You can divide players into groups for multiplayer games. (If you just need groups in the sense of “treatment groups”, where players don’t actually interact with each other, then see Treatments.)

To set the group size, set C.PLAYERS_PER_GROUP. For example, for a 2-player game, set PLAYERS_PER_GROUP = 2.

If all players should be in the same group, or if it’s a single-player game, set it to None:

Each player has an attribute id_in_group, which will tell you if it is player 1, player 2, etc.

Getting players

Group objects have the following methods:


Returns a list of the players in the group (ordered by id_in_group).


Returns the player in the group with the given id_in_group.

Getting other players

Player objects have methods get_others_in_group() and get_others_in_subsession() that return a list of the other players in the group and subsession.


If each group has multiple roles, such as buyer/seller, principal/agent, etc., you can define them in constants. Make their names end with _ROLE:

class C(BaseConstants):

    PRINCIPAL_ROLE = 'Principal'
    AGENT_ROLE = 'Agent

oTree will then automatically assign each role to a different player (sequentially according to id_in_group). You can use this to show each role different content, e.g.:

class AgentPage(Page):

    def is_displayed(player):
        return player.role == C.AGENT_ROLE

In a template:

You are the {{ player.role }}.

You can also use group.get_player_by_role(), which is similar to get_player_by_id():

def set_payoffs(group):
    principal = group.get_player_by_role(C.PRINCIPAL_ROLE)
    agent = group.get_player_by_role(C.AGENT_ROLE)
    # ...

If you want to switch players’ roles, you should rearrange the groups, using group.set_players(), subsession.group_randomly(), etc.

Group matching

Fixed matching

By default, in each round, players are split into groups of C.PLAYERS_PER_GROUP. They are grouped sequentially – for example, if there are 2 players per group, then P1 and P2 would be grouped together, and so would P3 and P4, and so on. id_in_group is also assigned sequentially within each group.

This means that by default, the groups are the same in each round, and even between apps that have the same PLAYERS_PER_GROUP.

If you want to rearrange groups, you can use the below techniques.


Subsessions have a method group_randomly() that shuffles players randomly, so they can end up in any group, and any position within the group.

If you would like to shuffle players between groups but keep players in fixed roles, use group_randomly(fixed_id_in_group=True).

For example, this will group players randomly each round:

def creating_session(subsession):

This will group players randomly each round, but keep id_in_group fixed:

def creating_session(subsession):

For the following example, assume that PLAYERS_PER_GROUP = 3, and that there are 12 participants in the session:

def creating_session(subsession):
    print(subsession.get_group_matrix()) # outputs the following:
    # [[1, 2, 3],
    #  [4, 5, 6],
    #  [7, 8, 9],
    #  [10, 11, 12]]

    print(subsession.get_group_matrix()) # outputs the following:
    # [[1, 8, 12],
    #  [10, 5, 3],
    #  [4, 2, 6],
    #  [7, 11, 9]]

    print(subsession.get_group_matrix()) # outputs the following:
    # [[8, 10, 3],
    #  [4, 11, 2],
    #  [9, 1, 6],
    #  [12, 5, 7]]


To copy the group structure from one round to another round, use the group_like_round(n) method. The argument to this method is the round number whose group structure should be copied.

In the below example, the groups are shuffled in round 1, and then subsequent rounds copy round 1’s grouping structure.

def creating_session(subsession):
    if subsession.round_number == 1:
        # <some shuffling code here>


Subsessions have a method called get_group_matrix() that return the structure of groups as a matrix, for example:

[[1, 3, 5],
 [7, 9, 11],
 [2, 4, 6],
 [8, 10, 12]]


set_group_matrix() lets you modify the group structure in any way you want. First, get the list of players with get_players(), or the pre-existing group matrix with get_group_matrix(). Make your matrix then pass it to set_group_matrix():

def creating_session(subsession):
    matrix = subsession.get_group_matrix()

    for row in matrix:

    # now the 'matrix' variable looks like this,
    # but it hasn't been saved yet!
    # [[3, 2, 1],
    #  [6, 5, 4],
    #  [9, 8, 7],
    #  [12, 11, 10]]

    # save it

You can also pass a matrix of integers. It must contain all integers from 1 to the number of players in the subsession. Each integer represents the player who has that id_in_subsession. For example:

def creating_session(subsession):

    new_structure = [[1,3,5], [7,9,11], [2,4,6], [8,10,12]]

    print(subsession.get_group_matrix()) # will output this:

    # [[1, 3, 5],
    #  [7, 9, 11],
    #  [2, 4, 6],
    #  [8, 10, 12]]

To check if your group shuffling worked correctly, open your browser to the “Results” tab of your session, and look at the group and id_in_group columns in each round.


This is similar to set_group_matrix, but it only shuffles players within a group, e.g. so that you can give them different roles.

Shuffling during the session

creating_session is usually a good place to shuffle groups, but remember that creating_session is run when the session is created, before players begin playing. So, if your shuffling logic needs to depend on something that happens after the session starts, you should do the shuffling in a wait page instead.

You need to make a WaitPage with wait_for_all_groups=True and put the shuffling code in after_all_players_arrive:

class ShuffleWaitPage(WaitPage):

    wait_for_all_groups = True

    def after_all_players_arrive(subsession):
        # etc...

Group by arrival time

See group_by_arrival_time.