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import transformers
import re
from transformers import AutoConfig, AutoTokenizer, AutoModel, AutoModelForCausalLM, pipeline
import torch
import gradio as gr
import json
import os
import shutil
import requests
import pandas as pd
# Define the device
device = "cuda" if torch.cuda.is_available() else "cpu"
editorial_model = "PleIAs/Estienne"
token_classifier = pipeline(
"token-classification", model=editorial_model, aggregation_strategy="simple", device=device
)
tokenizer = AutoTokenizer.from_pretrained(editorial_model, model_max_length=512)
css = """
<style>
.manuscript {
display: flex;
margin-bottom: 10px;
align-items: baseline;
}
.annotation {
width: 15%;
padding-right: 20px;
color: grey !important;
font-style: italic;
text-align: right;
}
.content {
width: 80%;
}
h2 {
margin: 0;
font-size: 1.5em;
}
.title-content h2 {
font-weight: bold;
}
.bibliography-content {
color:darkgreen !important;
margin-top: -5px; /* Adjust if needed to align with annotation */
}
.paratext-content {
color:#a4a4a4 !important;
margin-top: -5px; /* Adjust if needed to align with annotation */
}
</style>
"""
# Preprocess the 'word' column
def preprocess_text(text):
# Remove HTML tags
text = re.sub(r'<[^>]+>', '', text)
# Replace newlines with spaces
text = re.sub(r'\n', ' ', text)
# Replace multiple spaces with a single space
text = re.sub(r'\s+', ' ', text)
# Strip leading and trailing whitespace
return text.strip()
def split_text(text, max_tokens=500):
# Split the text by newline characters
parts = text.split("\n")
chunks = []
current_chunk = ""
for part in parts:
# Add part to current chunk
if current_chunk:
temp_chunk = current_chunk + "\n" + part
else:
temp_chunk = part
# Tokenize the temporary chunk
num_tokens = len(tokenizer.tokenize(temp_chunk))
if num_tokens <= max_tokens:
current_chunk = temp_chunk
else:
if current_chunk:
chunks.append(current_chunk)
current_chunk = part
if current_chunk:
chunks.append(current_chunk)
# If no newlines were found and still exceeding max_tokens, split further
if len(chunks) == 1 and len(tokenizer.tokenize(chunks[0])) > max_tokens:
long_text = chunks[0]
chunks = []
while len(tokenizer.tokenize(long_text)) > max_tokens:
split_point = len(long_text) // 2
while split_point < len(long_text) and not re.match(r'\s', long_text[split_point]):
split_point += 1
# Ensure split_point does not go out of range
if split_point >= len(long_text):
split_point = len(long_text) - 1
chunks.append(long_text[:split_point].strip())
long_text = long_text[split_point:].strip()
if long_text:
chunks.append(long_text)
return chunks
def transform_chunks(marianne_segmentation):
marianne_segmentation = pd.DataFrame(marianne_segmentation)
marianne_segmentation = marianne_segmentation[marianne_segmentation['entity_group'] != 'separator']
marianne_segmentation['word'] = marianne_segmentation['word'].astype(str).str.replace('¶', '\n', regex=False)
marianne_segmentation['word'] = marianne_segmentation['word'].astype(str).apply(preprocess_text)
marianne_segmentation = marianne_segmentation[marianne_segmentation['word'].notna() & (marianne_segmentation['word'] != '') & (marianne_segmentation['word'] != ' ')]
html_output = []
for _, row in marianne_segmentation.iterrows():
entity_group = row['entity_group']
result_entity = "[" + entity_group.capitalize() + "]"
word = row['word']
if entity_group == 'title':
html_output.append(f'<div class="manuscript"><div class="annotation">{result_entity}</div><div class="content title-content"><h2>{word}</h2></div></div>')
elif entity_group == 'bibliography':
html_output.append(f'<div class="manuscript"><div class="annotation">{result_entity}</div><div class="content bibliography-content">{word}</div></div>')
elif entity_group == 'paratext':
html_output.append(f'<div class="manuscript"><div class="annotation">{result_entity}</div><div class="content paratext-content">{word}</div></div>')
else:
html_output.append(f'<div class="manuscript"><div class="annotation">{result_entity}</div><div class="content">{word}</div></div>')
final_html = '\n'.join(html_output)
return final_html
# Class to encapsulate the Falcon chatbot
class MistralChatBot:
def __init__(self, system_prompt="Le dialogue suivant est une conversation"):
self.system_prompt = system_prompt
def predict(self, user_message):
editorial_text = re.sub("\n", " ¶ ", user_message)
num_tokens = len(tokenizer.tokenize(editorial_text))
if num_tokens > 500:
batch_prompts = split_text(editorial_text, max_tokens=500)
else:
batch_prompts = [editorial_text]
out = token_classifier(batch_prompts)
classified_list = []
for classification in out:
df = pd.DataFrame(classification)
classified_list.append(df)
classified_list = pd.concat(classified_list)
out = transform_chunks(classified_list)
generated_text = f'{css}<h2 style="text-align:center">Edited text</h2>\n<div class="generation">{out}</div>'
return generated_text
# Create the Falcon chatbot instance
mistral_bot = MistralChatBot()
# Define the Gradio interface
title = "Éditorialisation"
description = "Un outil expérimental d'identification de la structure du texte à partir d'un encoder (Deberta)"
examples = [
[
"Qui peut bénéficier de l'AIP?", # user_message
0.7 # temperature
]
]
demo = gr.Blocks()
with gr.Blocks(theme='JohnSmith9982/small_and_pretty') as demo:
gr.HTML("""<h1 style="text-align:center">Editorialize your text</h1>""")
text_input = gr.Textbox(label="Your text", type="text", lines=1)
text_button = gr.Button("Identify editorial structures")
text_output = gr.HTML(label="Corrected text")
text_button.click(mistral_bot.predict, inputs=text_input, outputs=[text_output])
if __name__ == "__main__":
demo.queue().launch()