Metadata-Version: 2.1
Name: mlforecast
Version: 0.0.4.1
Summary: Scalable machine learning based time series forecasting
Home-page: https://github.com/Nixtla/mlforecast/tree/main/
Author: José Morales
Author-email: jmorales@grupoabraxas.com
License: Apache Software License 2.0
Description: # mlforecast
        > Scalable machine learning based time series forecasting.
        
        
        ## Install
        
        `pip install mlforecast`
        
        ### Optional dependencies
        If you want more functionality you can instead use `pip install mlforecast[extra1, extra2, ...]`. The current extra dependencies are:
        
        * **aws**: adds the functionality to use S3 as the storage in the CLI.
        * **cli**: includes the validations necessary to use the CLI.
        * **distributed**: installs `dask` to perform distributed training. Note that you'll also need to install either `lightgbm` or `xgboost`.
        
        For example, if you want to perform distributed training through the CLI using S3 as your storage you'll need all three extras, which you can get using: `pip install mlforecast[aws, cli, distributed]`.
        
        ## How to use
        
        ### Programmatic API
        
        Store your time series in a pandas dataframe with an index named **unique_id** that is the identifier of each serie, a column **ds** that contains the datestamps and a column **y** with the values.
        
        ```python
        from mlforecast.utils import generate_daily_series
        
        series = generate_daily_series(20)
        display_df(series.head())
        ```
        
        
        | unique_id   | ds                  |        y |
        |:------------|:--------------------|---------:|
        | id_00       | 2000-01-01 00:00:00 | 0.264447 |
        | id_00       | 2000-01-02 00:00:00 | 1.28402  |
        | id_00       | 2000-01-03 00:00:00 | 2.4628   |
        | id_00       | 2000-01-04 00:00:00 | 3.03552  |
        | id_00       | 2000-01-05 00:00:00 | 4.04356  |
        
        
        Then you define your flow configuration. These include lags, transformations on the lags and date features. The transformations are defined as `numba` jitted functions that transform an array. If they have additional arguments you supply a tuple (`transform_func`, `arg1`, `arg2`, ...)
        
        ```python
        from window_ops.expanding import expanding_mean
        from window_ops.rolling import rolling_mean
        
        flow_config = dict(
            lags=[7, 14],
            lag_transforms={
                1: [expanding_mean],
                7: [(rolling_mean, 7), (rolling_mean, 14)]
            },
            date_features=['dayofweek', 'month']
        )
        ```
        
        Next define a model, if you're on a single machine this can be any regressor that follows the scikit-learn API. For distributed training there are `LGBMForecast` and `XGBForecast`.
        
        ```python
        from sklearn.ensemble import RandomForestRegressor
        
        model = RandomForestRegressor()
        ```
        
        Now instantiate your forecast object with the model and the flow configuration. There are two types of forecasters, `Forecast` and `DistributedForecast`. Since this is a single machine example we'll use the first.
        
        ```python
        from mlforecast.forecast import Forecast
        
        fcst = Forecast(model, flow_config)
        ```
        
        To compute the transformations and train the model on the data you call `.fit` on your `Forecast` object.
        
        ```python
        fcst.fit(series)
        ```
        
        
        
        
            Forecast(model=RandomForestRegressor(), flow_config={'lags': [7, 14], 'lag_transforms': {1: [CPUDispatcher(<function expanding_mean at 0x7fac9f73f280>)], 7: [(CPUDispatcher(<function rolling_mean at 0x7fac9f7a8f70>), 7), (CPUDispatcher(<function rolling_mean at 0x7fac9f7a8f70>), 14)]}, 'date_features': ['dayofweek', 'month']})
        
        
        
        To get the forecasts for the next 14 days you just call `.predict(14)` on the forecaster.
        
        ```python
        predictions = fcst.predict(14)
        
        display_df(predictions.head())
        ```
        
        
        | unique_id   | ds                  |   y_pred |
        |:------------|:--------------------|---------:|
        | id_00       | 2000-08-10 00:00:00 | 5.2325   |
        | id_00       | 2000-08-11 00:00:00 | 6.26395  |
        | id_00       | 2000-08-12 00:00:00 | 0.196386 |
        | id_00       | 2000-08-13 00:00:00 | 1.25263  |
        | id_00       | 2000-08-14 00:00:00 | 2.2988   |
        
        
        ### CLI
        
        If you're looking for computing quick baselines, want to avoid some boilerplate or just like using CLIs better then you can use the `mlforecast` binary with a configuration file like the following:
        
        ```python
        !cat sample_configs/local.yaml
        ```
        
            data:
              prefix: data
              input: train
              output: outputs
              format: parquet
            features:
              freq: D
              lags: [7, 14]
              lag_transforms:
                1: 
                - expanding_mean
                7: 
                - rolling_mean:
                    window_size: 7
                - rolling_min:
                    window_size: 7
              date_features: ["dayofweek", "month", "year"]
              num_threads: 2
            backtest:
              n_windows: 2
              window_size: 7
            forecast:
              horizon: 7
            local:
              model:
                name: sklearn.ensemble.RandomForestRegressor
                params:
                  n_estimators: 10
                  max_depth: 7
        
        
        This will use the data in `prefix/input` and write the results to `prefix/output`.
        
        ```python
        !mlforecast sample_configs/local.yaml
        ```
        
            Split 1 MSE: 0.0240
            Split 2 MSE: 0.0187
            [0m
        
        ```python
        !ls data/outputs/
        ```
        
            forecast.parquet  valid_0.parquet  valid_1.parquet
        
        
Keywords: python forecast forecasting machine-learning dask
Platform: UNKNOWN
Classifier: Development Status :: 3 - Alpha
Classifier: Intended Audience :: Developers
Classifier: Natural Language :: English
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: License :: OSI Approved :: Apache Software License
Requires-Python: >=3.6
Description-Content-Type: text/markdown
Provides-Extra: aws
Provides-Extra: cli
Provides-Extra: distributed
