import gradio as gr from tensorflow.keras.models import load_model # Load your trained model model = load_model("student_performance_model.h5") # Define prediction function def predict_performance(Gender, AttendanceRate, StudyHoursPerWeek, PreviousGrade, ExtracurricularActivities, ParentalSupport): # Encoding Gender (Male/Female) Gender_Male = 1 if Gender == 'Male' else 0 Gender_Female = 1 if Gender == 'Female' else 0 # One-hot encode ParentalSupport (Low/Medium/High) ParentalSupport_Low = 1 if ParentalSupport == 'Low' else 0 ParentalSupport_Medium = 1 if ParentalSupport == 'Medium' else 0 ParentalSupport_High = 1 if ParentalSupport == 'High' else 0 # ExtracurricularActivities is now numeric (0-3) # No transformation needed, it's a numeric input already # Prepare input array input_data = [ [Gender_Male, Gender_Female, AttendanceRate, StudyHoursPerWeek, PreviousGrade, ExtracurricularActivities, ParentalSupport_Low, ParentalSupport_Medium, ParentalSupport_High] ] # Predict the student's performance prediction = model.predict(input_data) return prediction[0] # Gradio interface interface = gr.Interface( fn=predict_performance, inputs=[ gr.Dropdown(choices=['Male', 'Female'], label='Gender'), gr.Number(label='Attendance Rate (%)'), gr.Number(label='Study Hours Per Week'), gr.Number(label='Previous Grade'), gr.Slider(0, 3, step=1, label='Number of Extracurricular Activities'), # Updated: Numeric slider (0-3) gr.Dropdown(choices=['Low', 'Medium', 'High'], label='Parental Support') ], outputs="text" ) # Launch the interface interface.launch()