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Let a and b be integers, a < b. Given an std::set<int> S what is an efficient and elegant (preferably without explicit loops) way to find and store (into a vector) all the numbers from [a, b] that are not in S.

Solution 1:

 vector<int> v;
 for(int i = a; i <= b; ++i)
     if(S.find(i) == S.end())

Solution 2:

Push all the numbers from a to b into a set and use std::set_difference

Solution1 contains an explicit loop, and solution2 does not seem very efficient (at least in terms of memory). What would you suggest? I am looking for an elegant STL-ish (boost is also acceptible) idiomatic way to do this.

share|improve this question
Homework? Interview question? – John Dibling May 17 '12 at 12:34
@JohnDibling: Neither, just a practical tast that has arisen at my work – Armen Tsirunyan May 17 '12 at 12:35
Had to write code for sample, so +1 from me. :) – John Dibling May 17 '12 at 13:01
up vote 8 down vote accepted

You can do something like your solution #2. But instead of creating an actual container containing the range [a,b], use boost::irange, which is a virtual container for a numeric range. This way you have no explicit loops, it will run in linear time, and not take too much memory.

To make it even faster, make it cover only the relevant part of the set by using lower_bound/upper_bound:

auto abRange = boost::irange(a,b+1);
std::set_difference(abRange.begin(), abRange.end(), 
                    s.lower_bound(a), s.upper_bound(b), 

Or using Boost.Range's set_difference:

                      std::make_pair(s.lower_bound(a), s.upper_bound(b)),
share|improve this answer
And since you're using boost::irange, you could use boost::range::set_difference too. – Steve Jessop May 17 '12 at 12:57
@SteveJessop: If lower_bound and upper_bound are used, boost::range::set_difference would be useless – Armen Tsirunyan May 17 '12 at 13:05
@Steve Jessop: agreed, I added an example. – interjay May 17 '12 at 13:07
@Armen: In this case the use is just that it saves the need to give the result of irange a name. So as interjay shows you get a one-liner (instead of two) that's a little shorter than with std::set_difference. – Steve Jessop May 17 '12 at 13:09
@SteveJessop: Agreed – Armen Tsirunyan May 17 '12 at 13:09

Well the following avoids a loop but I'm not sure it's what you're after:

void inSet(int i, int b, vector<int>& v, set<int>& S)
   if(S.find(i) == S.end())


// ... snip
vector<int> v;

Also, is there not a loop putting all the integers [a,b] into a std::set in your solution 2?

share|improve this answer
You can use std::copy. I think OP is trying to avoid explicit loops, as they are "inelegant". – John Dibling May 17 '12 at 12:45
My answer was not entirely serious. The loop is still there but it's just not explicit any more. – Dan May 17 '12 at 12:53
It's clever, if a bit academic. +1 – John Dibling May 17 '12 at 13:02

The "set" in set_intersection doesn't mean std::set -- it simply means a logical set; a group of things. If both collections are sorted, you can simply set_intersection the two in to a third container.

vector<int> common;
set_intersection(v.begin(), v.end(), s.begin(), s.end(), back_inserter(common));


Here is a complete example that illustrates the above. This uses C++11 lambdas, but if you don't have C++11 or can't use lambdas, you can use functors in their stead. Note the lack of explicit loops.

#include <set>
#include <vector>
#include <algorithm>
#include <iterator>
#include <functional>
#include <iostream>
using namespace std;

static const int numbers[] = {0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233, 377, 610, 987, 1597, 2584, 4181};
static const size_t num_numbers = sizeof(numbers)/sizeof(numbers[0]);

int main()
    /*** GET THE SET ****/
    set<int> s(begin(numbers), end(numbers));
    //copy(&numbers[0], &numbers[num_numbers], inserter(s, s.begin()));

    int first = 5, last = 10;
    vector<int> targets;
    generate_n(back_inserter(targets), last-first, [&first]() -> int {
        return first++;

    vector<int> common;
    set_intersection(s.begin(), s.end(), targets.begin(), targets.end(), back_inserter(common));

    /*** DUMP RESULTS ***/
    cout << "Intersecton of:\n\t";
    copy(s.begin(), s.end(), ostream_iterator<int>(cout,"\t"));
    cout << "\nwith:\n\t";
    copy(targets.begin(), targets.end(), ostream_iterator<int>(cout,"\t"));
    cout << "\n= = = = = = = =\n\t";
    copy(common.begin(), common.end(), ostream_iterator<int>(cout,"\t"));
    cout << "\n";


Output is:

Intersecton of:
        0       1       2       3       5       8       13      21      34
55      89      144     233     377     610     987     1597    2584    4181

        5       6       7       8       9
= = = = = = = =
        5       8
share|improve this answer
May I recommend set<int> s(numbers, numbers+num_numbers); for C++03, and set<int> s(begin(numbers), end(numbers)); for C++11? – Steve Jessop May 17 '12 at 13:05
You know, I think I like that better. This was just an illustration, and I thought I'd throw in a couple extra illustrations as well, for educational purposes. – John Dibling May 17 '12 at 13:08
Fair enough. Questions that ask how to do something "elegantly" pretty much demand that people spend way too much time contrasting all the tools available :-) – Steve Jessop May 17 '12 at 13:13
For yet another tool available in C++11, consider std::iota to replace your std::generate_n/lambda: std::vector<int> targets(last-first); std::iota(begin(targets), end(targets), first); – Jerry Coffin May 17 '12 at 13:23
@SteveJessop: It's way too much time for the task at hand, but with a little luck, we all learn enough to more than save it over the next 20 years or so... – Jerry Coffin May 17 '12 at 13:25

You could iterate from S.lower_bound(a) to S.lower_bound(b) and collect all the integers that you don't find:

auto end = S.lower_bound(b);
int seen = a;

for (auto it = S.lower_bound(a); it < end; ++it) {
   for (int i = seen+1; i < *it; ++i)
   seen = *it;

It contains an explicit loop, but somehow you'll have to look at all the integers in [a,b].

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