# Ruby - Find element not in common for two arrays

I've been thinking about a following problem - there are two arrays, and I need to find elements not common for them both, for example:

``````a = [1,2,3,4]
b = [1,2,4]
``````

And the expected answer is `[3]`.

So far I've been doing it like this:

``````a.select { |elem| !b.include?(elem) }
``````

But it gives me `O(N ** 2)` time complexity. I'm sure it can be done faster ;)

Also, I've been thinking about getting it somehow like this (using some method opposite to `&` which gives common elements of 2 arrays):

``````a !& b  #=> doesn't work of course
``````

Another way might be to add two arrays and find the unique element with some method similar to `uniq`, so that:

``````[1,1,2,2,3,4,4].some_method #=> would return 3
``````
• `(a-b) | (b-a) # => [3]` See ruby-doc.org/core-1.9.3/Array.html#method-i-2D and note that it's not commutative, i.e. in general `a-b != b-a` Nov 25, 2013 at 22:55
• That should be: (a-b) | (b-a) Nov 25, 2013 at 22:56
• @ShawnBalestracci Right you are. I had even written it correctly in my test console, but rewrote it wrong. Nov 25, 2013 at 22:57
• @iamnotmaynard: isn't that O(N ** 2) as well? Nov 25, 2013 at 22:59
• Or sort the arrays (which should be O(n log n)), then iterate through the two, adding elements which are in only one array to a result array (O(n)). Nov 25, 2013 at 23:10

The simplest (in terms of using only the arrays already in place and stock array methods, anyway) solution is the union of the differences:

``````a = [1,2,3,4]
b = [1,2,4]
(a-b) | (b-a)
=> [3]
``````

This may or may not be better than `O(n**2)`. There are other options which are likely to give better peformance (see other answers/comments).

Edit: Here's a quick-ish implementation of the sort-and-iterate approach (this assumes no array has repeated elements; otherwise it will need to be modified depending on what behavior is wanted in that case). If anyone can come up with a shorter way to do it, I'd be interested. The limiting factor is the sort used. I assume Ruby uses some sort of Quicksort, so complexity averages `O(n log n)` with possible worst-case of `O(n**2)`; if the arrays are already sorted, then of course the two calls to `sort` can be removed and it will run in `O(n)`.

``````def diff a, b
a = a.sort
b = b.sort
result = []
bi = 0
ai = 0
while (ai < a.size && bi < b.size)
if a[ai] == b[bi]
ai += 1
bi += 1
elsif a[ai]<b[bi]
result << a[ai]
ai += 1
else
result << b[bi]
bi += 1
end
end
result += a[ai, a.size-ai] if ai<a.size
result += b[bi, b.size-bi] if bi<b.size
result
end
``````
• Union of the difference! Thanks for that! Using underscore: `result = _.union(_.difference(a, b), _.difference(b, a));` Jan 12, 2017 at 22:37

As @iamnotmaynard noted in the comments, this is traditionally a set operation (called the symmetric difference). Ruby's Set class includes this operation, so the most idiomatic way to express it would be with a Set:

``````Set.new(a) ^ b
``````

That should give O(n) performance (since a set membership test is constant-time).

``````a = [1, 2, 3]
b = [2, 3, 4]
a + b - (a & b)
# => [1, 4]
``````
• Which one is preferrable? This or the accepted solution? May 29, 2015 at 17:29
• this solution is better from garbage collection point of view (you can see less value for total_allocated_object with disabled GC). Sep 20, 2015 at 20:05

The solution for Array divergences is like:

``````a = [1, 2, 3]
b = [2, 3, 4]
(a - b) | (b - a)
# => [1, 4]
``````