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train.py
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train.py
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#!/usr/bin/env python
import os
import json
import torch
import numpy as np
import queue
import pprint
import random
import argparse
import importlib
import threading
import traceback
from tqdm import tqdm
from utils import stdout_to_tqdm
from config import system_configs
from nnet.py_factory import NetworkFactory
from torch.multiprocessing import Process, Queue, Pool
from db.datasets import datasets
torch.backends.cudnn.enabled = True
torch.backends.cudnn.benchmark = True
def parse_args():
parser = argparse.ArgumentParser(description="Train CornerNet")
parser.add_argument("cfg_file", help="config file", type=str)
parser.add_argument("--iter", dest="start_iter",
help="train at iteration i",
default=0, type=int)
parser.add_argument("--threads", dest="threads", default=4, type=int)
args = parser.parse_args()
return args
def prefetch_data(db, queue, sample_data, data_aug):
ind = 0
print("start prefetching data...")
np.random.seed(os.getpid())
while True:
try:
data, ind = sample_data(db, ind, data_aug=data_aug)
queue.put(data)
except Exception as e:
traceback.print_exc()
raise e
def pin_memory(data_queue, pinned_data_queue, sema):
while True:
data = data_queue.get()
data["xs"] = [x.pin_memory() for x in data["xs"]]
data["ys"] = [y.pin_memory() for y in data["ys"]]
pinned_data_queue.put(data)
if sema.acquire(blocking=False):
return
def init_parallel_jobs(dbs, queue, fn, data_aug):
tasks = [Process(target=prefetch_data, args=(db, queue, fn, data_aug)) for db in dbs]
for task in tasks:
task.daemon = True
task.start()
return tasks
def train(training_dbs, validation_db, start_iter=0):
learning_rate = system_configs.learning_rate
max_iteration = system_configs.max_iter
pretrained_model = system_configs.pretrain
snapshot = system_configs.snapshot
val_iter = system_configs.val_iter
display = system_configs.display
decay_rate = system_configs.decay_rate
stepsize = system_configs.stepsize
# getting the size of each database
training_size = len(training_dbs[0].db_inds)
validation_size = len(validation_db.db_inds)
# queues storing data for training
training_queue = Queue(system_configs.prefetch_size)
validation_queue = Queue(5)
# queues storing pinned data for training
pinned_training_queue = queue.Queue(system_configs.prefetch_size)
pinned_validation_queue = queue.Queue(5)
# load data sampling function
data_file = "sample.{}".format(training_dbs[0].data)
sample_data = importlib.import_module(data_file).sample_data
# allocating resources for parallel reading
training_tasks = init_parallel_jobs(training_dbs, training_queue, sample_data, True)
if val_iter:
validation_tasks = init_parallel_jobs([validation_db], validation_queue, sample_data, False)
training_pin_semaphore = threading.Semaphore()
validation_pin_semaphore = threading.Semaphore()
training_pin_semaphore.acquire()
validation_pin_semaphore.acquire()
training_pin_args = (training_queue, pinned_training_queue, training_pin_semaphore)
training_pin_thread = threading.Thread(target=pin_memory, args=training_pin_args)
training_pin_thread.daemon = True
training_pin_thread.start()
validation_pin_args = (validation_queue, pinned_validation_queue, validation_pin_semaphore)
validation_pin_thread = threading.Thread(target=pin_memory, args=validation_pin_args)
validation_pin_thread.daemon = True
validation_pin_thread.start()
print("building model...")
nnet = NetworkFactory(training_dbs[0])
if pretrained_model is not None:
if not os.path.exists(pretrained_model):
raise ValueError("pretrained model does not exist")
print("loading from pretrained model")
nnet.load_pretrained_params(pretrained_model)
if start_iter:
learning_rate /= (decay_rate ** (start_iter // stepsize))
nnet.load_params(start_iter)
nnet.set_lr(learning_rate)
print("training starts from iteration {} with learning_rate {}".format(start_iter + 1, learning_rate))
else:
nnet.set_lr(learning_rate)
print("training start...")
nnet.cuda()
nnet.train_mode()
with stdout_to_tqdm() as save_stdout:
for iteration in tqdm(range(start_iter + 1, max_iteration + 1), file=save_stdout, ncols=80):
training = pinned_training_queue.get(block=True)
training_loss = nnet.train(**training)
if display and iteration % display == 0:
print("training loss at iteration {}: {}".format(iteration, training_loss.item()))
del training_loss
if val_iter and validation_db.db_inds.size and iteration % val_iter == 0:
nnet.eval_mode()
validation = pinned_validation_queue.get(block=True)
validation_loss = nnet.validate(**validation)
print("validation loss at iteration {}: {}".format(iteration, validation_loss.item()))
nnet.train_mode()
if iteration % snapshot == 0:
nnet.save_params(iteration)
if iteration % stepsize == 0:
learning_rate /= decay_rate
nnet.set_lr(learning_rate)
# sending signal to kill the thread
training_pin_semaphore.release()
validation_pin_semaphore.release()
# terminating data fetching processes
for training_task in training_tasks:
training_task.terminate()
for validation_task in validation_tasks:
validation_task.terminate()
if __name__ == "__main__":
args = parse_args()
cfg_file = os.path.join(system_configs.config_dir, args.cfg_file + ".json")
with open(cfg_file, "r") as f:
configs = json.load(f)
configs["system"]["snapshot_name"] = args.cfg_file
system_configs.update_config(configs["system"])
train_split = system_configs.train_split
val_split = system_configs.val_split
print("loading all datasets...")
dataset = system_configs.dataset
# threads = max(torch.cuda.device_count() * 2, 4)
threads = args.threads
print("using {} threads".format(threads))
training_dbs = [datasets[dataset](configs["db"], train_split) for _ in range(threads)]
validation_db = datasets[dataset](configs["db"], val_split)
print("system config...")
pprint.pprint(system_configs.full)
print("db config...")
pprint.pprint(training_dbs[0].configs)
print("len of db: {}".format(len(training_dbs[0].db_inds)))
train(training_dbs, validation_db, args.start_iter)