Douzero_Resnet/douzero/evaluation/simulation.py

import multiprocessing as mp
import pickle
import douzero.env.env
from douzero.dmc.models import Model
from douzero.env.game import GameEnv
import torch
import numpy as np
import psutil

def load_card_play_models(card_play_model_path_dict):
    players = {}

    for position in ['landlord', 'landlord_up', 'landlord_front', 'landlord_down']:
        if card_play_model_path_dict[position] == 'rlcard':
            from .rlcard_agent import RLCardAgent
            players[position] = RLCardAgent(position)
        elif card_play_model_path_dict[position] == 'random':
            from .random_agent import RandomAgent
            players[position] = RandomAgent()
        else:
            from .deep_agent import DeepAgent
            players[position] = DeepAgent(position, card_play_model_path_dict[position])
    return players

def mp_simulate(card_play_data_list, card_play_model_path_dict, q, output, title):
    players = load_card_play_models(card_play_model_path_dict)
    EnvCard2RealCard = {3: '3', 4: '4', 5: '5', 6: '6', 7: '7',
                        8: '8', 9: '9', 10: 'T', 11: 'J', 12: 'Q',
                        13: 'K', 14: 'A', 17: '2', 20: 'X', 30: 'D'}
    env = GameEnv(players)
    for idx, card_play_data in enumerate(card_play_data_list):
        env.card_play_init(card_play_data)
        if output:
            print("\nStart ------- " + title)
            if 'play' in card_play_data.keys():
                print ("".join([EnvCard2RealCard[c] for c in card_play_data['play']["landlord"]]))
                print ("".join([EnvCard2RealCard[c] for c in card_play_data['play']["landlord_down"]]))
                print ("".join([EnvCard2RealCard[c] for c in card_play_data['play']["landlord_front"]]))
                print ("".join([EnvCard2RealCard[c] for c in card_play_data['play']["landlord_up"]]))
            else:
                print ("".join([EnvCard2RealCard[c] for c in card_play_data["landlord"]]))
                print ("".join([EnvCard2RealCard[c] for c in card_play_data["landlord_down"]]))
                print ("".join([EnvCard2RealCard[c] for c in card_play_data["landlord_front"]]))
                print ("".join([EnvCard2RealCard[c] for c in card_play_data["landlord_up"]]))
        # print(card_play_data)
        count = 0
        while not env.game_over:
            action = env.step()
            if output:
                if count % 4 == 3:
                    end = "\n"
                else:
                    end = "   "
                if len(action) == 0:
                    print("Pass", end=end)
                else:
                    print("".join([EnvCard2RealCard[c] for c in action]), end=end)
                count+=1
        if output and idx % 10 == 0:
            print("\nindex", idx)
        # print("End -------")
        env.reset()

    q.put((env.num_wins['landlord'],
           env.num_wins['farmer'],
           env.num_scores['landlord'],
           env.num_scores['farmer']
           ))

def data_allocation_per_worker(card_play_data_list, num_workers):
    card_play_data_list_each_worker = [[] for k in range(num_workers)]
    for idx, data in enumerate(card_play_data_list):
        card_play_data_list_each_worker[idx % num_workers].append(data)

    return card_play_data_list_each_worker

def evaluate(landlord, landlord_up, landlord_front, landlord_down, eval_data, num_workers, output, title):

    with open(eval_data, 'rb') as f:
        card_play_data_list = pickle.load(f)

    card_play_data_list_each_worker = data_allocation_per_worker(
        card_play_data_list, num_workers)
    del card_play_data_list

    card_play_model_path_dict = {
        'landlord': landlord,
        'landlord_up': landlord_up,
        'landlord_front': landlord_front,
        'landlord_down': landlord_down}

    num_landlord_wins = 0
    num_farmer_wins = 0
    num_landlord_scores = 0
    num_farmer_scores = 0

    ctx = mp.get_context('spawn')
    q = ctx.SimpleQueue()
    processes = []
    for card_paly_data in card_play_data_list_each_worker:

        p = ctx.Process(
                target=mp_simulate,
                args=(card_paly_data, card_play_model_path_dict, q, output, title))
        p.start()

        processes.append(p)

    parent = psutil.Process()
    parent.nice(psutil.BELOW_NORMAL_PRIORITY_CLASS)
    for child in parent.children():
        child.nice(psutil.BELOW_NORMAL_PRIORITY_CLASS)

    for p in processes:
        p.join()

    for i in range(num_workers):
        result = q.get()
        num_landlord_wins += result[0]
        num_farmer_wins += result[1]
        num_landlord_scores += result[2]
        num_farmer_scores += result[3]

    num_total_wins = num_landlord_wins + num_farmer_wins
    print('WP results:')
    print('landlord : Farmers - {} : {}'.format(num_landlord_wins / num_total_wins, num_farmer_wins / num_total_wins))
    print('ADP results:')
    print('landlord : Farmers - {} : {}'.format(num_landlord_scores / num_total_wins, 3 * num_farmer_scores / num_total_wins))
Init 2021-09-07 16:38:34 +08:00			`import multiprocessing as mp`
			`import pickle`
			`import douzero.env.env`
			`from douzero.dmc.models import Model`
			`from douzero.env.game import GameEnv`
			`import torch`
			`import numpy as np`
调整评估相关代码 2021-12-08 17:16:27 +08:00			`import psutil`
Init 2021-09-07 16:38:34 +08:00
			`def load_card_play_models(card_play_model_path_dict):`
			`players = {}`

改造为4人斗地主 2021-12-05 12:03:30 +08:00			`for position in ['landlord', 'landlord_up', 'landlord_front', 'landlord_down']:`
Init 2021-09-07 16:38:34 +08:00			`if card_play_model_path_dict[position] == 'rlcard':`
			`from .rlcard_agent import RLCardAgent`
			`players[position] = RLCardAgent(position)`
			`elif card_play_model_path_dict[position] == 'random':`
			`from .random_agent import RandomAgent`
			`players[position] = RandomAgent()`
			`else:`
			`from .deep_agent import DeepAgent`
			`players[position] = DeepAgent(position, card_play_model_path_dict[position])`
			`return players`

修复游戏规则BUG, 移除BID模型 2021-12-19 17:19:32 +08:00			`def mp_simulate(card_play_data_list, card_play_model_path_dict, q, output, title):`
Init 2021-09-07 16:38:34 +08:00			`players = load_card_play_models(card_play_model_path_dict)`
			`EnvCard2RealCard = {3: '3', 4: '4', 5: '5', 6: '6', 7: '7',`
			`8: '8', 9: '9', 10: 'T', 11: 'J', 12: 'Q',`
			`13: 'K', 14: 'A', 17: '2', 20: 'X', 30: 'D'}`
			`env = GameEnv(players)`
			`for idx, card_play_data in enumerate(card_play_data_list):`
			`env.card_play_init(card_play_data)`
修复游戏规则BUG, 移除BID模型 2021-12-19 17:19:32 +08:00			`if output:`
Init 2021-09-07 16:38:34 +08:00			`print("\nStart ------- " + title)`
添加叫牌相关的评估逻辑 2021-12-10 10:11:44 +08:00			`if 'play' in card_play_data.keys():`
			`print ("".join([EnvCard2RealCard[c] for c in card_play_data['play']["landlord"]]))`
			`print ("".join([EnvCard2RealCard[c] for c in card_play_data['play']["landlord_down"]]))`
			`print ("".join([EnvCard2RealCard[c] for c in card_play_data['play']["landlord_front"]]))`
			`print ("".join([EnvCard2RealCard[c] for c in card_play_data['play']["landlord_up"]]))`
			`else:`
			`print ("".join([EnvCard2RealCard[c] for c in card_play_data["landlord"]]))`
			`print ("".join([EnvCard2RealCard[c] for c in card_play_data["landlord_down"]]))`
			`print ("".join([EnvCard2RealCard[c] for c in card_play_data["landlord_front"]]))`
			`print ("".join([EnvCard2RealCard[c] for c in card_play_data["landlord_up"]]))`
Init 2021-09-07 16:38:34 +08:00			`# print(card_play_data)`
			`count = 0`
修复游戏规则BUG, 移除BID模型 2021-12-19 17:19:32 +08:00			`while not env.game_over:`
Init 2021-09-07 16:38:34 +08:00			`action = env.step()`
			`if output:`
调整为4人模式输出 2021-12-05 12:20:49 +08:00			`if count % 4 == 3:`
Init 2021-09-07 16:38:34 +08:00			`end = "\n"`
			`else:`
			`end = " "`
			`if len(action) == 0:`
			`print("Pass", end=end)`
			`else:`
			`print("".join([EnvCard2RealCard[c] for c in action]), end=end)`
			`count+=1`
修复游戏规则BUG, 移除BID模型 2021-12-19 17:19:32 +08:00			`if output and idx % 10 == 0:`
Init 2021-09-07 16:38:34 +08:00			`print("\nindex", idx)`
			`# print("End -------")`
			`env.reset()`

			`q.put((env.num_wins['landlord'],`
			`env.num_wins['farmer'],`
			`env.num_scores['landlord'],`
			`env.num_scores['farmer']`
			`))`

			`def data_allocation_per_worker(card_play_data_list, num_workers):`
			`card_play_data_list_each_worker = [[] for k in range(num_workers)]`
			`for idx, data in enumerate(card_play_data_list):`
			`card_play_data_list_each_worker[idx % num_workers].append(data)`

			`return card_play_data_list_each_worker`

修复游戏规则BUG, 移除BID模型 2021-12-19 17:19:32 +08:00			`def evaluate(landlord, landlord_up, landlord_front, landlord_down, eval_data, num_workers, output, title):`
Init 2021-09-07 16:38:34 +08:00
			`with open(eval_data, 'rb') as f:`
			`card_play_data_list = pickle.load(f)`

			`card_play_data_list_each_worker = data_allocation_per_worker(`
			`card_play_data_list, num_workers)`
			`del card_play_data_list`

			`card_play_model_path_dict = {`
			`'landlord': landlord,`
			`'landlord_up': landlord_up,`
修复eval逻辑BUG 2021-12-11 20:07:41 +08:00			`'landlord_front': landlord_front,`
Init 2021-09-07 16:38:34 +08:00			`'landlord_down': landlord_down}`

			`num_landlord_wins = 0`
			`num_farmer_wins = 0`
			`num_landlord_scores = 0`
			`num_farmer_scores = 0`

			`ctx = mp.get_context('spawn')`
			`q = ctx.SimpleQueue()`
			`processes = []`
			`for card_paly_data in card_play_data_list_each_worker:`

			`p = ctx.Process(`
			`target=mp_simulate,`
修复游戏规则BUG, 移除BID模型 2021-12-19 17:19:32 +08:00			`args=(card_paly_data, card_play_model_path_dict, q, output, title))`
Init 2021-09-07 16:38:34 +08:00			`p.start()`
调整评估相关代码 2021-12-08 17:16:27 +08:00
Init 2021-09-07 16:38:34 +08:00			`processes.append(p)`

调整评估相关代码 2021-12-08 17:16:27 +08:00			`parent = psutil.Process()`
			`parent.nice(psutil.BELOW_NORMAL_PRIORITY_CLASS)`
			`for child in parent.children():`
			`child.nice(psutil.BELOW_NORMAL_PRIORITY_CLASS)`

Init 2021-09-07 16:38:34 +08:00			`for p in processes:`
			`p.join()`

			`for i in range(num_workers):`
			`result = q.get()`
			`num_landlord_wins += result[0]`
			`num_farmer_wins += result[1]`
			`num_landlord_scores += result[2]`
			`num_farmer_scores += result[3]`

			`num_total_wins = num_landlord_wins + num_farmer_wins`
			`print('WP results:')`
			`print('landlord : Farmers - {} : {}'.format(num_landlord_wins / num_total_wins, num_farmer_wins / num_total_wins))`
			`print('ADP results:')`
调整评估相关代码 2021-12-08 17:16:27 +08:00			`print('landlord : Farmers - {} : {}'.format(num_landlord_scores / num_total_wins, 3 * num_farmer_scores / num_total_wins))`