I am pre-allocating some memory to my a vector data member. Example:

class A {
    vector<string> t_Names;
      A () : t_Names(1000) {}

At some point in time, if the t_Names.size() equals 1000, I intend to increase the size by 100. Once it reaches 1100, increase it by 100 and so on.

Which do I choose out of vector::resize() and vector::reserve()? Is there any better choice in this kind of scenario?

Edit: I have sort of precise estimate for the t_Names. I estimate it to be around 700 to 800. However in certain (seldom) situations, it can grow more than 1000.

  • 35
    You realize that doing this means that vector growth is no longer amortized constant time and you lose one of the performance benefits of using std::vector. Sep 13, 2011 at 7:37
  • 2
    Related, see C++ Made Easier: How Vectors Grow on Dr. Dobbs site.
    – jww
    Dec 22, 2016 at 5:21

4 Answers 4


The two functions do vastly different things!

The resize() method (and passing argument to constructor is equivalent to that) will insert or delete appropriate number of elements to the vector to make it given size (it has optional second argument to specify their value). It will affect the size(), iteration will go over all those elements, push_back will insert after them and you can directly access them using the operator[].

The reserve() method only allocates memory, but leaves it uninitialized. It only affects capacity(), but size() will be unchanged. There is no value for the objects, because nothing is added to the vector. If you then insert the elements, no reallocation will happen, because it was done in advance, but that's the only effect.

So it depends on what you want. If you want an array of 1000 default items, use resize(). If you want an array to which you expect to insert 1000 items and want to avoid a couple of allocations, use reserve().

EDIT: Blastfurnace's comment made me read the question again and realize, that in your case the correct answer is don't preallocate manually. Just keep inserting the elements at the end as you need. The vector will automatically reallocate as needed and will do it more efficiently than the manual way mentioned. The only case where reserve() makes sense is when you have reasonably precise estimate of the total size you'll need easily available in advance.

EDIT2: Ad question edit: If you have initial estimate, then reserve() that estimate. If it turns out to be not enough, just let the vector do it's thing.

  • 1
    "The only case where reserve() makes sense is when you have reasonably precise estimate of the total size you'll need easily available in advance." - not strictly true, since calling reserve() yourself at specific times might sometimes help you manage any pointers or iterators that you have for elements of the vector (and in particular that they're invalidated by reallocation). Not that there's any sign in this question that such things are going on. And it's true that you need to know an upper bound on how many elements you'll add during the time your pointers/iterators are needed. Sep 13, 2011 at 9:20
  • 4
    @Jan: well, it's fragile or not according to how difficult you've made it for yourself to maintain the required property. Something like x.reserve(x.size() + newdata); vector<int>::iterator special_element = get_special_element(x); for (int i = 0; i < newdata; ++i) { if some_function(i, special_element) x.push_back(i); } is pretty robust as far as reserving the space is concerned. I've no idea how many elements will actually be added, but I have an upper bound. Of course when in doubt, with vectors you can just use indexes instead of iterators, the difference is usually negligible. Sep 13, 2011 at 9:33
  • 5
    Your wording makes sense to someone already aware of the correct answer, but could easily mislead people needing to ask the question. "resize()...will insert given number of elements to the vector" - only true the first time it's used - it generally inserts the difference between the requested number and the pre-existing size(). "The reserve() method only allocates memory" - it may or may not allocate memory depending on whether capacity() is already sufficient, it may also need to move elements and deallocate their original memory. "want to avoid a couple of allocations" and copies etc Dec 28, 2011 at 8:46
  • 31
    Actually, reserving before pushing is vital and must be used. Assume that you are coding some kind of 3d model loader and the model has like 15000 vertices. If you try to push_back each vertex while loading without pre-allocating them first, it will take serious time. I personally experienced that, I tried to load a car .obj model with near 100000 vertices, It took 30 seconds. Then I refactored the code using pre-allocation with .reserve(), now it takes 3 seconds. Just putting a .reserve(100000) in the beginning of the code saved 27 seconds.
    – deniz
    Oct 12, 2013 at 7:25
  • 2
    @deniz That's trivial true at 100000 scale, but very not true at the 100-300 scale, where reserving can be wasteful if done unnecessarily.
    – deworde
    Mar 21, 2017 at 10:20

resize() not only allocates memory, it also creates as many instances as the desired size which you pass to resize() as argument. But reserve() only allocates memory, it doesn't create instances. That is,

std::vector<int> v1;
v1.resize(1000); //allocation + instance creation
cout <<(v1.size() == 1000)<< endl;   //prints 1
cout <<(v1.capacity()==1000)<< endl; //prints 1

std::vector<int> v2;
v2.reserve(1000); //only allocation
cout <<(v2.size() == 1000)<< endl;   //prints 0
cout <<(v2.capacity()==1000)<< endl; //prints 1

Output (online demo):


So resize() may not be desirable, if you don't want the default-created objects. It will be slow as well. Besides, if you push_back() new elements to it, the size() of the vector will further increase by allocating new memory (which also means moving the existing elements to the newly allocated memory space). If you have used reserve() at the start to ensure there is already enough allocated memory, the size() of the vector will increase when you push_back() to it, but it will not allocate new memory again until it runs out of the space you reserved for it.

  • 8
    After doing reserve(N), we can use operator [] harmlessly. correct ?
    – iammilind
    Sep 13, 2011 at 8:48
  • 2
    While most implementations will allocate the exact amount you request by reserve, the specification only requires it allocates at least that much, so some implementations may round up to some boundary and thus show higher capacity than 1000.
    – Jan Hudec
    Sep 13, 2011 at 8:49
  • 18
    @iammilind: No, if the index is greater or equal to v.size(). Note that reserve(N) doesn't change size() of vector.
    – Nawaz
    Sep 13, 2011 at 8:51
  • 7
    @iammilind: INcorrect. After calling reSERVE, no entries are added, only enough memory for adding them is obtained.
    – Jan Hudec
    Sep 13, 2011 at 8:51

From your description, it looks like that you want to "reserve" the allocated storage space of vector t_Names.

Take note that resize initialize the newly allocated vector where reserve just allocates but does not construct. Hence, 'reserve' is much faster than 'resize'

You can refer to the documentation regarding the difference of resize and reserve

  • 1
    Please refer here instead: vector and capacity (why?)
    – sehe
    Sep 13, 2011 at 8:06
  • 1
    Thanks for the addition of link, sehe
    – dip
    Sep 13, 2011 at 8:58

reserve when you do not want the objects to be initialized when reserved. also, you may prefer to logically differentiate and track its count versus its use count when you resize. so there is a behavioral difference in the interface - the vector will represent the same number of elements when reserved, and will be 100 elements larger when resized in your scenario.

Is there any better choice in this kind of scenario?

it depends entirely on your aims when fighting the default behavior. some people will favor customized allocators -- but we really need a better idea of what it is you are attempting to solve in your program to advise you well.

fwiw, many vector implementations will simply double the allocated element count when they must grow - are you trying to minimize peak allocation sizes or are you trying to reserve enough space for some lock free program or something else?

  • 1
    "reserve when you do not want the objects to be initialized when reserved." The correct formulation is when you do not want the objects to exist. It's not like an uninitialised array of a trivially constructible type, where the objects can't be read but could be assigned to; rather, only memory is reserved, but no objects exist in it, so they can't be accessed using operator[] or anything. Nov 19, 2018 at 0:58

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