def rgbmore(self, im):
return_im = []
add_return_im = lambda im: return_im.extend(im)
grey = np.array(im.convert(mode='L'))
im = np.array(im)
rgb_grey = np.dstack((im, grey))
edge = iaa.EdgeDetect(alpha=1)(images=rgb_grey)
dir_edge = lambda d: iaa.DirectedEdgeDetect(alpha=1, direction=d)(images=
grey)
dir_edges = np.array(
[dir_edge(d) for d in np.linspace(0, 1, num=3, endpoint=False)])
dir_edges = np.transpose(dir_edges, (1, 2, 0))
canny = iaa.Canny(alpha=1.0,
hysteresis_thresholds=128,
sobel_kernel_size=4,
deterministic=True,
colorizer=iaa.RandomColorsBinaryImageColorizer(
color_true=255, color_false=0))(images=grey)
avg_pool = iaa.AveragePooling(2)(images=grey)
max_pool = iaa.MaxPooling(2)(images=grey)
min_pool = iaa.MinPooling(2)(images=grey)
add_return_im([im, grey])
add_return_im([edge, dir_edges, canny])
add_return_im([avg_pool, max_pool, min_pool])
return np.dstack(return_im)
def t2(images, random_state, parents, hooks):
iter = np.random.randint(6, 9)
T = []
for i in range(iter):
T.append(iaa.MinPooling(kernel_size=5, keep_size=True))
T.append(iaa.GaussianBlur(sigma=3.))
images = iaa.Sequential(T).augment_images(images)
return images
def aug2(self, img):
x = random.randint(1, 2)
seq = iaa.Sequential([
iaa.MinPooling(kernel_size=x) #=2 or 3,4,5
])
img_au = seq(image=img)
return img_au
def test_augment_images(self):
aug = iaa.MinPooling(2, keep_size=False)
image = np.uint8([[50 - 2, 50 - 1, 120 - 4, 120 + 4],
[50 + 1, 50 + 2, 120 + 1, 120 - 1]])
image = np.tile(image[:, :, np.newaxis], (1, 1, 3))
expected = np.uint8([[50 - 2, 120 - 4]])
expected = np.tile(expected[:, :, np.newaxis], (1, 1, 3))
image_aug = aug.augment_image(image)
diff = np.abs(image_aug.astype(np.int32) - expected)
assert image_aug.shape == (1, 2, 3)
assert np.all(diff <= 1)
def t5(images, random_state, parents, hooks):
T = []
iter = np.random.randint(1, 3)
for i in range(iter):
T.append(iaa.MinPooling(kernel_size=5, keep_size=True))
T.append(iaa.GaussianBlur(sigma=3.))
if np.random.rand() > 0.5:
if np.random.rand() > 0.5:
T.append(iaa.MedianBlur(k=3))
else:
T.append(iaa.AverageBlur(k=3))
T.append(iaa.GaussianBlur(sigma=(0., 3.)))
images = iaa.Sequential(T).augment_images(images)
return images
def get_seq_val():
sometimes = lambda aug: iaa.Sometimes(0.5, aug, random_state=STATE, )
seq_val = iaa.Sequential([
iaa.OneOf([
sometimes(iaa.GaussianBlur(sigma=(0.1, 1), random_state=STATE, )),
sometimes(iaa.AverageBlur(k=(3, 7))),
sometimes(iaa.MotionBlur(k=(3, 7))),
sometimes(iaa.AveragePooling((2, 8))),
sometimes(iaa.MaxPooling((2, 8))),
sometimes(iaa.MedianPooling((2, 8))),
sometimes(iaa.MinPooling((2, 8))),
]),
iaa.Multiply((0.8, 1.2)),
], random_order=True)
return seq_val
def test_augment_images__different_channels(self):
aug = iaa.MinPooling((iap.Deterministic(1), iap.Deterministic(3)),
keep_size=False)
c1 = np.arange(start=1, stop=9 + 1).reshape((1, 9, 1))
c2 = (100 + np.arange(start=1, stop=9 + 1)).reshape((1, 9, 1))
image = np.dstack([c1, c2]).astype(np.uint8)
c1_expected = np.uint8([2, 5, 8]).reshape((1, 3, 1))
c2_expected = np.uint8([100 + 2, 100 + 5, 100 + 8]).reshape((1, 3, 1))
image_expected = np.dstack([c1_expected, c2_expected])
image_aug = aug.augment_image(image)
diff = np.abs(image_aug.astype(np.int32) - image_expected)
assert image_aug.shape == (1, 3, 2)
assert np.all(diff <= 1)
iaa.WithChannels(1, iaa.Add((-50, 50))),
iaa.WithChannels(2, iaa.Add((-50, 50))),
iaa.ChangeColorspace(from_colorspace="HSV", to_colorspace="RGB"),
iaa.Add((-80, 80), per_channel=0.5),
iaa.Multiply((0.5, 1.5), per_channel=0.5),
iaa.AverageBlur(k=((5), (1, 3))),
iaa.AveragePooling(2),
iaa.AddElementwise((-20, -5)),
iaa.AdditiveGaussianNoise(scale=(0, 0.05 * 255)),
iaa.JpegCompression(compression=(50, 99)),
iaa.MultiplyHueAndSaturation(mul_hue=(0.5, 1.5)),
iaa.WithBrightnessChannels(iaa.Add((-50, 50))),
iaa.WithBrightnessChannels(iaa.Add((-50, 50)),
to_colorspace=[iaa.CSPACE_Lab, iaa.CSPACE_HSV]),
iaa.MaxPooling(2),
iaa.MinPooling((1, 2)),
# iaa.Superpixels(p_replace=(0.1, 0.2), n_segments=(16, 128)),
iaa.Clouds(),
iaa.Fog(),
iaa.AdditiveGaussianNoise(scale=0.1 * 255, per_channel=True),
iaa.Dropout(p=(0, 0.2)),
# iaa.WithChannels(0, iaa.Affine(rotate=(0, 0))),
iaa.ChannelShuffle(0.35),
iaa.WithColorspace(to_colorspace="HSV",
from_colorspace="RGB",
children=iaa.WithChannels(0, iaa.Add((0, 50)))),
#
iaa.WithHueAndSaturation([
iaa.WithChannels(0, iaa.Add((-30, 10))),
iaa.WithChannels(
def create_augmenters(height, width, height_augmentable, width_augmentable,
only_augmenters):
def lambda_func_images(images, random_state, parents, hooks):
return images
def lambda_func_heatmaps(heatmaps, random_state, parents, hooks):
return heatmaps
def lambda_func_keypoints(keypoints, random_state, parents, hooks):
return keypoints
def assertlambda_func_images(images, random_state, parents, hooks):
return True
def assertlambda_func_heatmaps(heatmaps, random_state, parents, hooks):
return True
def assertlambda_func_keypoints(keypoints, random_state, parents, hooks):
return True
augmenters_meta = [
iaa.Sequential([iaa.Noop(), iaa.Noop()],
random_order=False,
name="Sequential_2xNoop"),
iaa.Sequential([iaa.Noop(), iaa.Noop()],
random_order=True,
name="Sequential_2xNoop_random_order"),
iaa.SomeOf((1, 3),
[iaa.Noop(), iaa.Noop(), iaa.Noop()],
random_order=False,
name="SomeOf_3xNoop"),
iaa.SomeOf((1, 3),
[iaa.Noop(), iaa.Noop(), iaa.Noop()],
random_order=True,
name="SomeOf_3xNoop_random_order"),
iaa.OneOf([iaa.Noop(), iaa.Noop(), iaa.Noop()], name="OneOf_3xNoop"),
iaa.Sometimes(0.5, iaa.Noop(), name="Sometimes_Noop"),
iaa.WithChannels([1, 2], iaa.Noop(), name="WithChannels_1_and_2_Noop"),
iaa.Noop(name="Noop"),
iaa.Lambda(func_images=lambda_func_images,
func_heatmaps=lambda_func_heatmaps,
func_keypoints=lambda_func_keypoints,
name="Lambda"),
iaa.AssertLambda(func_images=assertlambda_func_images,
func_heatmaps=assertlambda_func_heatmaps,
func_keypoints=assertlambda_func_keypoints,
name="AssertLambda"),
iaa.AssertShape((None, height_augmentable, width_augmentable, None),
name="AssertShape"),
iaa.ChannelShuffle(0.5, name="ChannelShuffle")
]
augmenters_arithmetic = [
iaa.Add((-10, 10), name="Add"),
iaa.AddElementwise((-10, 10), name="AddElementwise"),
#iaa.AddElementwise((-500, 500), name="AddElementwise"),
iaa.AdditiveGaussianNoise(scale=(5, 10), name="AdditiveGaussianNoise"),
iaa.AdditiveLaplaceNoise(scale=(5, 10), name="AdditiveLaplaceNoise"),
iaa.AdditivePoissonNoise(lam=(1, 5), name="AdditivePoissonNoise"),
iaa.Multiply((0.5, 1.5), name="Multiply"),
iaa.MultiplyElementwise((0.5, 1.5), name="MultiplyElementwise"),
iaa.Dropout((0.01, 0.05), name="Dropout"),
iaa.CoarseDropout((0.01, 0.05),
size_percent=(0.01, 0.1),
name="CoarseDropout"),
iaa.ReplaceElementwise((0.01, 0.05), (0, 255),
name="ReplaceElementwise"),
#iaa.ReplaceElementwise((0.95, 0.99), (0, 255), name="ReplaceElementwise"),
iaa.SaltAndPepper((0.01, 0.05), name="SaltAndPepper"),
iaa.ImpulseNoise((0.01, 0.05), name="ImpulseNoise"),
iaa.CoarseSaltAndPepper((0.01, 0.05),
size_percent=(0.01, 0.1),
name="CoarseSaltAndPepper"),
iaa.Salt((0.01, 0.05), name="Salt"),
iaa.CoarseSalt((0.01, 0.05),
size_percent=(0.01, 0.1),
name="CoarseSalt"),
iaa.Pepper((0.01, 0.05), name="Pepper"),
iaa.CoarsePepper((0.01, 0.05),
size_percent=(0.01, 0.1),
name="CoarsePepper"),
iaa.Invert(0.1, name="Invert"),
# ContrastNormalization
iaa.JpegCompression((50, 99), name="JpegCompression")
]
augmenters_blend = [
iaa.Alpha((0.01, 0.99), iaa.Noop(), name="Alpha"),
iaa.AlphaElementwise((0.01, 0.99), iaa.Noop(),
name="AlphaElementwise"),
iaa.SimplexNoiseAlpha(iaa.Noop(), name="SimplexNoiseAlpha"),
iaa.FrequencyNoiseAlpha((-2.0, 2.0),
iaa.Noop(),
name="FrequencyNoiseAlpha")
]
augmenters_blur = [
iaa.GaussianBlur(sigma=(1.0, 5.0), name="GaussianBlur"),
iaa.AverageBlur(k=(3, 11), name="AverageBlur"),
iaa.MedianBlur(k=(3, 11), name="MedianBlur"),
iaa.BilateralBlur(d=(3, 11), name="BilateralBlur"),
iaa.MotionBlur(k=(3, 11), name="MotionBlur")
]
augmenters_color = [
# InColorspace (deprecated)
iaa.WithColorspace(to_colorspace="HSV",
children=iaa.Noop(),
name="WithColorspace"),
iaa.WithHueAndSaturation(children=iaa.Noop(),
name="WithHueAndSaturation"),
iaa.MultiplyHueAndSaturation((0.8, 1.2),
name="MultiplyHueAndSaturation"),
iaa.MultiplyHue((-1.0, 1.0), name="MultiplyHue"),
iaa.MultiplySaturation((0.8, 1.2), name="MultiplySaturation"),
iaa.AddToHueAndSaturation((-10, 10), name="AddToHueAndSaturation"),
iaa.AddToHue((-10, 10), name="AddToHue"),
iaa.AddToSaturation((-10, 10), name="AddToSaturation"),
iaa.ChangeColorspace(to_colorspace="HSV", name="ChangeColorspace"),
iaa.Grayscale((0.01, 0.99), name="Grayscale"),
iaa.KMeansColorQuantization((2, 16), name="KMeansColorQuantization"),
iaa.UniformColorQuantization((2, 16), name="UniformColorQuantization")
]
augmenters_contrast = [
iaa.GammaContrast(gamma=(0.5, 2.0), name="GammaContrast"),
iaa.SigmoidContrast(gain=(5, 20),
cutoff=(0.25, 0.75),
name="SigmoidContrast"),
iaa.LogContrast(gain=(0.7, 1.0), name="LogContrast"),
iaa.LinearContrast((0.5, 1.5), name="LinearContrast"),
iaa.AllChannelsCLAHE(clip_limit=(2, 10),
tile_grid_size_px=(3, 11),
name="AllChannelsCLAHE"),
iaa.CLAHE(clip_limit=(2, 10),
tile_grid_size_px=(3, 11),
to_colorspace="HSV",
name="CLAHE"),
iaa.AllChannelsHistogramEqualization(
name="AllChannelsHistogramEqualization"),
iaa.HistogramEqualization(to_colorspace="HSV",
name="HistogramEqualization"),
]
augmenters_convolutional = [
iaa.Convolve(np.float32([[0, 0, 0], [0, 1, 0], [0, 0, 0]]),
name="Convolve_3x3"),
iaa.Sharpen(alpha=(0.01, 0.99), lightness=(0.5, 2), name="Sharpen"),
iaa.Emboss(alpha=(0.01, 0.99), strength=(0, 2), name="Emboss"),
iaa.EdgeDetect(alpha=(0.01, 0.99), name="EdgeDetect"),
iaa.DirectedEdgeDetect(alpha=(0.01, 0.99), name="DirectedEdgeDetect")
]
augmenters_edges = [iaa.Canny(alpha=(0.01, 0.99), name="Canny")]
augmenters_flip = [
iaa.Fliplr(1.0, name="Fliplr"),
iaa.Flipud(1.0, name="Flipud")
]
augmenters_geometric = [
iaa.Affine(scale=(0.9, 1.1),
translate_percent={
"x": (-0.05, 0.05),
"y": (-0.05, 0.05)
},
rotate=(-10, 10),
shear=(-10, 10),
order=0,
mode="constant",
cval=(0, 255),
name="Affine_order_0_constant"),
iaa.Affine(scale=(0.9, 1.1),
translate_percent={
"x": (-0.05, 0.05),
"y": (-0.05, 0.05)
},
rotate=(-10, 10),
shear=(-10, 10),
order=1,
mode="constant",
cval=(0, 255),
name="Affine_order_1_constant"),
iaa.Affine(scale=(0.9, 1.1),
translate_percent={
"x": (-0.05, 0.05),
"y": (-0.05, 0.05)
},
rotate=(-10, 10),
shear=(-10, 10),
order=3,
mode="constant",
cval=(0, 255),
name="Affine_order_3_constant"),
iaa.Affine(scale=(0.9, 1.1),
translate_percent={
"x": (-0.05, 0.05),
"y": (-0.05, 0.05)
},
rotate=(-10, 10),
shear=(-10, 10),
order=1,
mode="edge",
cval=(0, 255),
name="Affine_order_1_edge"),
iaa.Affine(scale=(0.9, 1.1),
translate_percent={
"x": (-0.05, 0.05),
"y": (-0.05, 0.05)
},
rotate=(-10, 10),
shear=(-10, 10),
order=1,
mode="constant",
cval=(0, 255),
backend="skimage",
name="Affine_order_1_constant_skimage"),
# TODO AffineCv2
iaa.PiecewiseAffine(scale=(0.01, 0.05),
nb_rows=4,
nb_cols=4,
order=1,
mode="constant",
name="PiecewiseAffine_4x4_order_1_constant"),
iaa.PiecewiseAffine(scale=(0.01, 0.05),
nb_rows=4,
nb_cols=4,
order=0,
mode="constant",
name="PiecewiseAffine_4x4_order_0_constant"),
iaa.PiecewiseAffine(scale=(0.01, 0.05),
nb_rows=4,
nb_cols=4,
order=1,
mode="edge",
name="PiecewiseAffine_4x4_order_1_edge"),
iaa.PiecewiseAffine(scale=(0.01, 0.05),
nb_rows=8,
nb_cols=8,
order=1,
mode="constant",
name="PiecewiseAffine_8x8_order_1_constant"),
iaa.PerspectiveTransform(scale=(0.01, 0.05),
keep_size=False,
name="PerspectiveTransform"),
iaa.PerspectiveTransform(scale=(0.01, 0.05),
keep_size=True,
name="PerspectiveTransform_keep_size"),
iaa.ElasticTransformation(
alpha=(1, 10),
sigma=(0.5, 1.5),
order=0,
mode="constant",
cval=0,
name="ElasticTransformation_order_0_constant"),
iaa.ElasticTransformation(
alpha=(1, 10),
sigma=(0.5, 1.5),
order=1,
mode="constant",
cval=0,
name="ElasticTransformation_order_1_constant"),
iaa.ElasticTransformation(
alpha=(1, 10),
sigma=(0.5, 1.5),
order=1,
mode="nearest",
cval=0,
name="ElasticTransformation_order_1_nearest"),
iaa.ElasticTransformation(
alpha=(1, 10),
sigma=(0.5, 1.5),
order=1,
mode="reflect",
cval=0,
name="ElasticTransformation_order_1_reflect"),
iaa.Rot90((1, 3), keep_size=False, name="Rot90"),
iaa.Rot90((1, 3), keep_size=True, name="Rot90_keep_size")
]
augmenters_pooling = [
iaa.AveragePooling(kernel_size=(1, 16),
keep_size=False,
name="AveragePooling"),
iaa.AveragePooling(kernel_size=(1, 16),
keep_size=True,
name="AveragePooling_keep_size"),
iaa.MaxPooling(kernel_size=(1, 16), keep_size=False,
name="MaxPooling"),
iaa.MaxPooling(kernel_size=(1, 16),
keep_size=True,
name="MaxPooling_keep_size"),
iaa.MinPooling(kernel_size=(1, 16), keep_size=False,
name="MinPooling"),
iaa.MinPooling(kernel_size=(1, 16),
keep_size=True,
name="MinPooling_keep_size"),
iaa.MedianPooling(kernel_size=(1, 16),
keep_size=False,
name="MedianPooling"),
iaa.MedianPooling(kernel_size=(1, 16),
keep_size=True,
name="MedianPooling_keep_size")
]
augmenters_segmentation = [
iaa.Superpixels(p_replace=(0.05, 1.0),
n_segments=(10, 100),
max_size=64,
interpolation="cubic",
name="Superpixels_max_size_64_cubic"),
iaa.Superpixels(p_replace=(0.05, 1.0),
n_segments=(10, 100),
max_size=64,
interpolation="linear",
name="Superpixels_max_size_64_linear"),
iaa.Superpixels(p_replace=(0.05, 1.0),
n_segments=(10, 100),
max_size=128,
interpolation="linear",
name="Superpixels_max_size_128_linear"),
iaa.Superpixels(p_replace=(0.05, 1.0),
n_segments=(10, 100),
max_size=224,
interpolation="linear",
name="Superpixels_max_size_224_linear"),
iaa.UniformVoronoi(n_points=(250, 1000), name="UniformVoronoi"),
iaa.RegularGridVoronoi(n_rows=(16, 31),
n_cols=(16, 31),
name="RegularGridVoronoi"),
iaa.RelativeRegularGridVoronoi(n_rows_frac=(0.07, 0.14),
n_cols_frac=(0.07, 0.14),
name="RelativeRegularGridVoronoi"),
]
augmenters_size = [
iaa.Resize((0.8, 1.2), interpolation="nearest", name="Resize_nearest"),
iaa.Resize((0.8, 1.2), interpolation="linear", name="Resize_linear"),
iaa.Resize((0.8, 1.2), interpolation="cubic", name="Resize_cubic"),
iaa.CropAndPad(percent=(-0.2, 0.2),
pad_mode="constant",
pad_cval=(0, 255),
keep_size=False,
name="CropAndPad"),
iaa.CropAndPad(percent=(-0.2, 0.2),
pad_mode="edge",
pad_cval=(0, 255),
keep_size=False,
name="CropAndPad_edge"),
iaa.CropAndPad(percent=(-0.2, 0.2),
pad_mode="constant",
pad_cval=(0, 255),
name="CropAndPad_keep_size"),
iaa.Pad(percent=(0.05, 0.2),
pad_mode="constant",
pad_cval=(0, 255),
keep_size=False,
name="Pad"),
iaa.Pad(percent=(0.05, 0.2),
pad_mode="edge",
pad_cval=(0, 255),
keep_size=False,
name="Pad_edge"),
iaa.Pad(percent=(0.05, 0.2),
pad_mode="constant",
pad_cval=(0, 255),
name="Pad_keep_size"),
iaa.Crop(percent=(0.05, 0.2), keep_size=False, name="Crop"),
iaa.Crop(percent=(0.05, 0.2), name="Crop_keep_size"),
iaa.PadToFixedSize(width=width + 10,
height=height + 10,
pad_mode="constant",
pad_cval=(0, 255),
name="PadToFixedSize"),
iaa.CropToFixedSize(width=width - 10,
height=height - 10,
name="CropToFixedSize"),
iaa.KeepSizeByResize(iaa.CropToFixedSize(height=height - 10,
width=width - 10),
interpolation="nearest",
name="KeepSizeByResize_CropToFixedSize_nearest"),
iaa.KeepSizeByResize(iaa.CropToFixedSize(height=height - 10,
width=width - 10),
interpolation="linear",
name="KeepSizeByResize_CropToFixedSize_linear"),
iaa.KeepSizeByResize(iaa.CropToFixedSize(height=height - 10,
width=width - 10),
interpolation="cubic",
name="KeepSizeByResize_CropToFixedSize_cubic"),
]
augmenters_weather = [
iaa.FastSnowyLandscape(lightness_threshold=(100, 255),
lightness_multiplier=(1.0, 4.0),
name="FastSnowyLandscape"),
iaa.Clouds(name="Clouds"),
iaa.Fog(name="Fog"),
iaa.CloudLayer(intensity_mean=(196, 255),
intensity_freq_exponent=(-2.5, -2.0),
intensity_coarse_scale=10,
alpha_min=0,
alpha_multiplier=(0.25, 0.75),
alpha_size_px_max=(2, 8),
alpha_freq_exponent=(-2.5, -2.0),
sparsity=(0.8, 1.0),
density_multiplier=(0.5, 1.0),
name="CloudLayer"),
iaa.Snowflakes(name="Snowflakes"),
iaa.SnowflakesLayer(density=(0.005, 0.075),
density_uniformity=(0.3, 0.9),
flake_size=(0.2, 0.7),
flake_size_uniformity=(0.4, 0.8),
angle=(-30, 30),
speed=(0.007, 0.03),
blur_sigma_fraction=(0.0001, 0.001),
name="SnowflakesLayer")
]
augmenters = (augmenters_meta + augmenters_arithmetic + augmenters_blend +
augmenters_blur + augmenters_color + augmenters_contrast +
augmenters_convolutional + augmenters_edges +
augmenters_flip + augmenters_geometric + augmenters_pooling +
augmenters_segmentation + augmenters_size +
augmenters_weather)
if only_augmenters is not None:
augmenters_reduced = []
for augmenter in augmenters:
if any([
re.search(pattern, augmenter.name)
for pattern in only_augmenters
]):
augmenters_reduced.append(augmenter)
augmenters = augmenters_reduced
return augmenters
elif augmentation == 'canny':
transform = iaa.Canny(alpha=(0.0, 0.9))
transformed_image = transform(image=image)
## Pooling
elif augmentation == 'average_pooling':
transform = iaa.AveragePooling(5)
transformed_image = transform(image=image)
elif augmentation == 'max_pooling':
transform = iaa.MaxPooling(5)
transformed_image = transform(image=image)
elif augmentation == 'min_pooling':
transform = iaa.MinPooling(5)
transformed_image = transform(image=image)
elif augmentation == 'median_pooling':
transform = iaa.MedianPooling(5)
transformed_image = transform(image=image)
## Segmentation
elif augmentation == 'superpixels':
transform = iaa.Superpixels(p_replace=0.5, n_segments=512)
transformed_image = transform(image=image)
elif augmentation == 'voronoi':
points_sampler = iaa.RegularGridPointsSampler(n_cols=20, n_rows=40)
transform = iaa.Voronoi(points_sampler)
iaa.Flipud(0.5),
]),
iaa.OneOf([
iaa.AverageBlur(k=(2, 6)),
iaa.GaussianBlur(sigma=(0.0, 2.0)),
iaa.Sharpen(alpha=(0.0, 0.8), lightness=(0.8, 1.2)),
]),
iaa.OneOf([
iaa.imgcorruptlike.GaussianNoise(severity=random.randint(1, 3)),
iaa.imgcorruptlike.ImpulseNoise(severity=random.randint(1, 3)),
iaa.imgcorruptlike.ElasticTransform(severity=random.randint(1, 3)),
]),
iaa.OneOf([
iaa.AveragePooling(2),
iaa.MaxPooling(2),
iaa.MinPooling(2),
]),
iaa.OneOf([
iaa.pillike.Equalize(),
iaa.pillike.Autocontrast(),
iaa.pillike.FilterSmooth(),
]),
])
start_path = os.path.abspath(
f'.{os.path.sep}Dataset{os.path.sep}train_augmented')
os.chdir(start_path)
# folder names (classes)
classes = [
"Bread", "Dairy_product", "Dessert", "Egg", "Fried_food", "Meat",
