algorithms for tournament brackets (NCAA, etc.)

I'm trying implement a bracket in my program (using C#/.NET MVC) and I am stuck trying to figure out some algorithm.

For example, I have a bracket like this with 8 entries (A,B,C,D,E,F,G,H)

I'm trying to figure out if there's an algorithmic way to

1. depending on # of entries, find # of games per round

2. depending on # of entries, for a specific game #, what is the corresponding game # in the next round?

For example, in this case, for 8 entries, the example are:

1. for round 1, there are 4 games. Round 2, 2 games. Round 3, 1 game
2. game 2 in round 1 corresponds to game 5 in round 2.

I also thought about storing this info in a table, but it seems overkill since it never changes, but here it is anyway:

Any help will be greatly appreciated!

Cheers,

Dean

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at round x, there will be 2 ^ (n - x) games –  BlackBear May 20 '11 at 12:55
What is n, if it's # of entries, that doesn't seem to work –  Dean May 23 '11 at 22:32
I'm going to add a bounty here as I'm curious to see this fully solved, but I don't really have the time to spend on it this week. Hopefully having the function for part 1 should help. I imagine it gets re-used in finding subsequent games for winners. –  Yuck May 25 '11 at 2:30

Quoting @Yuck who answered the first question perfectly.

C# code for the first part of your question:

``````// N = Initial Team Count
// R = Zero-Based Round #
// Games = (N / (2 ^ R)) / 2
public double GamesPerRound(int totalTeams, int currentRound) {
var result = (totalTeams / Math.Pow(2, currentRound)) / 2;

// Happens if you exceed the maximum possible rounds given number of teams
if (result < 1.0F) throw new InvalidOperationException();

return result;
}
``````

Moving on to the second question:

``````//G = current game.
//T = total teams
//Next round game = (T / 2) + RoundedUp(G / 2)
//i. e.: G = 2, T = 8
//Next round game = (8 / 2) + RoundedUp(2 / 2) = 5
public int NextGame(int totalTeams, int currentGame) {
return (totalTeams / 2) + (int)Math.Ceiling((double)currentGame / 2);
}
``````
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Very nice! Well done –  Yuck May 31 '11 at 14:46
Excellent, thank you! –  Dean Jun 21 '11 at 13:02

C# code for the first part of your question:

``````// N = Initial Team Count
// R = Zero-Based Round #
// Games = (N / (2 ^ R)) / 2
public double GamesPerRound(int totalTeams, int currentRound) {
var result = (totalTeams / Math.Pow(2, currentRound)) / 2;

// Happens if you exceed the maximum possible rounds given number of teams
if (result < 1.0F) throw new InvalidOperationException();

return result;
}
``````

The next step in solving part (2) is to know the minimum game number for a given round. An intuitive way to do that would be through a for loop, but there's probably a better method:

``````var totalTeams = 8;
var selectedRound = 2;
var firstGame = 1;
// If we start with round 1, this doesn't execute and firstGame remains at 1
for (var currentRound = 1; currentRound < selectedRound; currentRound++) {
var gamesPerRound = GamesPerRound(totalTeams, currentRound);
firstGame += gamesPerRound;
}
``````
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This is great, works perfectly to return # of games per round. How would I 1) list the GameIDs per round, 2) determine that GameID of the corresponding Game in the next round (without keeping track of parent-child relationship)? Thanks! –  Dean May 25 '11 at 14:39
See above. To list the game ID for a given round it's a simple loop starting with `firstGame` iterating `gamesPerRound` times. –  Yuck May 25 '11 at 15:09
without a loop: `firstGame = totalTeams - totalTeams*2/(1<<selectedRound) + 1` –  Tom Sirgedas May 31 '11 at 4:49
In part (1) above it would be simpler for R to be ONE-based then the formula would just be: var result = totalTeams / Math.Pow(2, currentRound); –  Barry Kaye May 31 '11 at 14:59

So basically its a elimination contest.

So just have List.

The algorithm will always put the first and second teams together if the number of teams is even. You then increase the counter by two and repeat.

If the number of teams is odd do pretty much the samething except you randomly select a winner of the "first around" and put it against the odd team.

After the first round you repeat the algorithm the same way.

A+1 C+1 ...

For example, I have a bracket like this with 8 entries (A,B,C,D,E,F,G,H)

You should be able to figure out how to parse this. This seems like a homework question.

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I actually worked this out myself fairly recently and stumbled on (that is, I worked it out, but it has probably been discovered before) a neat recursive solution.

You start with your list of players, in a list that is sorted in seed order. This will be important later.

The overall algorithm consists of splitting the list of players into two and then creating two sub-tournaments. The winners of the two sub-tournaments will end up the grand final of the overall tournament.

Required Objects

• Player
• Name
• Seed
• Match
• Home Player
• Away Player
• Next Match (pointer to the Match the winner goes to)

Splitting the Lists

Most tournaments put the top seeded player against the bottom seeded player in round one. In order to do this I used the following algorithm, but you could just put the first `n / 2` players in one list and the rest in the other list to create a tournament where seeds 1 and 2 play off in round one (and seed 3 plays 4, 5 plays 6 etc).

I'll note here that the neat thing about having top seed play bottom seed is that with this algorithm if you don't have a power of two number of players, the top seed(s) will get a bye in the early rounds.

1. Take the first player and put them in the "left" list
2. Take the next two players (or the last player) and put them in the "right" list
3. Take the next two player and put them in the "left" list
4. Repeat from step 2 until there are no more players.

Of course, if there are only two players in the list you simply create a match between them and return.

Building the Tournament

So you start out with a list of say, 64 players. You split it into two lists of 32 players and recursively create two sub tournaments. The methods that you call recursively should return the Matches that represent the sub-tournament's grand final match (the semi-final of your overall tournament). You can then create a match to be the grand final of your overall tournament and set the `nextMatch` of the semi final matches to be this grand final.

Things to Consider

• You'll need to break out of recursing if there are only two players in the list that's passed in.
• If your split gives you a list of one, shouldn't recurse with it. Just create a sub-tournament with the other list (it should only have two players so will return with a match immediately), set the home team to be the single player and the `nextMatch` of the sub-tournament.
• If you want to be able to keep track of rounds, you'll need to pass a recursion depth integer - increment it when you create a sub-tournament.

Hope this helps, let me know if you need any clarification :)

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