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train.py
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train.py
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import datetime
import logging
import math
import sys
import time
import os
from os import path as osp
import torch
from neosr.data import build_dataloader, build_dataset
from neosr.data.data_sampler import EnlargedSampler
from neosr.data.prefetch_dataloader import CUDAPrefetcher
from neosr.models import build_model
from neosr.utils import (
AvgTimer,
MessageLogger,
check_resume,
get_root_logger,
get_time_str,
init_tb_logger,
init_wandb_logger,
make_exp_dirs,
mkdir_and_rename,
scandir,
)
from neosr.utils.options import copy_opt_file, parse_options
def init_tb_loggers(opt):
# initialize wandb logger before tensorboard logger to allow proper sync
if (
(opt["logger"].get("wandb") is not None)
and (opt["logger"]["wandb"].get("project") is not None)
and ("debug" not in opt["name"])
):
assert (
opt["logger"].get("use_tb_logger") is True
), "should turn on tensorboard when using wandb"
init_wandb_logger(opt)
tb_logger = None
if opt["logger"].get("use_tb_logger") and "debug" not in opt["name"]:
tb_logger = init_tb_logger(
log_dir=osp.join(opt["root_path"], "experiments", "tb_logger", opt["name"])
)
return tb_logger
def create_train_val_dataloader(opt, logger):
# create train and val dataloaders
train_loader, val_loaders = None, []
for phase, dataset_opt in opt["datasets"].items():
if phase == "train":
dataset_enlarge_ratio = dataset_opt.get("dataset_enlarge_ratio", 1)
train_set = build_dataset(dataset_opt)
train_sampler = EnlargedSampler(
train_set, opt["world_size"], opt["rank"], dataset_enlarge_ratio
)
num_gpu = opt.get("num_gpu", "auto")
train_loader = build_dataloader(
train_set,
dataset_opt,
num_gpu=num_gpu,
dist=opt["dist"],
sampler=train_sampler,
seed=opt["manual_seed"],
)
accumulate = opt["datasets"]["train"].get("accumulate", 1)
num_iter_per_epoch = math.ceil(
len(train_set)
* dataset_enlarge_ratio
/ (dataset_opt["batch_size"] * accumulate * opt["world_size"])
)
total_iters = int(opt["train"]["total_iter"] * accumulate)
total_epochs = math.ceil(total_iters / (num_iter_per_epoch))
logger.info(
'Training statistics:'
f'\n\tStarting model: {opt["name"]}'
f'\n\tNumber of train images: {len(train_set)}'
f'\n\tDataset enlarge ratio: {dataset_enlarge_ratio}'
f'\n\tBatch size per gpu: {dataset_opt["batch_size"]}'
f'\n\tAccumulated batches: {dataset_opt["batch_size"] * accumulate}'
f'\n\tWorld size (gpu number): {opt["world_size"]}'
f'\n\tRequired iters per epoch: {num_iter_per_epoch}'
f'\n\tTotal epochs: {total_epochs}. Total iters: {total_iters // accumulate}'
)
elif phase.split("_")[0] == "val":
val_set = build_dataset(dataset_opt)
val_loader = build_dataloader(
val_set,
dataset_opt,
num_gpu=opt["num_gpu"],
dist=opt["dist"],
sampler=None,
seed=opt["manual_seed"],
)
logger.info(
f'Number of val images/folders in {dataset_opt["name"]}: {len(val_set)}'
)
val_loaders.append(val_loader)
else:
raise ValueError(f"Dataset phase {phase} is not recognized.")
return train_loader, train_sampler, val_loaders, total_epochs, total_iters
def load_resume_state(opt):
resume_state_path = None
if opt["auto_resume"]:
state_path = osp.join("experiments", opt["name"], "training_states")
if osp.isdir(state_path):
states = list(
scandir(state_path, suffix="state", recursive=False, full_path=False)
)
if len(states) != 0:
states = [float(v.split(".state")[0]) for v in states]
resume_state_path = osp.join(state_path, f"{max(states):.0f}.state")
opt["path"]["resume_state"] = resume_state_path
else:
if opt["path"].get("resume_state"):
resume_state_path = opt["path"]["resume_state"]
if resume_state_path is None:
resume_state = None
else:
resume_state = torch.load(resume_state_path, map_location=torch.device("cuda"))
check_resume(opt, resume_state["iter"])
return resume_state
def train_pipeline(root_path):
# parse options, set distributed setting, set random seed
opt, args = parse_options(root_path, is_train=True)
opt["root_path"] = root_path
# default device
torch.set_default_device("cuda")
# enable tensorfloat32 and possibly bfloat16 matmul
fast_matmul = opt.get("fast_matmul", False)
if fast_matmul:
torch.set_float32_matmul_precision("medium")
torch.backends.cuda.matmul.allow_tf32 = True
torch.backends.cudnn.allow_tf32 = True
# load resume states if necessary
resume_state = load_resume_state(opt)
# mkdir for experiments and logger
if resume_state is None:
make_exp_dirs(opt)
if (
opt["logger"].get("use_tb_logger")
and "debug" not in opt["name"]
and opt["rank"] == 0
):
mkdir_and_rename(
osp.join(opt["root_path"], "experiments", "tb_logger", opt["name"])
)
# copy the yml file to the experiment root
try:
copy_opt_file(args.opt, opt["path"]["experiments_root"])
except Exception as e:
msg = "Failed. Make sure the option 'name' in your config file is the same as the previous state!"
raise ValueError(msg)
# WARNING: should not use get_root_logger in the above codes, including the called functions
# Otherwise the logger will not be properly initialized
log_file = osp.join(opt["path"]["log"], f"train_{opt['name']}_{get_time_str()}.log")
logger = get_root_logger(
logger_name="neosr", log_level=logging.INFO, log_file=log_file
)
logger.info(
f"\n------------------------ neosr ------------------------\nPytorch Version: {torch.__version__}"
)
# initialize wandb and tb loggers
tb_logger = init_tb_loggers(opt)
# create train and validation dataloaders
result = create_train_val_dataloader(opt, logger)
train_loader, train_sampler, val_loaders, total_epochs, total_iters = result
# create model
model = build_model(opt)
if resume_state: # resume training
model.resume_training(resume_state) # handle optimizers and schedulers
logger.info(
f"Resuming training from epoch: {resume_state['epoch']}, iter: {int(resume_state['iter'])}"
)
start_epoch = resume_state["epoch"]
current_iter = int(resume_state["iter"] * opt["datasets"]["train"].get("accumulate", 1))
#current_iter = resume_state["iter"]
torch.cuda.empty_cache()
else:
start_epoch = 0
current_iter = 0
# create message logger (formatted outputs)
msg_logger = MessageLogger(opt, current_iter, tb_logger)
# dataloader prefetcher
prefetcher = CUDAPrefetcher(train_loader, opt)
if opt["use_amp"]:
logger.info("AMP enabled.")
if opt["deterministic"]:
logger.info("Deterministic mode enabled.")
# training log vars
accumulate = opt["datasets"]["train"].get("accumulate", 1)
print_freq = opt["logger"]["print_freq"]
save_checkpoint_freq = opt["logger"]["save_checkpoint_freq"]
if opt.get("val") is not None:
val_freq = opt["val"]["val_freq"]
# training
logger.info(f"Start training from epoch: {start_epoch}, iter: {int(current_iter / accumulate)}")
#data_timer, iter_timer = AvgTimer(), AvgTimer()
iter_timer = AvgTimer()
start_time = time.time()
try:
for epoch in range(start_epoch, total_epochs + 1):
train_sampler.set_epoch(epoch)
prefetcher.reset()
train_data = prefetcher.next()
while train_data is not None:
#data_timer.record()
current_iter += 1
if current_iter > total_iters:
break
# training
model.feed_data(train_data)
model.optimize_parameters(current_iter)
# update learning rate
model.update_learning_rate(
current_iter, warmup_iter=opt["train"].get("warmup_iter", -1)
)
iter_timer.record()
if current_iter == 1:
# reset start time in msg_logger for more accurate eta_time
# not work in resume mode
msg_logger.reset_start_time()
# log
if current_iter >= accumulate:
current_iter_log = current_iter / accumulate
else:
current_iter_log = current_iter
if current_iter_log % print_freq == 0:
log_vars = {"epoch": epoch, "iter": current_iter_log}
log_vars.update({"lrs": model.get_current_learning_rate()})
log_vars.update({
"time": iter_timer.get_avg_time(),
#"data_time": data_timer.get_avg_time(),
})
log_vars.update(model.get_current_log())
msg_logger(log_vars)
# save models and training states
if current_iter_log % save_checkpoint_freq == 0:
logger.info("Saving models and training states.")
model.save(epoch, int(current_iter_log))
# validation
if opt.get("val") is not None and (current_iter_log % val_freq == 0):
for val_loader in val_loaders:
model.validation(
val_loader,
int(current_iter_log),
tb_logger,
opt["val"]["save_img"],
)
#data_timer.start()
iter_timer.start()
train_data = prefetcher.next()
# end of iter
# end of epoch
consumed_time = str(datetime.timedelta(seconds=int(time.time() - start_time)))
logger.info(f"End of training. Time consumed: {consumed_time}")
logger.info("Save the latest model.")
model.save(epoch=-1, current_iter=-1) # -1 stands for the latest
except KeyboardInterrupt:
logger.info("Interrupted, saving latest models.")
model.save(epoch, int(current_iter_log))
sys.exit(0)
if opt.get("val") is not None:
accumulate = opt["datasets"]["train"].get("accumulate", 1)
for val_loader in val_loaders:
model.validation(
val_loader, int(current_iter / accumulate), tb_logger, opt["val"]["save_img"]
)
if tb_logger:
tb_logger.close()
if __name__ == "__main__":
root_path = osp.abspath(osp.join(__file__, osp.pardir))
train_pipeline(root_path)