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mle10-glg-demo / app.py

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	# Imports
	import gradio as gr
	from sklearn.linear_model import LogisticRegression
	import pickle5 as pickle
	import re
	import string
	import nltk
	from nltk.corpus import stopwords
	nltk.download('stopwords')
	from sklearn.feature_extraction.text import CountVectorizer
	from sklearn.feature_extraction.text import TfidfVectorizer
	from flair.data import Sentence
	from flair.models import SequenceTagger

	# file name
	#lr_filename = 'lr_021223.pkl'

	# Load model from pickle file
	# model = pickle.load(open(lr_filename, 'rb'))


	# Process input text, including removing stopwords, converting to lowercase, and removing punctuation
	stop = stopwords.words('english')
	def process_text(text):
	text = [word for word in text.split() if word not in stop]
	text = str(text).lower()
	text = re.sub(
	f"[{re.escape(string.punctuation)}]", " ", text
	)
	text = " ".join(text.split())
	return text

	# Vectorize input text
	vec = CountVectorizer()
	'''
	def vectorize_text(text):
	#text = process_text(text)
	#text = vectorizer.fit_transform([text])
	#return text
	'''

	# Valid input for the model so number of features match
	def predict(text):
	# Load the pickled model
	filename = 'lr_021223.pkl'
	loaded_model = pickle.load(open(filename, 'rb'))
	text = vec.transform([text])
	text = process_text(text)
	prediction = loaded_model.predict(text)
	return prediction

	'''
	Prediction function
	#def predict(text):
	#text = vectorize_text(text)
	#prediction = model.predict(text)
	#return prediction
	'''

	# Specify NER model
	tagger = SequenceTagger.load('best-model.pt') # SequenceTagger.load('best-model.pt')

	# Runs NER on input text
	def run_ner(input_text):
	sentence = Sentence(input_text)
	tagger.predict(sentence)
	output = []
	for entity in sentence.get_spans('ner'):
	output.append({'entity': entity.get_label('ner').value, 'word': entity.text, 'start': entity.start_position, 'end': entity.end_position})
	return {"text": input_text, "entities": output}

	# Run both models, and return a tuple of their results
	def run_models(input_text):
	prediction = 0 # This "0" is a placeholder to avoid errors; once the LR model is working, use this instead: prediction = predict(input_text)
	entities = run_ner(input_text)
	return prediction, entities

	# Define interface
	demo = gr.Interface(fn=run_models,
	title="Text Classification & Named Entity Recognition Demo",
	description="This is a demo of a text classification model using logistic regression as well as a named entity recognition model. Enter in some text or use one of the provided examples. Note that common named entity recognition tags include geo (geographical entity), org (organization), per (person), and tim (time).",
	article='This demo is based on Logistic Regression and Named Entity Recognition models trained by Curtis Pond and Julia Nickerson as part of their FourthBrain capstone project. For more information, check out their [GitHub repo](https://github.com/nickersonj/glg-capstone).',
	inputs=gr.Textbox(lines=10, placeholder='Input text here...', label="Input Text"),
	outputs=[gr.Textbox(label="Predicted Classification Label: Other: 0, Healthcare: 1, Technology: 2", lines=2, placeholder='Predicted label will appear here...'),
	gr.HighlightedText(label='Named Entity Recognition Results')],
	# These examples are just placeholders; once the LR model is working, we can use longer example text such as paragraphs
	examples=['The indictments were announced Tuesday by the Justice Department in Cairo.', "In 2019, the men's singles winner was Novak Djokovic who defeated Roger Federer in a tournament taking place in the United Kingdom.", 'In a study published by the American Heart Association on January 18, researchers at the Johns Hopkins School of Medicine found that meal timing did not impact weight.'],
	allow_flagging='never'
	)

	demo.launch()