, your vector has exactly the right size for its contents.

If this sounds like a lot of copying and allocation - bear in mind that this is what vector does every time it has to realloc past its current reserved limit anyway.

[Edit] Yes, I just said the same as Sebastien in more words. Another case of stackoverflow race-condition ;-)

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  • Well, I upvoted you Phil because your answer is still helpful even if you weren't the first one to post it! :-) – Onorio Catenacci Oct 31 '08 at 11:36

The swap trick is an effective way to reduce the capacity of an object, it swaps the content of my vector with a newly created one by copy construction:


Notice that there is no guarantee that persons.capacity(); after the swap trick is equal to the size: the capacity of vector(persons) is the capacity the library implementation reserves to vectors of size persons.size().

C++11 introduced shrink_to_fit().

shrink_to_fit() as well as the swap trick does not guarantee the capacity size is effectively reduced to the size of the vector.

Anyway shrink_to_fit() can invalidate your iterators (if a reallocation happens) or cannot: it depends on the actual implementation of the library.

Bear in mind that the swap trick requires persons.size() copy constructions of Person and person.size() destructions. The shrink_to_fit() could avoid all this copying and could leave your iterators valid. Could. But from time to time it happens that shrink_to_fit() is implemented in terms of the swap trick...

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  • Could you please indicate where it's specified that shrink_to_fit() must be implemented in terms of swap()? – Toby Speight Jul 27 '17 at 16:52
  • @TobySpeight thanks for the remark. Maybe my english is not good enough. I meant that since shrink_to_fit() can be implemented in terms of the swap trick then sometimes it is implemented in this way. Let me edit the answer. If I don't succeed, feel free to edit the answer so to improve its quality. Your contribution would be welcomed. Thanks – jimifiki Jul 31 '17 at 7:41

You're looking for an equivalent of QVector::squeeze and I'm afraid it doesn't exist explicitely in the STL. Go for Sébastien's answer if it is correct for your STL implementation.

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