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aihumanifierandgrmoform / app.py

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	import os
	import gradio as gr
	from transformers import pipeline
	import spacy
	import subprocess
	import nltk
	from nltk.corpus import wordnet
	from spellchecker import SpellChecker
	import re

	# Initialize the English text classification pipeline for AI detection
	pipeline_en = pipeline(task="text-classification", model="Hello-SimpleAI/chatgpt-detector-roberta")

	# Initialize the spell checker
	spell = SpellChecker()

	# Ensure necessary NLTK data is downloaded
	nltk.download('wordnet')
	nltk.download('omw-1.4')

	# Ensure the SpaCy model is installed
	try:
	nlp = spacy.load("en_core_web_sm")
	except OSError:
	subprocess.run(["python", "-m", "spacy", "download", "en_core_web_sm"])
	nlp = spacy.load("en_core_web_sm")

	# Function to predict the label and score for English text (AI Detection)
	def predict_en(text):
	res = pipeline_en(text)[0]
	return res['label'], res['score']

	# Function to remove redundant and meaningless words
	def remove_redundant_words(text):
	doc = nlp(text)
	meaningless_words = {"actually", "basically", "literally", "really", "very", "just"}
	filtered_text = [token.text for token in doc if token.text.lower() not in meaningless_words]
	return ' '.join(filtered_text)

	# Function to fix spacing before punctuation
	def fix_punctuation_spacing(text):
	# Remove spaces before commas, periods, question marks, etc.
	text = re.sub(r'\s+([,.\'!?:])', r'\1', text)
	return text

	# Function to fix possessives like "Earth's"
	def fix_possessives(text):
	# Simple rule to catch possessives and correct spacing
	text = re.sub(r'(\w)\s\'\s?s', r"\1's", text)
	return text

	# Function to capitalize the first letter of sentences and proper nouns
	def capitalize_sentences_and_nouns(text):
	doc = nlp(text)
	corrected_text = []

	for sent in doc.sents:
	sentence = []
	for token in sent:
	if token.i == sent.start: # First word of the sentence
	sentence.append(token.text.capitalize())
	elif token.pos_ == "PROPN": # Proper noun
	sentence.append(token.text.capitalize())
	else:
	sentence.append(token.text)
	corrected_text.append(' '.join(sentence))

	return ' '.join(corrected_text)

	# Function to force capitalization of the first letter of every sentence
	def force_first_letter_capital(text):
	sentences = text.split(". ")
	capitalized_sentences = [sentence[0].capitalize() + sentence[1:] if sentence else "" for sentence in sentences]
	return ". ".join(capitalized_sentences)

	# Function to correct tense errors in a sentence
	def correct_tense_errors(text):
	doc = nlp(text)
	corrected_text = []
	for token in doc:
	if token.pos_ == "VERB" and token.dep_ in {"aux", "auxpass"}:
	lemma = wordnet.morphy(token.text, wordnet.VERB) or token.text
	corrected_text.append(lemma)
	else:
	corrected_text.append(token.text)
	return ' '.join(corrected_text)

	# Function to check and correct article errors
	def correct_article_errors(text):
	doc = nlp(text)
	corrected_text = []
	for token in doc:
	if token.text in ['a', 'an']:
	next_token = token.nbor(1)
	if token.text == "a" and next_token.text[0].lower() in "aeiou":
	corrected_text.append("an")
	elif token.text == "an" and next_token.text[0].lower() not in "aeiou":
	corrected_text.append("a")
	else:
	corrected_text.append(token.text)
	else:
	corrected_text.append(token.text)
	return ' '.join(corrected_text)

	# Function to ensure subject-verb agreement
	def ensure_subject_verb_agreement(text):
	doc = nlp(text)
	corrected_text = []
	for token in doc:
	if token.dep_ == "nsubj" and token.head.pos_ == "VERB":
	if token.tag_ == "NN" and token.head.tag_ != "VBZ": # Singular noun, should use singular verb
	corrected_text.append(token.head.lemma_ + "s")
	elif token.tag_ == "NNS" and token.head.tag_ == "VBZ": # Plural noun, should not use singular verb
	corrected_text.append(token.head.lemma_)
	corrected_text.append(token.text)
	return ' '.join(corrected_text)

	# Function to correct spelling errors
	def correct_spelling(text):
	words = text.split()
	corrected_words = []
	for word in words:
	corrected_word = spell.correction(word)
	if corrected_word is not None:
	corrected_words.append(corrected_word)
	else:
	corrected_words.append(word) # Keep the original word if correction is None
	return ' '.join(corrected_words)

	# Main function for paraphrasing and grammar correction
	def paraphrase_and_correct(text):
	# Remove meaningless or redundant words first
	cleaned_text = remove_redundant_words(text)

	# Capitalize sentences and nouns
	paraphrased_text = capitalize_sentences_and_nouns(cleaned_text)

	# Ensure first letter of each sentence is capitalized
	paraphrased_text = force_first_letter_capital(paraphrased_text)

	# Apply grammatical corrections
	paraphrased_text = correct_article_errors(paraphrased_text)
	paraphrased_text = correct_tense_errors(paraphrased_text)
	paraphrased_text = ensure_subject_verb_agreement(paraphrased_text)

	# Fix punctuation spacing and possessives
	paraphrased_text = fix_punctuation_spacing(paraphrased_text)
	paraphrased_text = fix_possessives(paraphrased_text)

	# Correct spelling errors
	paraphrased_text = correct_spelling(paraphrased_text)

	return paraphrased_text

	# Gradio app setup
	with gr.Blocks() as demo:
	with gr.Tab("AI Detection"):
	t1 = gr.Textbox(lines=5, label='Text')
	button1 = gr.Button("🤖 Predict!")
	label1 = gr.Textbox(lines=1, label='Predicted Label 🎃')
	score1 = gr.Textbox(lines=1, label='Prob')

	button1.click(fn=predict_en, inputs=t1, outputs=[label1, score1])

	with gr.Tab("Paraphrasing & Grammar Correction"):
	t2 = gr.Textbox(lines=5, label='Enter text for paraphrasing and grammar correction')
	button2 = gr.Button("🔄 Paraphrase and Correct")
	result2 = gr.Textbox(lines=5, label='Corrected Text')

	button2.click(fn=paraphrase_and_correct, inputs=t2, outputs=result2)

	demo.launch(share=True)