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| import os, gym import datetime import gym_anytrading import matplotlib.pyplot as plt from gym_anytrading.envs import TradingEnv, ForexEnv, StocksEnv, Actions, Positions from gym_anytrading.datasets import FOREX_EURUSD_1H_ASK, STOCKS_GOOGL from stable_baselines.common.vec_env import DummyVecEnv from stable_baselines import PPO2 from stable_baselines import ACKTR from stable_baselines.bench import Monitor from stable_baselines.common import set_global_seeds
import numpy as np import matplotlib.pyplot as plt
# 勝敗をカウントする def count(lst): cnt_win = 0 cnt_lose = 0 cnt_draw = 0 for x in lst: if x == 0: cnt_draw += 1 elif x > 0: cnt_win += 1 else: cnt_lose += 1
return cnt_win, cnt_lose, cnt_draw
def simulation(i, prm): global means # ログフォルダの生成 log_dir = './logs/' os.makedirs(log_dir, exist_ok=True) # 環境の生成 env = gym.make('forex-v0', frame_bound=(prm['start_idx'], prm['end_idx']), window_size = prm['window_size']) env = Monitor(env, log_dir, allow_early_resets=True) # シードの指定 env.seed(0) set_global_seeds(0) # ベクトル化環境の生成 env = DummyVecEnv([lambda: env]) # モデルの読み込み # model = PPO2.load('model{}'.format(i)) model = ACKTR.load('model{}'.format(i)) # モデルのテスト env = gym.make('forex-v0', frame_bound=(prm['start_idx'] + prm['move_idx'], prm['end_idx'] + prm['move_idx']), window_size = prm['window_size']) env.seed(0) state = env.reset() while True: # 行動の取得 action, _ = model.predict(state) # 0 or 1 # 1ステップ実行 state, reward, done, info = env.step(action) # エピソード完了 if done: print('info:', info, info['total_reward']) # info: {'total_reward': 8610370000.0, 'total_profit': 1.7844206334206751, 'position': 1} 8610370000.0 means.append(info['total_reward']) break # グラフのプロット plt.cla() env.render_all()
cnt_win = 0 cnt_lose = 0 cnt_draw = 0 for move_idx in range(0, 1001, 50): labels = [] means = [] prm = {'window_size': 10, #window_size 参照すべき直前のデータ数 'start_idx' : 10, #start_idx 学習データの開始位置 'end_idx' : 1010, #end_idx 学習データの終了位置 'move_idx' : move_idx} #学習データからの移動分。移動したものを検証データとする。 for i in range(30): labels.append('{}'.format(i)) simulation(0, prm)
x = np.arange(len(labels)) width = 0.35
fig, ax = plt.subplots()
rect = ax.bar(x, means, width) ax.set_xticks(x) ax.set_xticklabels(labels)
cnt = count(means) plt.title('[Average]{:,.0f} [Win]{} [Lose]{} [Draw]{}'.format(np.average(means), cnt[0], cnt[1], cnt[2]))
plt.savefig('trading{:03d}.png'.format(move_idx))
if cnt[0] == cnt[1]: cnt_draw += 1 elif cnt[0] > cnt[1]: cnt_win += 1 else: cnt_lose += 1
print('{}勝 {}敗 {}分'.format(cnt_win, cnt_lose, cnt_draw))
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