# Double-Elimination Tournament Schedule

I'm trying to create some logic to generate a schedule of events in a double-elimination tournament bracket.

Here is an example 8-team bracket:

``````rd1 quarter    semi    finals
A───┐
0 ├───────A┐
B───┘        │
4 ├────────A┐
C───┐        │         │
1 ├───────C┘         │
D───┘                  │
10 ├──────A┐
E───┐                  │       │
2 ├───────E┐         │       │
F───┘        │         │       │
5 ├────────E┘       │
G───┐        │              13 ├───= Champ
3 ├───────G┘                 │
H───┘                          │
E────┐     │
C───┐           │     │
B───┐  8 ├────C┐  12 ├────E┘
6 ├B───┘     │     │
D───┘       11 ├C────┘
G───┐     │
F───┐  9 ├────G┘
7 ├F───┘
H───┘
``````

The numbers represent indices in an array of matches, which is the desired output. For example, index 0 will represent Team 1 vs. Team 8 (using a seeded system), index 4 will represent the Winner of index 0 vs. the Winner of index 1.

The loser's bracket is populated from the losers of the winner's bracket, where index 6 is the Loser of index 0 vs. the Loser of index 1 and index 8 is the Loser of of index 4 vs. the Winner of index 6.

In the visual example, you can see the teams labelled by letter and showing a clear example of the winning team being on the top branch every time, and the losing team being on the bottom branch. Index 0 represents Team A vs. B, index 4 represents the winner of index 0 (A) vs. the winner of index 1 (C). Index 6 is the loser of Index 0 (B) vs. the loser of Index 1 (D) and index 8 is the loser of index 4 (C) vs. the winner of index 6 (B)

There is a obvious pattern emerging, but my logic gets messed up and confusing when I try to adapt for varying numbers of competitors. For simplicity's sake, I'm fixing the bracket to only a power of 2 number of teams. I was able to write everything to create an array of matches for an 8-team bracket, but I'm getting lost understanding even my own code, since it doesn't seem to be scalable.

``````// round one
for( \$i = 0; \$i < log( count( \$competitors ), 2 ); \$i++ )
{
\$seeded = array( );
foreach( \$competitors as \$competitor )
{
\$splice = pow( 2, \$i );

\$seeded = array_merge( \$seeded, array_splice( \$competitors, 0, \$splice ) );
\$seeded = array_merge( \$seeded, array_splice( \$competitors, -\$splice ) );
}
\$competitors = \$seeded;
}

\$events = array_chunk( \$seeded, 2 );

// quarter finals
for( \$i = 0; \$i < count( \$competitors ) / 2; \$i++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$i, 'from_event_rank' => 1 ), // rank 1 = winner
array( 'from_event_index' => ++\$i, 'from_event_rank' => 1 )
) );
}

\$round_matchups = array( );
for( \$i = 0; \$i < count( \$competitors ) / 2; \$i++ )
{
array_push( \$round_matchups, array(
array( 'from_event_index' => \$i, 'from_event_rank' => 2 ), // rank 2 = loser
array( 'from_event_index' => ++\$i, 'from_event_rank' => 2 )
) );
}
\$events = array_merge( \$events, \$round_matchups );

for( \$i = 0; \$i < count( \$round_matchups ); \$i++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$i + count( \$competitors ) / 2, 'from_event_rank' => 2 ),
array( 'from_event_index' => \$i + count( \$competitors ) / 2 + count( \$competitors ) / 2 / 2, 'from_event_rank' => 1 )
) );
}

// semi finals
for( \$i = 0; \$i < count( \$competitors ) / 2 / 2; \$i++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$i + count( \$competitors ) / 2, 'from_event_rank' => 1 ),
array( 'from_event_index' => ++\$i + count( \$competitors ) / 2, 'from_event_rank' => 1 )
) );
}

\$round_matchups = array( );
for( \$i = 0; \$i < count( \$competitors ) / 2 / 2; \$i++ )
{
array_push( \$round_matchups, array(
array( 'from_event_index' => \$i + count( \$competitors ), 'from_event_rank' => 1 ),
array( 'from_event_index' => ++\$i + count( \$competitors ), 'from_event_rank' => 1 )
) );
}
\$events = array_merge( \$events, \$round_matchups );

for( \$i = 0; \$i < count( \$round_matchups ); \$i++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$i + count( \$competitors ) + count( \$competitors ) / 2 - 2, 'from_event_rank' => 2 ),
array( 'from_event_index' => \$i + count( \$competitors ) + count( \$competitors ) / 2 - 1, 'from_event_rank' => 1 )
) );
}

// finals
for( \$i = 0; \$i < count( \$competitors ) / 2 / 2 / 2; \$i++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$i + count( \$competitors ) / 2 * 3 - 2, 'from_event_rank' => 1 ),
array( 'from_event_index' => ++\$i + count( \$competitors ) / 2 * 3 - 1, 'from_event_rank' => 1 )
) );
}
``````

Output of the code above:

``````\$events = array(14) {
[0]=>
array(2) {
[0]=>
array(4) {
["team"]=>int(1)
}
[1]=>
array(4) {
["team"]=>int(8)
}
}
[1]=>
array(2) {
[0]=>
array(4) {
["team"]=>int(4)
}
[1]=>
array(4) {
["team"]=>int(5)
}
}
[2]=>
array(2) {
[0]=>
array(4) {
["team"]=>int(2)
}
[1]=>
array(4) {
["team"]=>int(7)
}
}
[3]=>
array(2) {
[0]=>
array(4) {
["team"]=>int(3)
}
[1]=>
array(4) {
["team"]=>int(6)
}
}
[4]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(0)
["from_event_rank"]=>int(1)
}
[1]=>
array(2) {
["from_event_index"]=>int(1)
["from_event_rank"]=>int(1)
}
}
[5]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(2)
["from_event_rank"]=>int(1)
}
[1]=>
array(2) {
["from_event_index"]=>int(3)
["from_event_rank"]=>int(1)
}
}
[6]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(0)
["from_event_rank"]=>int(2)
}
[1]=>
array(2) {
["from_event_index"]=>int(1)
["from_event_rank"]=>int(2)
}
}
[7]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(2)
["from_event_rank"]=>int(2)
}
[1]=>
array(2) {
["from_event_index"]=>int(3)
["from_event_rank"]=>int(2)
}
}
[8]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(4)
["from_event_rank"]=>int(2)
}
[1]=>
array(2) {
["from_event_index"]=>int(6)
["from_event_rank"]=>int(1)
}
}
[9]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(5)
["from_event_rank"]=>int(2)
}
[1]=>
array(2) {
["from_event_index"]=>int(7)
["from_event_rank"]=>int(1)
}
}
[10]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(4)
["from_event_rank"]=>int(1)
}
[1]=>
array(2) {
["from_event_index"]=>int(5)
["from_event_rank"]=>int(1)
}
}
[11]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(8)
["from_event_rank"]=>int(1)
}
[1]=>
array(2) {
["from_event_index"]=>int(9)
["from_event_rank"]=>int(1)
}
}
[12]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(10)
["from_event_rank"]=>int(2)
}
[1]=>
array(2) {
["from_event_index"]=>int(11)
["from_event_rank"]=>int(1)
}
}
[13]=>
array(2) {
[0]=>
array(2) {
["from_event_index"]=>int(10)
["from_event_rank"]=>int(1)
}
[1]=>
array(2) {
["from_event_index"]=>int(12)
["from_event_rank"]=>int(1)
}
}
}
``````

Any ideas on how I can modify this to work for a 4-team, 16-team, or 2^n-team bracket? I feel like the logic under the heading "semi-finals" is what should repeat 0+ times, but every time I try to loop it based on the total number of rounds, it just repeats the same matches as the previous round.

• Wow... D & H got pwned – Robbie Averill Feb 3 '14 at 20:10
• @scrowler That's my edit.. I spent a good 10 minutes trying to wrap my head around the ladder and I figured the alphabetical labelling would help, but it's still just a simple example where the top branch is the winning one every time. Of course, there's always a chance for the underdogs to win ;) – sjagr Feb 3 '14 at 20:16
• Thanks @sjagr, I think the labels help clarify what I'm trying to explain. – Jeff Jenkins Feb 3 '14 at 20:31
• @MrSlayer No problem! I'm at work so I may tackle this later... I haven't solved any puzzles lately – sjagr Feb 3 '14 at 20:38

Well, I've been trudging through my existing logic and was able to generate the schedule for 4-, 8-, 16-, and 32-team double elimination brackets. The logic is not the must succinct, but it at least allows me to understand what's going on. In the future, I hope to revise and clean it up a bit, but for now this will have to do.

``````\$rounds = log( count( \$competitors ), 2 ) + 1;

// round one
for( \$i = 0; \$i < log( count( \$competitors ), 2 ); \$i++ )
{
\$seeded = array( );
foreach( \$competitors as \$competitor )
{
\$splice = pow( 2, \$i );

\$seeded = array_merge( \$seeded, array_splice( \$competitors, 0, \$splice ) );
\$seeded = array_merge( \$seeded, array_splice( \$competitors, -\$splice ) );
}
\$competitors = \$seeded;
}

\$events = array_chunk( \$seeded, 2 );

if( \$rounds > 2 )
{
\$round_index = count( \$events );

// second round
for( \$i = 0; \$i < count( \$competitors ) / 2; \$i++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$i, 'from_event_rank' => 1 ), // rank 1 = winner
array( 'from_event_index' => ++\$i, 'from_event_rank' => 1 )
) );
}

\$round_matchups = array( );
for( \$i = 0; \$i < count( \$competitors ) / 2; \$i++ )
{
array_push( \$round_matchups, array(
array( 'from_event_index' => \$i, 'from_event_rank' => 2 ), // rank 2 = loser
array( 'from_event_index' => ++\$i, 'from_event_rank' => 2 )
) );
}
\$events = array_merge( \$events, \$round_matchups );

for( \$i = 0; \$i < count( \$round_matchups ); \$i++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$i + count( \$competitors ) / 2, 'from_event_rank' => 2 ),
array( 'from_event_index' => \$i + count( \$competitors ) / 2 + count( \$competitors ) / 2 / 2, 'from_event_rank' => 1 )
) );
}
}

if( \$rounds > 3 )
{
// subsequent rounds
for( \$i = 0; \$i < \$rounds - 3; \$i++ )
{
\$round_events = pow( 2, \$rounds - 3 - \$i );
\$total_events = count( \$events );

for( \$j = 0; \$j < \$round_events; \$j++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$j + \$round_index, 'from_event_rank' => 1 ),
array( 'from_event_index' => ++\$j + \$round_index, 'from_event_rank' => 1 )
) );
}

for( \$j = 0; \$j < \$round_events; \$j++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$j + \$round_index + \$round_events * 2, 'from_event_rank' => 1 ),
array( 'from_event_index' => ++\$j + \$round_index + \$round_events * 2, 'from_event_rank' => 1 )
) );
}

for( \$j = 0; \$j < \$round_events / 2; \$j++ )
{
array_push( \$events, array(
array( 'from_event_index' => \$j + \$total_events, 'from_event_rank' => 2 ),
array( 'from_event_index' => \$j + \$total_events + \$round_events / 2, 'from_event_rank' => 1 )
) );
}

\$round_index = \$total_events;
}

}

if( \$rounds > 1 )
{
// finals
array_push( \$events, array(
array( 'from_event_index' => count( \$events ) - 3, 'from_event_rank' => 1 ),
array( 'from_event_index' => count( \$events ) - 1, 'from_event_rank' => 1 )
) );
}
``````

I've verified the results up to 32 teams (powers of 2, only) and was able to generate a schedule with 64 teams that appears to be correct. Sometimes, persistence pays off.

• Is this code/algorithm available in java or can anyone help me to provide java version of this code? – Amrut Bidri Sep 20 '17 at 13:33
• The logic is very basic...mostly just simple arithmetic, loops, and conditionals. You should be able to translate it yourself with the help of a few Google commands for the array functions (merge, push, splice) if they don't exist natively. The `_rank => 1` is just my way of saying the "winning competitor". – Jeff Jenkins Sep 20 '17 at 17:06

In normal tournament the games can be placed with the help of a gray-code. Maybe you can use the code also for the second tree. For example create a 2-pass algorithm. You can read about my question here:Gray code pattern in tournament chart?.

• Thanks for the suggestion, just glancing at Gray Code on Wikipedia scares me, but I will keep plugging away and read that when I get sick of staring at PHP. I think my problem is, I don't know enough about math and, as a result, am trying to do loops when higher-level math is more appropriate. – Jeff Jenkins Feb 3 '14 at 20:31

thanks for sharing this solution with us. i translated your algorithm to C#. maybe someone could use it:

``````using System;
using System.Collections.Generic;
using System.Linq;
using TmBackend.Entities;

namespace TmBackend.Services
{
partial class TournamentRepository
{
private void GenerateDoubleEliminationMatches(Tournament tournament)
{
var roundsCount = Convert.ToInt32(Math.Log(tournament.Teams.Count, 2)) + 1;

var rand = new Random();
var shuffledTeams = tournament.Teams.OrderBy(t => rand.Next()).ToArray();

// Round 0
var rounds = new List<TournamentRound>
{
new TournamentRound
{
Matches = new List<TournamentMatch>(),
Order = 1.0,
Type = TournamentRoundType.Winnerbracket,
}
};

for (var i = 0; i < shuffledTeams.Length; i += 2)
{
{
MatchIndex = rounds[0].Matches.Count,
Scores = new List<TournamentMatchScore>
{
new TournamentMatchScore
{
TournamentTeamId = shuffledTeams[i].Id
},
new TournamentMatchScore
{
TournamentTeamId = shuffledTeams[i + 1].Id
},
},
});
}

var matchIndex = rounds[0].Matches.Count();
if (roundsCount > 2)
{
// second round
var winnerRound = new TournamentRound
{
Matches = new List<TournamentMatch>(),
Order = 2,
Type = TournamentRoundType.Winnerbracket
};
var loserRound = new TournamentRound
{
Matches = new List<TournamentMatch>(),
Order = 2,
Type = TournamentRoundType.Loserbracket
};
var loserRound2 = new TournamentRound
{
Matches = new List<TournamentMatch>(),
Order = 2.5,
Type = TournamentRoundType.Loserbracket
};

// winner bracket
for (var i = 0; i < shuffledTeams.Length / 2; i++)
{
var m = new TournamentMatch
{
MatchIndex = matchIndex++,
Scores = new List<TournamentMatchScore>
{
new TournamentMatchScore
{
PreviousMatchIndex = i,
PreviousMatchRank = MatchRank.Winner
},
new TournamentMatchScore
{
PreviousMatchIndex = ++i,
PreviousMatchRank = MatchRank.Winner
},
}
};
}

// loser bracket 2.0
for (var i = 0; i < shuffledTeams.Length / 2; i++)
{
var m = new TournamentMatch
{
MatchIndex = matchIndex++,
Scores = new List<TournamentMatchScore>
{
new TournamentMatchScore
{
PreviousMatchIndex = i,
PreviousMatchRank = MatchRank.Loser
},
new TournamentMatchScore
{
PreviousMatchIndex = ++i,
PreviousMatchRank = MatchRank.Loser
}
}
};
}

// loser bracket 2.5
var loserRoundCount = loserRound.Matches.Count;
for (var i = 0; i < loserRoundCount; i++)
{
var m = new TournamentMatch
{
MatchIndex = matchIndex++,
Scores = new List<TournamentMatchScore>
{
new TournamentMatchScore
{
PreviousMatchIndex = i + shuffledTeams.Length / 2,
PreviousMatchRank = MatchRank.Loser
},
new TournamentMatchScore
{
PreviousMatchIndex = i + shuffledTeams.Length / 2 + shuffledTeams.Length / 2 / 2,
PreviousMatchRank = MatchRank.Winner
}
}
};
}
}

if (roundsCount > 3)
{
// subsequent rounds
for (var i = 0; i < roundsCount - 3; i++)
{
var matchesCountRound = (int) Math.Pow(2, roundsCount - 3 - i);
var matchesCountTotalBefore = rounds.Take(rounds.Count - 3).Sum(r => r.Matches.Count);
var matchesCountTotal = rounds.Sum(r => r.Matches.Count);

var winnerRound = new TournamentRound
{
Matches = new List<TournamentMatch>(),
Order = 3 + i,
Type = TournamentRoundType.Winnerbracket
};
var loserRound = new TournamentRound
{
Matches = new List<TournamentMatch>(),
Order = 3 + i,
Type = TournamentRoundType.Loserbracket
};
var loserRound2 = new TournamentRound
{
Matches = new List<TournamentMatch>(),
Order = 3.5 + i,
Type = TournamentRoundType.Loserbracket
};

// winner bracket
for (var j = 0; j < matchesCountRound; j++)
{
var m = new TournamentMatch
{
MatchIndex = matchIndex++,
Scores = new List<TournamentMatchScore>
{
new TournamentMatchScore
{
PreviousMatchIndex = j + matchesCountTotalBefore,
PreviousMatchRank = MatchRank.Winner
},
new TournamentMatchScore
{
PreviousMatchIndex = ++j + matchesCountTotalBefore,
PreviousMatchRank = MatchRank.Winner
},
}
};
}

// loser bracket X.0
for (var j = 0; j < matchesCountRound; j++)
{
var m = new TournamentMatch
{
MatchIndex = matchIndex++,
Scores = new List<TournamentMatchScore>
{
new TournamentMatchScore
{
PreviousMatchIndex = j + matchesCountTotalBefore + matchesCountRound * 2,
PreviousMatchRank = MatchRank.Winner
},
new TournamentMatchScore
{
PreviousMatchIndex = ++j + matchesCountTotalBefore + matchesCountRound * 2,
PreviousMatchRank = MatchRank.Winner
},
}
};
}

// loser bracket X.5
for (var j = 0; j < matchesCountRound / 2; j++)
{
var m = new TournamentMatch
{
MatchIndex = matchIndex++,
Scores = new List<TournamentMatchScore>
{
new TournamentMatchScore
{
PreviousMatchIndex = j + matchesCountTotal,
PreviousMatchRank = MatchRank.Loser
},
new TournamentMatchScore
{
PreviousMatchIndex = j + matchesCountTotal + matchesCountRound / 2,
PreviousMatchRank = MatchRank.Winner
},
}
};
}
}
}

// finals
if (roundsCount > 1)
{
var winnerRound = new TournamentRound
{
Matches = new List<TournamentMatch>(),
Order = rounds.Count / 3 + 2,
Type = TournamentRoundType.Final
};

var m = new TournamentMatch
{
MatchIndex = matchIndex,
Scores = new List<TournamentMatchScore>
{
new TournamentMatchScore
{
PreviousMatchIndex = matchIndex - 3,
PreviousMatchRank = MatchRank.Winner
},
new TournamentMatchScore
{
PreviousMatchIndex = matchIndex - 1,
PreviousMatchRank = MatchRank.Winner
},
}
};
}

tournament.Rounds = rounds;
}
}
}
``````

This algorithm in the accepted answer is pretty complicated and hard to follow. I tried hard to but it just doesn't feel like something a developer would understand and more like a data scientist's solution. Anyways here is my solution in Kotlin:

``````actual fun generateDE(teams: List<Team>, bracketSize: BracketSize): Bracket {
val matchesWQueue: Queue<Match> = ArrayDeque<Match>()
val matchesLQueue: Queue<Match> = ArrayDeque<Match>()
val backfillQ: Queue<Match> = ArrayDeque<Match>()
val participants = teams.toMutableList()
val bracket = Bracket()

for (i in 1..bracketSize.value / 2) { // Seed Round
var team1: Team? = null
var team2: Team? = null

if (participants.isNotEmpty()) {
team1 = participants[(0..participants.size - 1).random()]
participants.remove(team1)
}
if (participants.isNotEmpty()) {
team2 = participants[(0..participants.size - 1).random()]
participants.remove(team2)
}

val seedMatch = Match(
id = UUID.randomUUID().toString(),
team1 = team1,
team2 = team2,
winner = null,
match1 = null,
match2 = null
)

matchesWQueue += seedMatch
matchesLQueue += seedMatch
bracket.upper += seedMatch
}

while (matchesWQueue.size > 1) { // Generate upper bracket matches
val match1 = matchesWQueue.remove()
val match2 = matchesWQueue.remove()

val matchW = Match(
id = UUID.randomUUID().toString(),
team1 = null,
team2 = null,
winner = null,
match1 = match1,
match2 = match2
)

matchesWQueue += matchW
bracket.upper += matchW
backfillQ += matchW // add match to backfill for Lower Queue
}

var roundSwitch = bracketSize.value / 2
var switch = false
var counter = 0
var switchedCounter = 0
while (matchesLQueue.size > 0 && backfillQ.size > 0) { // Generate losers bracket matches
var match1: Match?
var match2: Match?
if (switch) {
match1 = matchesLQueue.remove()
match2 = backfillQ.remove()
switchedCounter += 2
if (switchedCounter == roundSwitch) {
// switch back
roundSwitch /= 2
switch = false
// reset counters
switchedCounter = 0
}
} else {
match1 = matchesLQueue.remove()
match2 = matchesLQueue.remove()
counter += 2
if (counter == roundSwitch) {
switch = true
counter = 0
}
}

val matchL = Match(
id = UUID.randomUUID().toString(),
team1 = null,
team2 = null,
winner = null,
match1 = match1,
match2 = match2
)
matchesLQueue += matchL
bracket.lower += matchL
}

bracket.lower += Match(
id = UUID.randomUUID().toString(),
team1 = null,
team2 = null,
winner = null,
match1 = matchesWQueue.remove(),
match2 = matchesLQueue.remove()
)

return bracket
}

``````

Also decided to have fun with this and turn it into a Kotlin multiplatform library: https://github.com/hshar7/kotlin-brackets-multiplatform/blob/master/src/jvmMain/kotlin/brackets/BracketsJvm.kt