MDViT / data /multi_train_BASE.py
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'''
The default exp_name is tmp. Change it before formal training!
multi-training is from https://github.com/liuquande/MS-Net/blob/master/train.py
nohup python -u multi_train_BASE.py --exp_name test --config_yml Configs/multi_train_local.yml --model SwinUnet --batch_size 4 --adapt_method False --dataset isic2018 PH2 DMF SKD --k_fold 4 > test.out 2>&1 &
'''
import argparse
from sqlite3 import adapt
import yaml
import os, time
from datetime import datetime
import pandas as pd
import torch.nn as nn
import torch.utils.data
import torch.optim as optim
import medpy.metric.binary as metrics
from torch.utils.tensorboard import SummaryWriter
from Datasets.create_dataset import Dataset_wrap_csv
from Utils.losses import dice_loss
from Utils.pieces import DotDict
torch.cuda.empty_cache()
def main(config):
# set gpu
device_ids = range(torch.cuda.device_count())
# prepare train, val, test datas
train_loaders = {} # initialize data loaders
val_loaders = {}
test_loaders = {}
for dataset_name in config.data.name:
datas = Dataset_wrap_csv(k_fold=config.data.k_fold, use_old_split=True, img_size=config.data.img_size,
dataset_name = dataset_name, split_ratio=config.data.split_ratio,
train_aug=config.data.train_aug, data_folder=config.data.data_folder)
train_data, val_data, test_data = datas['train'], datas['test'], datas['test']
train_loader = torch.utils.data.DataLoader(train_data,
batch_size=config.train.batch_size,
shuffle=True,
num_workers=config.train.num_workers,
pin_memory=True,
drop_last=True)
val_loader = torch.utils.data.DataLoader(val_data,
batch_size=config.test.batch_size,
shuffle=False,
num_workers=config.test.num_workers,
pin_memory=True,
drop_last=False)
test_loader = torch.utils.data.DataLoader(test_data,
batch_size=config.test.batch_size,
shuffle=False,
num_workers=config.test.num_workers,
pin_memory=True,
drop_last=False)
train_loaders[dataset_name] = train_loader
val_loaders[dataset_name] = val_loader
test_loaders[dataset_name] = test_loader
print('{} has {} training samples'.format(dataset_name, len(train_loader.dataset)))
print('{} k_folder, {} val'.format(config.data.k_fold, config.data.use_val))
# prepare model
if config.model == 'BASE':
from Models.Transformer.base import BASE
model = BASE(drop_rate=0.1, drop_path_rate=0.1, conv_norm=nn.BatchNorm2d, adapt_method=config.model_adapt.adapt_method)
elif config.model == 'BASE_DSN':
from Models.Transformer.base import BASE_DSN
model = BASE_DSN(img_size=config.data.img_size, drop_rate=0.1, drop_path_rate=0.1,
conv_norm=nn.BatchNorm2d, adapt_method=config.model_adapt.adapt_method, num_domains=K)
elif config.model == 'SwimUNETR':
from monai.networks.nets import SwinUNETR
model = SwinUNETR(img_size=(256,256), in_channels=3, out_channels=1, feature_size=48, use_checkpoint=False, spatial_dims=2)
elif config.model == 'BASE_DASE':
from Models.Sota_adapters.base_sota_adapt import BASE_DASE
model = BASE_DASE(drop_rate=0.1, drop_path_rate=0.1, conv_norm=nn.BatchNorm2d)
elif config.model == 'BASE_USE':
from Models.Sota_adapters.base_sota_adapt import BASE_USE
model = BASE_USE(drop_rate=0.1, drop_path_rate=0.1, conv_norm=nn.BatchNorm2d)
elif config.model == 'UTNet':
from Models.Hybrid_models.UTNetFolder.UTNet import UTNet
model = UTNet(in_chan=3,base_chan=32,num_classes=1,reduce_size=8,block_list='1234',num_blocks=[1,1,1,1],
num_heads=[4,4,4,4], projection='interp', attn_drop=0.1, proj_drop=0.1, rel_pos=True, aux_loss=False, maxpool=True)
elif config.model == 'SwinUnet':
from Models.Transformer.SwinUnet import SwinUnet
model = SwinUnet(img_size=config.data.img_size,window_size=8)
total_trainable_params = sum(
p.numel() for p in model.parameters() if p.requires_grad)
print('{}M total trainable parameters'.format(total_trainable_params/1e6))
model = model.cuda()
# If multiple GPUs
if len(device_ids) > 1:
model = torch.nn.DataParallel(model).cuda()
criterion = [nn.BCELoss(), dice_loss]
# only test
if config.test.only_test == True:
test(config, model, config.test.test_model_dir, test_loaders, criterion)
else:
train_val(config, model, train_loaders, val_loaders, criterion)
test(config, model, best_model_dir, test_loaders, criterion)
# =======================================================================================================
def train_val(config, model, train_loaders, val_loaders, criterion):
# optimizer loss
if config.train.optimizer.mode == 'adam':
optimizer = optim.Adam(model.parameters(), lr=float(config.train.optimizer.adam.lr))
elif config.train.optimizer.mode == 'adamw':
optimizer = optim.AdamW(model.parameters(), lr=float(config.train.optimizer.adamw.lr),
weight_decay=float(config.train.optimizer.adamw.weight_decay))
scheduler = optim.lr_scheduler.StepLR(optimizer, step_size=50, gamma=0.5)
# ---------------------------------------------------------------------------
# Training and Validating
#----------------------------------------------------------------------------
epochs = config.train.num_epochs
max_iou = 0 # use for record best model
best_epoch = 0 # use for recording the best epoch
# create training data loading iteration
train_iters = {}
for dataset_name in train_loaders.keys():
train_iters[dataset_name] = iter(train_loaders[dataset_name])
if config.train.num_iters:
iterations = config.train.num_iters
else:
iterations = max([len(train_loaders[x]) for x in train_iters.keys()])
torch.save(model.state_dict(), best_model_dir)
for epoch in range(epochs):
start = time.time()
# ----------------------------------------------------------------------
# train
# ---------------------------------------------------------------------
model.train()
for train_step in range(epoch*iterations, (epoch+1)*iterations):
# for each dataset, get one minibatch, get loss, sum all losses together
# update once
datas_loss_list = [] #record loss for datasets
dice_train_list = []
iou_train_list = []
for dataset_name in config.data.name:
try:
batch = next(train_iters[dataset_name])
except StopIteration:
train_iters[dataset_name] = iter(train_loaders[dataset_name])
batch = next(train_iters[dataset_name])
img = batch['image'].cuda().float()
label = batch['label'].cuda().float()
domain_label = batch['set_id']
d = str(domain_label[0].item())
domain_label = torch.nn.functional.one_hot(domain_label, 4).float().cuda()
if config.model == 'BASE_DSN' and config.model_adapt.adapt_method == 'Sup':
output = model(img,domain_label=domain_label,d=d)
elif config.model_adapt.adapt_method and 'Sup' in config.model_adapt.adapt_method:
if config.model_adapt.Sup_label == 'Domain':
output = model(img, domain_label)
elif config.model == 'BASE_DSN' or config.model_adapt.adapt_method in ['series_adapters', 'parallel_adapters']:
output = model(img,d=d)
else:
output = model(img)
output = torch.sigmoid(output)
# calculate loss
assert (output.shape == label.shape)
losses = []
for function in criterion:
losses.append(function(output, label))
loss = sum(losses)
datas_loss_list.append(loss)
# calculate metrics
with torch.no_grad():
output = output.cpu().numpy() > 0.5
label = label.cpu().numpy()
assert (output.shape == label.shape)
dice_train = metrics.dc(output, label)
iou_train = metrics.jc(output, label)
dice_train_list.append(dice_train)
iou_train_list.append(iou_train)
# logging per batch
writer.add_scalar('Train/{}/BCEloss'.format(dataset_name), losses[0].item(), train_step)
writer.add_scalar('Train/{}/Diceloss'.format(dataset_name), losses[1].item(), train_step)
writer.add_scalar('Train/{}/loss'.format(dataset_name), loss.item(), train_step)
writer.add_scalar('Train/{}/Di_score'.format(dataset_name), dice_train, train_step)
writer.add_scalar('Train/{}/IOU'.format(dataset_name), iou_train, train_step)
# backward
multi_loss = sum(datas_loss_list)
optimizer.zero_grad()
multi_loss.backward()
optimizer.step()
# logging average per batch
writer.add_scalar('Train/Average/sum_loss',multi_loss.item(), train_step)
writer.add_scalar('Train/Average/Di_score', sum(dice_train_list)/len(dice_train_list), train_step)
writer.add_scalar('Train/Average/IOU', sum(iou_train_list)/len(iou_train_list), train_step)
# end one training batch
if config.debug: break
# print
print('Epoch {}, Total train step {} || sum_loss: {}, Avg Dice score: {}, Avg IOU: {}'.
format(epoch, train_step, round(multi_loss.item(),5), round(sum(dice_train_list)/len(dice_train_list),4),
round(sum(iou_train_list)/len(iou_train_list),4)))
print('Datasets: ', config.data.name, ' || loss: ', [round(x.item(), 4) for x in datas_loss_list],
' || Dice score: ', [round(x, 4) for x in dice_train_list],
' || IOU: ', [round(x, 4) for x in iou_train_list])
# -----------------------------------------------------------------
# validate
# ----------------------------------------------------------------
model.eval()
dice_val_list = [] # record results for each dataset
iou_val_list = []
loss_val_list = []
# eval each dataset
for dataset_name in config.data.name:
dice_val_sum= 0
iou_val_sum = 0
loss_val_sum = 0
num_val = 0
for batch_id, batch in enumerate(val_loaders[dataset_name]):
img = batch['image'].cuda().float()
label = batch['label'].cuda().float()
domain_label = batch['set_id']
d = str(domain_label[0].item())
domain_label = torch.nn.functional.one_hot(domain_label, 4).float().cuda()
batch_len = img.shape[0]
with torch.no_grad():
if config.model == 'BASE_DSN' and config.model_adapt.adapt_method == 'Sup':
output = model(img,domain_label=domain_label,d=d)
elif config.model_adapt.adapt_method and 'Sup' in config.model_adapt.adapt_method:
if config.model_adapt.Sup_label == 'Domain':
output = model(img, domain_label)
elif config.model=='BASE_DSN' or config.model_adapt.adapt_method in ['series_adapters', 'parallel_adapters']:
output = model(img,d=d)
else:
output = model(img)
output = torch.sigmoid(output)
# calculate loss
assert (output.shape == label.shape)
losses = []
for function in criterion:
losses.append(function(output, label))
loss_val_sum += sum(losses)*batch_len
# calculate metrics
output = output.cpu().numpy() > 0.5
label = label.cpu().numpy()
dice_val_sum += metrics.dc(output, label)*batch_len
iou_val_sum += metrics.jc(output, label)*batch_len
num_val += batch_len
# end one val batch
if config.debug: break
# logging per epoch for one dataset
loss_val_epoch, dice_val_epoch, iou_val_epoch = loss_val_sum/num_val, dice_val_sum/num_val, iou_val_sum/num_val
dice_val_list.append(dice_val_epoch)
loss_val_list.append(loss_val_epoch.item())
iou_val_list.append(iou_val_epoch)
writer.add_scalar('Val/{}/loss'.format(dataset_name), loss_val_epoch.item(), epoch)
writer.add_scalar('Val/{}/Di_score'.format(dataset_name), dice_val_epoch, epoch)
writer.add_scalar('Val/{}/IOU'.format(dataset_name), iou_val_epoch, epoch)
# logging average per epoch
writer.add_scalar('Val/Average/sum_loss', sum(loss_val_list), epoch)
writer.add_scalar('Val/Average/Di_score', sum(dice_val_list)/len(dice_val_list), epoch)
writer.add_scalar('Val/Average/IOU', sum(iou_val_list)/len(iou_val_list), epoch)
# print
print('Epoch {}, Validation || sum_loss: {}, Avg Dice score: {}, Avg IOU: {}'.
format(epoch, round(sum(loss_val_list),5),
round(sum(dice_val_list)/len(dice_val_list),4), round(sum(iou_val_list)/len(iou_val_list),4)))
print('Datasets: ', config.data.name, ' || loss: ', [round(x, 4) for x in loss_val_list],
' || Dice score: ', [round(x, 4) for x in dice_val_list],
' || IOU: ', [round(x, 4) for x in iou_val_list])
# scheduler step, record lr
writer.add_scalar('Lr', scheduler.get_last_lr()[0], epoch)
scheduler.step()
# store model using the average iou
avg_val_iou_epoch = sum(iou_val_list)/len(iou_val_list)
if avg_val_iou_epoch > max_iou:
torch.save(model.state_dict(), best_model_dir)
max_iou = avg_val_iou_epoch
best_epoch = epoch
print('New best epoch {}!==============================='.format(epoch))
end = time.time()
time_elapsed = end-start
print('Training and evaluating on epoch{} complete in {:.0f}m {:.0f}s'.
format(epoch, time_elapsed // 60, time_elapsed % 60))
# end one epoch
if config.debug: return
print('Complete training ---------------------------------------------------- \n The best epoch is {}'.format(best_epoch))
return
# ========================================================================================================
def test(config, model, model_dir, test_loaders, criterion):
model.load_state_dict(torch.load(model_dir))
model.eval()
dice_test_list = [] # record results for each dataset
iou_test_list = []
loss_test_list = []
# test each dataset
for dataset_name in config.data.name:
dice_test_sum= 0
iou_test_sum = 0
loss_test_sum = 0
num_test = 0
for batch_id, batch in enumerate(test_loaders[dataset_name]):
img = batch['image'].cuda().float()
label = batch['label'].cuda().float()
domain_label = batch['set_id']
d = str(domain_label[0].item())
domain_label = torch.nn.functional.one_hot(domain_label, 4).float().cuda()
batch_len = img.shape[0]
with torch.no_grad():
if config.model == 'BASE_DSN' and config.model_adapt.adapt_method == 'Sup':
output = model(img,domain_label=domain_label,d=d)
elif config.model_adapt.adapt_method and 'Sup' in config.model_adapt.adapt_method:
if config.model_adapt.Sup_label == 'Domain':
output = model(img, domain_label)
elif config.model=='BASE_DSN' or config.model_adapt.adapt_method in ['series_adapters', 'parallel_adapters']:
output = model(img,d=d)
else:
output = model(img)
output = torch.sigmoid(output)
# calculate loss
assert (output.shape == label.shape)
losses = []
for function in criterion:
losses.append(function(output, label))
loss_test_sum += sum(losses)*batch_len
# calculate metrics
output = output.cpu().numpy() > 0.5
label = label.cpu().numpy()
dice_test_sum += metrics.dc(output, label)*batch_len
iou_test_sum += metrics.jc(output, label)*batch_len
num_test += batch_len
# end one test batch
if config.debug: break
# logging results for one dataset
loss_test_epoch, dice_test_epoch, iou_test_epoch = loss_test_sum/num_test, dice_test_sum/num_test, iou_test_sum/num_test
dice_test_list.append(dice_test_epoch)
loss_test_list.append(loss_test_epoch.item())
iou_test_list.append(iou_test_epoch)
# logging average and store results
dataset_name_list = config.data.name+['Total']
loss_test_list.append(sum(loss_test_list))
dice_test_list.append(sum(dice_test_list)/len(dice_test_list))
iou_test_list.append(sum(iou_test_list)/len(iou_test_list))
df = pd.DataFrame({
'Name': dataset_name_list,
'loss': loss_test_list,
'Di_score': dice_test_list,
'IOU': iou_test_list
})
df.to_csv(test_results_dir, index=False)
# print
print('========================================================================================')
print('Test || Average loss: {}, Dice score: {}, IOU: {}'.
format(round(sum(loss_test_list),5),
round(sum(dice_test_list)/len(dice_test_list),4), round(sum(iou_test_list)/len(iou_test_list),4)))
print('Datasets: ', config.data.name, ' || loss: ', [round(x, 4) for x in loss_test_list],
' || Dice score: ', [round(x, 4) for x in dice_test_list], ' || IOU: ', [round(x, 4) for x in iou_test_list])
return
if __name__=='__main__':
now = datetime.now()
torch.cuda.empty_cache()
parser = argparse.ArgumentParser(description='Train experiment')
parser.add_argument('--exp_name', type=str, default='tmp')
parser.add_argument('--config_yml', type=str,default='Configs/multi_train_local.yml')
parser.add_argument('--model', type=str,default='BASE')
parser.add_argument('--batch_size', type=int, default=32)
parser.add_argument('--adapt_method', type=str, default=False)
parser.add_argument('--dataset', type=str, nargs='+', default='isic2018')
parser.add_argument('--k_fold', type=str, default='No')
args = parser.parse_args()
config = yaml.load(open(args.config_yml), Loader=yaml.FullLoader)
config['model'] = args.model
config['train']['batch_size']=args.batch_size
config['data']['name'] = args.dataset
config['model_adapt']['adapt_method']=args.adapt_method
config['data']['k_fold'] = args.k_fold
# print config and args
print(yaml.dump(config, default_flow_style=False))
for arg in vars(args):
print("{:<20}: {}".format(arg, getattr(args, arg)))
store_config = config
config = DotDict(config)
# logging tensorbord, config, best model
exp_dir = '{}/results/{}_{}_{}'.format(config.root_dir,args.exp_name,config.model,now.strftime("%Y%m%d_%H%M"))
os.makedirs(exp_dir, exist_ok=True)
writer = SummaryWriter(exp_dir)
best_model_dir = '{}/best.pth'.format(exp_dir)
test_results_dir = '{}/test_results.csv'.format(exp_dir)
# store yml file
if config.debug == False:
yaml.dump(store_config, open('{}/exp_config.yml'.format(exp_dir), 'w'))
# torch.set_num_threads(8)
if config.model_adapt.Sup_label == 'Domain':
num_list = [2594, 200, 1212, 206]
elif config.model_adapt.Sup_label == 'DC':
num_list = [519, 1867, 208, 80, 80, 40, 123, 239, 257, 65, 331, 76, 121, 87, 119]
K = len(num_list) # num of domains
main(config)