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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
# 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 get synonyms using NLTK WordNet
def get_synonyms_nltk(word, pos):
synsets = wordnet.synsets(word, pos=pos)
if synsets:
lemmas = synsets[0].lemmas()
return [lemma.name() for lemma in lemmas]
return []
# 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 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(". ") # Split by period to get each sentence
capitalized_sentences = [sentence[0].capitalize() + sentence[1:] if sentence else "" for sentence in sentences]
return ". ".join(capitalized_sentences)
# Function to handle possessive 's and retain original meaning
def handle_possessives(text):
doc = nlp(text)
corrected_text = []
for token in doc:
# If token is a possessive form (e.g., 'Earth's'), retain its original form
if token.text.endswith("'s") or token.text == "'s":
corrected_text.append(token.text) # Keep it as is, even if a synonym is found
else:
corrected_text.append(token.text)
return ' '.join(corrected_text)
# 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 correct singular/plural errors
def correct_singular_plural_errors(text):
doc = nlp(text)
corrected_text = []
for token in doc:
if token.pos_ == "NOUN":
if token.tag_ == "NN": # Singular noun
if any(child.text.lower() in ['many', 'several', 'few'] for child in token.head.children):
corrected_text.append(token.lemma_ + 's')
else:
corrected_text.append(token.text)
elif token.tag_ == "NNS": # Plural noun
if any(child.text.lower() in ['a', 'one'] for child in token.head.children):
corrected_text.append(token.lemma_)
else:
corrected_text.append(token.text)
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 get the correct synonym while maintaining verb form
def replace_with_synonym(token):
pos = None
if token.pos_ == "VERB":
pos = wordnet.VERB
elif token.pos_ == "NOUN":
pos = wordnet.NOUN
elif token.pos_ == "ADJ":
pos = wordnet.ADJ
elif token.pos_ == "ADV":
pos = wordnet.ADV
synonyms = get_synonyms_nltk(token.lemma_, pos)
if synonyms:
synonym = synonyms[0]
if token.tag_ == "VBG": # Present participle (e.g., running)
synonym = synonym + 'ing'
elif token.tag_ == "VBD" or token.tag_ == "VBN": # Past tense or past participle
synonym = synonym + 'ed'
elif token.tag_ == "VBZ": # Third-person singular present
synonym = synonym + 's'
return synonym
return token.text
# Function to check for and avoid double negatives
def correct_double_negatives(text):
doc = nlp(text)
corrected_text = []
for token in doc:
if token.text.lower() == "not" and any(child.text.lower() == "never" for child in token.head.children):
corrected_text.append("always")
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)
corrected_words.append(corrected_word)
return ' '.join(corrected_words)
# Function to rephrase text and replace words with their synonyms while maintaining form
def rephrase_with_synonyms(text):
doc = nlp(text)
rephrased_text = []
for token in doc:
pos_tag = None
if token.pos_ == "NOUN":
pos_tag = wordnet.NOUN
elif token.pos_ == "VERB":
pos_tag = wordnet.VERB
elif token.pos_ == "ADJ":
pos_tag = wordnet.ADJ
elif token.pos_ == "ADV":
pos_tag = wordnet.ADV
if pos_tag:
synonyms = get_synonyms_nltk(token.text, pos_tag)
if synonyms:
synonym = synonyms[0] # Just using the first synonym for simplicity
if token.pos_ == "VERB":
if token.tag_ == "VBG": # Present participle (e.g., running)
synonym = synonym + 'ing'
elif token.tag_ == "VBD" or token.tag_ == "VBN": # Past tense or past participle
synonym = synonym + 'ed'
elif token.tag_ == "VBZ": # Third-person singular present
synonym = synonym + 's'
elif token.pos_ == "NOUN" and token.tag_ == "NNS": # Plural nouns
synonym += 's' if not synonym.endswith('s') else ""
rephrased_text.append(synonym)
else:
rephrased_text.append(token.text)
else:
rephrased_text.append(token.text)
return ' '.join(rephrased_text)
# Retain the structure of the input text (headings, paragraphs, line breaks)
def retain_structure(text):
lines = text.split("\n")
formatted_lines = []
for line in lines:
if line.strip().isupper(): # Heading if all caps
formatted_lines.append(f"# {line.strip()}") # Treat it as a heading
else:
formatted_lines.append(line) # Otherwise, it's a paragraph or normal text
return "\n".join(formatted_lines)
# Function to paraphrase and correct grammar with enhanced accuracy and retain structure
def paraphrase_and_correct(text):
# Retain the structure (headings, paragraphs, line breaks)
structured_text = retain_structure(text)
# Remove meaningless or redundant words first
cleaned_text = remove_redundant_words(structured_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)
# Handle possessives properly
paraphrased_text = handle_possessives(paraphrased_text)
# Apply grammatical corrections
paraphrased_text = correct_article_errors(paraphrased_text)
paraphrased_text = correct_singular_plural_errors(paraphrased_text)
paraphrased_text = correct_tense_errors(paraphrased_text)
paraphrased_text = correct_double_negatives(paraphrased_text)
paraphrased_text = ensure_subject_verb_agreement(paraphrased_text)
# Rephrase with synonyms while maintaining grammatical forms
paraphrased_text = rephrase_with_synonyms(paraphrased_text)
# Correct spelling errors
paraphrased_text = correct_spelling(paraphrased_text)
return paraphrased_text
# Gradio app setup with two tabs
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')
# Connect the prediction function to the button
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')
# Connect the paraphrasing and correction function to the button
button2.click(fn=paraphrase_and_correct, inputs=t2, outputs=result2)
demo.launch(share=True) # Share=True to create a public link