data_loader.py

from __future__ import print_function, division
import torch
from skimage import io, transform, color
import numpy as np
from torch.utils.data import Dataset
#==========================dataset load==========================

class Rescale(object):

	def __init__(self,output_size):
		assert isinstance(output_size,(int,tuple))
		self.output_size = output_size

	def __call__(self,sample):
		image, label = sample['image'],sample['label']

		img = transform.resize(image,(self.output_size,self.output_size),mode='constant')
		lbl = transform.resize(label,(self.output_size,self.output_size),mode='constant', order=0, preserve_range=True)

		return {'image':img,'label':lbl}

class ToTensor(object):

	def __init__(self,flag=0):
		self.flag = flag

	def __call__(self, sample):

		image, label = sample['image'], sample['label']

		tmpLbl = np.zeros(label.shape)

		if(np.max(label)<1e-6):
			label = label
		else:
			label = label/np.max(label)

		if self.flag == 2:
			tmpImg = np.zeros((image.shape[0],image.shape[1],6))
			tmpImgt = np.zeros((image.shape[0],image.shape[1],3))
			if image.shape[2]==1:
				tmpImgt[:,:,0] = image[:,:,0]
				tmpImgt[:,:,1] = image[:,:,0]
				tmpImgt[:,:,2] = image[:,:,0]
			else:
				tmpImgt = image
			tmpImgtl = color.rgb2lab(tmpImgt)

			tmpImg[:,:,0] = (tmpImgt[:,:,0]-np.min(tmpImgt[:,:,0]))/(np.max(tmpImgt[:,:,0])-np.min(tmpImgt[:,:,0]))
			tmpImg[:,:,1] = (tmpImgt[:,:,1]-np.min(tmpImgt[:,:,1]))/(np.max(tmpImgt[:,:,1])-np.min(tmpImgt[:,:,1]))
			tmpImg[:,:,2] = (tmpImgt[:,:,2]-np.min(tmpImgt[:,:,2]))/(np.max(tmpImgt[:,:,2])-np.min(tmpImgt[:,:,2]))
			tmpImg[:,:,3] = (tmpImgtl[:,:,0]-np.min(tmpImgtl[:,:,0]))/(np.max(tmpImgtl[:,:,0])-np.min(tmpImgtl[:,:,0]))
			tmpImg[:,:,4] = (tmpImgtl[:,:,1]-np.min(tmpImgtl[:,:,1]))/(np.max(tmpImgtl[:,:,1])-np.min(tmpImgtl[:,:,1]))
			tmpImg[:,:,5] = (tmpImgtl[:,:,2]-np.min(tmpImgtl[:,:,2]))/(np.max(tmpImgtl[:,:,2])-np.min(tmpImgtl[:,:,2]))

			tmpImg[:,:,0] = (tmpImg[:,:,0]-np.mean(tmpImg[:,:,0]))/np.std(tmpImg[:,:,0])
			tmpImg[:,:,1] = (tmpImg[:,:,1]-np.mean(tmpImg[:,:,1]))/np.std(tmpImg[:,:,1])
			tmpImg[:,:,2] = (tmpImg[:,:,2]-np.mean(tmpImg[:,:,2]))/np.std(tmpImg[:,:,2])
			tmpImg[:,:,3] = (tmpImg[:,:,3]-np.mean(tmpImg[:,:,3]))/np.std(tmpImg[:,:,3])
			tmpImg[:,:,4] = (tmpImg[:,:,4]-np.mean(tmpImg[:,:,4]))/np.std(tmpImg[:,:,4])
			tmpImg[:,:,5] = (tmpImg[:,:,5]-np.mean(tmpImg[:,:,5]))/np.std(tmpImg[:,:,5])

		elif self.flag == 1:
			tmpImg = np.zeros((image.shape[0],image.shape[1],3))

			if image.shape[2]==1:
				tmpImg[:,:,0] = image[:,:,0]
				tmpImg[:,:,1] = image[:,:,0]
				tmpImg[:,:,2] = image[:,:,0]
			else:
				tmpImg = image

			tmpImg = color.rgb2lab(tmpImg)

			tmpImg[:,:,0] = (tmpImg[:,:,0]-np.min(tmpImg[:,:,0]))/(np.max(tmpImg[:,:,0])-np.min(tmpImg[:,:,0]))
			tmpImg[:,:,1] = (tmpImg[:,:,1]-np.min(tmpImg[:,:,1]))/(np.max(tmpImg[:,:,1])-np.min(tmpImg[:,:,1]))
			tmpImg[:,:,2] = (tmpImg[:,:,2]-np.min(tmpImg[:,:,2]))/(np.max(tmpImg[:,:,2])-np.min(tmpImg[:,:,2]))

			tmpImg[:,:,0] = (tmpImg[:,:,0]-np.mean(tmpImg[:,:,0]))/np.std(tmpImg[:,:,0])
			tmpImg[:,:,1] = (tmpImg[:,:,1]-np.mean(tmpImg[:,:,1]))/np.std(tmpImg[:,:,1])
			tmpImg[:,:,2] = (tmpImg[:,:,2]-np.mean(tmpImg[:,:,2]))/np.std(tmpImg[:,:,2])

		else:
			tmpImg = np.zeros((image.shape[0],image.shape[1],3))
			image = image/np.max(image)
			if image.shape[2]==1:
				tmpImg[:,:,0] = (image[:,:,0]-0.485)/0.229
				tmpImg[:,:,1] = (image[:,:,0]-0.485)/0.229
				tmpImg[:,:,2] = (image[:,:,0]-0.485)/0.229
			else:
				tmpImg[:,:,0] = (image[:,:,0]-0.485)/0.229
				tmpImg[:,:,1] = (image[:,:,1]-0.456)/0.224
				tmpImg[:,:,2] = (image[:,:,2]-0.406)/0.225

		tmpLbl[:,:,0] = label[:,:,0]

		tmpImg = tmpImg.transpose((2, 0, 1))
		tmpLbl = label.transpose((2, 0, 1))

		return {'image': torch.from_numpy(tmpImg),
			'label': torch.from_numpy(tmpLbl)}

class SalObjDataset(Dataset):
	def __init__(self,img_name_list,lbl_name_list,transform=None):
		self.image_name_list = img_name_list
		self.label_name_list = lbl_name_list
		self.transform = transform

	def __len__(self):
		return len(self.image_name_list)

	def __getitem__(self,idx):

		image = io.imread(self.image_name_list[idx])

		if(0==len(self.label_name_list)):
			label_3 = np.zeros(image.shape)
		else:
			label_3 = io.imread(self.label_name_list[idx])

		label = np.zeros(label_3.shape[0:2])
		if(3==len(label_3.shape)):
			label = label_3[:,:,0]
		elif(2==len(label_3.shape)):
			label = label_3

		if(3==len(image.shape) and 2==len(label.shape)):
			label = label[:,:,np.newaxis]
		elif(2==len(image.shape) and 2==len(label.shape)):
			image = image[:,:,np.newaxis]
			label = label[:,:,np.newaxis]

		sample = {'image':image, 'label':label}

		if self.transform:
			sample = self.transform(sample)

		return sample