A pure Python poker hand evaluation library
[ 2 ❤ ] , [ 2 ♠ ]
pip install deuces
# OR...
git clone [email protected]:worldveil/deuces.git ./deuces
cd ./deuces
python3.10 -m venv poker_env
source poker_env/bin/activate
pip install -r requirements.txt
These should be much more exhaustive, but for now, run:
python -m pytest
Deuces, originally written for the MIT Pokerbots Competition, is lightweight and fast. All lookups are done with bit arithmetic and dictionary lookups. That said, Deuces won't beat a C implemenation (~250k eval/s) but it is useful for situations where Python is required or where bots are allocated reasonable thinking time (human time scale).
Deuces handles 5, 6, and 7 card hand lookups. The 6 and 7 card lookups are done by combinatorially evaluating the 5 card choices, but later releases may have dedicated and faster algorithms for these.
I also have lookup tables for 2 card rollouts, which is particularly handy in evaluating Texas Hold'em preflop pot equity, but they are forthcoming as well.
See my blog for an explanation of how the library works and how the lookup table generation is done: http://willdrevo.com/ (haven't posted yet)
Deuces is easy to set up and use.
from deuces import Card
card = Card.new('Qh')
Card objects are represented as integers to keep Deuces performant and lightweight.
Now let's create the board and an example Texas Hold'em hand:
board = [
Card.new('Ah'),
Card.new('Kd'),
Card.new('Jc')
]
hand = [
Card.new('Qs'),
Card.new('Th')
]
Pretty print card integers to the terminal:
Card.print_pretty_cards(board + hand)
[ A ❤ ] , [ K ♦ ] , [ J ♣ ] , [ Q ♠ ] , [ T ❤ ]
If you have termcolor
installed, they will be colored as well.
Otherwise move straight to evaluating your hand strength:
>>> from deuces import Evaluator
>>> evaluator = Evaluator()
>>> print(evaluator.evaluate(board, hand))
1600
Hand strength is valued on a scale of 1 to 7462, where 1 is a Royal Flush and 7462 is unsuited 7-5-4-3-2, as there are only 7642 distinctly ranked hands in poker. Once again, refer to my blog post for a more mathematically complete explanation of why this is so.
If you want to deal out cards randomly from a deck, you can also do that with Deuces:
from deuces import Deck
deck = Deck()
board = deck.draw(5)
player1_hand = deck.draw(2)
player2_hand = deck.draw(2)
and print them:
>>> Card.print_pretty_cards(board)
[ 4 ♣ ] , [ A ♠ ] , [ 5 ♦ ] , [ K ♣ ] , [ 2 ♠ ]
>>> Card.print_pretty_cards(player1_hand)
[ 6 ♣ ] , [ 7 ❤ ]
>>> Card.print_pretty_cards(player2_hand)
[ A ♣ ] , [ 3 ❤ ]
Let's evaluate both hands strength, and then bin them into classes, one for each hand type (High Card, Pair, etc)
p1_score = evaluator.evaluate(board, player1_hand)
p2_score = evaluator.evaluate(board, player2_hand)
p1_class = evaluator.get_rank_class(p1_score)
p2_class = evaluator.get_rank_class(p2_score)
or get a human-friendly string to describe the score,
>>> print("Player 1 hand rank = %d (%s)\n" % (p1_score, evaluator.class_to_string(p1_class)))
Player 1 hand rank = 6330 (High Card)
>>> print("Player 2 hand rank = %d (%s)\n" % (p2_score, evaluator.class_to_string(p2_class)))
Player 2 hand rank = 1609 (Straight)
or, coolest of all, get a blow-by-blow analysis of the stages of the game with relation to hand strength:
>>> hands = [player1_hand, player2_hand]
>>> evaluator.hand_summary(board, hands)
========== FLOP ==========
Player 1 hand = High Card, percentage rank among all hands = 0.893192
Player 2 hand = Pair, percentage rank among all hands = 0.474672
Player 2 hand is currently winning.
========== TURN ==========
Player 1 hand = High Card, percentage rank among all hands = 0.848298
Player 2 hand = Pair, percentage rank among all hands = 0.452292
Player 2 hand is currently winning.
========== RIVER ==========
Player 1 hand = High Card, percentage rank among all hands = 0.848298
Player 2 hand = Straight, percentage rank among all hands = 0.215626
========== HAND OVER ==========
Player 2 is the winner with a Straight
And that's Deuces, yo.
Just how fast is Deuces? Check out performance
folder for a couple of tests comparing Deuces to other pure Python hand evaluators.
Here are the results evaluating 10,000 random 5, 6, and 7 card boards:
5 card evaluation:
[*] Pokerhand-eval: Evaluations per second = 83.577580
[*] Deuces: Evaluations per second = 235722.458889
[*] SpecialK: Evaluations per second = 376833.177604
6 card evaluation:
[*] Pokerhand-eval: Evaluations per second = 55.519042
[*] Deuces: Evaluations per second = 45677.395466
[*] SpecialK: N/A
7 card evaluation:
[*] Pokerhand-eval: Evaluations per second = 51.529784
[*] Deuces: Evaluations per second = 15220.969303
[*] SpecialK: Evaluations per second = 142698.833384
Compared to pokerhand-eval
, Deuces is 2400x faster on 5 card evaluation, and drops to 300x faster on 7 card evaluation.
However, SpecialKEval
reigns supreme, with an impressive nearly 400k evals / sec (a factor of ~1.7 improvement over Deuces) for 5 cards, and an impressive 140k /sec on 7 cards (factor of 10).
For poker hand evaluation in Python, if you desire a cleaner user interface and more readable and adaptable code, I recommend Deuces, because if you really need speed, you should be using C anyway. The extra 10x on 7 cards with SpecialK won't get you much more in terms of Monte Carlo simulations, and SpecialK's 5 card evals are within a factor of 2 of Deuces's evals/s.
For C/C++, I'd recommand pokerstove
, as its hyperoptimized C++ Boost routines can do 10+ million evals/s.
You can run the tests by:
python setup.py test
Alternatively, install the required packages:
pip install -r requirements.txt
and then:
bash-3.2$ pytest deuces
=== test session starts ===
platform darwin -- Python 2.7.13, pytest-3.2.1, py-1.4.34, pluggy-0.4.0
rootdir: /Users/misha/git/deuces, inifile:
plugins: hypothesis-3.19.0, cov-2.5.1
collected 1 item
deuces/test_deuces.py .
=== 1 passed in 0.05 seconds ===
To obtain test coverage:
pytest deuces --cov-report html:gitignore/coverage --cov=deuces deuces deuces --cov-report html:gitignore/coverage --cov=deuces deuces
First change the version in setup.py
, then run:
pip install setuptools twine wheel
cd deuces
python setup.py sdist bdist_wheel
twine check dist/*
twine upload dist/*
Copyright (c) 2013 Will Drevo
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
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