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VITMAE / app.py

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Update app.py

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	import gradio as gr
	import torch
	import numpy as np
	import matplotlib.pyplot as plt
	from transformers import ViTMAEForPreTraining, ViTFeatureExtractor
	from PIL import Image
	import uuid

	feature_extractor = ViTFeatureExtractor.from_pretrained("facebook/vit-mae-base")
	model = ViTMAEForPreTraining.from_pretrained("facebook/vit-mae-base")

	imagenet_mean = np.array(feature_extractor.image_mean)
	imagenet_std = np.array(feature_extractor.image_std)

	def show_image(image, title=''):
	# image is [H, W, 3]
	assert image.shape[2] == 3
	unique_id = str(uuid.uuid4())
	plt.imshow(torch.clip((image * imagenet_std + imagenet_mean) * 255, 0, 255).int())
	plt.axis('off')
	plt.savefig(f"{unique_id}.png", bbox_inches='tight', pad_inches=0)

	return f"{unique_id}.png"

	def visualize(image):
	pixel_values = feature_extractor(image, return_tensors="pt").pixel_values
	# forward pass
	outputs = model(pixel_values)
	y = model.unpatchify(outputs.logits)
	y = torch.einsum('nchw->nhwc', y).detach().cpu()

	# visualize the mask
	mask = outputs.mask.detach()
	mask = mask.unsqueeze(-1).repeat(1, 1, model.config.patch_size*2 3) # (N, HW, pp*3)
	mask = model.unpatchify(mask) # 1 is removing, 0 is keeping
	mask = torch.einsum('nchw->nhwc', mask).detach().cpu()

	x = torch.einsum('nchw->nhwc', pixel_values)

	# masked image
	im_masked = x * (1 - mask)

	# MAE reconstruction pasted with visible patches
	im_paste = x * (1 - mask) + y * mask

	gallery_labels = ["Original Image", "Masked Image", "Reconstruction", "Reconstruction with Patches"]
	gallery_out = [show_image(out) for out in [x[0], im_masked[0], y[0], im_paste[0]]]

	return [(k,v) for k,v in zip(gallery_out, gallery_labels)]




	with gr.Blocks() as demo:
	gr.Markdown("## ViTMAE Demo")
	gr.Markdown("ViTMAE is an architecture that combine masked autoencoder and Vision Transformer (ViT) for self-supervised pre-training.")
	gr.Markdown("By pre-training a ViT to reconstruct pixel values for masked patches, one can get results after fine-tuning that outperform supervised pre-training.")
	gr.Markdown("This application demonstrates the reconstruction. To start, simply upload an image.")
	with gr.Row():

	input_img = gr.Image()
	output = gr.Gallery()

	input_img.change(visualize, inputs=input_img, outputs=output)

	gr.Examples([["./cat.png"]], inputs=input_img, outputs=output, fn=visualize)

	demo.launch(debug=True)