""" ====================================================== Imputing missing values before building an estimator ====================================================== This example shows that imputing the missing values can give better results than discarding the samples containing any missing value. Missing values can be replaced by the mean, the median or the most frequent value using the ``strategy`` hyper-parameter. Script output: Score with the entire dataset = 0.56 Score without the samples containing missing values = 0.48 Score after imputation of the missing values = 0.55 """ import numpy as np from sklearn.datasets import load_boston from sklearn.ensemble import RandomForestRegressor from sklearn.pipeline import Pipeline from sklearn.preprocessing import Imputer from sklearn.cross_validation import cross_val_score rng = np.random.RandomState(0) dataset = load_boston() X_full, y_full = dataset.data, dataset.target n_samples = X_full.shape[0] n_features = X_full.shape[1] # Estimate the score on the entire dataset, with no missing values estimator = RandomForestRegressor(random_state=0, n_estimators=100) score = cross_val_score(estimator, X_full, y_full).mean() print("Score with the entire dataset = %.2f" % score) # Add missing values in 75% of the lines missing_rate = 0.75 n_missing_samples = np.floor(n_samples * missing_rate) missing_samples = np.hstack((np.zeros(n_samples - n_missing_samples, dtype=np.bool), np.ones(n_missing_samples, dtype=np.bool))) rng.shuffle(missing_samples) missing_features = rng.randint(0, n_features, n_missing_samples) # Estimate the score without the lines containing missing values X_filtered = X_full[~missing_samples, :] y_filtered = y_full[~missing_samples] estimator = RandomForestRegressor(random_state=0, n_estimators=100) score = cross_val_score(estimator, X_filtered, y_filtered).mean() print("Score without the samples containing missing values = %.2f" % score) # Estimate the score after imputation of the missing values X_missing = X_full.copy() X_missing[np.where(missing_samples)[0], missing_features] = 0 y_missing = y_full.copy() estimator = Pipeline([("imputer", Imputer(missing_values=0, strategy="mean", axis=0)), ("forest", RandomForestRegressor(random_state=0, n_estimators=100))]) score = cross_val_score(estimator, X_missing, y_missing).mean() print("Score after imputation of the missing values = %.2f" % score)