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train.py
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train.py
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# -*- coding: utf-8 -*-
from __future__ import print_function, division
import argparse
import torch
import torch.nn as nn
import torch.optim as optim
from torch.optim import lr_scheduler
from torch.autograd import Variable
from torchvision import datasets, transforms
import torch.backends.cudnn as cudnn
import matplotlib
matplotlib.use('agg')
import matplotlib.pyplot as plt
#from PIL import Image
import time
import os
from model import ft_net, ft_net_dense, ft_net_NAS, PCB
from random_erasing import RandomErasing
import yaml
import math
from shutil import copyfile
version = torch.__version__
#fp16
try:
from apex.fp16_utils import *
from apex import amp, optimizers
except ImportError: # will be 3.x series
print('This is not an error. If you want to use low precision, i.e., fp16, please install the apex with cuda support (https://github.com/NVIDIA/apex) and update pytorch to 1.0')
######################################################################
# Options
# --------
parser = argparse.ArgumentParser(description='Training')
parser.add_argument('--gpu_ids',default='0', type=str,help='gpu_ids: e.g. 0 0,1,2 0,2')
parser.add_argument('--name',default='ft_ResNet50', type=str, help='output model name')
parser.add_argument('--data_dir',default='../Market/pytorch',type=str, help='training dir path')
parser.add_argument('--train_all', action='store_true', help='use all training data' )
parser.add_argument('--color_jitter', action='store_true', help='use color jitter in training' )
parser.add_argument('--batchsize', default=32, type=int, help='batchsize')
parser.add_argument('--stride', default=2, type=int, help='stride')
parser.add_argument('--erasing_p', default=0, type=float, help='Random Erasing probability, in [0,1]')
parser.add_argument('--use_dense', action='store_true', help='use densenet121' )
parser.add_argument('--use_NAS', action='store_true', help='use NAS' )
parser.add_argument('--warm_epoch', default=0, type=int, help='the first K epoch that needs warm up')
parser.add_argument('--lr', default=0.05, type=float, help='learning rate')
parser.add_argument('--droprate', default=0.5, type=float, help='drop rate')
parser.add_argument('--PCB', action='store_true', help='use PCB+ResNet50' )
parser.add_argument('--fp16', action='store_true', help='use float16 instead of float32, which will save about 50% memory' )
opt = parser.parse_args()
fp16 = opt.fp16
data_dir = opt.data_dir
name = opt.name
str_ids = opt.gpu_ids.split(',')
gpu_ids = []
for str_id in str_ids:
gid = int(str_id)
if gid >=0:
gpu_ids.append(gid)
# set gpu ids
if len(gpu_ids)>0:
torch.cuda.set_device(gpu_ids[0])
cudnn.benchmark = True
######################################################################
# Load Data
# ---------
#
transform_train_list = [
#transforms.RandomResizedCrop(size=128, scale=(0.75,1.0), ratio=(0.75,1.3333), interpolation=3), #Image.BICUBIC)
transforms.Resize((256,128), interpolation=3),
transforms.Pad(10),
transforms.RandomCrop((256,128)),
transforms.RandomHorizontalFlip(),
transforms.ToTensor(),
transforms.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225])
]
transform_val_list = [
transforms.Resize(size=(256,128),interpolation=3), #Image.BICUBIC
transforms.ToTensor(),
transforms.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225])
]
if opt.PCB:
transform_train_list = [
transforms.Resize((384,192), interpolation=3),
transforms.RandomHorizontalFlip(),
transforms.ToTensor(),
transforms.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225])
]
transform_val_list = [
transforms.Resize(size=(384,192),interpolation=3), #Image.BICUBIC
transforms.ToTensor(),
transforms.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225])
]
if opt.erasing_p>0:
transform_train_list = transform_train_list + [RandomErasing(probability = opt.erasing_p, mean=[0.0, 0.0, 0.0])]
if opt.color_jitter:
transform_train_list = [transforms.ColorJitter(brightness=0.1, contrast=0.1, saturation=0.1, hue=0)] + transform_train_list
print(transform_train_list)
data_transforms = {
'train': transforms.Compose( transform_train_list ),
'val': transforms.Compose(transform_val_list),
}
train_all = ''
if opt.train_all:
train_all = '_all'
image_datasets = {}
image_datasets['train'] = datasets.ImageFolder(os.path.join(data_dir, 'train' + train_all),
data_transforms['train'])
image_datasets['val'] = datasets.ImageFolder(os.path.join(data_dir, 'val'),
data_transforms['val'])
dataloaders = {x: torch.utils.data.DataLoader(image_datasets[x], batch_size=opt.batchsize,
shuffle=True, num_workers=8, pin_memory=True) # 8 workers may work faster
for x in ['train', 'val']}
dataset_sizes = {x: len(image_datasets[x]) for x in ['train', 'val']}
class_names = image_datasets['train'].classes
use_gpu = torch.cuda.is_available()
since = time.time()
inputs, classes = next(iter(dataloaders['train']))
print(time.time()-since)
######################################################################
# Training the model
# ------------------
#
# Now, let's write a general function to train a model. Here, we will
# illustrate:
#
# - Scheduling the learning rate
# - Saving the best model
#
# In the following, parameter ``scheduler`` is an LR scheduler object from
# ``torch.optim.lr_scheduler``.
y_loss = {} # loss history
y_loss['train'] = []
y_loss['val'] = []
y_err = {}
y_err['train'] = []
y_err['val'] = []
def train_model(model, criterion, optimizer, scheduler, num_epochs=25):
since = time.time()
#best_model_wts = model.state_dict()
#best_acc = 0.0
warm_up = 0.1 # We start from the 0.1*lrRate
warm_iteration = round(dataset_sizes['train']/opt.batchsize)*opt.warm_epoch # first 5 epoch
for epoch in range(num_epochs):
print('Epoch {}/{}'.format(epoch, num_epochs - 1))
print('-' * 10)
# Each epoch has a training and validation phase
for phase in ['train', 'val']:
if phase == 'train':
scheduler.step()
model.train(True) # Set model to training mode
else:
model.train(False) # Set model to evaluate mode
running_loss = 0.0
running_corrects = 0.0
# Iterate over data.
for data in dataloaders[phase]:
# get the inputs
inputs, labels = data
now_batch_size,c,h,w = inputs.shape
if now_batch_size<opt.batchsize: # skip the last batch
continue
#print(inputs.shape)
# wrap them in Variable
if use_gpu:
inputs = Variable(inputs.cuda().detach())
labels = Variable(labels.cuda().detach())
else:
inputs, labels = Variable(inputs), Variable(labels)
# if we use low precision, input also need to be fp16
#if fp16:
# inputs = inputs.half()
# zero the parameter gradients
optimizer.zero_grad()
# forward
if phase == 'val':
with torch.no_grad():
outputs = model(inputs)
else:
outputs = model(inputs)
if not opt.PCB:
_, preds = torch.max(outputs.data, 1)
loss = criterion(outputs, labels)
else:
part = {}
sm = nn.Softmax(dim=1)
num_part = 6
for i in range(num_part):
part[i] = outputs[i]
score = sm(part[0]) + sm(part[1]) +sm(part[2]) + sm(part[3]) +sm(part[4]) +sm(part[5])
_, preds = torch.max(score.data, 1)
loss = criterion(part[0], labels)
for i in range(num_part-1):
loss += criterion(part[i+1], labels)
# backward + optimize only if in training phase
if epoch<opt.warm_epoch and phase == 'train':
warm_up = min(1.0, warm_up + 0.9 / warm_iteration)
loss *= warm_up
if phase == 'train':
if fp16: # we use optimier to backward loss
with amp.scale_loss(loss, optimizer) as scaled_loss:
scaled_loss.backward()
else:
loss.backward()
optimizer.step()
# statistics
if int(version[0])>0 or int(version[2]) > 3: # for the new version like 0.4.0, 0.5.0 and 1.0.0
running_loss += loss.item() * now_batch_size
else : # for the old version like 0.3.0 and 0.3.1
running_loss += loss.data[0] * now_batch_size
running_corrects += float(torch.sum(preds == labels.data))
epoch_loss = running_loss / dataset_sizes[phase]
epoch_acc = running_corrects / dataset_sizes[phase]
print('{} Loss: {:.4f} Acc: {:.4f}'.format(
phase, epoch_loss, epoch_acc))
y_loss[phase].append(epoch_loss)
y_err[phase].append(1.0-epoch_acc)
# deep copy the model
if phase == 'val':
last_model_wts = model.state_dict()
if epoch%10 == 9:
save_network(model, epoch)
draw_curve(epoch)
time_elapsed = time.time() - since
print('Training complete in {:.0f}m {:.0f}s'.format(
time_elapsed // 60, time_elapsed % 60))
print()
time_elapsed = time.time() - since
print('Training complete in {:.0f}m {:.0f}s'.format(
time_elapsed // 60, time_elapsed % 60))
#print('Best val Acc: {:4f}'.format(best_acc))
# load best model weights
model.load_state_dict(last_model_wts)
save_network(model, 'last')
return model
######################################################################
# Draw Curve
#---------------------------
x_epoch = []
fig = plt.figure()
ax0 = fig.add_subplot(121, title="loss")
ax1 = fig.add_subplot(122, title="top1err")
def draw_curve(current_epoch):
x_epoch.append(current_epoch)
ax0.plot(x_epoch, y_loss['train'], 'bo-', label='train')
ax0.plot(x_epoch, y_loss['val'], 'ro-', label='val')
ax1.plot(x_epoch, y_err['train'], 'bo-', label='train')
ax1.plot(x_epoch, y_err['val'], 'ro-', label='val')
if current_epoch == 0:
ax0.legend()
ax1.legend()
fig.savefig( os.path.join('./model',name,'train.jpg'))
######################################################################
# Save model
#---------------------------
def save_network(network, epoch_label):
save_filename = 'net_%s.pth'% epoch_label
save_path = os.path.join('./model',name,save_filename)
torch.save(network.cpu().state_dict(), save_path)
if torch.cuda.is_available():
network.cuda(gpu_ids[0])
######################################################################
# Finetuning the convnet
# ----------------------
#
# Load a pretrainied model and reset final fully connected layer.
#
if opt.use_dense:
model = ft_net_dense(len(class_names), opt.droprate)
elif opt.use_NAS:
model = ft_net_NAS(len(class_names), opt.droprate)
else:
model = ft_net(len(class_names), opt.droprate, opt.stride)
if opt.PCB:
model = PCB(len(class_names))
opt.nclasses = len(class_names)
print(model)
if not opt.PCB:
ignored_params = list(map(id, model.classifier.parameters() ))
base_params = filter(lambda p: id(p) not in ignored_params, model.parameters())
optimizer_ft = optim.SGD([
{'params': base_params, 'lr': 0.1*opt.lr},
{'params': model.classifier.parameters(), 'lr': opt.lr}
], weight_decay=5e-4, momentum=0.9, nesterov=True)
else:
ignored_params = list(map(id, model.model.fc.parameters() ))
ignored_params += (list(map(id, model.classifier0.parameters() ))
+list(map(id, model.classifier1.parameters() ))
+list(map(id, model.classifier2.parameters() ))
+list(map(id, model.classifier3.parameters() ))
+list(map(id, model.classifier4.parameters() ))
+list(map(id, model.classifier5.parameters() ))
#+list(map(id, model.classifier6.parameters() ))
#+list(map(id, model.classifier7.parameters() ))
)
base_params = filter(lambda p: id(p) not in ignored_params, model.parameters())
optimizer_ft = optim.SGD([
{'params': base_params, 'lr': 0.1*opt.lr},
{'params': model.model.fc.parameters(), 'lr': opt.lr},
{'params': model.classifier0.parameters(), 'lr': opt.lr},
{'params': model.classifier1.parameters(), 'lr': opt.lr},
{'params': model.classifier2.parameters(), 'lr': opt.lr},
{'params': model.classifier3.parameters(), 'lr': opt.lr},
{'params': model.classifier4.parameters(), 'lr': opt.lr},
{'params': model.classifier5.parameters(), 'lr': opt.lr},
#{'params': model.classifier6.parameters(), 'lr': 0.01},
#{'params': model.classifier7.parameters(), 'lr': 0.01}
], weight_decay=5e-4, momentum=0.9, nesterov=True)
# Decay LR by a factor of 0.1 every 40 epochs
exp_lr_scheduler = lr_scheduler.StepLR(optimizer_ft, step_size=40, gamma=0.1)
######################################################################
# Train and evaluate
# ^^^^^^^^^^^^^^^^^^
#
# It should take around 1-2 hours on GPU.
#
dir_name = os.path.join('./model',name)
if not os.path.isdir(dir_name):
os.mkdir(dir_name)
#record every run
copyfile('./train.py', dir_name+'/train.py')
copyfile('./model.py', dir_name+'/model.py')
# save opts
with open('%s/opts.yaml'%dir_name,'w') as fp:
yaml.dump(vars(opt), fp, default_flow_style=False)
# model to gpu
model = model.cuda()
if fp16:
#model = network_to_half(model)
#optimizer_ft = FP16_Optimizer(optimizer_ft, static_loss_scale = 128.0)
model, optimizer_ft = amp.initialize(model, optimizer_ft, opt_level = "O1")
criterion = nn.CrossEntropyLoss()
model = train_model(model, criterion, optimizer_ft, exp_lr_scheduler,
num_epochs=60)