import random from PIL import Image, ImageEnhance import numpy as np import cv2 def refine_foreground(image, mask, r=90): if mask.size != image.size: mask = mask.resize(image.size) image = np.array(image) / 255.0 mask = np.array(mask) / 255.0 estimated_foreground = FB_blur_fusion_foreground_estimator_2(image, mask, r=r) image_masked = Image.fromarray((estimated_foreground * 255.0).astype(np.uint8)) return image_masked def FB_blur_fusion_foreground_estimator_2(image, alpha, r=90): # Thanks to the source: https://github.com/Photoroom/fast-foreground-estimation alpha = alpha[:, :, None] F, blur_B = FB_blur_fusion_foreground_estimator( image, image, image, alpha, r) return FB_blur_fusion_foreground_estimator(image, F, blur_B, alpha, r=6)[0] def FB_blur_fusion_foreground_estimator(image, F, B, alpha, r=90): if isinstance(image, Image.Image): image = np.array(image) / 255.0 blurred_alpha = cv2.blur(alpha, (r, r))[:, :, None] blurred_FA = cv2.blur(F * alpha, (r, r)) blurred_F = blurred_FA / (blurred_alpha + 1e-5) blurred_B1A = cv2.blur(B * (1 - alpha), (r, r)) blurred_B = blurred_B1A / ((1 - blurred_alpha) + 1e-5) F = blurred_F + alpha * \ (image - alpha * blurred_F - (1 - alpha) * blurred_B) F = np.clip(F, 0, 1) return F, blurred_B def preproc(image, label, preproc_methods=['flip']): if 'flip' in preproc_methods: image, label = cv_random_flip(image, label) if 'crop' in preproc_methods: image, label = random_crop(image, label) if 'rotate' in preproc_methods: image, label = random_rotate(image, label) if 'enhance' in preproc_methods: image = color_enhance(image) if 'pepper' in preproc_methods: image = random_pepper(image) return image, label def cv_random_flip(img, label): if random.random() > 0.5: img = img.transpose(Image.FLIP_LEFT_RIGHT) label = label.transpose(Image.FLIP_LEFT_RIGHT) return img, label def random_crop(image, label): border = 30 image_width = image.size[0] image_height = image.size[1] border = int(min(image_width, image_height) * 0.1) crop_win_width = np.random.randint(image_width - border, image_width) crop_win_height = np.random.randint(image_height - border, image_height) random_region = ( (image_width - crop_win_width) >> 1, (image_height - crop_win_height) >> 1, (image_width + crop_win_width) >> 1, (image_height + crop_win_height) >> 1) return image.crop(random_region), label.crop(random_region) def random_rotate(image, label, angle=15): mode = Image.BICUBIC if random.random() > 0.8: random_angle = np.random.randint(-angle, angle) image = image.rotate(random_angle, mode) label = label.rotate(random_angle, mode) return image, label def color_enhance(image): bright_intensity = random.randint(5, 15) / 10.0 image = ImageEnhance.Brightness(image).enhance(bright_intensity) contrast_intensity = random.randint(5, 15) / 10.0 image = ImageEnhance.Contrast(image).enhance(contrast_intensity) color_intensity = random.randint(0, 20) / 10.0 image = ImageEnhance.Color(image).enhance(color_intensity) sharp_intensity = random.randint(0, 30) / 10.0 image = ImageEnhance.Sharpness(image).enhance(sharp_intensity) return image def random_gaussian(image, mean=0.1, sigma=0.35): def gaussianNoisy(im, mean=mean, sigma=sigma): for _i in range(len(im)): im[_i] += random.gauss(mean, sigma) return im img = np.asarray(image) width, height = img.shape img = gaussianNoisy(img[:].flatten(), mean, sigma) img = img.reshape([width, height]) return Image.fromarray(np.uint8(img)) def random_pepper(img, N=0.0015): img = np.array(img) noiseNum = int(N * img.shape[0] * img.shape[1]) for i in range(noiseNum): randX = random.randint(0, img.shape[0] - 1) randY = random.randint(0, img.shape[1] - 1) img[randX, randY] = random.randint(0, 1) * 255 return Image.fromarray(img)