def __init__(self, args):
self.args = args
self.device = torch.device(args.device)
# image transform
input_transform = transforms.Compose([
transforms.ToTensor(),
transforms.Normalize(cfg.DATASET.MEAN, cfg.DATASET.STD),
])
# dataset and dataloader
data_kwargs = {
'transform': input_transform,
'base_size': cfg.TRAIN.BASE_SIZE,
'crop_size': cfg.TRAIN.CROP_SIZE
}
train_dataset = get_segmentation_dataset(cfg.DATASET.NAME,
split='train',
mode='train',
**data_kwargs)
val_dataset = get_segmentation_dataset(cfg.DATASET.NAME,
split='val',
mode=cfg.DATASET.MODE,
**data_kwargs)
self.iters_per_epoch = len(train_dataset) // (args.num_gpus *
cfg.TRAIN.BATCH_SIZE)
self.max_iters = cfg.TRAIN.EPOCHS * self.iters_per_epoch
train_sampler = make_data_sampler(train_dataset,
shuffle=True,
distributed=args.distributed)
train_batch_sampler = make_batch_data_sampler(train_sampler,
cfg.TRAIN.BATCH_SIZE,
self.max_iters,
drop_last=True)
val_sampler = make_data_sampler(val_dataset, False, args.distributed)
val_batch_sampler = make_batch_data_sampler(val_sampler,
cfg.TEST.BATCH_SIZE,
drop_last=False)
self.train_loader = data.DataLoader(dataset=train_dataset,
batch_sampler=train_batch_sampler,
num_workers=cfg.DATASET.WORKERS,
pin_memory=True)
self.val_loader = data.DataLoader(dataset=val_dataset,
batch_sampler=val_batch_sampler,
num_workers=cfg.DATASET.WORKERS,
pin_memory=True)
# create network
self.model = get_segmentation_model().to(self.device)
# print params and flops
if get_rank() == 0:
try:
show_flops_params(self.model, args.device)
except Exception as e:
logging.warning('get flops and params error: {}'.format(e))
if cfg.MODEL.BN_TYPE not in ['BN']:
logging.info(
'Batch norm type is {}, convert_sync_batchnorm is not effective'
.format(cfg.MODEL.BN_TYPE))
elif args.distributed and cfg.TRAIN.SYNC_BATCH_NORM:
self.model = nn.SyncBatchNorm.convert_sync_batchnorm(self.model)
logging.info('SyncBatchNorm is effective!')
else:
logging.info('Not use SyncBatchNorm!')
# create criterion
self.criterion = get_segmentation_loss(
cfg.MODEL.MODEL_NAME,
use_ohem=cfg.SOLVER.OHEM,
aux=cfg.SOLVER.AUX,
aux_weight=cfg.SOLVER.AUX_WEIGHT,
ignore_index=cfg.DATASET.IGNORE_INDEX).to(self.device)
# optimizer, for model just includes encoder, decoder(head and auxlayer).
self.optimizer = get_optimizer(self.model)
# lr scheduling
self.lr_scheduler = get_scheduler(self.optimizer,
max_iters=self.max_iters,
iters_per_epoch=self.iters_per_epoch)
# resume checkpoint if needed
self.start_epoch = 0
if args.resume and os.path.isfile(args.resume):
name, ext = os.path.splitext(args.resume)
assert ext == '.pkl' or '.pth', 'Sorry only .pth and .pkl files supported.'
logging.info('Resuming training, loading {}...'.format(
args.resume))
resume_sate = torch.load(args.resume)
self.model.load_state_dict(resume_sate['state_dict'])
self.start_epoch = resume_sate['epoch']
logging.info('resume train from epoch: {}'.format(
self.start_epoch))
if resume_sate['optimizer'] is not None and resume_sate[
'lr_scheduler'] is not None:
logging.info(
'resume optimizer and lr scheduler from resume state..')
self.optimizer.load_state_dict(resume_sate['optimizer'])
self.lr_scheduler.load_state_dict(resume_sate['lr_scheduler'])
if args.distributed:
self.model = nn.parallel.DistributedDataParallel(
self.model,
device_ids=[args.local_rank],
output_device=args.local_rank,
find_unused_parameters=True)
# evaluation metrics
self.metric = SegmentationMetric(train_dataset.num_class,
args.distributed)
self.best_pred = 0.0
def __init__(self, args):
self.args = args
self.device = torch.device(args.device)
self.prefix = "ADE_cce_alpha={}".format(cfg.TRAIN.ALPHA)
self.writer = SummaryWriter(log_dir=f"iccv_tensorboard/{self.prefix}")
self.writer_noisy = SummaryWriter(
log_dir=f"iccv_tensorboard/{self.prefix}-foggy")
# image transform
input_transform = transforms.Compose([
transforms.ToTensor(),
transforms.Normalize(cfg.DATASET.MEAN, cfg.DATASET.STD),
])
# dataset and dataloader
train_data_kwargs = {
'transform': input_transform,
'base_size': cfg.TRAIN.BASE_SIZE,
'crop_size': cfg.TRAIN.CROP_SIZE
}
val_data_kwargs = {
'transform': input_transform,
'base_size': cfg.TRAIN.BASE_SIZE,
'crop_size': cfg.TEST.CROP_SIZE
}
train_dataset = get_segmentation_dataset(cfg.DATASET.NAME,
split='train',
mode='train',
**train_data_kwargs)
val_dataset = get_segmentation_dataset(cfg.DATASET.NAME,
split='val',
mode="val",
**val_data_kwargs)
self.classes = val_dataset.classes
self.iters_per_epoch = len(train_dataset) // (args.num_gpus *
cfg.TRAIN.BATCH_SIZE)
self.max_iters = cfg.TRAIN.EPOCHS * self.iters_per_epoch
self.ece_evaluator = ECELoss(n_classes=len(self.classes))
self.cce_evaluator = CCELoss(n_classes=len(self.classes))
train_sampler = make_data_sampler(train_dataset,
shuffle=True,
distributed=args.distributed)
train_batch_sampler = make_batch_data_sampler(train_sampler,
cfg.TRAIN.BATCH_SIZE,
self.max_iters,
drop_last=True)
val_sampler = make_data_sampler(val_dataset, False, args.distributed)
val_batch_sampler = make_batch_data_sampler(val_sampler,
cfg.TEST.BATCH_SIZE,
drop_last=False)
self.train_loader = data.DataLoader(dataset=train_dataset,
batch_sampler=train_batch_sampler,
num_workers=cfg.DATASET.WORKERS,
pin_memory=True)
self.val_loader = data.DataLoader(dataset=val_dataset,
batch_sampler=val_batch_sampler,
num_workers=cfg.DATASET.WORKERS,
pin_memory=True)
# DEFINE data for noisy
# val_dataset_noisy = get_segmentation_dataset(cfg.DATASET.NOISY_NAME, split='val', mode="val", **train_data_kwargs)
# self.val_loader_noisy = data.DataLoader(dataset=val_dataset_noisy,
# batch_sampler=val_batch_sampler,
# num_workers=cfg.DATASET.WORKERS,
# pin_memory=True)
# create network
# self.model = get_segmentation_model().to(self.device)
mmseg_config_file = cfg.MODEL.MMSEG_CONFIG
mmseg_pretrained = cfg.TRAIN.PRETRAINED_MODEL_PATH
self.model = init_segmentor(mmseg_config_file, mmseg_pretrained)
self.model.to(self.device)
for params in self.model.backbone.parameters():
params.requires_grad = False
# print params and flops
if get_rank() == 0:
try:
show_flops_params(copy.deepcopy(self.model), args.device)
except Exception as e:
logging.warning('get flops and params error: {}'.format(e))
if cfg.MODEL.BN_TYPE not in ['BN']:
logging.info(
'Batch norm type is {}, convert_sync_batchnorm is not effective'
.format(cfg.MODEL.BN_TYPE))
elif args.distributed and cfg.TRAIN.SYNC_BATCH_NORM:
self.model = nn.SyncBatchNorm.convert_sync_batchnorm(self.model)
logging.info('SyncBatchNorm is effective!')
else:
logging.info('Not use SyncBatchNorm!')
# create criterion
# self.criterion = get_segmentation_loss(cfg.MODEL.MODEL_NAME, use_ohem=cfg.SOLVER.OHEM,
# aux=cfg.SOLVER.AUX, aux_weight=cfg.SOLVER.AUX_WEIGHT,
# ignore_index=cfg.DATASET.IGNORE_INDEX).to(self.device)
self.criterion = get_segmentation_loss(
cfg.MODEL.MODEL_NAME,
use_ohem=cfg.SOLVER.OHEM,
aux=cfg.SOLVER.AUX,
aux_weight=cfg.SOLVER.AUX_WEIGHT,
ignore_index=cfg.DATASET.IGNORE_INDEX,
n_classes=len(train_dataset.classes),
alpha=cfg.TRAIN.ALPHA).to(self.device)
# optimizer, for model just includes encoder, decoder(head and auxlayer).
self.optimizer = get_optimizer_mmseg(self.model)
# lr scheduling
self.lr_scheduler = get_scheduler(self.optimizer,
max_iters=self.max_iters,
iters_per_epoch=self.iters_per_epoch)
# resume checkpoint if needed
self.start_epoch = 0
if args.resume and os.path.isfile(args.resume):
name, ext = os.path.splitext(args.resume)
assert ext == '.pkl' or '.pth', 'Sorry only .pth and .pkl files supported.'
logging.info('Resuming training, loading {}...'.format(
args.resume))
resume_sate = torch.load(args.resume)
self.model.load_state_dict(resume_sate['state_dict'])
self.start_epoch = resume_sate['epoch']
logging.info('resume train from epoch: {}'.format(
self.start_epoch))
if resume_sate['optimizer'] is not None and resume_sate[
'lr_scheduler'] is not None:
logging.info(
'resume optimizer and lr scheduler from resume state..')
self.optimizer.load_state_dict(resume_sate['optimizer'])
self.lr_scheduler.load_state_dict(resume_sate['lr_scheduler'])
# evaluation metrics
self.metric = SegmentationMetric(train_dataset.num_class,
args.distributed)
self.best_pred_miou = 0.0
self.best_pred_cces = 1e15
