app.py

import streamlit as st
import os
import json

from transformers import GPT2Tokenizer, GPT2LMHeadModel, BertTokenizer, BertModel,T5Tokenizer, T5ForConditionalGeneration,AutoTokenizer, AutoModelForSeq2SeqLM

import torch
from sklearn.metrics.pairwise import cosine_similarity
import numpy as np
import nltk
from nltk.tokenize import sent_tokenize
from nltk.corpus import stopwords

def is_new_file_upload(uploaded_file):
    if 'last_uploaded_file' in st.session_state:
        # Check if the newly uploaded file is different from the last one
        if (uploaded_file.name != st.session_state.last_uploaded_file['name'] or
                uploaded_file.size != st.session_state.last_uploaded_file['size']):
            st.session_state.last_uploaded_file = {'name': uploaded_file.name, 'size': uploaded_file.size}
            # st.write("A new src image file has been uploaded.")
            return True
        else:
            # st.write("The same src image file has been re-uploaded.")
            return False
    else:
        # st.write("This is the first file upload detected.")
        st.session_state.last_uploaded_file = {'name': uploaded_file.name, 'size': uploaded_file.size}
        return True
def combined_similarity(similarity, sentence, query):
    # Tokenize both the sentence and the query
    # sentence_words = set(sentence.split())
    # query_words = set(query.split())
    sentence_words = set(word for word in sentence.split() if word.lower() not in st.session_state.stop_words)
    query_words = set(word for word in query.split() if word.lower() not in st.session_state.stop_words)

    # Calculate the number of common words
    common_words = len(sentence_words.intersection(query_words))

    # Adjust the similarity score with the common words count
    combined_score = similarity + (common_words / max(len(query_words), 1))  # Normalize by the length of the query to keep the score between -1 and 1
    return combined_score,similarity,(common_words / max(len(query_words), 1))




if 'is_initialized' not in st.session_state:
    st.session_state['is_initialized'] = True

    nltk.download('punkt')
    nltk.download('stopwords')
    # print("stop words start")
    # print(stopwords.words('english'))
    # print("stop words end")
    stop_words_list = stopwords.words('english')
    st.session_state.stop_words = set(stop_words_list)
    st.session_state.bert_tokenizer = BertTokenizer.from_pretrained("bert-base-uncased", )
    st.session_state.bert_model = BertModel.from_pretrained("bert-base-uncased", ).to('cuda')


if 'list_count' in st.session_state:
    st.write(f'The number of elements at the top level of the hierarchy: {st.session_state.list_count }')
    if 'paragraph_sentence_encodings' not in st.session_state:
        print("start embedding paragarphs")
        read_progress_bar = st.progress(0)
        st.session_state.paragraph_sentence_encodings = []
        for index,paragraph in enumerate(st.session_state.restored_paragraphs):
            #print(paragraph)

            progress_percentage = (index) / (st.session_state.list_count - 1)
            # print(progress_percentage)
            read_progress_bar.progress(progress_percentage)

            sentence_encodings = []
            paragraph_without_newline= paragraph['paragraph'].replace("\n", "")
            sentences = sent_tokenize(paragraph_without_newline)
            for sentence in sentences:
                if sentence.strip().endswith('?'):
                    sentence_encodings.append(None)
                    continue
                if len(sentence.strip()) < 4:
                    sentence_encodings.append(None)
                    continue
                sentence_tokens = st.session_state.bert_tokenizer(sentence, return_tensors="pt", padding=True, truncation=True).to('cuda')
                with torch.no_grad():
                    sentence_encoding = st.session_state.bert_model(**sentence_tokens).last_hidden_state[:, 0, :].cpu().numpy()
                sentence_encodings.append([sentence, sentence_encoding])
                # sentence_encodings.append([sentence,bert_model(**sentence_tokens).last_hidden_state[:, 0, :].detach().numpy()])
            st.session_state.paragraph_sentence_encodings.append([paragraph, sentence_encodings])
        st.rerun()
big_text = """
    <div style='text-align: center;'>
        <h1 style='font-size: 30x;'>Knowledge Extraction A</h1>
    </div>
    """
    # Display the styled text
st.markdown(big_text, unsafe_allow_html=True)

uploaded_json_file = st.file_uploader("Upload a pre-processed file",
                                           type=['json'])
st.markdown(
    f'<a href="https://ikmtechnology.github.io/ikmtechnology/untethered_extracted_paragraphs.json" target="_blank">Sample 1 download and then upload to above</a>',
    unsafe_allow_html=True)
st.markdown("sample queries for above file: <br/> What is death? What is a lucid dream? What is the seat of consciousness?",unsafe_allow_html=True)
st.markdown(
f'<a href="https://ikmtechnology.github.io/ikmtechnology/the_business_case_for_ai_extracted_paragraphs.json" target="_blank">Sample 2 download and then upload to above</a>',
    unsafe_allow_html=True)
st.markdown("sample queries for above file: <br/> what does nontechnical managers worry about? what if you put all the knowledge, frameworks, and tips from this book to full use? tell me about AI agent",unsafe_allow_html=True)
if uploaded_json_file is not None:
    if is_new_file_upload(uploaded_json_file):
        print("is new file uploaded")
        if 'prev_query' in st.session_state:
            del st.session_state['prev_query']
        if 'paragraph_sentence_encodings' in st.session_state:
            del st.session_state['paragraph_sentence_encodings']
        save_path = './uploaded_files'
        if not os.path.exists(save_path):
            os.makedirs(save_path)
        with open(os.path.join(save_path, uploaded_json_file.name), "wb") as f:
            f.write(uploaded_json_file.getbuffer())  # Write the file to the specified location
            st.success(f'Saved file temp_{uploaded_json_file.name} in {save_path}')
            st.session_state.uploaded_path=os.path.join(save_path, uploaded_json_file.name)
            # st.session_state.page_count = utils.get_pdf_page_count(st.session_state.uploaded_pdf_path)
            # print("page_count=",st.session_state.page_count)
        content = uploaded_json_file.read()
        try:
            st.session_state.restored_paragraphs = json.loads(content)
            #print(data)
            # Check if the parsed data is a dictionary
            if isinstance(st.session_state.restored_paragraphs, list):
                # Count the restored_paragraphs of top-level elements
                st.session_state.list_count  = len(st.session_state.restored_paragraphs)
                st.write(f'The number of elements at the top level of the hierarchy: {st.session_state.list_count }')
            else:
                st.write('The JSON content is not a dictionary.')
        except json.JSONDecodeError:
            st.write('Invalid JSON file.')
        st.rerun()

if 'paragraph_sentence_encodings' in st.session_state:
    query = st.text_input("Enter your query")

    if query:
        if 'prev_query' not in st.session_state or st.session_state.prev_query != query:
            st.session_state.prev_query = query
            query_tokens = st.session_state.bert_tokenizer(query, return_tensors="pt", padding=True, truncation=True).to(
                'cuda')
            with torch.no_grad():  # Disable gradient calculation for inference
                query_encoding = st.session_state.bert_model(**query_tokens).last_hidden_state[:, 0,
                                 :].cpu().numpy()  # Move the result to CPU and convert to NumPy

            paragraph_scores = []
            sentence_scores = []
            total_count = len(st.session_state.paragraph_sentence_encodings)
            processing_progress_bar = st.progress(0)

            for index, paragraph_sentence_encoding in enumerate(st.session_state.paragraph_sentence_encodings):
                progress_percentage = index / (total_count - 1)
                processing_progress_bar.progress(progress_percentage)

                sentence_similarities = []
                for sentence_encoding in paragraph_sentence_encoding[1]:
                    if sentence_encoding:
                        similarity = cosine_similarity(query_encoding, sentence_encoding[1])[0][0]
                        combined_score, similarity_score, commonality_score = combined_similarity(similarity,
                                                                                                  sentence_encoding[0],
                                                                                                  query)
                        sentence_similarities.append((combined_score, sentence_encoding[0], commonality_score))
                        sentence_scores.append((combined_score, sentence_encoding[0]))

                sentence_similarities.sort(reverse=True, key=lambda x: x[0])
                # print(sentence_similarities)
                if len(sentence_similarities) >= 3:
                    top_three_avg_similarity = np.mean([s[0] for s in sentence_similarities[:3]])
                    top_three_avg_commonality = np.mean([s[2] for s in sentence_similarities[:3]])
                    top_three_sentences = sentence_similarities[:3]
                elif sentence_similarities:
                    top_three_avg_similarity = np.mean([s[0] for s in sentence_similarities])
                    top_three_avg_commonality = np.mean([s[2] for s in sentence_similarities])
                    top_three_sentences = sentence_similarities
                else:
                    top_three_avg_similarity = 0
                    top_three_avg_commonality = 0
                    top_three_sentences = []

                top_three_texts = [s[1] for s in top_three_sentences]
                remaining_texts = [s[0] for s in paragraph_sentence_encoding[1] if s and s[0] not in top_three_texts]
                reordered_paragraph = top_three_texts + remaining_texts

                original_paragraph = ' '.join([s[0] for s in paragraph_sentence_encoding[1] if s])
                modified_paragraph = ' '.join(reordered_paragraph)




                paragraph_scores.append(
                    (top_three_avg_similarity, top_three_avg_commonality,
                     {'modified_text': modified_paragraph, 'original_text': paragraph_sentence_encoding[0]})
                )

            sentence_scores = sorted(sentence_scores, key=lambda x: x[0], reverse=True)
            st.session_state.paragraph_scores = sorted(paragraph_scores, key=lambda x: x[0], reverse=True)

        if 'paragraph_scores' in st.session_state:


            st.write("Top scored paragraphs and their scores:")
            for i, (similarity_score, commonality_score, paragraph) in enumerate(
                    st.session_state.paragraph_scores[:5]):
                st.write(f"Similarity Score: {similarity_score}, Commonality Score: {commonality_score}")
                st.write("Original Paragraph: ", paragraph['original_text'])
                #Member will be considered Actively at Work if he or she is able and available for active
                # st.write("Modified Paragraph: ", paragraph['modified_text'])