# Efficient list intersection algorithm

Given two lists (not necessarily sorted), what is the most efficient non-recursive algorithm to find the intersection of those lists?

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This sounds like a homework question - is it? –  BrightUmbra Jan 30 '09 at 21:36
Actually no. I'm at work and I have to program in a statistical modeling environment called eviews. Eviews does not have set intersection built in, and also does not support recursion. I need a quick algorithm because my sets tend to be large and the program needs to be run frequently. Thanks! –  David Jan 30 '09 at 21:40
Are the valores in each list unique? If yes, you could join the lists, sort the result, and look for duplicates. –  Fabio Ceconello Jan 30 '09 at 22:35
How many elements in the sets typically? (e.g. is it worth your time to try to implement a hash, or can you get away with sorting = O(n log n) ?) –  Jason S Jan 30 '09 at 23:41
What is the data type you are sorting? Sometimes there are characterstics of the data that you can take advantage of in designing an algorithm. –  AShelly Feb 2 '09 at 18:19

You could put all elements of the first list into a hash set. Then, iterate the second one and, for each of its elements, check the hash to see if it exists in the first list. If so, output it as an element of the intersection.

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This sounds good, but I don't believe I have access to hashing algorithms either. Any suggestions? –  David Jan 30 '09 at 21:42
Then, maybe: * sort list1 (time: n log n) * sort list2 (time: n log n) * merge the two and check for similar entries as you iterate the two sorted lists simultaneously (linear time) –  Frank Jan 30 '09 at 21:49
I don't have enough points to comment on other threads, but regarding the point that quick sort is recursive: You can implement it without recursion. See here, for example: codeguru.com/forum/archive/index.php/t-333288.html –  Frank Jan 30 '09 at 21:56
Thanks, added the details to my answer –  Wookai Jan 30 '09 at 22:00
If you have access to arrays, surely you could build your own hash table. Building a reasonable hash function is usually quite simple. –  Keith Irwin Jan 31 '11 at 6:58

You might want to take a look at Bloom filters. They are bit vectors that give a probabilistic answer whether an element is a member of a set. Set intersection can be implemented with a simple bitwise AND operation. If you have a large number of null intersections, the Bloom filter can help you eliminate those quickly. You'll still have to resort to one of the other algorithms mentioned here to compute the actual intersection, however. http://en.wikipedia.org/wiki/Bloom_filter

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This is a fascinating approach for efficiently determining whether two large sets overlap. –  Rick Sladkey Jun 18 at 1:29

without hashing, I suppose you have two options:

• The naive way is going to be compare each element to every other element. O(n^2)
• Another way would be to sort the lists first, then iterate over them: O(n lg n) * 2 + 2 * O(n)
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And one other: if it's possible to add a property to each element, reset it to zero for all elements in both sets first, then set it to 1 in one of the sets, then scan through the second set finding elements with the property set to 1. This is `O(n + m)` but not always possible. –  romkyns May 27 '13 at 17:15

From the eviews features list it seems that it supports complex merges and joins (if this is 'join' as in DB terminology, it will compute an intersection). Now dig through your documentation :-)

Additionally, eviews has their own user forum - why not ask there_

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with set 1 build a binary search tree with `O(log n)` and iterate set2 and search the `BST m X O(log n)` so total `O(log n) + O(m)+O(log n) ==> O(log n)(m+1)`

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For the binary search tree part, one of the lists still needs to be sorted (that will add an O(m log m) or and O(n log n) to the complexity). This is still a really useful answer, though: in my case, I have two lists containing the same objects, but each sorted according to different object attributes - and I need to get which objects are in both lists. This answer is agnostic to the attribute on which each list is sorted. Thanks! –  yasashiku Sep 14 '12 at 18:44
Actually, building the tree is O(n log n) so it's O((n+m)log n) overall –  c-urchin Feb 23 '13 at 0:42

in C++ the following can be tried using STL map

``````vector<int> set_intersection(vector<int> s1, vector<int> s2){

vector<int> ret;
map<int, bool> store;
for(int i=0; i < s1.size(); i++){

store[s1[i]] = true;
}
for(int i=0; i < s1.size(); i++){

if(store[s2[i]] == true) ret.push_back(s2[i]);

}
return ret;
``````

}

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Great solution! –  Ali Apr 19 '12 at 22:43

First, sort both lists using quicksort : O(n*log(n). Then, compare the lists by browsing the lowest values first, and add the common values. For example, in lua) :

``````function findIntersection(l1, l2)
i, j = 1,1
intersect = {}

while i < #l1 and j < #l2 do
if l1[i] == l2[i] then
i, j = i + 1, j + 1
table.insert(intersect, l1[i])
else if l1[i] > l2[j] then
l1, l2 = l2, l1
i, j = j, i
else
i = i + 1
end
end

return intersect
end
``````

which is `O(max(n, m))` where `n` and `m` are the sizes of the lists.

EDIT: quicksort is recursive, as said in the comments, but it looks like there are non-recursive implementations

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Isn't quicksort recursive? Or is there a non-recursive version of it? –  David Jan 30 '09 at 21:50
Too bad that quicksort is a recursive algorithm... –  oefe Jan 30 '09 at 21:50
I wouldn't call that O(max(n,m)). You're doing two sorts, too. –  Tom Ritter Jan 30 '09 at 21:51
Is there a non-recursive version of mergesort that could work also? –  David Jan 30 '09 at 21:51
There is a non-recursive quicksort. Push the full interval to be sorted onto the stack. Then in a loop, pop then partition the interval. Any intervals that need further sorting are pushed onto the stack. Go back to the top of the loop, pop the partition... Rinse repeat, until the stack is empty. –  EvilTeach Apr 29 '11 at 13:19

Why not implement your own simple hash table or hash set? It's worth it to avoid nlogn intersection if your lists are large as you say.

Since you know a bit about your data beforehand, you should be able to choose a good hash function.

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If there is a support for sets (as you call them in the title) as built-in usually there is a intersection method.

Anyway, as someone said you could do it easily (I will not post code, someone already did so) if you have the lists sorted. If you can't use recursion there is no problem. There are quick sort recursion-less implementations.

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1. If eviews would support sets, it would probably offer a method for set intersections 2. How can joining two sets help here. The intersection are those elements that are in both sets. When I here joining I think of calculation the union of two sets –  f3lix Jan 31 '09 at 22:47
Yup you're right, I did not pay attention. I edited :) –  Andrea Ambu Feb 1 '09 at 12:06
java has support for sets but no built-in intersection functions. –  lensovet May 21 '10 at 10:17
@lensovet: if it implements java.util.Set there is the java.util.Set.retainAll(Collection) method. Its documentation reads: "If the specified collection is also a set, this operation effectively modifies this set so that its value is the intersection of the two sets." –  Andrea Ambu May 24 '10 at 8:43
oh wow, that's good to know. thanks! –  lensovet May 24 '10 at 22:25

Here is another possible solution I came up with takes O(nlogn) in time complexity and without any extra storage. You can check it out here https://gist.github.com/4455373

Here is how it works: Assuming that the sets do not contain any repetition, merge all the sets into one and sort it. Then loop through the merged set and on each iteration create a subset between the current index i and i+n where n is the number of sets available in the universe. What we look for as we loop is a repeating sequence of size n equal to the number of sets in the universe.

If that subset at i is equal to that subset at n this means that the element at i is repeated n times which is equal to the total number of sets. And since there are no repetitions in any set that means each of the sets contain that value so we add it to the intersection. Then we shift the index by i + whats remaining between it and n because definitely none of those indexes are going to form a repeating sequence.

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I got some good answers from this that you may be able to apply. I haven't got a chance to try them yet, but since they also cover intersections, you may find them useful.

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I second the "sets" idea. In JavaScript, you could use the first list to populate an object, using the list elements as names. Then you use the list elements from the second list and see if those properties exist.

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In PHP, something like

``````function intersect(\$X) { // X is an array of arrays; returns intersection of all the arrays
\$counts = Array(); \$result = Array();
foreach (\$X AS \$x) {
foreach (\$x AS \$y) { \$counts[\$y]++; }
}
foreach (\$counts AS \$x => \$count) {
if (\$count == count(\$X)) { \$result[] = \$x; }
}
return \$result;
}
``````
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If you have duplicates in any of arrays you'll get incorrect behaviour. –  Slawek Feb 19 '12 at 13:35