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| import requests | |
| import re | |
| class Logger: | |
| def __init__(self, model_1: str, model_2: str): #Model 1 should be white | |
| self.model_1 = model_1 | |
| self.model_2 = model_2 | |
| self.current_moves = "" | |
| self.cheat_attempts = [0] | |
| self.winner = "" | |
| self.checkmate = False | |
| #Interface with the Model Interface | |
| def add_legal_move(self, current_moves: str): #current_moves should be all moves so far, in UCI notation | |
| if self.checkmate: | |
| raise RuntimeError("This game has already reached checkmate") | |
| else: | |
| self.current_moves = current_moves | |
| self.cheat_attempts.append(0) | |
| def add_cheat(self, cheater_name: str): | |
| if self.checkmate: | |
| raise RuntimeError("This game has already reached checkmate") | |
| else: | |
| self.cheat_attempts[-1] += 1 | |
| def add_checkmate(self, winner_name: str): | |
| if winner_name != self.model_1 and winner_name != self.model_2: | |
| raise RuntimeError("Not a valid winner for this logger") | |
| else: | |
| self.winner = winner_name | |
| self.checkmate = True | |
| #Internal Work | |
| def get_stockfish_results(self, prev_state: str, current_state: str, depth: int = 5) -> float: #Takes current and previous FEN states. Can be refactored to only need one UCI current state | |
| #returns the stockfish analysis of the last move as a positive float | |
| #Example URL: https://stockfish.online/api/stockfish.php?fen=r2q1rk1/ppp2ppp/3bbn2/3p4/8/1B1P4/PPP2PPP/RNB1QRK1 w - - 5 11&depth=5&mode=eval | |
| current_FEN = "?fen=" + current_state | |
| prev_FEN = "?fen=" + prev_state | |
| endpoint = "https://stockfish.online/api/stockfish.php" | |
| current_extra = current_FEN + "&depth=" + str(depth) + "&mode=eval" | |
| prev_extra = prev_FEN + "&depth=" + str(depth) + "&mode=eval" | |
| current_response = requests.get(endpoint + current_extra) | |
| prev_response = requests.get(endpoint + prev_extra) | |
| current_string = str(current_response.json()) | |
| prev_string = str(prev_response.json()) | |
| current_score = float(re.findall(r"-?\d*\.*\d+", current_string)[0]) #Positive means white is winning and vice versa | |
| prev_score = float(re.findall(r"-?\d*\.*\d+", prev_string)[0]) | |
| #Add something to make sure it's that player's turn to make the move? | |
| return abs(current_score) - abs(prev_score) #Positive numbers mean the player that made the move is better off | |
| def format_game(self): | |
| pass | |
| #Interface with game_database | |
| def return_formatted_game(self): | |
| if self.winner == "": | |
| raise RuntimeError("Game is not yet completed") | |
| pass | |
| else: | |
| game = {"Model 1": self.model_1, | |
| "Model 2": self.model_2, | |
| "Winner": self.winner, | |
| "UCI": self.current_moves, | |
| "Cheat Attempts": self.cheat_attempts} | |
| return game | |
| #Testing section | |
| if __name__ == "__main__": | |
| new_logger = Logger("ChessGPT", "ChatGPT") | |
| current_board = "r2q1rk1/1pp2ppp/3bbn2/p2p4/8/1B1P4/PPP2PPP/RNB1QRK1 w - - 5 11" #make sure to include the additional notation at the end | |
| prev_board = "r2q1rk1/ppp2ppp/3bbn2/3p4/8/1B1P4/PPP2PPP/RNB1QRK1 w - - 5 11" | |
| print(str(new_logger.get_stockfish_results(prev_board, current_board))) | |