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134 lines
5.8 KiB
Python
134 lines
5.8 KiB
Python
import logging
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from typing import Any, Dict # Optional
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import torch as th
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from stable_baselines3.common.callbacks import EvalCallback
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from stable_baselines3.common.monitor import Monitor
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# from stable_baselines3.common.vec_env import SubprocVecEnv
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from freqtrade.freqai.RL.Base3ActionRLEnv import Base3ActionRLEnv, Actions, Positions
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from freqtrade.freqai.RL.BaseReinforcementLearningModel import BaseReinforcementLearningModel
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from freqtrade.freqai.RL.TDQNagent import TDQN
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from stable_baselines3.common.buffers import ReplayBuffer
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import numpy as np
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logger = logging.getLogger(__name__)
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class ReinforcementLearningTDQN(BaseReinforcementLearningModel):
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"""
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User created Reinforcement Learning Model prediction model.
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"""
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def fit(self, data_dictionary: Dict[str, Any], pair: str = ''):
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agent_params = self.freqai_info['model_training_parameters']
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reward_params = self.freqai_info['model_reward_parameters']
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train_df = data_dictionary["train_features"]
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test_df = data_dictionary["test_features"]
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eval_freq = agent_params["eval_cycles"] * len(test_df)
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total_timesteps = agent_params["train_cycles"] * len(train_df)
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# price data for model training and evaluation
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price = self.dd.historic_data[pair][f"{self.config['timeframe']}"].tail(len(train_df.index))
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price_test = self.dd.historic_data[pair][f"{self.config['timeframe']}"].tail(
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len(test_df.index))
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# environments
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train_env = MyRLEnv(df=train_df, prices=price, window_size=self.CONV_WIDTH,
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reward_kwargs=reward_params)
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eval = MyRLEnv(df=test_df, prices=price_test,
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window_size=self.CONV_WIDTH, reward_kwargs=reward_params)
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eval_env = Monitor(eval, ".")
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eval_env.reset()
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path = self.dk.data_path
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eval_callback = EvalCallback(eval_env, best_model_save_path=f"{path}/",
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log_path=f"{path}/tdqn/logs/", eval_freq=int(eval_freq),
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deterministic=True, render=False)
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# model arch
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policy_kwargs = dict(activation_fn=th.nn.ReLU,
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net_arch=[256, 256, 128])
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model = TDQN('TMultiInputPolicy', train_env,
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policy_kwargs=policy_kwargs,
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tensorboard_log=f"{path}/tdqn/tensorboard/",
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learning_rate=0.00025, gamma=0.9,
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target_update_interval=5000, buffer_size=50000,
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exploration_initial_eps=1, exploration_final_eps=0.1,
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replay_buffer_class=ReplayBuffer
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)
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model.learn(
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total_timesteps=int(total_timesteps),
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callback=eval_callback
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)
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print('Training finished!')
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return model
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class MyRLEnv(Base3ActionRLEnv):
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"""
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User can override any function in BaseRLEnv and gym.Env
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"""
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def calculate_reward(self, action):
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if self._last_trade_tick is None:
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return 0.
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# close long
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if (action == Actions.Short.value or
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action == Actions.Neutral.value) and self._position == Positions.Long:
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last_trade_price = self.add_buy_fee(self.prices.iloc[self._last_trade_tick].open)
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current_price = self.add_sell_fee(self.prices.iloc[self._current_tick].open)
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return float(np.log(current_price) - np.log(last_trade_price))
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# close short
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if (action == Actions.Long.value or
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action == Actions.Neutral.value) and self._position == Positions.Short:
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last_trade_price = self.add_sell_fee(self.prices.iloc[self._last_trade_tick].open)
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current_price = self.add_buy_fee(self.prices.iloc[self._current_tick].open)
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return float(np.log(last_trade_price) - np.log(current_price))
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return 0.
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# User can inherit and customize 5 action environment
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# class MyRLEnv(Base5ActionRLEnv):
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# """
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# User can override any function in BaseRLEnv and gym.Env. Here the user
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# Adds 5 actions.
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# """
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# def calculate_reward(self, action):
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# if self._last_trade_tick is None:
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# return 0.
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# # close long
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# if action == Actions.Long_sell.value and self._position == Positions.Long:
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# last_trade_price = self.add_buy_fee(self.prices.iloc[self._last_trade_tick].open)
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# current_price = self.add_sell_fee(self.prices.iloc[self._current_tick].open)
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# return float(np.log(current_price) - np.log(last_trade_price))
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# if action == Actions.Long_sell.value and self._position == Positions.Long:
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# if self.close_trade_profit[-1] > self.profit_aim * self.rr:
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# last_trade_price = self.add_buy_fee(self.prices.iloc[self._last_trade_tick].open)
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# current_price = self.add_sell_fee(self.prices.iloc[self._current_tick].open)
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# return float((np.log(current_price) - np.log(last_trade_price)) * 2)
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# # close short
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# if action == Actions.Short_buy.value and self._position == Positions.Short:
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# last_trade_price = self.add_sell_fee(self.prices.iloc[self._last_trade_tick].open)
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# current_price = self.add_buy_fee(self.prices.iloc[self._current_tick].open)
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# return float(np.log(last_trade_price) - np.log(current_price))
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# if action == Actions.Short_buy.value and self._position == Positions.Short:
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# if self.close_trade_profit[-1] > self.profit_aim * self.rr:
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# last_trade_price = self.add_sell_fee(self.prices.iloc[self._last_trade_tick].open)
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# current_price = self.add_buy_fee(self.prices.iloc[self._current_tick].open)
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# return float((np.log(last_trade_price) - np.log(current_price)) * 2)
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# return 0.
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