import copy import pandas as pd from skopt.space import Integer, Real from evalml.model_family import ModelFamily from evalml.pipelines.components.estimators import Estimator from evalml.problem_types import ProblemTypes from evalml.utils import SEED_BOUNDS, get_random_seed, import_or_raise [docs]class CatBoostRegressor(Estimator): """ CatBoost Regressor, a regressor that uses gradient-boosting on decision trees. CatBoost is an open-source library and natively supports categorical features. For more information, check out https://catboost.ai/ """ name = "CatBoost Regressor" hyperparameter_ranges = { "n_estimators": Integer(10, 1000), "eta": Real(0.000001, 1), "max_depth": Integer(1, 16), } model_family = ModelFamily.CATBOOST supported_problem_types = [ProblemTypes.REGRESSION] SEED_MIN = 0 SEED_MAX = SEED_BOUNDS.max_bound [docs] def __init__(self, n_estimators=1000, eta=0.03, max_depth=6, bootstrap_type=None, random_state=0, **kwargs): random_seed = get_random_seed(random_state, self.SEED_MIN, self.SEED_MAX) parameters = {"n_estimators": n_estimators, "eta": eta, "max_depth": max_depth, 'bootstrap_type': bootstrap_type} parameters.update(kwargs) cb_error_msg = "catboost is not installed. Please install using `pip install catboost.`" catboost = import_or_raise("catboost", error_msg=cb_error_msg) # catboost will choose an intelligent default for bootstrap_type, so only set if provided cb_parameters = copy.copy(parameters) if bootstrap_type is None: cb_parameters.pop('bootstrap_type') cb_regressor = catboost.CatBoostRegressor(**cb_parameters, random_seed=random_seed, silent=True, allow_writing_files=False) super().__init__(parameters=parameters, component_obj=cb_regressor, random_state=random_state) [docs] def fit(self, X, y=None): """Build a model Arguments: X (pd.DataFrame or np.array): the input training data of shape [n_samples, n_features] y (pd.Series): the target training labels of length [n_samples] Returns: self """ if not isinstance(X, pd.DataFrame): X = pd.DataFrame(X) if not isinstance(y, pd.Series): y = pd.Series(y) cat_cols = X.select_dtypes(['object', 'category']) model = self._component_obj.fit(X, y, silent=True, cat_features=cat_cols) return model @property def feature_importance(self): return self._component_obj.get_feature_importance()