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	from gradio_client import Client
	import numpy as np
	import gradio as gr
	import requests
	import json
	import dotenv
	import soundfile as sf
	import time
	import textwrap
	from PIL import Image
	from transformers import AutoTokenizer, AutoModelForCausalLM
	from peft import PeftModel, PeftConfig
	import torch
	import os
	import uuid


	welcome_message = """
	# 👋🏻Welcome to ⚕🗣️😷MultiMed - Access Chat ⚕🗣️😷

	🗣️📝 This is an educational and accessible conversational tool.

	### How To Use ⚕🗣️😷MultiMed⚕:

	🗣️📝Interact with ⚕🗣️😷MultiMed⚕ in any language using image, audio or text!

	📚🌟💼 that uses [Tonic/stablemed](https://huggingface.co/Tonic/stablemed) and [adept/fuyu-8B](https://huggingface.co/adept/fuyu-8b) with [Vectara](https://huggingface.co/vectara) embeddings + retrieval w/ [Facebook/Seamless-m4t](https://huggingface.co/facebook/hf-seamless-m4t-large) for audio translation & accessibility.
	do [get in touch](https://discord.gg/GWpVpekp). You can also use 😷MultiMed⚕️ on your own data & in your own way by cloning this space. 🧬🔬🔍 Simply click here: <a style="display:inline-block" href="https://huggingface.co/spaces/TeamTonic/MultiMed?duplicate=true"><img src="https://img.shields.io/badge/-Duplicate%20Space-blue?labelColor=white&style=flat&logo=data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABAAAAAQCAYAAAAf8/9hAAAAAXNSR0IArs4c6QAAAP5JREFUOE+lk7FqAkEURY+ltunEgFXS2sZGIbXfEPdLlnxJyDdYB62sbbUKpLbVNhyYFzbrrA74YJlh9r079973psed0cvUD4A+4HoCjsA85X0Dfn/RBLBgBDxnQPfAEJgBY+A9gALA4tcbamSzS4xq4FOQAJgCDwV2CPKV8tZAJcAjMMkUe1vX+U+SMhfAJEHasQIWmXNN3abzDwHUrgcRGmYcgKe0bxrblHEB4E/pndMazNpSZGcsZdBlYJcEL9Afo75molJyM2FxmPgmgPqlWNLGfwZGG6UiyEvLzHYDmoPkDDiNm9JR9uboiONcBXrpY1qmgs21x1QwyZcpvxt9NS09PlsPAAAAAElFTkSuQmCC&logoWidth=14" alt="Duplicate Space"></a></h3>
	### Join us :

	🌟TeamTonic🌟 is always making cool demos! Join our active builder's🛠️community on 👻Discord: [Discord](https://discord.gg/GWpVpekp) On 🤗Huggingface: [TeamTonic](https://huggingface.co/TeamTonic) & [MultiTransformer](https://huggingface.co/MultiTransformer) On 🌐Github: [Polytonic](https://github.com/tonic-ai) & contribute to 🌟 [PolyGPT](https://github.com/tonic-ai/polygpt-alpha)"
	"""


	languages = {
	"English": "eng",
	"Modern Standard Arabic": "arb",
	"Bengali": "ben",
	"Catalan": "cat",
	"Czech": "ces",
	"Mandarin Chinese": "cmn",
	"Welsh": "cym",
	"Danish": "dan",
	"German": "deu",
	"Estonian": "est",
	"Finnish": "fin",
	"French": "fra",
	"Hindi": "hin",
	"Indonesian": "ind",
	"Italian": "ita",
	"Japanese": "jpn",
	"Korean": "kor",
	"Maltese": "mlt",
	"Dutch": "nld",
	"Western Persian": "pes",
	"Polish": "pol",
	"Portuguese": "por",
	"Romanian": "ron",
	"Russian": "rus",
	"Slovak": "slk",
	"Spanish": "spa",
	"Swedish": "swe",
	"Swahili": "swh",
	"Telugu": "tel",
	"Tagalog": "tgl",
	"Thai": "tha",
	"Turkish": "tur",
	"Ukrainian": "ukr",
	"Urdu": "urd",
	"Northern Uzbek": "uzn",
	"Vietnamese": "vie"
	}


	# Global variables to hold component references
	components = {}
	dotenv.load_dotenv()
	seamless_client = Client("facebook/seamless_m4t")
	HuggingFace_Token = os.getenv("HuggingFace_Token")
	hf_token = os.getenv("HuggingFace_Token")
	base_model_id = os.getenv('BASE_MODEL_ID', 'default_base_model_id')
	model_directory = os.getenv('MODEL_DIRECTORY', 'default_model_directory')
	device = "cuda" if torch.cuda.is_available() else "cpu"

	image_description = ""
	# audio_output = ""
	# global markdown_output
	# global audio_output


	def check_hallucination(assertion, citation):
	api_url = "https://api-inference.huggingface.co/models/vectara/hallucination_evaluation_model"
	header = {"Authorization": f"Bearer {hf_token}"}
	payload = {"inputs": f"{assertion} [SEP] {citation}"}

	response = requests.post(api_url, headers=header, json=payload, timeout=120)
	output = response.json()
	output = output[0][0]["score"]

	return f"hallucination score: {output}"


	# Define the API parameters
	vapi_url = "https://api-inference.huggingface.co/models/vectara/hallucination_evaluation_model"

	headers = {"Authorization": f"Bearer {hf_token}"}


	# Function to query the API
	def query(payload):
	response = requests.post(vapi_url, headers=headers, json=payload)
	return response.json()


	# Function to evaluate hallucination
	def evaluate_hallucination(input1, input2):
	# Combine the inputs
	combined_input = f"{input1}. {input2}"

	# Make the API call
	output = query({"inputs": combined_input})

	# Extract the score from the output
	score = output[0][0]['score']

	# Generate a label based on the score
	if score < 0.5:
	label = f"🔴 High risk. Score: {score:.2f}"
	else:
	label = f"🟢 Low risk. Score: {score:.2f}"

	return label


	def save_audio(audio_input, output_dir="saved_audio"):
	if not os.path.exists(output_dir):
	os.makedirs(output_dir)

	# Extract sample rate and audio data
	sample_rate, audio_data = audio_input

	# Generate a unique file name
	file_name = f"audio_{int(time.time())}.wav"
	file_path = os.path.join(output_dir, file_name)

	# Save the audio file
	sf.write(file_path, audio_data, sample_rate)

	return file_path


	def save_image(image_input, output_dir="saved_images"):
	if not os.path.exists(output_dir):
	os.makedirs(output_dir)

	# Assuming image_input is a NumPy array
	if isinstance(image_input, np.ndarray):
	# Convert NumPy arrays to PIL Image
	image = Image.fromarray(image_input)

	# Generate a unique file name
	file_name = f"image_{int(time.time())}.png"
	file_path = os.path.join(output_dir, file_name)

	# Save the image file
	image.save(file_path)

	return file_path
	else:
	raise ValueError("Invalid image input type")

	def process_image(image_file_path):
	client = Client("https://adept-fuyu-8b-demo.hf.space/--replicas/pqjvl/")

	"""
	Process the image using the Gradio client.
	"""
	try:
	# Use the Gradio client to predict
	result = client.predict(
	image_file_path, # File path of the image
	True, # Enable detailed captioning
	fn_index=2 # Function index for the Gradio model
	)
	return result
	except Exception as e:
	return f"Error occurred during image processing: {e}"

	def process_speech(input_language, audio_input):
	"""
	processing sound using seamless_m4t
	"""
	if audio_input is None:
	return "no audio or audio did not save yet \nplease try again ! "
	print(f"audio : {audio_input}")
	print(f"audio type : {type(audio_input)}")
	out = seamless_client.predict(
	"S2TT",
	"file",
	None,
	audio_input,
	"",
	input_language,
	"English",
	api_name="/run",
	)
	out = out[1] # get the text
	try:
	return f"{out}"
	except Exception as e:
	return f"{e}"


	def is_base64(s):
	try:
	return base64.b64encode(base64.b64decode(s)) == s.encode()
	except Exception:
	return False

	def convert_text_to_speech(input_text: str, source_language: str, target_language: str) -> tuple[str, str]:
	client = Client("https://facebook-seamless-m4t.hf.space/--replicas/8cllp/")

	try:
	# Make a prediction request to the client
	result = client.predict(
	"T2ST",
	"text", # Since we are doing text-to-speech
	None,
	None,
	input_text,
	source_language,
	target_language,
	api_name="/run"
	)

	# Print or log the raw API response for inspection
	print("Raw API Response:", result)

	# Initialize variables
	translated_text = ""
	audio_file_path = ""

	# Process the result
	if result:
	for item in result:
	if isinstance(item, str):
	# Check if the item is a URL pointing to an audio file or a base64 encoded string
	if any(ext in item.lower() for ext in ['.mp3', '.wav', '.ogg']) or is_base64(item):
	if not audio_file_path: # Store only the first audio file path or base64 string
	audio_file_path = item
	else:
	# Concatenate the translated text
	translated_text += item + " "

	return audio_file_path, translated_text.strip()

	except Exception as e:
	print(f"Error in text-to-speech conversion: {str(e)}")
	return None, f"Error in text-to-speech conversion: {str(e)}"


	def query_vectara(text):
	user_message = text

	# Read authentication parameters from the .env file
	customer_id = os.getenv('CUSTOMER_ID')
	corpus_id = os.getenv('CORPUS_ID')
	api_key = os.getenv('API_KEY')

	# Define the headers
	api_key_header = {
	"customer-id": customer_id,
	"x-api-key": api_key
	}

	# Define the request body in the structure provided in the example
	request_body = {
	"query": [
	{
	"query": user_message,
	"queryContext": "",
	"start": 1,
	"numResults": 25,
	"contextConfig": {
	"charsBefore": 0,
	"charsAfter": 0,
	"sentencesBefore": 2,
	"sentencesAfter": 2,
	"startTag": "%START_SNIPPET%",
	"endTag": "%END_SNIPPET%",
	},
	"rerankingConfig": {
	"rerankerId": 272725718,
	"mmrConfig": {
	"diversityBias": 0.35
	}
	},
	"corpusKey": [
	{
	"customerId": customer_id,
	"corpusId": corpus_id,
	"semantics": 0,
	"metadataFilter": "",
	"lexicalInterpolationConfig": {
	"lambda": 0
	},
	"dim": []
	}
	],
	"summary": [
	{
	"maxSummarizedResults": 5,
	"responseLang": "auto",
	"summarizerPromptName": "vectara-summary-ext-v1.2.0"
	}
	]
	}
	]
	}

	# Make the API request using Gradio
	response = requests.post(
	"https://api.vectara.io/v1/query",
	json=request_body, # Use json to automatically serialize the request body
	verify=True,
	headers=api_key_header
	)

	if response.status_code == 200:
	query_data = response.json()
	if query_data:
	sources_info = []

	# Extract the summary.
	summary = query_data['responseSet'][0]['summary'][0]['text']

	# Iterate over all response sets
	for response_set in query_data.get('responseSet', []):
	# Extract sources
	# Limit to top 5 sources.
	for source in response_set.get('response', [])[:5]:
	source_metadata = source.get('metadata', [])
	source_info = {}

	for metadata in source_metadata:
	metadata_name = metadata.get('name', '')
	metadata_value = metadata.get('value', '')

	if metadata_name == 'title':
	source_info['title'] = metadata_value
	elif metadata_name == 'author':
	source_info['author'] = metadata_value
	elif metadata_name == 'pageNumber':
	source_info['page number'] = metadata_value

	if source_info:
	sources_info.append(source_info)

	result = {"summary": summary, "sources": sources_info}
	return f"{json.dumps(result, indent=2)}"
	else:
	return "No data found in the response."
	else:
	return f"Error: {response.status_code}"


	# Functions to Wrap the Prompt Correctly
	def wrap_text(text, width=90):
	lines = text.split('\n')
	wrapped_lines = [textwrap.fill(line, width=width) for line in lines]
	wrapped_text = '\n'.join(wrapped_lines)
	return wrapped_text


	def multimodal_prompt(user_input, system_prompt="You are an expert medical analyst:"):

	# Combine user input and system prompt
	formatted_input = f"{user_input}{system_prompt}"

	# Encode the input text
	encodeds = tokenizer(formatted_input, return_tensors="pt", add_special_tokens=False)
	model_inputs = encodeds.to(device)

	# Generate a response using the model //MODEL UNDEFINED, using peft_model instead.
	output = peft_model.generate(
	**model_inputs,
	max_length=512,
	use_cache=True,
	early_stopping=True,
	bos_token_id=peft_model.config.bos_token_id,
	eos_token_id=peft_model.config.eos_token_id,
	pad_token_id=peft_model.config.eos_token_id,
	temperature=0.1,
	do_sample=True
	)

	# Decode the response
	response_text = tokenizer.decode(output[0], skip_special_tokens=True)

	return response_text


	# Instantiate the Tokenizer
	tokenizer = AutoTokenizer.from_pretrained("stabilityai/stablelm-3b-4e1t", token=hf_token, trust_remote_code=True, padding_side="left")
	# tokenizer = AutoTokenizer.from_pretrained("Tonic/stablemed", trust_remote_code=True, padding_side="left")
	tokenizer.pad_token = tokenizer.eos_token
	tokenizer.padding_side = 'left'

	# Load the PEFT model
	peft_config = PeftConfig.from_pretrained("Tonic/stablemed", token=hf_token)
	peft_model = AutoModelForCausalLM.from_pretrained("stabilityai/stablelm-3b-4e1t", token=hf_token, trust_remote_code=True)
	peft_model = PeftModel.from_pretrained(peft_model, "Tonic/stablemed", token=hf_token)


	class ChatBot:
	def __init__(self):
	self.history = []

	@staticmethod
	def doctor(user_input, system_prompt="You are an expert medical analyst:"):
	formatted_input = f"{system_prompt}{user_input}"
	user_input_ids = tokenizer.encode(formatted_input, return_tensors="pt")
	response = peft_model.generate(input_ids=user_input_ids, max_length=512, pad_token_id=tokenizer.eos_token_id)
	response_text = tokenizer.decode(response[0], skip_special_tokens=True)
	return response_text


	bot = ChatBot()


	def process_summary_with_stablemed(summary):
	system_prompt = "You are a medical instructor . Assess and describe the proper options to your students in minute detail. Propose a course of action for them to base their recommendations on based on your description."
	response_text = bot.doctor(summary, system_prompt)
	return response_text


	# Main function to handle the Gradio interface logic

	def process_and_query(input_language=None, audio_input=None, image_input=None, text_input=None):
	try:

	combined_text = ""
	markdown_output = ""
	image_text = ""
	language_code = None

	# Convert input language to its code
	if input_language and input_language in languages:
	language_code = languages[input_language]

	# Debugging print statement
	print(f"Image Input Type: {type(image_input)}, Audio Input Type: {type(audio_input)}")

	# Process image input
	if image_input is not None:
	# Convert image_input to a file path
	image_file_path = save_image(image_input)
	image_text = process_image(image_file_path)
	combined_text += "\n\nImage Input:\n" + image_text

	# Process audio input
	elif audio_input is not None:
	audio_file_path = save_audio(audio_input)
	audio_text = process_speech(input_language, audio_file_path)
	combined_text += "\n\nAudio Input:\n" + audio_text

	# Process text input
	elif text_input is not None and text_input.strip():
	combined_text += "The user asks the following to his health adviser: " + text_input

	# Check if combined text is empty
	else:
	return "Error: Please provide some input (text, audio, or image)."

	# Append the original image description in Markdown
	if image_text:
	markdown_output += "\n### Original Image Description\n"
	markdown_output += image_text + "\n"

	# Use the text to query Vectara
	vectara_response_json = query_vectara(combined_text)

	# Parse the Vectara response
	vectara_response = json.loads(vectara_response_json)
	summary = vectara_response.get('summary', 'No summary available')
	sources_info = vectara_response.get('sources', [])

	# Format Vectara response in Markdown
	markdown_output = "### Vectara Response Summary\n"
	markdown_output += f"* Summary: {summary}\n"
	markdown_output += "### Sources Information\n"
	for source in sources_info:
	markdown_output += f"* {source}\n"

	# Process the summary with Stablemed
	final_response = process_summary_with_stablemed(summary)

	# Convert translated text to speech and get both audio file and text
	target_language = "English" # Set the target language for the speech
	audio_output, translated_text = convert_text_to_speech(final_response, target_language, input_language)

	# Evaluate hallucination
	hallucination_label = evaluate_hallucination(final_response, summary)

	# Add final response and hallucination label to Markdown output
	markdown_output += "\n### Processed Summary with StableMed\n"
	markdown_output += final_response + "\n"
	markdown_output += "\n### Hallucination Evaluation\n"
	markdown_output += f"* Label: {hallucination_label}\n"
	markdown_output += "\n### Translated Text\n"
	markdown_output += translated_text + "\n"

	return markdown_output, audio_output

	except Exception as e:
	return f"Error occurred during processing: {e}. No hallucination evaluation.", None


	def clear():
	# Return default values for each component
	return "English", None, None, "", None


	def create_interface():
	# with gr.Blocks(theme='ParityError/Anime') as iface:
	with gr.Blocks(theme='ParityError/Anime') as interface:
	# Display the welcome message
	gr.Markdown(welcome_message)
	# Extract the full names of the languages
	language_names = list(languages.keys())

	# Add a 'None' or similar option to represent no selection
	input_language_options = ["None"] + language_names

	# Create a dropdown for language selection
	input_language = gr.Dropdown(input_language_options, label="Select the language", value="English", interactive=True)

	with gr.Accordion("Use Voice", open=False) as voice_accordion:
	audio_input = gr.Audio(label="Speak")
	audio_output = gr.Markdown(label="Output text") # Markdown component for audio
	gr.Examples([["audio1.wav"], ["audio2.wav"], ], inputs=[audio_input])

	with gr.Accordion("Use a Picture", open=False) as picture_accordion:
	image_input = gr.Image(label="Upload image")
	image_output = gr.Markdown(label="Output text") # Markdown component for image
	gr.Examples([["image1.png"], ["image2.jpeg"], ["image3.jpeg"], ], inputs=[image_input])

	with gr.Accordion("MultiMed", open=False) as multimend_accordion:
	text_input = gr.Textbox(label="Use Text", lines=3, placeholder="I have had a sore throat and phlegm for a few days and now my cough has gotten worse!")

	gr.Examples([
	["What is the proper treatment for buccal herpes?"],
	["I have had a sore throat and hoarse voice for several days and now a strong cough recently "],
	["How does cellular metabolism work TCA cycle"],
	["What special care must be provided to children with chicken pox?"],
	["When and how often should I wash my hands?"],
	["بکل ہرپس کا صحیح علاج کیا ہے؟"],
	["구강 헤르페스의 적절한 치료법은 무엇입니까?"],
	["Je, ni matibabu gani sahihi kwa herpes ya buccal?"],
	], inputs=[text_input])

	text_output = gr.Markdown(label="MultiMed")
	audio_output = gr.Audio(label="Audio Out", type="filepath")

	text_button = gr.Button("Use MultiMed")
	text_button.click(process_and_query, inputs=[input_language, audio_input, image_input, text_input], outputs=[text_output, audio_output])

	clear_button = gr.Button("Clear")
	clear_button.click(clear, inputs=[], outputs=[input_language, audio_input, image_input, text_output, audio_output])

	return interface


	app = create_interface()
	app.launch(show_error=True, debug=True)