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import pickle |
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import pandas as pd |
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import shap |
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from shap.plots._force_matplotlib import draw_additive_plot |
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import gradio as gr |
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import numpy as np |
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import matplotlib.pyplot as plt |
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loaded_model = pickle.load(open("testapp.sav", 'rb')) |
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explainer = shap.Explainer(loaded_model) |
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def main_func(Generation,Tenure,RecommendToWork,JobSatisfaction,LearningDevelopment1,WellBeing2): |
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new_row = pd.DataFrame.from_dict({'Generation':Generation,'Tenure':Tenure, |
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'RecommendToWork':RecommendToWork,'JobSatisfaction':JobSatisfaction,'LearningDevelopment1':LearningDevelopment1, |
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'WellBeing2':WellBeing2}, orient = 'index').transpose() |
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prob = loaded_model.predict_proba(new_row) |
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shap_values = explainer(new_row) |
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plot = shap.plots.bar(shap_values[0], max_display=6, order=shap.Explanation.abs, show_data='auto', show=False) |
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plt.tight_layout() |
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local_plot = plt.gcf() |
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plt.rcParams['figure.figsize'] = 6,4 |
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plt.close() |
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return {"Leave": float(prob[0][0]), "Stay": 1-float(prob[0][0])}, local_plot |
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title = "Worlds Greatest Employee Predictor of Turnover" |
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description1 = """ |
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This app takes six inputs about employees' satisfaction with different aspects of their work (such as work-life balance, ...) and predicts whether the employee intends to stay with the employer or leave. There are two outputs from the app: 1- the predicted probability of stay or leave, 2- Shapley's force-plot which visualizes the extent to which each factor impacts the stay/ leave prediction. |
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""" |
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description2 = """ |
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To use the app, click on one of the examples, or adjust the values of the six employee satisfaction factors, and click on Analyze. ✨ |
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""" |
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title = "Worlds Greatest Employee Predictor of Turnover" |
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description1 = """ |
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This app takes six inputs about employees' satisfaction with different aspects of their work (such as work-life balance, ...) and predicts whether the employee intends to stay with the employer or leave. There are two outputs from the app: 1- the predicted probability of stay or leave, 2- Shapley's force-plot which visualizes the extent to which each factor impacts the stay/ leave prediction. |
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""" |
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description2 = """ |
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To use the app, click on one of the examples, or adjust the values of the six employee satisfaction factors, and click on Analyze. |
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""" |
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with gr.Blocks(title=title) as demo: |
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gr.Markdown(f"## {title}") |
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gr.Markdown(description1) |
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gr.Markdown("""---""") |
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gr.Markdown(description2) |
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gr.Markdown("""---""") |
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with gr.Row(): |
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with gr.Column(): |
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Generation = gr.Slider(label="Generation Score", minimum=1, maximum=5, value=4, step=.1) |
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Tenure = gr.Slider(label="Tenure Score", minimum=1, maximum=5, value=4, step=.1) |
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RecommendToWork = gr.Slider(label="Recommend to Work Score", minimum=1, maximum=5, value=4, step=.1) |
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JobSatisfaction = gr.Slider(label="Job Satisfaction Score", minimum=1, maximum=5, value=4, step=.1) |
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LearningDevelopment1 = gr.Slider(label="Learning Development Score", minimum=1, maximum=5, value=4, step=.1) |
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WellBeing2 = gr.Slider(label="Well Being 2 Score", minimum=1, maximum=5, value=4, step=.1) |
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submit_btn = gr.Button("Analyze") |
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with gr.Column(visible=True,scale=1, min_width=600) as output_col: |
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label = gr.Label(label = "Predicted Label") |
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local_plot = gr.Plot(label = 'Shap:') |
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submit_btn.click( |
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main_func, |
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[Generation,Tenure,RecommendToWork,JobSatisfaction,LearningDevelopment1,WellBeing2], |
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[label,local_plot], api_name="Employee_Turnover" |
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) |
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gr.Markdown("### Click on any of the examples below to see how it works:") |
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gr.Examples([[4,4,4,4,5,5], [5,4,5,4,4,4]], |
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[Generation,Tenure,RecommendToWork,JobSatisfaction,LearningDevelopment1,WellBeing2], |
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[label,local_plot], main_func, cache_examples=True) |
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demo.launch(share=True) |
