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import streamlit as st
import torch
from transformers import BertConfig, BertForSequenceClassification, BertTokenizer
import numpy as np
# Load the model and tokenizer
def load_model():
tokenizer = BertTokenizer.from_pretrained('beomi/kcbert-base')
config = BertConfig.from_pretrained('beomi/kcbert-base', num_labels=7)
model = BertForSequenceClassification.from_pretrained('beomi/kcbert-base', config=config)
model_state_dict = torch.load('sentiment7_model_acc8878.pth', map_location=torch.device('cpu')) # cpu μ¬μ©
model.load_state_dict(model_state_dict)
model.eval()
return model, tokenizer
model, tokenizer = load_model()
# Define the inference function
def inference(input_doc):
inputs = tokenizer(input_doc, return_tensors='pt')
outputs = model(**inputs)
probs = torch.softmax(outputs.logits, dim=1).squeeze().tolist()
class_idx = {'곡ν¬': 0, 'λλ': 1, 'λΆλ
Έ': 2, 'μ¬ν': 3, 'μ€λ¦½': 4, 'ν볡': 5, 'νμ€': 6}
results = {class_name: prob for class_name, prob in zip(class_idx, probs)}
# Find the class with the highest probability
max_prob_class = max(results, key=results.get)
max_prob = results[max_prob_class]
# Display results
return [results, f"κ°μ₯ κ°νκ² λνλ κ°μ : {max_prob_class}"]
''' for class_name, prob in results.items():
print(f"{class_name}: {prob:.2%}")'''
# Set up the Streamlit interface
st.title('κ°μ λΆμ(Sentiment Analysis)')
st.markdown('<small style="color:grey;">κΈμ λνλ 곡ν¬, λλ, λΆλ
Έ, μ¬ν, μ€λ¦½, ν볡, νμ€μ μ λλ₯Ό λΉμ¨λ‘ μλ €λ립λλ€.</small>', unsafe_allow_html=True)
user_input = st.text_area("μ΄ κ³³μ κΈ μ
λ ₯(100μ μ΄ν κΆμ₯):")
if st.button('μμ'):
result = inference(user_input)
st.write(result[0])
st.write(result[1])
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