「图像 merge」无中生有制造数据

在进行一个新项目的时候，往往缺少一些真实数据，导致没办法进行模型训练，这时候就需要算法工程师自行制作一些数据了，比如这篇文章分享的 bag 目标检测，在检测区域没有真实的 bag数据

此时，就可以采用图像拼接的方式将凑集到的 bag图像粘贴到场景图像中【前提，目标图一般为“大头贴”】，当然场景图片并不是所有的位置都可以粘贴，一般有特定区域，比如 地面、墙壁、某设备等，因此还需要采用标注工具将这些目标区域标注出来，算法通过读取对应的目标区域，随机设定区域内的坐标点进行粘贴，将目标图粘贴到场景图当中

当然并不是任何形式的目标图都可以粘贴，为了更好的融合场景当中，还需要将目标从 大头贴当中给 扣出来，即除了目标区域，其他区域设置为透明格式，这样拼接的效果才“更”加真实一些【还是很假的！！！】

具体的操作过程如何所示，代码附最后，如有 bug 还望见谅！

1、制作底片模版

博主采用的 LabelImg标注工具，将底片待粘贴区域标注好

标注完成的 txt 内容

labelImg 的显示界面

2、将对应的大头贴目标头图处理

从 jpg 图像将目标 “扣” 出来，此处采用的像素抠图，将白色区域设置为透明，此处并不通用，不同目标的小伙伴自行修改代码，png的图像格式可以保存 alpha通道

#  !/usr/bin/env  python
#  -*- coding:utf-8 -*-
# @Time   :  2023.11
# @Author :  绿色羽毛
# @Email  :  lvseyumao@foxmail.com
# @Blog   :  https://blog.csdn.net/ViatorSun
# @Note   :  jpg2png.pyimport os
import cv2
import numpy as np
import os.path as ospfile_path = "/media/yinzhe/DataYZ/DataSet/DataSet/bag_masknew"
save_path = file_path + "_out"if not osp.exists(save_path):os.makedirs(save_path)img_lst = []
for path, dirs, files in os.walk(file_path):for file in files:if os.path.splitext(file)[1] in ['.jpg', ".png", ".JPG", ".jpeg"]:  # 扫描指定格式文件img_dir = osp.join(path, file)img_save = osp.join(save_path, file)img = cv2.imread(img_dir)img = cv2.cvtColor(img, cv2.COLOR_BGR2RGB)                               # 转换为RGB格式png_img = osp.join(save_path, file.split(".")[0] + ".png")white_mask = cv2.inRange(img, (200, 200, 200), (255, 255, 255))  	# 提取白色部分img = cv2.cvtColor(img, cv2.COLOR_RGB2BGRA)img[:,:,3][white_mask == 255] = 0                       			# 将白色部分变成透明cv2.imwrite(png_img, img)

3、将底片与透明目标进行叠加融合

叠加融合的方法有很多种，此处只采用了最简单的叠加方式，也可以考虑 cv2.seamlessClone
最终成果如下图所示

除了生成合成图片，标注信息也同步生成

注意！ 此处的标注信息是按照标注框尺寸保存的【此处隐藏bug后续优化】
提示：可以根据目标区域的非透明区域进行保存

#  !/usr/bin/env  python
#  -*- coding:utf-8 -*-
# @Time   :  2023.10
# @Author :  绿色羽毛
# @Email  :  lvseyumao@foxmail.com
# @Blog   :  https://blog.csdn.net/ViatorSun
# @Note   :  ps_merge_img.pyimport os
import cv2
import random
from random import sample
import numpy as np
import argparse  def read_label_txt(label_dir):labels = []with open(label_dir) as fp:for f in fp.readlines():labels.append(f.strip().split(' '))return labelsdef rescale_yolo_labels(labels, img_shape):height, width, nchannel = img_shaperescale_boxes = []for box in list(labels):x_c = float(box[1]) * widthy_c = float(box[2]) * heightw = float(box[3]) * widthh = float(box[4]) * heightx_left = x_c - w * .5y_left = y_c - h * .5x_right = x_c + w * .5y_right = y_c + h * .5rescale_boxes.append([box[0], int(x_left), int(y_left), int(x_right), int(y_right)])return rescale_boxesdef xyxy2xywh(image, bboxes):height, width, _ = image.shapeboxes = []for box in bboxes:if len(box) < 4:continuecls = int(box[0])x_min = box[1]y_min = box[2]x_max = box[3]y_max = box[4]w = x_max - x_minh = y_max - y_minx_c = (x_min + x_max) / 2.0y_c = (y_min + y_max) / 2.0x_c = x_c / widthy_c = y_c / heightw = float(w) / widthh = float(h) / heightboxes.append([cls, x_c, y_c, w, h])return boxesdef cast_color(img, value):img_t = cv2.cvtColor(img,cv2.COLOR_BGR2HSV)h,s,v = cv2.split(img_t)# 增加图像对比度v2 = np.clip(cv2.add(2*v,value),0,255)img2 = np.uint8(cv2.merge((h,s,v2)))img_cast = cv2.cvtColor(img2,cv2.COLOR_HSV2BGR)             # 改变图像对比度return img_castdef brightness(img, value):img_t = cv2.cvtColor(img,cv2.COLOR_BGR2HSV)h,s,v = cv2.split(img_t)# 增加图像亮度v1 = np.clip(cv2.add(1*v,value),0,255)img1 = np.uint8(cv2.merge((h,s,v1)))img_brightness = cv2.cvtColor(img1,cv2.COLOR_HSV2BGR)       # 改变图像亮度亮度return img_brightnessdef add_alpha_channel(img):""" 为jpg图像添加alpha通道 """b_channel, g_channel, r_channel = cv2.split(img)  				# 拆分jpg图像通道alpha_channel = np.ones(b_channel.shape, dtype=b_channel.dtype) * 255  # 创建Alpha通道img_new = cv2.merge((b_channel, g_channel, r_channel, alpha_channel))  # 融合通道return img_newdef merge_img(jpg_img, png_img, y1, y2, x1, x2):""" 将png透明图像与jpg图像叠加y1,y2,x1,x2为叠加位置坐标值"""# 判断jpg图像是否已经为4通道if jpg_img.shape[2] == 3:jpg_img = add_alpha_channel(jpg_img)'''当叠加图像时，可能因为叠加位置设置不当，导致png图像的边界超过背景jpg图像，而程序报错这里设定一系列叠加位置的限制，可以满足png图像超出jpg图像范围时，依然可以正常叠加'''yy1 = 0yy2 = png_img.shape[0]xx1 = 0xx2 = png_img.shape[1]if x1 < 0:xx1 = -x1x1 = 0if y1 < 0:yy1 = - y1y1 = 0if x2 > jpg_img.shape[1]:xx2 = png_img.shape[1] - (x2 - jpg_img.shape[1])x2 = jpg_img.shape[1]if y2 > jpg_img.shape[0]:yy2 = png_img.shape[0] - (y2 - jpg_img.shape[0])y2 = jpg_img.shape[0]# 获取要覆盖图像的alpha值，将像素值除以255，使值保持在0-1之间alpha_png = png_img[yy1:yy2, xx1:xx2, 3] / 255.0alpha_jpg = 1 - alpha_png# 开始叠加for c in range(0, 3):jpg_img[y1:y2, x1:x2, c] = ((alpha_jpg * jpg_img[y1:y2, x1:x2, c]) + (alpha_png * png_img[yy1:yy2, xx1:xx2, c]))return jpg_imgdef random_add_patches_on_objects(image, mask_lst, rescale_boxes, paste_number):img = image.copy()new_bboxes = []cl = 0random.shuffle(rescale_boxes)for i, rescale_bbox in enumerate(rescale_boxes[:int(len(mask_lst))]):     # 待ps图像 目标框中p_img = mask_lst[i]bbox_h, bbox_w, bbox_c = p_img.shapeobj_xmin, obj_ymin, obj_xmax, obj_ymax = rescale_bbox[1:]obj_w = obj_xmax - obj_xmin + 1         # 目标框尺寸obj_h = obj_ymax - obj_ymin + 1while not (bbox_w < obj_w and bbox_h < obj_h):                  # 如果目标框小于 mask尺寸，对mask进行缩放以确保可以放进 bbox中new_bbox_w = int(bbox_w * random.uniform(0.5, 0.8))new_bbox_h = int(bbox_h * random.uniform(0.5, 0.8))bbox_w, bbox_h = new_bbox_w, new_bbox_hsuccess_num = 0while success_num < paste_number:center_search_space = [obj_xmin, obj_ymin, obj_xmax - new_bbox_w - 1, obj_ymax - new_bbox_h - 1] # 选取生成随机点区域if center_search_space[0] >= center_search_space[2] or center_search_space[1] >= center_search_space[3]:print('============== center_search_space error!!!! ================')success_num += 1continuenew_bbox_x_min = random.randint(center_search_space[0], center_search_space[2])  # 随机生成点坐标new_bbox_y_min = random.randint(center_search_space[1], center_search_space[3])new_bbox_x_left, new_bbox_y_top, new_bbox_x_right, new_bbox_y_bottom = new_bbox_x_min, new_bbox_y_min, new_bbox_x_min + new_bbox_w - 1, new_bbox_y_min + new_bbox_h - 1new_bbox = [cl, int(new_bbox_x_left), int(new_bbox_y_top), int(new_bbox_x_right), int(new_bbox_y_bottom)]success_num += 1new_bboxes.append(new_bbox)p_img = cv2.resize(p_img, (new_bbox_w, new_bbox_h))img = merge_img(img, p_img, new_bbox_y_top, new_bbox_y_bottom+1, new_bbox_x_left, new_bbox_x_right+1)return img, new_bboxesif __name__ == "__main__":# 用来装载参数的容器parser = argparse.ArgumentParser(description='PS')# 给这个解析对象添加命令行参数parser.add_argument('-i', '--images', default= '/media/yinzhe/DataYZ/DataSet/DataSet/bag_model',type=str, help='path of images')parser.add_argument('-t', '--mask', default= '/media/yinzhe/DataYZ/DataSet/DataSet/bag_mask',type=str, help='path of masks')parser.add_argument('-s', '--saveImage',default= '/media/yinzhe/DataYZ/DataSet/DataSet/bag_save', type=str, help='path of ')parser.add_argument('-c', '--scale', default= 0.2, type=float, help='number of img')parser.add_argument('-n', '--num', default= 5, type=int, help='number of img')args = parser.parse_args()  # 获取所有参数mask_filedirs = args.maskimages_path = args.imagessave_path = args.saveImagescale, num = args.scale, args.nummask_paths = []if not os.path.exists(save_path):os.makedirs(save_path)# 读取所有的 mask 模版mask_lst = []for t_path in os.listdir(mask_filedirs):mask = cv2.imread(os.path.join(mask_filedirs, t_path), cv2.IMREAD_UNCHANGED)if (mask.shape[2] != 4):  # RGB alphabreakmask_lst.append(mask)# template_paths = random.shuffle(template_paths) #打乱顺序for image_path in os.listdir(images_path) :if "txt" in image_path:continueimage = cv2.imread(os.path.join(images_path, image_path))pre_name = image_path.split('.')[0]bbox_lst = read_label_txt(os.path.join(images_path, pre_name + ".txt"))if image is None or len(bbox_lst) == 0:print("empty image !!! or empty label !!!")continue# yolo txt转化为x1y1x2y2rescale_bboxes = rescale_yolo_labels(bbox_lst, image.shape)  # 转换坐标表示# maskes_path = sample(mask_paths, int(len(bbox_lst) * scale))#for i in range(num):maskes = sample(mask_lst, int(len(bbox_lst) * scale))img, bboxes = random_add_patches_on_objects(image, maskes, rescale_bboxes, 1)boxes = xyxy2xywh(img, bboxes)img_name = pre_name + '_' + str(i) + '.jpg'print('handle img:', img_name)cv2.imwrite(os.path.join(save_path, img_name), img)with open(os.path.join(save_path, img_name[:-4] + ".txt"), 'a') as f:for box in boxes:mess = str(3) + " " + str(box[1]) + " " + str(box[2]) + " " + str(box[3] * 0.6) + " " + str(box[4]* 0.6) + "\n"f.write(mess)