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	import os
	import gradio as gr
	import nltk
	import numpy as np
	import tflearn
	import random
	import json
	import pickle
	from nltk.tokenize import word_tokenize
	from nltk.stem.lancaster import LancasterStemmer
	from transformers import AutoTokenizer, AutoModelForSequenceClassification, pipeline
	import googlemaps
	import folium
	import torch
	import pandas as pd
	from sklearn.tree import DecisionTreeClassifier
	from sklearn.ensemble import RandomForestClassifier
	from sklearn.naive_bayes import GaussianNB
	from sklearn.metrics import accuracy_score

	# Suppress TensorFlow warnings
	os.environ["CUDA_VISIBLE_DEVICES"] = "-1"
	os.environ["TF_CPP_MIN_LOG_LEVEL"] = "3"

	# Download necessary NLTK resources
	nltk.download("punkt")
	stemmer = LancasterStemmer()

	# Load intents and chatbot training data
	with open("intents.json") as file:
	intents_data = json.load(file)

	with open("data.pickle", "rb") as f:
	words, labels, training, output = pickle.load(f)

	# Build the chatbot model
	net = tflearn.input_data(shape=[None, len(training[0])])
	net = tflearn.fully_connected(net, 8)
	net = tflearn.fully_connected(net, 8)
	net = tflearn.fully_connected(net, len(output[0]), activation="softmax")
	net = tflearn.regression(net)
	chatbot_model = tflearn.DNN(net)
	chatbot_model.load("MentalHealthChatBotmodel.tflearn")

	# Hugging Face sentiment and emotion models
	tokenizer_sentiment = AutoTokenizer.from_pretrained("cardiffnlp/twitter-roberta-base-sentiment")
	model_sentiment = AutoModelForSequenceClassification.from_pretrained("cardiffnlp/twitter-roberta-base-sentiment")
	tokenizer_emotion = AutoTokenizer.from_pretrained("j-hartmann/emotion-english-distilroberta-base")
	model_emotion = AutoModelForSequenceClassification.from_pretrained("j-hartmann/emotion-english-distilroberta-base")

	# Google Maps API Client
	gmaps = googlemaps.Client(key=os.getenv("GOOGLE_API_KEY"))

	# Disease Prediction Code
	def load_data():
	df = pd.read_csv("Training.csv")
	tr = pd.read_csv("Testing.csv")

	disease_dict = {
	# Disease encoding dictionary...
	}
	df.replace({'prognosis': disease_dict}, inplace=True)
	df = df.infer_objects(copy=False)

	tr.replace({'prognosis': disease_dict}, inplace=True)
	tr = tr.infer_objects(copy=False)

	return df, tr, disease_dict

	df, tr, disease_dict = load_data()
	l1 = list(df.columns[:-1])
	X = df[l1]
	y = df['prognosis']
	X_test = tr[l1]
	y_test = tr['prognosis']

	def train_models():
	models = {
	"Decision Tree": DecisionTreeClassifier(),
	"Random Forest": RandomForestClassifier(),
	"Naive Bayes": GaussianNB()
	}
	trained_models = {}
	for model_name, model_obj in models.items():
	model_obj.fit(X, y)
	acc = accuracy_score(y_test, model_obj.predict(X_test))
	trained_models[model_name] = (model_obj, acc)
	return trained_models

	trained_models = train_models()

	def predict_disease(model, symptoms):
	input_test = np.zeros(len(l1))
	for symptom in symptoms:
	if symptom in l1:
	input_test[l1.index(symptom)] = 1
	prediction = model.predict([input_test])[0]
	return list(disease_dict.keys())[list(disease_dict.values()).index(prediction)]

	def disease_prediction_interface(symptoms):
	symptoms_selected = [s for s in symptoms if s != "None"]

	if len(symptoms_selected) < 3:
	return "Please select at least 3 symptoms for accurate prediction."

	results = []
	for model_name, (model, acc) in trained_models.items():
	prediction = predict_disease(model, symptoms_selected)
	results.append(f"{model_name} Prediction: Predicted Disease: {prediction} (Accuracy: *{acc 100:.2f}%**)")

	return results

	# Helper Functions (for chatbot)
	def bag_of_words(s, words):
	bag = [0] * len(words)
	s_words = word_tokenize(s)
	s_words = [stemmer.stem(word.lower()) for word in s_words if word.isalnum()]
	for se in s_words:
	for i, w in enumerate(words):
	if w == se:
	bag[i] = 1
	return np.array(bag)

	def generate_chatbot_response(message, history):
	history = history or []
	try:
	result = chatbot_model.predict([bag_of_words(message, words)])
	tag = labels[np.argmax(result)]
	response = "I'm sorry, I didn't understand that. 🤔"
	for intent in intents_data["intents"]:
	if intent["tag"] == tag:
	response = random.choice(intent["responses"])
	break
	except Exception as e:
	response = f"Error: {e}"
	history.append((message, response))
	return history, response

	def analyze_sentiment(user_input):
	inputs = tokenizer_sentiment(user_input, return_tensors="pt")
	with torch.no_grad():
	outputs = model_sentiment(**inputs)
	sentiment_class = torch.argmax(outputs.logits, dim=1).item()
	sentiment_map = ["Negative 😔", "Neutral 😐", "Positive 😊"]
	return f"Sentiment: {sentiment_map[sentiment_class]}"

	def detect_emotion(user_input):
	pipe = pipeline("text-classification", model=model_emotion, tokenizer=tokenizer_emotion)
	result = pipe(user_input)
	emotion = result[0]["label"].lower().strip()
	emotion_map = {
	"joy": "Joy 😊",
	"anger": "Anger 😠",
	"sadness": "Sadness 😢",
	"fear": "Fear 😨",
	"surprise": "Surprise 😲",
	"neutral": "Neutral 😐",
	}
	return emotion_map.get(emotion, "Unknown 🤔"), emotion

	def generate_suggestions(emotion):
	emotion_key = emotion.lower()
	suggestions = {
	# Suggestions based on emotion...
	}

	formatted_suggestions = [
	[title, f'<a href="{link}" target="_blank">{link}</a>'] for title, link in suggestions.get(emotion_key, [["No specific suggestions available.", "#"]])
	]
	return formatted_suggestions

	def get_health_professionals_and_map(location, query):
	try:
	if not location or not query:
	return [], ""
	geo_location = gmaps.geocode(location)
	if geo_location:
	lat, lng = geo_location[0]["geometry"]["location"].values()
	places_result = gmaps.places_nearby(location=(lat, lng), radius=10000, keyword=query)["results"]
	professionals = []
	map_ = folium.Map(location=(lat, lng), zoom_start=13)
	for place in places_result:
	professionals.append([place['name'], place.get('vicinity', 'No address provided')])
	folium.Marker(
	location=[place["geometry"]["location"]["lat"], place["geometry"]["location"]["lng"]],
	popup=f"{place['name']}"
	).add_to(map_)
	return professionals, map_._repr_html_()
	return [], ""
	except Exception as e:
	return [], ""

	# Main Application Logic
	def app_function(user_input, location, query, symptoms, history):
	chatbot_history, _ = generate_chatbot_response(user_input, history)
	sentiment_result = analyze_sentiment(user_input)
	emotion_result, cleaned_emotion = detect_emotion(user_input)
	suggestions = generate_suggestions(cleaned_emotion)
	professionals, map_html = get_health_professionals_and_map(location, query)
	disease_results = disease_prediction_interface(symptoms)

	return (
	chatbot_history,
	sentiment_result,
	emotion_result,
	suggestions,
	professionals,
	map_html,
	disease_results
	)

	# CSS Styling
	custom_css = """
	body {
	font-family: 'Roboto', sans-serif;
	background-color: #3c6487;
	color: white;
	}
	h1 {
	background: #ffffff;
	color: #000000;
	border-radius: 8px;
	padding: 10px;
	font-weight: bold;
	text-align: center;
	font-size: 2.5rem;
	}
	textarea, input {
	background: transparent;
	color: black;
	border: 2px solid orange;
	padding: 8px;
	font-size: 1rem;
	caret-color: black;
	outline: none;
	border-radius: 8px;
	}
	textarea:focus, input:focus {
	background: transparent;
	color: black;
	border: 2px solid orange;
	outline: none;
	}
	.df-container {
	background: white;
	color: black;
	border: 2px solid orange;
	border-radius: 10px;
	padding: 10px;
	font-size: 14px;
	max-height: 400px;
	height: auto;
	overflow-y: auto;
	}
	#suggestions-title {
	text-align: center !important;
	font-weight: bold !important;
	color: white !important;
	font-size: 4.2rem !important;
	margin-bottom: 20px !important;
	}
	.gr-button {
	background-color: #ae1c93;
	box-shadow: 0 4px 6px rgba(0, 0, 0, 0.1), 0 2px 4px rgba(0, 0, 0, 0.06);
	transition: background-color 0.3s ease;
	}
	.gr-button:hover {
	background-color: #8f167b;
	}
	.gr-button:active {
	background-color: #7f156b;
	}
	"""

	# Gradio Application
	with gr.Blocks(css=custom_css) as app:
	gr.HTML("<h1>🌟 Well-Being Companion</h1>")
	with gr.Row():
	user_input = gr.Textbox(label="Please Enter Your Message Here")
	location = gr.Textbox(label="Your Current Location Here")
	query = gr.Textbox(label="Search Health Professionals Nearby")

	# New Row for Disease Prediction Symptoms
	with gr.Row():
	symptom1 = gr.Dropdown(choices=["None"] + l1, label="Symptom 1")
	symptom2 = gr.Dropdown(choices=["None"] + l1, label="Symptom 2")
	symptom3 = gr.Dropdown(choices=["None"] + l1, label="Symptom 3")
	symptom4 = gr.Dropdown(choices=["None"] + l1, label="Symptom 4")
	symptom5 = gr.Dropdown(choices=["None"] + l1, label="Symptom 5")

	submit = gr.Button(value="Submit", variant="primary")

	chatbot = gr.Chatbot(label="Chat History")
	sentiment = gr.Textbox(label="Detected Sentiment")
	emotion = gr.Textbox(label="Detected Emotion")

	# Suggestions Title
	gr.Markdown("Suggestions", elem_id="suggestions-title")

	suggestions = gr.DataFrame(headers=["Title", "Link"]) # Suggestions DataFrame
	professionals = gr.DataFrame(label="Nearby Health Professionals", headers=["Name", "Address"]) # Professionals DataFrame
	map_html = gr.HTML(label="Interactive Map")
	disease_predictions = gr.Textbox(label="Disease Predictions") # For Disease Prediction Results

	submit.click(
	app_function,
	inputs=[user_input, location, query, [symptom1, symptom2, symptom3, symptom4, symptom5], chatbot],
	outputs=[chatbot, sentiment, emotion, suggestions, professionals, map_html, disease_predictions],
	)

	app.launch()