from Game.Card import Card import Game.GoStopConstants as Const from Game.Player import Player from Game.Library import Library from Game.Board import Board if __name__ == "__main__": from Game.Library import Library library = Library() library.shuffle() p1 = Player("A") p2 = Player("B") board = Board() for i in range(7): p1.draw(library.draw()) p2.draw(library.draw()) for i in range(6): board.put(library.draw()) print(p1) print(p2) print(board) board.put(p1.play(0)) print(p1) print(p2) print(board)
class Game: def __init__(self, is_user=True, current_version=1, current_generation=0, filepath="/Version1/Generation0"): self._board_record = [] self._played_record = [] self.cv = current_version self.cg = current_generation self._is_user = is_user self._filepath = filepath self._x_filename = "/x_game.txt" self._y_filename = "/y_game.txt" self._reset() def _reset(self): K.clear_session() self.AI = [AI(self.cv, self.cg), AI(self.cv, max(self.cg - 1, 0))] self._library = Library() self._board = Board() self._player1 = Player("A") self._player2 = Player("B") self._players = [self._player1, self._player2] self._scores = [Score(), Score()] self._turn_side = random.randint(0, 1) # if 0, player 1 starts first if self._is_user: if self._turn_side == 0: print("Player First") else: print("Player Second") self._library.shuffle() for i in range(10): self._player1.draw(self._library.draw()) self._player2.draw(self._library.draw()) for i in range(8): self._board.put(self._library.draw()) if self._is_user: print(self) def __str__(self): s = "" s += str(self._player2) + "\n" s += str(self._scores[1]) + "\n" s += str(self._board) + "\n" s += str(self._scores[0]) + "\n" s += str(self._player1) + "\n" return s def run_with_encode(self, num_iter): self._board_record = [] self._played_record = [] current = 0 print(str(current) + "%") for i in range(num_iter): if ((i * 100) // num_iter) > current: current = (i * 100) // num_iter print(str(current) + "%") self._reset() self.run() with gzip.open(self._filepath + self._x_filename, "wb") as f: for line in self._board_record: f.write(line.encode()) with gzip.open(self._filepath + self._y_filename, "wb") as f: for played in self._played_record: f.write((str(played) + "\n").encode()) def run(self): record = [[], []] played = [[], []] is_last = False winner = None while len(self._library) > 0: encoded = Encoder.encode(self._players[self._turn_side], self._board, self._scores[self._turn_side], self._scores[self._get_opp()]) # encoded.insert(0, self._turn_side) played_card = None if self._players[self._turn_side].get_hand_count() > 0: if self._turn_side == 0 and self._is_user: played_card = self.user_input() else: played_card = self.AI[self._turn_side].play(self._players[self._turn_side], self._board, self._scores[self._turn_side], self._scores[self._get_opp()] ) drew = self._library.draw() if played_card is not None: self._board.put(played_card) record[self._turn_side].append(Encoder.to_string(encoded)) played[self._turn_side].append(Encoder.encode_played(played_card)) self._board.put(drew) self.update(played_card, drew) total_score, prev_total = self._calculate_score() if self._is_user: print(self) if not self._check_go(total_score, prev_total): winner = self._turn_side break self._change_player() if self._is_user: self._print_winner(winner) if winner is not None: self._board_record.extend(record[winner]) self._played_record.extend(played[winner]) def _calculate_score(self): gwang, ddi, gut, pi = Calculator.calculate(self._scores[self._turn_side]) total_score = gwang + ddi + gut + pi _, _, _, _, prev_total = self._scores[self._turn_side].get_score() self._scores[self._turn_side].set_score(gwang, ddi, gut, pi, total_score) return total_score, prev_total def _check_go(self, curr_score, prev_score): if curr_score > Const.go_score and curr_score > prev_score: answer = self.ask_go() if answer: self._scores[self._turn_side].go() return True else: return False else: return True def _get_opp(self): return(self._turn_side + 1) % 2 def _change_player(self): self._turn_side = self._get_opp() def _print_winner(self, winner): if winner is not None: _, _, _, _, score = self._scores[winner].get_score() go_add, go_mult = Calculator.calculate_go(self._scores[winner]) score = (score + go_add) * go_mult multiplier = Calculator.multiplier(self._scores[winner], self._scores[(winner + 1) % 2]) score = score * multiplier print("Winner is player %d! Score: %d" % (winner + 1, score)) else: print("No Winner") def ask_go(self) -> bool: if self._turn_side == 0 and self._is_user: while True: answer = input("go or stop?") if answer == "go": return True elif answer == "stop": return False else: is_last = len(self._library) <= 2 opp_go = self._scores[self._get_opp()].get_go_count() > 0 return self.AI[self._turn_side].ask_go(is_last, opp_go) def user_input(self) -> Card: try: selected = int(input("Select card: ")) card = self._player1.play(selected) if card is None: print("Input a proper number") return self.user_input() else: return card except ValueError: print("Input a number") return self.user_input() def update(self, played, drew): if played is None: played_m = -1 else: played_m, _ = played.get() drew_m, _ = drew.get() scored = [] if played_m == drew_m: match = self._board.match(played_m) if len(match) == 4 or len(match) == 2: scored.extend(match) else: for c in (played, drew): if c is None: continue month, _ = c.get() if month == -1: continue match = self._board.match(month) if len(match) == 4 or len(match) == 2: scored.extend(match) elif len(match) == 3: scored.append(c) match.remove(c) for card in match: if self._is_user: print(card) if self._turn_side == 0 and self._is_user: selected = int(input("Choose one card: ")) else: selected = self.AI[self._turn_side].select(match) scored.append(match[selected]) self._scores[self._turn_side].add(scored) self._board.remove(scored)