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ibug-face_parsing / app.py

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	#!/usr/bin/env python

	from __future__ import annotations

	import os
	import pathlib
	import sys

	import gradio as gr
	import numpy as np
	import spaces
	import torch
	from huggingface_hub import hf_hub_download

	sys.path.insert(0, "face_detection")
	sys.path.insert(0, "face_parsing")
	sys.path.insert(0, "roi_tanh_warping")

	from ibug.face_detection import RetinaFacePredictor
	from ibug.face_parsing.parser import WEIGHT, FaceParser
	from ibug.face_parsing.utils import label_colormap

	DESCRIPTION = "# [hhj1897/face_parsing](https://github.com/hhj1897/face_parsing)"


	def is_lfs_pointer_file(path: pathlib.Path) -> bool:
	try:
	with open(path, "r") as f:
	# Git LFS pointer files usually start with version line
	version_line = f.readline()
	if version_line.startswith("version https://git-lfs.github.com/spec/"):
	# Check for the presence of oid and size lines
	oid_line = f.readline()
	size_line = f.readline()
	if oid_line.startswith("oid sha256:") and size_line.startswith("size "):
	return True
	except Exception as e:
	print(f"Error reading file {path}: {e}")
	return False


	lfs_model_paths = sorted(pathlib.Path("face_parsing").rglob("*.torch"))
	for lfs_model_path in lfs_model_paths:
	if is_lfs_pointer_file(lfs_model_path):
	os.remove(lfs_model_path)
	out_path = hf_hub_download(
	"public-data/ibug-face-parsing",
	filename=lfs_model_path.name,
	repo_type="model",
	subfolder=lfs_model_path.parts[-3],
	)
	os.symlink(out_path, lfs_model_path)


	def load_model(model_name: str, device: torch.device) -> FaceParser:
	encoder, decoder, num_classes = model_name.split("-")
	num_classes = int(num_classes) # type: ignore
	model = FaceParser(device=device, encoder=encoder, decoder=decoder, num_classes=num_classes)
	model.num_classes = num_classes
	return model


	device = torch.device("cuda:0" if torch.cuda.is_available() else "cpu")

	detector = RetinaFacePredictor(threshold=0.8, device="cpu", model=RetinaFacePredictor.get_model("mobilenet0.25"))
	detector.device = device
	detector.net.to(device)

	model_names = list(WEIGHT.keys())
	models = {name: load_model(name, device=device) for name in model_names}


	@spaces.GPU
	def predict(image: np.ndarray, model_name: str, max_num_faces: int) -> np.ndarray:
	model = models[model_name]
	colormap = label_colormap(model.num_classes)

	# RGB -> BGR
	image = image[:, :, ::-1]

	faces = detector(image, rgb=False)
	if len(faces) == 0:
	raise RuntimeError("No face was found.")
	faces = sorted(list(faces), key=lambda x: -x[4])[:max_num_faces][::-1]
	masks = model.predict_img(image, faces, rgb=False)

	mask_image = np.zeros_like(image)
	for mask in masks:
	temp = colormap[mask]
	mask_image[temp > 0] = temp[temp > 0]

	res = image.astype(float) * 0.5 + mask_image[:, :, ::-1] * 0.5
	res = np.clip(np.round(res), 0, 255).astype(np.uint8)
	return res[:, :, ::-1]


	with gr.Blocks(css="style.css") as demo:
	gr.Markdown(DESCRIPTION)
	with gr.Row():
	with gr.Column():
	image = gr.Image(type="numpy", label="Input")
	model_name = gr.Radio(choices=model_names, type="value", value=model_names[1], label="Model")
	max_num_faces = gr.Slider(minimum=1, maximum=20, step=1, value=10, label="Max Number of Faces")
	run_button = gr.Button()
	with gr.Column():
	result = gr.Image(label="Output")
	gr.Examples(
	examples=[[path.as_posix(), model_names[1], 10] for path in pathlib.Path("images").rglob("*.jpg")],
	inputs=[image, model_name, max_num_faces],
	outputs=result,
	fn=predict,
	)

	run_button.click(
	fn=predict,
	inputs=[image, model_name, max_num_faces],
	outputs=result,
	api_name="predict",
	)

	if __name__ == "__main__":
	demo.queue(max_size=20).launch()