Source code for evalml.pipelines.components.estimators.regressors.baseline_regressor

import numpy as np
import pandas as pd

from evalml.model_family import ModelFamily
from evalml.pipelines.components.estimators import Estimator
from evalml.problem_types import ProblemTypes



[docs]class BaselineRegressor(Estimator):
    """Regressor that predicts using the specified strategy.

    This is useful as a simple baseline regressor to compare with other regressors.
    """
    name = "Baseline Regressor"
    hyperparameter_ranges = {}
    model_family = ModelFamily.BASELINE
    supported_problem_types = [ProblemTypes.REGRESSION]


[docs]    def __init__(self, strategy="mean", random_state=0, **kwargs):
        """Baseline regressor that uses a simple strategy to make predictions.

        Arguments:
            strategy (str): method used to predict. Valid options are "mean", "median". Defaults to "mean".
            random_state (int, np.random.RandomState): seed for the random number generator

        """
        if strategy not in ["mean", "median"]:
            raise ValueError("'strategy' parameter must equal either 'mean' or 'median'")
        parameters = {"strategy": strategy}
        parameters.update(kwargs)

        self._prediction_value = None
        self._num_features = None
        super().__init__(parameters=parameters,
                         component_obj=None,
                         random_state=random_state)



[docs]    def fit(self, X, y=None):
        if y is None:
            raise ValueError("Cannot fit Baseline regressor if y is None")

        if not isinstance(y, pd.Series):
            y = pd.Series(y)

        if self.parameters["strategy"] == "mean":
            self._prediction_value = y.mean()
        elif self.parameters["strategy"] == "median":
            self._prediction_value = y.median()
        self._num_features = X.shape[1]
        return self


    def _check_fitted(self):
        if self._prediction_value is None:
            raise RuntimeError("You must fit Baseline classifier before calling predict!")


[docs]    def predict(self, X):
        self._check_fitted()
        return pd.Series([self._prediction_value] * len(X))


    @property
    def feature_importance(self):
        """Returns importance associated with each feature. Since baseline regressors do not use input features to calculate predictions, returns an array of zeroes.

        Returns:
            np.array (float) : an array of zeroes

        """
        if self._num_features is None:
            raise RuntimeError("You must fit Baseline regressor before accessing feature_importance!")
        return np.zeros(self._num_features)