def get_strong_train_transform():
return A.Compose(
[
#A.Resize(height=IMG_SIZE, width=IMG_SIZE, p=1),
A.RandomSizedBBoxSafeCrop(
IMG_SIZE, IMG_SIZE, interpolation=1, p=0.33),
A.HorizontalFlip(),
A.ShiftScaleRotate(shift_limit=0.05,
scale_limit=0.1,
rotate_limit=10,
interpolation=1,
p=0.5),
A.OneOf([
A.Blur(blur_limit=(1, 3), p=0.33),
A.MedianBlur(blur_limit=3, p=0.33),
A.ImageCompression(quality_lower=50, p=0.33),
],
p=0.5),
A.OneOf([
A.RandomGamma(gamma_limit=(85, 115), p=0.33),
A.RandomBrightnessContrast(brightness_limit=0.2, p=0.33),
A.HueSaturationValue(hue_shift_limit=25,
sat_shift_limit=25,
val_shift_limit=30,
p=0.5)
],
p=0.34),
A.CLAHE(clip_limit=2.5, p=0.5),
A.Normalize(always_apply=True, p=1.0),
ToTensorV2(p=1.0)
],
bbox_params=A.BboxParams(format='pascal_voc',
min_area=5,
min_visibility=0.1,
label_fields=['labels']))
def cifar_alb_trainData():
'''Apply Albumentations data transforms to the dataset and returns iterable'''
train_transform = [
A.HorizontalFlip(p=0.15),
A.ShiftScaleRotate(shift_limit=0.05,
scale_limit=0.05,
rotate_limit=15,
p=0.25),
A.RGBShift(r_shift_limit=15, g_shift_limit=15, b_shift_limit=15,
p=0.5),
A.RandomBrightnessContrast(p=0.25),
A.RandomGamma(p=0.25),
A.CLAHE(p=0.25),
A.ChannelShuffle(p=0.1),
A.ElasticTransform(p=0.1),
A.MotionBlur(blur_limit=17, p=0.1),
A.Cutout(num_holes=1,
max_h_size=16,
max_w_size=16,
fill_value=mean,
always_apply=False,
p=0.5),
A.Normalize(mean=mean, std=std),
ToTensor()
]
transforms_result = A.Compose(train_transform)
return lambda img: transforms_result(image=np.array(img))["image"]
def aug_medium(prob=1):
return aug.Compose([
aug.Flip(),
aug.OneOf([
aug.CLAHE(clip_limit=2, p=.5),
aug.IAASharpen(p=.25),
],
p=0.35),
aug.OneOf([
aug.RandomContrast(),
aug.RandomGamma(),
aug.RandomBrightness(),
],
p=0.3),
aug.OneOf([
aug.ElasticTransform(
alpha=120, sigma=120 * 0.05, alpha_affine=120 * 0.03),
aug.GridDistortion(),
aug.OpticalDistortion(distort_limit=2, shift_limit=0.5),
],
p=0.3),
aug.ShiftScaleRotate(rotate_limit=12),
aug.OneOf([
aug.GaussNoise(p=.35),
SaltPepperNoise(level_limit=0.0002, p=.7),
aug.ISONoise(p=.7),
],
p=.5),
aug.Cutout(num_holes=3, p=.25),
],
p=prob)
def __init__(self, used_img_size, final_img_size, transform_params):
self._ratio = max(
float(final_img_size[0]) / used_img_size[0],
float(final_img_size[0]) / used_img_size[0])
self._final_img_size = final_img_size
self._scale_compose = [
albumentations.Resize(height=int(used_img_size[0] * self._ratio),
width=int(used_img_size[1] * self._ratio),
always_apply=True),
albumentations.CenterCrop(height=self._final_img_size[0],
width=self._final_img_size[1],
always_apply=True,
p=1),
]
self._normalize_transform = albumentations.Normalize()
self._normalize_no_transform = albumentations.Normalize(mean=(0, 0, 0),
std=(1, 1, 1))
self._train_compose = self._scale_compose
if transform_params["filters"]:
self._train_compose = [
albumentations.RandomBrightnessContrast(
brightness_limit=(-0.1, 0.1),
contrast_limit=(-0.1, 0.1),
p=0.2),
albumentations.RandomGamma(gamma_limit=(90, 110), p=0.2),
albumentations.ChannelShuffle(p=0.2),
] + self._scale_compose
if transform_params["normalize"]:
self._train_compose.append(albumentations.Normalize())
else:
self._train_compose.append(
albumentations.Normalize(mean=(0, 0, 0), std=(1, 1, 1)))
def det_train_augs(height: int, width: int) -> albu.Compose:
return albu.Compose([
albu.Resize(height=height, width=width),
albu.ShiftScaleRotate(shift_limit=0.025,
scale_limit=0.1,
rotate_limit=10),
albu.Flip(),
albu.RandomRotate90(),
albu.OneOf(
[
albu.HueSaturationValue(p=1.0),
albu.IAAAdditiveGaussianNoise(p=1.0),
albu.IAASharpen(p=1.0),
albu.RandomBrightnessContrast(
brightness_limit=0.1, contrast_limit=0.1, p=1.0),
albu.RandomGamma(p=1.0),
],
p=1.0,
),
albu.OneOf(
[
albu.Blur(blur_limit=3, p=1.0),
albu.MotionBlur(blur_limit=3, p=1.0)
],
p=1.0,
),
albu.Normalize(),
])
def get_train_transforms():
return A.Compose([
A.HueSaturationValue(hue_shift_limit=0.4,
sat_shift_limit=0.4,
val_shift_limit=0.4,
p=0.5),
A.OneOf([
A.RandomGamma(p=0.5),
A.RandomBrightnessContrast(
brightness_limit=0.4, contrast_limit=0.85, p=0.5)
],
p=0.5),
A.Blur(p=0.5),
A.ToGray(p=0.1),
A.RandomRotate90(p=0.5),
A.Resize(height=1024, width=1024, p=1),
A.Cutout(
num_holes=10, max_h_size=64, max_w_size=64, fill_value=0, p=0.5),
ToTensorV2(p=1.0),
],
p=1.0,
bbox_params=A.BboxParams(format='pascal_voc',
min_area=0,
min_visibility=0,
label_fields=['labels']))
def get_next_augmentation():
train_transform = [
albu.ChannelShuffle(p=0.1),
albu.IAAAdditiveGaussianNoise(p=0.2),
albu.OneOf(
[
albu.CLAHE(p=1),
albu.RandomBrightness(p=1),
albu.RandomGamma(p=1),
],
p=0.9,
),
albu.OneOf(
[
albu.IAASharpen(p=1),
albu.Blur(blur_limit=3, p=1),
albu.MotionBlur(blur_limit=3, p=1),
],
p=0.9,
),
albu.OneOf(
[
albu.RandomContrast(p=1),
albu.HueSaturationValue(p=1),
],
p=0.9,
),
]
return albu.Compose(train_transform)
def get_training_augmentation(max_dim, crop=True, flip=False, light=False):
train_transform = [
A.PadIfNeeded(min_height=max_dim, min_width=max_dim, border_mode=0)
]
if crop:
train_transform.append(
A.OneOf([
A.RandomSizedCrop(min_max_height=(min(max_dim,
256), min(max_dim, 256)),
height=SHAPE,
width=SHAPE,
p=1),
A.RandomSizedCrop(min_max_height=(max_dim, max_dim),
height=SHAPE,
width=SHAPE,
p=1)
],
p=1))
else:
train_transform.append(
A.Resize(height=SHAPE,
width=SHAPE,
interpolation=1,
always_apply=True,
p=1))
if flip:
train_transform.append(A.VerticalFlip(p=.5))
train_transform.append(A.RandomRotate90(p=.5))
if light:
train_transform.append(A.CLAHE(p=0.8))
train_transform.append(A.RandomBrightnessContrast(p=0.8))
train_transform.append(A.RandomGamma(p=0.8))
return A.Compose(train_transform)
def gentle_transform(p):
return albu.Compose(
[
# p=0.5
albu.HorizontalFlip(p=0.5),
albu.VerticalFlip(p=0.5),
albu.OneOf(
[
albu.IAASharpen(p=1),
albu.Blur(blur_limit=3, p=1),
albu.MotionBlur(blur_limit=3, p=1),
],
p=0.5,
),
albu.OneOf(
[
albu.RandomBrightness(p=1),
albu.RandomGamma(p=1),
],
p=0.5,
),
# p=0.2
albu.ShiftScaleRotate(rotate_limit=30,
scale_limit=0.15,
border_mode=cv2.BORDER_CONSTANT,
value=[0, 0, 0],
p=0.2),
albu.IAAAdditiveGaussianNoise(p=0.2),
albu.IAAPerspective(p=0.2),
],
p=p,
additional_targets={
'image{}'.format(_): 'image'
for _ in range(1, 65)
})
def get_transform(is_train):
if is_train:
return albumentations.Compose(
[
albumentations.Resize(224,224),
albumentations.OneOf([
albumentations.JpegCompression(quality_lower=20, quality_upper=70, p=0.5),
albumentations.Downscale(scale_min=0.25, scale_max=0.50, interpolation=1, p=0.5),
], p=0.6),
albumentations.HorizontalFlip(p=0.5),
albumentations.VerticalFlip(p=0.5),
# albumentations.ShiftScaleRotate(shift_limit=0.0625, scale_limit=0.1, rotate_limit=45),
albumentations.GaussNoise(p=0.2),
albumentations.RandomBrightnessContrast(0.3,0.3, p=0.7),
albumentations.RandomGamma(p=0.2),
albumentations.CLAHE(p=0.2),
albumentations.ChannelShuffle(p=0.2),
albumentations.MultiplicativeNoise(multiplier=[0.5, 1.5], elementwise=True, p=0.3),
albumentations.HueSaturationValue(hue_shift_limit=10, sat_shift_limit=10, val_shift_limit=10, p=0.7),
albumentations.Normalize(mean=(0.485, 0.456, 0.406), std=(0.229, 0.224, 0.225), max_pixel_value=255.0)
])
else:
return albumentations.Compose(
[
albumentations.Resize(224,224),
albumentations.Normalize(mean=(0.485, 0.456, 0.406), std=(0.229, 0.224, 0.225), max_pixel_value=255.0)
])
def hard_transforms():
result = [
# random flip
albu.RandomRotate90(),
# Random shifts, stretches and turns with a 50% probability
albu.ShiftScaleRotate(shift_limit=0.1,
scale_limit=0.1,
rotate_limit=15,
border_mode=0,
p=0.5),
# add random brightness and contrast, 30% prob
albu.RandomBrightnessContrast(brightness_limit=0.2,
contrast_limit=0.2,
p=0.3),
# Random gamma changes with a 30% probability
albu.RandomGamma(gamma_limit=(85, 115), p=0.3),
# Randomly changes the hue, saturation, and color value of the input image
albu.HueSaturationValue(p=0.3),
albu.JpegCompression(quality_lower=80),
albu.OneOf([
albu.MotionBlur(p=0.2),
albu.MedianBlur(blur_limit=3, p=0.1),
albu.Blur(blur_limit=3, p=0.1),
],
p=0.2),
albu.OneOf([
albu.OpticalDistortion(p=0.3),
albu.GridDistortion(p=0.1),
albu.IAAPiecewiseAffine(p=0.3),
],
p=0.2),
]
return result
def __init__(self):
import albumentations
self.transform = albumentations.Compose([
albumentations.RandomBrightnessContrast(),
albumentations.RandomGamma(gamma_limit=(80, 120)),
albumentations.CLAHE(),
])
def augment(image):
transform = A.Compose([
A.HorizontalFlip(p=0.5),
A.OneOf([
A.IAAAdditiveGaussianNoise(),
A.GaussNoise(),
], p=0.2),
A.OneOf([
A.MotionBlur(p=.2),
A.MedianBlur(blur_limit=3, p=0.1),
A.Blur(blur_limit=3, p=0.1),
],
p=0.2),
A.ShiftScaleRotate(shift_limit=0.0625,
scale_limit=0.2,
rotate_limit=15,
p=0.2),
A.OneOf([
A.CLAHE(clip_limit=2),
A.IAASharpen(),
A.IAAEmboss(),
A.RandomBrightnessContrast(),
A.RandomGamma(),
],
p=0.5),
A.HueSaturationValue(p=0.3),
])
augmented_image = transform(image=image)['image']
return augmented_image
def setup(self, stage: Optional[str] = None):
df = load_df()
df_train, df_val = split_df(df, self.params)
self.train_dataset = MaskDataset(
df_train,
transform=A.Compose([
A.RandomResizedCrop(
self.params.img_size,
self.params.img_size,
),
A.Rotate(13),
A.HorizontalFlip(),
A.RandomBrightnessContrast(),
A.HueSaturationValue(),
A.RGBShift(),
A.RandomGamma(),
MyCoarseDropout(
min_holes=1,
max_holes=8,
max_height=32,
max_width=32,
),
]),
)
self.val_dataset = MaskDataset(
df_val,
transform=A.Compose([
A.Resize(
self.params.img_size,
self.params.img_size,
),
]),
)
def randomgamma(gamma=(80, 120), p=0.5):
"""
:param gamma: default (80, 120)
:param p: probability of applying the transform.
:return: albumentations RandomGamma
"""
return album.RandomGamma(gamma_limit=gamma, p=p)
def get_transforms(phase, crop_type=0, size=512):
list_transforms = []
if phase == "train":
list_transforms.extend([
aug.Flip(),
aug.Cutout(num_holes=4, p=0.5),
aug.OneOf([
aug.RandomContrast(),
aug.RandomGamma(),
aug.RandomBrightness(),
],
p=1),
aug.ShiftScaleRotate(rotate_limit=90),
aug.OneOf([
aug.GaussNoise(p=.35),
], p=.5),
])
if crop_type == 0:
list_transforms.extend([
CropNonEmptyMaskIfExists(size, size),
])
elif crop_type == 1:
list_transforms.extend([
RandomCrop(size, size, p=1.0),
])
list_transforms.extend([
Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225], p=1),
ToTensor(),
])
list_trfms = Compose(list_transforms)
return list_trfms
def __init__(self):
self.transform = None
try:
import albumentations as A
check_version(A.__version__, '1.0.3',
hard=True) # version requirement
self.transform = A.Compose([
A.Blur(p=0.01),
A.MedianBlur(p=0.01),
A.ToGray(p=0.01),
A.CLAHE(p=0.01),
A.RandomBrightnessContrast(p=0.0),
A.RandomGamma(p=0.0),
A.ImageCompression(quality_lower=75, p=0.0)
],
bbox_params=A.BboxParams(
format='yolo',
label_fields=['class_labels']))
LOGGER.info(
colorstr('albumentations: ') +
', '.join(f'{x}' for x in self.transform.transforms if x.p))
except ImportError: # package not installed, skip
pass
except Exception as e:
LOGGER.info(colorstr('albumentations: ') + f'{e}')
def get_light_augmentations(image_size):
return A.Compose([
A.ShiftScaleRotate(shift_limit=0.05,
scale_limit=0.1,
rotate_limit=15,
border_mode=cv2.BORDER_CONSTANT,
value=0),
A.RandomSizedCrop(min_max_height=(int(image_size[0] * 0.85),
image_size[0]),
height=image_size[0],
width=image_size[1],
p=0.3),
ZeroTopAndBottom(p=0.3),
# Brightness/contrast augmentations
A.OneOf([
A.RandomBrightnessContrast(brightness_limit=0.25,
contrast_limit=0.2),
IndependentRandomBrightnessContrast(brightness_limit=0.1,
contrast_limit=0.1),
A.RandomGamma(gamma_limit=(75, 125)),
A.NoOp()
]),
A.OneOf([ChannelIndependentCLAHE(p=0.5),
A.CLAHE(),
A.NoOp()]),
A.HorizontalFlip(p=0.5),
])
def get_medium_augmentations(image_size):
return A.Compose([
A.OneOf([
A.ShiftScaleRotate(shift_limit=0.05,
scale_limit=0.1,
rotate_limit=15,
border_mode=cv2.BORDER_CONSTANT,
value=0),
A.OpticalDistortion(distort_limit=0.11,
shift_limit=0.15,
border_mode=cv2.BORDER_CONSTANT,
value=0),
A.NoOp()
]),
A.RandomSizedCrop(min_max_height=(int(image_size[0] * 0.85),
image_size[0]),
height=image_size[0],
width=image_size[1],
p=0.3),
A.OneOf([
A.RandomBrightnessContrast(brightness_limit=0.5,
contrast_limit=0.4),
IndependentRandomBrightnessContrast(brightness_limit=0.25,
contrast_limit=0.24),
A.RandomGamma(gamma_limit=(50, 150)),
A.NoOp()
]),
A.OneOf([
A.RGBShift(r_shift_limit=20, b_shift_limit=15, g_shift_limit=15),
A.HueSaturationValue(hue_shift_limit=5, sat_shift_limit=5),
A.NoOp()
]),
A.HorizontalFlip(p=0.5),
A.VerticalFlip(p=0.5)
])
def augment_img(self, img, mask, mat, idx_item=None):
""" img already in float32 BGR format, not uint8
"""
# horizontal flip
p_flip = np.random.uniform() # in [0,1)
if p_flip > 1: # 0.33:
uv_cx = np.array([1686.2379, 0])
IMG_SHAPE = (2710, 3384, 3) # img.shape = h,w,c
uv_cx_new = self.convert_uv_to_uv_preprocessed(uv_cx, IMG_SHAPE)
cx_mat = uv_cx_new[0]
cx_img = cx_mat * self.factor_downsample
img_flipped = scripts.flip_image_hor.flip_hor_at_u(img, cx_img)
mask_flipped = scripts.flip_image_hor.flip_hor_at_u(mask, cx_img)
mat_flipped = scripts.flip_image_hor.flip_hor_at_u(mat, cx_mat)
mat_flipped[:, :, 4] *= -1 # x
mat_flipped[:, :, 2] *= -1 # sin(yaw)
mat_flipped[:, :, 3] *= -1 # roll
else:
img_flipped = img
mask_flipped = mask
mat_flipped = mat
# grayish - change HSV values
p_sat = np.random.uniform() # in [0,1)
if p_sat > 1:
img_desat = reduce_saturation(img_flipped, sat_shift_range=(-0.15, 0))
else:
img_desat = img_flipped
# gamma change
aug_gamma = albumentations.RandomGamma(gamma_limit=(85, 115),
p=0.33,
)
# gaussian noise
aug_noise = albumentations.MultiplicativeNoise(multiplier=(0.90, 1.00),
elementwise=True,
per_channel=True,
p=0.33,
)
# apply all augmentations to image
aug_tot = albumentations.Compose([aug_gamma, aug_noise], p=1)
img_augmented = aug_tot(image=img_desat)['image']
# for debugging purposes
if False:
fig, ax = plt.subplots(3, 2, figsize=(9, 6))
ax[0][0].imshow(img[:, :, ::-1])
ax[0][1].imshow(img_augmented[:, :, ::-1])
ax[1][0].imshow(mat[:, :, 0])
ax[1][1].imshow(mat_flipped[:, :, 0])
ax[2][0].imshow(mat[:, :, 4]) # x
ax[2][1].imshow(mat_flipped[:, :, 4])
# fig.tight_layout()
plt.show()
fig.savefig('plots_aug/{:05d}.png'.format(idx_item))
return img_augmented, mask_flipped, mat_flipped
def augmentation(train: bool) -> Callable:
initial_size = 2048
crop_min_max_height = (400, 533)
crop_width = 512
crop_height = 384
if train:
aug = [
albu.LongestMaxSize(max_size=initial_size),
albu.RandomSizedCrop(min_max_height=crop_min_max_height,
width=crop_width,
height=crop_height,
w2h_ratio=crop_width / crop_height),
albu.HueSaturationValue(hue_shift_limit=7,
sat_shift_limit=10,
val_shift_limit=10),
albu.RandomBrightnessContrast(),
albu.RandomGamma()
]
else:
test_size = int(initial_size * crop_height /
np.mean(crop_min_max_height))
print('Test image max sizes is {} pixels'.format(test_size))
# for tta probably
aug = [albu.LongestMaxSize(max_size=test_size)]
aug.extend([ToTensor()])
return albu.Compose(aug,
bbox_params={
'format': 'coco',
'min_area': 0,
'min_visibility': 0.5,
'label_fields': ['labels']
})
def tr_da_fn(height, width):
train_transform = [
A.HorizontalFlip(p=0.5),
A.ShiftScaleRotate(scale_limit=0.10, rotate_limit=7, shift_limit=0.10, border_mode=cv2.BORDER_CONSTANT, p=1.0),
A.Perspective(scale=(0.025, 0.04), p=0.3),
A.RandomResizedCrop(height=height, width=width, scale=(0.9, 1.0), p=0.3),
A.OneOf(
[
A.CLAHE(p=1),
A.RandomBrightness(p=1),
A.RandomGamma(p=1),
A.RandomContrast(limit=0.2, p=1.0),
],
p=0.5,
),
A.OneOf(
[
A.Sharpen(alpha=(0.2, 0.5), lightness=(0.5, 1.0), p=1.0),
A.Blur(blur_limit=[2, 3], p=1.0),
A.GaussNoise(var_limit=(5, 25), p=1.0),
# A.MotionBlur(blur_limit=3, p=1.0),
],
p=0.5,
),
A.Lambda(image=_da_negative, p=0.2),
A.LongestMaxSize(max_size=max(height, width), always_apply=True),
A.PadIfNeeded(min_height=height, min_width=width, border_mode=cv2.BORDER_CONSTANT, always_apply=True),
]
return A.Compose(train_transform)
def get_transforms(phase, size, mean, std):
list_transforms = []
if phase == "train":
list_transforms.extend(
[
albu.HorizontalFlip(),
albu.OneOf([
albu.RandomContrast(),
albu.RandomGamma(),
albu.RandomBrightness(),
], p=0.3),
albu.OneOf([
albu.ElasticTransform(alpha=120, sigma=120 * 0.05, alpha_affine=120 * 0.03),
albu.GridDistortion(),
albu.OpticalDistortion(distort_limit=2, shift_limit=0.5),
], p=0.3),
albu.ShiftScaleRotate(),
]
)
list_transforms.extend(
[
albu.Normalize(mean=mean, std=std, p=1),
albu.Resize(size, size),
ToTensorV2(),
]
)
list_trfms = albu.Compose(list_transforms)
return list_trfms
def get_transform(self):
"""Get the Albumentations transform based on self.aug"""
transform_list = [A.Resize(self.H, self.W)] # fix size of image to stabilize dimension
if 'light' in self.aug:
# Rigid transformations: preserves image (Light)
light_transform_list = [
A.RandomCrop(width = int(0.7*self.W), height = int(0.7*self.H), p = 0.5),
A.HorizontalFlip(p = 0.5),
A.VerticalFlip(p = 0.5),
A.Resize(self.H, self.W)
]
transform_list += light_transform_list
if 'medium' in self.aug:
# Non-rigid transofrmations: distort image a bit (Medium)
medium_transform_list = [
A.GridDistortion(p=0.5),
A.RandomGamma(gamma_limit=(90, 110), p=0.5)
]
transform_list += medium_transform_list
# Normalize image after aug (mask is not normalized by default).
# Need to add max_pixel_value to mimic torchvisions.transforms.Normalize
transform_list += [ A.Normalize(mean = self.IMG_MEAN, std = self.IMG_STD, max_pixel_value = 1) ]
transform = A.Compose(transform_list)
return transform
def apply_training_augmentation():
train_transform = [
A.HorizontalFlip(p=0.5),
A.ShiftScaleRotate(scale_limit=0.5, rotate_limit=0, shift_limit=0.1, p=1, border_mode=0),
A.PadIfNeeded(min_height=320, min_width=320, always_apply=True, border_mode=0),
A.RandomCrop(height=320, width=320, always_apply=True),
A.IAAAdditiveGaussianNoise(p=0.2),
A.IAAPerspective(p=0.5),
A.OneOf(
[
A.CLAHE(p=1),
A.RandomBrightness(p=1),
A.RandomGamma(p=1),
],
p=0.9,
),
A.OneOf(
[
A.IAASharpen(p=1),
A.Blur(blur_limit=3, p=1),
A.MotionBlur(blur_limit=3, p=1),
],
p=0.9,
),
A.OneOf(
[
A.RandomContrast(p=1),
A.HueSaturationValue(p=1),
],
p=0.9,
),
A.Lambda(mask=round_clip_0_1)
]
return A.Compose(train_transform)
def get_training_augmentation():
train_transform = [
A.RandomSizedCrop(min_max_height=(300, 360), height=320, width=320,
always_apply=True),
A.HorizontalFlip(p=0.5),
A.OneOf([
A.CLAHE(),
A.RandomBrightnessContrast(),
A.RandomGamma(),
A.HueSaturationValue(),
A.NoOp()
]),
A.OneOf([
A.IAAAdditiveGaussianNoise(p=0.2),
A.IAASharpen(),
A.Blur(blur_limit=3),
A.MotionBlur(blur_limit=3),
A.NoOp()
]),
A.OneOf([
A.RandomFog(),
A.RandomSunFlare(),
A.RandomRain(),
A.RandomSnow(),
A.NoOp()
]),
A.Normalize(),
]
return A.Compose(train_transform)
def build_transforms(args, n_classes):
train_transforms = A.Compose([
A.HorizontalFlip(),
A.RandomResizedCrop(width=args.image_size,
height=args.image_size,
scale=(0.7, 1.2)),
A.CoarseDropout(max_height=int(args.image_size / 5),
max_width=int(args.image_size / 5)),
A.OneOf([
A.RandomBrightnessContrast(),
A.RandomGamma(),
A.Blur(blur_limit=5),
]),
ToTensorV2(),
])
train_transforms = AlbumentationsSegmentationWrapperTransform(
train_transforms, class_num=n_classes, ignore_indices=[
255,
])
test_transforms = A.Compose([
A.Resize(width=args.image_size, height=args.image_size),
ToTensorV2(),
])
test_transforms = AlbumentationsSegmentationWrapperTransform(
test_transforms, class_num=n_classes, ignore_indices=[
255,
])
return train_transforms, test_transforms
def get_training_augmentation():
train_transform = albu.Compose([
albu.IAAAdditiveGaussianNoise(p=0.2),
albu.IAAPerspective(p=0.5),
albu.OneOf(
[
albu.CLAHE(p=1),
albu.RandomBrightness(p=1),
albu.RandomGamma(p=1),
],
p=0.9,
),
albu.OneOf(
[
albu.IAASharpen(p=1),
albu.Blur(blur_limit=3, p=1),
albu.MotionBlur(blur_limit=3, p=1),
],
p=0.9,
),
albu.OneOf(
[
albu.RandomContrast(p=1),
albu.HueSaturationValue(p=1),
],
p=0.9,
),
],
additional_targets={'depth': 'mask'})
return train_transform
def get_training_augmentation():
train_transform = [
albu.HorizontalFlip(p=0.5),
albu.IAAAdditiveGaussianNoise(p=0.2),
albu.IAAPerspective(p=0.5),
albu.PadIfNeeded(min_height=1216,
min_width=512,
always_apply=True,
border_mode=0),
#0.9的機率取出OneOf中的其中一個, 各個抽中的機率皆為1/3( 因為1/(1+1+1) )
albu.OneOf(
[
albu.CLAHE(p=1),
albu.RandomBrightness(p=1),
albu.RandomGamma(p=1),
],
p=0.9,
),
albu.OneOf(
[
albu.IAASharpen(p=1),
albu.Blur(blur_limit=3, p=1),
albu.MotionBlur(blur_limit=3, p=1),
],
p=0.9,
),
albu.OneOf(
[
albu.RandomContrast(p=1),
albu.HueSaturationValue(p=1),
],
p=0.9,
),
]
return albu.Compose(train_transform)
def get_train_transforms():
return A.Compose(
[
A.RandomSizedCrop(
min_max_height=(650, 1024), height=1024, width=1024, p=0.5),
A.OneOf([
A.HueSaturationValue(hue_shift_limit=0.68,
sat_shift_limit=0.68,
val_shift_limit=0.1,
p=0.9),
A.RandomGamma(p=0.9),
A.RandomBrightnessContrast(
brightness_limit=0.1, contrast_limit=0.1, p=0.9),
],
p=0.9),
# A.CLAHE(p=1.0),
A.ToGray(p=0.01),
A.HorizontalFlip(p=0.5),
A.VerticalFlip(p=0.5),
A.RandomRotate90(p=0.5),
A.Resize(height=512, width=512, p=1),
A.CoarseDropout(max_holes=20,
max_height=32,
max_width=32,
fill_value=0,
p=0.25),
ToTensorV2(p=1.0),
],
p=1.0,
bbox_params=A.BboxParams(format='pascal_voc',
min_area=0,
min_visibility=0,
label_fields=['labels']))
