import gradio as gr import hopsworks import joblib import pandas as pd import matplotlib.pyplot as plt import numpy as np project = hopsworks.login(project="SonyaStern_Lab1") fs = project.get_feature_store() print("trying to dl model") mr = project.get_model_registry() model = mr.get_model("diabetes_model", version=1) model_dir = model.download() model = joblib.load(model_dir + "/diabetes_model.pkl") print("Model downloaded") diabetes_fg = fs.get_feature_group(name="diabetes_gan", version=1) query = diabetes_fg.select_all() # feature_view = fs.get_or_create_feature_view(name="diabetes", feature_view = fs.get_or_create_feature_view( name="diabetes_gan", version=1, description="Read from Diabetes dataset", labels=["diabetes"], query=query, ) diabetes_df = pd.DataFrame(diabetes_fg.read()) with gr.Blocks() as demo: with gr.Row(): gr.HTML(value="

Diabetes prediction

") with gr.Row(): with gr.Column(): age_input = gr.Number(label="age") bmi_input = gr.Slider(10, 100, label="bmi", info="Body Mass Index") hba1c_input = gr.Slider( 3.5, 9, label="hba1c_level", info="Glycated Haemoglobin" ) blood_glucose_input = gr.Slider( 80, 300, label="blood_glucose_level", info="Blood Glucose Level" ) existent_info_input = gr.Radio( ["yes", "no", "Don't know"], label="Do you already know if you have diabetes? (This will not be used for the prediction)", ) consent_input = gr.Checkbox( info="I consent that my personal data will be saved and potentially be used for the model training", label="accept", ) btn = gr.Button("Submit") with gr.Column(): output = gr.Text(label="Model prediction") plot = gr.Plot() def submit_inputs( age_input, bmi_input, hba1c_input, blood_glucose_input, existent_info_input, consent_input, ): df = pd.DataFrame( [[age_input, bmi_input, hba1c_input, blood_glucose_input]], columns=["age", "bmi", "hba1c_level", "blood_glucose_level"], ) res = model.predict(df) mean_for_age = diabetes_df[ (diabetes_df["diabetes"] == 0) & (diabetes_df["age"] == age_input) ].mean() print( "your bmi is:", bmi_input, "the mean for ur age is :", mean_for_age["bmi"] ) categories = ["BMI", "HbA1c", "Blood Level"] fig, ax = plt.subplots() bar_width = 0.35 indices = np.arange(len(categories)) ax.bar( indices, [ mean_for_age.bmi, mean_for_age.hba1c_level, mean_for_age.blood_glucose_level, ], bar_width, label="Reference", color="b", alpha=0.7, ) ax.bar( indices + bar_width, [bmi_input, hba1c_input, blood_glucose_input], bar_width, label="User", color="r", alpha=0.7, ) ax.legend() ax.set_xlabel("Variables") ax.set_ylabel("Values") ax.set_title("Comparison with Mean values for your age") ax.set_xticks(indices + bar_width / 2) ax.set_xticklabels(categories) ## save user's data in hopsworks if consent_input == True: user_data_fg = fs.get_or_create_feature_view( name="user_diabetes_data", version=1, primary_key=["age", "bmi", "hba1c_level", "blood_glucose_level"], description="Submitted user data", ) user_data_df = df.copy() user_data_df["diabetes"] = existent_info_input user_data_fg.insert(user_data_df) print("inserted new user data to hopsworks", user_data_df) return res, fig btn.click( submit_inputs, inputs=[ age_input, bmi_input, hba1c_input, blood_glucose_input, existent_info_input, consent_input, ], outputs=[output, plot], ) demo.launch()