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health-article-keyphrase-generator / app.py

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	import nltk
	import re
	import nltkmodule
	from newspaper import Article
	from newspaper import fulltext
	import requests
	from nltk.tokenize import word_tokenize
	from sentence_transformers import SentenceTransformer, models, losses, LoggingHandler
	import pandas as pd
	import numpy as np
	from torch.utils.data import DataLoader
	import math
	from sentence_transformers.evaluation import EmbeddingSimilarityEvaluator
	from sentence_transformers.readers import *
	from nltk.corpus import stopwords
	stop_words = stopwords.words('english')
	from sklearn.metrics.pairwise import cosine_similarity
	import networkx as nx
	from nltk.tokenize import sent_tokenize
	import scispacy
	import en_core_sci_lg
	import string
	import gradio as gr
	import inflect

	inflect_op = inflect.engine()
	nlp = en_core_sci_lg.load()
	sp = en_core_sci_lg.load()
	all_stopwords = sp.Defaults.stop_words


	def remove_stopwords(sen):
	sen_new = " ".join([i for i in sen if i not in stop_words])
	return sen_new

	def keyphrase_generator(article_link, model_1, model_2, max_num_keywords):
	element=[]
	final_textrank_list=[]
	document=[]
	text_doc=[]
	score_list=[]
	sum_list=[]
	model_1 = SentenceTransformer(model_1)
	model_2 = SentenceTransformer(model_2)
	url = article_link
	html = requests.get(url).text
	article = fulltext(html)
	corpus=sent_tokenize(article)
	indicator_list=['concluded','concludes','in a study', 'concluding','conclude','in sum','in a recent study','therefore','thus','so','hence',
	'as a result','accordingly','consequently','in short','proves that','shows that','suggests that','demonstrates that','found that','observed that',
	'indicated that','suggested that','demonstrated that']
	count_dict={}
	for l in corpus:
	c=0
	for l2 in indicator_list:
	if l.find(l2)!=-1: ### then it is a substring
	c=1
	break
	if c:#
	count_dict[l]=1
	else:
	count_dict[l]=0
	for sent, score in count_dict.items():
	score_list.append(score)
	clean_sentences_new = pd.Series(corpus).str.replace("[^a-zA-Z]", " ", regex=True).tolist()
	corpus_embeddings = model_1.encode(clean_sentences_new)
	sim_mat = np.zeros([len(clean_sentences_new), len(clean_sentences_new)])
	for i in range(len(clean_sentences_new)):
	len_embeddings=(len(corpus_embeddings[i]))
	for j in range(len(clean_sentences_new)):
	if i != j:
	if(len_embeddings == 1024):
	sim_mat[i][j] = cosine_similarity(corpus_embeddings[i].reshape(1,1024), corpus_embeddings[j].reshape(1,1024))[0,0]
	elif(len_embeddings == 768):
	sim_mat[i][j] = cosine_similarity(corpus_embeddings[i].reshape(1,768), corpus_embeddings[j].reshape(1,768))[0,0]
	nx_graph = nx.from_numpy_array(sim_mat)
	scores = nx.pagerank(nx_graph)
	sentences=((scores[i],s) for i,s in enumerate(corpus))

	for elem in sentences:
	element.append(elem[0])
	for sc, lst in zip(score_list, element): ########### taking the scores from both the lists
	sum1=sc+lst
	sum_list.append(sum1)
	x=sorted(((sum_list[i],s) for i,s in enumerate(corpus)), reverse=True)
	for elem in x:
	final_textrank_list.append(elem[1])
	a=int((10*len(final_textrank_list))/100.0)
	if(a<5):
	total=5
	else:
	total=int(a)
	for i in range(total):
	document.append(final_textrank_list[i])
	doc=" ".join(document)
	for i in document:
	doc_1=nlp(i)
	text_doc.append([X.text for X in doc_1.ents])
	entity_list = [item for sublist in text_doc for item in sublist]
	entity_list = [word for word in entity_list if not word in all_stopwords]
	entity_list = [word_entity for word_entity in entity_list if(inflect_op.singular_noun(word_entity) == False)]
	entity_list=list(dict.fromkeys(entity_list))
	doc_embedding = model_2.encode([doc])
	candidates=entity_list
	candidate_embeddings = model_2.encode(candidates)
	distances = cosine_similarity(doc_embedding, candidate_embeddings)
	top_n = max_num_keywords
	keyword_list = [candidates[index] for index in distances.argsort()[0][-top_n:]]
	keywords = '\n'.join(keyword_list)
	return keywords

	igen=gr.Interface(keyphrase_generator,
	inputs=[gr.components.Textbox(lines=1, placeholder="Provide an online health article web link here",default="", label="Article web link"),
	gr.components.Dropdown(choices=['sentence-transformers/all-mpnet-base-v2',
	'sentence-transformers/all-mpnet-base-v1',
	'sentence-transformers/all-distilroberta-v1',
	'sentence-transformers/gtr-t5-large',
	'pritamdeka/S-Bluebert-snli-multinli-stsb',
	'pritamdeka/S-Biomed-Roberta-snli-multinli-stsb',
	'sentence-transformers/stsb-mpnet-base-v2',
	'sentence-transformers/all-roberta-large-v1',
	'sentence-transformers/stsb-roberta-base-v2',
	'sentence-transformers/stsb-distilroberta-base-v2',
	'sentence-transformers/sentence-t5-large',
	'sentence-transformers/sentence-t5-base'],
	type="value",
	default='pritamdeka/S-Biomed-Roberta-snli-multinli-stsb',
	label="Select any SBERT model for TextRank from the list below"),
	gr.components.Dropdown(choices=['sentence-transformers/paraphrase-mpnet-base-v2',
	'sentence-transformers/all-mpnet-base-v1',
	'sentence-transformers/paraphrase-distilroberta-base-v1',
	'sentence-transformers/paraphrase-xlm-r-multilingual-v1',
	'sentence-transformers/paraphrase-multilingual-mpnet-base-v2',
	'sentence-transformers/paraphrase-albert-small-v2',
	'sentence-transformers/paraphrase-albert-base-v2',
	'sentence-transformers/paraphrase-MiniLM-L12-v2',
	'sentence-transformers/paraphrase-MiniLM-L6-v2',
	'sentence-transformers/all-MiniLM-L12-v2',
	'sentence-transformers/all-distilroberta-v1',
	'sentence-transformers/paraphrase-TinyBERT-L6-v2',
	'sentence-transformers/paraphrase-MiniLM-L3-v2',
	'sentence-transformers/all-MiniLM-L6-v2'],
	type="value",
	default='sentence-transformers/all-mpnet-base-v1',
	label="Select any SBERT model for keyphrases from the list below"),
	gr.components.Slider(minimum=5, maximum=30, step=1, default=10, label="Max Keywords")],
	outputs=gr.outputs.Textbox(type="text", label="Output"), theme="peach",
	title="Health Article Keyphrase Generator",
	description="Generates the keyphrases from an online health article which best describes the article. ", #Examples are provided below for demo purposes. Choose any one example to see the results. ",
	#examples=[
	# ["https://www.cancer.news/2021-12-22-mrna-vaccines-weaken-immune-system-cause-cancer.html",
	# 'sentence-transformers/all-mpnet-base-v1',
	# 'sentence-transformers/paraphrase-MiniLM-L12-v2',
	# 10],

	# ["https://www.cancer.news/2022-02-04-doctors-testifying-covid-vaccines-causing-cancer-aids.html#",
	# 'sentence-transformers/all-mpnet-base-v1',
	# 'sentence-transformers/all-mpnet-base-v1',
	# 12],

	# ["https://www.medicalnewstoday.com/articles/alzheimers-addressing-sleep-disturbance-may-alleviate-symptoms",
	# 'pritamdeka/S-Biomed-Roberta-snli-multinli-stsb',
	# 'sentence-transformers/all-mpnet-base-v1',
	# 10],

	# ["https://www.medicalnewstoday.com/articles/omicron-what-do-we-know-about-the-stealth-variant",
	# 'pritamdeka/S-Biomed-Roberta-snli-multinli-stsb',
	# 'sentence-transformers/all-mpnet-base-v1',
	# 15]
	# ],
	article= "The work is based on a part of the paper provided <a href=https://dl.acm.org/doi/10.1145/3487664.3487701>here</a>."
	"\t It uses the TextRank algorithm with <a href=https://www.sbert.net/>SBERT</a> to first find the top ranked sentences and then extracts the keyphrases"
	"\t from those sentences using <a href = https://allenai.github.io/scispacy/>scispaCy</a> and SBERT."
	"\t The list of SBERT models provided can be found in <a href=www.sbert.net/docs/pretrained_models.html>SBERT Pre-trained models hub</a>."
	"\t The default model names are provided which can be changed from the list of models available. "
	"\t The value of output keyphrases can be changed. The default value is 10, minimum is 5 and a maximum value of 30.")

	igen.launch(share=False)
	####