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augment.py
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augment.py
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from PIL import Image, ImageEnhance, ImageOps
import numpy as np
import random
# Non-random random
random.seed(0)
class BasicPolicy(object):
def __init__(self, mirror_ratio = 0, flip_ratio = 0, color_change_ratio = 0, is_full_set_colors = False, add_noise_peak = 0.0, erase_ratio = -1.0):
# Random color channel order
from itertools import product, permutations
self.indices = list(product([0,1,2], repeat = 3)) if is_full_set_colors else list(permutations(range(3), 3))
self.indices.insert(0, [0,1,2]) # R,G,B
self.add_noise_peak = add_noise_peak
# Mirror and flip
self.color_change_ratio = color_change_ratio
self.mirror_ratio = mirror_ratio
self.flip_ratio = flip_ratio
# Erase
self.erase_ratio = erase_ratio
def __call__(self, img, depth):
# 0) Add poisson noise (e.g. choose peak value 20)
# https://stackoverflow.com/questions/19289470/adding-poisson-noise-to-an-image
if self.add_noise_peak > 0:
PEAK = self.add_noise_peak
img = np.random.poisson(np.clip(img, 0, 1) * PEAK) / PEAK
# 1) Color change
policy_idx = random.randint(0, len(self.indices) - 1)
if random.uniform(0, 1) >= self.color_change_ratio:
policy_idx = 0
img = img[...,list(self.indices[policy_idx])]
# 2) Mirror image
if random.uniform(0, 1) <= self.mirror_ratio:
img = img[...,::-1,:]
depth = depth[...,::-1,:]
# 3) Flip image vertically
if random.uniform(0, 1) < self.flip_ratio:
img = img[...,::-1,:,:]
depth = depth[...,::-1,:,:]
# 4) Erase random box
if random.uniform(0, 1) < self.erase_ratio:
img = self.eraser(img)
return img, depth
def __repr__(self):
return "Basic Policy"
def eraser(self, input_img, p=0.5, s_l=0.02, s_h=0.4, r_1=0.3, r_2=1/0.3, v_l=0, v_h=255, pixel_level=True):
img_h, img_w, img_c = input_img.shape
p_1 = np.random.rand()
if p_1 > p:
return input_img
while True:
s = np.random.uniform(s_l, s_h) * img_h * img_w
r = np.random.uniform(r_1, r_2)
w = int(np.sqrt(s / r))
h = int(np.sqrt(s * r))
left = np.random.randint(0, img_w)
top = np.random.randint(0, img_h)
if left + w <= img_w and top + h <= img_h:
break
if pixel_level:
c = np.random.uniform(v_l, v_h, (h, w, img_c))
else:
c = np.random.uniform(v_l, v_h)
input_img[top:top + h, left:left + w, :] = c
return input_img
def debug_img(self, img, depth, idx, i, prefix=''):
from PIL import Image
aug_img = Image.fromarray(np.clip(np.uint8(img*255), 0, 255))
aug_img.save(prefix+str(idx)+"_"+str(i)+'.jpg',quality=99)
aug_img = Image.fromarray(np.clip(np.uint8(np.tile(depth*255,3)), 0, 255))
aug_img.save(prefix+str(idx)+"_"+str(i)+'.depth.jpg',quality=99)
#
# Original code at https://github.com/DeepVoltaire/AutoAugment
#
class ImageNetPolicy(object):
""" Randomly choose one of the best 24 Sub-policies on ImageNet.
Example:
>>> policy = ImageNetPolicy()
>>> transformed = policy(image)
Example as a PyTorch Transform:
>>> transform=transforms.Compose([
>>> transforms.Resize(256),
>>> ImageNetPolicy(),
>>> transforms.ToTensor()])
"""
def __init__(self, fillcolor=(128, 128, 128)):
self.policies = [
SubPolicy(0.4, "posterize", 8, 0.6, "rotate", 9, fillcolor),
SubPolicy(0.6, "solarize", 5, 0.6, "autocontrast", 5, fillcolor),
SubPolicy(0.8, "equalize", 8, 0.6, "equalize", 3, fillcolor),
SubPolicy(0.6, "posterize", 7, 0.6, "posterize", 6, fillcolor),
SubPolicy(0.4, "equalize", 7, 0.2, "solarize", 4, fillcolor),
SubPolicy(0.4, "equalize", 4, 0.8, "rotate", 8, fillcolor),
SubPolicy(0.6, "solarize", 3, 0.6, "equalize", 7, fillcolor),
SubPolicy(0.8, "posterize", 5, 1.0, "equalize", 2, fillcolor),
SubPolicy(0.2, "rotate", 3, 0.6, "solarize", 8, fillcolor),
SubPolicy(0.6, "equalize", 8, 0.4, "posterize", 6, fillcolor),
SubPolicy(0.8, "rotate", 8, 0.4, "color", 0, fillcolor),
SubPolicy(0.4, "rotate", 9, 0.6, "equalize", 2, fillcolor),
SubPolicy(0.0, "equalize", 7, 0.8, "equalize", 8, fillcolor),
SubPolicy(0.6, "invert", 4, 1.0, "equalize", 8, fillcolor),
SubPolicy(0.6, "color", 4, 1.0, "contrast", 8, fillcolor),
SubPolicy(0.8, "rotate", 8, 1.0, "color", 2, fillcolor),
SubPolicy(0.8, "color", 8, 0.8, "solarize", 7, fillcolor),
SubPolicy(0.4, "sharpness", 7, 0.6, "invert", 8, fillcolor),
SubPolicy(0.6, "shearX", 5, 1.0, "equalize", 9, fillcolor),
SubPolicy(0.4, "color", 0, 0.6, "equalize", 3, fillcolor),
SubPolicy(0.4, "equalize", 7, 0.2, "solarize", 4, fillcolor),
SubPolicy(0.6, "solarize", 5, 0.6, "autocontrast", 5, fillcolor),
SubPolicy(0.6, "invert", 4, 1.0, "equalize", 8, fillcolor),
SubPolicy(0.6, "color", 4, 1.0, "contrast", 8, fillcolor)
]
def __call__(self, img):
policy_idx = random.randint(0, len(self.policies) - 1)
return self.policies[policy_idx](img)
def __repr__(self):
return "AutoAugment ImageNet Policy"
class SubPolicy(object):
def __init__(self, p1, operation1, magnitude_idx1, p2, operation2, magnitude_idx2, fillcolor=(128, 128, 128)):
ranges = {
"shearX": np.linspace(0, 0.3, 10),
"shearY": np.linspace(0, 0.3, 10),
"translateX": np.linspace(0, 150 / 331, 10),
"translateY": np.linspace(0, 150 / 331, 10),
"rotate": np.linspace(0, 30, 10),
"color": np.linspace(0.0, 0.9, 10),
"posterize": np.round(np.linspace(8, 4, 10), 0).astype(np.int),
"solarize": np.linspace(256, 0, 10),
"contrast": np.linspace(0.0, 0.9, 10),
"sharpness": np.linspace(0.0, 0.9, 10),
"brightness": np.linspace(0.0, 0.9, 10),
"autocontrast": [0] * 10,
"equalize": [0] * 10,
"invert": [0] * 10
}
# from https://stackoverflow.com/questions/5252170/specify-image-filling-color-when-rotating-in-python-with-pil-and-setting-expand
def rotate_with_fill(img, magnitude):
rot = img.convert("RGBA").rotate(magnitude)
return Image.composite(rot, Image.new("RGBA", rot.size, (128,) * 4), rot).convert(img.mode)
func = {
"shearX": lambda img, magnitude: img.transform(
img.size, Image.AFFINE, (1, magnitude * random.choice([-1, 1]), 0, 0, 1, 0),
Image.BICUBIC, fillcolor=fillcolor),
"shearY": lambda img, magnitude: img.transform(
img.size, Image.AFFINE, (1, 0, 0, magnitude * random.choice([-1, 1]), 1, 0),
Image.BICUBIC, fillcolor=fillcolor),
"translateX": lambda img, magnitude: img.transform(
img.size, Image.AFFINE, (1, 0, magnitude * img.size[0] * random.choice([-1, 1]), 0, 1, 0),
fillcolor=fillcolor),
"translateY": lambda img, magnitude: img.transform(
img.size, Image.AFFINE, (1, 0, 0, 0, 1, magnitude * img.size[1] * random.choice([-1, 1])),
fillcolor=fillcolor),
#"rotate": lambda img, magnitude: rotate_with_fill(img, magnitude),
# "rotate": lambda img, magnitude: img.rotate(magnitude * random.choice([-1, 1])),
"rotate": lambda img, magnitude: img,
"color": lambda img, magnitude: ImageEnhance.Color(img).enhance(1 + magnitude * random.choice([-1, 1])),
"posterize": lambda img, magnitude: ImageOps.posterize(img, magnitude),
"solarize": lambda img, magnitude: ImageOps.solarize(img, magnitude),
"contrast": lambda img, magnitude: ImageEnhance.Contrast(img).enhance(
1 + magnitude * random.choice([-1, 1])),
"sharpness": lambda img, magnitude: ImageEnhance.Sharpness(img).enhance(
1 + magnitude * random.choice([-1, 1])),
"brightness": lambda img, magnitude: ImageEnhance.Brightness(img).enhance(
1 + magnitude * random.choice([-1, 1])),
"autocontrast": lambda img, magnitude: ImageOps.autocontrast(img),
"equalize": lambda img, magnitude: ImageOps.equalize(img),
"invert": lambda img, magnitude: ImageOps.invert(img)
}
# self.name = "{}_{:.2f}_and_{}_{:.2f}".format(
# operation1, ranges[operation1][magnitude_idx1],
# operation2, ranges[operation2][magnitude_idx2])
self.p1 = p1
self.operation1 = func[operation1]
self.magnitude1 = ranges[operation1][magnitude_idx1]
self.p2 = p2
self.operation2 = func[operation2]
self.magnitude2 = ranges[operation2][magnitude_idx2]
def __call__(self, img):
if random.random() < self.p1: img = self.operation1(img, self.magnitude1)
if random.random() < self.p2: img = self.operation2(img, self.magnitude2)
return img