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data_load.py
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data_load.py
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import glob
import os
import torch
from torch.utils.data import Dataset, DataLoader
import numpy as np
import matplotlib.image as mpimg
import pandas as pd
import cv2
class FacialKeypointsDataset(Dataset):
"""Face Landmarks dataset."""
def __init__(self, csv_file, root_dir, transform=None):
"""
Args:
csv_file (string): Path to the csv file with annotations.
root_dir (string): Directory with all the images.
transform (callable, optional): Optional transform to be applied
on a sample.
"""
self.key_pts_frame = pd.read_csv(csv_file)
self.root_dir = root_dir
self.transform = transform
def __len__(self):
return len(self.key_pts_frame)
def __getitem__(self, idx):
image_name = os.path.join(self.root_dir,
self.key_pts_frame.iloc[idx, 0])
image = mpimg.imread(image_name)
# if image has an alpha color channel, get rid of it
if(image.shape[2] == 4):
image = image[:,:,0:3]
key_pts = self.key_pts_frame.iloc[idx, 1:].values
key_pts = key_pts.astype('float').reshape(-1, 2)
sample = {'image': image, 'keypoints': key_pts}
if self.transform:
sample = self.transform(sample)
return sample
# tranforms
class Normalize(object):
"""Convert a color image to grayscale and normalize the color range to [0,1]."""
def __call__(self, sample):
image, key_pts = sample['image'], sample['keypoints']
image_copy = np.copy(image)
key_pts_copy = np.copy(key_pts)
# convert image to grayscale
image_copy = cv2.cvtColor(image, cv2.COLOR_RGB2GRAY)
# scale color range from [0, 255] to [0, 1]
image_copy= image_copy/255.0
# scale keypoints to be centered around 0 with a range of [-1, 1]
# mean = 100, sqrt = 50, so, pts should be (pts - 100)/50
key_pts_copy = (key_pts_copy - 100)/50.0
return {'image': image_copy, 'keypoints': key_pts_copy}
class Rescale(object):
"""Rescale the image in a sample to a given size.
Args:
output_size (tuple or int): Desired output size. If tuple, output is
matched to output_size. If int, smaller of image edges is matched
to output_size keeping aspect ratio the same.
"""
def __init__(self, output_size):
assert isinstance(output_size, (int, tuple))
self.output_size = output_size
def __call__(self, sample):
image, key_pts = sample['image'], sample['keypoints']
h, w = image.shape[:2]
if isinstance(self.output_size, int):
if h > w:
new_h, new_w = self.output_size * h / w, self.output_size
else:
new_h, new_w = self.output_size, self.output_size * w / h
else:
new_h, new_w = self.output_size
new_h, new_w = int(new_h), int(new_w)
img = cv2.resize(image, (new_w, new_h))
# scale the pts, too
key_pts = key_pts * [new_w / w, new_h / h]
return {'image': img, 'keypoints': key_pts}
class RandomCrop(object):
"""Crop randomly the image in a sample.
Args:
output_size (tuple or int): Desired output size. If int, square crop
is made.
"""
def __init__(self, output_size):
assert isinstance(output_size, (int, tuple))
if isinstance(output_size, int):
self.output_size = (output_size, output_size)
else:
assert len(output_size) == 2
self.output_size = output_size
def __call__(self, sample):
image, key_pts = sample['image'], sample['keypoints']
h, w = image.shape[:2]
new_h, new_w = self.output_size
top = np.random.randint(0, h - new_h)
left = np.random.randint(0, w - new_w)
image = image[top: top + new_h,
left: left + new_w]
key_pts = key_pts - [left, top]
return {'image': image, 'keypoints': key_pts}
class ToTensor(object):
"""Convert ndarrays in sample to Tensors."""
def __call__(self, sample):
image, key_pts = sample['image'], sample['keypoints']
# if image has no grayscale color channel, add one
if(len(image.shape) == 2):
# add that third color dim
image = image.reshape(image.shape[0], image.shape[1], 1)
# swap color axis because
# numpy image: H x W x C
# torch image: C X H X W
image = image.transpose((2, 0, 1))
return {'image': torch.from_numpy(image),
'keypoints': torch.from_numpy(key_pts)}