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notivai-backend / app.py

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	import os
	import re
	import time
	from concurrent.futures import ThreadPoolExecutor
	import matplotlib.pyplot as plt
	import moviepy.editor as mp
	import requests
	import spacy
	import speech_recognition as sr
	import tensorflow as tf
	from flask import Flask, jsonify, request
	from flask_cors import CORS
	from io import BytesIO
	from requests import get
	from string import punctuation
	from tqdm import tqdm
	from transformers import BartTokenizer, T5ForConditionalGeneration, T5Tokenizer, TFBartForConditionalGeneration
	from youtube_transcript_api import YouTubeTranscriptApi as yta
	from wordcloud import WordCloud
	from heapq import nlargest
	from werkzeug.utils import secure_filename
	from spacy.lang.en.stop_words import STOP_WORDS
	import huggingface_hub as hf_hub
	from huggingface_hub import HfApi, HfFolder
	from requests.exceptions import HTTPError

	# Create a Flask app
	app = Flask(__name__)
	CORS(app)

	# Function to extract video ID from YouTube link
	def extract_video_id(youtube_link):
	pattern = re.compile(r'(?<=v=)[a-zA-Z0-9_-]+(?=&\|\b\|$)')
	match = pattern.search(youtube_link)
	if match:
	return match.group()
	else:
	return None


	@app.route('/', methods=['GET'])
	def hello():
	# hostname = request.host
	# domain = request.url_root
	# user_agent = request.user_agent.string

	# h = f"<h1>Hello World</h1><p>Hostname: {hostname}</p><p>Domain: {domain}</p><p>User Agent: {user_agent}</p>"
	h = "<h1>This is the backend deployed web page created by NotivAI!!</h1>"
	return h

	# @app.route('/get_tested',methods=['GET'])
	# def hello2():
	# h = "<h1>Hello this is testing!!</h1>"
	# return h

	# Route for uploading video files
	@app.route('/upload_video', methods=['POST'])
	def upload_video():
	start_time = time.time()
	if 'video' not in request.files:
	return jsonify({'error': 'No video file found in the request'})
	video = request.files['video']
	if video.mimetype.split('/')[0] != 'video':
	return jsonify({'error': 'The file uploaded is not a video'})

	model_name = request.form.get('modelName')
	print("MODEL:", model_name)

	video_path = os.path.join(os.getcwd(), secure_filename(video.filename))
	video.save(video_path)

	# Initialize HfApi and HfFolder
	api = HfApi()
	folder = HfFolder()

	token = folder.get_token()
	namespace = "Dhrumit1314/videoUpload"

	# Upload the video file
	video_file_id = api.upload_file(
	token=token,
	path_or_fileobj=video_path,
	repo_id=namespace,
	path_in_repo=video.filename
	)

	transcript = transcribe_audio(video_path)

	summary = ""
	if model_name == 'T5':
	summary = summarize_text_t5(transcript)
	elif model_name == 'BART':
	summary = summarize_text_bart(transcript)
	else:
	summary = summarizer(transcript)

	end_time = time.time()
	elapsed_time = end_time - start_time
	print(f"Video saved successfully. Time taken: {elapsed_time} seconds")

	return jsonify({'message': 'successful', 'transcript': transcript, 'summary': summary, 'modelName': model_name, 'videoFileId': video_file_id})


	# def upload_video():
	# start_time = time.time()
	# if 'video' not in request.files:
	# return jsonify({'error': 'No video file found in the request'})
	# video = request.files['video']
	# if video.mimetype.split('/')[0] != 'video':
	# return jsonify({'error': 'The file uploaded is not a video'})

	# model_name = request.form.get('modelName')
	# print("MODEL:", model_name)

	# # backend_folder = 'backend_videos'
	# # if not os.path.exists(backend_folder):
	# # os.makedirs(backend_folder)
	# video_path = os.path.join(os.getcwd(), secure_filename(video.filename))
	# video.save(video_path)

	# transcript = transcribe_audio(video_path)

	# summary = ""
	# if model_name == 'T5':
	# summary = summarize_text_t5(transcript)
	# elif model_name == 'BART':
	# summary = summarize_text_bart(transcript)
	# else:
	# summary = summarizer(transcript)

	# end_time = time.time()
	# elapsed_time = end_time - start_time
	# print(f"Video saved successfully. Time taken: {elapsed_time} seconds")

	# return jsonify({'message': 'successful', 'transcript': transcript, 'summary': summary, 'modelName': model_name})

	# Route for uploading YouTube video links
	@app.route('/youtube_upload_video', methods=['POST'])
	def upload_youtube_video():
	start_time = time.time()
	transcript = "Testing text"
	summary = "Testing text"

	model_name = request.form.get('modelName')
	youtube_link = request.form.get('link')
	print('link', youtube_link)
	video_id = extract_video_id(youtube_link)
	if video_id is None:
	return jsonify({'message': 'successful', 'transcript': "error with youtube link", 'summary': "error with youtube link", 'modelName': model_name})

	transcript = generate_and_save_transcript_with_visuals(video_id)
	summary = ""
	if model_name == 'T5':
	summary = summarize_text_t5(transcript)
	elif model_name == 'BART':
	summary = summarize_text_bart(transcript)
	else:
	summary = summarizer(transcript)

	end_time = time.time()
	elapsed_time = end_time - start_time
	print(f"Video saved successfully. Time taken: {elapsed_time} seconds")

	return jsonify({'message': 'successful', 'transcript': transcript, 'summary': summary, 'modelName': model_name})

	# Function to generate transcript and visuals for YouTube videos
	def generate_and_save_transcript_with_visuals(video_id, file_name="yt_generated_transcript.txt"):
	try:
	data = yta.get_transcript(video_id)
	transcript = ''
	for value in tqdm(data, desc="Downloading Transcript", unit=" lines"):
	for key, val in value.items():
	if key == 'text':
	transcript += val + ' '
	transcript = transcript.strip()
	return transcript
	except Exception as e:
	print(f"Error: {str(e)}")

	# Transcribe audio from video
	def transcribe_audio(file_path, chunk_duration=30):
	video = mp.VideoFileClip(file_path)
	audio = video.audio
	audio.write_audiofile("sample_audio.wav", codec='pcm_s16le')

	r = sr.Recognizer()
	with sr.AudioFile("sample_audio.wav") as source:
	audio = r.record(source)

	total_duration = len(audio.frame_data) / audio.sample_rate
	total_chunks = int(total_duration / chunk_duration) + 1

	all_text = []

	def transcribe_chunk(start):
	nonlocal all_text
	chunk = audio.get_segment(start * 1000, (start + chunk_duration) * 1000)
	try:
	text = r.recognize_google(chunk)
	all_text.append(text)
	print(f" Chunk {start}-{start+chunk_duration}: {text}")
	except sr.UnknownValueError:
	all_text.append("")
	except sr.RequestError as e:
	all_text.append(f"[Error: {e}]")

	num_threads = min(total_chunks, total_chunks + 5)
	with ThreadPoolExecutor(max_workers=num_threads) as executor:
	list(tqdm(executor.map(transcribe_chunk, range(0, int(total_duration), chunk_duration)),
	total=total_chunks, desc="Transcribing on multithreading: "))

	wordcloud = WordCloud(width=800, height=400, background_color="white").generate(' '.join(all_text))
	plt.figure(figsize=(10, 5))
	plt.imshow(wordcloud, interpolation='bilinear')
	plt.axis("off")
	plt.show()

	return ' '.join(all_text)

	# Load pre-trained models and tokenizers
	tokenizer_bart = BartTokenizer.from_pretrained('facebook/bart-large')
	tokenizer_t5 = T5Tokenizer.from_pretrained('t5-small')

	with tf.device('/CPU:0'):
	model_t5 = T5ForConditionalGeneration.from_pretrained("Dhrumit1314/T5_TextSummary")
	model_bart = TFBartForConditionalGeneration.from_pretrained("Dhrumit1314/BART_TextSummary")

	# Function to summarize text using T5 model
	def summarize_text_t5(text):
	start_time = time.time()
	t5_prepared_Text = "summarize: "+text
	tokenized_text = tokenizer_t5.encode(t5_prepared_Text, return_tensors="pt")
	summary_ids = model_t5.generate(tokenized_text,
	num_beams=4,
	no_repeat_ngram_size=2,
	min_length=256,
	max_length=512,
	early_stopping=True)
	output = tokenizer_t5.decode(summary_ids[0], skip_special_tokens=True)
	end_time = time.time()
	print(f"Execution time for T5 Model: {end_time - start_time} seconds")
	return output

	def summarize_text_bart(text):
	start_time = time.time()
	inputs = tokenizer_bart([text], max_length=1024, return_tensors='tf')
	summary_ids = model_bart.generate(inputs['input_ids'], num_beams=4, max_length=256, early_stopping=True)
	output = [tokenizer_bart.decode(g, skip_special_tokens=True, clean_up_tokenization_spaces=False) for g in summary_ids]
	end_time = time.time()
	print(f"Execution time for BART Model: {end_time - start_time} seconds")
	return output[0]

	# Spacy Summarizer
	def summarizer(rawdocs):
	stopwords = list(STOP_WORDS)
	nlp = spacy.load('en_core_web_sm')
	doc = nlp(rawdocs)
	tokens = [token.text for token in doc]
	word_freq = {}
	for word in doc:
	if word.text.lower() not in stopwords and word.text.lower() not in punctuation:
	if word.text not in word_freq.keys():
	word_freq[word.text] = 1
	else:
	word_freq[word.text] += 1

	max_freq = max(word_freq.values())

	for word in word_freq.keys():
	word_freq[word] = word_freq[word]/max_freq

	sent_tokens = [sent for sent in doc.sents]

	sent_scores = {}

	for sent in sent_tokens:
	for word in sent:
	if word.text in word_freq.keys():
	if sent not in sent_scores.keys():
	sent_scores[sent] = word_freq[word.text]
	else:
	sent_scores[sent] += word_freq[word.text]

	select_len = int(len(sent_tokens) * 0.3)
	summary = nlargest(select_len, sent_scores, key=sent_scores.get)
	final_summary = [word.text for word in summary]
	summary = ' '.join(final_summary)

	return summary

	# Main run function
	if __name__ == '__main__':
	app.run(debug=True, port=7860, host='0.0.0.0', use_reloader=False)