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faces-segmentation / app.py

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	import gradio as gr
	import PIL.Image, PIL.ImageOps
	import torch
	import torchvision.transforms.functional as F
	from matplotlib import cm
	from matplotlib.colors import to_hex
	import numpy as np

	from src.models.dino import DINOSegmentationModel
	from src.models.vit import ViTSegmentation
	from src.models.unet import UNet
	from src.utils import get_transform


	device = torch.device("cpu")
	model_weight1 = "weights/dino.pth"
	model_weight2 = "weights/vit.pth"
	model_weight3 = "weights/unet.pth"

	model1 = DINOSegmentationModel()
	model1.segmentation_head.load_state_dict(torch.load(model_weight1, map_location=device))
	model1.eval()
	model2 = ViTSegmentation()
	model2.segmentation_head.load_state_dict(torch.load(model_weight2, map_location=device))
	model2.eval()
	model3 = UNet()
	model3.load_state_dict(torch.load(model_weight3, map_location=device))
	model3.eval()

	mask_labels = {
	"0": "Background", "1": "Person", "2": "Skin", "3": "Left-brow", "4": "Right-brow",
	"5": "Left-eye", "6": "Right-eye", "7": "Lips", "8": "Teeth"
	}

	color_map = cm.get_cmap('tab20', 9)
	label_colors = {label: to_hex(color_map(idx / len(mask_labels))[:3]) for idx, label in enumerate(mask_labels)}
	fixed_colors = np.array([color_map(i)[:3] for i in range(9)]) * 255


	def mask_to_color(mask: np.ndarray) -> np.ndarray:
	h, w = mask.shape
	color_mask = np.zeros((h, w, 3), dtype=np.uint8)
	for class_idx in range(9):
	color_mask[mask == class_idx] = fixed_colors[class_idx]
	return color_mask


	def segment_image(image, model_name: str) -> PIL.Image:
	if model_name == "DINO":
	model = model1
	elif model_name == "ViT":
	model = model2
	else:
	model = model3

	original_width, original_height = image.size
	transform = get_transform(model.mean, model.std)
	input_tensor = transform(image).unsqueeze(0)

	with torch.no_grad():
	mask = model(input_tensor)
	mask = torch.argmax(mask.squeeze(), dim=0).cpu().numpy()

	mask_image = mask_to_color(mask)

	mask_image = PIL.Image.fromarray(mask_image)
	mask_aspect_ratio = mask_image.width / mask_image.height

	new_height = original_height
	new_width = int(new_height * mask_aspect_ratio)
	mask_image = mask_image.resize((new_width, new_height), PIL.Image.Resampling.NEAREST)

	final_mask = PIL.Image.new("RGB", (original_width, original_height))
	offset = ((original_width - new_width) // 2, 0)
	final_mask.paste(mask_image, offset)

	return final_mask

	def generate_legend_html_compact() -> str:
	legend_html = """
	<div style='display: flex; flex-wrap: wrap; gap: 10px; justify-content: center;'>
	"""
	for idx, (label, color) in enumerate(label_colors.items()):
	legend_html += f"""
	<div style='display: flex; align-items: center; justify-content: center;
	padding: 5px 10px; border: 1px solid {color};
	background-color: {color}; border-radius: 5px;
	color: white; font-size: 12px; text-align: center;'>
	{mask_labels[label]}
	</div>
	"""
	legend_html += "</div>"
	return legend_html

	examples = [
	["assets/images_examples/image1.jpg"],
	["assets/images_examples/image2.jpg"],
	["assets/images_examples/image3.jpg"]
	]

	with gr.Blocks() as demo:
	gr.Markdown("## Face Segmentation")
	with gr.Row():
	with gr.Column():
	pic = gr.Image(label="Upload Human Image", type="pil", height=400, width=400)
	model_choice = gr.Dropdown(choices=["DINO", "ViT", "UNet"], label="Select Model", value="DINO")
	with gr.Row():
	with gr.Column(scale=1):
	predict_btn = gr.Button("Predict")
	with gr.Column(scale=1):
	clear_btn = gr.Button("Clear")

	with gr.Column():
	output = gr.Image(label="Mask", type="pil", height=400, width=400)
	legend = gr.HTML(label="Legend", value=generate_legend_html_compact())

	predict_btn.click(fn=segment_image, inputs=[pic, model_choice], outputs=output, api_name="predict")
	clear_btn.click(lambda: (None, None), outputs=[pic, output])
	gr.Examples(examples=examples, inputs=[pic])

	demo.launch()