def __init__(self, go_engine, board, debug_mode=False):
"""
GTP connection of Go3
"""
GtpConnection.__init__(self, go_engine, board, debug_mode)
self.commands['policy'] = self.policy_cmd
self.commonds['selection'] = self.selection_cmd
self.commands['policy_moves'] = self.policy_moves_cmd
self.commands['genmove'] = self.genmove_cmd
self.argmap['policy'] = (1, 'Usage: policy random|pattern')
self.argmap['selection'] = (1, 'Usage: selection rr|ucb')
self.argmap['genmove'] = (1, 'Usage: genmove b|w')
def __init__(self, go_engine, board, debug_mode=False):
"""
GTP connection of Go1
Parameters
----------
go_engine :
a program that is capable of playing go by reading GTP commands
komi : float
komi used for the current game
board: GoBoard
SIZExSIZE array representing the current board state
"""
GtpConnection.__init__(self, go_engine, board, debug_mode)
self.commands["hello"] = self.hello_cmd
self.argmap["hello"] = (0, 'Usage: hello')
def __init__(self, go_engine, board, outfile = 'gtp_log', debug_mode = False):
"""
GTP connection of Go1
Parameters
----------
go_engine : GoPlayer
a program that is capable of playing go by reading GTP commands
komi : float
komi used for the current game
board: GoBoard
SIZExSIZE array representing the current board state
"""
GtpConnection.__init__(self, go_engine, board, outfile, debug_mode)
self.commands["prior_knowledge"] = self.prior_knowledge_cmd
self.commands["genmove"] = self.genmove_cmd
self.argmap["prior_knowledge"] = (0, 'Usage: prior_knowledge')
self.argmap["genmove"] = (1, 'Usage: genmove {w,b}')
def __init__(self, go_engine, board, debug_mode=False):
"""
GTP connection of Go3
"""
GtpConnection.__init__(self, go_engine, board, debug_mode)
self.commands["selfatari"] = self.selfatari_cmd
self.commands["use_pattern"] = self.use_pattern_cmd
self.commands["random_simulation"] = self.random_simulation_cmd
self.commands["use_ucb"] = self.use_ucb_cmd
self.commands["num_sim"] = self.num_sim_cmd
self.commands[
"legal_moves_for_toPlay"] = self.legal_moves_for_toPlay_cmd
self.commands["policy_moves"] = self.policy_moves_cmd
self.commands["random_moves"] = self.random_moves_cmd
self.commands["gogui-analyze_commands"] = self.gogui_analyze_cmd
self.argmap["selfatari"] = (1, 'Usage: selfatari BOOL')
self.argmap["use_pattern"] = (1, 'Usage: use_pattern BOOL')
self.argmap["random_simulation"] = (1, 'Usage: random_simulation BOOL')
self.argmap["use_ucb"] = (1, 'Usage: use_ucb BOOL')
self.argmap["num_sim"] = (1, 'Usage: num_sim #(e.g. num_sim 100 )')
for n in range(self.num_simulation):
board_copy = board.copy()
self.MCTS._playout(board_copy, color)
if print_info:
self.MCTS.good_print(board, self.MCTS._root, color,self.num_nodes)
def reset(self):
self.MCTS = MCTS()
def update(self, move):
self.MCTS.update_with_move(move)
def get_move(self, board, color):
move = self.MCTS.get_move(board,
color,
komi=self.komi,
limit=self.limit,
selfatari=self.selfatari,
pattern=self.pattern,
num_simulation = self.num_simulation,
exploration = self.exploration)
self.update(move)
return move
if __name__=='__main__':
c = GtpConnection(Go6Player(num_simulation))
c.start_connection()
def run():
"""
start the gtp connection and wait for commands.
"""
con = GtpConnection(RandomPlayer())
con.start_connection()
def createPolicyPlayer():
con = GtpConnection(PolicyPlayer())
con.start_connection()
def test_size_2(self):
board = SimpleGoBoard(2)
con = GtpConnection(Go0(), board)
con.start_connection()