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I have an array of ids

a1 = [1, 2, 3, 4, 5]  

and I have another array of objects with ids in random order

a2 = [(obj_with_id_5), (obj_with_id_2), (obj_with_id_1), (obj_with_id_3), (obj_with_id_4)]  

Now I need to sort a2 according to the order of ids in a1. So a2 should now become:

[(obj_with_id_1), (id_2), (id_3), (id_4), (id_5)]  

a1 might be [3, 2, 5, 4, 1] or in any order but a2 should correspond to the order of ids in a1.

I do like this:

a1.each_with_index do |id, idx|
  found_idx = a1.find_index { |c| == id }
  replace_elem = a2[found_idx]
  a2[found_idx] = a2[idx]
  a2[idx] = replace_elem

But this still might run into an O(n^2) time if order of elements of a2 is exactly reverse of a1. Can someone please tell me the most efficient way of sorting a2?

share|improve this question
up vote 15 down vote accepted
hash_object = objects.each_with_object({}) do |obj, hash| 
  hash[obj.object_id] = obj

[1, 2, 3, 4, 5].map { |index| hash_object[index] }
#=> array of objects in id's order

I believe that the run time will be O(n)

share|improve this answer
I believe this would be O(n^2). the actual sort is O(n), but the preparation step would make it n^2 – Jato Aug 15 '12 at 5:34
I'm not agree, to build hash table require O(n), look here – megas Aug 15 '12 at 5:49
Yes, building the hash table is O(n) time. And the sort is O(n) time. So you have 2xO(n)... hmmm... that would be less than n^2. I stand corrected. good catch! – Jato Aug 15 '12 at 13:41
You're not correct again, 2xO(n) will be O(n) for big n. – megas Aug 15 '12 at 14:30
Yes, you are correct, I shall agree with you a second time. – Jato Aug 15 '12 at 15:14

I'll be surprised if anything is much faster than the obvious way:

a2.sort_by{|x| a1.index}
share|improve this answer
assuming a1 is sorted (and it is from the problem stmt) and the container you're using for a1 can take advantage of the fact that a1 is sorted then I agree this would be faster than O(n^2). – Jato Aug 15 '12 at 5:36
No a1 being sorted is not an advantage, I'm not sure why you would think that. This way is fast because it's built-in. Trying to beat built-in sort_by seems a waste of time to me. – pguardiario Aug 15 '12 at 6:24
a1 being sorted is an advantage. If it is sorted then the index operation should run in O(log n) time (assuming binary search) and if it is not sorted the index will run in O(n) time. – Jato Aug 15 '12 at 13:38
If a1 is sorted and you provide an index method that takes advantage of this fact to return the index via binary search rather than iteration, then the index operation should run in O(log n) time vs O(n) time. What is incorrect? – Jato Aug 15 '12 at 15:19
This method is blazing fast too but using hashes is like travelling faster than the speed of light. I ran a test with both methods for 10,000 numbers (just for the sake of testing). Your method took 1.3secs on an avg but with hashes it took 0.009secs on avg.. – Ari53nN3o Aug 15 '12 at 15:35

I like the accepted answer, but in ActiveSupport there is index_by which makes creating the initial hash even easier. See Cleanest way to create a Hash from an Array

In fact you could do this in one line since Enumerable supports index_by as well:

share|improve this answer
This only works if you don't have any duplicates in your original list. Index by will overwrite any duplicate ids. This may or may not be an issue for you. – Josh Feb 4 at 20:20

Inspired by Eric Woodruff's Answer, I came up with the following vanilla Ruby solution:


Method documentation:

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