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	# Welcome to Team Tonic's MultiMed

	from gradio_client import Client
	import os
	import numpy as np
	import base64
	import gradio as gr
	import tempfile
	import requests
	import json
	import dotenv
	from scipy.io.wavfile import write
	import PIL
	from openai import OpenAI
	import time
	from PIL import Image
	import io
	import hashlib
	import datetime
	from utils import build_logger

	dotenv.load_dotenv()

	seamless_client = Client("facebook/seamless_m4t")
	HuggingFace_Token = os.getenv("HuggingFace_Token")

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

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

	return f"hullicination score: {output}"

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

	headers = {"Authorization": f"Bearer {HuggingFace_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 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, #audio_name
	"",
	input_language,# source language
	"English",# target language
	api_name="/run",
	)
	out = out[1] # get the text
	try :
	return f"{out}"
	except Exception as e :
	return f"{e}"

	def decode_image(encoded_image: str) -> Image:
	decoded_bytes = base64.b64decode(encoded_image.encode("utf-8"))
	buffer = io.BytesIO(decoded_bytes)
	image = Image.open(buffer)
	return image


	def encode_image(image: Image.Image, format: str = "PNG") -> str:
	with io.BytesIO() as buffer:
	image.save(buffer, format=format)
	encoded_image = base64.b64encode(buffer.getvalue()).decode("utf-8")
	return encoded_image


	def get_conv_log_filename():
	t = datetime.datetime.now()
	name = os.path.join(LOGDIR, f"{t.year}-{t.month:02d}-{t.day:02d}-conv.json")
	return name


	def get_conv_image_dir():
	name = os.path.join(LOGDIR, "images")
	os.makedirs(name, exist_ok=True)
	return name


	def get_image_name(image, image_dir=None):
	buffer = io.BytesIO()
	image.save(buffer, format="PNG")
	image_bytes = buffer.getvalue()
	md5 = hashlib.md5(image_bytes).hexdigest()

	if image_dir is not None:
	image_name = os.path.join(image_dir, md5 + ".png")
	else:
	image_name = md5 + ".png"

	return image_name

	def resize_image(image, max_size):
	width, height = image.size
	aspect_ratio = float(width) / float(height)

	if width > height:
	new_width = max_size
	new_height = int(new_width / aspect_ratio)
	else:
	new_height = max_size
	new_width = int(new_height * aspect_ratio)

	resized_image = image.resize((new_width, new_height))
	return resized_image



	def process_image(image_input):
	# Initialize the Gradio client with the URL of the Gradio server
	client = Client("https://adept-fuyu-8b-demo.hf.space/--replicas/pqjvl/")

	# Check if the image input is a NumPy array
	if isinstance(image_input, np.ndarray):
	# Convert the NumPy array to a PIL Image
	image = Image.fromarray(image_input)
	# Save the PIL Image to a temporary file
	with tempfile.NamedTemporaryFile(delete=False, suffix=".png") as tmp_file:
	image.save(tmp_file.name)
	image_path = tmp_file.name
	elif isinstance(image_input, str):
	try:
	# Try to decode if it's a base64 string
	image = decode_image(image_input)
	except Exception:
	# If decoding fails, assume it's a file path or a URL
	image_path = image_input
	else:
	# If decoding succeeds, save the decoded image to a temporary file
	with tempfile.NamedTemporaryFile(delete=False, suffix=".png") as tmp_file:
	image.save(tmp_file.name)
	image_path = tmp_file.name
	else:
	# Assuming it's a PIL Image, save it to a temporary file
	with tempfile.NamedTemporaryFile(delete=False, suffix=".png") as tmp_file:
	image_input.save(tmp_file.name)
	image_path = tmp_file.name

	# Call the predict method of the client
	result = client.predict(
	image_path, # File path or URL of the image
	True, # Additional parameter for the server (e.g., enable detailed captioning)
	fn_index=2 # Function index if the server has multiple functions
	)

	# Clean up the temporary file if created
	if not isinstance(image_input, str) or isinstance(image_input, str) and 'tmp' in image_path:
	os.remove(image_path)

	return result


	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}"


	def convert_to_markdown(vectara_response_json):
	vectara_response = json.loads(vectara_response_json)
	if vectara_response:
	summary = vectara_response.get('summary', 'No summary available')
	sources_info = vectara_response.get('sources', [])

	# Format the summary as Markdown
	markdown_summary = f' {summary}\n\n'

	# Format the sources as a numbered list
	markdown_sources = ""
	for i, source_info in enumerate(sources_info):
	author = source_info.get('author', 'Unknown author')
	title = source_info.get('title', 'Unknown title')
	page_number = source_info.get('page number', 'Unknown page number')
	markdown_sources += f"{i+1}. {title} by {author}, Page {page_number}\n"

	return f"{markdown_summary}Sources:\n{markdown_sources}"
	else:
	return "No data found in the response."
	# Main function to handle the Gradio interface logic

	def process_summary_with_openai(summary):
	"""
	This function takes a summary text as input and processes it with OpenAI's GPT model.
	"""
	try:
	# Ensure that the OpenAI client is properly initialized
	client = OpenAI(api_key=os.getenv('OPENAI_API_KEY'))

	# Create the prompt for OpenAI's completion
	prompt = "You are clinical education consultant ready to do just about anything for his students. You are discussing training cases with students at TonicUniversity. You will recieve keywords or an image description. 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. You will recieve a summary assessment in a language, always provide a complete answer. Exclude any other commentary:"

	# Call the OpenAI API with the prompt and the summary
	completion = client.chat.completions.create(
	model="gpt-4-1106-preview", # Make sure to use the correct model name
	messages=[
	{"role": "system", "content": prompt},
	{"role": "user", "content": summary}
	]
	)

	# Extract the content from the completion
	final_summary = completion.choices[0].message.content
	return final_summary
	except Exception as e:
	return str(e)

	def process_and_query(input_language=None, audio_input=None, image_input=None, text_input=None):
	try:
	# Initialize the conditional variables
	combined_text = ""
	image_description = ""

	# Process text input
	if text_input is not None:
	combined_text = "The user asks the following to his health adviser: " + text_input

	# Process audio input
	if audio_input is not None:
	audio_text = process_speech(input_language, audio_input)
	print("Audio Text:", audio_text) # Debug print
	combined_text += "\n" + audio_text

	# Process image input
	if image_input is not None:
	image_text = process_image(image_input) # Call process_image with only the image input
	print("Image Text:", image_text) # Debug print
	combined_text += "\n" + image_text

	# Check if combined text is empty
	if not combined_text.strip():
	return "Error: Please provide some input (text, audio, or image).", "No hallucination evaluation"

	# Use the text to query Vectara
	vectara_response_json = query_vectara(combined_text)
	print("Vectara Response:", vectara_response_json) # Debug print

	# Convert the Vectara response to Markdown
	markdown_output = convert_to_markdown(vectara_response_json)

	# Append the original image description to the markdown output
	if image_description:
	markdown_output += "\n\nOriginal Image Description:\n" + image_description

	# Process the summary with OpenAI
	final_response = process_summary_with_openai(markdown_output)
	print("Final Response:", final_response) # Debug print

	# Evaluate hallucination
	hallucination_label = evaluate_hallucination(final_response, markdown_output)
	print("Hallucination Label:", hallucination_label) # Debug print

	return final_response, hallucination_label
	except Exception as e:
	# Handle exceptions
	print(f"An error occurred: {e}")
	return "Error occurred during processing.", "No hallucination evaluation"



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

	🗣️📝 This is an educational and accessible conversational tool to improve wellness and sanitation in support of public health.

	### How To Use ⚕🗣️😷MultiMed⚕:

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

	📚🌟💼 The quality of the answers depends on the quality of the dataset, so if you want to see some data represented here, 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 = [
	"Afrikaans",
	"Amharic",
	"Modern Standard Arabic",
	"Moroccan Arabic",
	"Egyptian Arabic",
	"Assamese",
	"Asturian",
	"North Azerbaijani",
	"Belarusian",
	"Bengali",
	"Bosnian",
	"Bulgarian",
	"Catalan",
	"Cebuano",
	"Czech",
	"Central Kurdish",
	"Mandarin Chinese",
	"Welsh",
	"Danish",
	"German",
	"Greek",
	"English",
	"Estonian",
	"Basque",
	"Finnish",
	"French",
	"West Central Oromo",
	"Irish",
	"Galician",
	"Gujarati",
	"Hebrew",
	"Hindi",
	"Croatian",
	"Hungarian",
	"Armenian",
	"Igbo",
	"Indonesian",
	"Icelandic",
	"Italian",
	"Javanese",
	"Japanese",
	"Kamba",
	"Kannada",
	"Georgian",
	"Kazakh",
	"Kabuverdianu",
	"Halh Mongolian",
	"Khmer",
	"Kyrgyz",
	"Korean",
	"Lao",
	"Lithuanian",
	"Luxembourgish",
	"Ganda",
	"Luo",
	"Standard Latvian",
	"Maithili",
	"Malayalam",
	"Marathi",
	"Macedonian",
	"Maltese",
	"Meitei",
	"Burmese",
	"Dutch",
	"Norwegian Nynorsk",
	"Norwegian Bokmål",
	"Nepali",
	"Nyanja",
	"Occitan",
	"Odia",
	"Punjabi",
	"Southern Pashto",
	"Western Persian",
	"Polish",
	"Portuguese",
	"Romanian",
	"Russian",
	"Slovak",
	"Slovenian",
	"Shona",
	"Sindhi",
	"Somali",
	"Spanish",
	"Serbian",
	"Swedish",
	"Swahili",
	"Tamil",
	"Telugu",
	"Tajik",
	"Tagalog",
	"Thai",
	"Turkish",
	"Ukrainian",
	"Urdu",
	"Northern Uzbek",
	"Vietnamese",
	"Xhosa",
	"Yoruba",
	"Cantonese",
	"Colloquial Malay",
	"Standard Malay",
	"Zulu"
	]


	with gr.Blocks(theme='ParityError/Anime') as iface :
	gr.Markdown(welcome_message)
	with gr.Accordion("speech to text",open=True):
	input_language = gr.Dropdown(languages, label="select the language",value="English",interactive=True)
	audio_input = gr.Audio(label="speak",type="filepath",sources="microphone")
	audio_output = gr.Markdown(label="output text")
	# audio_button = gr.Button("process audio")
	# audio_button.click(process_speech, inputs=[input_language,audio_input], outputs=audio_output)
	gr.Examples([["English","sample_input.mp3"]],inputs=[input_language,audio_input])
	with gr.Accordion("image identification",open=True):
	image_input = gr.Image(label="upload image")
	image_output = gr.Markdown(label="output text")
	# image_button = gr.Button("process image")
	# image_button.click(process_image, inputs=image_input, outputs=image_output)
	gr.Examples(["sick person.jpeg"],inputs=[image_input])
	with gr.Accordion("text summarization",open=True):
	text_input = gr.Textbox(label="input text",lines=5)
	text_output = gr.Markdown(label="output text")
	text_button = gr.Button("process text")
	hallucination_output = gr.Label(label="Hallucination Evaluation")
	text_button.click(process_and_query, inputs=[input_language, audio_input, image_input, text_input], outputs=[text_output, hallucination_output])
	gr.Examples([
	["What is the proper treatment for buccal herpes?"],
	["Male, 40 presenting with swollen glands and a rash"],
	["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])
	# with gr.Accordion("hallucination check",open=True):
	# assertion = gr.Textbox(label="assertion")
	# citation = gr.Textbox(label="citation text")
	# hullucination_output = gr.Markdown(label="output text")
	# hallucination_button = gr.Button("check hallucination")
	# gr.Examples([["i am drunk","sarah is pregnant"]],inputs=[assertion,citation])
	# hallucination_button.click(check_hallucination,inputs=[assertion,citation],outputs=hullucination_output)




	iface.queue().launch(show_error=True,debug=True)