29

I am a bit confused about this both of these look same to me. Although it may happen that capacity and size may differ on different compilers. how it may differ. Its also said that if we are out of memory the capacity changes.

All these things are bit unclear to me.

Can somebody give an explanation.(if possible with and example or if I can do any test on any program to understand it)

59

Size is not allowed to differ between multiple compilers. The size of a vector is the number of elements that it contains, which is directly controlled by how many elements you put into the vector.

Capacity is the amount of space that the vector is currently using. Under the hood, a vector just uses an array. The capacity of the vector is the size of that array. This is always equal to or larger than the size. The difference between them is the number of elements that you can add to the vector before the array under the hood needs to be reallocated.

You should almost never care about the capacity. It exists to let people with very specific performance and memory constraints do exactly what they want.

  • 3
    +1 clear to understand for me and also extra imp. info-->"You should almost never care about the capacity. It exists to let people with very specific performance and memory constraints do exactly what they want." Thanks – munish Jun 9 '11 at 17:54
  • 11
    Disagree about not caring about capacity. If you know you have a minimum 200 items to be stored in your vector, you'd be crazy not to tell it that whilst constructing. – Kent Boogaart Jun 9 '11 at 18:00
  • 3
    Crazy? I don't necessarily think so. I just ran a few tests, inserting 200 ints with and without reserving space, and I needed over 100,000 repetitions before reserving space showed a significant performance improvement. Granted, the performance was about twice as good when space was reserved, but unless you're doing this in a tight loop and this is your performance bottleneck, I don't really think it's crazy to not care very much about a couple of microseconds. – John Calsbeek Jun 9 '11 at 18:36
  • 4
    @John: so even with the knowledge that a re-allocation would be likely you'd still not pass on a single known number to the constructor in order to prevent said re-allocation? I stand by my "crazy". Even with ints on a modern machine (best case scenario test) I'd do it to make the intentions of the code clearer, never mind larger structs on an embedded system. – Kent Boogaart Jun 9 '11 at 19:25
  • 3
    @Kent: I don't disagree with the principle. I think reserving capacity is good practice if you're in the very specific situation where you have definitive knowledge about your container's end use. That is why the "never" in my answer reads "almost never". – John Calsbeek Jun 9 '11 at 19:36
25

Size: the number of items currently in the vector

Capacity: how many items can be fit in the vector before it is "full". Once full, adding new items will result in a new, larger block of memory being allocated and the existing items being copied to it

  • 1
    I'd say not allocate but re-allocate. Because vector guarantees that data is continuously laid out in memory, it cannot use more than one memory blocks returned by operator new. So when the limit is hit, vector will allocate a new chunk of memory and copy existing data to that memory, then delete the previously allocated block. Or, if it is smart enough, it will use realloc function to be a bit more optimal. – user405725 Jun 9 '11 at 17:41
  • @Vlad: I'm assuming you commented before seeing my last edit? – Kent Boogaart Jun 9 '11 at 17:58
23

Let's say you have a bucket. At most, this bucket can hold 5 gallons of water, so its capacity is 5 gallons. It may have any amount of water between 0 and 5, inclusive. The amount of water currently in the bucket is, in vector terms, its size. So if this bucket is half filled, it has a size of 2.5 gallons.

If you try to add more water to a bucket and it would overflow, you need to find a bigger bucket. So you get a bucket with a larger capacity and dump the old bucket's contents into the new one, then add the new water.

Capacity: Maximum amount of stuff the Vector/bucket can hold. Size: Amount of stuff currently in the Vector/bucket.

  • You must be an instractor. I couldn't understand meaning of allocated memory exactly but I well understand now what it means exactly. – snr Aug 11 '15 at 18:24
  • That is a really great analogy! Vectors are buckets of water! – Galaxy Jul 26 '18 at 23:31
6

size() tells you how many elements you currently have. capacity() tells you how large the size can get before the vector needs to reallocate memory for itself.

Capacity is always greater than or equal to size. You cannot index beyond element # size()-1.

5

The size is the number of elements in the vector. The capacity is the maximum number of elements the vector can currently hold.

5

Size is number of elements present in a vector

Capacity is the amount of space that the vector is currently using.

Let's understand it with a very simple example:

using namespace std;

int main(){
  vector<int > vec;
  vec.push_back(1); 
  vec.push_back(1); 
  vec.push_back(1); 
  cout<<"size of vector"<<vec.size()<<endl;
  cout<<"capacity of vector"<<vec.capacity()<<endl;
  return 0;
}

currently size is 3 and capacity is 4.

Now if we push back one more element,

using namespace std;
  int main(){
  vector<int> vec;
  vec.push_back(1); 
  vec.push_back(1); 
  vec.push_back(1); 
  vec.push_back(1);
  cout<<"size of vector"<<vec.size()<<endl;
  cout<<"capacity of vector"<<vec.capacity()<<endl;
  return 0;
}

now size is: 4 capacity is 4

now if we try to insert one more element in vector then size will become 5 but capacity will become 8.

it happens based on the datatype of vector, as here in this case vector in of type int, as we know size of int is 4 bytes so compiler will allocate 4 block of memory ..and when we try to add 5th element , vector::capacity() is doubled what we have currently.

same keep on..for example : if we try to insert 9th element then size of vector will be 9 and capacity will b 16..

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