import streamlit as st import os from streamlit_chat import message import numpy as np import pandas as pd from io import StringIO import PyPDF2 from tqdm.auto import tqdm import math from transformers import pipeline # import json # st.config(PROTOCOL_BUFFERS_PYTHON_IMPLEMENTATION="python") # from datasets import load_dataset # dataset = load_dataset("wikipedia", "20220301.en", split="train[240000:250000]") # wikidata = [] # for record in dataset: # wikidata.append(record["text"]) # wikidata = list(set(wikidata)) # # print("\n".join(wikidata[:5])) # # print(len(wikidata)) from sentence_transformers import SentenceTransformer import torch device = 'cuda' if torch.cuda.is_available() else 'cpu' if device != 'cuda': st.markdown(f"you are using {device}. This is much slower than using " "a CUDA-enabled GPU. If on colab you can change this by " "clicking Runtime > change runtime type > GPU.") model = SentenceTransformer("all-MiniLM-L6-v2", device=device) st.divider() # Creating a Index(Pinecone Vector Database) import os # import pinecone from pinecone.grpc import PineconeGRPC PINECONE_API_KEY=os.getenv("PINECONE_API_KEY") PINECONE_ENV=os.getenv("PINECONE_ENV") PINECONE_ENVIRONMENT=os.getenv("PINECONE_ENVIRONMENT") # pc = PineconeGRPC( api_key=os.environ.get("PINECONE_API_KEY") ) # Now do stuff if 'my_index' not in pc.list_indexes().names(): pc.create_index( name='my_index', dimension=1536, metric='euclidean', spec=ServerlessSpec( cloud='aws', region='us-west-2' ) ) def connect_pinecone(): pinecone = PineconeGRPC(api_key=PINECONE_API_KEY, environment=PINECONE_ENV) # st.code(pinecone) # st.divider() # st.text(pinecone.list_indexes().names()) # st.divider() # st.text(f"Succesfully connected to the pinecone") return pinecone def get_pinecone_semantic_index(pinecone): index_name = "sematic-search" # only create if it deosnot exists if index_name not in pinecone.list_indexes().names(): pinecone.create_index( name=index_name, description="Semantic search", dimension=model.get_sentence_embedding_dimension(), metric="cosine", spec=ServerlessSpec( cloud='gcp', region='us-central1' ) ) # now connect to index index = pinecone.Index(index_name) # st.text(f"Succesfully connected to the pinecone index") return index def promt_engineer(text): prompt_template = """ write a concise summary of the following text delimited by triple backquotes. return your response in bullet points which convers the key points of the text. ```{text}``` BULLET POINT SUMMARY: """ # Load the summarization pipeline with the specified model summarizer = pipeline("summarization", model="facebook/bart-large-cnn") # Generate the prompt prompt = prompt_template.format(text=text) # Generate the summary summary = summarizer(prompt, max_length=1024, min_length=50)[0]["summary_text"] with st.sidebar: st.divider() st.markdown("*:red[Text Summary Generation]* from above Top 5 **:green[similarity search results]**.") st.write(summary) st.divider() def chat_actions(): pinecone = connect_pinecone() index = get_pinecone_semantic_index(pinecone) st.session_state["chat_history"].append( {"role": "user", "content": st.session_state["chat_input"]}, ) query_embedding = model.encode(st.session_state["chat_input"]) # create the query vector query_vector = query_embedding.tolist() # now query vector database result = index.query(query_vector, top_k=5, include_metadata=True) # result is a list of tuples # Create a list of lists data = [] consolidated_text = "" i = 0 for res in result['matches']: i = i + 1 data.append([f"{i}⭐", res['score'], res['metadata']['text']]) consolidated_text += res['metadata']['text'] # Create a DataFrame from the list of lists resdf = pd.DataFrame(data, columns=['TopRank', 'Score', 'Text']) with st.sidebar: st.markdown("*:red[semantic search results]* with **:green[Retrieval Augmented Generation]** ***(RAG)***.") st.dataframe(resdf) bytesize = consolidated_text.encode("utf-8") p = math.pow(1024, 2) mbsize = round(len(bytesize) / p, 2) st.write(f"Text lenth of {len(consolidated_text)} characters with {mbsize}MB size") promt_engineer(consolidated_text[:1024]) for res in result['matches']: st.session_state["chat_history"].append( { "role": "assistant", "content": f"{res['metadata']['text']}", }, # This can be replaced with your chat response logic ) break; if "chat_history" not in st.session_state: st.session_state["chat_history"] = [] st.chat_input("show me the contents of ML paper published on xxx with article no. xx?", on_submit=chat_actions, key="chat_input") for i in st.session_state["chat_history"]: with st.chat_message(name=i["role"]): st.write(i["content"]) def print_out(pages): for i in range(len(pages)): text = pages[i].extract_text().strip() st.write(f"Page {i} : {text}") def combine_text(pages): concatenates_text = "" for page in tqdm(pages): text = page.extract_text().strip() concatenates_text += text bytesize = concatenates_text.encode("utf-8") p = math.pow(1024, 2) mbsize = round(len(bytesize) / p, 2) st.write(f"There are {len(concatenates_text)} characters in the pdf with {mbsize}MB size") return concatenates_text def split_into_chunks(text, chunk_size): chunks = [] for i in range(0, len(text), chunk_size): chunks.append(text[i:i + chunk_size]) return chunks def create_embeddings(): # Get the uploaded file inputtext = "" with st.sidebar: uploaded_files = st.session_state["uploaded_files"] for uploaded_file in uploaded_files: # Read the contents of the file reader = PyPDF2.PdfReader(uploaded_file) pages = reader.pages print_out(pages) inputtext = combine_text(pages) # connect to pinecone index pinecone = connect_pinecone() index = get_pinecone_semantic_index(pinecone) # The maximum metadata size per vector is 40KB ~ 40000Bytes ~ each text character is 1 to 2 bytes. so rougly given chunk size of 10000 to 40000 chunk_size = 10000 batch_size = 2 chunks = split_into_chunks(inputtext, chunk_size) for i in tqdm(range(0, len(chunks), batch_size)): # find end of batch end = min(i + batch_size, len(chunks)) # create ids batch ids = [str(i) for i in range(i, end)] # create metadata batch metadata = [{"text": text} for text in chunks[i:end]] # create embeddings xc = model.encode(chunks[i:end]) # create records list for upsert records = zip(ids, xc, metadata) # upsert records index.upsert(vectors=records) with st.sidebar: st.write("created vector embeddings!") # check no of records in the index st.write(f"{index.describe_index_stats()}") # Display the contents of the file # st.write(file_contents) with st.sidebar: st.markdown(""" ***:red[Follow this steps]*** - upload pdf file to create embeddings using model on your own docs - wait see success message on embeddings creation - It Takes couple of mins after upload the pdf - Now Chat with your documents with help of this RAG system - It Generate Promted reponses on the upload pdf - Provides summarized results and QA's using GPT models """) uploaded_files = st.file_uploader('Choose your .pdf file', type="pdf", accept_multiple_files=True, key="uploaded_files", on_change=create_embeddings) # for uploaded_file in uploaded_files: # To read file as bytes: # bytes_data = uploaded_file.getvalue() # st.write(bytes_data) # To convert to a string based IO: # stringio = StringIO(uploaded_file.getvalue().decode("utf-8")) # st.write(stringio) # To read file as string: # string_data = stringio.read() # st.write(string_data) # Can be used wherever a "file-like" object is accepted: # dataframe = pd.read_csv(uploaded_file) # st.write(dataframe) # reader = PyPDF2.PdfReader(uploaded_file) # pages = reader.pages # print_out(pages) # combine_text(pages) # promt_engineer(text)