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I'd like to use the C++ std::vector input iterator constructor to build an array of consecutive integers like this:

std::vector<unsigned> indexes(boost::counting_iterator<unsigned>(0U),
                              boost::counting_iterator<unsigned>(10000U));

However, I'm wondering if it will have time complexity proportional to the distance between the iterators or whether it could have an additional logarithmic component due to repeated resizing to grow the vector? In other words, does the constructor look at the distance between the two iterators? Since the constructor arguments are not random access iterators, I'm not sure the distance can be computed?

If it would resize repeatedly, is there a better solution than this to avoid that:

std::vector<unsigned> indexes;

indexes.reserve(10000U);

for (unsigned idx = 0; idx < 10000U; ++idx) {
  indexes.push_back(idx);
}
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1 Answer 1

up vote 3 down vote accepted

Is std::vector(InputIterator first, InputIterator last) linear time complexity?

In a nutshell, yes.

The standard guarantees the following for vector(InputIterator, InputIterator) in §23.3.6.2:

Complexity: Makes only N calls to the copy constructor of T (where N is the distance between first and last) and no reallocations if iterators first and last are of forward, bidirectional, or random access categories. It makes order N calls to the copy constructor of T and order log(N) reallocations if they are just input iterators.

Basically, for forward, bidirectional, or random access iterators you shouldn't be expecting to see any performance gain from using reserve() as in your second example; the constructor will automatically do this for you.

For plain input iterators, reserve() would speed things up, but not more than by a constant factor. The log(n) reallocations would still be done in O(n) total time, so the total time of constructing the vector will also be O(n).

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2  
In at least the libc++ implementation, std::distance is used (if the iterator is a ForwardIterator or better) and only one allocation is performed. std::distance is constant time for random access iterators and linear otherwise. –  John Bartholomew Mar 20 '13 at 17:35
    
@JohnBartholomew Is boost::counting_iterator a Forward Iterator or a Random Access Iterator? –  WilliamKF Mar 20 '13 at 17:42
    
@JohnBartholomew: You are quite right, thanks for pointing out. Answer expanded. –  NPE Mar 20 '13 at 17:44
1  
@WilliamKF: The full rules are detailed in the counting iterator documentation, but if you're using it with a built-in numeric type then it acts as a random access iterator. (And all random access iterators are also forward iterators, so technically it's both). –  John Bartholomew Mar 20 '13 at 17:49

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