def evaluate(self, game_state: GameState, player_now):
        if (game_state.hasWon(player_now)):
            return 10000
        if (game_state.hasWon(1 - player_now)):
            return -10000

        sign = 1
        if (game_state.player == 1 - player_now):
            sign = -1

        value = 0

        #Tinggal memiliki satu tangan, kondisi buruk
        if (game_state.values[game_state.player].__contains__(0)):
            value -= sign * 100
        if (game_state.values[1 - game_state.player].__contains__(0)):
            value += sign * 100

        #mempunyai tangan dengan jari 4 lebih beresiko daripada 1 jari (5 point value)
        for i in range(2):
            value -= sign * game_state.values[game_state.player][i] * 5
            value += sign * game_state.values[1 - game_state.player][i] * 5

        #player memiliki state unggul ketika salah satu tangan dapat membunuh musuh 20 point value
        numMakeDead = 0
        for i in range(2):
            player_tmp1 = game_state.values[game_state.player][i]
            for y in range(2):
                player_tmp2 = game_state.values[1 - game_state.player][y]
                if (player_tmp1 + player_tmp2 >= 5):
                    numMakeDead += 1
        value += sign * numMakeDead * 20

        return value
 def stateResultCallback(self, game_state: GameState):
     print("SLOT STATE ")
     game_state.print()
     self.changePlayerLeftHandTo(game_state.values[0][0])
     self.changePlayerRightHandTo(game_state.values[0][1])
     # self.player_left.setText(str(game_state.values[0][0]))
     # self.player_right.setText(str(game_state.values[0][1]))
     self.ai_left.setText(str(game_state.values[1][0]))
     self.ai_right.setText(str(game_state.values[1][1]))
Пример #3
0
 def stateResultCallbackPlayer(self, game_state: GameState):
     print("SLOT STATE ")
     # time.sleep(1)
     game_state.print()
     self.changeAiLeftHandTo(game_state.values[1][0])
     self.changeAiRightHandTo(game_state.values[1][1])
     self.changePlayerLeftHandTo(game_state.values[0][0])
     self.changePlayerRightHandTo(game_state.values[0][1])
     self.turnStatusShow(1)
Пример #4
0
    def testFourBoards(self):
        self.evalutor_state = Evaluator()

        self.game_states = [
            # GameState(1, 0, 1, 1, 2)

            # GameState(1, 0, 1, 4, 2)
            GameState(1, 1, 2, 4, 1),
            # GameState(0, 0, 1, 2, 4),
            #
            # GameState(1, 3, 3, 0, 4),
            # GameState(1, 3, 3, 0, 2),
            #
            # GameState(1, 0, 3, 0, 4),
            # GameState(1, 0, 3, 0, 2),
            #
            # GameState(1, 0, 1, 3, 4),
            # GameState(1, 0, 1, 0, 2),
        ]
        for i in self.game_states:
            gs_rating = self.evalutor_state.evaluate(i, 1)
            print("utility : ", gs_rating, end='\t state: ')
            i.print()

        Ai = AiMove2()
        Ai.predictMove(self.game_states[0])
Пример #5
0
    def playGame(self, val):
        self.evalutor_state = Evaluator()
        print("------------------PLAY PALY------YOU CHOOSE : ")
        self.Ai = AiMove()
        self.finger = None
        self.util = None
        self.state = None
        self.game_states.print()
        # while self.is_game_running:
        if self.game_states.player == 0:
            player_left = self.game_states.values[0][0]
            player_right = self.game_states.values[0][1]
            ai_left = self.game_states.values[1][0]
            ai_right = self.game_states.values[1][1]
            # val = input("masukan")
            self.game_mtx.acquire()
            if val == 0:
                # print("Masuk")
                self.game_states = (GameState(1, player_left, player_right,
                                              (player_left + ai_left) % 5,
                                              ai_right))
            if val == 1:
                self.game_states = (GameState(1, player_left, player_right,
                                              ai_left,
                                              (player_left + ai_right) % 5))
            if val == 2:
                self.game_states = (GameState(1, player_left, player_right,
                                              ai_left,
                                              (player_right + ai_right) % 5))
            if val == 3:
                self.game_states = (GameState(1, player_left, player_right,
                                              (player_right + ai_left) % 5,
                                              ai_right))
            if val == 4:
                if ((player_left + player_right) % 2 == 0):
                    self.game_states = (GameState(
                        1, int((player_left + player_right) / 2),
                        int((player_left + player_right) / 2), ai_left,
                        ai_right))
            self.game_mtx.release()
            print("\n------------------------YOU CHOOSE : ")
            self.game_states.print()

            self.resultPlayerSignal.emit(self.game_states)
Пример #6
0
    def playGameLoop(self):
        self.evalutor_state = Evaluator()

        self.game_states = GameState(0, 1, 1, 1, 1)
        self.Ai = AiMove()
        self.finger = None
        self.util = None
        self.state = None
        self.game_states.print()
        while True:
            if self.game_states.player == 0:
                player_left = self.game_states.values[0][0]
                player_right = self.game_states.values[0][1]
                ai_left = self.game_states.values[1][0]
                ai_right = self.game_states.values[1][1]
                val = input("PERINTAH : ")
                print(val)
                val = int(val)
                if val == 0:
                    # print("Masuk")
                    self.game_states = (GameState(1, player_left, player_right,
                                                  (player_left + ai_left) % 5,
                                                  ai_right))
                if val == 1:
                    self.game_states = (GameState(
                        1, player_left, player_right, ai_left,
                        (player_left + ai_right) % 5))
                if val == 2:
                    self.game_states = (GameState(
                        1, player_left, player_right, ai_left,
                        (player_right + ai_right) % 5))
                if val == 3:
                    self.game_states = (GameState(1, player_left, player_right,
                                                  (player_right + ai_left) % 5,
                                                  ai_right))
                if val == 4:
                    if ((player_left + player_right) % 2 == 0):
                        self.game_states = (GameState(
                            1, int((player_left + player_right) / 2),
                            int((player_left + player_right) / 2), ai_left,
                            ai_right))

                print("\n------------------------YOU CHOOSE : ")
                self.game_states.print()
            else:
                print("AI TURN")
                self.finger, self.util, self.state = self.Ai.predictMove(
                    self.game_states)
                self.state.print()
                self.game_states = self.state
                if self.util >= 10000:
                    print("AI WIN, YOU LOOSE!")
                    break


# if __name__ == '__main__':
#     test_game = TheGame()
#     test_game.testFourBoards()
Пример #7
0
    def tapToAll(self, game_state: GameState):
        self.eval = Evaluator()

        player_left = game_state.values[0][0]
        player_right = game_state.values[0][1]
        ai_left = game_state.values[1][0]
        ai_right = game_state.values[1][1]

        probability_move = []
        utility_value = [0, 0, 0, 0, 0]

        if (game_state.player == 1):  #Ai turn
            probability_move.append(
                GameState(0, (player_left + ai_left) % 5, player_right,
                          ai_left, ai_right))
            probability_move.append(
                GameState(0, player_left, (player_right + ai_left) % 5,
                          ai_left, ai_right))
            probability_move.append(
                GameState(0, (player_left + ai_right) % 5, player_right,
                          ai_left, ai_right))
            probability_move.append(
                GameState(0, player_left, (player_right + ai_right) % 5,
                          ai_left, ai_right))
            if ((ai_left + ai_right) % 2 == 0):
                probability_move.append(
                    GameState(0, player_left, player_right,
                              int((ai_left + ai_right) / 2),
                              int((ai_left + ai_right) / 2)))
        else:  #Player turn
            probability_move.append(
                GameState(1, player_left, player_right,
                          (player_left + ai_left) % 5, ai_right))
            probability_move.append(
                GameState(1, player_left, player_right,
                          (player_right + ai_left) % 5, ai_right))
            probability_move.append(
                GameState(1, player_left, player_right, ai_left,
                          (player_left + ai_right) % 5))
            probability_move.append(
                GameState(1, player_left, player_right, ai_left,
                          (player_right + ai_right) % 5))
            if ((player_left + player_right) % 2 == 0):
                probability_move.append(
                    GameState(1, int((player_left + player_right) / 2),
                              int((player_left + player_right) / 2), ai_left,
                              ai_right))

        for i in range(len(probability_move)):
            print("i:", i, end=' \t')
            probability_move[i].print()
            if ai_left == 0:
                utility_value[0] = utility_value[1] = None
            if ai_right == 0:
                utility_value[2] = utility_value[3] = None
            if player_left == 0:
                utility_value[0] = utility_value[2] = None
            if player_right == 0:
                utility_value[1] = utility_value[3] = None

            if ((ai_left == ai_right) or (((ai_left + ai_right) % 2) != 0)
                ) and probability_move[i].player == 0:
                utility_value[4] = None
            if ((player_left == player_right) or
                ((player_left + player_right) % 2) != 0
                ) and probability_move[i].player == 1:
                utility_value[4] = None

            if utility_value[i] is not None:
                utility_value[i] = self.eval.evaluate(probability_move[i], 1)

        print("UTILITY ", utility_value)

        return utility_value, probability_move
Пример #8
0
    def findMove(self, game_state: GameState, iter_i, result_util, result_finger):

        self.eval = Evaluator()

        player_left = game_state.values[0][0]
        player_right = game_state.values[0][1]
        ai_left = game_state.values[1][0]
        ai_right = game_state.values[1][1]

        probability_move = []
        utility_value = [0, 0, 0, 0, 0]

        if (game_state.player == 1):  # Ai turn
            probability_move.append(
                GameState(0, (player_left + ai_left) % 5, player_right, ai_left, ai_right))
            probability_move.append(
                GameState(0, player_left, (player_right + ai_left) % 5, ai_left, ai_right))
            probability_move.append(
                GameState(0, (player_left + ai_right) % 5, player_right, ai_left, ai_right))
            probability_move.append(
                GameState(0, player_left, (player_right + ai_right) % 5, ai_left, ai_right))
            if ((ai_left + ai_right) % 2 == 0):
                probability_move.append(
                    GameState(0, player_left, player_right, int((ai_left + ai_right) / 2),
                              int((ai_left + ai_right) / 2)))
        else:  # Player turn
            probability_move.append(
                GameState(1, player_left, player_right, (player_left + ai_left) % 5, ai_right))
            probability_move.append(
                GameState(1, player_left, player_right, (player_right + ai_left) % 5, ai_right))
            probability_move.append(
                GameState(1, player_left, player_right, ai_left, (player_left + ai_right) % 5))
            probability_move.append(
                GameState(1, player_left, player_right, ai_left, (player_right + ai_right) % 5))
            if ((player_left + player_right) % 2 == 0):
                probability_move.append(
                    GameState(1, int((player_left + player_right) / 2), int((player_left + player_right) / 2), ai_left,
                              ai_right))
        pass

        if ai_left == 0:
            utility_value[0] = utility_value[1] = None
        if ai_right == 0:
            utility_value[2] = utility_value[3] = None
        if player_left == 0:
            utility_value[0] = utility_value[2] = None
        if player_right == 0:
            utility_value[1] = utility_value[3] = None

        for i in range(len(probability_move)):
            print("i:",i ,end=' \t')
            probability_move[i].print()

            if ((ai_left == ai_right) or (((ai_left+ai_right) %2)!=0))  and probability_move[i].player == 0:
                utility_value[4] = None
            if ((player_left == player_right) or ((player_left+player_right) %2) != 0) and probability_move[i].player == 1:
                utility_value[4] = None
            if utility_value[i] is not None:
                utility_value[i] = self.eval.evaluate(probability_move[i],1)

        print("UTILITY ", utility_value)

        for i in range(len(utility_value)):
            if utility_value[i] is not None:
                if result_util is None:
                    result_util = utility_value[i]
                    result_finger = i
                elif probability_move[i].player == 0:
                    if result_util < utility_value[i]:
                        result_util = utility_value[i]
                        result_finger = i
                else:
                    if result_util > utility_value[i]:
                        result_util = utility_value[i]
                        result_finger = i

        print("MAX UTIL ",result_util, " iter:", iter_i)
        # return  result_util, probability_move[result_finger], result_finger
        if iter_i == 0:
            return result_util, probability_move, result_finger, utility_value
        elif iter_i == 1:
            print("REUSL UTIL : ",result_util)
            return result_util
        else:
            for i in range(len(utility_value)):
                if utility_value[i] is not None:
                    self.findAllMove(probability_move[i],iter_i-1)
Пример #9
0
    def tapToAll(self, game_state: GameState):
        probability_move = []
        # print(" PROB 2-------")
        player_left = game_state.values[0][0]
        player_right = game_state.values[0][1]

        ai_left = game_state.values[1][0]
        ai_right = game_state.values[1][1]

        if (game_state.player == 1):  #Ai turn
            probability_move.append(
                GameState(0, (player_left + ai_left) % 5, player_right,
                          ai_left, ai_right))
            probability_move.append(
                GameState(0, player_left, (player_right + ai_left) % 5,
                          ai_left, ai_right))
            probability_move.append(
                GameState(0, (player_left + ai_right) % 5, player_right,
                          ai_left, ai_right))
            probability_move.append(
                GameState(0, player_left, (player_right + ai_right) % 5,
                          ai_left, ai_right))
            if ((ai_left + ai_right) % 2 == 0):
                probability_move.append(
                    GameState(0, player_left, player_right,
                              int((ai_left + ai_right) / 2),
                              int((ai_left + ai_right) / 2)))
        else:  #Player turn
            probability_move.append(
                GameState(1, player_left, player_right,
                          (player_left + ai_left) % 5, ai_right))
            probability_move.append(
                GameState(1, player_left, player_right,
                          (player_right + ai_left) % 5, ai_right))
            probability_move.append(
                GameState(1, player_left, player_right, ai_left,
                          (player_left + ai_right) % 5))
            probability_move.append(
                GameState(1, player_left, player_right, ai_left,
                          (player_right + ai_right) % 5))
            if ((player_left + player_right) % 2 == 0):
                probability_move.append(
                    GameState(1, int((player_left + player_right) / 2),
                              int((player_left + player_right) / 2), ai_left,
                              ai_right))
        # for i in range(len(probability_move)):
        #     probability_move[i].print()
        # pass
        #
        for i in range(len(probability_move)):
            rating = self.eval.evaluate(probability_move[i], 1)
            if i == 0:
                AiMove.best_utility = rating
                AiMove.best_state = probability_move[i]
            if probability_move[i].player == 0:
                if rating > AiMove.best_utility:
                    AiMove.best_utility = rating
                    AiMove.best_state = probability_move[i]
                    AiMove.which_finger = i
            else:
                if rating < AiMove.best_utility:
                    AiMove.best_utility = rating
                    AiMove.best_state = probability_move[i]
                    AiMove.which_finger = i
            # print("utility", rating, end='\t State : ')
            # probability_move[i].print()

        # print(" PROB 2-------")
        # if(AiMove.layer_tree <= 3):
        #     AiMove.layer_tree+=1
        #     for i  in range(len(probability_move)):
        #         print(" PROB222 -------")
        #         probability_move[i].print()
        #         print("utility", self.eval.evaluate(probability_move[i],probability_move[i].player))
        #         self.tapToAll(probability_move[i])
        # print("best from serc: ", AiMove.best_utility)
        return probability_move, AiMove.best_utility, AiMove.best_state
Пример #10
0
    def tapToAll(self, game_state: GameState):
        probability_move = []
        #print(" PROB 2-------")
        player_left = game_state.values[0][0]
        player_right = game_state.values[0][1]

        ai_left = game_state.values[1][0]
        ai_right = game_state.values[1][1]

        blocked_finger = [0,0,0,0,0]
        blocked_finger_pl = [0, 0, 0, 0,0]

        if player_left == 0:
            blocked_finger_pl[0] = 1
            blocked_finger_pl[1] = 1
        if player_right == 0:
            blocked_finger_pl[2] = 1
            blocked_finger_pl[3] = 1
        if ai_left == 0:
            blocked_finger[0] = 1
            blocked_finger[1] = 1
        if ai_right == 0:
            blocked_finger[2] = 1
            blocked_finger[3] = 1

        if(game_state.player == 1): #Ai turn
            probability_move.append(
                GameState(0, (player_left + ai_left) % 5, player_right, ai_left, ai_right))
            probability_move.append(
                GameState(0, player_left, (player_right + ai_left) % 5, ai_left, ai_right))
            probability_move.append(
                GameState(0, (player_left + ai_right) % 5, player_right, ai_left, ai_right))
            probability_move.append(
                GameState(0, player_left, (player_right + ai_right) % 5, ai_left, ai_right))
            if ((ai_left + ai_right) % 2 ==0):
                probability_move.append(
                    GameState(0, player_left, player_right, int((ai_left + ai_right)/2), int((ai_left + ai_right)/2)))
        else: #Player turn
            probability_move.append(
                GameState(1, player_left, player_right, (player_left + ai_left) % 5,ai_right))
            probability_move.append(
                GameState(1, player_left, player_right, ai_left, (player_left + ai_right) % 5))
            probability_move.append(
                GameState(1, player_left, player_right, (player_right + ai_left) % 5, ai_right))
            probability_move.append(
                GameState(1, player_left, player_right, ai_left, (player_right + ai_right) % 5))
            if ((player_left + player_right) % 2 ==0):
                probability_move.append(
                    GameState(1, int((player_left + player_right)/2), int((player_left + player_right)/2), ai_left, ai_right))
        # for i in range(len(probability_move)):
        #     probability_move[i].#print()
        # pass
        #
        for i in range(len(probability_move)):
            rating = self.eval.evaluate(probability_move[i],1)
            # if i == 0:
            #     AiMove.best_utility = rating
            #     AiMove.best_state = probability_move[i]
            if probability_move[i].player == 0:
                if i == 0:
                    AiMove.best_utility = -11111
                if rating > AiMove.best_utility and (blocked_finger[i] != 1 and blocked_finger_pl[i] != 1):
                    #print("INI MASUK ai", i)
                    AiMove.best_utility = rating
                    AiMove.best_state = probability_move[i]
                    AiMove.which_finger = i
            else:
                if i == 0:
                    AiMove.best_utility = 11111
                #print("i : ", i, " block ", blocked_finger_pl[i], "block ai ", blocked_finger[i])
                if rating < AiMove.best_utility and (blocked_finger_pl[i] != 1 and blocked_finger[i] != 1):
                    #print("INI MASUK ",i)
                    AiMove.best_utility = rating
                    AiMove.best_state = probability_move[i]
                    AiMove.which_finger = i
            #print("utility", rating, end='\t State : ')
            probability_move[i].print()

        #print("best from serc: ", AiMove.best_utility)
        return probability_move, AiMove.best_utility, AiMove.best_state
Пример #11
0
 def resetState(self):
     self.game_mtx.acquire()
     self.game_states = GameState(0, 1, 1, 1, 1)
     self.game_mtx.release()
Пример #12
0
 def __init__(self):
     super().__init__()
     self.is_game_running = False
     self.game_mtx = Lock()
     self.game_states = GameState(0, 1, 1, 1, 1)
Пример #13
0
class TheGame(QObject):
    resultGameSignal = Signal(int)
    resultStateSignal = Signal(object)
    resultAiSignal = Signal(object)
    resultPlayerSignal = Signal(object)
    resultLoseSignal = Signal(object)
    animateAiSignal = Signal(int)

    def __init__(self):
        super().__init__()
        self.is_game_running = False
        self.game_mtx = Lock()
        self.game_states = GameState(0, 1, 1, 1, 1)

    def resetState(self):
        self.game_mtx.acquire()
        self.game_states = GameState(0, 1, 1, 1, 1)
        self.game_mtx.release()

    @Slot(int)
    def playGame(self, val):
        self.evalutor_state = Evaluator()
        print("------------------PLAY PALY------YOU CHOOSE : ")
        self.Ai = AiMove()
        self.finger = None
        self.util = None
        self.state = None
        self.game_states.print()
        # while self.is_game_running:
        if self.game_states.player == 0:
            player_left = self.game_states.values[0][0]
            player_right = self.game_states.values[0][1]
            ai_left = self.game_states.values[1][0]
            ai_right = self.game_states.values[1][1]
            # val = input("masukan")
            self.game_mtx.acquire()
            if val == 0:
                # print("Masuk")
                self.game_states = (GameState(1, player_left, player_right,
                                              (player_left + ai_left) % 5,
                                              ai_right))
            if val == 1:
                self.game_states = (GameState(1, player_left, player_right,
                                              ai_left,
                                              (player_left + ai_right) % 5))
            if val == 2:
                self.game_states = (GameState(1, player_left, player_right,
                                              ai_left,
                                              (player_right + ai_right) % 5))
            if val == 3:
                self.game_states = (GameState(1, player_left, player_right,
                                              (player_right + ai_left) % 5,
                                              ai_right))
            if val == 4:
                if ((player_left + player_right) % 2 == 0):
                    self.game_states = (GameState(
                        1, int((player_left + player_right) / 2),
                        int((player_left + player_right) / 2), ai_left,
                        ai_right))
            self.game_mtx.release()
            print("\n------------------------YOU CHOOSE : ")
            self.game_states.print()

            self.resultPlayerSignal.emit(self.game_states)

    def playGameAi(self):
        print("AI TURN")
        self.finger, self.util, self.state = self.Ai.predictMove(
            self.game_states)
        self.state.print()

        self.game_states = self.state
        print("--------FINGER AI ", self.finger)
        if self.util >= 10000:
            print("AI WIN, YOU LOOSE!")
            self.game_states.values[2].append(self.finger)

            self.resultAiSignal.emit(self.game_states)

            self.resultLoseSignal.emit(self.game_states)
        else:
            # self.animateAiSignal.emit(self.finger)
            self.game_states.values[2].append(self.finger)

            self.resultAiSignal.emit(self.game_states)


# if __name__ == '__main__':
#     test_game = TheGame()
#     test_game.testFourBoards()