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sr_model.py
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sr_model.py
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import importlib
import torch
from collections import OrderedDict
from copy import deepcopy
from os import path as osp
from tqdm import tqdm
from basicsr.models.archs import define_network
from basicsr.models.base_model import BaseModel
from basicsr.utils import get_root_logger, imwrite, tensor2img
loss_module = importlib.import_module('basicsr.models.losses')
metric_module = importlib.import_module('basicsr.metrics')
class SRModel(BaseModel):
"""Base SR model for single image super-resolution."""
def __init__(self, opt):
super(SRModel, self).__init__(opt)
# define network
self.net_g = define_network(deepcopy(opt['network_g']))
self.net_g = self.model_to_device(self.net_g)
self.print_network(self.net_g)
# load pretrained models
load_path = self.opt['path'].get('pretrain_network_g', None)
if load_path is not None:
self.load_network(self.net_g, load_path,
self.opt['path'].get('strict_load_g', True))
if self.is_train:
self.init_training_settings()
def init_training_settings(self):
self.net_g.train()
train_opt = self.opt['train']
# define losses
if train_opt.get('pixel_opt'):
pixel_type = train_opt['pixel_opt'].pop('type')
cri_pix_cls = getattr(loss_module, pixel_type)
self.cri_pix = cri_pix_cls(**train_opt['pixel_opt']).to(
self.device)
else:
self.cri_pix = None
if train_opt.get('perceptual_opt'):
percep_type = train_opt['perceptual_opt'].pop('type')
cri_perceptual_cls = getattr(loss_module, percep_type)
self.cri_perceptual = cri_perceptual_cls(
**train_opt['perceptual_opt']).to(self.device)
else:
self.cri_perceptual = None
if self.cri_pix is None and self.cri_perceptual is None:
raise ValueError('Both pixel and perceptual losses are None.')
# set up optimizers and schedulers
self.setup_optimizers()
self.setup_schedulers()
def setup_optimizers(self):
train_opt = self.opt['train']
optim_params = []
for k, v in self.net_g.named_parameters():
if v.requires_grad:
optim_params.append(v)
else:
logger = get_root_logger()
logger.warning(f'Params {k} will not be optimized.')
optim_type = train_opt['optim_g'].pop('type')
if optim_type == 'Adam':
self.optimizer_g = torch.optim.Adam(optim_params,
**train_opt['optim_g'])
else:
raise NotImplementedError(
f'optimizer {optim_type} is not supperted yet.')
self.optimizers.append(self.optimizer_g)
def feed_data(self, data):
self.lq = data['lq'].to(self.device)
if 'gt' in data:
self.gt = data['gt'].to(self.device)
def optimize_parameters(self, current_iter):
self.optimizer_g.zero_grad()
self.output = self.net_g(self.lq)
l_total = 0
loss_dict = OrderedDict()
# pixel loss
if self.cri_pix:
l_pix = self.cri_pix(self.output, self.gt)
l_total += l_pix
loss_dict['l_pix'] = l_pix
# perceptual loss
if self.cri_perceptual:
l_percep, l_style = self.cri_perceptual(self.output, self.gt)
if l_percep is not None:
l_total += l_percep
loss_dict['l_percep'] = l_percep
if l_style is not None:
l_total += l_style
loss_dict['l_style'] = l_style
l_total.backward()
self.optimizer_g.step()
self.log_dict = self.reduce_loss_dict(loss_dict)
def test(self):
self.net_g.eval()
with torch.no_grad():
self.output = self.net_g(self.lq)
self.net_g.train()
def dist_validation(self, dataloader, current_iter, tb_logger, save_img):
logger = get_root_logger()
logger.info('Only support single GPU validation.')
self.nondist_validation(dataloader, current_iter, tb_logger, save_img)
def nondist_validation(self, dataloader, current_iter, tb_logger,
save_img):
dataset_name = dataloader.dataset.opt['name']
with_metrics = self.opt['val'].get('metrics') is not None
if with_metrics:
self.metric_results = {
metric: 0
for metric in self.opt['val']['metrics'].keys()
}
pbar = tqdm(total=len(dataloader), unit='image')
for idx, val_data in enumerate(dataloader):
img_name = osp.splitext(osp.basename(val_data['lq_path'][0]))[0]
self.feed_data(val_data)
self.test()
visuals = self.get_current_visuals()
sr_img = tensor2img([visuals['result']])
if 'gt' in visuals:
gt_img = tensor2img([visuals['gt']])
del self.gt
# tentative for out of GPU memory
del self.lq
del self.output
torch.cuda.empty_cache()
if save_img:
if self.opt['is_train']:
save_img_path = osp.join(self.opt['path']['visualization'],
img_name,
f'{img_name}_{current_iter}.png')
else:
if self.opt['val']['suffix']:
save_img_path = osp.join(
self.opt['path']['visualization'], dataset_name,
f'{img_name}_{self.opt["val"]["suffix"]}.png')
else:
save_img_path = osp.join(
self.opt['path']['visualization'], dataset_name,
f'{img_name}_{self.opt["name"]}.png')
imwrite(sr_img, save_img_path)
if with_metrics:
# calculate metrics
opt_metric = deepcopy(self.opt['val']['metrics'])
for name, opt_ in opt_metric.items():
metric_type = opt_.pop('type')
self.metric_results[name] += getattr(
metric_module, metric_type)(sr_img, gt_img, **opt_)
pbar.update(1)
pbar.set_description(f'Test {img_name}')
pbar.close()
if with_metrics:
for metric in self.metric_results.keys():
self.metric_results[metric] /= (idx + 1)
self._log_validation_metric_values(current_iter, dataset_name,
tb_logger)
def _log_validation_metric_values(self, current_iter, dataset_name,
tb_logger):
log_str = f'Validation {dataset_name}\n'
for metric, value in self.metric_results.items():
log_str += f'\t # {metric}: {value:.4f}\n'
logger = get_root_logger()
logger.info(log_str)
if tb_logger:
for metric, value in self.metric_results.items():
tb_logger.add_scalar(f'metrics/{metric}', value, current_iter)
def get_current_visuals(self):
out_dict = OrderedDict()
out_dict['lq'] = self.lq.detach().cpu()
out_dict['result'] = self.output.detach().cpu()
if hasattr(self, 'gt'):
out_dict['gt'] = self.gt.detach().cpu()
return out_dict
def save(self, epoch, current_iter):
self.save_network(self.net_g, 'net_g', current_iter)
self.save_training_state(epoch, current_iter)