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omniscience-poc / app.py

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	import gradio as gr
	from transformers import AutoProcessor, AutoModelForCausalLM
	# import peft
	import spaces

	import requests
	import copy

	from PIL import Image, ImageDraw, ImageFont
	import io
	import matplotlib.pyplot as plt
	import matplotlib.patches as patches

	import random
	import numpy as np

	import subprocess
	subprocess.run('pip install flash-attn --no-build-isolation', env={'FLASH_ATTENTION_SKIP_CUDA_BUILD': "TRUE"}, shell=True)

	models = {
	'microsoft/Florence-2-large-ft': AutoModelForCausalLM.from_pretrained('microsoft/Florence-2-large-ft', trust_remote_code=True).to("cuda").eval(),
	'dwb2023/florence2-large-bccd-base-ft': AutoModelForCausalLM.from_pretrained('dwb2023/florence2-large-bccd-base-ft', trust_remote_code=True).to("cuda").eval(),
	}

	processors = {
	'microsoft/Florence-2-large-ft': AutoProcessor.from_pretrained('microsoft/Florence-2-large-ft', trust_remote_code=True),
	'dwb2023/florence2-large-bccd-base-ft': AutoProcessor.from_pretrained('microsoft/Florence-2-large-ft', trust_remote_code=True),
	}

	colormap = ['blue','orange','green','purple','brown','pink','gray','olive','cyan','red',
	'lime','indigo','violet','aqua','magenta','coral','gold','tan','skyblue']

	def fig_to_pil(fig):
	buf = io.BytesIO()
	fig.savefig(buf, format='png')
	buf.seek(0)
	return Image.open(buf)

	@spaces.GPU
	def run_example(task_prompt, image, text_input=None, model_id='microsoft/Florence-2-large'):
	model = models[model_id]
	processor = processors[model_id]
	if text_input is None:
	prompt = task_prompt
	else:
	prompt = task_prompt + text_input
	inputs = processor(text=prompt, images=image, return_tensors="pt").to("cuda")
	generated_ids = model.generate(
	input_ids=inputs["input_ids"],
	pixel_values=inputs["pixel_values"],
	max_new_tokens=1024,
	early_stopping=False,
	do_sample=False,
	num_beams=3,
	)
	generated_text = processor.batch_decode(generated_ids, skip_special_tokens=False)[0]
	parsed_answer = processor.post_process_generation(
	generated_text,
	task=task_prompt,
	image_size=(image.width, image.height)
	)
	return parsed_answer

	def plot_bbox(image, data):
	fig, ax = plt.subplots()
	ax.imshow(image)
	for bbox, label in zip(data['bboxes'], data['labels']):
	x1, y1, x2, y2 = bbox
	rect = patches.Rectangle((x1, y1), x2-x1, y2-y1, linewidth=1, edgecolor='r', facecolor='none')
	ax.add_patch(rect)
	plt.text(x1, y1, label, color='white', fontsize=8, bbox=dict(facecolor='red', alpha=0.5))
	ax.axis('off')
	return fig

	def draw_polygons(image, prediction, fill_mask=False):

	draw = ImageDraw.Draw(image)
	scale = 1
	for polygons, label in zip(prediction['polygons'], prediction['labels']):
	color = random.choice(colormap)
	fill_color = random.choice(colormap) if fill_mask else None
	for _polygon in polygons:
	_polygon = np.array(_polygon).reshape(-1, 2)
	if len(_polygon) < 3:
	print('Invalid polygon:', _polygon)
	continue
	_polygon = (_polygon * scale).reshape(-1).tolist()
	if fill_mask:
	draw.polygon(_polygon, outline=color, fill=fill_color)
	else:
	draw.polygon(_polygon, outline=color)
	draw.text((_polygon[0] + 8, _polygon[1] + 2), label, fill=color)
	return image

	def convert_to_od_format(data):
	bboxes = data.get('bboxes', [])
	labels = data.get('bboxes_labels', [])
	od_results = {
	'bboxes': bboxes,
	'labels': labels
	}
	return od_results

	def draw_ocr_bboxes(image, prediction):
	scale = 1
	draw = ImageDraw.Draw(image)
	bboxes, labels = prediction['quad_boxes'], prediction['labels']
	for box, label in zip(bboxes, labels):
	color = random.choice(colormap)
	new_box = (np.array(box) * scale).tolist()
	draw.polygon(new_box, width=3, outline=color)
	draw.text((new_box[0]+8, new_box[1]+2),
	"{}".format(label),
	align="right",
	fill=color)
	return image

	def process_image(image, task_prompt, text_input=None, model_id='dwb2023/florence2-large-bccd-base-ft'):
	image = Image.fromarray(image) # Convert NumPy array to PIL Image
	if task_prompt == 'Object Detection':
	task_prompt = '<OD>'
	results = run_example(task_prompt, image, model_id=model_id)
	fig = plot_bbox(image, results['<OD>'])
	return results, fig_to_pil(fig)
	else:
	return "", None # Return empty string and None for unknown task prompts

	single_task_list =[
	'Object Detection'
	]

	with gr.Blocks(theme="sudeepshouche/minimalist") as demo:
	gr.Markdown("## 🧬OmniScience - building teams of fine tuned VLM models for diagnosis and detection 🔧")
	gr.Markdown("- 🔬Florence-2 Model Proof of Concept, focusing on Object Detection <OD> tasks.")
	gr.Markdown("- Fine-tuned for 🩸Blood Cell Detection using the [Roboflow BCCD dataset](https://universe.roboflow.com/roboflow-100/bccd-ouzjz/dataset/2), this model can detect blood cells and types in images.")
	gr.Markdown("")
	gr.Markdown("BCCD Datasets on Hugging Face:")
	gr.Markdown("- [🌺 Florence 2](https://huggingface.co/datasets/dwb2023/roboflow100-bccd-florence2/viewer/default/test?q=BloodImage_00038_jpg.rf.1b0ce1635e11b3b49302de527c86bb02.jpg), [💎 PaliGemma](https://huggingface.co/datasets/dwb2023/roboflow-bccd-paligemma/viewer/default/test?q=BloodImage_00038_jpg.rf.1b0ce1635e11b3b49302de527c86bb02.jpg)")


	with gr.Tab(label="Florence-2 Object Detection"):
	with gr.Row():
	with gr.Column():
	input_img = gr.Image(label="Input Picture")
	model_selector = gr.Dropdown(choices=list(models.keys()), label="Model", value='microsoft/Florence-2-large-ft')
	task_prompt = gr.Dropdown(choices=single_task_list, label="Task Prompt", value="Object Detection")
	text_input = gr.Textbox(label="Text Input", placeholder="Not used for Florence-2 Object Detection")
	submit_btn = gr.Button(value="Submit")
	with gr.Column():
	output_text = gr.Textbox(label="Output Text")
	output_img = gr.Image(label="Output Image")

	gr.Examples(
	examples=[
	["examples/bccd-test/BloodImage_00038_jpg.rf.1b0ce1635e11b3b49302de527c86bb02.jpg", 'Object Detection'],
	["examples/bccd-test/BloodImage_00044_jpg.rf.1c44102fcdf64fd178f1f16bb988d5cf.jpg", 'Object Detection'],
	["examples/bccd-test/BloodImage_00062_jpg.rf.fbed5373cd2e0e732092ed5c7b28aa19.jpg", 'Object Detection'],
	["examples/bccd-test/BloodImage_00090_jpg.rf.7e3d419774b20ef93d4ec6c4be8f64df.jpg", 'Object Detection'],
	["examples/bccd-test/BloodImage_00099_jpg.rf.0a65e56401cdd71253e7bc04917c3558.jpg", 'Object Detection'],
	["examples/bccd-test/BloodImage_00112_jpg.rf.6b8d185de08e65c6d765c824bb76ec68.jpg", 'Object Detection'],
	["examples/bccd-test/BloodImage_00113_jpg.rf.ab69dfaa52c1b3249cf44fa66afbb619.jpg", 'Object Detection'],
	["examples/bccd-test/BloodImage_00120_jpg.rf.4a2f84ca3564ef453b12ceb9c852e32e.jpg", 'Object Detection'],
	],

	inputs=[input_img, task_prompt],
	outputs=[output_text, output_img],
	fn=process_image,
	cache_examples=False,
	label='Try examples'
	)

	submit_btn.click(process_image, [input_img, task_prompt, model_selector], [output_text, output_img])

	gr.Markdown("## 🚀Other Cool Stuff:")
	gr.Markdown("- [Florence 2 Whitepaper](https://arxiv.org/pdf/2311.06242) - how I found out about the Roboflow 100 and the BCCD dataset.")
	gr.Markdown("- [Roboflow YouTube Video on Florence 2 fine-tuning](https://youtu.be/i3KjYgxNH6w?si=x1ZMg9hsNe25Y19-&t=1296) - bookmarked an 🧠insightful trade-off analysis of various VLMs.")
	gr.Markdown("- [Landing AI - Vision Agent](https://va.landing.ai/) - 🌟just pure WOW. bringing agentic planning into solutions architecture.")
	gr.Markdown("- [OmniScience fork of Landing AI repo](https://huggingface.co/spaces/dwb2023/omniscience) - I had a lot of fun with this one... some great 🔍reverse engineering enabled by W&B's Weave📊.")
	gr.Markdown("- [Scooby Snacks🐕 - microservice based function calling with style](https://huggingface.co/spaces/dwb2023/blackbird-app) - Leveraging 🤖Claude Sonnet 3.5 to orchestrate Microservice-Based Function Calling.")

	demo.launch(debug=True)