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Standard_Intelligence_Dev / excel_chat.py

MaksG

Update excel_chat.py

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	import gradio as gr
	from mistralai.client import MistralClient
	from mistralai.models.chat_completion import ChatMessage
	import os
	import pandas as pd
	import numpy as np


	def browse_folder(url):
	if url.lower().endswith(('docs', 'docs/')):
	return gr.update(choices=[])
	response = requests.get(url)
	response.raise_for_status() # This will raise an exception if there's an error

	soup = BeautifulSoup(response.text, 'html.parser')

	excel_links = [a['href'] + '/' for a in soup.find_all('a', href=True) if a['href'].startswith(url)]

	return gr.update(choices=excel_links)


	def chat_with_mistral(source_cols, dest_col, prompt, tdoc_name, excel_file, url):

	df = pd.read_excel(excel_file)
	api_key = os.environ["MISTRAL_API_KEY"]
	model = "mistral-small" # Use "Mistral-7B-v0.2" for "mistral-tiny"


	client = MistralClient(api_key=api_key)

	source_columns = source_cols#.split(", ") # Split input into multiple variables
	df[dest_col] = ""
	try:
	file_name = url.split("/")[-2] + ".xlsx"
	except:
	file_name = excel_file

	if tdoc_name != '':
	filtered_df = df[df['File'] == tdoc_name]
	if not filtered_df.empty:
	concatenated_content = "\n\n".join(f"{column_name}: {filtered_df[column_name].iloc[0]}" for column_name in source_columns)
	messages = [ChatMessage(role="user", content=f"Using the following content: {concatenated_content}"), ChatMessage(role="user", content=prompt)]
	chat_response = client.chat(model=model, messages=messages)
	filtered_df.loc[filtered_df.index[0], dest_col] = chat_response.choices[0].message.content
	# Update the DataFrame with the modified row
	df.update(filtered_df)
	# Write the updated DataFrame to the Excel file
	df.to_excel(file_name, index=False)
	return file_name, df.head(5)
	else:
	return file_name, df.head(5)
	else:
	for index, row in df.iterrows():
	concatenated_content = "\n\n".join(f"{column_name}: {row[column_name]}" for column_name in source_columns)
	# Check if the concatenated content is not empty
	print('test')
	if not concatenated_content == "\n\n".join(f"{column_name}: nan" for column_name in source_columns):
	print('c bon')
	messages = [ChatMessage(role="user", content=f"Using the following content: {concatenated_content}"), ChatMessage(role="user", content=prompt)]
	chat_response = client.chat(model=model, messages=messages)
	df.at[index, dest_col] = chat_response.choices[0].message.content

	df.to_excel(file_name, index=False)
	return file_name, df.head(5)


	def get_columns(file):
	if file is not None:
	df = pd.read_excel(file)
	columns = list(df.columns)
	return gr.update(choices=columns), gr.update(choices=columns), gr.update(choices=columns), gr.update(choices=columns + [""]), df.head(5)
	else:
	return gr.update(choices=[]), gr.update(choices=[]), gr.update(choices=[]), gr.update(choices=[]), pd.DataFrame()



	# Categories
	categories = [
	{
	"topic": "Confidentiality and Privacy Protection",
	"description": "This topic covers the protection of confidentiality, privacy, and integrity in security systems. It also includes authentication and authorization processes.",
	"experts": ["Mireille"]
	},
	{
	"topic": "Distributed Trust and End-User Trust Models",
	"description": "This topic focuses on distributed trust models and how end-users establish trust in secure systems.",
	"experts": ["Mireille", "Khawla"]
	},
	{
	"topic": "Secure Element and Key Provisioning",
	"description": "This topic involves the secure element in systems and the process of key provisioning.",
	"experts": ["Mireille"]
	},
	{
	"topic": "Residential Gateway Security",
	"description": "This topic covers the security aspects of Residential Gateways.",
	"experts": ["Mireille"]
	},
	{
	"topic": "Standalone Non-Public Network (SNPN) Inter-Connection and Cybersecurity",
	"description": "This topic focuses on the inter-connection of Standalone Non-Public Networks and related cyber-security topics.",
	"experts": ["Khawla"]
	},
	{
	"topic": "Distributed Ledger and Blockchain in SNPN",
	"description": "This topic covers the use of distributed ledger technology and blockchain in securing Standalone Non-Public Networks.",
	"experts": ["Khawla"]
	},
	{
	"topic": "Distributed Networks and Communication",
	"description": "This topic involves distributed networks such as mesh networks, ad-hoc networks, and multi-hop networks, and their cyber-security aspects.",
	"experts": ["Guillaume"]
	},
	{
	"topic": "Swarm of Drones and Unmanned Aerial Vehicles Network Infrastructure",
	"description": "This topic covers the network infrastructure deployed by Swarm of Drones and Unmanned Aerial Vehicles.",
	"experts": ["Guillaume"]
	},
	{
	"topic": "USIM and Over-the-Air Services",
	"description": "This topic involves USIM and related over-the-air services such as Steering of Roaming, roaming services, network selection, and UE configuration.",
	"experts": ["Vincent"]
	},
	{
	"topic": "Eco-Design and Societal Impact of Technology",
	"description": "This topic covers eco-design concepts, including energy saving, energy efficiency, carbon emissions, and the societal impact of technology.",
	"experts": ["Pierre"]
	},
	{
	"topic": "Service Requirements of New Services",
	"description": "This topic involves defining service requirements for new services, detecting low signals of new trends and technologies, and assessing their impact on USIM services or over-the-air services.",
	"experts": ["Ly-Thanh"]
	},
	{
	"topic": "Satellite and Non Terrestrial Networks",
	"description": "This topic covers satellite networks, Non Terrestrial Networks, Private Networks, IoT, Inter Satellite communication, and Radio Access Network.",
	"experts": ["Nicolas"]
	},
	{
	"topic": "Public Safety and Emergency Communication",
	"description": "This topic involves Public Safety Communication, Military Communication, Emergency Calls, Emergency Services, Disaster Communication Access, and other related areas.",
	"experts": ["Dorin"]
	}
	]