If I want to read all integers from standard input to a vector, I can use the handy:

vector<int> v{istream_iterator<int>(cin), istream_iterator()};

But let's assume I only want to read n integers. Is the hand-typed loop everything I got?

vector<int> v(n);
for(vector<int>::size_type i = 0; i < n; i++)
    cin >> v[i];

Or is there any more right-handed way to do this?


As given in comments, copy_n is unsafe for this job, but you can use copy_if with mutable lambda:

#include <iterator>
#include <vector>
#include <iostream>
#include <algorithm>

int main(){
    const int N = 10;
    std::vector<int> v;
    //optionally v.reserve(N);
        [count=N] (int)  mutable {
            return count && count--;

    return 0;

as pointed out in this answer: std::copy n elements or to the end

  • 7
    Wouldn't it cause UB if there is not enough input provided? – paler123 Jan 18 at 12:55
  • 1
    Indeed, this is incorrect. – Lightness Races in Orbit Jan 18 at 13:29
  • 2
    You can't fix it. std::copy_n is not fit for this task. – Lightness Races in Orbit Jan 18 at 13:34
  • 3
    Still no. Dereferencing the std::istream_iterator "end iterator" has UB, not throw semantics. (See my answer) – Lightness Races in Orbit Jan 18 at 13:46
  • 1
    @bartop I suggest removing the copy_n part and just leave As given in comments, copy_n is unsafe, but you can use copy_if with mutable lambda: followed by your nice solution. – Ted Lyngmo Jan 18 at 13:59

You usually shouldn't do this with std::copy_n, which assumes that the provided iterator, when incremented n times, remains valid:

Copies exactly count values from the range beginning at first to the range beginning at result. Formally, for each non-negative integer i < n, performs *(result + i) = *(first + i).

(cppreference.com article on std::copy_n)

If you can guarantee that, then fine, but generally with std::cin that's not possible. You can quite easily have it dereferencing an invalid iterator:

The default-constructed std::istream_iterator is known as the end-of-stream iterator. When a valid std::istream_iterator reaches the end of the underlying stream, it becomes equal to the end-of-stream iterator. Dereferencing or incrementing it further invokes undefined behavior.

(cppreference.com article on std::istream_iterator)

You're pretty much there with your loop, though I'd probably use stronger termination condition to avoid excess reads from a "dead" stream:

vector<int> v(n);
for(vector<int>::size_type i = 0; i < n; i++)
    if (!cin >> v[i])

I'd be tempted actually to wrap this into something that's like std::copy_n, but accepts a full "range" whose bounds may be validated in addition to counting from 0 to N.

An implementation might look like:

template<class InputIt, class Size, class OutputIt>
OutputIt copy_atmost_n(InputIt first, InputIt last, Size count, OutputIt result)
   for (Size i = 0; i < count && first != last; ++i)
      *result++ = *first++;
   return result;

You'd use it like this:


Now you get M elements, where M is either the number of inputs provided or N, whichever is smaller.

(live demo)

  • To confirm I’m interpreting this answer correctly, the issue with copy_n is that if the stream encounters a problem before reading n elements, the behavior is undefined? So basically, “if you trust your data source, go for it, but if you don’t, do not use copy_n?” – templatetypedef Jan 18 at 16:37
  • @templatetypedef Pretty much - and if you "go for it" you save an iterator comparison on each step I suppose. But for general usage I'm going to use copy_atmost_n from hereon tbh – Lightness Races in Orbit Jan 18 at 16:54
  • @templatetypedef Note that I'm thinking of EOF specifically - tbh I'm not sure what happens if there's data but read/parse fails – Lightness Races in Orbit Jan 18 at 16:55

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