def main():
oriImgPath = './warp/warpImg'
oriTxtPath = './warp/warpTxt'
savePath = './warp/BBoxImages'
oriImgNames = sorted(get_file_names(oriImgPath))
total = len(oriImgNames)
cnt = 1
for oriImgName in oriImgNames:
img = cv.imread(os.path.join(oriImgPath,oriImgName))
print('has processed %d,total:%d' % (cnt,total))
with open(os.path.join(oriTxtPath,os.path.splitext(oriImgName)[0] + '.txt'),'r') as f:
lines = f.readlines()
for line in lines:
info = line.split()
label = info[0]
pos = [int(x) for x in info[1:5]] # list[xmin,ymin,bboxw,bboxh]
color = tuple(random.randint(0,255) for x in range(3))
cv.rectangle(img,(pos[0],pos[1]),(pos[0] + pos[2],pos[1] + pos[3]),color,2)
cv.imwrite(os.path.join(savePath,oriImgName),img)
cnt = cnt + 1
def main():
oriImgPath = '../data/my_VOC2007/warp/imgs'
oriTxtPath = '../data/my_VOC2007/warp/labels/'
savePath = '../data/my_VOC2007/warp/bboxImages/'
jinbo.mkdir(savePath)
oriImgNames = sorted(jinbo.get_file_names(oriImgPath))
total = len(oriImgNames)
cnt = 1
for oriImgName in oriImgNames:
img = cv.imread(os.path.join(oriImgPath, oriImgName))
h, w, _ = img.shape
print('has processed %d,total:%d' % (cnt, total))
with open(
os.path.join(oriTxtPath,
os.path.splitext(oriImgName)[0] + '.txt'),
'r') as f:
lines = f.readlines()
for line in lines:
info = line.split()
# print(info)
info = info[:1] + [float(x) for x in info[1:5]]
xmin = int((info[1] - info[3] / 2) * w)
ymin = int((info[2] - info[4] / 2) * h)
bboxw = int(info[3] * w)
bboxh = int(info[4] * h)
# print(info)
label = info[0]
# pos = [int(x) for x in info[1:5]] # list[xmin, ymin, bboxw, bboxh]
color = tuple(random.randint(0, 255) for _ in range(3))
# cv.rectangle(img, (pos[0], pos[1]), (pos[0] + pos[2], pos[1] + pos[3]), color, 2)
# cv.imwrite(os.path.join(savePath, oriImgName), img)
cv.rectangle(img, (xmin, ymin), (xmin + bboxw, ymin + bboxh),
color, 2)
cv.imwrite(os.path.join(savePath, oriImgName), img)
cnt = cnt + 1
def main():
init_name = 800000 # new name
cnt = 1 # statistics
# The optional parameter of data_format:[VOC2007,YOLO].VOC2007:[xmin,ymin,xmax,ymax].YOLO:[xcentre,ycentre,bboxw,bboxh]
data_format = 'YOLO'
oriImgPath = '../demo'
oriTxtPath = '../demo/yolo_txt'
warpImgPath = './warp/warpImg'
warpTxtPath = './warp/warpTxt'
angles = [
-20, -10, -5, 5, 10, 20
] # Positive number --> clockwise.The absolute value of the angle cannot exceed 90
oriImgNames = sorted(get_file_names(oriImgPath))
total = len(oriImgNames) * len(angles)
for oriImgName in oriImgNames:
img = cv.imread(os.path.join(oriImgPath, oriImgName))
h, w = img.shape[:2]
# print('shape',h,w)
for angle in angles:
imgwarp = warpAffine(img, angle)
saveWarpImgPath = os.path.join(
warpImgPath,
str(int(os.path.splitext(oriImgName)[0]) + init_name + cnt) +
'.jpg')
cv.imwrite(saveWarpImgPath, imgwarp)
print('has processed %d,total:%d' % (cnt, total))
with open(
os.path.join(oriTxtPath,
os.path.splitext(oriImgName)[0] + '.txt'),
'r') as f:
lines = f.readlines()
content = ''
for line in lines:
info = line.split()
label = info[0]
# pos = [int(x) for x in info[1:5]] # xmin,ymin,w,h
if (data_format == 'VOC2007'):
pos = [
float(info[1]),
float(info[2]),
float(info[3]) - float(info[1]),
float(info[4]) - float(info[2])
]
# print(pos)
if (data_format == 'YOLO'):
'''
YOLO foamat:XCentre,yCentre,w,h
'''
pos = [(float(info[1]) - float(info[3])/2.0) * w,\
(float(info[2]) - float(info[4])/2.0) * h,\
float(info[3]) * w,float(info[4]) * h]
BBS = newPosition(pos, w, h, angle)
content = content + label + ' ' + str(int(BBS[0])) + ' ' + str(int(BBS[1])) \
+ ' ' + str(int(BBS[2])) + ' ' + str(int(BBS[3])) + '\n'
#print(BBS)
#print(content)
with open(
os.path.join(
warpTxtPath,
str(
int(os.path.splitext(oriImgName)[0]) + init_name +
cnt) + '.txt'), 'w') as fw:
fw.write(content)
cnt = cnt + 1
want = 500
# 创建由 digit_col 个数字字符和站digit_point 个小数点字符组成的字符串
digit_col = 4
digit_point = 2
crop_and_save = False # 是否已经从原图里裁剪出了各个类别,若是则不再执行该操作
# Create dir
createNewImg_path = opj(VOC_path, 'createNewImg')
new_imgs_path = opj(createNewImg_path, 'imgs')
material_path = opj(createNewImg_path, 'material')
new_labels_path = opj(createNewImg_path, 'labels')
jinbo.mkdir(new_imgs_path)
jinbo.mkdir(new_labels_path)
[jinbo.mkdir(opj(material_path, str(x))) for x in range(num_classes)]
img_names = sorted(jinbo.get_file_names(opj(VOC_path, 'JPEGImages')))
yolo_names = sorted(jinbo.get_file_names(opj(VOC_path, 'labels')))
total = len(img_names)
# Prepare to crop images
if crop_and_save:
print("已经从原图里裁剪出了各个类别")
else:
for img_name, yolo_name in zip(img_names, yolo_names):
img = cv2.imread(opj(VOC_path, 'JPEGImages', img_name))
im_h, im_w, channel = img.shape
with open(opj(VOC_path, 'labels', yolo_name), 'r') as f:
for info in f.readlines():
info = info.strip().split()
label = int(info[0])
cx, cy, w, h = [float(x) for x in info[1:]]
gap = 100
init_name = 800000 # new name
cnt = 0 # statistics
# The optional parameter of data_format:[VOC2007,YOLO].
# VOC2007:[xmin, ymin, xmax, ymax].
# YOLO:[xcentre, ycentre, bboxw, bboxh]
data_format = 'YOLO'
oriImgPath = '../data/my_VOC2007/JPEGImages'
oriTxtPath = '../data/my_VOC2007/labels'
warpImgPath = '../data/my_VOC2007/warp/imgs'
warpTxtPath = '../data/my_VOC2007/warp/labels'
jinbo.mkdir(warpImgPath)
jinbo.mkdir(warpTxtPath)
# Positive number --> clockwise.The absolute value of the angle cannot exceed 90
angles = [-7, -3, 3, 7]
oriImgNames = sorted(jinbo.get_file_names(oriImgPath))
total = len(oriImgNames) * len(angles)
for oriImgName in oriImgNames:
img = cv.imread(opj(oriImgPath, oriImgName))
h, w = img.shape[:2]
for angle in angles:
imgwarp = warpAffine(img, angle)
new_h, new_w, _ = imgwarp.shape
saveWarpImgPath = opj(
warpImgPath,
str(int(os.path.splitext(oriImgName)[0]) + init_name + cnt) +
'.jpg')
cv.imwrite(saveWarpImgPath, imgwarp)
with open(
opj(oriTxtPath,