24

Given a list of opponent seeds (for example seeds 1 to 16), I'm trying to write an algorithm that will result in the top seed playing the lowest seed in that round, the 2nd seed playing the 2nd-lowest seed, etc.

Grouping 1 and 16, 2 and 15, etc. into "matches" is fairly easy, but I also need to make sure that the higher seed will play the lower seed in subsequent rounds.

An example bracket with the correct placement:

1 vs 16
            1 vs 8
8 vs 9
                        1 vs 4
4 vs 13
            4 vs 5
5 vs 12
                                    1 vs 2
2 vs 15
            2 vs 7
7 vs 10
                        2 vs 3
3 vs 14
            3 vs 6
6 vs 11

As you can see, seed 1 and 2 only meet up in the final.

5
  • 2
    This is just a suggestion that I haven't thought through at all: work backwards from the final. – AakashM Dec 2 '11 at 11:21
  • 1
    This is basically a gray code (if you use zero-indexing). To translate the standard (binary reflected) gray code into your numbering system, simply reverse the bits and add one. – Nabb Dec 2 '11 at 16:32
  • @Nabb – I found this which looks interesting, but I'm having trouble understanding the code (it's Ruby which I know nothing about) – glen-84 Dec 2 '11 at 20:14
  • @darkangel: A gray code is code when the hamming distance to the next codeword is 1 and unlike binary code it differ only in 1 bit. Here is an explanation: dba.stackexchange.com/questions/7887/… – Gigamegs Dec 5 '11 at 12:45
  • The principle is correct. However, you might prefer to end up with matches in this specific order: (1, 16), (9, 8), (5, 12), (13, 4), (3, 14), (11, 6), (7, 10), (15, 2). See my answer here: stackoverflow.com/a/45566890/760777 – RWC Aug 9 '17 at 8:43

10 Answers 10

17

This JavaScript returns an array where each even index plays the next odd index

function seeding(numPlayers){
  var rounds = Math.log(numPlayers)/Math.log(2)-1;
  var pls = [1,2];
  for(var i=0;i<rounds;i++){
    pls = nextLayer(pls);
  }
  return pls;
  function nextLayer(pls){
    var out=[];
    var length = pls.length*2+1;
    pls.forEach(function(d){
      out.push(d);
      out.push(length-d);
    });
    return out;
  }
}

> seeding(2)
[1, 2]
> seeding(4)
[1, 4, 2, 3]
> seeding(8)
[1, 8, 4, 5, 2, 7, 3, 6]
> seeding(16)
[1, 16, 8, 9, 4, 13, 5, 12, 2, 15, 7, 10, 3, 14, 6, 11]
1
  • Seems correct. However, you might prefer to end up with matches in this specific order: (1, 16), (9, 8), (5, 12), (13, 4), (3, 14), (11, 6), (7, 10), (15, 2). See my answer here: stackoverflow.com/a/45572051/760777 – RWC Aug 9 '17 at 8:41
11

With your assumptions, players 1 and 2 will play in the final, players 1-4 in the semifinals, players 1-8 in the quarterfinals and so on, so you can build the tournament recursively backwards from the final as AakashM proposed. Think of the tournament as a tree whose root is the final.

In the root node, your players are {1, 2}.

To expand the tree recursively to the next level, take all the nodes on the bottom layer in the tree, one by one, and create two children for them each, and place one of the players of the original node to each one of the child nodes created. Then add the next layer of players and map them to the game so that the worst newly added player plays against the best pre-existing player and so on.

Here first rounds of the algorithm:

 {1,2}  --- create next layer

       {1, _}
      /         --- now fill the empty slots
 {1,2}
      \{2, _}

       {1, 4}   --- the slots filled in reverse order
      /         
 {1,2}
      \{2, 3}   --- create next layer again


             /{1, _}
       {1, 4}
      /      \{4, _}
 {1,2}                  --- again fill
      \      /{2, _}
       {2, 3}
             \{3, _}

             /{1, 8}
       {1, 4}
      /      \{4, 5}    --- ... and so on
 {1,2}
      \      /{2, 7}
       {2, 3}
             \{3, 6}

As you can see, it produces the same tree you posted.

2
  • Very interesting idea, although I would have to think about how to translate it into code. – glen-84 Dec 2 '11 at 14:17
  • 1
    I had this thought as well as another on how to do it without going backwards. I think they ultimately boil down to the same thing though really. Certainly the way to just calculate a position for each player from their seeding is really quite complicated, probably more so for translating into code than this. I'd certainly go with this method. – Chris Dec 2 '11 at 14:25
5

I've come up with the following algorithm. It may not be super-efficient, but I don't think that it really needs to be. It's written in PHP.

<?php
    $players = range(1, 32);
    $count = count($players);
    $numberOfRounds = log($count / 2, 2);

    // Order players.
    for ($i = 0; $i < $numberOfRounds; $i++) {
        $out = array();
        $splice = pow(2, $i); 

        while (count($players) > 0) {

            $out = array_merge($out, array_splice($players, 0, $splice));
            $out = array_merge($out, array_splice($players, -$splice));

        }            

        $players = $out;
    }

    // Print match list.
    for ($i = 0; $i < $count; $i++) {
        printf('%s vs %s<br />%s', $players[$i], $players[++$i], PHP_EOL);
    }
?>
3
  • I have a small question about this. How does this work towards feeding the following rounds? – Paul Williams Mar 1 '12 at 1:03
  • I'm not quite sure what you mean – this just ensures that the highest seed will play the lowest seed in each round (and the 2nd-highest will play the 2nd-lowest, etc.) – glen-84 Mar 3 '12 at 7:56
  • This is a great and simple solution. I made a small edit to make it more efficient. – James Ganong Apr 7 '18 at 23:01
4

I also wrote a solution written in PHP. I saw Patrik Bodin's answer, but thought there must be an easier way.

It does what darkangel asked for: It returns all seeds in the correct positions. The matches are the same as in his example, but in a prettier order, seed 1 and seed number 16 are on the outside of the schema (as you see in tennis tournaments).

If there are no upsets (meaning a higher seeded player always wins from a lower seeded player), you will end up with seed 1 vs seed 2 in the final.

It actually does two things more:

  1. It shows the correct order (which is a requirement for putting byes in the correct positions)

  2. It fills in byes in the correct positions (if required)

A perfect explanation about what a single elimination bracket should look like: http://blog.playdriven.com/2011/articles/the-not-so-simple-single-elimination-advantage-seeding/

Code example for 16 participants:

<?php

define('NUMBER_OF_PARTICIPANTS', 16);

$participants = range(1,NUMBER_OF_PARTICIPANTS);
$bracket = getBracket($participants);
var_dump($bracket);

function getBracket($participants)
{
    $participantsCount = count($participants);  
    $rounds = ceil(log($participantsCount)/log(2));
    $bracketSize = pow(2, $rounds);
    $requiredByes = $bracketSize - $participantsCount;

    echo sprintf('Number of participants: %d<br/>%s', $participantsCount, PHP_EOL);
    echo sprintf('Number of rounds: %d<br/>%s', $rounds, PHP_EOL);
    echo sprintf('Bracket size: %d<br/>%s', $bracketSize, PHP_EOL);
    echo sprintf('Required number of byes: %d<br/>%s', $requiredByes, PHP_EOL);    

    if($participantsCount < 2)
    {
        return array();
    }

    $matches = array(array(1,2));

    for($round=1; $round < $rounds; $round++)
    {
        $roundMatches = array();
        $sum = pow(2, $round + 1) + 1;
        foreach($matches as $match)
        {
            $home = changeIntoBye($match[0], $participantsCount);
            $away = changeIntoBye($sum - $match[0], $participantsCount);
            $roundMatches[] = array($home, $away);
            $home = changeIntoBye($sum - $match[1], $participantsCount);
            $away = changeIntoBye($match[1], $participantsCount);
            $roundMatches[] = array($home, $away);
        }
        $matches = $roundMatches;
    }

    return $matches;

}

function changeIntoBye($seed, $participantsCount)
{
    //return $seed <= $participantsCount ?  $seed : sprintf('%d (= bye)', $seed);  
    return $seed <= $participantsCount ?  $seed : null;
}

?>

The output:

Number of participants: 16
Number of rounds: 4
Bracket size: 16
Required number of byes: 0
C:\projects\draw\draw.php:7:
array (size=8)
  0 => 
    array (size=2)
      0 => int 1
      1 => int 16
  1 => 
    array (size=2)
      0 => int 9
      1 => int 8
  2 => 
    array (size=2)
      0 => int 5
      1 => int 12
  3 => 
    array (size=2)
      0 => int 13
      1 => int 4
  4 => 
    array (size=2)
      0 => int 3
      1 => int 14
  5 => 
    array (size=2)
      0 => int 11
      1 => int 6
  6 => 
    array (size=2)
      0 => int 7
      1 => int 10
  7 => 
    array (size=2)
      0 => int 15
      1 => int 2

If you change 16 into 6 you get:

Number of participants: 6
Number of rounds: 3
Bracket size: 8
Required number of byes: 2
C:\projects\draw\draw.php:7:
array (size=4)
  0 => 
    array (size=2)
      0 => int 1
      1 => null
  1 => 
    array (size=2)
      0 => int 5
      1 => int 4
  2 => 
    array (size=2)
      0 => int 3
      1 => int 6
  3 => 
    array (size=2)
      0 => null
      1 => int 2
1
# Here's one in python - it uses nested list comprehension to be succinct:

from math import log, ceil

def seed( n ):
    """ returns list of n in standard tournament seed order

    Note that n need not be a power of 2 - 'byes' are returned as zero
    """

    ol = [1]

    for i in range( ceil( log(n) / log(2) ) ):

        l = 2*len(ol) + 1

        ol = [e if e <= n else 0 for s in [[el, l-el] for el in ol] for e in s]

    return ol
0
  • At each round sort teams by seeding criteria
  • (If there are n teams in a round)team at ith position plays with team n-i+1
1
  • I need to place the teams in the first round so that the top seeds advancing to the next round will automatically be matched up top-seed vs bottom-seed, etc. You can assume that the top seed always wins the match, for the purposes of the algorithm. – glen-84 Dec 2 '11 at 11:12
0

Since this comes up when searching on the subject, and it's hopeless to find another answer that solves the problem AND puts the seeds in a "prettier" order, I will add my version of the PHP code from darkangel. I also added the possibility to give byes to the higher seed players.

This was coded in an OO environment, so the number of participants are in $this->finalists and the number of byes are in $this->byes. I have only tested the code without byes and with two byes.

  public function getBracket() {
      $players = range(1, $this->finalists);
      for ($i = 0; $i < log($this->finalists / 2, 2); $i++) {
        $out = array();
        $reverse = false;
        foreach ($players as $player) {
          $splice = pow(2, $i);
          if ($reverse) {
            $out = array_merge($out, array_splice($players, -$splice));
            $out = array_merge($out, array_splice($players, 0, $splice));
            $reverse = false;
          } else {
            $out = array_merge($out, array_splice($players, 0, $splice));
            $out = array_merge($out, array_splice($players, -$splice));
            $reverse = true;
          }
        }
        $players = $out;
      }
      if ($this->byes) {
        for ($i = 0; $i < $this->byes; $i++ ) {
          for ($j = (($this->finalists / pow(2, $i)) - 1); $j > 0; $j--) {
            $newPlace = ($this->finalists / pow(2, $i)) - 1;
            if ($players[$j] > ($this->finalists / (pow(2 ,($i + 1))))) {
              $player = $players[$j];
              unset($players[$j]);
              array_splice($players, $newPlace, 0, $player);
            }
          }
        }
        for ($i = 0; $i < $this->finalists / (pow(2, $this->byes)); $i++ ) {
          $swap[] = $players[$i];
        }
        for ($i = 0; $i < $this->finalists /(pow(2, $this->byes)); $i++ ) {
          $players[$i] = $swap[count($swap) - 1 - $i];
        }
        return array_reverse($players);
      }
      return $players;
    }
0

For JavaScript code, use one of the two functions below. The former embodies imperative style & is much faster. The latter is recursive & neater, but only applicable to relatively small number of teams (<16384).

// imperative style
function foo(n) {
  const arr = new Array(n)
  arr[0] = 0
  for (let i = n >> 1, m = 1; i >= 1; i >>= 1, m = (m << 1) + 1) {
    for (let j = n - i; j > 0; j -= i) {
      arr[j] = m - arr[j -= i]
    }
  }
  return arr
}

Here you fill in the spots one by one by mirroring already occupied ones. For example, the first-seeded team (that is number 0) goes to the topmost spot. The second one (1) occupies the opposite spot in the other half of the bracket. The third team (2) mirrors 1 in their half of the bracket & so on. Despite the nested loops, the algorithm has a linear time complexity depending on the number of teams.

Here is the recursive method:

// functional style
const foo = n =>
  n === 1 ? [0] : foo(n >> 1).reduce((p, c) => [...p, c, n - c - 1], [])

Basically, you do the same mirroring as in the previous function, but recursively:

  • For n = 1 team, it's just [0].

  • For n = 2 teams, you apply this function to the argument n-1 (that is, 1) & get [0]. Then you double the array by inserting mirrored elements between them at even positions. Thus, [0] becomes [0, 1].

  • For n = 4 teams, you do the same operation, so [0, 1] becomes [0, 3, 1, 2].

If you want to get human-readable output, increase each element of the resulting array by one:

const readableArr = arr.map(i => i + 1)
0

I worked on a PHP / Laravel plugin that generates brackets with / without preliminary round robin. Maybe it can be useful to you, I don't know what tech you are using. Here is the github.

https://github.com/xoco70/kendo-tournaments

Hope it helps!

0

A C version.

int * pctournamentSeedArray(int PlayerCnt)
{
    int * Array;
    int * PrevArray;
    int i;

    Array = meAlloc(sizeof(int) * PlayerCnt);

    if (PlayerCnt == 2)
    {
        Array[0] = 0;
        Array[1] = 1;
        return Array;
    }

    PrevArray = pctournamentSeedArray(PlayerCnt / 2);
    for (i = 0; i < PlayerCnt;i += 2)
    {
        Array[i] = PrevArray[i / 2];
        Array[i + 1] = (PlayerCnt - 1) - Array[i] ;
    }
    meFree(PrevArray);
    return Array;
}

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