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I am trying to understand the closest pair algorithm. I understand about dividing the set in half. But I am having trouble understanding how to recursively compute the closest pair. I understand recursion, but do not understand how to compute the closest pair by recursion. If you have (1,2)(1,11)(7,8) how would recursion work on these?

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Define the "closest pair algorithm" for us. – drysdam Apr 22 '11 at 16:48
given several points on a 2-D object find the two points that are the closest – Aaron Apr 22 '11 at 16:58
up vote 5 down vote accepted

If you mean this algorithm you do the following:

  1. Sort points: (1,2) (1,11) (7,8)
  2. Build two subsets: (1,2) (1,11) and (7,8)
  3. Run the algorithm on (1,2) (1,11) and on (7,8) separately <= this is where the recursion comes. The result is dLmin = 9 and dRmin = infinity (there is no second point on the right)
  4. dLRmin = sqrt(45)
  5. result = min(dLmin, dRmin, dLRmin) = sqrt(45)

The recursion consists of the same steps as above. E.g. the call with (1,2) and (1,11) does:

  1. Sort points: (1,2) (1,11)
  2. Build two subsets: (1,2) and (1,11)
  3. Run the algorithm on (1,2) and on (1,11) separately <= again recursion calls. The result is dLmin = infinity and dRmin = infinity
  4. dLRmin = 9
  5. result = min(dLmin, dRmin, dLRmin) = 9
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thanks how would that changes with 6 pair, (1,2)(1,11)(7,8)(9,9)(13,3)(13,4) – Aaron Apr 22 '11 at 17:28
@Aaron Actually I dont really understand your question. The algorithm does not change at all with the input size. I gave you a description how your example input would be processed. You can work out further examples on your own. – Howard Apr 22 '11 at 17:36
Sorry, I am trying to solve a larger problem and understand half of it – Aaron Apr 22 '11 at 17:44
I get the divide part, and what I am having trouble with is when comparing to subsets. Do you compare the shortest distance between in each of those subsets? For example in subset one the shortest distance in 5 and in subset two the shortest distance is 3. We just compare 5 and 3 and have no need to compare the actual point in the sub set – Aaron Apr 22 '11 at 17:47

the basic idea of the algorithm is this.

You have a set of points P and you want to find the two points in P that have the shortest distance between them.

A simple brute-force approach would go through every pair in P, calculate the distance, and then take the one pair that has the shortest distance. This is an O(n²) algorithm.

However it is possible to better by the algorithm you are talking about. The idea is first to order all the points according to one of the coordinates, e.g. the x-coordinate. Now your set P is actually a sorted list of points, sorted by their x-coordinates. The algorithm takes now as its input not a set of points, but a sorted list of points. Let's call the algorithm ClosestPair(L), where L is the list of points given as the argument.

ClosestPair(L) is now implemented recursively as follows:

  1. Split the list L at its middle, obtaining Lleft and Lright.
  2. Recursively solve ClosestPair(Lleft) and ClosestPair(Lright). Let the corresponding shortest distances obtained by δleft and δright.
  3. Now we know that the shortest distance in the original set (represented by L) is either one of the two δs, or then it is a distance between a point in Lleft and a point in Lright.
  4. Se we need still to check if there is a shorter distance between two points from the left and right subdivision. The trick is that because we know the distance must be smaller than δleft and δright, it is enough to consider from both subdivisions points that are not farther than min(δleft, δright) from the dividing line (the x-coordinate you used to split the original list L). This optimization makes the procedure faster than the brute-force approach, in practice O(n log n).
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Thanks, here is where I am getting confused. Lets say you have 12 pairs and you break it into 4 subsets of 3. One the left side you have pairs 1-6. You found the shortest of 1-3 and 4-6. To find the middle value do you need to compare the shortest distance of 1 to 4,5,6, then 2 to 4,5,6 then 3 to 4,5,6. Once that is done does that give you middle value. Is that correct – Aaron Apr 22 '11 at 17:55
No, you don't have 12 pairs and you don't break the pairs into subset. You have a number of POINTS and you break the POINTS into TWO subsets. – Antti Huima Apr 22 '11 at 18:19
So the points are broken into two subsets and those subsets are broken in two smaller subsets. Then find the shortest distance between each of the points in the subsets, correct? So we now have L(Left) and L(right) but we still need to find L(left-right). This is where I am getting confused. Do we compare all the points in L(left) to all points in L(right) to get L(left-right)? – Aaron Apr 22 '11 at 18:38
No, you break the points into two subsets. Then you run the shortest-pair algorithm recursively on those. Once the recursive invocations return, you check if there is a shorter distance available than any of the two returned by the recursive calls. Because you have already an upper bound for the distance (the min result returned by the recursive call), you don't need to consider all points from left and right regions, but only those sufficiently near to the split line. – Antti Huima Apr 22 '11 at 19:09

I think I know what algorithm you're talking about. I could recount it here myself, but the description given in Introduction to Algorithms is by far superior to what I can produce. And that chapter is also available on google books: enjoy. (Everybody else can find problem description there too)

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