python-chess is a pure Python chess library with move generation and validation and handling of common formats. This is the scholars mate in python-chess:
>>> import chess
>>> board = chess.Board()
>>> board.push_san("e4")
Move.from_uci('e2e4')
>>> board.push_san("e5")
Move.from_uci('e7e5')
>>> board.push_san("Qh5")
Move.from_uci('d1h5')
>>> board.push_san("Nc6")
Move.from_uci('b8c6')
>>> board.push_san("Bc4")
Move.from_uci('f1c4')
>>> board.push_san("Nf6")
Move.from_uci('g8f6')
>>> board.push_san("Qxf7")
Move.from_uci('h5f7')
>>> board.is_checkmate()
True
https://python-chess.readthedocs.org/en/latest/
- Core
- PGN parsing and writing
- Polyglot opening book reading
- Gaviota endgame tablebase probing
- Syzygy endgame tablebase probing
- UCI engine communication
- Changelog
Supports Python 2.6+ and Python 3.3+.
>>> # Python 2 compability for the following examples. >>> from __future__ import print_function
Supports standard chess and Chess960.
>>> board = chess.Board(chess960=True)
Legal move generator and move validation. This includes all castling rules and en passant captures.
>>> board = chess.Board() >>> board.legal_moves # doctest: +ELLIPSIS <LegalMoveGenerator at 0x... (Na3, Nc3, Nf3, Nh3, a3, b3, c3, d3, e3, f3, g3, h3, a4, b4, c4, d4, e4, f4, g4, h4)> >>> chess.Move.from_uci("a8a1") in board.legal_moves False
Make and unmake moves.
>>> Nf3 = chess.Move.from_uci("g1f3") >>> board.push(Nf3) # Make the move >>> board.pop() # Unmake the last move Move.from_uci('g1f3')
Show a simple ASCII board.
>>> board = chess.Board("r1bqkb1r/pppp1Qpp/2n2n2/4p3/2B1P3/8/PPPP1PPP/RNB1K1NR b KQkq - 0 4") >>> print(board) r . b q k b . r p p p p . Q p p . . n . . n . . . . . . p . . . . . B . P . . . . . . . . . . . P P P P . P P P R N B . K . N R
Detects checkmates, stalemates and draws by insufficient material.
>>> board.is_stalemate() False >>> board.is_insufficient_material() False >>> board.is_game_over() True >>> board.halfmove_clock 0
Detects repetitions. Has a half move clock.
>>> board.can_claim_threefold_repetition() False >>> board.halfmove_clock 0 >>> board.can_claim_fifty_moves() False >>> board.can_claim_draw() False
With the new rules from July 2014 a game ends drawn (even without a claim) once a fivefold repetition occurs or if there are 75 moves without a pawn push or capture. Other ways of ending a game take precedence.
>>> board.is_fivefold_repetition() False >>> board.is_seventyfive_moves() False
Detects checks and attacks.
>>> board.is_check() True >>> board.is_attacked_by(chess.WHITE, chess.E8) True >>> attackers = board.attackers(chess.WHITE, chess.F3) >>> attackers SquareSet(0b100000001000000) >>> chess.G2 in attackers True >>> print(attackers) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 . . . . . . . 1 .
Detects absolute pins and their directions.
>>> board.is_pinned(chess.BLACK, chess.E8) True >>> pin = board.pin(chess.BLACK, chess.E8) >>> pin SquareSet(0b1000000100000010000001000000000000000000000000000000000000000) >>> print(pin) . . . . 1 . . . . . . . . 1 . . . . . . . . 1 . . . . . . . . 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parses and creates SAN representation of moves.
>>> board = chess.Board() >>> board.san(chess.Move(chess.E2, chess.E4)) 'e4' >>> board.parse_san('Nf3') Move.from_uci('g1f3') >>> board.variation_san([chess.Move.from_uci(m) for m in ["e2e4", "e7e5", "g1f3"]]) '1. e4 e5 2. Nf3'
Parses and creates FENs, extended FENs and Shredder FENs.
>>> board.fen() 'rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq - 0 1' >>> board.shredder_fen() 'rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w HAha - 0 1' >>> board = chess.Board("8/8/8/2k5/4K3/8/8/8 w - - 4 45") >>> board.piece_at(chess.C5) Piece.from_symbol('k')
Parses and creates EPDs.
>>> board = chess.Board() >>> board.epd(bm=board.parse_uci("d2d4")) 'rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq - bm d4;' >>> ops = board.set_epd("1k1r4/pp1b1R2/3q2pp/4p3/2B5/4Q3/PPP2B2/2K5 b - - bm Qd1+; id \"BK.01\";") >>> ops == {'bm': [chess.Move.from_uci('d6d1')], 'id': 'BK.01'} True
Read Polyglot opening books. Docs.
>>> import chess.polyglot >>> book = chess.polyglot.open_reader("data/polyglot/performance.bin") >>> board = chess.Board() >>> main_entry = book.find(board) >>> main_entry.move() Move.from_uci('e2e4') >>> main_entry.weight 1 >>> main_entry.learn 0 >>> book.close()
Read and write PGNs. Supports headers, comments, NAGs and a tree of variations. Docs.
>>> import chess.pgn >>> pgn = open("data/pgn/molinari-bordais-1979.pgn") >>> first_game = chess.pgn.read_game(pgn) >>> pgn.close() >>> first_game.headers["White"] 'Molinari' >>> first_game.headers["Black"] 'Bordais' >>> # Iterate through the mainline of this embarrasingly short game. >>> node = first_game >>> while not node.is_end(): ... next_node = node.variation(0) ... print(node.board().san(next_node.move)) ... node = next_node e4 c5 c4 Nc6 Ne2 Nf6 Nbc3 Nb4 g3 Nd3# >>> # Use a visitor to do the same task. >>> class PrintSanVisitor(chess.pgn.BaseVisitor): ... def visit_move(self, board, move): ... print(board.san(move)) ... >>> first_game.accept(PrintSanVisitor()) e4 c5 c4 Nc6 Ne2 Nf6 Nbc3 Nb4 g3 Nd3# >>> first_game.headers["Result"] '0-1'
Probe Gaviota endgame tablebases (DTM, WDL). Docs.
>>> import chess.gaviota >>> tablebases = chess.gaviota.open_tablebases("data/gaviota") >>> # White to move mates in 31 half moves in this KRvK endgame. >>> board = chess.Board("8/8/8/8/4k3/8/6R1/7K w - - 0 1") >>> tablebases.probe_dtm(board) 31 >>> tablebases.close()
Probe Syzygy endgame tablebases (DTZ, WDL). Docs.
>>> import chess.syzygy >>> tablebases = chess.syzygy.open_tablebases("data/syzygy") >>> # Black to move is losing in 53 half moves (distance to zero) in this >>> # KNBvK endgame. >>> board = chess.Board("8/2K5/4B3/3N4/8/8/4k3/8 b - - 0 1") >>> tablebases.probe_dtz(board) -53 >>> tablebases.close()
Communicate with an UCI engine. Docs.
>>> import chess.uci >>> import time >>> engine = chess.uci.popen_engine("stockfish") >>> engine.uci() >>> engine.author 'Tord Romstad, Marco Costalba and Joona Kiiski' >>> # Synchronous mode. >>> board = chess.Board("1k1r4/pp1b1R2/3q2pp/4p3/2B5/4Q3/PPP2B2/2K5 b - - 0 1") >>> engine.position(board) >>> engine.go(movetime=2000) # Gets tuple of bestmove and ponder move. BestMove(bestmove=Move.from_uci('d6d1'), ponder=Move.from_uci('c1d1')) >>> # Asynchronous mode. >>> def callback(command): ... bestmove, ponder = command.result() ... assert bestmove == chess.Move.from_uci('d6d1') ... >>> command = engine.go(movetime=2000, async_callback=callback) >>> command.done() False >>> command.result() BestMove(bestmove=Move.from_uci('d6d1'), ponder=Move.from_uci('c1d1')) >>> command.done() True >>> # Quit. >>> engine.quit() 0
python-chess is not intended to be used by serious chess engines where performance is critical. The goal is rather to create a simple and relatively highlevel library.
You can install the gmpy2 or gmpy (https://pypi.python.org/pypi/gmpy2) modules in order to get a slight performance boost on basic operations like bitscans and population counts.
python-chess only imports very basic general (non-chess-related) operations from native libraries. All logic is pure Python. There will always be pure Python fallbacks.
With pip:
pip install python-chess
From current source code:
python setup.py sdist python setup.py install
If you like, let me know if you are creating something intresting with python-chess, for example:
- a stand alone chess computer based on DGT board - http://www.picochess.org/
- a website to probe Syzygy endgame tablebases - https://syzygy-tables.info/
- a cross platform chess GUI - https://asdfjkl.github.io/jerry/
- extracting reasoning from chess engines - https://github.com/pcattori/deep-blue-talks
python-chess is licensed under the GPL3. See the LICENSE file for the full copyright and license information.
Thanks to Sam Tannous for publishing his approach to avoid rotated bitboards with direct lookup (pdf) alongside his GPL2+ engine Shatranj. Some of the bitboard move generation parts are ported from there.
Thanks to Ronald de Man for his Syzygy endgame tablebases (https://github.com/syzygy1/tb). The probing code in python-chess is very directly ported from his C probing code.
Thanks to Miguel A. Ballicora for his Gaviota tablebases (https://github.com/michiguel/Gaviota-Tablebases).