MobileSAM

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MobileSAM / app.py

dhkim2810

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cabd05c almost 2 years ago

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	import os

	import gradio as gr
	import numpy as np
	import torch
	from mobile_sam import SamAutomaticMaskGenerator, SamPredictor, sam_model_registry
	from PIL import ImageDraw

	from utils.tools import box_prompt, format_results, point_prompt
	from utils.tools_gradio import fast_process

	# Most of our demo code is from [FastSAM Demo](https://huggingface.co/spaces/An-619/FastSAM). Huge thanks for AN-619.

	device = torch.device("cuda" if torch.cuda.is_available() else "cpu")

	# Load the pre-trained model
	sam_checkpoint = "./mobile_sam.pt"
	model_type = "vit_t"

	mobile_sam = sam_model_registry[model_type](checkpoint=sam_checkpoint)
	mobile_sam = mobile_sam.to(device=device)
	mobile_sam.eval()

	mask_generator = SamAutomaticMaskGenerator(mobile_sam)
	predictor = SamPredictor(mobile_sam)

	# Description
	title = "<center><strong><font size='8'>Faster Segment Anything(MobileSAM)<font></strong></center>"

	description_e = """This is a demo of [Faster Segment Anything(MobileSAM) Model](https://github.com/ChaoningZhang/MobileSAM).

	We will provide box mode soon.

	Enjoy!

	"""

	description_p = """##This is a demo of [Faster Segment Anything(MobileSAM) Model](https://github.com/ChaoningZhang/MobileSAM).
	# Instructions for point mode

	0. Restart by click the Restart button
	1. Select a point with Add Mask for the foreground (Must)
	2. Select a point with Remove Area for the background (Optional)
	3. Click the Start Segmenting.

	- Github [link](https://github.com/ChaoningZhang/MobileSAM)
	- Model Card [link](https://huggingface.co/dhkim2810/MobileSAM)

	We will provide box mode soon.

	Enjoy!

	"""

	examples = [
	["assets/picture4.jpg"],
	["assets/picture5.jpg"],
	["assets/picture6.jpg"],
	["assets/picture3.jpg"],
	["assets/picture1.jpg"],
	["assets/picture2.jpg"],
	]

	default_example = examples[0]

	css = "h1 { text-align: center } .about { text-align: justify; padding-left: 10%; padding-right: 10%; }"


	@torch.no_grad()
	def segment_everything(
	image,
	input_size=1024,
	better_quality=False,
	withContours=True,
	use_retina=True,
	mask_random_color=True,
	):
	global mask_generator

	input_size = int(input_size)
	w, h = image.size
	scale = input_size / max(w, h)
	new_w = int(w * scale)
	new_h = int(h * scale)
	image = image.resize((new_w, new_h))

	nd_image = np.array(image)
	annotations = mask_generator.generate(nd_image)

	fig = fast_process(
	annotations=annotations,
	image=image,
	device=device,
	scale=(1024 // input_size),
	better_quality=better_quality,
	mask_random_color=mask_random_color,
	bbox=None,
	use_retina=use_retina,
	withContours=withContours,
	)
	return fig


	def segment_with_points(
	image,
	input_size=1024,
	better_quality=False,
	withContours=True,
	use_retina=True,
	mask_random_color=True,
	):
	global global_points
	global global_point_label

	print("Original Image : ", image.size)

	input_size = int(input_size)
	w, h = image.size
	scale = input_size / max(w, h)
	new_w = int(w * scale)
	new_h = int(h * scale)
	image = image.resize((new_w, new_h))

	print("Scaled Image : ", image.size)
	print("Scale : ", scale)

	scaled_points = np.array(
	[[int(x * scale) for x in point] for point in global_points]
	)
	scaled_point_label = np.array(global_point_label)

	print(scaled_points, scaled_points is not None)
	print(scaled_point_label, scaled_point_label is not None)

	if scaled_points.size == 0 and scaled_point_label.size == 0:
	print("No points selected")
	return image, image

	nd_image = np.array(image)
	predictor.set_image(nd_image)
	masks, scores, logits = predictor.predict(
	point_coords=scaled_points,
	point_labels=scaled_point_label,
	multimask_output=True,
	)

	results = format_results(masks, scores, logits, 0)

	annotations, _ = point_prompt(
	results, scaled_points, scaled_point_label, new_h, new_w
	)
	annotations = np.array([annotations])

	fig = fast_process(
	annotations=annotations,
	image=image,
	device=device,
	scale=(1024 // input_size),
	better_quality=better_quality,
	mask_random_color=mask_random_color,
	bbox=None,
	use_retina=use_retina,
	withContours=withContours,
	)

	global_points = []
	global_point_label = []
	# return fig, None
	return fig, image


	def get_points_with_draw(image, label, evt: gr.SelectData):
	global global_points
	global global_point_label

	x, y = evt.index[0], evt.index[1]
	point_radius, point_color = 15, (255, 255, 0) if label == "Add Mask" else (
	255,
	0,
	255,
	)
	global_points.append([x, y])
	global_point_label.append(1 if label == "Add Mask" else 0)

	print(x, y, label == "Add Mask")

	# 创建一个可以在图像上绘图的对象
	draw = ImageDraw.Draw(image)
	draw.ellipse(
	[(x - point_radius, y - point_radius), (x + point_radius, y + point_radius)],
	fill=point_color,
	)
	return image


	cond_img_e = gr.Image(label="Input", value=default_example[0], type="pil")
	cond_img_p = gr.Image(label="Input with points", value=default_example[0], type="pil")

	segm_img_e = gr.Image(label="Segmented Image", interactive=False, type="pil")
	segm_img_p = gr.Image(
	label="Segmented Image with points", interactive=False, type="pil"
	)

	global_points = []
	global_point_label = []

	input_size_slider = gr.components.Slider(
	minimum=512,
	maximum=1024,
	value=1024,
	step=64,
	label="Input_size",
	info="Our model was trained on a size of 1024",
	)

	with gr.Blocks(css=css, title="Faster Segment Anything(MobileSAM)") as demo:
	with gr.Row():
	with gr.Column(scale=1):
	# Title
	gr.Markdown(title)

	# with gr.Tab("Everything mode"):
	# # Images
	# with gr.Row(variant="panel"):
	# with gr.Column(scale=1):
	# cond_img_e.render()
	#
	# with gr.Column(scale=1):
	# segm_img_e.render()
	#
	# # Submit & Clear
	# with gr.Row():
	# with gr.Column():
	# input_size_slider.render()
	#
	# with gr.Row():
	# contour_check = gr.Checkbox(
	# value=True,
	# label="withContours",
	# info="draw the edges of the masks",
	# )
	#
	# with gr.Column():
	# segment_btn_e = gr.Button(
	# "Segment Everything", variant="primary"
	# )
	# clear_btn_e = gr.Button("Clear", variant="secondary")
	#
	# gr.Markdown("Try some of the examples below ⬇️")
	# gr.Examples(
	# examples=examples,
	# inputs=[cond_img_e],
	# outputs=segm_img_e,
	# fn=segment_everything,
	# cache_examples=True,
	# examples_per_page=4,
	# )
	#
	# with gr.Column():
	# with gr.Accordion("Advanced options", open=False):
	# # text_box = gr.Textbox(label="text prompt")
	# with gr.Row():
	# mor_check = gr.Checkbox(
	# value=False,
	# label="better_visual_quality",
	# info="better quality using morphologyEx",
	# )
	# with gr.Column():
	# retina_check = gr.Checkbox(
	# value=True,
	# label="use_retina",
	# info="draw high-resolution segmentation masks",
	# )
	# # Description
	# gr.Markdown(description_e)
	#
	with gr.Tab("Point mode"):
	# Images
	with gr.Row(variant="panel"):
	with gr.Column(scale=1):
	cond_img_p.render()

	with gr.Column(scale=1):
	segm_img_p.render()

	# Submit & Clear
	with gr.Row():
	with gr.Column():
	with gr.Row():
	add_or_remove = gr.Radio(
	["Add Mask", "Remove Area"],
	value="Add Mask",
	)

	with gr.Column():
	segment_btn_p = gr.Button(
	"Start segmenting!", variant="primary"
	)
	clear_btn_p = gr.Button("Restart", variant="secondary")

	gr.Markdown("Try some of the examples below ⬇️")
	gr.Examples(
	examples=examples,
	inputs=[cond_img_p],
	# outputs=segm_img_p,
	# fn=segment_with_points,
	# cache_examples=True,
	examples_per_page=4,
	)

	with gr.Column():
	# Description
	gr.Markdown(description_p)

	cond_img_p.select(get_points_with_draw, [cond_img_p, add_or_remove], cond_img_p)

	# segment_btn_e.click(
	# segment_everything,
	# inputs=[
	# cond_img_e,
	# input_size_slider,
	# mor_check,
	# contour_check,
	# retina_check,
	# ],
	# outputs=segm_img_e,
	# )

	segment_btn_p.click(
	segment_with_points, inputs=[cond_img_p], outputs=[segm_img_p, cond_img_p]
	)

	def clear():
	return None, None

	def clear_text():
	return None, None, None

	# clear_btn_e.click(clear, outputs=[cond_img_e, segm_img_e])
	clear_btn_p.click(clear, outputs=[cond_img_p, segm_img_p])

	demo.queue()
	demo.launch()