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	import os
	import gc
	import cv2
	import torch
	import traceback
	import numpy as np
	import gradio as gr
	from itertools import chain
	from huggingface_hub import hf_hub_download
	from segment_anything import SamPredictor, sam_model_registry


	#hf_hub_download(repo_id="vmoras/sam_api", filename="sam_vit_h.pth", token=os.environ.get('model_token'), local_dir="./")

	sam_checkpoint = "sam_vit_h_0.pth"
	model_type = "vit_h"
	device = 'cuda' if torch.cuda.is_available() else 'cpu'


	def set_predictor(image):
	"""
	Creates a Sam predictor object based on a given image and model.
	"""
	sam = sam_model_registry[model_type](checkpoint=sam_checkpoint)
	sam.to(device=device)

	predictor = SamPredictor(sam)
	predictor.set_image(image)

	if device == 'cuda':
	gc.collect()
	torch.cuda.empty_cache()

	return [image, predictor, 'Done']


	def get_polygon(points, image, predictor):
	"""
	Returns the points of the polygon given a bounding box and a prediction
	made by Sam.
	"""
	points = list(chain.from_iterable(points))

	input_box = np.array(points)

	masks, _, _ = predictor.predict(
	box=input_box[None, :],
	multimask_output=False,
	)

	img = masks[0].astype(np.uint8)
	contours, hierarchy = cv2.findContours(img, cv2.RETR_TREE, cv2.CHAIN_APPROX_SIMPLE)

	if len(contours) == 0:
	return [], img

	points = contours[0]

	polygon = []
	for point in points:
	for x, y in point:
	polygon.append([int(x), int(y)])

	mask = np.zeros(image.shape, dtype='uint8')
	poly = np.array(polygon)
	cv2.fillPoly(mask, [poly], (0, 255, 0))

	return polygon, mask


	def add_bbox(bbox, evt: gr.SelectData):
	if bbox[0] == [0, 0]:
	bbox[0] = [evt.index[0], evt.index[1]]
	return bbox, bbox

	bbox[1] = [evt.index[0], evt.index[1]]
	return bbox, bbox


	def clear_bbox(bbox):
	updated_bbox = [[0, 0], [0, 0]]
	return updated_bbox, updated_bbox


	with gr.Blocks() as demo:
	gr.Markdown(
	"""
	# Instructions
	1. Upload the image and press 'Send Image'.
	2. Wait until the word 'Done' appears on the 'Status' box.
	3. Click on the image where the upper left corner of the bbox should be.
	4. Click on the image where the lower right corner of the bbox should be.
	5. Check the coordinates using the 'bbox' box.
	6. Click on 'Send bounding box'.
	7. On the right side you will see the binary mask '\*'.
	8. On the lower side you will see the points that made up the polygon '\*'.
	9. Click on 'Clear bbox' to send another bounding box and repeat the steps from the thrid step.
	10. Repeat steps 3 to 9 until all the segments for this image are done.
	11. Click on the right corner of the image to remove it and repeat all the steps with the next
	image.

	'\*' If the binary mask is all black and the polygon is an empty list, it means the program did
	not find any segment in the bbox. Make the bbox a little big bigger if that happens.
	""")


	image = gr.State()
	embedding = gr.State()
	bbox = gr.State([[0, 0], [0, 0]])

	with gr.Row():
	input_image = gr.Image(label='Image')
	mask = gr.Image(label='Mask')

	with gr.Row():
	with gr.Column():
	output_status = gr.Textbox(label='Status')

	with gr.Column():
	predictor_button = gr.Button('Send Image')

	with gr.Row():
	with gr.Column():
	bbox_box = gr.Textbox(label="bbox")

	with gr.Column():
	bbox_button = gr.Button('Clear bbox')

	with gr.Row():
	with gr.Column():
	polygon = gr.Textbox(label='Polygon')

	with gr.Column():
	points_button = gr.Button('Send bounding box')


	predictor_button.click(
	set_predictor,
	input_image,
	[image, embedding, output_status],
	)

	points_button.click(
	get_polygon,
	[bbox, image, embedding],
	[polygon, mask],
	)

	bbox_button.click(
	clear_bbox,
	bbox,
	[bbox, bbox_box],
	)

	input_image.select(
	add_bbox,
	bbox,
	[bbox, bbox_box]
	)


	demo.launch(debug=True)