48 lines
1.5 KiB
Python
48 lines
1.5 KiB
Python
from cup import Cup
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from network import Network
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from board import Board
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import tensorflow as tf
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import numpy as np
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import random
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class Bot:
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def __init__(self, sym, config = None, name = "unnamed"):
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self.config = config
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self.cup = Cup()
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self.sym = sym
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self.graph = tf.Graph()
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with self.graph.as_default():
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self.session = tf.Session()
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self.network = Network(self.session, config, name)
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self.network.restore_model()
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variables_names = [v.name for v in tf.trainable_variables()]
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values = self.session.run(variables_names)
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for k, v in zip(variables_names, values):
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print("Variable: ", k)
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print("Shape: ", v.shape)
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print(v)
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def restore_model(self):
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with self.graph.as_default():
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self.network.restore_model()
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def get_session(self):
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return self.session
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def get_sym(self):
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return self.sym
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def get_network(self):
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return self.network
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def make_move(self, board, sym, roll):
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# print(Board.pretty(board))
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legal_moves = Board.calculate_legal_states(board, sym, roll)
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moves_and_scores = [ (move, self.network.eval_state(np.array(move).reshape(1,26))) for move in legal_moves ]
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scores = [ x[1] for x in moves_and_scores ]
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best_move_pair = moves_and_scores[np.array(scores).argmax()]
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#print("Found the best state, being:", np.array(move_scores).argmax())
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return best_move_pair
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