forked from mrq/DL-Art-School
62 lines
3.1 KiB
Python
62 lines
3.1 KiB
Python
import argparse
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import os
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import torch
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from torchvision.io import read_image
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from torchvision.utils import save_image
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from models.diffusion.gaussian_diffusion import get_named_beta_schedule
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from models.diffusion.respace import SpacedDiffusion, space_timesteps
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from models.diffusion.unet_diffusion import SuperResModel
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from utils.util import ceil_multiple
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def load_model():
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model = SuperResModel(image_size=256, in_channels=3, num_corruptions=2, model_channels=192, out_channels=6, num_res_blocks=2,
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attention_resolutions=[8,16], dropout=0, channel_mult=[1,1,2,2,4,4], num_heads=4, num_heads_upsample=-1,
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use_scale_shift_norm=True)
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sd = torch.load('../experiments/diffusion_unet_111500.pth')
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model.load_state_dict(sd)
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model.eval()
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return model
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def read_and_constrain_image(img_path):
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"""
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The input image into the diffusion model must have dimensions that are a multiple of 32. This function adds padding
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to make it so.
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"""
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img = 2 * (read_image(img_path) / 255) - 1
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# Get rid of alpha channel if present
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img = img[:3]
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assert img.shape[0] == 3 # Does not support greyscale images anyways.
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_, h, w = img.shape
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dh = ceil_multiple(h, 32)
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dw = ceil_multiple(w, 32)
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return torch.nn.functional.pad(img, (0,dh-h,0,dw-w))
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if __name__ == '__main__':
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parser = argparse.ArgumentParser()
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parser.add_argument('--image', type=str, help='Image to repair and super-resolve.')
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parser.add_argument('--blur_correction', type=float, help='Blur correction factor; [0,1]', default=.1)
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parser.add_argument('--jpeg_correction', type=float, help='Compression noise correction factor; [0,1]', default=0)
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parser.add_argument('--sr_factor', type=int, help='Multiplicative amount to super-resolve the image; [1,4]', default=2)
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parser.add_argument('--diffusion_steps', type=int, help='Number of diffusion steps. Lower is faster, higher makes higher quality images. >400 is unnecessary. [0,4000]', default=100)
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parser.add_argument('--output', type=str, help='Where to store output image', default='.')
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parser.add_argument('--device', type=str, help='Device to perform inference on; cpu or cuda', default='cuda')
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args = parser.parse_args()
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os.makedirs(args.output, exist_ok=True)
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model = load_model().to(args.device)
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diffuser = SpacedDiffusion(use_timesteps=space_timesteps(4000, [args.diffusion_steps]), model_mean_type='epsilon',
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model_var_type='learned_range', loss_type='mse', betas=get_named_beta_schedule('linear', 4000))
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lr_image = read_and_constrain_image(args.image).unsqueeze(0).to(args.device)
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with torch.no_grad():
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output_shape = (1, 3, lr_image.shape[-2]*args.sr_factor, lr_image.shape[-1]*args.sr_factor)
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cfactor = torch.tensor([[args.jpeg_correction, args.blur_correction]], device=args.device, dtype=torch.float)
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hq = diffuser.p_sample_loop(model, output_shape, model_kwargs={'low_res': lr_image, 'corruption_factor': cfactor})
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hq = (hq + 1) / 2
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save_image(hq, os.path.join(args.output, os.path.basename(args.image))) |