BiRefNet_demo_Background_Text

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BiRefNet_demo_Background_Text / app_local.py

ZhengPeng7

Set all outputs in png format in `app_local.py`.

65cb7d4 verified about 1 year ago

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	import os
	import cv2
	import numpy as np
	import torch
	import gradio as gr
	# import spaces

	from glob import glob
	from typing import Tuple

	from PIL import Image
	# from gradio_imageslider import ImageSlider
	from transformers import AutoModelForImageSegmentation
	from torchvision import transforms

	import requests
	from io import BytesIO
	import zipfile


	torch.set_float32_matmul_precision('high')
	# torch.jit.script = lambda f: f

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

	### image_proc.py
	def refine_foreground(image, mask, r=90):
	if mask.size != image.size:
	mask = mask.resize(image.size)
	image = np.array(image) / 255.0
	mask = np.array(mask) / 255.0
	estimated_foreground = FB_blur_fusion_foreground_estimator_2(image, mask, r=r)
	image_masked = Image.fromarray((estimated_foreground * 255.0).astype(np.uint8))
	return image_masked


	def FB_blur_fusion_foreground_estimator_2(image, alpha, r=90):
	# Thanks to the source: https://github.com/Photoroom/fast-foreground-estimation
	alpha = alpha[:, :, None]
	F, blur_B = FB_blur_fusion_foreground_estimator(
	image, image, image, alpha, r)
	return FB_blur_fusion_foreground_estimator(image, F, blur_B, alpha, r=6)[0]


	def FB_blur_fusion_foreground_estimator(image, F, B, alpha, r=90):
	if isinstance(image, Image.Image):
	image = np.array(image) / 255.0
	blurred_alpha = cv2.blur(alpha, (r, r))[:, :, None]

	blurred_FA = cv2.blur(F * alpha, (r, r))
	blurred_F = blurred_FA / (blurred_alpha + 1e-5)

	blurred_B1A = cv2.blur(B * (1 - alpha), (r, r))
	blurred_B = blurred_B1A / ((1 - blurred_alpha) + 1e-5)
	F = blurred_F + alpha * \
	(image - alpha * blurred_F - (1 - alpha) * blurred_B)
	F = np.clip(F, 0, 1)
	return F, blurred_B


	class ImagePreprocessor():
	def __init__(self, resolution: Tuple[int, int] = (1024, 1024)) -> None:
	self.transform_image = transforms.Compose([
	transforms.Resize(resolution), # 1. keep consistent with the cv2.resize used in training 2. redundant with that in path_to_image()
	transforms.ToTensor(),
	transforms.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225]),
	])

	def proc(self, image: Image.Image) -> torch.Tensor:
	image = self.transform_image(image)
	return image


	usage_to_weights_file = {
	'General': 'BiRefNet',
	'General-Lite': 'BiRefNet_lite',
	'Portrait': 'BiRefNet-portrait',
	'DIS': 'BiRefNet-DIS5K',
	'HRSOD': 'BiRefNet-HRSOD',
	'COD': 'BiRefNet-COD',
	'DIS-TR_TEs': 'BiRefNet-DIS5K-TR_TEs',
	'General-legacy': 'BiRefNet-legacy'
	}

	birefnet = AutoModelForImageSegmentation.from_pretrained('/'.join(('zhengpeng7', usage_to_weights_file['General'])), trust_remote_code=True)
	birefnet.to(device)
	birefnet.eval()


	# @spaces.GPU
	def predict(images, resolution, weights_file):
	assert (images is not None), 'AssertionError: images cannot be None.'

	global birefnet
	# Load BiRefNet with chosen weights
	_weights_file = '/'.join(('zhengpeng7', usage_to_weights_file[weights_file] if weights_file is not None else usage_to_weights_file['General']))
	print('Using weights: {}.'.format(_weights_file))
	birefnet = AutoModelForImageSegmentation.from_pretrained(_weights_file, trust_remote_code=True)
	birefnet.to(device)
	birefnet.eval()

	try:
	resolution = [int(int(reso)//32*32) for reso in resolution.strip().split('x')]
	except:
	resolution = [1024, 1024]
	print('Invalid resolution input. Automatically changed to 1024x1024.')

	if isinstance(images, list):
	# For tab_batch
	save_paths = []
	save_dir = 'preds-BiRefNet'
	if not os.path.exists(save_dir):
	os.makedirs(save_dir)
	tab_is_batch = True
	else:
	images = [images]
	tab_is_batch = False

	for idx_image, image_src in enumerate(images):
	if isinstance(image_src, str):
	if os.path.isfile(image_src):
	image_ori = Image.open(image_src)
	else:
	response = requests.get(image_src)
	image_data = BytesIO(response.content)
	image_ori = Image.open(image_data)
	else:
	image_ori = Image.fromarray(image_src)

	image = image_ori.convert('RGB')
	# Preprocess the image
	image_preprocessor = ImagePreprocessor(resolution=tuple(resolution))
	image_proc = image_preprocessor.proc(image)
	image_proc = image_proc.unsqueeze(0)

	# Prediction
	with torch.no_grad():
	preds = birefnet(image_proc.to(device))[-1].sigmoid().cpu()
	pred = preds[0].squeeze()

	# Show Results
	pred_pil = transforms.ToPILImage()(pred)
	image_masked = refine_foreground(image, pred_pil)
	image_masked.putalpha(pred_pil.resize(image.size))

	torch.cuda.empty_cache()

	if tab_is_batch:
	save_file_path = os.path.join(save_dir, "{}.png".format(os.path.splitext(os.path.basename(image_src))[0]))
	image_masked.save(save_file_path)
	save_paths.append(save_file_path)

	if tab_is_batch:
	zip_file_path = os.path.join(save_dir, "{}.zip".format(save_dir))
	with zipfile.ZipFile(zip_file_path, 'w') as zipf:
	for file in save_paths:
	zipf.write(file, os.path.basename(file))
	return save_paths, zip_file_path
	else:
	return (image_masked, image_ori)[0]


	examples = [[_] for _ in glob('examples/*')][:]
	# Add the option of resolution in a text box.
	for idx_example, example in enumerate(examples):
	examples[idx_example].append('1024x1024')
	examples.append(examples[-1].copy())
	examples[-1][1] = '512x512'

	examples_url = [
	['https://hips.hearstapps.com/hmg-prod/images/gettyimages-1229892983-square.jpg'],
	]
	for idx_example_url, example_url in enumerate(examples_url):
	examples_url[idx_example_url].append('1024x1024')

	descriptions = ('Upload a picture, our model will extract a highly accurate segmentation of the subject in it.\n)'
	' The resolution used in our training was `1024x1024`, thus the suggested resolution to obtain good results!\n'
	' Our codes can be found at https://github.com/ZhengPeng7/BiRefNet.\n'
	' We also maintain the HF model of BiRefNet at https://huggingface.co/ZhengPeng7/BiRefNet for easier access.')

	tab_image = gr.Interface(
	fn=predict,
	inputs=[
	gr.Image(label='Upload an image'),
	gr.Textbox(lines=1, placeholder="Type the resolution (`WxH`) you want, e.g., `1024x1024`. Higher resolutions can be much slower for inference.", label="Resolution"),
	gr.Radio(list(usage_to_weights_file.keys()), value='General', label="Weights", info="Choose the weights you want.")
	],
	outputs=gr.Image(label="BiRefNet's prediction", type="pil", format='png'),
	examples=examples,
	api_name="image",
	description=descriptions,
	)

	tab_text = gr.Interface(
	fn=predict,
	inputs=[
	gr.Textbox(label="Paste an image URL"),
	gr.Textbox(lines=1, placeholder="Type the resolution (`WxH`) you want, e.g., `1024x1024`. Higher resolutions can be much slower for inference.", label="Resolution"),
	gr.Radio(list(usage_to_weights_file.keys()), value='General', label="Weights", info="Choose the weights you want.")
	],
	outputs=gr.Image(label="BiRefNet's prediction", type="pil", format='png'),
	examples=examples_url,
	api_name="text",
	description=descriptions+'\nTab-URL is partially modified from https://huggingface.co/spaces/not-lain/background-removal, thanks to this great work!',
	)

	tab_batch = gr.Interface(
	fn=predict,
	inputs=gr.File(label="Upload multiple images", type="filepath", file_count="multiple"),
	outputs=[gr.Gallery(label="BiRefNet's predictions"), gr.File(label="Download masked images.")],
	api_name="batch",
	description=descriptions+'\nTab-batch is partially modified from https://huggingface.co/spaces/NegiTurkey/Multi_Birefnetfor_Background_Removal, thanks to this great work!',
	)

	demo = gr.TabbedInterface(
	[tab_image, tab_text, tab_batch],
	['image', 'text', 'batch'],
	title="BiRefNet demo for subject extraction (general / salient / camouflaged / portrait).",
	)

	if __name__ == "__main__":
	demo.launch(debug=True)