14

I have two unordered_set and want the intersection of those. I can't find a library function to do that.

Essentially, what I want is this:

unordered_set<int> a = {1, 2, 3};
unordered_set<int> b = {2, 4, 1};

unordered_set<int> c = a.intersect(b); // Should be {1, 2}

I can do something like

unordered_set<int> c;
for (int element : a) {
  if (b.count(element) > 0) {
    c.insert(element);
  }
}

but I think there should be a more convenient way to do that? If there's not, can someone explain why? I know there is set_intersection, but that seems to operate on vectors only?

Thanks

2
  • I sure don't understand why you think set_intersection is limited to vectors only, it takes two ranges as input iterators and an output iterator. Just about any standard container should be able to satisfy those requirements. Jan 8 '18 at 22:21
  • Doing the simple loop approach is O(n) with an unordered_set. You sould use find instead of count though. @SoronelHaetir set_intersection needs a sorted set.
    – super
    Jan 8 '18 at 22:24
12

In fact, a loop-based solutions is the best thing you can use with std::unordered_set.

There is an algorithm called std::set_intersection which allows to find an intersection of two sorted ranges:

Constructs a sorted range beginning at d_first consisting of elements that are found in both sorted ranges [first1, last1) and [first2, last2).

As you deal with std::unordered_set, you cannot apply this algorithm because there is no guaranteed order for the elements in std::unordered_set.

My advice is to stick with loops as it explicitly says what you want to achieve and has a linear complexity (O(N), where N is a number of elements in the unordered set you traverse with a for loop) which is the best compexity you might achieve.

3
  • So the complexity is O(min(len(s), len(l))) where s and l are the sets being intersected. Obviously you want to make N=min(len(s), len(l)) and not max as almost all libraries do such as in Python's set object. Just clarifying since sometimes these details are forgotten. Nov 30 '19 at 6:14
  • @GregoryMorse: where did you get that info about Python set.__and__ being max of operands lengths? obviously it's not true Oct 27 '20 at 13:58
  • This answer lacks the important detail already pointed out by @GregoryMorse : "the unordered set you traverse with a for loop" should be the smaller of the two unordered sets.
    – Don Hatch
    Nov 24 '20 at 3:02
-3

There is a function from std called set_intersection. However, it would have a very high complexity using it with std::set as input parameter.. A better solution is, create two vectors from those sets and use set_intersection with vectors as input parameters.

20
  • 2
    doesn't set_intersection require a sorted input? Jan 8 '18 at 22:27
  • "However, it would have a very high complexity using it with std::set as input parameter." - Would you mind expanding on that?
    – Holt
    Jan 8 '18 at 22:27
  • 1
    @super Moving the value to vectors, sorting the vector, performing the intersection might be faster than the two above loops. You'd have to benchmark.
    – Holt
    Jan 8 '18 at 22:35
  • 1
    @Holt Not really. Using a loop + find gives O(n) time. Using 2 sorted vectors would also give O(n) time. But if you have to make the vectors AND sort them there is no way for that method to be faster. Please keep in mind that std::unordered_set has O(n) lookup unless the set is gigantic.
    – super
    Jan 8 '18 at 22:39
  • 2
    @super You are talking about theoretical asymptotic complexities. Vectors are known to perform faster than most containers for most operations, even faster at performing tasks dedicated to containers such as sorted insertion. You cannot assume that this approach will be slower unless you actually benchmark it. See e.g. lemire.me/blog/2017/01/27/….
    – Holt
    Jan 8 '18 at 22:41

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