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InternAgent / examples /AutoPCDet_Once /Baseline /tools /train_utils /train_utils.py
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import os
import torch
import tqdm
import time
import glob
from torch.nn.utils import clip_grad_norm_
from pcdet.utils import common_utils, commu_utils
def train_one_epoch(model, optimizer, train_loader, model_func, lr_scheduler, accumulated_iter, optim_cfg,
 rank, tbar, total_it_each_epoch, dataloader_iter, tb_log=None, leave_pbar=False,
use_logger_to_record=False, logger=None, logger_iter_interval=50, cur_epoch=None,
total_epochs=None, ckpt_save_dir=None, ckpt_save_time_interval=300, show_gpu_stat=False, use_amp=False):
 if total_it_each_epoch == len(train_loader):
 dataloader_iter = iter(train_loader)
ckpt_save_cnt = 1
 start_it = accumulated_iter % total_it_each_epoch
scaler = torch.cuda.amp.GradScaler(enabled=use_amp, init_scale=optim_cfg.get('LOSS_SCALE_FP16', 2.0**16))
if rank == 0:
 pbar = tqdm.tqdm(total=total_it_each_epoch, leave=leave_pbar, desc='train', dynamic_ncols=True)
 data_time = common_utils.AverageMeter()
 batch_time = common_utils.AverageMeter()
 forward_time = common_utils.AverageMeter()
 losses_m = common_utils.AverageMeter()
end = time.time()
 for cur_it in range(start_it, total_it_each_epoch):
 try:
 batch = next(dataloader_iter)
 except StopIteration:
 dataloader_iter = iter(train_loader)
 batch = next(dataloader_iter)
 print('new iters')
data_timer = time.time()
 cur_data_time = data_timer - end
lr_scheduler.step(accumulated_iter, cur_epoch)
try:
 cur_lr = float(optimizer.lr)
 except:
 cur_lr = optimizer.param_groups[0]['lr']
if tb_log is not None:
 tb_log.add_scalar('meta_data/learning_rate', cur_lr, accumulated_iter)
model.train()
 optimizer.zero_grad()
with torch.cuda.amp.autocast(enabled=use_amp):
 loss, tb_dict, disp_dict = model_func(model, batch)
scaler.scale(loss).backward()
 scaler.unscale_(optimizer)
 clip_grad_norm_(model.parameters(), optim_cfg.GRAD_NORM_CLIP)
 scaler.step(optimizer)
 scaler.update()
accumulated_iter += 1
cur_forward_time = time.time() - data_timer
 cur_batch_time = time.time() - end
 end = time.time()
# average reduce
 avg_data_time = commu_utils.average_reduce_value(cur_data_time)
 avg_forward_time = commu_utils.average_reduce_value(cur_forward_time)
 avg_batch_time = commu_utils.average_reduce_value(cur_batch_time)
# log to console and tensorboard
 if rank == 0:
 batch_size = batch.get('batch_size', None)
data_time.update(avg_data_time)
 forward_time.update(avg_forward_time)
 batch_time.update(avg_batch_time)
 losses_m.update(loss.item() , batch_size)
disp_dict.update({
 'loss': loss.item(), 'lr': cur_lr, 'd_time': f'{data_time.val:.2f}({data_time.avg:.2f})',
 'f_time': f'{forward_time.val:.2f}({forward_time.avg:.2f})', 'b_time': f'{batch_time.val:.2f}({batch_time.avg:.2f})'
 })
if use_logger_to_record:
 if accumulated_iter % logger_iter_interval == 0 or cur_it == start_it or cur_it + 1 == total_it_each_epoch:
 trained_time_past_all = tbar.format_dict['elapsed']
 second_each_iter = pbar.format_dict['elapsed'] / max(cur_it - start_it + 1, 1.0)
trained_time_each_epoch = pbar.format_dict['elapsed']
 remaining_second_each_epoch = second_each_iter * (total_it_each_epoch - cur_it)
 remaining_second_all = second_each_iter * ((total_epochs - cur_epoch) * total_it_each_epoch - cur_it)
logger.info(
 'Train: {:>4d}/{} ({:>3.0f}%) [{:>4d}/{} ({:>3.0f}%)] '
 'Loss: {loss.val:#.4g} ({loss.avg:#.3g}) '
 'LR: {lr:.3e} '
 f'Time cost: {tbar.format_interval(trained_time_each_epoch)}/{tbar.format_interval(remaining_second_each_epoch)} '
f'[{tbar.format_interval(trained_time_past_all)}/{tbar.format_interval(remaining_second_all)}] '
 'Acc_iter {acc_iter:<10d} '
 'Data time: {data_time.val:.2f}({data_time.avg:.2f}) '
 'Forward time: {forward_time.val:.2f}({forward_time.avg:.2f}) '
 'Batch time: {batch_time.val:.2f}({batch_time.avg:.2f})'.format(
 cur_epoch+1,total_epochs, 100. * (cur_epoch+1) / total_epochs,
 cur_it,total_it_each_epoch, 100. * cur_it / total_it_each_epoch,
 loss=losses_m,
 lr=cur_lr,
 acc_iter=accumulated_iter,
 data_time=data_time,
 forward_time=forward_time,
 batch_time=batch_time
 )
 )
if show_gpu_stat and accumulated_iter % (3 * logger_iter_interval) == 0:
 # To show the GPU utilization, please install gpustat through "pip install gpustat"
 gpu_info = os.popen('gpustat').read()
 logger.info(gpu_info)
 else:
pbar.update()
 pbar.set_postfix(dict(total_it=accumulated_iter))
 tbar.set_postfix(disp_dict)
 # tbar.refresh()
if tb_log is not None:
 tb_log.add_scalar('train/loss', loss, accumulated_iter)
 tb_log.add_scalar('meta_data/learning_rate', cur_lr, accumulated_iter)
 for key, val in tb_dict.items():
 tb_log.add_scalar('train/' + key, val, accumulated_iter)
# save intermediate ckpt every {ckpt_save_time_interval} seconds
time_past_this_epoch = pbar.format_dict['elapsed']
 if time_past_this_epoch // ckpt_save_time_interval >= ckpt_save_cnt:
 ckpt_name = ckpt_save_dir / 'latest_model'
 save_checkpoint(
 checkpoint_state(model, optimizer, cur_epoch, accumulated_iter), filename=ckpt_name,
 )
 logger.info(f'Save latest model to {ckpt_name}')
 ckpt_save_cnt += 1
if rank == 0:
 pbar.close()
 return accumulated_iter
def train_model(model, optimizer, train_loader, model_func, lr_scheduler, optim_cfg,
 start_epoch, total_epochs, start_iter, rank, tb_log, ckpt_save_dir, train_sampler=None,
 lr_warmup_scheduler=None, ckpt_save_interval=1, max_ckpt_save_num=50,
 merge_all_iters_to_one_epoch=False, use_amp=False,
 use_logger_to_record=False, logger=None, logger_iter_interval=None, ckpt_save_time_interval=None, show_gpu_stat=False, cfg=None):
 accumulated_iter = start_iter
# use for disable data augmentation hook
 hook_config = cfg.get('HOOK', None)
augment_disable_flag = False
with tqdm.trange(start_epoch, total_epochs, desc='epochs', dynamic_ncols=True, leave=(rank == 0)) as tbar:
 total_it_each_epoch = len(train_loader)
 if merge_all_iters_to_one_epoch:
 assert hasattr(train_loader.dataset, 'merge_all_iters_to_one_epoch')
 train_loader.dataset.merge_all_iters_to_one_epoch(merge=True, epochs=total_epochs)
 total_it_each_epoch = len(train_loader) // max(total_epochs, 1)
dataloader_iter = iter(train_loader)
 for cur_epoch in tbar:
 if train_sampler is not None:
 train_sampler.set_epoch(cur_epoch)
# train one epoch
 if lr_warmup_scheduler is not None and cur_epoch < optim_cfg.WARMUP_EPOCH:
 cur_scheduler = lr_warmup_scheduler
 else:
 cur_scheduler = lr_scheduler
augment_disable_flag = disable_augmentation_hook(hook_config, dataloader_iter, total_epochs, cur_epoch, cfg, augment_disable_flag, logger)
 accumulated_iter = train_one_epoch(
 model, optimizer, train_loader, model_func,
 lr_scheduler=cur_scheduler,
 accumulated_iter=accumulated_iter, optim_cfg=optim_cfg,
 rank=rank, tbar=tbar, tb_log=tb_log,
 leave_pbar=(cur_epoch + 1 == total_epochs),
 total_it_each_epoch=total_it_each_epoch,
 dataloader_iter=dataloader_iter,
cur_epoch=cur_epoch, total_epochs=total_epochs,
 use_logger_to_record=use_logger_to_record,
logger=logger, logger_iter_interval=logger_iter_interval,
 ckpt_save_dir=ckpt_save_dir, ckpt_save_time_interval=ckpt_save_time_interval,
show_gpu_stat=show_gpu_stat,
 use_amp=use_amp
 )
# save trained model
 trained_epoch = cur_epoch + 1
 if trained_epoch % ckpt_save_interval == 0 and rank == 0:
ckpt_list = glob.glob(str(ckpt_save_dir / 'checkpoint_epoch_*.pth'))
 ckpt_list.sort(key=os.path.getmtime)
if ckpt_list.__len__() >= max_ckpt_save_num:
 for cur_file_idx in range(0, len(ckpt_list) - max_ckpt_save_num + 1):
 os.remove(ckpt_list[cur_file_idx])
ckpt_name = ckpt_save_dir / ('checkpoint_epoch_%d' % trained_epoch)
 save_checkpoint(
 checkpoint_state(model, optimizer, trained_epoch, accumulated_iter), filename=ckpt_name,
 )
def model_state_to_cpu(model_state):
 model_state_cpu = type(model_state)() # ordered dict
 for key, val in model_state.items():
 model_state_cpu[key] = val.cpu()
 return model_state_cpu
def checkpoint_state(model=None, optimizer=None, epoch=None, it=None):
 optim_state = optimizer.state_dict() if optimizer is not None else None
 if model is not None:
 if isinstance(model, torch.nn.parallel.DistributedDataParallel):
 model_state = model_state_to_cpu(model.module.state_dict())
 else:
 model_state = model.state_dict()
 else:
 model_state = None
try:
 import pcdet
 version = 'pcdet+' + pcdet.__version__
 except:
 version = 'none'
return {'epoch': epoch, 'it': it, 'model_state': model_state, 'optimizer_state': optim_state, 'version': version}
def save_checkpoint(state, filename='checkpoint'):
 if False and 'optimizer_state' in state:
 optimizer_state = state['optimizer_state']
 state.pop('optimizer_state', None)
 optimizer_filename = '{}_optim.pth'.format(filename)
 if torch.__version__ >= '1.4':
 torch.save({'optimizer_state': optimizer_state}, optimizer_filename, _use_new_zipfile_serialization=False)
 else:
 torch.save({'optimizer_state': optimizer_state}, optimizer_filename)
filename = '{}.pth'.format(filename)
 if torch.__version__ >= '1.4':
 torch.save(state, filename, _use_new_zipfile_serialization=False)
 else:
 torch.save(state, filename)
def disable_augmentation_hook(hook_config, dataloader, total_epochs, cur_epoch, cfg, flag, logger):
 """
 This hook turns off the data augmentation during training.
 """
 if hook_config is not None:
 DisableAugmentationHook = hook_config.get('DisableAugmentationHook', None)
 if DisableAugmentationHook is not None:
 num_last_epochs = DisableAugmentationHook.NUM_LAST_EPOCHS
 if (total_epochs - num_last_epochs) <= cur_epoch and not flag:
 DISABLE_AUG_LIST = DisableAugmentationHook.DISABLE_AUG_LIST
 dataset_cfg=cfg.DATA_CONFIG
 logger.info(f'Disable augmentations: {DISABLE_AUG_LIST}')
 dataset_cfg.DATA_AUGMENTOR.DISABLE_AUG_LIST = DISABLE_AUG_LIST
 dataloader._dataset.data_augmentor.disable_augmentation(dataset_cfg.DATA_AUGMENTOR)
 flag = True
 return flag