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streamlit_app.py
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streamlit_app.py
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import os, base64
from pathlib import Path
import hmac
import tempfile
import pandas as pd
import uuid
import streamlit as st
from langchain_community.vectorstores import AstraDB
from langchain_openai import OpenAIEmbeddings
from langchain_openai import ChatOpenAI
from langchain.memory import ConversationBufferWindowMemory
from langchain.memory import AstraDBChatMessageHistory
from langchain.text_splitter import RecursiveCharacterTextSplitter
from langchain_community.document_loaders import PyPDFLoader, CSVLoader, WebBaseLoader
from langchain.schema import HumanMessage, AIMessage
from langchain.prompts import ChatPromptTemplate
from langchain.schema.runnable import RunnableMap
from langchain.schema import StrOutputParser
from langchain.callbacks.base import BaseCallbackHandler
import openai
print("Started")
st.set_page_config(page_title='Your Enterprise Sidekick', page_icon='🚀')
# Get a unique session id for memory
if "session_id" not in st.session_state:
st.session_state.session_id = uuid.uuid4()
# Streaming call back handler for responses
class StreamHandler(BaseCallbackHandler):
def __init__(self, container, initial_text=""):
self.container = container
self.text = initial_text
def on_llm_new_token(self, token: str, **kwargs):
self.text += token
self.container.markdown(self.text + "▌")
###############
### Globals ###
###############
global lang_dict
global language
global rails_dict
global session
global embedding
global vectorstore
global chat_history
global memory
# RAG options
global disable_vector_store
global strategy
global prompt_type
global custom_prompt
#################
### Functions ###
#################
# Close off the app using a password
def check_password():
"""Returns `True` if the user had a correct password."""
def login_form():
"""Form with widgets to collect user information"""
with st.form("credentials"):
st.text_input('Username', key='username')
st.text_input('Password', type='password', key='password')
st.form_submit_button('Login', on_click=password_entered)
def password_entered():
"""Checks whether a password entered by the user is correct."""
if st.session_state['username'] in st.secrets['passwords'] and hmac.compare_digest(st.session_state['password'], st.secrets.passwords[st.session_state['username']]):
st.session_state['password_correct'] = True
st.session_state.user = st.session_state['username']
del st.session_state['password'] # Don't store the password.
else:
st.session_state['password_correct'] = False
# Return True if the username + password is validated.
if st.session_state.get('password_correct', False):
return True
# Show inputs for username + password.
login_form()
if "password_correct" in st.session_state:
st.error('😕 User not known or password incorrect')
return False
def logout():
for key in st.session_state.keys():
del st.session_state[key]
st.cache_resource.clear()
st.cache_data.clear()
st.rerun()
# Function for Vectorizing uploaded data into Astra DB
def vectorize_text(uploaded_files):
for uploaded_file in uploaded_files:
if uploaded_file is not None:
# Write to temporary file
temp_dir = tempfile.TemporaryDirectory()
file = uploaded_file
print(f"""Processing: {file}""")
temp_filepath = os.path.join(temp_dir.name, file.name)
with open(temp_filepath, 'wb') as f:
f.write(file.getvalue())
# Process TXT
if uploaded_file.name.endswith('txt'):
file = [uploaded_file.read().decode()]
text_splitter = RecursiveCharacterTextSplitter(
chunk_size = 1500,
chunk_overlap = 100
)
texts = text_splitter.create_documents(file, [{'source': uploaded_file.name}])
vectorstore.add_documents(texts)
st.info(f"{len(texts)} {lang_dict['load_text']}")
# Process PDF
if uploaded_file.name.endswith('pdf'):
docs = []
loader = PyPDFLoader(temp_filepath)
docs.extend(loader.load())
text_splitter = RecursiveCharacterTextSplitter(
chunk_size = 1500,
chunk_overlap = 100
)
pages = text_splitter.split_documents(docs)
vectorstore.add_documents(pages)
st.info(f"{len(pages)} {lang_dict['load_pdf']}")
# Process CSV
if uploaded_file.name.endswith('csv'):
docs = []
loader = CSVLoader(temp_filepath)
docs.extend(loader.load())
vectorstore.add_documents(docs)
st.info(f"{len(docs)} {lang_dict['load_csv']}")
# Load data from URLs
def vectorize_url(urls):
# Create the text splitter
text_splitter = RecursiveCharacterTextSplitter(
chunk_size = 1500,
chunk_overlap = 100
)
for url in urls:
try:
loader = WebBaseLoader(url)
docs = loader.load()
pages = text_splitter.split_documents(docs)
print (f"Loading from URL: {pages}")
vectorstore.add_documents(pages)
st.info(f"{len(pages)} loaded")
except Exception as e:
st.info(f"An error occurred:", e)
# Define the prompt
def get_prompt(type):
template = ''
if type == 'Extended results':
print ("Prompt type: Extended results")
template = f"""You're a helpful AI assistant tasked to answer the user's questions.
You're friendly and you answer extensively with multiple sentences. You prefer to use bulletpoints to summarize.
If the question states the name of the user, just say 'Thanks, I'll use this information going forward'.
If you don't know the answer, just say 'I do not know the answer'.
Use the following context to answer the question:
{{context}}
Use the following chat history to answer the question:
{{chat_history}}
Question:
{{question}}
Answer in {language}:"""
if type == 'Short results':
print ("Prompt type: Short results")
template = f"""You're a helpful AI assistant tasked to answer the user's questions.
You answer in an exceptionally brief way.
If the question states the name of the user, just say 'Thanks, I'll use this information going forward'.
If you don't know the answer, just say 'I do not know the answer'.
Use the following context to answer the question:
{{context}}
Use the following chat history to answer the question:
{{chat_history}}
Question:
{{question}}
Answer in {language}:"""
if type == 'Custom':
print ("Prompt type: Custom")
template = custom_prompt
return ChatPromptTemplate.from_messages([("system", template)])
# Get the OpenAI Chat Model
def load_model():
print(f"""load_model""")
# Get the OpenAI Chat Model
return ChatOpenAI(
temperature=0.3,
model='gpt-4-1106-preview',
streaming=True,
verbose=True
)
# Get the Retriever
def load_retriever(top_k_vectorstore):
print(f"""load_retriever with top_k_vectorstore='{top_k_vectorstore}'""")
# Get the Retriever from the Vectorstore
return vectorstore.as_retriever(
search_kwargs={"k": top_k_vectorstore}
)
@st.cache_resource()
def load_memory(top_k_history):
print(f"""load_memory with top-k={top_k_history}""")
return ConversationBufferWindowMemory(
chat_memory=chat_history,
return_messages=True,
k=top_k_history,
memory_key="chat_history",
input_key="question",
output_key='answer',
)
def generate_queries():
prompt = f"""You are a helpful assistant that generates multiple search queries based on a single input query in language {language}.
Generate multiple search queries related to: {{original_query}}
OUTPUT (4 queries):"""
return ChatPromptTemplate.from_messages([("system", prompt)]) | model | StrOutputParser() | (lambda x: x.split("\n"))
def reciprocal_rank_fusion(results: list[list], k=60):
from langchain.load import dumps, loads
fused_scores = {}
for docs in results:
# Assumes the docs are returned in sorted order of relevance
for rank, doc in enumerate(docs):
doc_str = dumps(doc)
if doc_str not in fused_scores:
fused_scores[doc_str] = 0
previous_score = fused_scores[doc_str]
fused_scores[doc_str] += 1 / (rank + k)
reranked_results = [
(loads(doc), score)
for doc, score in sorted(fused_scores.items(), key=lambda x: x[1], reverse=True)
]
return reranked_results
# Describe the image based on OpenAI
def describeImage(image_bin, language):
print ("describeImage")
image_base64 = base64.b64encode(image_bin).decode()
response = openai.chat.completions.create(
model="gpt-4-vision-preview",
messages=[
{
"role": "user",
"content": [
#{"type": "text", "text": "Describe the image in detail"},
{"type": "text", "text": f"Provide a search text for the main topic of the image writen in {language}"},
{
"type": "image_url",
"image_url": {
"url": f"data:image/jpeg;base64,{image_base64}",
},
},
],
}
],
max_tokens=4096, # default max tokens is low so set higher
)
print (f"describeImage result: {response}")
return response
##################
### Data Cache ###
##################
# Cache localized strings
@st.cache_data()
def load_localization(locale):
print("load_localization")
# Load in the text bundle and filter by language locale
df = pd.read_csv("./customizations/localization.csv")
df = df.query(f"locale == '{locale}'")
# Create and return a dictionary of key/values.
lang_dict = {df.key.to_list()[i]:df.value.to_list()[i] for i in range(len(df.key.to_list()))}
return lang_dict
# Cache localized strings
@st.cache_data()
def load_rails(username):
print("load_rails")
# Load in the rails bundle and filter by username
df = pd.read_csv("./customizations/rails.csv")
df = df.query(f"username == '{username}'")
# Create and return a dictionary of key/values.
rails_dict = {df.key.to_list()[i]:df.value.to_list()[i] for i in range(len(df.key.to_list()))}
return rails_dict
#############
### Login ###
#############
# Check for username/password and set the username accordingly
if not check_password():
st.stop() # Do not continue if check_password is not True.
username = st.session_state.user
language = st.secrets.languages[username]
lang_dict = load_localization(language)
#######################
### Resources Cache ###
#######################
# Cache OpenAI Embedding for future runs
@st.cache_resource(show_spinner=lang_dict['load_embedding'])
def load_embedding():
print("load_embedding")
# Get the OpenAI Embedding
return OpenAIEmbeddings()
# Cache Vector Store for future runs
@st.cache_resource(show_spinner=lang_dict['load_vectorstore'])
def load_vectorstore(username):
print(f"load_vectorstore for {username}")
# Get the load_vectorstore store from Astra DB
return AstraDB(
embedding=embedding,
collection_name=f"vector_context_{username}",
token=st.secrets["ASTRA_TOKEN"],
api_endpoint=os.environ["ASTRA_ENDPOINT"],
)
# Cache Chat History for future runs
@st.cache_resource(show_spinner=lang_dict['load_message_history'])
def load_chat_history(username):
print(f"load_chat_history for {username}_{st.session_state.session_id}")
return AstraDBChatMessageHistory(
session_id=f"{username}_{st.session_state.session_id}",
api_endpoint=os.environ["ASTRA_ENDPOINT"],
token=st.secrets["ASTRA_TOKEN"],
)
#####################
### Session state ###
#####################
# Start with empty messages, stored in session state
if 'messages' not in st.session_state:
st.session_state.messages = [AIMessage(content=lang_dict['assistant_welcome'])]
############
### Main ###
############
# Show a custom welcome text or the default text
try:
st.markdown(Path(f"""./customizations/welcome/{username}.md""").read_text())
except:
st.markdown(Path('./customizations/welcome/default.md').read_text())
# Show a custom logo (svg or png) or the DataStax logo
with st.sidebar:
try:
st.image(f"""./customizations/logo/{username}.svg""", use_column_width="always")
st.text('')
except:
try:
st.image(f"""./customizations/logo/{username}.png""", use_column_width="always")
st.text('')
except:
st.image('./customizations/logo/default.svg', use_column_width="always")
st.text('')
# Logout button
with st.sidebar:
st.markdown(f"""{lang_dict['logout_caption']} :orange[{username}]""")
logout_button = st.button(lang_dict['logout_button'])
if logout_button:
logout()
with st.sidebar:
st.divider()
# Initialize
with st.sidebar:
rails_dict = load_rails(username)
embedding = load_embedding()
vectorstore = load_vectorstore(username)
chat_history = load_chat_history(username)
# Options panel
with st.sidebar:
# Chat history settings
disable_chat_history = st.toggle(lang_dict['disable_chat_history'])
top_k_history = st.slider(lang_dict['k_chat_history'], 1, 50, 5, disabled=disable_chat_history)
memory = load_memory(top_k_history if not disable_chat_history else 0)
delete_history = st.button(lang_dict['delete_chat_history_button'], disabled=disable_chat_history)
if delete_history:
with st.spinner(lang_dict['deleting_chat_history']):
memory.clear()
# Vector store settings
disable_vector_store = st.toggle(lang_dict['disable_vector_store'])
top_k_vectorstore = st.slider(lang_dict['top_k_vector_store'], 1, 50, 5, disabled=disable_vector_store)
strategy = st.selectbox(lang_dict['rag_strategy'], ('Basic Retrieval', 'Maximal Marginal Relevance', 'Fusion'), help=lang_dict['rag_strategy_help'], disabled=disable_vector_store)
custom_prompt_text = ''
custom_prompt_index = 0
try:
custom_prompt_text = open(f"""./customizations/prompt/{username}.txt""").read()
custom_prompt_index = 2
except:
custom_prompt_text = open(f"""./customizations/prompt/default.txt""").read()
custom_prompt_index = 0
prompt_type = st.selectbox(lang_dict['system_prompt'], ('Short results', 'Extended results', 'Custom'), index=custom_prompt_index)
custom_prompt = st.text_area(lang_dict['custom_prompt'], custom_prompt_text, help=lang_dict['custom_prompt_help'], disabled=(prompt_type != 'Custom'))
print(f"""{disable_vector_store}, {top_k_history}, {top_k_vectorstore}, {strategy}, {prompt_type}""")
with st.sidebar:
st.divider()
# Include the upload form for new data to be Vectorized
with st.sidebar:
uploaded_files = st.file_uploader(lang_dict['load_context'], type=['txt', 'pdf', 'csv'], accept_multiple_files=True)
upload = st.button(lang_dict['load_context_button'])
if upload and uploaded_files:
vectorize_text(uploaded_files)
# Include the upload form for URLs be Vectorized
with st.sidebar:
urls = st.text_area(lang_dict['load_from_urls'], help=lang_dict['load_from_urls_help'])
urls = urls.split(',')
upload = st.button(lang_dict['load_from_urls_button'])
if upload and urls:
vectorize_url(urls)
# Drop the vector data and start from scratch
if (username in st.secrets['delete_option'] and st.secrets.delete_option[username] == 'True'):
with st.sidebar:
st.caption(lang_dict['delete_context'])
submitted = st.button(lang_dict['delete_context_button'])
if submitted:
with st.spinner(lang_dict['deleting_context']):
vectorstore.clear()
memory.clear()
st.session_state.messages = [AIMessage(content=lang_dict['assistant_welcome'])]
with st.sidebar:
st.divider()
# Draw rails
with st.sidebar:
st.subheader(lang_dict['rails_1'])
st.caption(lang_dict['rails_2'])
for i in rails_dict:
st.markdown(f"{i}. {rails_dict[i]}")
# Draw all messages, both user and agent so far (every time the app reruns)
for message in st.session_state.messages:
st.chat_message(message.type).markdown(message.content)
# Now get a prompt from a user
question = st.chat_input(lang_dict['assistant_question'])
with st.sidebar:
st.divider()
picture = st.camera_input(lang_dict['take_picture'])
if picture:
response = describeImage(picture.getvalue(), language)
picture_desc = response.choices[0].message.content
question = picture_desc
if question:
print(f"Got question: {question}")
# Add the prompt to messages, stored in session state
st.session_state.messages.append(HumanMessage(content=question))
# Draw the prompt on the page
print(f"Draw prompt")
with st.chat_message('human'):
st.markdown(question)
# Get model, retriever
model = load_model()
retriever = load_retriever(top_k_vectorstore)
# RAG Strategy
content = ''
fusion_queries = []
relevant_documents = []
if not disable_vector_store:
if strategy == 'Basic Retrieval':
# Basic naive RAG
relevant_documents = retriever.get_relevant_documents(query=question, k=top_k_vectorstore)
if strategy == 'Maximal Marginal Relevance':
relevant_documents = vectorstore.max_marginal_relevance_search(query=question, k=top_k_vectorstore)
if strategy == 'Fusion':
# Fusion: Generate new queries and retrieve most relevant documents based on that
generate_queries = generate_queries()
fusion_queries = generate_queries.invoke({"original_query": question})
print(f"""Fusion queries: {fusion_queries}""")
content += f"""
*{lang_dict['using_fusion_queries']}*
"""
for fq in fusion_queries:
content += f"""📙 :orange[{fq}]
"""
# Write the generated fusion queries
with st.chat_message('assistant'):
st.markdown(content)
# Add the answer to the messages session state
st.session_state.messages.append(AIMessage(content=content))
chain = generate_queries | retriever.map() | reciprocal_rank_fusion
relevant_documents = chain.invoke({"original_query": question})
print(f"""Fusion results: {relevant_documents}""")
# Get the results from Langchain
print(f"Chat message")
with st.chat_message('assistant'):
content = ''
# UI placeholder to start filling with agent response
response_placeholder = st.empty()
# Get chat history
history = memory.load_memory_variables({})
print(f"Using memory: {history}")
# Create the chain
inputs = RunnableMap({
'context': lambda x: x['context'],
'chat_history': lambda x: x['chat_history'],
'question': lambda x: x['question']
})
print(f"Using inputs: {inputs}")
chain = inputs | get_prompt(prompt_type) | model
print(f"Using chain: {chain}")
# Call the chain and stream the results into the UI
response = chain.invoke({'question': question, 'chat_history': history, 'context': relevant_documents}, config={'callbacks': [StreamHandler(response_placeholder)]})
print(f"Response: {response}")
content += response.content
# Add the result to memory (without the sources)
memory.save_context({'question': question}, {'answer': content})
# Write the sources used
if disable_vector_store:
content += f"""
*{lang_dict['no_context']}*
"""
else:
content += f"""
*{lang_dict['sources_used']}*
"""
sources = []
for doc in relevant_documents:
if strategy == 'Fusion':
doc = doc[0]
print (f"""DOC: {doc}""")
source = doc.metadata['source']
page_content = doc.page_content
if source not in sources:
content += f"""📙 :orange[{os.path.basename(os.path.normpath(source))}]
"""
sources.append(source)
# Write the history used
if disable_chat_history:
content += f"""
*{lang_dict['no_chat_history']}*
"""
else:
content += f"""
*{lang_dict['chat_history_used']}: ({int(len(history['chat_history'])/2)} / {top_k_history})*
"""
# Write the final answer without the cursor
response_placeholder.markdown(content)
# Add the answer to the messages session state
st.session_state.messages.append(AIMessage(content=content))
with st.sidebar:
st.caption("v231227.01")