# Algorithm to select random pairs, schedule matchups

I'm working in Ruby, but I think this question is best asked agnostic of language. It may be assumed that we have access to basic list/array functions, as well as a "random" number generator. Here's what I'd like to be able to do:

Given a collection of `n` teams, with `n` even,

1. Randomly pair each team with an opponent, such that every team is part of exactly one pair. Call this `ROUND 1`.
2. Randomly generate `n-2` subsequent rounds (`ROUND 2` through `ROUND n-1`) such that:
• Each round has the same property as the first (every team is a member of one pair), and
• After all the rounds, every team has faced every other team exactly once.

I imagine that algorithms for doing exactly this must be well known, but as a self-taught coder I'm having trouble figuring out how to find them.

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I belive You are describing a round robin tournament. The wikipedia page gives an algorithm.

If You need a way to randomize the schedule, randomize team order, round order, etc.

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Well not sure if this is the most efficient algorithm but:

1. Randomly assign N teams into two lists of same length n/2 (List1, List2)
2. Starting with i = 0:
3. Create pairs: List1[i],List2[i] = a team pair
4. Repeat for i = 1-> (n/2-1)

For rounds 2-> n/2-1:

5. Rotate List2, so that the first team in List2 is now at the end.
6. Repeat steps 2 through 5, until List2 has been cycled once.
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This might work, but it seems that the process is deterministic once the first round is set. I want randomness (within the constraints) at every stage. (Obviously the final round will be deterministic.) –  hoffm Feb 27 '12 at 3:09
Also, how will the teams within each list ever play one another? Perhaps I'm misunderstanding? –  hoffm Feb 29 '12 at 3:38
Nope, you're right hoffm. The teams won't ever face off :(/ –  Alan Feb 29 '12 at 4:03

This link was very helpful to me the last time I wrote a round robin scheduling algorithm. It includes a C implementation of a first fit algorithm for round robin pairings.

In addition to the algorithm, he has some helpful links to other aspects of tournament scheduling (balancing home and away games, as well as rotating teams across fields/courts).

Note that you don't necessarily want a "random" order to the pairings in all cases. If, for example, you were scheduling a round robin soccer league for 8 games that only had 6 teams, then each team is going to have to play two other teams twice. If you want to make a more enjoyable season for everyone, you have to start worrying about seeding so that you don't have your top 2 teams clobbering the two weakest teams in their last two games. You'd be better off arranging for the extra games to be paired against teams of similar strength/seeding.

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This newsgroup thread is great! –  hoffm Feb 29 '12 at 3:48

Based on info I found through Maniek's link, I went with the following:

1. A simple round robin algorithm that

a. Starts with pairings achieved by zipping `[0,...,(n-1)/2]` and `[(n-1)/2 + 1,..., n-1]`. (So, if `n==10`, we have `0` paired with `5`, `1` with `6`, etc.)

b. Rotates all but one team n-2 times clockwise until all teams have played each other. (So in round 2 we pair 1 with 6, 5 with 7, etc.)

2. Randomly assigns one of `[0,..., n-1]` to each of the teams.

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