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train.py
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train.py
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from __future__ import division
from utils.utils import *
from utils.cocoapi_evaluator import COCOAPIEvaluator
from utils.parse_yolo_weights import parse_yolo_weights
from models.yolov3 import *
from dataset.cocodataset import *
import os
import argparse
import yaml
import random
import torch
from torch.autograd import Variable
import torch.optim as optim
def parse_args():
parser = argparse.ArgumentParser()
parser.add_argument('--cfg', type=str, default='config/yolov3_default.cfg',
help='config file. see readme')
parser.add_argument('--weights_path', type=str,
default=None, help='darknet weights file')
parser.add_argument('--n_cpu', type=int, default=0,
help='number of workers')
parser.add_argument('--checkpoint_interval', type=int,
default=1000, help='interval between saving checkpoints')
parser.add_argument('--eval_interval', type=int,
default=4000, help='interval between evaluations')
parser.add_argument('--checkpoint', type=str,
help='pytorch checkpoint file path')
parser.add_argument('--checkpoint_dir', type=str,
default='checkpoints',
help='directory where checkpoint files are saved')
parser.add_argument('--use_cuda', type=bool, default=True)
parser.add_argument('--debug', action='store_true', default=False,
help='debug mode where only one image is trained')
parser.add_argument(
'--tfboard', help='tensorboard path for logging', type=str, default=None)
return parser.parse_args()
def main():
"""
YOLOv3 trainer. See README for details.
"""
args = parse_args()
print("Setting Arguments.. : ", args)
cuda = torch.cuda.is_available() and args.use_cuda
os.makedirs(args.checkpoint_dir, exist_ok=True)
# Parse config settings
with open(args.cfg, 'r') as f:
cfg = yaml.load(f)
print("successfully loaded config file: ", cfg)
momentum = cfg['TRAIN']['MOMENTUM']
decay = cfg['TRAIN']['DECAY']
burn_in = cfg['TRAIN']['BURN_IN']
iter_size = cfg['TRAIN']['MAXITER']
steps = eval(cfg['TRAIN']['STEPS'])
batch_size = cfg['TRAIN']['BATCHSIZE']
subdivision = cfg['TRAIN']['SUBDIVISION']
ignore_thre = cfg['TRAIN']['IGNORETHRE']
random_resize = cfg['AUGMENTATION']['RANDRESIZE']
base_lr = cfg['TRAIN']['LR'] / batch_size / subdivision
print('effective_batch_size = batch_size * iter_size = %d * %d' %
(batch_size, subdivision))
# Learning rate setup
def burnin_schedule(i):
if i < burn_in:
factor = pow(i / burn_in, 4)
elif i < steps[0]:
factor = 1.0
elif i < steps[1]:
factor = 0.1
else:
factor = 0.01
return factor
# Initiate model
model = YOLOv3(cfg['MODEL'], ignore_thre=ignore_thre)
if args.weights_path:
print("loading darknet weights....", args.weights_path)
parse_yolo_weights(model, args.weights_path)
elif args.checkpoint:
print("loading pytorch ckpt...", args.checkpoint)
state = torch.load(args.checkpoint)
if 'model_state_dict' in state.keys():
model.load_state_dict(state['model_state_dict'])
else:
model.load_state_dict(state)
if cuda:
print("using cuda")
model = model.cuda()
if args.tfboard:
print("using tfboard")
from tensorboardX import SummaryWriter
tblogger = SummaryWriter(args.tfboard)
model.train()
imgsize = cfg['TRAIN']['IMGSIZE']
dataset = COCODataset(model_type=cfg['MODEL']['TYPE'],
data_dir='COCO/',
img_size=imgsize,
augmentation=cfg['AUGMENTATION'],
debug=args.debug)
dataloader = torch.utils.data.DataLoader(
dataset, batch_size=batch_size, shuffle=True, num_workers=args.n_cpu)
dataiterator = iter(dataloader)
evaluator = COCOAPIEvaluator(model_type=cfg['MODEL']['TYPE'],
data_dir='COCO/',
img_size=cfg['TEST']['IMGSIZE'],
confthre=cfg['TEST']['CONFTHRE'],
nmsthre=cfg['TEST']['NMSTHRE'])
dtype = torch.cuda.FloatTensor if cuda else torch.FloatTensor
# optimizer setup
# set weight decay only on conv.weight
params_dict = dict(model.named_parameters())
params = []
for key, value in params_dict.items():
if 'conv.weight' in key:
params += [{'params':value, 'weight_decay':decay * batch_size * subdivision}]
else:
params += [{'params':value, 'weight_decay':0.0}]
optimizer = optim.SGD(params, lr=base_lr, momentum=momentum,
dampening=0, weight_decay=decay * batch_size * subdivision)
iter_state = 0
if args.checkpoint:
if 'optimizer_state_dict' in state.keys():
optimizer.load_state_dict(state['optimizer_state_dict'])
iter_state = state['iter'] + 1
scheduler = optim.lr_scheduler.LambdaLR(optimizer, burnin_schedule)
# start training loop
for iter_i in range(iter_state, iter_size + 1):
# COCO evaluation
if iter_i % args.eval_interval == 0 and iter_i > 0:
ap50_95, ap50 = evaluator.evaluate(model)
model.train()
if args.tfboard:
tblogger.add_scalar('val/COCOAP50', ap50, iter_i)
tblogger.add_scalar('val/COCOAP50_95', ap50_95, iter_i)
# subdivision loop
optimizer.zero_grad()
for inner_iter_i in range(subdivision):
try:
imgs, targets, _, _ = next(dataiterator) # load a batch
except StopIteration:
dataiterator = iter(dataloader)
imgs, targets, _, _ = next(dataiterator) # load a batch
imgs = Variable(imgs.type(dtype))
targets = Variable(targets.type(dtype), requires_grad=False)
loss = model(imgs, targets)
loss.backward()
optimizer.step()
scheduler.step()
if iter_i % 10 == 0:
# logging
current_lr = scheduler.get_lr()[0] * batch_size * subdivision
print('[Iter %d/%d] [lr %f] '
'[Losses: xy %f, wh %f, conf %f, cls %f, total %f, imgsize %d]'
% (iter_i, iter_size, current_lr,
model.loss_dict['xy'], model.loss_dict['wh'],
model.loss_dict['conf'], model.loss_dict['cls'],
model.loss_dict['l2'], imgsize),
flush=True)
if args.tfboard:
tblogger.add_scalar('train/total_loss', model.loss_dict['l2'], iter_i)
# random resizing
if random_resize:
imgsize = (random.randint(0, 9) % 10 + 10) * 32
dataset.img_shape = (imgsize, imgsize)
dataset.img_size = imgsize
dataloader = torch.utils.data.DataLoader(
dataset, batch_size=batch_size, shuffle=True, num_workers=args.n_cpu)
dataiterator = iter(dataloader)
# save checkpoint
if iter_i > 0 and (iter_i % args.checkpoint_interval == 0):
torch.save({'iter': iter_i,
'model_state_dict': model.state_dict(),
'optimizer_state_dict': optimizer.state_dict(),
},
os.path.join(args.checkpoint_dir, "snapshot"+str(iter_i)+".ckpt"))
if args.tfboard:
tblogger.close()
if __name__ == '__main__':
main()