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ACS_Prediction / app.py

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	import pickle
	import pandas as pd
	import sklearn
	import gradio as gr
	import joblib


	# In[38]:


	def encode_df(df):

	# Gender
	sex_map = {"Male": 1, "Female": 0}
	df = df.replace({"Gender": sex_map})

	# Tipe Angina
	chestpain_map = {"Typical": 0, "Asymptomatic": 1,
	"Nonanginal": 2, "Nontypical": 3}
	df = df.replace({"Tipe_angina": chestpain_map})

	# Gula_darah_puasa
	fastingBLP_map = {"<120": 0, ">120": 1, "120": 2}
	df = df.replace({"Gula_darah_puasa": fastingBLP_map})

	# Angina_aktivitas
	exang_map = {"No": 0, "Yes": 1}
	df = df.replace({"Angina_aktivitas": exang_map})

	# Hasil_Elektrokardiografi
	recg_map = {"Normal": 0, "Abnormal Wave": 1,
	"Left Ventricular Hypertrophy": 2}
	df = df.replace({"Hasil_Elektrokardiografi": recg_map})

	# st_slope_ECG
	slope_map = {"Upsloping": 1, "Flat": 2, "Downsloping": 3}
	df = df.replace({"st_slope_ECG": slope_map})

	df = df[
	[
	"Umur",
	"Gender",
	"Tipe_angina",
	"Tekanan_darah_istirahat",
	"Kolesterol",
	"Gula_darah_puasa",
	"Hasil_Elektrokardiografi",
	"Denyut_jantung_max",
	"Angina_aktivitas",
	"st_depression_ECG",
	"st_slope_ECG",
	]
	]
	return df


	filename = 'ACS_model_random_forest.sav'

	# load the model from disk
	loaded_model = joblib.load(filename)


	# In[51]:


	def predict(Umur, Gender, Tipe_angina, Tekanan_darah_istirahat, Kolesterol,
	Gula_darah_puasa, Hasil_Elektrokardiografi,
	Denyut_jantung_max, Angina_aktivitas, st_depression_ECG, st_slope_ECG):
	df = pd.DataFrame.from_dict(
	{
	"Umur": [Umur],
	"Gender": [Gender],
	"Tipe_angina": [Tipe_angina],
	"Tekanan_darah_istirahat": [Tekanan_darah_istirahat],
	"Kolesterol": [Kolesterol],
	"Gula_darah_puasa": [Gula_darah_puasa],
	"Hasil_Elektrokardiografi": [Hasil_Elektrokardiografi],
	"Denyut_jantung_max": [Denyut_jantung_max],
	"Angina_aktivitas": [Angina_aktivitas],
	"st_depression_ECG": [st_depression_ECG],
	"st_slope_ECG": [st_slope_ECG],
	}
	)

	df = encode_df(df)
	pred = loaded_model.predict_proba(df)[0]
	output = {"Possible Heart Disease": float(pred[1]),
	"Less chance of Heart Disease": float(pred[0])}

	return output


	title = "Interactive Demonstration for ACS Prediction System"
	des = '''This model predicts the possibility of a Acute Coronary Syndrome using a hybrid sampling SMOTE-TOMEK with Random Forest Algorithm model that achieved an high accuracy of 85%'''
	article = "<p style='text-align: center'><a href='https://www.linkedin.com/in/m-afif-rizky-a-a96048182/'>Created by @Vrooh933 Production</a> \| <a href='https://github.com/afifrizkyandika11551100310'>GitHub Profile</a>"

	demo = gr.Interface(predict,
	[gr.Slider(0, 88, value=25, label='Umur'),
	gr.Radio(["Male", "Female"], label='Gender'),
	gr.Dropdown(["Typical", "Asymptomatic", "Nonanginal",
	"Nontypical"], label="Tipe_angina"),

	gr.Slider(0, 200, value=125,
	label='Tekanan_darah_istirahat'),
	gr.Slider(0, 603, value=50, label='Kolesterol'),
	gr.Radio(["<120", ">120", '120'],
	label='Gula_darah_puasa'),
	gr.Dropdown(["Normal", "Abnormal Wave", "Left Ventricular Hypertrophy"],
	label='Hasil_Elektrokardiografi'),
	gr.Number(value=100, label='Denyut_jantung_max'),
	gr.Dropdown(["No", "Yes"], label='Angina_aktivitas'),
	gr.Slider(-2.6, 6.2, value=3.1,
	label='st_depression_ECG'),
	gr.Radio(["Upsloping", "Flat", "Downsloping"],
	label='st_slope_ECG'),
	], "label",
	examples=[[37, 'Male', 'Typical', 89, 276, '>120', "Left Ventricular Hypertrophy", 150, 'No', 2.3, 'Downsloping', 0, 'Fixed'],
	[63, 'Male', 'Typical', 50, 100, '<120', "Abnormal Wave",
	90, 'No', 1.0, 'Downsloping', 1, 'Reversable'],
	[58, 'Female', 'Asymptomatic', 70, 500, '>120',
	"Normal", 111, 'Yes', 0.8, 'Flat', 0, 'Normal']
	],
	title=title,
	description=des,
	article=article,
	live=True,
	)


	# In[53]:


	if __name__ == "__main__":
	demo.launch()