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Almond_Classification

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Syauqi Nabil Tasri

Update app.py

f741fb8 verified over 1 year ago

3.04 kB

	import streamlit as st
	import pandas as pd
	import pickle

	# from huggingface_hub import login

	# # Use your Hugging Face token
	# login(token="hf_XmkhAdKiaTYaQbgMoGTYRqBFDFVAjvbTI")


	model = pickle.load(open('model (5).pkl', 'rb'))

	# from huggingface_hub import create_repo

	# # Replace 'your_model_name' with the name you want for your model
	# repo_url = create_repo(name='Almond Classification', private=False)

	st.title('Almond Classification')
	st.write('This web app classifies almonds based on your input features.')


	# # Input untuk setiap fitur
	# length_major_axis = st.number_input('Length (major axis)', min_value=269.356903, max_value=279.879883)
	# width_minor_axis = st.number_input('Width (minor axis)', min_value=176.023636, max_value=227.940628)
	# thickness_depth = st.number_input('Thickness (depth)', min_value=0.0, max_value=279.879883)
	# area = st.number_input('Area', min_value=0.0, max_value=279.879883)
	# perimeter = st.number_input('Perimeter', min_value=0.0, max_value=279.879883)
	# roundness = st.slider('Roundness', min_value=0.0, max_value=1.0, step=0.01)
	# solidity = st.slider('Solidity', min_value=0.0, max_value=1.0, step=0.01)
	# compactness = st.slider('Compactness', min_value=0.0, max_value=1.0, step=0.01)
	# aspect_ratio = st.slider('Aspect Ratio', min_value=0.0, max_value=5.0, step=0.01)
	# eccentricity = st.slider('Eccentricity', min_value=0.0, max_value=1.0, step=0.01)
	# extent = st.slider('Extent', min_value=0.0, max_value=1.0, step=0.01)
	# convex_area = st.number_input('Convex hull (convex area)', min_value=0.0, step=0.01)


	length_major_axis = st.number_input('Length (major axis)', min_value=269.356903, max_value=279.879883)
	width_minor_axis = st.number_input('Width (minor axis)', min_value=176.023636, max_value=227.940628)
	thickness_depth = st.number_input('Thickness (depth)', min_value=107.253448, max_value=127.795132)
	area = st.number_input('Area', min_value=18471.5, max_value=36683.0)
	perimeter = st.number_input('Perimeter', min_value=551.688379, max_value=887.310743)
	roundness = st.slider('Roundness', min_value=0.472718, max_value=0.643761, step=0.01)
	solidity = st.slider('Solidity', min_value=0.931800, max_value=0.973384, step=0.01)
	compactness = st.slider('Compactness', min_value=1.383965, max_value=1.764701, step=0.01)
	aspect_ratio = st.slider('Aspect Ratio', min_value=1.530231, max_value=1.705716, step=0.01)
	eccentricity = st.slider('Eccentricity', min_value=0.75693, max_value=0.81012, step=0.01)
	extent = st.slider('Extent', min_value=0.656535, max_value=0.725739, step=0.01)
	convex_area = st.number_input('Convex hull (convex area)', min_value=18068.0, max_value=36683.0, step=0.01)


	# Tombol untuk memprediksi
	if st.button('Predict'):
	input_features = [[length_major_axis, width_minor_axis, thickness_depth, area,
	perimeter, roundness, solidity, compactness, aspect_ratio,
	eccentricity, extent, convex_area]]
	prediction = model.predict(input_features)
	st.write(f'The predicted class is: {prediction[0]}')