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train_center.py
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train_center.py
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#!/usr/bin/env python
# encoding: utf-8
'''
@author: wujiyang
@contact: [email protected]
@file: train_center.py
@time: 2019/1/3 11:12
@desc: train script for my attention net and center loss
'''
'''
Pleause use the train.py for your training process.
'''
import os
import torch.utils.data
from torch.nn import DataParallel
from datetime import datetime
from backbone.mobilefacenet import MobileFaceNet
from backbone.resnet import ResNet50, ResNet101
from backbone.arcfacenet import SEResNet_IR
from backbone.spherenet import SphereNet
from margin.ArcMarginProduct import ArcMarginProduct
from margin.InnerProduct import InnerProduct
from lossfunctions.centerloss import CenterLoss
from utils.logging import init_log
from dataset.casia_webface import CASIAWebFace
from dataset.lfw import LFW
from dataset.agedb import AgeDB30
from dataset.cfp import CFP_FP
from utils.visualize import Visualizer
from torch.optim import lr_scheduler
import torch.optim as optim
import time
from eval_lfw import evaluation_10_fold, getFeatureFromTorch
import numpy as np
import torchvision.transforms as transforms
import argparse
def train(args):
# gpu init
multi_gpus = False
if len(args.gpus.split(',')) > 1:
multi_gpus = True
os.environ['CUDA_VISIBLE_DEVICES'] = args.gpus
device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
# log init
save_dir = os.path.join(args.save_dir, args.model_pre + args.backbone.upper() + '_' + datetime.now().strftime('%Y%m%d_%H%M%S'))
if os.path.exists(save_dir):
raise NameError('model dir exists!')
os.makedirs(save_dir)
logging = init_log(save_dir)
_print = logging.info
# dataset loader
transform = transforms.Compose([
transforms.ToTensor(), # range [0, 255] -> [0.0,1.0]
transforms.Normalize(mean=(0.5, 0.5, 0.5), std=(0.5, 0.5, 0.5)) # range [0.0, 1.0] -> [-1.0,1.0]
])
# validation dataset
trainset = CASIAWebFace(args.train_root, args.train_file_list, transform=transform)
trainloader = torch.utils.data.DataLoader(trainset, batch_size=args.batch_size,
shuffle=True, num_workers=8, drop_last=False)
# test dataset
lfwdataset = LFW(args.lfw_test_root, args.lfw_file_list, transform=transform)
lfwloader = torch.utils.data.DataLoader(lfwdataset, batch_size=128,
shuffle=False, num_workers=4, drop_last=False)
agedbdataset = AgeDB30(args.agedb_test_root, args.agedb_file_list, transform=transform)
agedbloader = torch.utils.data.DataLoader(agedbdataset, batch_size=128,
shuffle=False, num_workers=4, drop_last=False)
cfpfpdataset = CFP_FP(args.cfpfp_test_root, args.cfpfp_file_list, transform=transform)
cfpfploader = torch.utils.data.DataLoader(cfpfpdataset, batch_size=128,
shuffle=False, num_workers=4, drop_last=False)
# define backbone and margin layer
if args.backbone == 'MobileFace':
net = MobileFaceNet()
elif args.backbone == 'Res50':
net = ResNet50()
elif args.backbone == 'Res101':
net = ResNet101()
elif args.backbone == 'Res50_IR':
net = SEResNet_IR(50, feature_dim=args.feature_dim, mode='ir')
elif args.backbone == 'SERes50_IR':
net = SEResNet_IR(50, feature_dim=args.feature_dim, mode='se_ir')
elif args.backbone == 'SphereNet':
net = SphereNet(num_layers=64, feature_dim=args.feature_dim)
else:
print(args.backbone, ' is not available!')
if args.margin_type == 'ArcFace':
margin = ArcMarginProduct(args.feature_dim, trainset.class_nums, s=args.scale_size)
elif args.margin_type == 'CosFace':
pass
elif args.margin_type == 'SphereFace':
pass
elif args.margin_type == 'InnerProduct':
margin = InnerProduct(args.feature_dim, trainset.class_nums)
else:
print(args.margin_type, 'is not available!')
if args.resume:
print('resume the model parameters from: ', args.net_path, args.margin_path)
net.load_state_dict(torch.load(args.net_path)['net_state_dict'])
margin.load_state_dict(torch.load(args.margin_path)['net_state_dict'])
# define optimizers for different layers
criterion_classi = torch.nn.CrossEntropyLoss().to(device)
optimizer_classi = optim.SGD([
{'params': net.parameters(), 'weight_decay': 5e-4},
{'params': margin.parameters(), 'weight_decay': 5e-4}
], lr=0.1, momentum=0.9, nesterov=True)
#criterion_center = CenterLoss(trainset.class_nums, args.feature_dim).to(device)
#optimizer_center = optim.SGD(criterion_center.parameters(), lr=0.5)
scheduler_classi = lr_scheduler.MultiStepLR(optimizer_classi, milestones=[25, 50, 65], gamma=0.1)
if multi_gpus:
net = DataParallel(net).to(device)
margin = DataParallel(margin).to(device)
else:
net = net.to(device)
margin = margin.to(device)
best_lfw_acc = 0.0
best_lfw_iters = 0
best_agedb30_acc = 0.0
best_agedb30_iters = 0
best_cfp_fp_acc = 0.0
best_cfp_fp_iters = 0
total_iters = 0
#vis = Visualizer(env='softmax_center_xavier')
for epoch in range(1, args.total_epoch + 1):
scheduler_classi.step()
# train model
_print('Train Epoch: {}/{} ...'.format(epoch, args.total_epoch))
net.train()
since = time.time()
for data in trainloader:
img, label = data[0].to(device), data[1].to(device)
feature = net(img)
output = margin(feature)
loss_classi = criterion_classi(output, label)
#loss_center = criterion_center(feature, label)
total_loss = loss_classi #+ loss_center * args.weight_center
optimizer_classi.zero_grad()
#optimizer_center.zero_grad()
total_loss.backward()
optimizer_classi.step()
#optimizer_center.step()
total_iters += 1
# print train information
if total_iters % 100 == 0:
# current training accuracy
_, predict = torch.max(output.data, 1)
total = label.size(0)
correct = (np.array(predict) == np.array(label.data)).sum()
time_cur = (time.time() - since) / 100
since = time.time()
#vis.plot_curves({'softmax loss': loss_classi.item(), 'center loss': loss_center.item()}, iters=total_iters, title='train loss', xlabel='iters', ylabel='train loss')
#vis.plot_curves({'train accuracy': correct / total}, iters=total_iters, title='train accuracy', xlabel='iters', ylabel='train accuracy')
print("Iters: {:0>6d}/[{:0>2d}], loss_classi: {:.4f}, loss_center: {:.4f}, train_accuracy: {:.4f}, time: {:.2f} s/iter, learning rate: {}".format(total_iters,
epoch,
loss_classi.item(),
loss_center.item(),
correct/total,
time_cur,
scheduler_classi.get_lr()[
0]))
# save model
if total_iters % args.save_freq == 0:
msg = 'Saving checkpoint: {}'.format(total_iters)
_print(msg)
if multi_gpus:
net_state_dict = net.module.state_dict()
margin_state_dict = margin.module.state_dict()
else:
net_state_dict = net.state_dict()
margin_state_dict = margin.state_dict()
if not os.path.exists(save_dir):
os.mkdir(save_dir)
torch.save({
'iters': total_iters,
'net_state_dict': net_state_dict},
os.path.join(save_dir, 'Iter_%06d_net.ckpt' % total_iters))
torch.save({
'iters': total_iters,
'net_state_dict': margin_state_dict},
os.path.join(save_dir, 'Iter_%06d_margin.ckpt' % total_iters))
#torch.save({
# 'iters': total_iters,
# 'net_state_dict': criterion_center.state_dict()},
# os.path.join(save_dir, 'Iter_%06d_center.ckpt' % total_iters))
# test accuracy
if total_iters % args.test_freq == 0:
# test model on lfw
net.eval()
getFeatureFromTorch('./result/cur_lfw_result.mat', net, device, lfwdataset, lfwloader)
lfw_accs = evaluation_10_fold('./result/cur_lfw_result.mat')
_print('LFW Ave Accuracy: {:.4f}'.format(np.mean(lfw_accs) * 100))
if best_lfw_acc < np.mean(lfw_accs) * 100:
best_lfw_acc = np.mean(lfw_accs) * 100
best_lfw_iters = total_iters
# test model on AgeDB30
getFeatureFromTorch('./result/cur_agedb30_result.mat', net, device, agedbdataset, agedbloader)
age_accs = evaluation_10_fold('./result/cur_agedb30_result.mat')
_print('AgeDB-30 Ave Accuracy: {:.4f}'.format(np.mean(age_accs) * 100))
if best_agedb30_acc < np.mean(age_accs) * 100:
best_agedb30_acc = np.mean(age_accs) * 100
best_agedb30_iters = total_iters
# test model on CFP-FP
getFeatureFromTorch('./result/cur_cfpfp_result.mat', net, device, cfpfpdataset, cfpfploader)
cfp_accs = evaluation_10_fold('./result/cur_cfpfp_result.mat')
_print('CFP-FP Ave Accuracy: {:.4f}'.format(np.mean(cfp_accs) * 100))
if best_cfp_fp_acc < np.mean(cfp_accs) * 100:
best_cfp_fp_acc = np.mean(cfp_accs) * 100
best_cfp_fp_iters = total_iters
_print('Current Best Accuracy: LFW: {:.4f} in iters: {}, AgeDB-30: {:.4f} in iters: {} and CFP-FP: {:.4f} in iters: {}'.format(
best_lfw_acc, best_lfw_iters, best_agedb30_acc, best_agedb30_iters, best_cfp_fp_acc, best_cfp_fp_iters))
#vis.plot_curves({'lfw': np.mean(lfw_accs), 'agedb-30': np.mean(age_accs), 'cfp-fp': np.mean(cfp_accs)}, iters=total_iters,
# title='test accuracy', xlabel='iters', ylabel='test accuracy')
net.train()
_print('Finally Best Accuracy: LFW: {:.4f} in iters: {}, AgeDB-30: {:.4f} in iters: {} and CFP-FP: {:.4f} in iters: {}'.format(
best_lfw_acc, best_lfw_iters, best_agedb30_acc, best_agedb30_iters, best_cfp_fp_acc, best_cfp_fp_iters))
print('finishing training')
if __name__ == '__main__':
parser = argparse.ArgumentParser(description='PyTorch for deep face recognition')
parser.add_argument('--train_root', type=str, default='/media/ramdisk/webface_align_112', help='train image root')
parser.add_argument('--train_file_list', type=str, default='/media/ramdisk/webface_align_train.list', help='train list')
parser.add_argument('--lfw_test_root', type=str, default='/media/ramdisk/lfw_align_112', help='lfw image root')
parser.add_argument('--lfw_file_list', type=str, default='/media/ramdisk/pairs.txt', help='lfw pair file list')
parser.add_argument('--agedb_test_root', type=str, default='/media/sda/AgeDB-30/agedb30_align_112', help='agedb image root')
parser.add_argument('--agedb_file_list', type=str, default='/media/sda/AgeDB-30/agedb_30_pair.txt', help='agedb pair file list')
parser.add_argument('--cfpfp_test_root', type=str, default='/media/sda/CFP-FP/cfp_fp_aligned_112', help='agedb image root')
parser.add_argument('--cfpfp_file_list', type=str, default='/media/sda/CFP-FP/cfp_fp_pair.txt', help='agedb pair file list')
parser.add_argument('--backbone', type=str, default='MobileFace', help='MobileFace, Res50, Res101, Res50_IR, SERes50_IR, SphereNet')
parser.add_argument('--margin_type', type=str, default='InnerProduct', help='InnerProduct, ArcFace, CosFace, SphereFace')
parser.add_argument('--feature_dim', type=int, default=128, help='feature dimension, 128 or 512')
parser.add_argument('--scale_size', type=float, default=32.0, help='scale size')
parser.add_argument('--batch_size', type=int, default=256, help='batch size')
parser.add_argument('--total_epoch', type=int, default=80, help='total epochs')
parser.add_argument('--weight_center', type=float, default=0.01, help='center loss weight')
parser.add_argument('--save_freq', type=int, default=2000, help='save frequency')
parser.add_argument('--test_freq', type=int, default=2000, help='test frequency')
parser.add_argument('--resume', type=int, default=False, help='resume model')
parser.add_argument('--net_path', type=str, default='', help='resume model')
parser.add_argument('--margin_path', type=str, default='', help='resume model')
parser.add_argument('--save_dir', type=str, default='./model', help='model save dir')
parser.add_argument('--model_pre', type=str, default='Softmax_Center_', help='model prefix')
parser.add_argument('--gpus', type=str, default='0,1', help='model prefix')
args = parser.parse_args()
train(args)