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MLCF - Machine Learning Toolkit for Cryptocurrency Forecasting

Project description

MLCF - Machine Learning Toolkit for Cryptocurrency Forecasting

This library provides tools for cryptocurrency forecasting and trade decision making.
For now, the library provide only data tools, such as:

  • OHLCV file reader
  • Tools to add extern and intern indicators
  • Tools to labelize data
  • Tools to work on a set of intervals in order
  • Tools to windowed the data
  • Tools to build, save and read a dataset
  • Tools to standardize data
  • Tools to preprocess the data by filtering some windows

This library doesn't provide models or an end-to-end trade bot.

For more information, find the documentation here : https://guitheg.github.io/mlcf


Installation

OS officially supported:

  • Linux

Python version officially supported:

  • 3.7

  • 3.8

  • 3.9


Installation for Linux (python v3.7)

  • MLCF package
pip install mlcf

Installation for Linux (python v3.8, v3.9)

pip install mlcf --no-binary TA-LIB

MLCF example module usage

In this part, we will introduce some example usage of MLCF module.


File reader module

# -----------  read file ---------------------------------
from pathlib import Path
from mlcf.datatools.data_reader import (
    read_ohlcv_json_from_file,
    read_ohlcv_json_from_dir,
    read_json_file
)

# from a ohlcv json file
data = read_ohlcv_json_from_file(Path("tests/testdata/ETH_BUSD-15m.json"))

# from a directory, a pair, and a timeframe
pair = "ETH_BUSD"
tf = "15m"
data = read_ohlcv_json_from_dir(Path("tests/testdata/"), pair=pair, timeframe=tf)

# read a json file (but not necessary a OHLCV file)
data = read_json_file(Path("tests/testdata/meteo.json"), 'time', ["time", "Temperature"])

# -------------------------------------------------------

Indicator Module

# ------------------- Indicators module -----------------------------
from mlcf.indicators.add_indicators import add_intern_indicator

# you can add yoursel your own indicators or features
data["return"] = data["close"].pct_change(1)
data.dropna(inplace=True)  # make sure to drop nan values

# you can add intern indicator
data = add_intern_indicator(data, indice_name="adx")
# -------------------------------------------------------

Label Tool

# ------------------- Labelize Tool -----------------------------
from mlcf.datatools.utils import labelize

# A good practice is to take the mean and the standard deviation of the value you want to
# labelize
mean = data["return"].mean()
std = data["return"].std()

# Here you give the value you want to labelize with column='return'. The new of the labels column
# will be the name give to 'label_col_name'
data = labelize(
    data,
    column="return",
    labels=5,
    bounds=(mean-std, mean+std),
    label_col_name="label"
)

Data Intervals Module, Standardization Tools and WindowFilter Tool

# ------------------- Data Intervals Module and Standardization Tools -----------------------------
from mlcf.datatools.data_intervals import DataIntervals
from mlcf.datatools.standardize_fct import ClassicStd, MinMaxStd
from mlcf.datatools.windowing.filter import LabelBalanceFilter

# We define a dict which give us the information about what standardization apply to each columns.
std_by_features = {
    "close": ClassicStd(),
    "return": ClassicStd(with_mean=False),  # to avoid to shift we don't center
    "adx": MinMaxStd(minmax=(0, 100))  # the value observed in the adx are between 0 and 100 and we
                                       # want to set it between 0 and 1.
}
data_intervals = DataIntervals.create_data_intervals_obj(data, n_intervals=10)
data_intervals.standardize(std_by_features)

# We can apply a filter the dataset we want. Here we will filter the values in order to balance
# the histogram of return value. For this, we use the label previously process on return.
filter_by_set = {
    "train": LabelBalanceFilter("label")  # the column we will balance the data is 'label
                                          # the max count will be automatically process
}

# dict_train_val_test is a dict with the key 'train', 'val', 'test'. The value of the dict is a
# WTSeries (a windowed time series).
dict_train_val_test = data_intervals.windowing(
    window_width=30,
    window_step=1,
    selected_columns=["close", "return", "adx"],
    filter_by_dataset=filter_by_set
)
# -------------------------------------------------------

Window Iterator Tool

# -------------------- Window Iterator Tool --------------------

# If we don't want to use the Data Interval Module. We can simple use a WTSeries with our data.
from mlcf.datatools.windowing.tseries import WTSeriesLite

# To create a WTSeries from pandas.DataFrame
wtseries = WTSeriesLite.create_wtseries_lite(
    dataframe=data,
    window_width=30,
    window_step=1,
    selected_columns=["close", "return", "adx"],
    window_filter=LabelBalanceFilter("label")
)

# Or from a wtseries .h5 file:
wtseries = WTSeriesLite.read(Path("/tests/testdata/wtseries.h5"))

# We can save the wtseries as a file.
wtseries.write(Path("/tests/testdata", "wtseries"))

# we can iterate over the wtseries:
for window in wtseries:
    pass
    # Where window is a pd.Dataframe representing a window.

# -------------------------------------------------------

Forecast Window Iterator Tool

# -------------------- Forecast Window Iterator Tool --------------------

# This class allow us to iterate over a WTSeries but the iteration
# (__getitem__) give us a tuple of 2

from mlcf.datatools.windowing.forecast_iterator import WindowForecastIterator

data_train = WindowForecastIterator(
    wtseries,
    input_width=29,
    target_width=1,  # The sum of the input_width and target_width must not exceed the window width
                     # of the wtseries
    input_features=["close", "adx"],
    target_features=["return"]
)
for window in data_train:
    window_input, window_target = window
    pass
# -------------------------------------------------------

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