# Imports import gradio as gr import whisper from pytube import YouTube from transformers import pipeline, T5Tokenizer, T5ForConditionalGeneration, AutoTokenizer, AutoModelForSeq2SeqLM import torch from wordcloud import WordCloud import re import os class GradioInference: def __init__(self): # OpenAI's Whisper model sizes self.sizes = list(whisper._MODELS.keys()) # Whisper's available languages for ASR self.langs = ["none"] + sorted(list(whisper.tokenizer.LANGUAGES.values())) # Default size self.current_size = "base" # Default model size self.loaded_model = whisper.load_model(self.current_size) # Initialize Pytube Object self.yt = None # Initialize summary model for English self.bart_summarizer = pipeline("summarization", model="facebook/bart-large-cnn", truncation=True) # Initialize Multilingual summary model self.mt5_tokenizer = AutoTokenizer.from_pretrained("csebuetnlp/mT5_multilingual_XLSum", truncation=True) self.mt5_model = AutoModelForSeq2SeqLM.from_pretrained("csebuetnlp/mT5_multilingual_XLSum") # Initialize VoiceLabT5 model and tokenizer self.keyword_model = T5ForConditionalGeneration.from_pretrained( "Voicelab/vlt5-base-keywords" ) self.keyword_tokenizer = T5Tokenizer.from_pretrained( "Voicelab/vlt5-base-keywords" ) # Sentiment Classifier self.classifier = pipeline("text-classification", model="lxyuan/distilbert-base-multilingual-cased-sentiments-student", return_all_scores=False) def __call__(self, link, lang, size, progress=gr.Progress()): """ Call the Gradio Inference python class. This class gets access to a YouTube video using python's library Pytube and downloads its audio. Then it uses the Whisper model to perform Automatic Speech Recognition (i.e Speech-to-Text). Once the function has the transcription of the video it proccess it to obtain: - Summary: using Facebook's BART transformer. - KeyWords: using VoiceLabT5 keyword extractor. - Sentiment Analysis: using Hugging Face's default sentiment classifier - WordCloud: using the wordcloud python library. """ progress(0, desc="Starting analysis") if self.yt is None: self.yt = YouTube(link) # Pytube library to access to YouTube audio stream path = self.yt.streams.filter(only_audio=True)[0].download(filename="tmp.mp4") if lang == "none": lang = None if size != self.current_size: self.loaded_model = whisper.load_model(size) self.current_size = size progress(0.20, desc="Transcribing") # Transcribe the audio extracted from pytube results = self.loaded_model.transcribe(path, language=lang) progress(0.40, desc="Summarizing") # Perform summarization on the transcription transcription_summary = self.bart_summarizer( results["text"], max_length=256, min_length=30, do_sample=False, truncation=True ) #### Resumen multilingue con mt5 WHITESPACE_HANDLER = lambda k: re.sub('\s+', ' ', re.sub('\n+', ' ', k.strip())) input_ids_sum = self.mt5_tokenizer( [WHITESPACE_HANDLER(results["text"])], return_tensors="pt", padding="max_length", truncation=True, max_length=512 )["input_ids"] output_ids_sum = self.mt5_model.generate( input_ids=input_ids_sum, max_length=256, no_repeat_ngram_size=2, num_beams=4 )[0] summary = self.mt5_tokenizer.decode( output_ids_sum, skip_special_tokens=True, clean_up_tokenization_spaces=False ) #### Fin resumen multilingue progress(0.60, desc="Extracting Keywords") # Extract keywords using VoiceLabT5 task_prefix = "Keywords: " input_sequence = task_prefix + results["text"] input_ids = self.keyword_tokenizer( input_sequence, return_tensors="pt", truncation=False ).input_ids output = self.keyword_model.generate( input_ids, no_repeat_ngram_size=3, num_beams=4 ) predicted = self.keyword_tokenizer.decode(output[0], skip_special_tokens=True) keywords = [x.strip() for x in predicted.split(",") if x.strip()] formatted_keywords = "\n".join([f"β’ {keyword}" for keyword in keywords]) progress(0.80, desc="Extracting Sentiment") # Define a dictionary to map labels to emojis sentiment_emojis = { "positive": "Positive ππΌ", "negative": "Negative ππΌ", "neutral": "Neutral πΆ", } # Sentiment label label = self.classifier(summary)[0]["label"] # Format the label with emojis formatted_sentiment = sentiment_emojis.get(label, label) progress(0.90, desc="Generating Wordcloud") # Generate WordCloud object wordcloud = WordCloud(colormap = "Oranges").generate(results["text"]) # WordCloud image to display wordcloud_image = wordcloud.to_image() if lang == "english" or lang == "none": return ( results["text"], transcription_summary[0]["summary_text"], formatted_keywords, formatted_sentiment, wordcloud_image, ) else: return ( results["text"], summary, formatted_keywords, formatted_sentiment, wordcloud_image, ) def populate_metadata(self, link): """ Access to the YouTube video title and thumbnail image to further display it params: - link: a YouTube URL. """ if not link: return None, None self.yt = YouTube(link) return self.yt.thumbnail_url, self.yt.title def from_audio_input(self, lang, size, audio_file, progress=gr.Progress()): """ Call the Gradio Inference python class. Uses it directly the Whisper model to perform Automatic Speech Recognition (i.e Speech-to-Text). Once the function has the transcription of the video it proccess it to obtain: - Summary: using Facebook's BART transformer. - KeyWords: using VoiceLabT5 keyword extractor. - Sentiment Analysis: using Hugging Face's default sentiment classifier - WordCloud: using the wordcloud python library. """ progress(0, desc="Starting analysis") if lang == "none": lang = None if size != self.current_size: self.loaded_model = whisper.load_model(size) self.current_size = size progress(0.20, desc="Transcribing") results = self.loaded_model.transcribe(audio_file, language=lang) progress(0.40, desc="Summarizing") # Perform summarization on the transcription transcription_summary = self.bart_summarizer( results["text"], max_length=150, min_length=30, do_sample=False, truncation=True ) #### Resumen multilingue WHITESPACE_HANDLER = lambda k: re.sub('\s+', ' ', re.sub('\n+', ' ', k.strip())) input_ids_sum = self.mt5_tokenizer( [WHITESPACE_HANDLER(results["text"])], return_tensors="pt", padding="max_length", truncation=True, max_length=512 )["input_ids"] output_ids_sum = self.mt5_model.generate( input_ids=input_ids_sum, max_length=130, no_repeat_ngram_size=2, num_beams=4 )[0] summary = self.mt5_tokenizer.decode( output_ids_sum, skip_special_tokens=True, clean_up_tokenization_spaces=False ) #### Fin resumen multilingue progress(0.50, desc="Extracting Keywords") # Extract keywords using VoiceLabT5 task_prefix = "Keywords: " input_sequence = task_prefix + results["text"] input_ids = self.keyword_tokenizer( input_sequence, return_tensors="pt", truncation=False ).input_ids output = self.keyword_model.generate( input_ids, no_repeat_ngram_size=3, num_beams=4 ) predicted = self.keyword_tokenizer.decode(output[0], skip_special_tokens=True) keywords = [x.strip() for x in predicted.split(",") if x.strip()] formatted_keywords = "\n".join([f"β’ {keyword}" for keyword in keywords]) progress(0.80, desc="Extracting Sentiment") # Define a dictionary to map labels to emojis sentiment_emojis = { "positive": "Positive ππΌ", "negative": "Negative ππΌ", "neutral": "Neutral πΆ", } # Sentiment label label = self.classifier(summary)[0]["label"] # Format the label with emojis formatted_sentiment = sentiment_emojis.get(label, label) progress(0.90, desc="Generating Wordcloud") # WordCloud object wordcloud = WordCloud(colormap = "Oranges").generate( results["text"] ) wordcloud_image = wordcloud.to_image() if lang == "english" or lang == "none": return ( results["text"], transcription_summary[0]["summary_text"], formatted_keywords, formatted_sentiment, wordcloud_image, ) else: return ( results["text"], summary, formatted_keywords, formatted_sentiment, wordcloud_image, ) def from_article(self, article, progress=gr.Progress()): """ Call the Gradio Inference python class. Acepts the user's text imput, then it performs: - Summary: using Facebook's BART transformer. - KeyWords: using VoiceLabT5 keyword extractor. - Sentiment Analysis: using Hugging Face's default sentiment classifier - WordCloud: using the wordcloud python library. """ progress(0, desc="Starting analysis") progress(0.30, desc="Summarizing") # Perform summarization on the transcription transcription_summary = self.bart_summarizer( article, max_length=150, min_length=30, do_sample=False, truncation=True ) #### Resumen multilingue WHITESPACE_HANDLER = lambda k: re.sub('\s+', ' ', re.sub('\n+', ' ', k.strip())) input_ids_sum = self.mt5_tokenizer( [WHITESPACE_HANDLER(article)], return_tensors="pt", padding="max_length", truncation=True, max_length=512 )["input_ids"] output_ids_sum = self.mt5_model.generate( input_ids=input_ids_sum, max_length=130, no_repeat_ngram_size=2, num_beams=4 )[0] summary = self.mt5_tokenizer.decode( output_ids_sum, skip_special_tokens=True, clean_up_tokenization_spaces=False ) #### Fin resumen multilingue progress(0.60, desc="Extracting Keywords") # Extract keywords using VoiceLabT5 task_prefix = "Keywords: " input_sequence = task_prefix + article input_ids = self.keyword_tokenizer( input_sequence, return_tensors="pt", truncation=False ).input_ids output = self.keyword_model.generate( input_ids, no_repeat_ngram_size=3, num_beams=4 ) predicted = self.keyword_tokenizer.decode(output[0], skip_special_tokens=True) keywords = [x.strip() for x in predicted.split(",") if x.strip()] formatted_keywords = "\n".join([f"β’ {keyword}" for keyword in keywords]) progress(0.80, desc="Extracting Sentiment") # Define a dictionary to map labels to emojis sentiment_emojis = { "positive": "Positive ππΌ", "negative": "Negative ππΌ", "neutral": "Neutral πΆ", } # Sentiment label label = self.classifier(summary)[0]["label"] # Format the label with emojis formatted_sentiment = sentiment_emojis.get(label, label) progress(0.90, desc="Generating Wordcloud") # WordCloud object wordcloud = WordCloud(colormap = "Oranges").generate( article ) wordcloud_image = wordcloud.to_image() return ( transcription_summary[0]["summary_text"], formatted_keywords, formatted_sentiment, wordcloud_image, ) gio = GradioInference() title = "Media Insights" description = "Your AI-powered video analytics tool" theme = gr.themes.Soft(spacing_size="lg", radius_size="lg") block = gr.Blocks(theme=theme) with block as demo: gr.HTML( """
Trabajo de Fin de MΓ‘ster - Grupo 3
2022/23 Master in Big Data & Data Science - Universidad Complutense de Madrid