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303 lines
10 KiB
Python
303 lines
10 KiB
Python
"""
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Functions to convert data from one format to another
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"""
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import logging
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from typing import Dict
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import numpy as np
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import pandas as pd
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from pandas import DataFrame, to_datetime
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from freqtrade.constants import DEFAULT_DATAFRAME_COLUMNS, Config
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from freqtrade.enums import CandleType, TradingMode
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logger = logging.getLogger(__name__)
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def ohlcv_to_dataframe(
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ohlcv: list,
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timeframe: str,
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pair: str,
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*,
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fill_missing: bool = True,
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drop_incomplete: bool = True,
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) -> DataFrame:
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"""
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Converts a list with candle (OHLCV) data (in format returned by ccxt.fetch_ohlcv)
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to a Dataframe
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:param ohlcv: list with candle (OHLCV) data, as returned by exchange.async_get_candle_history
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:param timeframe: timeframe (e.g. 5m). Used to fill up eventual missing data
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:param pair: Pair this data is for (used to warn if fillup was necessary)
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:param fill_missing: fill up missing candles with 0 candles
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(see ohlcv_fill_up_missing_data for details)
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:param drop_incomplete: Drop the last candle of the dataframe, assuming it's incomplete
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:return: DataFrame
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"""
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logger.debug(f"Converting candle (OHLCV) data to dataframe for pair {pair}.")
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cols = DEFAULT_DATAFRAME_COLUMNS
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df = DataFrame(ohlcv, columns=cols)
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df["date"] = to_datetime(df["date"], unit="ms", utc=True)
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# Some exchanges return int values for Volume and even for OHLC.
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# Convert them since TA-LIB indicators used in the strategy assume floats
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# and fail with exception...
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df = df.astype(
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dtype={
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"open": "float",
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"high": "float",
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"low": "float",
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"close": "float",
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"volume": "float",
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}
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)
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return clean_ohlcv_dataframe(
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df, timeframe, pair, fill_missing=fill_missing, drop_incomplete=drop_incomplete
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)
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def clean_ohlcv_dataframe(
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data: DataFrame, timeframe: str, pair: str, *, fill_missing: bool, drop_incomplete: bool
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) -> DataFrame:
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"""
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Cleanse a OHLCV dataframe by
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* Grouping it by date (removes duplicate tics)
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* dropping last candles if requested
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* Filling up missing data (if requested)
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:param data: DataFrame containing candle (OHLCV) data.
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:param timeframe: timeframe (e.g. 5m). Used to fill up eventual missing data
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:param pair: Pair this data is for (used to warn if fillup was necessary)
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:param fill_missing: fill up missing candles with 0 candles
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(see ohlcv_fill_up_missing_data for details)
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:param drop_incomplete: Drop the last candle of the dataframe, assuming it's incomplete
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:return: DataFrame
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"""
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# group by index and aggregate results to eliminate duplicate ticks
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data = data.groupby(by="date", as_index=False, sort=True).agg(
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{
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"open": "first",
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"high": "max",
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"low": "min",
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"close": "last",
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"volume": "max",
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}
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)
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# eliminate partial candle
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if drop_incomplete:
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data.drop(data.tail(1).index, inplace=True)
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logger.debug("Dropping last candle")
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if fill_missing:
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return ohlcv_fill_up_missing_data(data, timeframe, pair)
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else:
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return data
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def ohlcv_fill_up_missing_data(dataframe: DataFrame, timeframe: str, pair: str) -> DataFrame:
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"""
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Fills up missing data with 0 volume rows,
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using the previous close as price for "open", "high", "low" and "close", volume is set to 0
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"""
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from freqtrade.exchange import timeframe_to_resample_freq
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ohlcv_dict = {"open": "first", "high": "max", "low": "min", "close": "last", "volume": "sum"}
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resample_interval = timeframe_to_resample_freq(timeframe)
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# Resample to create "NAN" values
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df = dataframe.resample(resample_interval, on="date").agg(ohlcv_dict)
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# Forwardfill close for missing columns
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df["close"] = df["close"].ffill()
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# Use close for "open, high, low"
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df.loc[:, ["open", "high", "low"]] = df[["open", "high", "low"]].fillna(
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value={
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"open": df["close"],
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"high": df["close"],
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"low": df["close"],
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}
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)
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df.reset_index(inplace=True)
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len_before = len(dataframe)
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len_after = len(df)
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pct_missing = (len_after - len_before) / len_before if len_before > 0 else 0
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if len_before != len_after:
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message = (
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f"Missing data fillup for {pair}, {timeframe}: "
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f"before: {len_before} - after: {len_after} - {pct_missing:.2%}"
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)
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if pct_missing > 0.01:
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logger.info(message)
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else:
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# Don't be verbose if only a small amount is missing
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logger.debug(message)
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return df
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def trim_dataframe(
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df: DataFrame, timerange, *, df_date_col: str = "date", startup_candles: int = 0
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) -> DataFrame:
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"""
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Trim dataframe based on given timerange
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:param df: Dataframe to trim
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:param timerange: timerange (use start and end date if available)
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:param df_date_col: Column in the dataframe to use as Date column
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:param startup_candles: When not 0, is used instead the timerange start date
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:return: trimmed dataframe
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"""
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if startup_candles:
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# Trim candles instead of timeframe in case of given startup_candle count
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df = df.iloc[startup_candles:, :]
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else:
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if timerange.starttype == "date":
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df = df.loc[df[df_date_col] >= timerange.startdt, :]
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if timerange.stoptype == "date":
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df = df.loc[df[df_date_col] <= timerange.stopdt, :]
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return df
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def trim_dataframes(
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preprocessed: Dict[str, DataFrame], timerange, startup_candles: int
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) -> Dict[str, DataFrame]:
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"""
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Trim startup period from analyzed dataframes
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:param preprocessed: Dict of pair: dataframe
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:param timerange: timerange (use start and end date if available)
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:param startup_candles: Startup-candles that should be removed
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:return: Dict of trimmed dataframes
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"""
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processed: Dict[str, DataFrame] = {}
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for pair, df in preprocessed.items():
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trimed_df = trim_dataframe(df, timerange, startup_candles=startup_candles)
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if not trimed_df.empty:
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processed[pair] = trimed_df
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else:
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logger.warning(
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f"{pair} has no data left after adjusting for startup candles, skipping."
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)
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return processed
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def order_book_to_dataframe(bids: list, asks: list) -> DataFrame:
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"""
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TODO: This should get a dedicated test
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Gets order book list, returns dataframe with below format per suggested by creslin
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-------------------------------------------------------------------
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b_sum b_size bids asks a_size a_sum
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-------------------------------------------------------------------
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"""
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cols = ["bids", "b_size"]
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bids_frame = DataFrame(bids, columns=cols)
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# add cumulative sum column
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bids_frame["b_sum"] = bids_frame["b_size"].cumsum()
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cols2 = ["asks", "a_size"]
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asks_frame = DataFrame(asks, columns=cols2)
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# add cumulative sum column
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asks_frame["a_sum"] = asks_frame["a_size"].cumsum()
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frame = pd.concat(
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[
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bids_frame["b_sum"],
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bids_frame["b_size"],
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bids_frame["bids"],
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asks_frame["asks"],
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asks_frame["a_size"],
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asks_frame["a_sum"],
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],
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axis=1,
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keys=["b_sum", "b_size", "bids", "asks", "a_size", "a_sum"],
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)
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# logger.info('order book %s', frame )
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return frame
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def convert_ohlcv_format(
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config: Config,
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convert_from: str,
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convert_to: str,
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erase: bool,
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):
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"""
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Convert OHLCV from one format to another
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:param config: Config dictionary
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:param convert_from: Source format
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:param convert_to: Target format
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:param erase: Erase source data (does not apply if source and target format are identical)
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"""
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from freqtrade.data.history import get_datahandler
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src = get_datahandler(config["datadir"], convert_from)
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trg = get_datahandler(config["datadir"], convert_to)
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timeframes = config.get("timeframes", [config.get("timeframe")])
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logger.info(f"Converting candle (OHLCV) for timeframe {timeframes}")
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candle_types = [
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CandleType.from_string(ct)
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for ct in config.get("candle_types", [c.value for c in CandleType])
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]
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logger.info(candle_types)
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paircombs = src.ohlcv_get_available_data(config["datadir"], TradingMode.SPOT)
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paircombs.extend(src.ohlcv_get_available_data(config["datadir"], TradingMode.FUTURES))
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if "pairs" in config:
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# Filter pairs
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paircombs = [comb for comb in paircombs if comb[0] in config["pairs"]]
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if "timeframes" in config:
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paircombs = [comb for comb in paircombs if comb[1] in config["timeframes"]]
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paircombs = [comb for comb in paircombs if comb[2] in candle_types]
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paircombs = sorted(paircombs, key=lambda x: (x[0], x[1], x[2].value))
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formatted_paircombs = "\n".join(
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[f"{pair}, {timeframe}, {candle_type}" for pair, timeframe, candle_type in paircombs]
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)
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logger.info(
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f"Converting candle (OHLCV) data for the following pair combinations:\n"
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f"{formatted_paircombs}"
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)
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for pair, timeframe, candle_type in paircombs:
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data = src.ohlcv_load(
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pair=pair,
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timeframe=timeframe,
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timerange=None,
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fill_missing=False,
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drop_incomplete=False,
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startup_candles=0,
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candle_type=candle_type,
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)
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logger.info(f"Converting {len(data)} {timeframe} {candle_type} candles for {pair}")
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if len(data) > 0:
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trg.ohlcv_store(pair=pair, timeframe=timeframe, data=data, candle_type=candle_type)
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if erase and convert_from != convert_to:
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logger.info(f"Deleting source data for {pair} / {timeframe}")
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src.ohlcv_purge(pair=pair, timeframe=timeframe, candle_type=candle_type)
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def reduce_dataframe_footprint(df: DataFrame) -> DataFrame:
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"""
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Ensure all values are float32 in the incoming dataframe.
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:param df: Dataframe to be converted to float/int 32s
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:return: Dataframe converted to float/int 32s
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"""
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logger.debug(f"Memory usage of dataframe is {df.memory_usage().sum() / 1024**2:.2f} MB")
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df_dtypes = df.dtypes
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for column, dtype in df_dtypes.items():
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if column in ["open", "high", "low", "close", "volume"]:
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continue
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if dtype == np.float64:
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df_dtypes[column] = np.float32
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elif dtype == np.int64:
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df_dtypes[column] = np.int32
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df = df.astype(df_dtypes)
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logger.debug(f"Memory usage after optimization is: {df.memory_usage().sum() / 1024**2:.2f} MB")
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return df
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