703 lines
29 KiB
Python
703 lines
29 KiB
Python
import collections
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import importlib
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import logging
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import re
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import shutil
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import threading
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from datetime import datetime, timedelta, timezone
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from pathlib import Path
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from typing import Any, Dict, Tuple, TypedDict
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import numpy as np
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import pandas as pd
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import psutil
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import rapidjson
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from joblib import dump, load
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from joblib.externals import cloudpickle
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from numpy.typing import NDArray
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from pandas import DataFrame
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from freqtrade.configuration import TimeRange
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from freqtrade.constants import Config
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from freqtrade.data.history import load_pair_history
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from freqtrade.exceptions import OperationalException
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from freqtrade.freqai.data_kitchen import FreqaiDataKitchen
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from freqtrade.strategy.interface import IStrategy
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logger = logging.getLogger(__name__)
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class pair_info(TypedDict):
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model_filename: str
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trained_timestamp: int
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data_path: str
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extras: dict
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class FreqaiDataDrawer:
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"""
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Class aimed at holding all pair models/info in memory for better inferencing/retrainig/saving
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/loading to/from disk.
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This object remains persistent throughout live/dry.
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Record of contribution:
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FreqAI was developed by a group of individuals who all contributed specific skillsets to the
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project.
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Conception and software development:
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Robert Caulk @robcaulk
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Theoretical brainstorming:
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Elin Törnquist @th0rntwig
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Code review, software architecture brainstorming:
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@xmatthias
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Beta testing and bug reporting:
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@bloodhunter4rc, Salah Lamkadem @ikonx, @ken11o2, @longyu, @paranoidandy, @smidelis, @smarm
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Juha Nykänen @suikula, Wagner Costa @wagnercosta, Johan Vlugt @Jooopieeert
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"""
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def __init__(self, full_path: Path, config: Config):
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self.config = config
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self.freqai_info = config.get("freqai", {})
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# dictionary holding all pair metadata necessary to load in from disk
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self.pair_dict: Dict[str, pair_info] = {}
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# dictionary holding all actively inferenced models in memory given a model filename
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self.model_dictionary: Dict[str, Any] = {}
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# all additional metadata that we want to keep in ram
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self.meta_data_dictionary: Dict[str, Dict[str, Any]] = {}
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self.model_return_values: Dict[str, DataFrame] = {}
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self.historic_data: Dict[str, Dict[str, DataFrame]] = {}
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self.historic_predictions: Dict[str, DataFrame] = {}
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self.full_path = full_path
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self.historic_predictions_path = Path(self.full_path / "historic_predictions.pkl")
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self.historic_predictions_bkp_path = Path(
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self.full_path / "historic_predictions.backup.pkl")
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self.pair_dictionary_path = Path(self.full_path / "pair_dictionary.json")
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self.global_metadata_path = Path(self.full_path / "global_metadata.json")
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self.metric_tracker_path = Path(self.full_path / "metric_tracker.json")
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self.load_drawer_from_disk()
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self.load_historic_predictions_from_disk()
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self.metric_tracker: Dict[str, Dict[str, Dict[str, list]]] = {}
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self.load_metric_tracker_from_disk()
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self.training_queue: Dict[str, int] = {}
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self.history_lock = threading.Lock()
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self.save_lock = threading.Lock()
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self.pair_dict_lock = threading.Lock()
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self.metric_tracker_lock = threading.Lock()
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self.old_DBSCAN_eps: Dict[str, float] = {}
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self.empty_pair_dict: pair_info = {
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"model_filename": "", "trained_timestamp": 0,
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"data_path": "", "extras": {}}
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self.model_type = self.freqai_info.get('model_save_type', 'joblib')
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def update_metric_tracker(self, metric: str, value: float, pair: str) -> None:
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"""
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General utility for adding and updating custom metrics. Typically used
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for adding training performance, train timings, inferenc timings, cpu loads etc.
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"""
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with self.metric_tracker_lock:
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if pair not in self.metric_tracker:
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self.metric_tracker[pair] = {}
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if metric not in self.metric_tracker[pair]:
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self.metric_tracker[pair][metric] = {'timestamp': [], 'value': []}
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timestamp = int(datetime.now(timezone.utc).timestamp())
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self.metric_tracker[pair][metric]['value'].append(value)
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self.metric_tracker[pair][metric]['timestamp'].append(timestamp)
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def collect_metrics(self, time_spent: float, pair: str):
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"""
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Add metrics to the metric tracker dictionary
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"""
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load1, load5, load15 = psutil.getloadavg()
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cpus = psutil.cpu_count()
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self.update_metric_tracker('train_time', time_spent, pair)
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self.update_metric_tracker('cpu_load1min', load1 / cpus, pair)
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self.update_metric_tracker('cpu_load5min', load5 / cpus, pair)
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self.update_metric_tracker('cpu_load15min', load15 / cpus, pair)
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def load_global_metadata_from_disk(self):
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"""
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Locate and load a previously saved global metadata in present model folder.
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"""
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exists = self.global_metadata_path.is_file()
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if exists:
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with self.global_metadata_path.open("r") as fp:
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metatada_dict = rapidjson.load(fp, number_mode=rapidjson.NM_NATIVE)
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return metatada_dict
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return {}
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def load_drawer_from_disk(self):
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"""
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Locate and load a previously saved data drawer full of all pair model metadata in
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present model folder.
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Load any existing metric tracker that may be present.
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"""
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exists = self.pair_dictionary_path.is_file()
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if exists:
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with self.pair_dictionary_path.open("r") as fp:
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self.pair_dict = rapidjson.load(fp, number_mode=rapidjson.NM_NATIVE)
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else:
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logger.info("Could not find existing datadrawer, starting from scratch")
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def load_metric_tracker_from_disk(self):
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"""
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Tries to load an existing metrics dictionary if the user
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wants to collect metrics.
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"""
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if self.freqai_info.get('write_metrics_to_disk', False):
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exists = self.metric_tracker_path.is_file()
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if exists:
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with self.metric_tracker_path.open("r") as fp:
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self.metric_tracker = rapidjson.load(fp, number_mode=rapidjson.NM_NATIVE)
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logger.info("Loading existing metric tracker from disk.")
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else:
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logger.info("Could not find existing metric tracker, starting from scratch")
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def load_historic_predictions_from_disk(self):
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"""
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Locate and load a previously saved historic predictions.
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:return: bool - whether or not the drawer was located
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"""
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exists = self.historic_predictions_path.is_file()
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if exists:
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try:
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with self.historic_predictions_path.open("rb") as fp:
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self.historic_predictions = cloudpickle.load(fp)
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logger.info(
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f"Found existing historic predictions at {self.full_path}, but beware "
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"that statistics may be inaccurate if the bot has been offline for "
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"an extended period of time."
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)
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except EOFError:
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logger.warning(
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'Historical prediction file was corrupted. Trying to load backup file.')
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with self.historic_predictions_bkp_path.open("rb") as fp:
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self.historic_predictions = cloudpickle.load(fp)
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logger.warning('FreqAI successfully loaded the backup historical predictions file.')
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else:
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logger.info("Could not find existing historic_predictions, starting from scratch")
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return exists
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def save_historic_predictions_to_disk(self):
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"""
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Save historic predictions pickle to disk
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"""
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with self.historic_predictions_path.open("wb") as fp:
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cloudpickle.dump(self.historic_predictions, fp, protocol=cloudpickle.DEFAULT_PROTOCOL)
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# create a backup
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shutil.copy(self.historic_predictions_path, self.historic_predictions_bkp_path)
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def save_metric_tracker_to_disk(self):
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"""
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Save metric tracker of all pair metrics collected.
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"""
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with self.save_lock:
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with self.metric_tracker_path.open('w') as fp:
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rapidjson.dump(self.metric_tracker, fp, default=self.np_encoder,
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number_mode=rapidjson.NM_NATIVE)
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def save_drawer_to_disk(self) -> None:
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"""
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Save data drawer full of all pair model metadata in present model folder.
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"""
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with self.save_lock:
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with self.pair_dictionary_path.open('w') as fp:
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rapidjson.dump(self.pair_dict, fp, default=self.np_encoder,
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number_mode=rapidjson.NM_NATIVE)
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def save_global_metadata_to_disk(self, metadata: Dict[str, Any]):
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"""
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Save global metadata json to disk
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"""
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with self.save_lock:
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with self.global_metadata_path.open('w') as fp:
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rapidjson.dump(metadata, fp, default=self.np_encoder,
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number_mode=rapidjson.NM_NATIVE)
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def np_encoder(self, object):
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if isinstance(object, np.generic):
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return object.item()
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def get_pair_dict_info(self, pair: str) -> Tuple[str, int]:
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"""
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Locate and load existing model metadata from persistent storage. If not located,
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create a new one and append the current pair to it and prepare it for its first
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training
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:param pair: str: pair to lookup
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:return:
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model_filename: str = unique filename used for loading persistent objects from disk
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trained_timestamp: int = the last time the coin was trained
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"""
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pair_dict = self.pair_dict.get(pair)
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if pair_dict:
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model_filename = pair_dict["model_filename"]
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trained_timestamp = pair_dict["trained_timestamp"]
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else:
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self.pair_dict[pair] = self.empty_pair_dict.copy()
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model_filename = ""
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trained_timestamp = 0
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return model_filename, trained_timestamp
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def set_pair_dict_info(self, metadata: dict) -> None:
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pair_in_dict = self.pair_dict.get(metadata["pair"])
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if pair_in_dict:
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return
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else:
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self.pair_dict[metadata["pair"]] = self.empty_pair_dict.copy()
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return
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def set_initial_return_values(self, pair: str, pred_df: DataFrame) -> None:
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"""
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Set the initial return values to the historical predictions dataframe. This avoids needing
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to repredict on historical candles, and also stores historical predictions despite
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retrainings (so stored predictions are true predictions, not just inferencing on trained
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data)
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"""
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hist_df = self.historic_predictions
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len_diff = len(hist_df[pair].index) - len(pred_df.index)
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if len_diff < 0:
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df_concat = pd.concat([pred_df.iloc[:abs(len_diff)], hist_df[pair]],
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ignore_index=True, keys=hist_df[pair].keys())
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else:
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df_concat = hist_df[pair].tail(len(pred_df.index)).reset_index(drop=True)
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df_concat = df_concat.fillna(0)
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self.model_return_values[pair] = df_concat
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def append_model_predictions(self, pair: str, predictions: DataFrame,
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do_preds: NDArray[np.int_],
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dk: FreqaiDataKitchen, strat_df: DataFrame) -> None:
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"""
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Append model predictions to historic predictions dataframe, then set the
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strategy return dataframe to the tail of the historic predictions. The length of
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the tail is equivalent to the length of the dataframe that entered FreqAI from
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the strategy originally. Doing this allows FreqUI to always display the correct
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historic predictions.
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"""
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len_df = len(strat_df)
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index = self.historic_predictions[pair].index[-1:]
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columns = self.historic_predictions[pair].columns
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nan_df = pd.DataFrame(np.nan, index=index, columns=columns)
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self.historic_predictions[pair] = pd.concat(
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[self.historic_predictions[pair], nan_df], ignore_index=True, axis=0)
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df = self.historic_predictions[pair]
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# model outputs and associated statistics
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for label in predictions.columns:
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df[label].iloc[-1] = predictions[label].iloc[-1]
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if df[label].dtype == object:
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continue
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df[f"{label}_mean"].iloc[-1] = dk.data["labels_mean"][label]
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df[f"{label}_std"].iloc[-1] = dk.data["labels_std"][label]
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# outlier indicators
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df["do_predict"].iloc[-1] = do_preds[-1]
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if self.freqai_info["feature_parameters"].get("DI_threshold", 0) > 0:
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df["DI_values"].iloc[-1] = dk.DI_values[-1]
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# extra values the user added within custom prediction model
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if dk.data['extra_returns_per_train']:
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rets = dk.data['extra_returns_per_train']
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for return_str in rets:
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df[return_str].iloc[-1] = rets[return_str]
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# this logic carries users between version without needing to
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# change their identifier
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if 'close_price' not in df.columns:
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df['close_price'] = np.nan
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df['date_pred'] = np.nan
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df['close_price'].iloc[-1] = strat_df['close'].iloc[-1]
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df['date_pred'].iloc[-1] = strat_df['date'].iloc[-1]
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self.model_return_values[pair] = df.tail(len_df).reset_index(drop=True)
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def attach_return_values_to_return_dataframe(
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self, pair: str, dataframe: DataFrame) -> DataFrame:
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"""
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Attach the return values to the strat dataframe
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:param dataframe: DataFrame = strategy dataframe
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:return: DataFrame = strat dataframe with return values attached
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"""
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df = self.model_return_values[pair]
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to_keep = [col for col in dataframe.columns if not col.startswith("&")]
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dataframe = pd.concat([dataframe[to_keep], df], axis=1)
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return dataframe
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def return_null_values_to_strategy(self, dataframe: DataFrame, dk: FreqaiDataKitchen) -> None:
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"""
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Build 0 filled dataframe to return to strategy
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"""
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dk.find_features(dataframe)
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dk.find_labels(dataframe)
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full_labels = dk.label_list + dk.unique_class_list
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for label in full_labels:
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dataframe[label] = 0
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dataframe[f"{label}_mean"] = 0
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dataframe[f"{label}_std"] = 0
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dataframe["do_predict"] = 0
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if self.freqai_info["feature_parameters"].get("DI_threshold", 0) > 0:
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dataframe["DI_values"] = 0
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if dk.data['extra_returns_per_train']:
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rets = dk.data['extra_returns_per_train']
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for return_str in rets:
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dataframe[return_str] = 0
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dk.return_dataframe = dataframe
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def purge_old_models(self) -> None:
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num_keep = self.freqai_info["purge_old_models"]
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if not num_keep:
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return
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elif type(num_keep) == bool:
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num_keep = 2
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model_folders = [x for x in self.full_path.iterdir() if x.is_dir()]
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pattern = re.compile(r"sub-train-(\w+)_(\d{10})")
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delete_dict: Dict[str, Any] = {}
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for dir in model_folders:
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result = pattern.match(str(dir.name))
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if result is None:
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continue
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coin = result.group(1)
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timestamp = result.group(2)
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if coin not in delete_dict:
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delete_dict[coin] = {}
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delete_dict[coin]["num_folders"] = 1
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delete_dict[coin]["timestamps"] = {int(timestamp): dir}
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else:
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delete_dict[coin]["num_folders"] += 1
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delete_dict[coin]["timestamps"][int(timestamp)] = dir
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for coin in delete_dict:
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if delete_dict[coin]["num_folders"] > num_keep:
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sorted_dict = collections.OrderedDict(
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sorted(delete_dict[coin]["timestamps"].items())
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)
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num_delete = len(sorted_dict) - num_keep
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deleted = 0
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for k, v in sorted_dict.items():
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if deleted >= num_delete:
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break
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logger.info(f"Freqai purging old model file {v}")
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shutil.rmtree(v)
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deleted += 1
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def save_metadata(self, dk: FreqaiDataKitchen) -> None:
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"""
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Saves only metadata for backtesting studies if user prefers
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not to save model data. This saves tremendous amounts of space
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for users generating huge studies.
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This is only active when `save_backtest_models`: false (not default)
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"""
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if not dk.data_path.is_dir():
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dk.data_path.mkdir(parents=True, exist_ok=True)
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save_path = Path(dk.data_path)
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dk.data["data_path"] = str(dk.data_path)
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dk.data["model_filename"] = str(dk.model_filename)
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dk.data["training_features_list"] = list(dk.data_dictionary["train_features"].columns)
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dk.data["label_list"] = dk.label_list
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with (save_path / f"{dk.model_filename}_metadata.json").open("w") as fp:
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rapidjson.dump(dk.data, fp, default=self.np_encoder, number_mode=rapidjson.NM_NATIVE)
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return
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def save_data(self, model: Any, coin: str, dk: FreqaiDataKitchen) -> None:
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"""
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Saves all data associated with a model for a single sub-train time range
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:param model: User trained model which can be reused for inferencing to generate
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predictions
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"""
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if not dk.data_path.is_dir():
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dk.data_path.mkdir(parents=True, exist_ok=True)
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save_path = Path(dk.data_path)
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# Save the trained model
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if self.model_type == 'joblib':
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dump(model, save_path / f"{dk.model_filename}_model.joblib")
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elif self.model_type == 'keras':
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model.save(save_path / f"{dk.model_filename}_model.h5")
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elif self.model_type in ["stable_baselines", "sb3_contrib", "pytorch"]:
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model.save(save_path / f"{dk.model_filename}_model.zip")
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if dk.svm_model is not None:
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dump(dk.svm_model, save_path / f"{dk.model_filename}_svm_model.joblib")
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dk.data["data_path"] = str(dk.data_path)
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dk.data["model_filename"] = str(dk.model_filename)
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dk.data["training_features_list"] = dk.training_features_list
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dk.data["label_list"] = dk.label_list
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# store the metadata
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with (save_path / f"{dk.model_filename}_metadata.json").open("w") as fp:
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rapidjson.dump(dk.data, fp, default=self.np_encoder, number_mode=rapidjson.NM_NATIVE)
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# save the train data to file so we can check preds for area of applicability later
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dk.data_dictionary["train_features"].to_pickle(
|
|
save_path / f"{dk.model_filename}_trained_df.pkl"
|
|
)
|
|
|
|
dk.data_dictionary["train_dates"].to_pickle(
|
|
save_path / f"{dk.model_filename}_trained_dates_df.pkl"
|
|
)
|
|
|
|
if self.freqai_info["feature_parameters"].get("principal_component_analysis"):
|
|
cloudpickle.dump(
|
|
dk.pca, (dk.data_path / f"{dk.model_filename}_pca_object.pkl").open("wb")
|
|
)
|
|
|
|
self.model_dictionary[coin] = model
|
|
self.pair_dict[coin]["model_filename"] = dk.model_filename
|
|
self.pair_dict[coin]["data_path"] = str(dk.data_path)
|
|
|
|
if coin not in self.meta_data_dictionary:
|
|
self.meta_data_dictionary[coin] = {}
|
|
self.meta_data_dictionary[coin]["train_df"] = dk.data_dictionary["train_features"]
|
|
self.meta_data_dictionary[coin]["meta_data"] = dk.data
|
|
self.save_drawer_to_disk()
|
|
|
|
return
|
|
|
|
def load_metadata(self, dk: FreqaiDataKitchen) -> None:
|
|
"""
|
|
Load only metadata into datakitchen to increase performance during
|
|
presaved backtesting (prediction file loading).
|
|
"""
|
|
with (dk.data_path / f"{dk.model_filename}_metadata.json").open("r") as fp:
|
|
dk.data = rapidjson.load(fp, number_mode=rapidjson.NM_NATIVE)
|
|
dk.training_features_list = dk.data["training_features_list"]
|
|
dk.label_list = dk.data["label_list"]
|
|
|
|
def load_data(self, coin: str, dk: FreqaiDataKitchen) -> Any:
|
|
"""
|
|
loads all data required to make a prediction on a sub-train time range
|
|
:returns:
|
|
:model: User trained model which can be inferenced for new predictions
|
|
"""
|
|
|
|
if not self.pair_dict[coin]["model_filename"]:
|
|
return None
|
|
|
|
if dk.live:
|
|
dk.model_filename = self.pair_dict[coin]["model_filename"]
|
|
dk.data_path = Path(self.pair_dict[coin]["data_path"])
|
|
|
|
if coin in self.meta_data_dictionary:
|
|
dk.data = self.meta_data_dictionary[coin]["meta_data"]
|
|
dk.data_dictionary["train_features"] = self.meta_data_dictionary[coin]["train_df"]
|
|
else:
|
|
with (dk.data_path / f"{dk.model_filename}_metadata.json").open("r") as fp:
|
|
dk.data = rapidjson.load(fp, number_mode=rapidjson.NM_NATIVE)
|
|
|
|
dk.data_dictionary["train_features"] = pd.read_pickle(
|
|
dk.data_path / f"{dk.model_filename}_trained_df.pkl"
|
|
)
|
|
|
|
dk.training_features_list = dk.data["training_features_list"]
|
|
dk.label_list = dk.data["label_list"]
|
|
|
|
# try to access model in memory instead of loading object from disk to save time
|
|
if dk.live and coin in self.model_dictionary:
|
|
model = self.model_dictionary[coin]
|
|
elif self.model_type == 'joblib':
|
|
model = load(dk.data_path / f"{dk.model_filename}_model.joblib")
|
|
elif self.model_type == 'keras':
|
|
from tensorflow import keras
|
|
model = keras.models.load_model(dk.data_path / f"{dk.model_filename}_model.h5")
|
|
elif 'stable_baselines' in self.model_type or 'sb3_contrib' == self.model_type:
|
|
mod = importlib.import_module(
|
|
self.model_type, self.freqai_info['rl_config']['model_type'])
|
|
MODELCLASS = getattr(mod, self.freqai_info['rl_config']['model_type'])
|
|
model = MODELCLASS.load(dk.data_path / f"{dk.model_filename}_model")
|
|
elif self.model_type == 'pytorch':
|
|
import torch
|
|
model = torch.load(dk.data_path / f"{dk.model_filename}_model.zip")
|
|
|
|
if Path(dk.data_path / f"{dk.model_filename}_svm_model.joblib").is_file():
|
|
dk.svm_model = load(dk.data_path / f"{dk.model_filename}_svm_model.joblib")
|
|
|
|
if not model:
|
|
raise OperationalException(
|
|
f"Unable to load model, ensure model exists at " f"{dk.data_path} "
|
|
)
|
|
|
|
# load it into ram if it was loaded from disk
|
|
if coin not in self.model_dictionary:
|
|
self.model_dictionary[coin] = model
|
|
|
|
if self.config["freqai"]["feature_parameters"]["principal_component_analysis"]:
|
|
dk.pca = cloudpickle.load(
|
|
(dk.data_path / f"{dk.model_filename}_pca_object.pkl").open("rb")
|
|
)
|
|
|
|
return model
|
|
|
|
def update_historic_data(self, strategy: IStrategy, dk: FreqaiDataKitchen) -> None:
|
|
"""
|
|
Append new candles to our stores historic data (in memory) so that
|
|
we do not need to load candle history from disk and we dont need to
|
|
pinging exchange multiple times for the same candle.
|
|
:param dataframe: DataFrame = strategy provided dataframe
|
|
"""
|
|
feat_params = self.freqai_info["feature_parameters"]
|
|
with self.history_lock:
|
|
history_data = self.historic_data
|
|
|
|
for pair in dk.all_pairs:
|
|
for tf in feat_params.get("include_timeframes"):
|
|
hist_df = history_data[pair][tf]
|
|
# check if newest candle is already appended
|
|
df_dp = strategy.dp.get_pair_dataframe(pair, tf)
|
|
if len(df_dp.index) == 0:
|
|
continue
|
|
if str(hist_df.iloc[-1]["date"]) == str(
|
|
df_dp.iloc[-1:]["date"].iloc[-1]
|
|
):
|
|
continue
|
|
|
|
try:
|
|
index = (
|
|
df_dp.loc[
|
|
df_dp["date"] == hist_df.iloc[-1]["date"]
|
|
].index[0]
|
|
+ 1
|
|
)
|
|
except IndexError:
|
|
if hist_df.iloc[-1]['date'] < df_dp['date'].iloc[0]:
|
|
raise OperationalException("In memory historical data is older than "
|
|
f"oldest DataProvider candle for {pair} on "
|
|
f"timeframe {tf}")
|
|
else:
|
|
index = -1
|
|
logger.warning(
|
|
f"No common dates in historical data and dataprovider for {pair}. "
|
|
f"Appending latest dataprovider candle to historical data "
|
|
"but please be aware that there is likely a gap in the historical "
|
|
"data. \n"
|
|
f"Historical data ends at {hist_df.iloc[-1]['date']} "
|
|
f"while dataprovider starts at {df_dp['date'].iloc[0]} and"
|
|
f"ends at {df_dp['date'].iloc[0]}."
|
|
)
|
|
|
|
history_data[pair][tf] = pd.concat(
|
|
[
|
|
hist_df,
|
|
df_dp.iloc[index:],
|
|
],
|
|
ignore_index=True,
|
|
axis=0,
|
|
)
|
|
|
|
self.current_candle = history_data[dk.pair][self.config['timeframe']].iloc[-1]['date']
|
|
|
|
def load_all_pair_histories(self, timerange: TimeRange, dk: FreqaiDataKitchen) -> None:
|
|
"""
|
|
Load pair histories for all whitelist and corr_pairlist pairs.
|
|
Only called once upon startup of bot.
|
|
:param timerange: TimeRange = full timerange required to populate all indicators
|
|
for training according to user defined train_period_days
|
|
"""
|
|
history_data = self.historic_data
|
|
|
|
for pair in dk.all_pairs:
|
|
if pair not in history_data:
|
|
history_data[pair] = {}
|
|
for tf in self.freqai_info["feature_parameters"].get("include_timeframes"):
|
|
history_data[pair][tf] = load_pair_history(
|
|
datadir=self.config["datadir"],
|
|
timeframe=tf,
|
|
pair=pair,
|
|
timerange=timerange,
|
|
data_format=self.config.get("dataformat_ohlcv", "json"),
|
|
candle_type=self.config.get("trading_mode", "spot"),
|
|
)
|
|
|
|
def get_base_and_corr_dataframes(
|
|
self, timerange: TimeRange, pair: str, dk: FreqaiDataKitchen
|
|
) -> Tuple[Dict[Any, Any], Dict[Any, Any]]:
|
|
"""
|
|
Searches through our historic_data in memory and returns the dataframes relevant
|
|
to the present pair.
|
|
:param timerange: TimeRange = full timerange required to populate all indicators
|
|
for training according to user defined train_period_days
|
|
:param metadata: dict = strategy furnished pair metadata
|
|
"""
|
|
with self.history_lock:
|
|
corr_dataframes: Dict[Any, Any] = {}
|
|
base_dataframes: Dict[Any, Any] = {}
|
|
historic_data = self.historic_data
|
|
pairs = self.freqai_info["feature_parameters"].get(
|
|
"include_corr_pairlist", []
|
|
)
|
|
|
|
for tf in self.freqai_info["feature_parameters"].get("include_timeframes"):
|
|
base_dataframes[tf] = dk.slice_dataframe(
|
|
timerange, historic_data[pair][tf]).reset_index(drop=True)
|
|
if pairs:
|
|
for p in pairs:
|
|
if pair in p:
|
|
continue # dont repeat anything from whitelist
|
|
if p not in corr_dataframes:
|
|
corr_dataframes[p] = {}
|
|
corr_dataframes[p][tf] = dk.slice_dataframe(
|
|
timerange, historic_data[p][tf]
|
|
).reset_index(drop=True)
|
|
|
|
return corr_dataframes, base_dataframes
|
|
|
|
def get_timerange_from_live_historic_predictions(self) -> TimeRange:
|
|
"""
|
|
Returns timerange information based on historic predictions file
|
|
:return: timerange calculated from saved live data
|
|
"""
|
|
if not self.historic_predictions_path.is_file():
|
|
raise OperationalException(
|
|
'Historic predictions not found. Historic predictions data is required '
|
|
'to run backtest with the freqai-backtest-live-models option '
|
|
)
|
|
|
|
self.load_historic_predictions_from_disk()
|
|
|
|
all_pairs_end_dates = []
|
|
for pair in self.historic_predictions:
|
|
pair_historic_data = self.historic_predictions[pair]
|
|
all_pairs_end_dates.append(pair_historic_data.date_pred.max())
|
|
|
|
global_metadata = self.load_global_metadata_from_disk()
|
|
start_date = datetime.fromtimestamp(int(global_metadata["start_dry_live_date"]))
|
|
end_date = max(all_pairs_end_dates)
|
|
# add 1 day to string timerange to ensure BT module will load all dataframe data
|
|
end_date = end_date + timedelta(days=1)
|
|
backtesting_timerange = TimeRange(
|
|
'date', 'date', int(start_date.timestamp()), int(end_date.timestamp())
|
|
)
|
|
return backtesting_timerange
|