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train.py
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train.py
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import argparse
import os
import numpy as np
from tqdm import tqdm
from mypath import Path
from dataloaders import make_data_loader
from modeling.sync_batchnorm.replicate import patch_replication_callback
from modeling.deeplab import *
from utils.loss import SegmentationLosses
from utils.calculate_weights import calculate_weigths_labels
from utils.lr_scheduler import LR_Scheduler
from utils.saver import Saver
from utils.summaries import TensorboardSummary
from utils.metrics import Evaluator
class Trainer(object):
def __init__(self, args):
self.args = args
# Define Saver
self.saver = Saver(args)
self.saver.save_experiment_config()
# Define Tensorboard Summary
self.summary = TensorboardSummary(self.saver.experiment_dir)
self.writer = self.summary.create_summary()
# Define Dataloader
kwargs = {'num_workers': args.workers, 'pin_memory': True}
self.train_loader, self.val_loader, self.test_loader, self.nclass = make_data_loader(args, **kwargs)
# Define network
model = DeepLab(num_classes=self.nclass,
backbone=args.backbone,
output_stride=args.out_stride,
sync_bn=args.sync_bn,
freeze_bn=args.freeze_bn)
train_params = [{'params': model.get_1x_lr_params(), 'lr': args.lr},
{'params': model.get_10x_lr_params(), 'lr': args.lr * 10}]
# Define Optimizer
optimizer = torch.optim.SGD(train_params, momentum=args.momentum,
weight_decay=args.weight_decay, nesterov=args.nesterov)
# Define Criterion
# whether to use class balanced weights
if args.use_balanced_weights:
classes_weights_path = os.path.join(Path.db_root_dir(args.dataset), args.dataset+'_classes_weights.npy')
if os.path.isfile(classes_weights_path):
weight = np.load(classes_weights_path)
else:
weight = calculate_weigths_labels(args.dataset, self.train_loader, self.nclass)
weight = torch.from_numpy(weight.astype(np.float32))
else:
weight = None
self.criterion = SegmentationLosses(weight=weight, cuda=args.cuda).build_loss(mode=args.loss_type)
self.model, self.optimizer = model, optimizer
# Define Evaluator
self.evaluator = Evaluator(self.nclass)
# Define lr scheduler
self.scheduler = LR_Scheduler(args.lr_scheduler, args.lr,
args.epochs, len(self.train_loader))
# Using cuda
if args.cuda:
self.model = torch.nn.DataParallel(self.model, device_ids=self.args.gpu_ids)
patch_replication_callback(self.model)
self.model = self.model.cuda()
# Resuming checkpoint
self.best_pred = 0.0
if args.resume is not None:
if not os.path.isfile(args.resume):
raise RuntimeError("=> no checkpoint found at '{}'" .format(args.resume))
checkpoint = torch.load(args.resume)
args.start_epoch = checkpoint['epoch']
if args.cuda:
self.model.module.load_state_dict(checkpoint['state_dict'])
else:
self.model.load_state_dict(checkpoint['state_dict'])
if not args.ft:
self.optimizer.load_state_dict(checkpoint['optimizer'])
self.best_pred = checkpoint['best_pred']
print("=> loaded checkpoint '{}' (epoch {})"
.format(args.resume, checkpoint['epoch']))
# Clear start epoch if fine-tuning
if args.ft:
args.start_epoch = 0
def training(self, epoch):
train_loss = 0.0
self.model.train()
tbar = tqdm(self.train_loader)
num_img_tr = len(self.train_loader)
for i, sample in enumerate(tbar):
image, target = sample['image'], sample['label']
if self.args.cuda:
image, target = image.cuda(), target.cuda()
self.scheduler(self.optimizer, i, epoch, self.best_pred)
self.optimizer.zero_grad()
output = self.model(image)
loss = self.criterion(output, target)
loss.backward()
self.optimizer.step()
train_loss += loss.item()
tbar.set_description('Train loss: %.3f' % (train_loss / (i + 1)))
self.writer.add_scalar('train/total_loss_iter', loss.item(), i + num_img_tr * epoch)
# Show 10 * 3 inference results each epoch
if i % (num_img_tr // 10) == 0:
global_step = i + num_img_tr * epoch
self.summary.visualize_image(self.writer, self.args.dataset, image, target, output, global_step)
self.writer.add_scalar('train/total_loss_epoch', train_loss, epoch)
print('[Epoch: %d, numImages: %5d]' % (epoch, i * self.args.batch_size + image.data.shape[0]))
print('Loss: %.3f' % train_loss)
if self.args.no_val:
# save checkpoint every epoch
is_best = False
self.saver.save_checkpoint({
'epoch': epoch + 1,
'state_dict': self.model.module.state_dict(),
'optimizer': self.optimizer.state_dict(),
'best_pred': self.best_pred,
}, is_best)
def validation(self, epoch):
self.model.eval()
self.evaluator.reset()
tbar = tqdm(self.val_loader, desc='\r')
test_loss = 0.0
for i, sample in enumerate(tbar):
image, target = sample['image'], sample['label']
if self.args.cuda:
image, target = image.cuda(), target.cuda()
with torch.no_grad():
output = self.model(image)
loss = self.criterion(output, target)
test_loss += loss.item()
tbar.set_description('Test loss: %.3f' % (test_loss / (i + 1)))
pred = output.data.cpu().numpy()
target = target.cpu().numpy()
pred = np.argmax(pred, axis=1)
# Add batch sample into evaluator
self.evaluator.add_batch(target, pred)
# Fast test during the training
Acc = self.evaluator.Pixel_Accuracy()
Acc_class = self.evaluator.Pixel_Accuracy_Class()
mIoU = self.evaluator.Mean_Intersection_over_Union()
FWIoU = self.evaluator.Frequency_Weighted_Intersection_over_Union()
self.writer.add_scalar('val/total_loss_epoch', test_loss, epoch)
self.writer.add_scalar('val/mIoU', mIoU, epoch)
self.writer.add_scalar('val/Acc', Acc, epoch)
self.writer.add_scalar('val/Acc_class', Acc_class, epoch)
self.writer.add_scalar('val/fwIoU', FWIoU, epoch)
print('Validation:')
print('[Epoch: %d, numImages: %5d]' % (epoch, i * self.args.batch_size + image.data.shape[0]))
print("Acc:{}, Acc_class:{}, mIoU:{}, fwIoU: {}".format(Acc, Acc_class, mIoU, FWIoU))
print('Loss: %.3f' % test_loss)
new_pred = mIoU
if new_pred > self.best_pred:
is_best = True
self.best_pred = new_pred
self.saver.save_checkpoint({
'epoch': epoch + 1,
'state_dict': self.model.module.state_dict(),
'optimizer': self.optimizer.state_dict(),
'best_pred': self.best_pred,
}, is_best)
def main():
parser = argparse.ArgumentParser(description="PyTorch DeeplabV3Plus Training")
parser.add_argument('--backbone', type=str, default='resnet',
choices=['resnet', 'xception', 'drn', 'mobilenet'],
help='backbone name (default: resnet)')
parser.add_argument('--out-stride', type=int, default=16,
help='network output stride (default: 8)')
parser.add_argument('--dataset', type=str, default='pascal',
choices=['pascal', 'coco', 'cityscapes'],
help='dataset name (default: pascal)')
parser.add_argument('--use-sbd', action='store_true', default=True,
help='whether to use SBD dataset (default: True)')
parser.add_argument('--workers', type=int, default=4,
metavar='N', help='dataloader threads')
parser.add_argument('--base-size', type=int, default=513,
help='base image size')
parser.add_argument('--crop-size', type=int, default=513,
help='crop image size')
parser.add_argument('--sync-bn', type=bool, default=None,
help='whether to use sync bn (default: auto)')
parser.add_argument('--freeze-bn', type=bool, default=False,
help='whether to freeze bn parameters (default: False)')
parser.add_argument('--loss-type', type=str, default='ce',
choices=['ce', 'focal'],
help='loss func type (default: ce)')
# training hyper params
parser.add_argument('--epochs', type=int, default=None, metavar='N',
help='number of epochs to train (default: auto)')
parser.add_argument('--start_epoch', type=int, default=0,
metavar='N', help='start epochs (default:0)')
parser.add_argument('--batch-size', type=int, default=None,
metavar='N', help='input batch size for \
training (default: auto)')
parser.add_argument('--test-batch-size', type=int, default=None,
metavar='N', help='input batch size for \
testing (default: auto)')
parser.add_argument('--use-balanced-weights', action='store_true', default=False,
help='whether to use balanced weights (default: False)')
# optimizer params
parser.add_argument('--lr', type=float, default=None, metavar='LR',
help='learning rate (default: auto)')
parser.add_argument('--lr-scheduler', type=str, default='poly',
choices=['poly', 'step', 'cos'],
help='lr scheduler mode: (default: poly)')
parser.add_argument('--momentum', type=float, default=0.9,
metavar='M', help='momentum (default: 0.9)')
parser.add_argument('--weight-decay', type=float, default=5e-4,
metavar='M', help='w-decay (default: 5e-4)')
parser.add_argument('--nesterov', action='store_true', default=False,
help='whether use nesterov (default: False)')
# cuda, seed and logging
parser.add_argument('--no-cuda', action='store_true', default=
False, help='disables CUDA training')
parser.add_argument('--gpu-ids', type=str, default='0',
help='use which gpu to train, must be a \
comma-separated list of integers only (default=0)')
parser.add_argument('--seed', type=int, default=1, metavar='S',
help='random seed (default: 1)')
# checking point
parser.add_argument('--resume', type=str, default=None,
help='put the path to resuming file if needed')
parser.add_argument('--checkname', type=str, default=None,
help='set the checkpoint name')
# finetuning pre-trained models
parser.add_argument('--ft', action='store_true', default=False,
help='finetuning on a different dataset')
# evaluation option
parser.add_argument('--eval-interval', type=int, default=1,
help='evaluuation interval (default: 1)')
parser.add_argument('--no-val', action='store_true', default=False,
help='skip validation during training')
args = parser.parse_args()
args.cuda = not args.no_cuda and torch.cuda.is_available()
if args.cuda:
try:
args.gpu_ids = [int(s) for s in args.gpu_ids.split(',')]
except ValueError:
raise ValueError('Argument --gpu_ids must be a comma-separated list of integers only')
if args.sync_bn is None:
if args.cuda and len(args.gpu_ids) > 1:
args.sync_bn = True
else:
args.sync_bn = False
# default settings for epochs, batch_size and lr
if args.epochs is None:
epoches = {
'coco': 30,
'cityscapes': 200,
'pascal': 50,
}
args.epochs = epoches[args.dataset.lower()]
if args.batch_size is None:
args.batch_size = 4 * len(args.gpu_ids)
if args.test_batch_size is None:
args.test_batch_size = args.batch_size
if args.lr is None:
lrs = {
'coco': 0.1,
'cityscapes': 0.01,
'pascal': 0.007,
}
args.lr = lrs[args.dataset.lower()] / (4 * len(args.gpu_ids)) * args.batch_size
if args.checkname is None:
args.checkname = 'deeplab-'+str(args.backbone)
print(args)
torch.manual_seed(args.seed)
trainer = Trainer(args)
print('Starting Epoch:', trainer.args.start_epoch)
print('Total Epoches:', trainer.args.epochs)
for epoch in range(trainer.args.start_epoch, trainer.args.epochs):
trainer.training(epoch)
if not trainer.args.no_val and epoch % args.eval_interval == (args.eval_interval - 1):
trainer.validation(epoch)
trainer.writer.close()
if __name__ == "__main__":
main()