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AgeGuesser / yolov5 /utils /augmentations.py

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	# YOLOv5 🚀 by Ultralytics, GPL-3.0 license
	"""
	Image augmentation functions
	"""

	import random

	import cv2
	import numpy as np

	from .metrics import bbox_ioa


	def augment_hsv(im, hgain=0.5, sgain=0.5, vgain=0.5):
	# HSV color-space augmentation
	if hgain or sgain or vgain:
	r = np.random.uniform(-1, 1, 3) * [hgain, sgain, vgain] + 1 # random gains
	hue, sat, val = cv2.split(cv2.cvtColor(im, cv2.COLOR_BGR2HSV))
	dtype = im.dtype # uint8

	x = np.arange(0, 256, dtype=r.dtype)
	lut_hue = ((x * r[0]) % 180).astype(dtype)
	lut_sat = np.clip(x * r[1], 0, 255).astype(dtype)
	lut_val = np.clip(x * r[2], 0, 255).astype(dtype)

	im_hsv = cv2.merge((cv2.LUT(hue, lut_hue), cv2.LUT(sat, lut_sat), cv2.LUT(val, lut_val)))
	cv2.cvtColor(im_hsv, cv2.COLOR_HSV2BGR, dst=im) # no return needed


	def hist_equalize(im, clahe=True, bgr=False):
	# Equalize histogram on BGR image 'im' with im.shape(n,m,3) and range 0-255
	yuv = cv2.cvtColor(im, cv2.COLOR_BGR2YUV if bgr else cv2.COLOR_RGB2YUV)
	if clahe:
	c = cv2.createCLAHE(clipLimit=2.0, tileGridSize=(8, 8))
	yuv[:, :, 0] = c.apply(yuv[:, :, 0])
	else:
	yuv[:, :, 0] = cv2.equalizeHist(yuv[:, :, 0]) # equalize Y channel histogram
	return cv2.cvtColor(yuv, cv2.COLOR_YUV2BGR if bgr else cv2.COLOR_YUV2RGB) # convert YUV image to RGB


	def replicate(im, labels):
	# Replicate labels
	h, w = im.shape[:2]
	boxes = labels[:, 1:].astype(int)
	x1, y1, x2, y2 = boxes.T
	s = ((x2 - x1) + (y2 - y1)) / 2 # side length (pixels)
	for i in s.argsort()[:round(s.size * 0.5)]: # smallest indices
	x1b, y1b, x2b, y2b = boxes[i]
	bh, bw = y2b - y1b, x2b - x1b
	yc, xc = int(random.uniform(0, h - bh)), int(random.uniform(0, w - bw)) # offset x, y
	x1a, y1a, x2a, y2a = [xc, yc, xc + bw, yc + bh]
	im[y1a:y2a, x1a:x2a] = im[y1b:y2b, x1b:x2b] # im4[ymin:ymax, xmin:xmax]
	labels = np.append(labels, [[labels[i, 0], x1a, y1a, x2a, y2a]], axis=0)

	return im, labels


	def letterbox(im, new_shape=(640, 640), color=(114, 114, 114), auto=True, scaleFill=False, scaleup=True, stride=32):
	# Resize and pad image while meeting stride-multiple constraints
	shape = im.shape[:2] # current shape [height, width]
	if isinstance(new_shape, int):
	new_shape = (new_shape, new_shape)

	# Scale ratio (new / old)
	r = min(new_shape[0] / shape[0], new_shape[1] / shape[1])
	if not scaleup: # only scale down, do not scale up (for better val mAP)
	r = min(r, 1.0)

	# Compute padding
	ratio = r, r # width, height ratios
	new_unpad = int(round(shape[1] * r)), int(round(shape[0] * r))
	dw, dh = new_shape[1] - new_unpad[0], new_shape[0] - new_unpad[1] # wh padding
	if auto: # minimum rectangle
	dw, dh = np.mod(dw, stride), np.mod(dh, stride) # wh padding
	elif scaleFill: # stretch
	dw, dh = 0.0, 0.0
	new_unpad = (new_shape[1], new_shape[0])
	ratio = new_shape[1] / shape[1], new_shape[0] / shape[0] # width, height ratios

	dw /= 2 # divide padding into 2 sides
	dh /= 2

	if shape[::-1] != new_unpad: # resize
	im = cv2.resize(im, new_unpad, interpolation=cv2.INTER_LINEAR)
	top, bottom = int(round(dh - 0.1)), int(round(dh + 0.1))
	left, right = int(round(dw - 0.1)), int(round(dw + 0.1))
	im = cv2.copyMakeBorder(im, top, bottom, left, right, cv2.BORDER_CONSTANT, value=color) # add border
	return im, ratio, (dw, dh)


	def copy_paste(im, labels, segments, p=0.5):
	# Implement Copy-Paste augmentation https://arxiv.org/abs/2012.07177, labels as nx5 np.array(cls, xyxy)
	n = len(segments)
	if p and n:
	h, w, c = im.shape # height, width, channels
	im_new = np.zeros(im.shape, np.uint8)
	for j in random.sample(range(n), k=round(p * n)):
	l, s = labels[j], segments[j]
	box = w - l[3], l[2], w - l[1], l[4]
	ioa = bbox_ioa(box, labels[:, 1:5]) # intersection over area
	if (ioa < 0.30).all(): # allow 30% obscuration of existing labels
	labels = np.concatenate((labels, [[l[0], *box]]), 0)
	segments.append(np.concatenate((w - s[:, 0:1], s[:, 1:2]), 1))
	cv2.drawContours(im_new, [segments[j].astype(np.int32)], -1, (255, 255, 255), cv2.FILLED)

	result = cv2.bitwise_and(src1=im, src2=im_new)
	result = cv2.flip(result, 1) # augment segments (flip left-right)
	i = result > 0 # pixels to replace
	# i[:, :] = result.max(2).reshape(h, w, 1) # act over ch
	im[i] = result[i] # cv2.imwrite('debug.jpg', im) # debug

	return im, labels, segments


	def cutout(im, labels, p=0.5):
	# Applies image cutout augmentation https://arxiv.org/abs/1708.04552
	if random.random() < p:
	h, w = im.shape[:2]
	scales = [0.5] * 1 + [0.25] * 2 + [0.125] * 4 + [0.0625] * 8 + [0.03125] * 16 # image size fraction
	for s in scales:
	mask_h = random.randint(1, int(h * s)) # create random masks
	mask_w = random.randint(1, int(w * s))

	# box
	xmin = max(0, random.randint(0, w) - mask_w // 2)
	ymin = max(0, random.randint(0, h) - mask_h // 2)
	xmax = min(w, xmin + mask_w)
	ymax = min(h, ymin + mask_h)

	# apply random color mask
	im[ymin:ymax, xmin:xmax] = [random.randint(64, 191) for _ in range(3)]

	# return unobscured labels
	if len(labels) and s > 0.03:
	box = np.array([xmin, ymin, xmax, ymax], dtype=np.float32)
	ioa = bbox_ioa(box, labels[:, 1:5]) # intersection over area
	labels = labels[ioa < 0.60] # remove >60% obscured labels

	return labels


	def mixup(im, labels, im2, labels2):
	# Applies MixUp augmentation https://arxiv.org/pdf/1710.09412.pdf
	r = np.random.beta(32.0, 32.0) # mixup ratio, alpha=beta=32.0
	im = (im * r + im2 * (1 - r)).astype(np.uint8)
	labels = np.concatenate((labels, labels2), 0)
	return im, labels


	def box_candidates(box1, box2, wh_thr=2, ar_thr=100, area_thr=0.1, eps=1e-16): # box1(4,n), box2(4,n)
	# Compute candidate boxes: box1 before augment, box2 after augment, wh_thr (pixels), aspect_ratio_thr, area_ratio
	w1, h1 = box1[2] - box1[0], box1[3] - box1[1]
	w2, h2 = box2[2] - box2[0], box2[3] - box2[1]
	ar = np.maximum(w2 / (h2 + eps), h2 / (w2 + eps)) # aspect ratio
	return (w2 > wh_thr) & (h2 > wh_thr) & (w2 * h2 / (w1 * h1 + eps) > area_thr) & (ar < ar_thr) # candidates