Exemplo n.º 1
0
    def run(self):
        if self.mct == None:
            # if new tree then initialize that it came from the opposite player
            self.mct = Tree(switch_turns(self.turn))
        else:
            # if the tree exists look for the node if it contains that
            children = self.mct.get_root().get_children()
            if len(children) != 0:
                contained = False
                node = children[0]
                for n in children:
                    if n.get_move() == self._cloned_board.get_previous_move():
                        contained = True
                        node = n
                if contained:
                    self.mct.set_root(node)
                else:
                    # otherwise initialize new tree
                    self.mct = Tree(switch_turns(self.turn))
            else:
                # otherwise initialize new tree
                self.mct = Tree(switch_turns(self.turn))

        start_time = current_milli_time()
        while current_milli_time() - start_time < self.timeout - self.before:
            self._cloned_board = clone(
                UltimateTicTacToe(board=self.board, last_turn=self.last_turn))
            self.roll_out(self.expansion(self.selection(self.mct.get_root())))
        return self.choose_best_next_move()
Exemplo n.º 2
0
    def roll_out(self, node):
        # first approach, random sample to see
        current_simulation_turn = switch_turns(node.get_turn())
        while not self._cloned_board.is_game_done():
            moves = self._cloned_board.get_free_moves()
            move = choice(moves)
            self.play_cloned_board(move, current_simulation_turn)
            current_simulation_turn = switch_turns(current_simulation_turn)

        if self._cloned_board.get_winner() == None:
            self.backpropogate(GameState.DRAW, node)
        else:
            self.backpropogate(
                GameState.LOSE if node.get_turn() == current_simulation_turn
                else GameState.WIN, node)
Exemplo n.º 3
0
 def add_child(self, move):
     child = Node(move=move, parent=self, turn=switch_turns(self._turn))
     self._children.append(child)
     return child