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	import os
	import gradio as gr
	from vllm import LLM, SamplingParams
	from PIL import Image
	from io import BytesIO
	import base64
	import requests
	from huggingface_hub import login
	import torch
	import torch.nn.functional as F
	import spaces
	import json
	import gradio as gr
	from huggingface_hub import snapshot_download
	import os
	# from loadimg import load_img
	import traceback

	login(os.environ.get("HUGGINGFACE_TOKEN"))

	repo_id = "mistralai/Pixtral-12B-2409"
	sampling_params = SamplingParams(max_tokens=8192, temperature=0.7)
	max_tokens_per_img = 4096
	max_img_per_msg = 5


	title = "# WIP / DEMO 🙋🏻‍♂️Welcome to Tonic's Pixtral Model Demo"
	description = """
	### Join us :
	🌟TeamTonic🌟 is always making cool demos! Join our active builder's 🛠️community 👻 [![Join us on Discord](https://img.shields.io/discord/1109943800132010065?label=Discord&logo=discord&style=flat-square)](https://discord.gg/qdfnvSPcqP) On 🤗Huggingface:[MultiTransformer](https://huggingface.co/MultiTransformer) On 🌐Github: [Tonic-AI](https://github.com/tonic-ai) & contribute to🌟 [Build Tonic](https://git.tonic-ai.com/contribute)🤗Big thanks to Yuvi Sharma and all the folks at huggingface for the community grant 🤗
	"""
	HUGGINGFACE_TOKEN = os.environ.get("HUGGINGFACE_TOKEN")
	model_path = snapshot_download(repo_id="mistralai/Pixtral-12B-2409", token=HUGGINGFACE_TOKEN)

	with open(f'{model_path}/params.json', 'r') as f:
	params = json.load(f)

	with open(f'{model_path}/tekken.json', 'r') as f:
	tokenizer_config = json.load(f)

	@spaces.GPU()
	def initialize_llm():
	try:
	llm = LLM(
	model=repo_id,
	tokenizer_mode="mistral",
	max_model_len=65536,
	max_num_batched_tokens=max_img_per_msg * max_tokens_per_img,
	limit_mm_per_prompt={"image": max_img_per_msg}
	)
	return llm
	except Exception as e:
	print("LLM initialization failed:", e)
	return None

	sampling_params = SamplingParams(max_tokens=8192)
	llm = initialize_llm()

	def encode_image(image: Image.Image, image_format="PNG") -> str:
	im_file = BytesIO()
	image.save(im_file, format=image_format)
	im_bytes = im_file.getvalue()
	im_64 = base64.b64encode(im_bytes).decode("utf-8")
	return im_64

	@spaces.GPU()
	def infer(image_url, prompt, progress=gr.Progress(track_tqdm=True)):
	if llm is None:
	return "Error: LLM initialization failed. Please try again later."

	try:
	image = Image.open(BytesIO(requests.get(image_url).content))
	image = image.resize((3844, 2408))
	new_image_url = f"data:image/png;base64,{encode_image(image, image_format='PNG')}"

	messages = [
	{
	"role": "user",
	"content": [{"type": "text", "text": prompt}, {"type": "image_url", "image_url": {"url": new_image_url}}]
	},
	]

	outputs = llm.chat(messages, sampling_params=sampling_params)

	return outputs[0].outputs[0].text
	except Exception as e:
	return f"Error during inference: {e}"

	@spaces.GPU()
	def compare_images(image1_url, image2_url, prompt, progress=gr.Progress(track_tqdm=True)):
	if llm is None:
	return "Error: LLM initialization failed. Please try again later."

	try:
	image1 = Image.open(BytesIO(requests.get(image1_url).content))
	image2 = Image.open(BytesIO(requests.get(image2_url).content))
	image1 = image1.resize((3844, 2408))
	image2 = image2.resize((3844, 2408))
	new_image1_url = f"data:image/png;base64,{encode_image(image1, image_format='PNG')}"
	new_image2_url = f"data:image/png;base64,{encode_image(image2, image_format='PNG')}"

	messages = [
	{
	"role": "user",
	"content": [
	{"type": "text", "text": prompt},
	{"type": "image_url", "image_url": {"url": new_image1_url}},
	{"type": "image_url", "image_url": {"url": new_image2_url}}
	]
	},
	]

	outputs = llm.chat(messages, sampling_params=sampling_params)

	return outputs[0].outputs[0].text
	except Exception as e:
	return f"Error during image comparison: {e}"

	@spaces.GPU()
	def calculate_image_similarity(image1_url, image2_url):
	if llm is None:
	return "Error: LLM initialization failed. Please try again later."

	try:
	image1 = Image.open(BytesIO(requests.get(image1_url).content)).convert('RGB')
	image2 = Image.open(BytesIO(requests.get(image2_url).content)).convert('RGB')
	image1 = image1.resize((224, 224)) # Resize to match model input size
	image2 = image2.resize((224, 224))

	image1_tensor = torch.tensor(list(image1.getdata())).view(1, 3, 224, 224).float() / 255.0
	image2_tensor = torch.tensor(list(image2.getdata())).view(1, 3, 224, 224).float() / 255.0

	with torch.no_grad():
	embedding1 = llm.model.vision_encoder([image1_tensor])
	embedding2 = llm.model.vision_encoder([image2_tensor])

	similarity = F.cosine_similarity(embedding1.mean(dim=0), embedding2.mean(dim=0), dim=0).item()

	return similarity
	except Exception as e:
	return f"Error during image similarity calculation: {e}"

	with gr.Blocks() as demo:
	gr.Markdown(title)
	gr.Markdown("## How it works")
	gr.Markdown("1. The image is processed by a Vision Encoder using 2D ROPE (Rotary Position Embedding).")
	gr.Markdown("2. The encoder uses SiLU activation in its feed-forward layers.")
	gr.Markdown("3. The encoded image is used for text generation or similarity comparison.")
	gr.Markdown(
	"""
	## How to use
	1. For Image-to-Text Generation:
	- Enter the URL of an image
	- Provide a prompt describing what you want to know about the image
	- Click "Generate" to get the model's response
	2. For Image Comparison:
	- Enter URLs for two images you want to compare
	- Provide a prompt asking about the comparison
	- Click "Compare" to get the model's analysis
	3. For Image Similarity:
	- Enter URLs for two images you want to compare
	- Click "Calculate Similarity" to get a similarity score between 0 and 1
	"""
	)
	gr.Markdown(description)
	with gr.Tabs():
	with gr.TabItem("Image-to-Text Generation"):
	with gr.Row():
	image_url = gr.Text(label="Image URL")
	prompt = gr.Text(label="Prompt")
	generate_button = gr.Button("Generate")
	output = gr.Text(label="Generated Text")

	generate_button.click(infer, inputs=[image_url, prompt], outputs=output)

	with gr.TabItem("Image Comparison"):
	with gr.Row():
	image1_url = gr.Text(label="Image 1 URL")
	image2_url = gr.Text(label="Image 2 URL")
	comparison_prompt = gr.Text(label="Comparison Prompt")
	compare_button = gr.Button("Compare")
	comparison_output = gr.Text(label="Comparison Result")

	compare_button.click(compare_images, inputs=[image1_url, image2_url, comparison_prompt], outputs=comparison_output)

	with gr.TabItem("Image Similarity"):
	with gr.Row():
	sim_image1_url = gr.Text(label="Image 1 URL")
	sim_image2_url = gr.Text(label="Image 2 URL")
	similarity_button = gr.Button("Calculate Similarity")
	similarity_output = gr.Number(label="Similarity Score")

	similarity_button.click(calculate_image_similarity, inputs=[sim_image1_url, sim_image2_url], outputs=similarity_output)
	gr.Markdown("## Model Details")
	gr.Markdown(f"- Model Dimension: {params['dim']}")
	gr.Markdown(f"- Number of Layers: {params['n_layers']}")
	gr.Markdown(f"- Number of Attention Heads: {params['n_heads']}")
	gr.Markdown(f"- Vision Encoder Hidden Size: {params['vision_encoder']['hidden_size']}")
	gr.Markdown(f"- Number of Vision Encoder Layers: {params['vision_encoder']['num_hidden_layers']}")
	gr.Markdown(f"- Number of Vision Encoder Attention Heads: {params['vision_encoder']['num_attention_heads']}")
	gr.Markdown(f"- Image Size: {params['vision_encoder']['image_size']}x{params['vision_encoder']['image_size']}")
	gr.Markdown(f"- Patch Size: {params['vision_encoder']['patch_size']}x{params['vision_encoder']['patch_size']}")

	if __name__ == "__main__":
	demo.launch()