ML/Pytorch/others/default_setups/CV%20-%20Image%20Classification/augmentations.py

import random
import PIL, PIL.ImageOps, PIL.ImageEnhance, PIL.ImageDraw
import numpy as np
import torch
from PIL import Image

def ShearX(img, v):  # [-0.3, 0.3]
    assert -0.3 <= v <= 0.3
    if random.random() > 0.5:
        v = -v
    return img.transform(img.size, PIL.Image.AFFINE, (1, v, 0, 0, 1, 0))


def ShearY(img, v):  # [-0.3, 0.3]
    assert -0.3 <= v <= 0.3
    if random.random() > 0.5:
        v = -v
    return img.transform(img.size, PIL.Image.AFFINE, (1, 0, 0, v, 1, 0))


def TranslateX(img, v):  # [-150, 150] => percentage: [-0.45, 0.45]
    assert -0.45 <= v <= 0.45
    if random.random() > 0.5:
        v = -v
    v = v * img.size[0]
    return img.transform(img.size, PIL.Image.AFFINE, (1, 0, v, 0, 1, 0))


def TranslateXabs(img, v):  # [-150, 150] => percentage: [-0.45, 0.45]
    assert 0 <= v
    if random.random() > 0.5:
        v = -v
    return img.transform(img.size, PIL.Image.AFFINE, (1, 0, v, 0, 1, 0))


def TranslateY(img, v):  # [-150, 150] => percentage: [-0.45, 0.45]
    assert -0.45 <= v <= 0.45
    if random.random() > 0.5:
        v = -v
    v = v * img.size[1]
    return img.transform(img.size, PIL.Image.AFFINE, (1, 0, 0, 0, 1, v))


def TranslateYabs(img, v):  # [-150, 150] => percentage: [-0.45, 0.45]
    assert 0 <= v
    if random.random() > 0.5:
        v = -v
    return img.transform(img.size, PIL.Image.AFFINE, (1, 0, 0, 0, 1, v))


def Rotate(img, v):  # [-30, 30]
    assert -30 <= v <= 30
    if random.random() > 0.5:
        v = -v
    return img.rotate(v)


def AutoContrast(img, _):
    return PIL.ImageOps.autocontrast(img)


def Invert(img, _):
    return PIL.ImageOps.invert(img)


def Equalize(img, _):
    return PIL.ImageOps.equalize(img)


def Flip(img, _):  # not from the paper
    return PIL.ImageOps.mirror(img)


def Solarize(img, v):  # [0, 256]
    assert 0 <= v <= 256
    return PIL.ImageOps.solarize(img, v)


def SolarizeAdd(img, addition=0, threshold=128):
    img_np = np.array(img).astype(np.int)
    img_np = img_np + addition
    img_np = np.clip(img_np, 0, 255)
    img_np = img_np.astype(np.uint8)
    img = Image.fromarray(img_np)
    return PIL.ImageOps.solarize(img, threshold)


def Posterize(img, v):  # [4, 8]
    v = int(v)
    v = max(1, v)
    return PIL.ImageOps.posterize(img, v)


def Contrast(img, v):  # [0.1,1.9]
    assert 0.1 <= v <= 1.9
    return PIL.ImageEnhance.Contrast(img).enhance(v)


def Color(img, v):  # [0.1,1.9]
    assert 0.1 <= v <= 1.9
    return PIL.ImageEnhance.Color(img).enhance(v)


def Brightness(img, v):  # [0.1,1.9]
    assert 0.1 <= v <= 1.9
    return PIL.ImageEnhance.Brightness(img).enhance(v)


def Sharpness(img, v):  # [0.1,1.9]
    assert 0.1 <= v <= 1.9
    return PIL.ImageEnhance.Sharpness(img).enhance(v)


def Cutout(img, v):  # [0, 60] => percentage: [0, 0.2]
    assert 0.0 <= v <= 0.2
    if v <= 0.:
        return img

    v = v * img.size[0]
    return CutoutAbs(img, v)


def CutoutAbs(img, v):  # [0, 60] => percentage: [0, 0.2]
    # assert 0 <= v <= 20
    if v < 0:
        return img
    w, h = img.size
    x0 = np.random.uniform(w)
    y0 = np.random.uniform(h)

    x0 = int(max(0, x0 - v / 2.))
    y0 = int(max(0, y0 - v / 2.))
    x1 = min(w, x0 + v)
    y1 = min(h, y0 + v)

    xy = (x0, y0, x1, y1)
    color = (125, 123, 114)
    # color = (0, 0, 0)
    img = img.copy()
    PIL.ImageDraw.Draw(img).rectangle(xy, color)
    return img


def SamplePairing(imgs):  # [0, 0.4]
    def f(img1, v):
        i = np.random.choice(len(imgs))
        img2 = PIL.Image.fromarray(imgs[i])
        return PIL.Image.blend(img1, img2, v)
    return f


def Identity(img, v):
    return img

def augment_list():
    l = [
        (AutoContrast, 0, 1),
        (Equalize, 0, 1),
        (Invert, 0, 1),
        (Rotate, 0, 30),
        (Posterize, 0, 4),
        (Solarize, 0, 256),
        (SolarizeAdd, 0, 110),
        (Color, 0.1, 1.9),
        (Contrast, 0.1, 1.9),
        (Brightness, 0.1, 1.9),
        (Sharpness, 0.1, 1.9),
        (ShearX, 0., 0.3),
        (ShearY, 0., 0.3),
        (CutoutAbs, 0, 40),
        (TranslateXabs, 0., 100),
        (TranslateYabs, 0., 100),
    ]

    return l

class RandAugment:
    def __init__(self, n, m):
        self.n = n
        self.m = m      # [0, 30]
        self.augment_list = augment_list()

    def __call__(self, img):
        ops = random.choices(self.augment_list, k=self.n)
        for op, minval, maxval in ops:
            val = (float(self.m) / 30) * float(maxval - minval) + minval
            img = op(img, val)

        return img
Initial commit 2021-01-30 21:49:15 +01:00			`import random`
			`import PIL, PIL.ImageOps, PIL.ImageEnhance, PIL.ImageDraw`
			`import numpy as np`
			`import torch`
			`from PIL import Image`

			`def ShearX(img, v): # [-0.3, 0.3]`
			`assert -0.3 <= v <= 0.3`
			`if random.random() > 0.5:`
			`v = -v`
			`return img.transform(img.size, PIL.Image.AFFINE, (1, v, 0, 0, 1, 0))`


			`def ShearY(img, v): # [-0.3, 0.3]`
			`assert -0.3 <= v <= 0.3`
			`if random.random() > 0.5:`
			`v = -v`
			`return img.transform(img.size, PIL.Image.AFFINE, (1, 0, 0, v, 1, 0))`


			`def TranslateX(img, v): # [-150, 150] => percentage: [-0.45, 0.45]`
			`assert -0.45 <= v <= 0.45`
			`if random.random() > 0.5:`
			`v = -v`
			`v = v * img.size[0]`
			`return img.transform(img.size, PIL.Image.AFFINE, (1, 0, v, 0, 1, 0))`


			`def TranslateXabs(img, v): # [-150, 150] => percentage: [-0.45, 0.45]`
			`assert 0 <= v`
			`if random.random() > 0.5:`
			`v = -v`
			`return img.transform(img.size, PIL.Image.AFFINE, (1, 0, v, 0, 1, 0))`


			`def TranslateY(img, v): # [-150, 150] => percentage: [-0.45, 0.45]`
			`assert -0.45 <= v <= 0.45`
			`if random.random() > 0.5:`
			`v = -v`
			`v = v * img.size[1]`
			`return img.transform(img.size, PIL.Image.AFFINE, (1, 0, 0, 0, 1, v))`


			`def TranslateYabs(img, v): # [-150, 150] => percentage: [-0.45, 0.45]`
			`assert 0 <= v`
			`if random.random() > 0.5:`
			`v = -v`
			`return img.transform(img.size, PIL.Image.AFFINE, (1, 0, 0, 0, 1, v))`


			`def Rotate(img, v): # [-30, 30]`
			`assert -30 <= v <= 30`
			`if random.random() > 0.5:`
			`v = -v`
			`return img.rotate(v)`


			`def AutoContrast(img, _):`
			`return PIL.ImageOps.autocontrast(img)`


			`def Invert(img, _):`
			`return PIL.ImageOps.invert(img)`


			`def Equalize(img, _):`
			`return PIL.ImageOps.equalize(img)`


			`def Flip(img, _): # not from the paper`
			`return PIL.ImageOps.mirror(img)`


			`def Solarize(img, v): # [0, 256]`
			`assert 0 <= v <= 256`
			`return PIL.ImageOps.solarize(img, v)`


			`def SolarizeAdd(img, addition=0, threshold=128):`
			`img_np = np.array(img).astype(np.int)`
			`img_np = img_np + addition`
			`img_np = np.clip(img_np, 0, 255)`
			`img_np = img_np.astype(np.uint8)`
			`img = Image.fromarray(img_np)`
			`return PIL.ImageOps.solarize(img, threshold)`


			`def Posterize(img, v): # [4, 8]`
			`v = int(v)`
			`v = max(1, v)`
			`return PIL.ImageOps.posterize(img, v)`


			`def Contrast(img, v): # [0.1,1.9]`
			`assert 0.1 <= v <= 1.9`
			`return PIL.ImageEnhance.Contrast(img).enhance(v)`


			`def Color(img, v): # [0.1,1.9]`
			`assert 0.1 <= v <= 1.9`
			`return PIL.ImageEnhance.Color(img).enhance(v)`


			`def Brightness(img, v): # [0.1,1.9]`
			`assert 0.1 <= v <= 1.9`
			`return PIL.ImageEnhance.Brightness(img).enhance(v)`


			`def Sharpness(img, v): # [0.1,1.9]`
			`assert 0.1 <= v <= 1.9`
			`return PIL.ImageEnhance.Sharpness(img).enhance(v)`


			`def Cutout(img, v): # [0, 60] => percentage: [0, 0.2]`
			`assert 0.0 <= v <= 0.2`
			`if v <= 0.:`
			`return img`

			`v = v * img.size[0]`
			`return CutoutAbs(img, v)`


			`def CutoutAbs(img, v): # [0, 60] => percentage: [0, 0.2]`
			`# assert 0 <= v <= 20`
			`if v < 0:`
			`return img`
			`w, h = img.size`
			`x0 = np.random.uniform(w)`
			`y0 = np.random.uniform(h)`

			`x0 = int(max(0, x0 - v / 2.))`
			`y0 = int(max(0, y0 - v / 2.))`
			`x1 = min(w, x0 + v)`
			`y1 = min(h, y0 + v)`

			`xy = (x0, y0, x1, y1)`
			`color = (125, 123, 114)`
			`# color = (0, 0, 0)`
			`img = img.copy()`
			`PIL.ImageDraw.Draw(img).rectangle(xy, color)`
			`return img`


			`def SamplePairing(imgs): # [0, 0.4]`
			`def f(img1, v):`
			`i = np.random.choice(len(imgs))`
			`img2 = PIL.Image.fromarray(imgs[i])`
			`return PIL.Image.blend(img1, img2, v)`
			`return f`


			`def Identity(img, v):`
			`return img`

			`def augment_list():`
			`l = [`
			`(AutoContrast, 0, 1),`
			`(Equalize, 0, 1),`
			`(Invert, 0, 1),`
			`(Rotate, 0, 30),`
			`(Posterize, 0, 4),`
			`(Solarize, 0, 256),`
			`(SolarizeAdd, 0, 110),`
			`(Color, 0.1, 1.9),`
			`(Contrast, 0.1, 1.9),`
			`(Brightness, 0.1, 1.9),`
			`(Sharpness, 0.1, 1.9),`
			`(ShearX, 0., 0.3),`
			`(ShearY, 0., 0.3),`
			`(CutoutAbs, 0, 40),`
			`(TranslateXabs, 0., 100),`
			`(TranslateYabs, 0., 100),`
			`]`

			`return l`

			`class RandAugment:`
			`def __init__(self, n, m):`
			`self.n = n`
			`self.m = m # [0, 30]`
			`self.augment_list = augment_list()`

			`def __call__(self, img):`
			`ops = random.choices(self.augment_list, k=self.n)`
			`for op, minval, maxval in ops:`
			`val = (float(self.m) / 30) * float(maxval - minval) + minval`
			`img = op(img, val)`

			`return img`