380 lines
16 KiB
Python
380 lines
16 KiB
Python
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import os
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import torch
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import numpy as np
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from heapq import nlargest
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from collections import Counter, OrderedDict
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from flask import Flask, jsonify, request
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from flask_cors import CORS
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app = Flask(__name__)
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CORS(app)
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from utils.move_generator import MovesGener
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from utils import move_detector as md, move_selector as ms
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import rlcard
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env = rlcard.make('doudizhu')
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DouZeroCard2RLCard = {3: '3', 4: '4', 5: '5', 6: '6', 7: '7',
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8: '8', 9: '9', 10: 'T', 11: 'J', 12: 'Q',
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13: 'K', 14: 'A', 17: '2', 20: 'B', 30: 'R'}
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RLCard2DouZeroCard = {'3': 3, '4': 4, '5': 5, '6': 6, '7': 7,
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'8': 8, '9': 9, 'T': 10, 'J': 11, 'Q': 12,
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'K': 13, 'A': 14, '2': 17, 'B': 20, 'R': 30}
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EnvCard2RealCard = {'3': '3', '4':'4', '5': '5', '6': '6', '7': '7',
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'8': '8', '9': '9', 'T': 'T', 'J': 'J', 'Q': 'Q',
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'K': 'K', 'A': 'A', '2': '2', 'B': 'X', 'R': 'D'}
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RealCard2EnvCard = {'3': '3', '4':'4', '5': '5', '6': '6', '7': '7',
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'8': '8', '9': '9', 'T': 'T', 'J': 'J', 'Q': 'Q',
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'K': 'K', 'A': 'A', '2': '2', 'X': 'B', 'D': 'R'}
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pretrained_dir = 'pretrained/dmc_pretrained'
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device = torch.device('cpu')
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players = []
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for i in range(3):
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model_path = os.path.join(pretrained_dir, str(i)+'.pth')
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agent = torch.load(model_path, map_location=device)
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agent.set_device(device)
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players.append(agent)
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@app.route('/predict', methods=['POST'])
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def predict():
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if request.method == 'POST':
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try:
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# Player postion
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player_position = request.form.get('player_position')
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if player_position not in ['0', '1', '2']:
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return jsonify({'status': 1, 'message': 'player_position must be 0, 1, or 2'})
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player_position = int(player_position)
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# Player hand cards
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player_hand_cards = ''.join([RealCard2EnvCard[c] for c in request.form.get('player_hand_cards')])
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if player_position == 0:
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if len(player_hand_cards) < 1 or len(player_hand_cards) > 20:
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return jsonify({'status': 2, 'message': 'the number of hand cards should be 1-20'})
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else:
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if len(player_hand_cards) < 1 or len(player_hand_cards) > 17:
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return jsonify({'status': 3, 'message': 'the number of hand cards should be 1-17'})
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# Number cards left
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num_cards_left = [int(request.form.get('num_cards_left_landlord')), int(request.form.get('num_cards_left_landlord_down')), int(request.form.get('num_cards_left_landlord_up'))]
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if num_cards_left[player_position] != len(player_hand_cards):
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return jsonify({'status': 4, 'message': 'the number of cards left do not align with hand cards'})
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if num_cards_left[0] < 0 or num_cards_left[1] < 0 or num_cards_left[2] < 0 or num_cards_left[0] > 20 or num_cards_left[1] > 17 or num_cards_left[2] > 17:
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return jsonify({'status': 5, 'message': 'the number of cards left not in range'})
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# Three landlord cards
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three_landlord_cards = ''.join([RealCard2EnvCard[c] for c in request.form.get('three_landlord_cards')])
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if len(three_landlord_cards) < 0 or len(three_landlord_cards) > 3:
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return jsonify({'status': 6, 'message': 'the number of landlord cards should be 0-3'})
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# Card play sequence
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if request.form.get('card_play_action_seq') == '':
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card_play_action_seq = []
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else:
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tmp_seq = [''.join([RealCard2EnvCard[c] for c in cards]) for cards in request.form.get('card_play_action_seq').split(',')]
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for i in range(len(tmp_seq)):
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if tmp_seq[i] == '':
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tmp_seq[i] = 'pass'
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card_play_action_seq = []
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for i in range(len(tmp_seq)):
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card_play_action_seq.append((i%3, tmp_seq[i]))
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# Other hand cards
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other_hand_cards = ''.join([RealCard2EnvCard[c] for c in request.form.get('other_hand_cards')])
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if len(other_hand_cards) != sum(num_cards_left) - num_cards_left[player_position]:
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return jsonify({'status': 7, 'message': 'the number of the other hand cards do not align with the number of cards left'})
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# Played cards
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played_cards = []
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for field in ['played_cards_landlord', 'played_cards_landlord_down', 'played_cards_landlord_up']:
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played_cards.append(''.join([RealCard2EnvCard[c] for c in request.form.get(field)]))
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# RLCard state
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state = {}
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state['current_hand'] = player_hand_cards
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state['landlord'] = 0
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state['num_cards_left'] = num_cards_left
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state['others_hand'] = other_hand_cards
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state['played_cards'] = played_cards
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state['seen_cards'] = three_landlord_cards
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state['self'] = player_position
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state['trace'] = card_play_action_seq
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# Get rival move and legal_actions
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rival_move = 'pass'
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if len(card_play_action_seq) != 0:
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if card_play_action_seq[-1][1] == 'pass':
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rival_move = card_play_action_seq[-2][1]
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else:
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rival_move = card_play_action_seq[-1][1]
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if rival_move == 'pass':
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rival_move = ''
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rival_move = [RLCard2DouZeroCard[c] for c in rival_move]
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state['actions'] = _get_legal_card_play_actions([RLCard2DouZeroCard[c] for c in player_hand_cards], rival_move)
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state['actions'] = [''.join([DouZeroCard2RLCard[c] for c in a]) for a in state['actions']]
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for i in range(len(state['actions'])):
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if state['actions'][i] == '':
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state['actions'][i] = 'pass'
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# Prediction
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state = _extract_state(state)
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action, info = players[player_position].eval_step(state)
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if action == 'pass':
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action = ''
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for i in info['values']:
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if i == 'pass':
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info['values'][''] = info['values']['pass']
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del info['values']['pass']
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actions = nlargest(3, info['values'], key=info['values'].get)
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actions_confidence = [info['values'].get(action) for action in actions]
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actions = [''.join([EnvCard2RealCard[c] for c in action]) for action in actions]
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result = {}
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win_rates = {}
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for i in range(len(actions)):
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# Here, we calculate the win rate
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win_rate = min(actions_confidence[i], 1)
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win_rate = max(win_rate, 0)
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win_rates[actions[i]] = str(round(win_rate, 4))
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result[actions[i]] = str(round(actions_confidence[i], 6))
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############## DEBUG ################
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if app.debug:
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print('--------------- DEBUG START --------------')
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command = 'curl --data "'
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parameters = []
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for key in request.form:
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parameters.append(key+'='+request.form.get(key))
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print(key+':', request.form.get(key))
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command += '&'.join(parameters)
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command += '" "http://127.0.0.1:5000/predict"'
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print('Command:', command)
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print('Rival Move:', rival_move)
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print('legal_actions:', state['legal_actions'])
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print('Result:', result)
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print('--------------- DEBUG END --------------')
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############## DEBUG ################
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return jsonify({'status': 0, 'message': 'success', 'result': result, 'win_rates': win_rates})
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except:
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import traceback
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traceback.print_exc()
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return jsonify({'status': -1, 'message': 'unkown error'})
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@app.route('/legal', methods=['POST'])
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def legal():
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if request.method == 'POST':
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try:
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player_hand_cards = [RealCard2EnvCard[c] for c in request.form.get('player_hand_cards')]
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rival_move = [RealCard2EnvCard[c] for c in request.form.get('rival_move')]
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if rival_move == '':
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rival_move = 'pass'
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player_hand_cards = [RLCard2DouZeroCard[c] for c in player_hand_cards]
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rival_move = [RLCard2DouZeroCard[c] for c in rival_move]
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legal_actions = _get_legal_card_play_actions(player_hand_cards, rival_move)
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legal_actions = [''.join([DouZeroCard2RLCard[c] for c in a]) for a in legal_actions]
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for i in range(len(legal_actions)):
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if legal_actions[i] == 'pass':
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legal_actions[i] = ''
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legal_actions = ','.join([''.join([EnvCard2RealCard[c] for c in action]) for action in legal_actions])
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return jsonify({'status': 0, 'message': 'success', 'legal_action': legal_actions})
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except:
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import traceback
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traceback.print_exc()
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return jsonify({'status': -1, 'message': 'unkown error'})
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def _extract_state(state):
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current_hand = _cards2array(state['current_hand'])
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others_hand = _cards2array(state['others_hand'])
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last_action = ''
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if len(state['trace']) != 0:
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if state['trace'][-1][1] == 'pass':
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last_action = state['trace'][-2][1]
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else:
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last_action = state['trace'][-1][1]
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last_action = _cards2array(last_action)
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last_9_actions = _action_seq2array(_process_action_seq(state['trace']))
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if state['self'] == 0: # landlord
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landlord_up_played_cards = _cards2array(state['played_cards'][2])
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landlord_down_played_cards = _cards2array(state['played_cards'][1])
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landlord_up_num_cards_left = _get_one_hot_array(state['num_cards_left'][2], 17)
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landlord_down_num_cards_left = _get_one_hot_array(state['num_cards_left'][1], 17)
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obs = np.concatenate((current_hand,
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others_hand,
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last_action,
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last_9_actions,
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landlord_up_played_cards,
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landlord_down_played_cards,
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landlord_up_num_cards_left,
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landlord_down_num_cards_left))
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else:
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landlord_played_cards = _cards2array(state['played_cards'][0])
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for i, action in reversed(state['trace']):
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if i == 0:
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last_landlord_action = action
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last_landlord_action = _cards2array(last_landlord_action)
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landlord_num_cards_left = _get_one_hot_array(state['num_cards_left'][0], 20)
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teammate_id = 3 - state['self']
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teammate_played_cards = _cards2array(state['played_cards'][teammate_id])
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last_teammate_action = 'pass'
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for i, action in reversed(state['trace']):
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if i == teammate_id:
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last_teammate_action = action
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last_teammate_action = _cards2array(last_teammate_action)
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teammate_num_cards_left = _get_one_hot_array(state['num_cards_left'][teammate_id], 17)
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obs = np.concatenate((current_hand,
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others_hand,
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last_action,
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last_9_actions,
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landlord_played_cards,
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teammate_played_cards,
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last_landlord_action,
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last_teammate_action,
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landlord_num_cards_left,
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teammate_num_cards_left))
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legal_actions = {env._ACTION_2_ID[action]: _cards2array(action) for action in state['actions']}
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extracted_state = OrderedDict({'obs': obs, 'legal_actions': legal_actions})
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extracted_state['raw_obs'] = state
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extracted_state['raw_legal_actions'] = [a for a in state['actions']]
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return extracted_state
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def _get_legal_card_play_actions(player_hand_cards, rival_move):
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mg = MovesGener(player_hand_cards)
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rival_type = md.get_move_type(rival_move)
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rival_move_type = rival_type['type']
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rival_move_len = rival_type.get('len', 1)
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moves = list()
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if rival_move_type == md.TYPE_0_PASS:
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moves = mg.gen_moves()
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elif rival_move_type == md.TYPE_1_SINGLE:
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all_moves = mg.gen_type_1_single()
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moves = ms.filter_type_1_single(all_moves, rival_move)
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elif rival_move_type == md.TYPE_2_PAIR:
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all_moves = mg.gen_type_2_pair()
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moves = ms.filter_type_2_pair(all_moves, rival_move)
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elif rival_move_type == md.TYPE_3_TRIPLE:
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all_moves = mg.gen_type_3_triple()
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moves = ms.filter_type_3_triple(all_moves, rival_move)
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elif rival_move_type == md.TYPE_4_BOMB:
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all_moves = mg.gen_type_4_bomb() + mg.gen_type_5_king_bomb()
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moves = ms.filter_type_4_bomb(all_moves, rival_move)
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elif rival_move_type == md.TYPE_5_KING_BOMB:
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moves = []
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elif rival_move_type == md.TYPE_6_3_1:
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all_moves = mg.gen_type_6_3_1()
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moves = ms.filter_type_6_3_1(all_moves, rival_move)
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elif rival_move_type == md.TYPE_7_3_2:
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all_moves = mg.gen_type_7_3_2()
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moves = ms.filter_type_7_3_2(all_moves, rival_move)
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elif rival_move_type == md.TYPE_8_SERIAL_SINGLE:
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all_moves = mg.gen_type_8_serial_single(repeat_num=rival_move_len)
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moves = ms.filter_type_8_serial_single(all_moves, rival_move)
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elif rival_move_type == md.TYPE_9_SERIAL_PAIR:
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all_moves = mg.gen_type_9_serial_pair(repeat_num=rival_move_len)
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moves = ms.filter_type_9_serial_pair(all_moves, rival_move)
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elif rival_move_type == md.TYPE_10_SERIAL_TRIPLE:
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all_moves = mg.gen_type_10_serial_triple(repeat_num=rival_move_len)
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moves = ms.filter_type_10_serial_triple(all_moves, rival_move)
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elif rival_move_type == md.TYPE_11_SERIAL_3_1:
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all_moves = mg.gen_type_11_serial_3_1(repeat_num=rival_move_len)
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moves = ms.filter_type_11_serial_3_1(all_moves, rival_move)
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elif rival_move_type == md.TYPE_12_SERIAL_3_2:
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all_moves = mg.gen_type_12_serial_3_2(repeat_num=rival_move_len)
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moves = ms.filter_type_12_serial_3_2(all_moves, rival_move)
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elif rival_move_type == md.TYPE_13_4_2:
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all_moves = mg.gen_type_13_4_2()
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moves = ms.filter_type_13_4_2(all_moves, rival_move)
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elif rival_move_type == md.TYPE_14_4_22:
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all_moves = mg.gen_type_14_4_22()
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moves = ms.filter_type_14_4_22(all_moves, rival_move)
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if rival_move_type not in [md.TYPE_0_PASS,
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md.TYPE_4_BOMB, md.TYPE_5_KING_BOMB]:
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moves = moves + mg.gen_type_4_bomb() + mg.gen_type_5_king_bomb()
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if len(rival_move) != 0: # rival_move is not 'pass'
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moves = moves + [[]]
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for m in moves:
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m.sort()
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return moves
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Card2Column = {'3': 0, '4': 1, '5': 2, '6': 3, '7': 4, '8': 5, '9': 6, 'T': 7,
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'J': 8, 'Q': 9, 'K': 10, 'A': 11, '2': 12}
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NumOnes2Array = {0: np.array([0, 0, 0, 0]),
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1: np.array([1, 0, 0, 0]),
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2: np.array([1, 1, 0, 0]),
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3: np.array([1, 1, 1, 0]),
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4: np.array([1, 1, 1, 1])}
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def _cards2array(cards):
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if cards == 'pass':
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return np.zeros(54, dtype=np.int8)
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matrix = np.zeros([4, 13], dtype=np.int8)
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jokers = np.zeros(2, dtype=np.int8)
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counter = Counter(cards)
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for card, num_times in counter.items():
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if card == 'B':
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jokers[0] = 1
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|
elif card == 'R':
|
||
|
jokers[1] = 1
|
||
|
else:
|
||
|
matrix[:, Card2Column[card]] = NumOnes2Array[num_times]
|
||
|
return np.concatenate((matrix.flatten('F'), jokers))
|
||
|
|
||
|
def _get_one_hot_array(num_left_cards, max_num_cards):
|
||
|
one_hot = np.zeros(max_num_cards, dtype=np.int8)
|
||
|
one_hot[num_left_cards - 1] = 1
|
||
|
|
||
|
return one_hot
|
||
|
|
||
|
def _action_seq2array(action_seq_list):
|
||
|
action_seq_array = np.zeros((len(action_seq_list), 54), np.int8)
|
||
|
for row, cards in enumerate(action_seq_list):
|
||
|
action_seq_array[row, :] = _cards2array(cards)
|
||
|
action_seq_array = action_seq_array.flatten()
|
||
|
return action_seq_array
|
||
|
|
||
|
def _process_action_seq(sequence, length=9):
|
||
|
sequence = [action[1] for action in sequence[-length:]]
|
||
|
if len(sequence) < length:
|
||
|
empty_sequence = ['' for _ in range(length - len(sequence))]
|
||
|
empty_sequence.extend(sequence)
|
||
|
sequence = empty_sequence
|
||
|
return sequence
|
||
|
|
||
|
if __name__ == '__main__':
|
||
|
import argparse
|
||
|
parser = argparse.ArgumentParser(description='DouZero backend')
|
||
|
parser.add_argument('--debug', action='store_true')
|
||
|
args = parser.parse_args()
|
||
|
app.run(debug=args.debug)
|