pip install holdem
Afaik, this is the first OpenAI Gym No-Limit Texas Hold'em* (NLTH) environment written in Python. It's an experiment to build a Gym environment that is synchronous and can support any number of players but also appeal to the general public that wants to learn how to "solve" NLTH.
*Python 3 supports arbitrary length integers 💸
Right now, this is a work in progress, but I believe the API is mature enough for some preliminary experiments. Join me in making some interesting progress on multi-agent Gym environments.
There is limited documentation at the moment. I'll try to make this less painful to understand.
Creates a gym environment representation a NLTH Table from the parameters:
n_seats
- number of available players for the current table. No players are initially allocated to the table. You must callenv.add_player(seat_id, ...)
to populate the table.max_limit
- max_limit is used to define thegym.spaces
API for the class. It does not actually determine any NLTH limits; in support ofgym.spaces.Discrete
.debug
- add debug statements to play, will probably be removed in the future.
Adds a player to the table according to the specified seat (seat_id
) and the initial amount of
chips allocated to the player's stack
. If the table does not have enough seats according to the
n_seats
used by the constructor, a gym.error.Error
will be raised.
Calling env.reset
resets the NLTH table to a new hand state. It does not reset any of the players
stacks, or, reset any of the blinds. New behavior is reserved for a special, future portion of the
API that is yet another feature that is not standard in Gym environments and is a work in progress.
The observation returned is a tuple
of the following by index:
player_states
- atuple
where each entry istuple(player_info, player_hand)
, this feature can be used to gather all states and hands by(player_infos, player_hands) = zip(*player_states)
.player_infos
- is alist
ofint
features describing the individual player. It contains the following by index: 0.[0, 1]
-0
- seat is empty,1
- seat is not empty.[0, n_seats - 1]
- player's id, where they are sitting.[0, inf]
- player's current stack.[0, 1]
- player is playing the current hand.[0, inf]
the player's current handrank according totreys.Evaluator.evaluate(hand, community)
.[0, 1]
-0
- player has not played this round,1
- player has played this round.[0, 1]
-0
- player is currently not betting,1
- player is betting.[0, 1]
-0
- player is currently not all-in,1
- player is all-in.[0, inf]
- player's last sidepot.
player_hands
- is alist
ofint
features describing the cards in the player's pocket. The values are encoded based on thetreys.Card
integer representation.
community_states
- atuple(community_infos, community_cards)
where:community_infos
- alist
by index: 0.[0, n_seats - 1]
- location of the dealer button, where big blind is posted.[0, inf]
- the current small blind amount.[0, inf]
- the current big blind amount.[0, inf]
- the current total amount in the community pot.[0, inf]
- the last posted raise amount.[0, inf]
- minimum required raise amount, if above 0.[0, inf]
- the amount required to call.[0, n_seats - 1]
- the current player required to take an action.
community_cards
- is alist
ofint
features describing the cards in the community. The values are encoded based on thetreys.Card
integer representation. There are 5int
in the list, where-1
represents that there is no card present.
import gym
import holdem
def play_out_hand(env, n_seats):
# reset environment, gather relevant observations
(player_states, (community_infos, community_cards)) = env.reset()
(player_infos, player_hands) = zip(*player_states)
# display the table, cards and all
env.render(mode='human')
terminal = False
while not terminal:
# play safe actions, check when noone else has raised, call when raised.
actions = holdem.safe_actions(community_infos, n_seats=n_seats)
(player_states, (community_infos, community_cards)), rews, terminal, info = env.step(actions)
env.render(mode='human')
env = gym.make('TexasHoldem-v1') # holdem.TexasHoldemEnv(2)
# start with 2 players
env.add_player(0, stack=2000) # add a player to seat 0 with 2000 "chips"
env.add_player(1, stack=2000) # add another player to seat 1 with 2000 "chips"
# play out a hand
play_out_hand(env, env.n_seats)
# add one more player
env.add_player(2, stack=2000) # add another player to seat 1 with 2000 "chips"
# play out another hand
play_out_hand(env, env.n_seats)