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train_classification_pytorch.py
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train_classification_pytorch.py
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from __future__ import print_function
from __future__ import division
import torch
import torch.nn as nn
import torch.optim as optim
from torch.utils.data import Dataset, DataLoader
import torchvision
from torchvision import datasets, models, transforms, utils
import torchvision.transforms.functional as TF
from tqdm import tqdm
import numpy as np
import json
import pandas as pd
import pickle
import matplotlib.pyplot as plt
import skimage
import skimage.io
import skimage.transform
from PIL import Image
import time
import os
from os.path import join, exists
import copy
import random
from collections import OrderedDict
from sklearn.metrics import r2_score
from torch.nn import functional as F
from torchvision.models import Inception3
# Configuration
# directory for loading training/validation/test data
data_dir = '/home/ubuntu/projects/deepsolar/deepsolar_dataset_toy'
# path to load old model/checkpoint, "None" if not loading.
old_ckpt_path = '/home/ubuntu/projects/deepsolar/deepsolar_pytorch_pretrained/deepsolar_pretrained.pth'
# directory for saving model/checkpoint
ckpt_save_dir = 'checkpoint/deepsolar_toy'
device = torch.device("cuda:0" if torch.cuda.is_available() else "cpu")
trainable_params = ['fc'] # layers or modules set to be trainable. "None" if training all layers
model_name = 'deepsolar_toy' # the prefix of the filename for saving model/checkpoint
return_best = True # whether to return the best model according to the validation metrics
if_early_stop = True # whether to stop early after validation metrics doesn't improve for definite number of epochs
input_size = 299 # image size fed into the mdoel
imbalance_rate = 5 # weight given to the positive (rarer) samples in loss function
learning_rate = 0.01 # learning rate
weight_decay = 0.00 # l2 regularization coefficient
batch_size = 64
num_epochs = 10 # number of epochs to train
lr_decay_rate = 0.7 # learning rate decay rate for each decay step
lr_decay_epochs = 5 # number of epochs for one learning rate decay
early_stop_epochs = 5 # after validation metrics doesn't improve for "early_stop_epochs" epochs, stop the training.
save_epochs = 5 # save the model/checkpoint every "save_epochs" epochs
threshold = 0.2 # threshold probability to identify am image as positive
def RandomRotationNew(image):
angle = random.choice([0, 90, 180, 270])
image = TF.rotate(image, angle)
return image
def only_train(model, trainable_params):
"""trainable_params: The list of parameters and modules that are set to be trainable.
Set require_grad = False for all those parameters not in the trainable_params"""
print('Only the following layers:')
for name, p in model.named_parameters():
p.requires_grad = False
for target in trainable_params:
if target == name or target in name:
p.requires_grad = True
print(' ' + name)
break
def metrics(stats):
"""
Self-defined metrics function to evaluate and compare models
stats: {'TP': TP, 'FP': FP, 'TN': TN, 'FN': FN}
return: must be a single number """
precision = (stats['TP'] + 0.00001) * 1.0 / (stats['TP'] + stats['FP'] + 0.00001)
recall = (stats['TP'] + 0.00001) * 1.0 / (stats['TP'] + stats['FN'] + 0.00001)
return 0.5*(precision + recall)
def train_model(model, model_name, dataloaders, criterion, optimizer, metrics, num_epochs, threshold=0.5, training_log=None,
verbose=True, return_best=True, if_early_stop=True, early_stop_epochs=10, scheduler=None,
save_dir=None, save_epochs=5):
since = time.time()
if not training_log:
training_log = dict()
training_log['train_loss_history'] = []
training_log['val_loss_history'] = []
training_log['val_metric_value_history'] = []
training_log['current_epoch'] = -1
current_epoch = training_log['current_epoch'] + 1
best_model_wts = copy.deepcopy(model.state_dict())
best_optimizer_wts = copy.deepcopy(optimizer.state_dict())
best_log = copy.deepcopy(training_log)
best_metric_value = -np.inf
nodecrease = 0 # to count the epochs that val loss doesn't decrease
early_stop = False
for epoch in range(current_epoch, current_epoch + num_epochs):
if verbose:
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':
model.train() # Set model to training mode
else:
model.eval() # Set model to evaluate mode
running_loss = 0.0
stats = {'TP': 0, 'FP': 0, 'TN': 0, 'FN': 0}
# Iterate over data.
for inputs, labels in tqdm(dataloaders[phase]):
inputs = inputs.to(device)
labels = labels.to(device)
# zero the parameter gradients
optimizer.zero_grad()
# forward
# track history if only in train
with torch.set_grad_enabled(phase == 'train'):
# Get model outputs and calculate loss
if phase == 'train':
outputs, aux_outputs = model(inputs)
loss1 = criterion(outputs, labels)
loss2 = criterion(aux_outputs, labels)
loss = loss1 + 0.4*loss2
else:
outputs = model(inputs)
loss = criterion(outputs, labels)
prob = F.softmax(outputs, dim=1)
preds = prob[:, 1] >= threshold
# backward + optimize only if in training phase
if phase == 'train':
loss.backward()
optimizer.step()
# statistics
running_loss += loss.item() * inputs.size(0)
stats['TP'] += torch.sum((preds == 1) * (labels == 1)).cpu().item()
stats['TN'] += torch.sum((preds == 0) * (labels == 0)).cpu().item()
stats['FP'] += torch.sum((preds == 1) * (labels == 0)).cpu().item()
stats['FN'] += torch.sum((preds == 0) * (labels == 1)).cpu().item()
epoch_loss = running_loss / len(dataloaders[phase].dataset)
epoch_metric_value = metrics(stats)
if verbose:
print('{} Loss: {:.4f} Metrics: {:.4f}'.format(phase, epoch_loss, epoch_metric_value))
training_log['current_epoch'] = epoch
if phase == 'val':
training_log['val_metric_value_history'].append(epoch_metric_value)
training_log['val_loss_history'].append(epoch_loss)
# deep copy the model
if epoch_metric_value > best_metric_value:
best_metric_value = epoch_metric_value
best_model_wts = copy.deepcopy(model.state_dict())
best_optimizer_wts = copy.deepcopy(optimizer.state_dict())
best_log = copy.deepcopy(training_log)
nodecrease = 0
else:
nodecrease += 1
else: # train phase
training_log['train_loss_history'].append(epoch_loss)
if scheduler != None:
scheduler.step()
if nodecrease >= early_stop_epochs:
early_stop = True
if save_dir and epoch % save_epochs == 0:
checkpoint = {
'model_state_dict': model.state_dict(),
'optimizer_state_dict': optimizer.state_dict(),
'training_log': training_log
}
torch.save(checkpoint,
os.path.join(save_dir, model_name + '_' + str(training_log['current_epoch']) + '.tar'))
if if_early_stop and early_stop:
print('Early stopped!')
break
time_elapsed = time.time() - since
print('Training complete in {:.0f}m {:.0f}s'.format(time_elapsed // 60, time_elapsed % 60))
print('Best validation metric value: {:4f}'.format(best_metric_value))
# load best model weights
if return_best:
model.load_state_dict(best_model_wts)
optimizer.load_state_dict(best_optimizer_wts)
training_log = best_log
checkpoint = {
'model_state_dict': model.state_dict(),
'optimizer_state_dict': optimizer.state_dict(),
'training_log': training_log
}
torch.save(checkpoint,
os.path.join(save_dir, model_name + '_' + str(training_log['current_epoch']) + '_last.tar'))
return model, training_log
data_transforms = {
'train': transforms.Compose([
transforms.Resize(input_size),
transforms.Lambda(RandomRotationNew),
transforms.RandomHorizontalFlip(p=0.5),
transforms.RandomVerticalFlip(p=0.5),
transforms.ToTensor(),
transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5])
]),
'val': transforms.Compose([
transforms.Resize(input_size),
transforms.ToTensor(),
transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5])
])
}
if __name__ == '__main__':
# data
image_datasets = {x: datasets.ImageFolder(os.path.join(data_dir, x), data_transforms[x]) for x in ['train', 'val']}
dataloaders_dict = {x: torch.utils.data.DataLoader(image_datasets[x], batch_size=batch_size,
shuffle=True, num_workers=4) for x in ['train', 'val']}
# model
model = Inception3(num_classes=2, aux_logits=True, transform_input=False)
model = model.to(device)
optimizer = optim.Adam(model.parameters(), lr=learning_rate, betas=(0.9, 0.999), eps=1e-08,
weight_decay=weight_decay, amsgrad=True)
class_weight = torch.tensor([1, imbalance_rate], dtype=torch.float).cuda()
loss_fn = nn.CrossEntropyLoss(weight=class_weight)
scheduler = optim.lr_scheduler.StepLR(optimizer, step_size=lr_decay_epochs, gamma=lr_decay_rate)
# load old parameters
if old_ckpt_path:
checkpoint = torch.load(old_ckpt_path, map_location=device)
if old_ckpt_path[-4:] == '.tar': # it is a checkpoint dictionary rather than just model parameters
model.load_state_dict(checkpoint['model_state_dict'])
optimizer.load_state_dict(checkpoint['optimizer_state_dict'])
training_log = checkpoint['training_log']
else:
model.load_state_dict(checkpoint)
training_log = None
print('Old checkpoint loaded: ' + old_ckpt_path)
else:
training_log = None
# fix some layers and make others trainable
if trainable_params:
only_train(model, trainable_params)
_, _ = train_model(model, model_name=model_name, dataloaders=dataloaders_dict, criterion=loss_fn,
optimizer=optimizer, metrics=metrics, num_epochs=num_epochs, threshold=threshold,
training_log=training_log, verbose=True, return_best=return_best,
if_early_stop=if_early_stop, early_stop_epochs=early_stop_epochs,
scheduler=scheduler, save_dir=ckpt_save_dir, save_epochs=save_epochs)