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demo_test_srresnetplus_real.py
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demo_test_srresnetplus_real.py
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import os.path
import glob
import cv2
import logging
import numpy as np
from datetime import datetime
from collections import OrderedDict
from scipy.io import loadmat
import torch
from utils import utils_deblur
from utils import utils_logger
from utils import utils_image as util
from models.network_srresnet import SRResNet
'''
Spyder (Python 3.6)
PyTorch 0.4.1
Windows 10
Testing code of SRResNet+ [x2,x3,x4] and SRGAN+ [x4] for real image super-resolution.
-- + testsets
+ -- + real_imgs
+ -- + LR
+ -- + frog.png
For more information, please refer to the following paper.
@inproceedings{zhang2019deep,
title={Deep Plug-and-Play Super-Resolution for Arbitrary Blur Kernels},
author={Zhang, Kai and Zuo, Wangmeng and Zhang, Lei},
booktitle={IEEE Conference on Computer Vision and Pattern Recognition},
pages={},
year={2019}
}
% If you have any question, please feel free to contact with me.
% Kai Zhang (e-mail: [email protected]; github: https://github.com/cszn)
by Kai Zhang (03/03/2019)
'''
def main():
# --------------------------------
# let's start!
# --------------------------------
utils_logger.logger_info('test_srresnetplus_real', log_path='test_srresnetplus_real.log')
logger = logging.getLogger('test_srresnetplus_real')
# basic setting
# ================================================
sf = 4 # from 2, 3 and 4
noise_level_img = 14./255. # noise level of low-quality image
testsets = 'testsets'
testset_current = 'real_imgs'
use_srganplus = True # 'True' for SRGAN+ (x4) and 'False' for SRResNet+ (x2,x3,x4)
im = 'frog.png' # frog.png
if 'frog' in im:
noise_level_img = 14./255.
noise_level_model = noise_level_img # noise level of model
if use_srganplus and sf == 4:
model_prefix = 'DPSRGAN'
save_suffix = 'srganplus'
else:
model_prefix = 'DPSR'
save_suffix = 'srresnet'
model_path = os.path.join('DPSR_models', model_prefix+'x%01d.pth' % (sf))
show_img = True
n_channels = 3 # only color images, fixed
# ================================================
device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
# --------------------------------
# (1) load trained model
# --------------------------------
model = SRResNet(in_nc=4, out_nc=3, nc=96, nb=16, upscale=sf, act_mode='R', upsample_mode='pixelshuffle')
model.load_state_dict(torch.load(model_path), strict=True)
model.eval()
for k, v in model.named_parameters():
v.requires_grad = False
model = model.to(device)
logger.info('Model path {:s}. Testing...'.format(model_path))
# --------------------------------
# (2) L_folder, E_folder
# --------------------------------
# --1--> L_folder, folder of Low-quality images
L_folder = os.path.join(testsets, testset_current, 'LR') # L: Low quality
# --2--> E_folder, folder of Estimated images
E_folder = os.path.join(testsets, testset_current, 'x{:01d}_'.format(sf)+save_suffix)
util.mkdir(E_folder)
logger.info(L_folder)
# for im in os.listdir(os.path.join(L_folder)):
# if (im.endswith('.jpg') or im.endswith('.bmp') or im.endswith('.png')) and 'kernel' not in im:
# --------------------------------
# (3) load low-resolution image
# --------------------------------
img_name, ext = os.path.splitext(im)
img = util.imread_uint(os.path.join(L_folder, im), n_channels=n_channels)
h, w = img.shape[:2]
util.imshow(img, title='Low-resolution image') if show_img else None
img = util.uint2single(img)
img_L = util.single2tensor4(img)
# --------------------------------
# (4) do super-resolution
# --------------------------------
noise_level_map = torch.ones((1, 1, img_L.size(2), img_L.size(3)), dtype=torch.float).mul_(noise_level_model)
img_L = torch.cat((img_L, noise_level_map), dim=1)
img_L = img_L.to(device)
# with torch.no_grad():
img_E = model(img_L)
img_E = util.tensor2single(img_E)
# --------------------------------
# (5) img_E
# --------------------------------
img_E = util.single2uint(img_E[:h*sf, :w*sf]) # np.uint8((z[:h*sf, :w*sf] * 255.0).round())
logger.info('saving: sf = {}, {}.'.format(sf, img_name+'_x{}'.format(sf)+ext))
util.imsave(img_E, os.path.join(E_folder, img_name+'_x{}'.format(sf)+ext))
util.imshow(img_E, title='Recovered image') if show_img else None
if __name__ == '__main__':
main()