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""" | |
Code from https://github.com/hassony2/torch_videovision | |
""" | |
import numbers | |
import random | |
import numpy as np | |
import PIL | |
from skimage.transform import resize, rotate | |
#from skimage.util import pad | |
import torchvision | |
import warnings | |
from skimage import img_as_ubyte, img_as_float | |
def crop_clip(clip, min_h, min_w, h, w): | |
if isinstance(clip[0], np.ndarray): | |
cropped = [img[min_h:min_h + h, min_w:min_w + w, :] for img in clip] | |
elif isinstance(clip[0], PIL.Image.Image): | |
cropped = [ | |
img.crop((min_w, min_h, min_w + w, min_h + h)) for img in clip | |
] | |
else: | |
raise TypeError('Expected numpy.ndarray or PIL.Image' + | |
'but got list of {0}'.format(type(clip[0]))) | |
return cropped | |
def pad_clip(clip, h, w): | |
im_h, im_w = clip[0].shape[:2] | |
pad_h = (0, 0) if h < im_h else ((h - im_h) // 2, (h - im_h + 1) // 2) | |
pad_w = (0, 0) if w < im_w else ((w - im_w) // 2, (w - im_w + 1) // 2) | |
return np.pad(clip, ((0, 0), pad_h, pad_w, (0, 0)), mode='edge') | |
def resize_clip(clip, size, interpolation='bilinear'): | |
if isinstance(clip[0], np.ndarray): | |
if isinstance(size, numbers.Number): | |
im_h, im_w, im_c = clip[0].shape | |
# Min spatial dim already matches minimal size | |
if (im_w <= im_h and im_w == size) or (im_h <= im_w | |
and im_h == size): | |
return clip | |
new_h, new_w = get_resize_sizes(im_h, im_w, size) | |
size = (new_w, new_h) | |
else: | |
size = size[1], size[0] | |
scaled = [ | |
resize(img, size, order=1 if interpolation == 'bilinear' else 0, preserve_range=True, | |
mode='constant', anti_aliasing=True) for img in clip | |
] | |
elif isinstance(clip[0], PIL.Image.Image): | |
if isinstance(size, numbers.Number): | |
im_w, im_h = clip[0].size | |
# Min spatial dim already matches minimal size | |
if (im_w <= im_h and im_w == size) or (im_h <= im_w | |
and im_h == size): | |
return clip | |
new_h, new_w = get_resize_sizes(im_h, im_w, size) | |
size = (new_w, new_h) | |
else: | |
size = size[1], size[0] | |
if interpolation == 'bilinear': | |
pil_inter = PIL.Image.NEAREST | |
else: | |
pil_inter = PIL.Image.BILINEAR | |
scaled = [img.resize(size, pil_inter) for img in clip] | |
else: | |
raise TypeError('Expected numpy.ndarray or PIL.Image' + | |
'but got list of {0}'.format(type(clip[0]))) | |
return scaled | |
def get_resize_sizes(im_h, im_w, size): | |
if im_w < im_h: | |
ow = size | |
oh = int(size * im_h / im_w) | |
else: | |
oh = size | |
ow = int(size * im_w / im_h) | |
return oh, ow | |
class RandomFlip(object): | |
def __init__(self, time_flip=False, horizontal_flip=False): | |
self.time_flip = time_flip | |
self.horizontal_flip = horizontal_flip | |
def __call__(self, clip): | |
if random.random() < 0.5 and self.time_flip: | |
return clip[::-1] | |
if random.random() < 0.5 and self.horizontal_flip: | |
return [np.fliplr(img) for img in clip] | |
return clip | |
class RandomResize(object): | |
"""Resizes a list of (H x W x C) numpy.ndarray to the final size | |
The larger the original image is, the more times it takes to | |
interpolate | |
Args: | |
interpolation (str): Can be one of 'nearest', 'bilinear' | |
defaults to nearest | |
size (tuple): (widht, height) | |
""" | |
def __init__(self, ratio=(3. / 4., 4. / 3.), interpolation='nearest'): | |
self.ratio = ratio | |
self.interpolation = interpolation | |
def __call__(self, clip): | |
scaling_factor = random.uniform(self.ratio[0], self.ratio[1]) | |
if isinstance(clip[0], np.ndarray): | |
im_h, im_w, im_c = clip[0].shape | |
elif isinstance(clip[0], PIL.Image.Image): | |
im_w, im_h = clip[0].size | |
new_w = int(im_w * scaling_factor) | |
new_h = int(im_h * scaling_factor) | |
new_size = (new_w, new_h) | |
resized = resize_clip( | |
clip, new_size, interpolation=self.interpolation) | |
return resized | |
class RandomCrop(object): | |
"""Extract random crop at the same location for a list of videos | |
Args: | |
size (sequence or int): Desired output size for the | |
crop in format (h, w) | |
""" | |
def __init__(self, size): | |
if isinstance(size, numbers.Number): | |
size = (size, size) | |
self.size = size | |
def __call__(self, clip): | |
""" | |
Args: | |
img (PIL.Image or numpy.ndarray): List of videos to be cropped | |
in format (h, w, c) in numpy.ndarray | |
Returns: | |
PIL.Image or numpy.ndarray: Cropped list of videos | |
""" | |
h, w = self.size | |
if isinstance(clip[0], np.ndarray): | |
im_h, im_w, im_c = clip[0].shape | |
elif isinstance(clip[0], PIL.Image.Image): | |
im_w, im_h = clip[0].size | |
else: | |
raise TypeError('Expected numpy.ndarray or PIL.Image' + | |
'but got list of {0}'.format(type(clip[0]))) | |
clip = pad_clip(clip, h, w) | |
im_h, im_w = clip.shape[1:3] | |
x1 = 0 if h == im_h else random.randint(0, im_w - w) | |
y1 = 0 if w == im_w else random.randint(0, im_h - h) | |
cropped = crop_clip(clip, y1, x1, h, w) | |
return cropped | |
class RandomRotation(object): | |
"""Rotate entire clip randomly by a random angle within | |
given bounds | |
Args: | |
degrees (sequence or int): Range of degrees to select from | |
If degrees is a number instead of sequence like (min, max), | |
the range of degrees, will be (-degrees, +degrees). | |
""" | |
def __init__(self, degrees): | |
if isinstance(degrees, numbers.Number): | |
if degrees < 0: | |
raise ValueError('If degrees is a single number,' | |
'must be positive') | |
degrees = (-degrees, degrees) | |
else: | |
if len(degrees) != 2: | |
raise ValueError('If degrees is a sequence,' | |
'it must be of len 2.') | |
self.degrees = degrees | |
def __call__(self, clip): | |
""" | |
Args: | |
img (PIL.Image or numpy.ndarray): List of videos to be cropped | |
in format (h, w, c) in numpy.ndarray | |
Returns: | |
PIL.Image or numpy.ndarray: Cropped list of videos | |
""" | |
angle = random.uniform(self.degrees[0], self.degrees[1]) | |
if isinstance(clip[0], np.ndarray): | |
rotated = [rotate(image=img, angle=angle, preserve_range=True) for img in clip] | |
elif isinstance(clip[0], PIL.Image.Image): | |
rotated = [img.rotate(angle) for img in clip] | |
else: | |
raise TypeError('Expected numpy.ndarray or PIL.Image' + | |
'but got list of {0}'.format(type(clip[0]))) | |
return rotated | |
class ColorJitter(object): | |
"""Randomly change the brightness, contrast and saturation and hue of the clip | |
Args: | |
brightness (float): How much to jitter brightness. brightness_factor | |
is chosen uniformly from [max(0, 1 - brightness), 1 + brightness]. | |
contrast (float): How much to jitter contrast. contrast_factor | |
is chosen uniformly from [max(0, 1 - contrast), 1 + contrast]. | |
saturation (float): How much to jitter saturation. saturation_factor | |
is chosen uniformly from [max(0, 1 - saturation), 1 + saturation]. | |
hue(float): How much to jitter hue. hue_factor is chosen uniformly from | |
[-hue, hue]. Should be >=0 and <= 0.5. | |
""" | |
def __init__(self, brightness=0, contrast=0, saturation=0, hue=0): | |
self.brightness = brightness | |
self.contrast = contrast | |
self.saturation = saturation | |
self.hue = hue | |
def get_params(self, brightness, contrast, saturation, hue): | |
if brightness > 0: | |
brightness_factor = random.uniform( | |
max(0, 1 - brightness), 1 + brightness) | |
else: | |
brightness_factor = None | |
if contrast > 0: | |
contrast_factor = random.uniform( | |
max(0, 1 - contrast), 1 + contrast) | |
else: | |
contrast_factor = None | |
if saturation > 0: | |
saturation_factor = random.uniform( | |
max(0, 1 - saturation), 1 + saturation) | |
else: | |
saturation_factor = None | |
if hue > 0: | |
hue_factor = random.uniform(-hue, hue) | |
else: | |
hue_factor = None | |
return brightness_factor, contrast_factor, saturation_factor, hue_factor | |
def __call__(self, clip): | |
""" | |
Args: | |
clip (list): list of PIL.Image | |
Returns: | |
list PIL.Image : list of transformed PIL.Image | |
""" | |
if isinstance(clip[0], np.ndarray): | |
brightness, contrast, saturation, hue = self.get_params( | |
self.brightness, self.contrast, self.saturation, self.hue) | |
# Create img transform function sequence | |
img_transforms = [] | |
if brightness is not None: | |
img_transforms.append(lambda img: torchvision.transforms.functional.adjust_brightness(img, brightness)) | |
if saturation is not None: | |
img_transforms.append(lambda img: torchvision.transforms.functional.adjust_saturation(img, saturation)) | |
if hue is not None: | |
img_transforms.append(lambda img: torchvision.transforms.functional.adjust_hue(img, hue)) | |
if contrast is not None: | |
img_transforms.append(lambda img: torchvision.transforms.functional.adjust_contrast(img, contrast)) | |
random.shuffle(img_transforms) | |
img_transforms = [img_as_ubyte, torchvision.transforms.ToPILImage()] + img_transforms + [np.array, | |
img_as_float] | |
with warnings.catch_warnings(): | |
warnings.simplefilter("ignore") | |
jittered_clip = [] | |
for img in clip: | |
jittered_img = img | |
for func in img_transforms: | |
jittered_img = func(jittered_img) | |
jittered_clip.append(jittered_img.astype('float32')) | |
elif isinstance(clip[0], PIL.Image.Image): | |
brightness, contrast, saturation, hue = self.get_params( | |
self.brightness, self.contrast, self.saturation, self.hue) | |
# Create img transform function sequence | |
img_transforms = [] | |
if brightness is not None: | |
img_transforms.append(lambda img: torchvision.transforms.functional.adjust_brightness(img, brightness)) | |
if saturation is not None: | |
img_transforms.append(lambda img: torchvision.transforms.functional.adjust_saturation(img, saturation)) | |
if hue is not None: | |
img_transforms.append(lambda img: torchvision.transforms.functional.adjust_hue(img, hue)) | |
if contrast is not None: | |
img_transforms.append(lambda img: torchvision.transforms.functional.adjust_contrast(img, contrast)) | |
random.shuffle(img_transforms) | |
# Apply to all videos | |
jittered_clip = [] | |
for img in clip: | |
for func in img_transforms: | |
jittered_img = func(img) | |
jittered_clip.append(jittered_img) | |
else: | |
raise TypeError('Expected numpy.ndarray or PIL.Image' + | |
'but got list of {0}'.format(type(clip[0]))) | |
return jittered_clip | |
class AllAugmentationTransform: | |
def __init__(self, resize_param=None, rotation_param=None, flip_param=None, crop_param=None, jitter_param=None): | |
self.transforms = [] | |
if flip_param is not None: | |
self.transforms.append(RandomFlip(**flip_param)) | |
if rotation_param is not None: | |
self.transforms.append(RandomRotation(**rotation_param)) | |
if resize_param is not None: | |
self.transforms.append(RandomResize(**resize_param)) | |
if crop_param is not None: | |
self.transforms.append(RandomCrop(**crop_param)) | |
if jitter_param is not None: | |
self.transforms.append(ColorJitter(**jitter_param)) | |
def __call__(self, clip): | |
for t in self.transforms: | |
clip = t(clip) | |
return clip | |