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train.py
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train.py
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import os
import argparse
import json
import warnings
import torch
from torch.optim.lr_scheduler import ReduceLROnPlateau
from torch.utils.data import DataLoader
import pytorch_lightning as pl
from pytorch_lightning.callbacks import ModelCheckpoint, EarlyStopping
from asteroid.data import WhamRDataset
from asteroid.engine.system import System
from asteroid.losses import PITLossWrapper, pairwise_neg_sisdr
from model import make_model_and_optimizer
warnings.simplefilter("ignore", UserWarning)
# Keys which are not in the conf.yml file can be added here.
# In the hierarchical dictionary created when parsing, the key `key` can be
# found at dic['main_args'][key]
# By default train.py will use all available GPUs. The `id` option in run.sh
# will limit the number of available GPUs for train.py .
parser = argparse.ArgumentParser()
parser.add_argument("--exp_dir", default="exp/tmp", help="Full path to save best validation model")
def main(conf):
train_set = WhamRDataset(
conf["data"]["train_dir"],
conf["data"]["task"],
sample_rate=conf["data"]["sample_rate"],
nondefault_nsrc=conf["data"]["nondefault_nsrc"],
)
val_set = WhamRDataset(
conf["data"]["valid_dir"],
conf["data"]["task"],
sample_rate=conf["data"]["sample_rate"],
nondefault_nsrc=conf["data"]["nondefault_nsrc"],
)
train_loader = DataLoader(
train_set,
shuffle=True,
batch_size=conf["training"]["batch_size"],
num_workers=conf["training"]["num_workers"],
drop_last=True,
)
val_loader = DataLoader(
val_set,
shuffle=False,
batch_size=conf["training"]["batch_size"],
num_workers=conf["training"]["num_workers"],
drop_last=True,
)
# Update number of source values (It depends on the task)
conf["masknet"].update({"n_src": train_set.n_src})
# Define model and optimizer in a local function (defined in the recipe).
# Two advantages to this : re-instantiating the model and optimizer
# for retraining and evaluating is straight-forward.
model, optimizer = make_model_and_optimizer(conf)
# Define scheduler
scheduler = None
if conf["training"]["half_lr"]:
scheduler = ReduceLROnPlateau(optimizer=optimizer, factor=0.5, patience=5)
# Just after instantiating, save the args. Easy loading in the future.
exp_dir = conf["main_args"]["exp_dir"]
os.makedirs(exp_dir, exist_ok=True)
conf_path = os.path.join(exp_dir, "conf.yml")
with open(conf_path, "w") as outfile:
yaml.safe_dump(conf, outfile)
# Define Loss function.
loss_func = PITLossWrapper(pairwise_neg_sisdr, pit_from="pw_mtx")
system = System(
model=model,
loss_func=loss_func,
optimizer=optimizer,
train_loader=train_loader,
val_loader=val_loader,
scheduler=scheduler,
config=conf,
)
# Define callbacks
callbacks = []
checkpoint_dir = os.path.join(exp_dir, "checkpoints/")
checkpoint = ModelCheckpoint(
checkpoint_dir, monitor="val_loss", mode="min", save_top_k=5, verbose=True
)
callbacks.append(checkpoint)
if conf["training"]["early_stop"]:
callbacks.append(EarlyStopping(monitor="val_loss", mode="min", patience=30, verbose=True))
# Don't ask GPU if they are not available.
gpus = -1 if torch.cuda.is_available() else None
distributed_backend = "ddp" if torch.cuda.is_available() else None
trainer = pl.Trainer(
max_epochs=conf["training"]["epochs"],
callbacks=callbacks,
default_root_dir=exp_dir,
gpus=gpus,
distributed_backend=distributed_backend,
limit_train_batches=1.0, # Useful for fast experiment
gradient_clip_val=5.0,
)
trainer.fit(system)
best_k = {k: v.item() for k, v in checkpoint.best_k_models.items()}
with open(os.path.join(exp_dir, "best_k_models.json"), "w") as f:
json.dump(best_k, f, indent=0)
if __name__ == "__main__":
import yaml
from pprint import pprint
from asteroid.utils import prepare_parser_from_dict, parse_args_as_dict
# We start with opening the config file conf.yml as a dictionary from
# which we can create parsers. Each top level key in the dictionary defined
# by the YAML file creates a group in the parser.
with open("./local/conf.yml") as f:
def_conf = yaml.safe_load(f)
parser = prepare_parser_from_dict(def_conf, parser=parser)
# Arguments are then parsed into a hierarchical dictionary (instead of
# flat, as returned by argparse) to facilitate calls to the different
# asteroid methods (see in main).
# plain_args is the direct output of parser.parse_args() and contains all
# the attributes in an non-hierarchical structure. It can be useful to also
# have it so we included it here but it is not used.
arg_dic, plain_args = parse_args_as_dict(parser, return_plain_args=True)
pprint(arg_dic)
main(arg_dic)