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import pandas as pd |
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import joblib |
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from sklearn.datasets import fetch_openml |
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from sklearn.preprocessing import StandardScaler, OneHotEncoder |
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from sklearn.compose import make_column_transformer |
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from sklearn.pipeline import make_pipeline |
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from sklearn.model_selection import train_test_split |
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from sklearn.linear_model import LinearRegression |
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from sklearn.metrics import mean_squared_error, r2_score |
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data_df = pd.read_csv("insurance.csv") |
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target = 'charges' |
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numeric_features = ['age', 'bmi', 'children'] |
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categorical_features = ['sex', 'smoker','region'] |
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print("Creating data subsets") |
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X = data_df[numeric_features + categorical_features] |
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y = data_df[target] |
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Xtrain, Xtest, ytrain, ytest = train_test_split( |
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X, y, |
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test_size=0.2, |
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random_state=42 |
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) |
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preprocessor = make_column_transformer( |
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(StandardScaler(), numeric_features), |
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(OneHotEncoder(handle_unknown='ignore'), categorical_features) |
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) |
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model_linear_regression = LinearRegression(n_jobs=-1) |
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print("Estimating Model Pipeline") |
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model_pipeline = make_pipeline( |
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preprocessor, |
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model_linear_regression |
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) |
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model_pipeline.fit(Xtrain, ytrain) |
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print("Logging Metrics") |
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print(f"R-squared: {r2_score(ytest, model_pipeline.predict(Xtest))}") |
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print("Serializing Model") |
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saved_model_path = "model.joblib" |
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joblib.dump(model_pipeline, saved_model_path) |
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