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172 lines
6.9 KiB
Python
172 lines
6.9 KiB
Python
import logging
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from pathlib import Path
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from typing import Any, Dict, List, Optional, Type
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import torch as th
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from stable_baselines3.common.callbacks import ProgressBarCallback
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from freqtrade.freqai.data_kitchen import FreqaiDataKitchen
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from freqtrade.freqai.RL.Base5ActionRLEnv import Actions, Base5ActionRLEnv, Positions
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from freqtrade.freqai.RL.BaseEnvironment import BaseEnvironment
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from freqtrade.freqai.RL.BaseReinforcementLearningModel import BaseReinforcementLearningModel
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logger = logging.getLogger(__name__)
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class ReinforcementLearner(BaseReinforcementLearningModel):
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"""
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Reinforcement Learning Model prediction model.
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Users can inherit from this class to make their own RL model with custom
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environment/training controls. Define the file as follows:
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```
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from freqtrade.freqai.prediction_models.ReinforcementLearner import ReinforcementLearner
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class MyCoolRLModel(ReinforcementLearner):
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```
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Save the file to `user_data/freqaimodels`, then run it with:
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freqtrade trade --freqaimodel MyCoolRLModel --config config.json --strategy SomeCoolStrat
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Here the users can override any of the functions
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available in the `IFreqaiModel` inheritance tree. Most importantly for RL, this
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is where the user overrides `MyRLEnv` (see below), to define custom
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`calculate_reward()` function, or to override any other parts of the environment.
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This class also allows users to override any other part of the IFreqaiModel tree.
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For example, the user can override `def fit()` or `def train()` or `def predict()`
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to take fine-tuned control over these processes.
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Another common override may be `def data_cleaning_predict()` where the user can
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take fine-tuned control over the data handling pipeline.
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"""
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def fit(self, data_dictionary: Dict[str, Any], dk: FreqaiDataKitchen, **kwargs):
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"""
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User customizable fit method
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:param data_dictionary: dict = common data dictionary containing all train/test
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features/labels/weights.
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:param dk: FreqaiDatakitchen = data kitchen for current pair.
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:return:
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model Any = trained model to be used for inference in dry/live/backtesting
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"""
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train_df = data_dictionary["train_features"]
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total_timesteps = self.freqai_info["rl_config"]["train_cycles"] * len(train_df)
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policy_kwargs = dict(activation_fn=th.nn.ReLU, net_arch=self.net_arch)
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if self.activate_tensorboard:
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tb_path = Path(dk.full_path / "tensorboard" / dk.pair.split("/")[0])
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else:
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tb_path = None
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if dk.pair not in self.dd.model_dictionary or not self.continual_learning:
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model = self.MODELCLASS(
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self.policy_type,
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self.train_env,
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policy_kwargs=policy_kwargs,
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tensorboard_log=tb_path,
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**self.freqai_info.get("model_training_parameters", {}),
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)
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else:
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logger.info(
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"Continual training activated - starting training from previously trained agent."
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)
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model = self.dd.model_dictionary[dk.pair]
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model.set_env(self.train_env)
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callbacks: List[Any] = [self.eval_callback, self.tensorboard_callback]
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progressbar_callback: Optional[ProgressBarCallback] = None
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if self.rl_config.get("progress_bar", False):
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progressbar_callback = ProgressBarCallback()
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callbacks.insert(0, progressbar_callback)
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try:
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model.learn(
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total_timesteps=int(total_timesteps),
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callback=callbacks,
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)
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finally:
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if progressbar_callback:
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progressbar_callback.on_training_end()
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if Path(dk.data_path / "best_model.zip").is_file():
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logger.info("Callback found a best model.")
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best_model = self.MODELCLASS.load(dk.data_path / "best_model")
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return best_model
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logger.info("Couldn't find best model, using final model instead.")
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return model
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MyRLEnv: Type[BaseEnvironment]
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class MyRLEnv(Base5ActionRLEnv): # type: ignore[no-redef]
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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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sets a custom reward based on profit and trade duration.
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"""
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def calculate_reward(self, action: int) -> float:
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"""
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An example reward function. This is the one function that users will likely
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wish to inject their own creativity into.
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Warning!
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This is function is a showcase of functionality designed to show as many possible
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environment control features as possible. It is also designed to run quickly
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on small computers. This is a benchmark, it is *not* for live production.
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:param action: int = The action made by the agent for the current candle.
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:return:
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float = the reward to give to the agent for current step (used for optimization
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of weights in NN)
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"""
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# first, penalize if the action is not valid
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if not self._is_valid(action):
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self.tensorboard_log("invalid", category="actions")
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return -2
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pnl = self.get_unrealized_profit()
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factor = 100.0
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# reward agent for entering trades
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if action == Actions.Long_enter.value and self._position == Positions.Neutral:
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return 25
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if action == Actions.Short_enter.value and self._position == Positions.Neutral:
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return 25
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# discourage agent from not entering trades
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if action == Actions.Neutral.value and self._position == Positions.Neutral:
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return -1
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max_trade_duration = self.rl_config.get("max_trade_duration_candles", 300)
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trade_duration = self._current_tick - self._last_trade_tick # type: ignore
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if trade_duration <= max_trade_duration:
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factor *= 1.5
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elif trade_duration > max_trade_duration:
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factor *= 0.5
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# discourage sitting in position
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if (
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self._position in (Positions.Short, Positions.Long)
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and action == Actions.Neutral.value
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):
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return -1 * trade_duration / max_trade_duration
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# close long
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if action == Actions.Long_exit.value and self._position == Positions.Long:
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if pnl > self.profit_aim * self.rr:
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factor *= self.rl_config["model_reward_parameters"].get("win_reward_factor", 2)
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return float(pnl * factor)
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# close short
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if action == Actions.Short_exit.value and self._position == Positions.Short:
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if pnl > self.profit_aim * self.rr:
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factor *= self.rl_config["model_reward_parameters"].get("win_reward_factor", 2)
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return float(pnl * factor)
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return 0.0
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