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| import pandas as pd | |
| from sklearn.model_selection import train_test_split | |
| from sklearn.linear_model import LinearRegression | |
| from sklearn.metrics import mean_squared_error, r2_score | |
| from sklearn.pipeline import Pipeline | |
| from sklearn.compose import ColumnTransformer | |
| from sklearn.preprocessing import StandardScaler, OneHotEncoder | |
| import streamlit as st | |
| df = pd.read_excel("./cars.xls") | |
| x = df.drop("Price", axis=1) | |
| y = df[["Price"]] | |
| x_train, x_test, y_train, y_test = train_test_split(x,y,test_size=20, random_state=42) | |
| preprocessor = ColumnTransformer( | |
| transformers= [ | |
| ("num", StandardScaler(),["Mileage", "Cylinder", "Liter", "Doors"]), | |
| ("cat", OneHotEncoder(), ["Make", "Model", "Trim", "Type"]) | |
| ] | |
| ) | |
| model = LinearRegression() | |
| pipeline = Pipeline(steps=[ | |
| ("preprocessor", preprocessor), | |
| ("regressor", model) | |
| ]) | |
| pipeline.fit(x_train, y_train) | |
| pred = pipeline.predict(x_test) | |
| rmse = mean_squared_error(pred, y_test)**.5 | |
| r2 = r2_score(pred, y_test) | |
| def price_pred(make,model,trim,mileage,car_type,cylinder,liter,doors,cruise,sound,leather): | |
| input_data = pd.DataFrame({ | |
| "Make": [make], | |
| "Model": [model], | |
| "Trim": [trim], | |
| "Mileage": [mileage], | |
| "Type": [car_type], | |
| "Cylinder": [cylinder], | |
| "Liter": [liter], | |
| "Doors": [doors], | |
| "Cruise": [cruise], | |
| "Sound": [sound], | |
| "Leather": [leather], | |
| }) | |
| prediction = pipeline.predict(input_data)[0] | |
| return prediction | |
| def main(): | |
| st.title("MLOps Car Price Prediction :red_car:") | |
| st.write("Enter Car Details to predict the price") | |
| make = st.selectbox("Model", df["Make"].unique()) | |
| model = st.selectbox("Model", df[df["Make"] == make]["Model"].unique()) | |
| trim = st.selectbox("Trim", df[(df["Make"] == make) & (df["Model"] == model)]["Trim"].unique()) | |
| mileage = st.number_input("Mileage", 200, 60000) | |
| car_type = st.selectbox("Type", df["Type"].unique()) | |
| cylinder = st.selectbox("Cylinder", df["Cylinder"].unique()) | |
| liter = st.number_input("Liter", 1, 6) | |
| doors = st.selectbox("Doors", df["Doors"].unique()) | |
| cruise = st.radio("Cruise", [0,1]) | |
| sound = st.radio("Sound", [0,1]) | |
| leather = st.radio("Leather", [0,1]) | |
| if st.button("Predict"): | |
| price = price_pred(make,model,trim,mileage,car_type,cylinder,liter,doors,cruise,sound,leather) | |
| st.write(price) | |
| price = float(price) | |
| st.write(f"The predicted price is : ${price:.2f}") | |
| if __name__ == "__main__": | |
| main() | |
| # make = st.selectbox("Make", df["Make"].unique()) | |
| # model = st.selectbox("Model", df[df["Make"]==make]["Model"].unique()) | |
| # trim = st.selectbox("Trim", df[df["Model"]==model]["Trim"].unique()) | |