import os import warnings from pathlib import Path import gradio as gr from gradio_imageslider import ImageSlider import numpy as np import torch import fastai from deoldify import device from deoldify.device_id import DeviceId from deoldify.visualize import * from huggingface_hub import snapshot_download os.system("pip freeze") from collections.abc import Sized # Import Sized from collections.abc warnings.filterwarnings("ignore", category=UserWarning, message=".*?Your .*? set is empty.*?") # private repo token="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" snapshot_folder = snapshot_download(repo_id="afondiel/image-colorizer-deoldify", token=token) # Set the device to use for computation # choices: CPU, GPU0...GPU7 if torch.cuda.is_available(): device.set(device=DeviceId.GPU0) else: device.set(device=DeviceId.CPU) # Load the pre-trained model colorizer = get_image_colorizer(root_folder=Path(snapshot_folder), artistic=True) def colorizer_fn(input_img, render_factor): """ Colorize grayscale images/photos - @param input_img old (grayscale) image - @param render_factor render_factor """ if input_img is not None and input_img !='': output_img = colorizer.get_transformed_image( path=input_img, render_factor=int(render_factor), watermarked=watermarked, post_process=True, ) else: print('Provide an image and try again.') return (input_img, output_img) # Return a tuple of old and color Image to be plotted with ImageSlider() title = "AI Image Colorizer" description = "Colorize old images with AI" examples = [["./demo.jpg"],] demo = gr.Interface( fn=colorizer_fn, inputs=[gr.Image(type="filepath" , label="Old image"), gr.Slider(0, 40, label="Render Factor", value=10)], outputs=ImageSlider(type="pil", label="Old vs Colored image"), examples=examples, title=title, description=description, ) # Launch the demo demo.launch()