def steel_char_detect(path_1, path_2, path_3, path_4):
Log_oper = Log("Log_ASC")
Log_oper.add_log("Normal>>开始载入跟踪模型")
try:
steel_model = YOLO()
except Exception as err:
Log_oper.add_log("Error>>执行中出现错误{},程序自动重启".format(err))
os.system('taskkill /IM ArNTSteelDefectsClassifier64.exe /F')
Log_oper.add_log("Normal>>完成载入跟踪模型成功")
Log_oper.add_log("Normal>>开始载入识别模型")
try:
phi = 2
weighted_bifpn = True
model_path = 'char_model/char_model.h5'
image_sizes = (512, 640, 768, 896, 1024, 1280, 1408)
image_size = image_sizes[phi]
classes = {
value['id']: value['name']
for value in json.load(open('char_model/char_class.json',
'r')).values()
}
num_classes = len(classes)
score_threshold = 0.25
colors = [
np.random.randint(0, 256, 3).tolist() for _ in range(num_classes)
]
_, char_model = efficientdet(phi=phi,
weighted_bifpn=weighted_bifpn,
num_classes=num_classes,
score_threshold=score_threshold)
char_model.load_weights(model_path, by_name=True)
char_model_param = {
'image_size': image_size,
'classes': classes,
'score_threshold': score_threshold,
'colors': colors
}
except Exception as err:
Log_oper.add_log("Error>>执行中出现错误{},程序自动重启".format(err))
os.system('taskkill /IM ArNTSteelDefectsClassifier64.exe /F')
Log_oper.add_log("Normal>>完成载入识别模型成功")
Log_oper.add_log("Normal>>开始创建二级连接")
try:
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.connect(('191.168.162.192', 12001))
send_heartbeat = threading.Thread(target=thread_send_heartbeat,
args=(
s,
Log_oper,
))
send_heartbeat.start()
recv_info = threading.Thread(target=thread_recv_info,
args=(
s,
Log_oper,
))
recv_info.start()
except Exception as err:
Log_oper.add_log("Error>>执行中出现错误{},程序自动重启".format(err))
os.system('taskkill /IM ArNTSteelDefectsClassifier64.exe /F')
Log_oper.add_log("Normal>>完成成功连接到二级")
last_steel_no = "00000000000000"
judge_num = 0
counter = 0
cache_num = 0
cache_char = []
path_camera = path_1["path_camera"]
path_steel = path_1["path_steel"]
path_char = path_1["path_char"]
path_char_l2 = path_1["path_char_l2"]
while True:
img_path_list = []
Log_oper.add_log("Normal>>获得文件夹图像路径列表")
for root, dirs, files in os.walk(path_camera):
time.sleep(1)
img_path_list = []
#确定是否钢板已走完
if len(files) > 0:
judge_num = 0
else:
judge_num = judge_num + 1
for file in files:
if os.path.splitext(file)[1] == '.jpg':
src_img_path = os.path.join(path_camera, file)
img_path_list.append(src_img_path)
Log_oper.add_log("Normal>>开始处理{}的图像".format(src_img_path))
start = time.time()
try:
src_image_Image = Image.open(src_img_path)
src_image_Opencv = np.asarray(src_image_Image)
src_image_width, src_image_height = src_image_Image.size[
0], src_image_Image.size[1]
except:
Log_oper.add_log("Error>>文件打开错误,直接跳过")
time.sleep(1)
continue
else:
try:
r_image, result = steel_model.detect_image(
src_image_Image)
is_save = False
for n in range(0, len(result)):
(top, left, bottom, right) = result[n]['box']
to_top = top - 0
to_bottom = src_image_height - bottom
roi_w = right - left
to_left = left - 0
to_right = src_image_width - right
if roi_w > src_image_width * 0.2 and to_left > src_image_width * 0.15 and to_right > src_image_width * 0.15 and to_top >= 0 and to_bottom >= 0 and result[
n]['class'] != 'tchar':
#存在字符则进行存储
datetime = time.strftime("%Y%m%d")
save_src_path = ((path_steel + "\%s") %
datetime)
if not os.path.exists(save_src_path):
os.mkdir(save_src_path)
save_src_img_path = os.path.join(
save_src_path, file)
cv2.imwrite(save_src_img_path,
src_image_Opencv)
Log_oper.add_log("Normal>>图像上存在字符,图像保存")
#判断字符是否为倒置
judge_char_inv = False
#if bottom<src_image_height/2:
# judge_char_inv=True
if result[n]['class'] == 'unchar':
judge_char_inv = True
if judge_char_inv is True:
src_image_Opencv = rotate_bound(
src_image_Opencv, 180)
top, bottom = src_image_height - bottom, src_image_height - top
left, right = src_image_width - right, src_image_width - left
Log_oper.add_log(
"Normal>>检测到字符为倒置状态,进行翻转")
#拓展图像
left = max(0, left - 0)
right = min(src_image_width, right + 0)
roi_w = right - left
top_s, bottom_s = top, bottom
for i in range(0, src_image_height):
top = max(0, top - 1)
bottom = min(src_image_height,
bottom + 1)
roi_h = bottom - top
if roi_h >= roi_w or roi_h >= src_image_height:
break
top_offset = abs(top_s - top)
bottom_offset = abs(bottom_s - bottom)
char_roi = src_image_Opencv[
int(top):int(bottom),
int(left):int(right)]
Log_oper.add_log("Normal>>成功获得字符ROI")
src_char_roi = char_roi.copy()
char_roi = char_roi[:, :, ::-1]
char_roi_h, char_roi_w = char_roi.shape[:2]
char_roi_norm, scale = preprocess_image(
char_roi, image_size=image_size)
boxes, scores, labels = char_model.predict_on_batch(
[
np.expand_dims(char_roi_norm,
axis=0)
])
boxes, scores, labels = np.squeeze(
boxes), np.squeeze(scores), np.squeeze(
labels)
boxes = postprocess_boxes(
boxes=boxes,
scale=scale,
height=char_roi_h,
width=char_roi_w)
indices = np.where(
scores[:] > score_threshold)[0]
boxes = boxes[indices]
labels = labels[indices]
scores = scores[indices]
res_nms = nms(boxes, scores, 0.1)
boxes = boxes[res_nms]
labels = labels[res_nms]
scores = scores[res_nms]
draw_boxes(src_char_roi, boxes, scores,
labels, colors, classes)
#整理字符
steel_no, steel_no_score, steel_type, steel_size = get_steel_info(
boxes, scores, labels, classes)
steel_no = steel_no.replace("B", "8")
steel_no = steel_no.replace("D", "0")
steel_no = steel_no.replace("I", "1")
steel_no = steel_no.replace("O", "0")
steel_no = steel_no.replace("S", "5")
exist_char = True
if len(steel_no) != 14:
Log_oper.add_log(
"Warning>>当前识别钢板号{}不符合规则,放弃发送({})".
format(steel_no, file))
exist_char = False
if False == steel_no.isdigit():
Log_oper.add_log(
"Warning>>当前识别钢板号{}未全部由数字组成,放弃发送({})"
.format(steel_no, file))
exist_char = False
if exist_char is True:
cache_char.append([
steel_no, steel_no_score,
steel_type, steel_size,
src_char_roi, char_roi, top_offset,
bottom_offset, file
])
#缓存字符统一处理
cache_num = cache_num + 1
if len(cache_char) <= 0:
continue
if len(result) > 0 and cache_num < 10:
continue
cache_char.sort(key=itemgetter(1), reverse=True)
steel_no, steel_no_score, steel_type, steel_size, src_char_roi, char_roi, top_offset, bottom_offset, file = cache_char[
0]
cache_num = 0
cache_char = []
if last_steel_no == steel_no:
Log_oper.add_log(
"Normal>>当前识别钢板号{}已发送过,无需再次发送({})".format(
steel_no, file))
continue
last_steel_no = steel_no
#保存带标签的图片到本地
char_roi_h, char_roi_w = char_roi.shape[:2]
src_char_roi_cut = src_char_roi[
max(int(0 + top_offset) - 10, 0):min(
int(char_roi_h - bottom_offset) +
50, char_roi_h), :]
save_char_img_path = os.path.join(path_char, file)
cv2.imwrite(save_char_img_path, src_char_roi_cut)
Log_oper.add_log("Normal>>成功保存字符识别效果图")
#保存字符图片到二级发送文件夹
#char_roi_cut=char_roi[int(0+top_offset):int(char_roi_h-bottom_offset),:]
char_roi_cut_resize = cv2.resize(
char_roi, (char_roi.shape[1],
int(char_roi.shape[1] * 0.75)))
datetime = time.strftime("%Y%m%d")
path_char_l2_curr = ((path_char_l2 + "\%s") %
datetime)
if not os.path.exists(path_char_l2_curr):
os.mkdir(path_char_l2_curr)
save_l2_char_img_path = os.path.join(
path_char_l2_curr, file)
cv2.imwrite(save_l2_char_img_path,
char_roi_cut_resize)
Log_oper.add_log("Normal>>成功保存字符到二级文件夹")
#保存样本
save_sample_path = r"D:\ArNTCameraImage\Camera_No1\CameraImg_src"
save_sample_path_curr = (
(save_sample_path + "\%s") % datetime)
if not os.path.exists(save_sample_path_curr):
os.mkdir(save_sample_path_curr)
save_sample_path_curr_img = os.path.join(
save_sample_path_curr, file)
cv2.imwrite(save_sample_path_curr_img,
src_image_Opencv)
#发送到L2
counter = counter + 1
if counter > 30000:
counter = 1
send_to_l2(s, Log_oper, steel_no,
steel_type, steel_size,
os.path.join(datetime, file), counter)
Log_oper.add_log("Normal>>识别字符发送到二级")
except Exception as err:
Log_oper.add_log("Error>>执行中出现错误{}".format(err))
time.sleep(1)
continue
else:
pass
Log_oper.add_log("Normal>>完成处理{}的图像,共用时{}秒".format(
src_img_path,
time.time() - start))
#钢板走完直接发送字符,不受缓冲数量限制
if judge_num > 5:
if len(cache_char) > 0:
try:
Log_oper.add_log("Normal>>钢板已走完,图像数量未达到缓存数量,直接进行判断")
cache_char.sort(key=itemgetter(1), reverse=True)
steel_no, steel_no_score, steel_type, steel_size, src_char_roi, char_roi, top_offset, bottom_offset, file = cache_char[
0]
cache_num = 0
cache_char = []
if last_steel_no == steel_no:
Log_oper.add_log(
"Normal>>当前识别钢板号{}已发送过,无需再次发送({})".format(
steel_no, file))
continue
last_steel_no = steel_no
#保存带标签的图片到本地
char_roi_h, char_roi_w = char_roi.shape[:2]
src_char_roi_cut = src_char_roi[
max(int(0 + top_offset) - 10, 0):min(
int(char_roi_h - bottom_offset) +
50, char_roi_h), :]
save_char_img_path = os.path.join(path_char, file)
cv2.imwrite(save_char_img_path, src_char_roi_cut)
Log_oper.add_log("Normal>>成功保存字符识别效果图")
#保存字符图片到二级发送文件夹
#char_roi_cut=char_roi[int(0+top_offset):int(char_roi_h-bottom_offset),:]
char_roi_cut_resize = cv2.resize(
char_roi,
(char_roi.shape[1], int(char_roi.shape[1] * 0.75)))
datetime = time.strftime("%Y%m%d")
path_char_l2_curr = ((path_char_l2 + "\%s") % datetime)
if not os.path.exists(path_char_l2_curr):
os.mkdir(path_char_l2_curr)
save_l2_char_img_path = os.path.join(
path_char_l2_curr, file)
cv2.imwrite(save_l2_char_img_path, char_roi_cut_resize)
Log_oper.add_log("Normal>>成功保存字符到二级文件夹")
#发送到L2
counter = counter + 1
if counter > 30000:
counter = 1
send_to_l2(s, Log_oper, steel_no,
steel_type, steel_size,
os.path.join(datetime, file), counter)
Log_oper.add_log("Normal>>识别字符发送到二级")
except Exception as err:
Log_oper.add_log("Error>>执行中出现错误{}".format(err))
time.sleep(1)
continue
else:
pass
delete_file(Log_oper, img_path_list)
steel_model.close_session()
def detect_char_mini(self, img, img_name, top_offset, bottom_offset):
try:
self.log_oper.add_log("Normal>>开始进行单行字符识别")
image_size = self.char_model_param_mini['image_size']
score_threshold = self.char_model_param_mini['score_threshold']
classes = self.char_model_param_mini['classes']
colors = self.char_model_param_mini['colors']
src_img = img.copy()
res_img = img.copy()
img = img[:, :, ::-1]
img_h, img_w = img.shape[:2]
img_norm, scale = preprocess_image(img, image_size=image_size)
boxes, scores, labels = self.char_model_mini.predict_on_batch(
[np.expand_dims(img_norm, axis=0)])
boxes, scores, labels = np.squeeze(boxes), np.squeeze(
scores), np.squeeze(labels)
boxes = postprocess_boxes(boxes=boxes,
scale=scale,
height=img_h,
width=img_w)
indices = np.where(scores[:] > score_threshold)[0]
boxes = boxes[indices]
labels = labels[indices]
scores = scores[indices]
res_nms = nms(boxes, scores, 0.1)
boxes = boxes[res_nms]
labels = labels[res_nms]
scores = scores[res_nms]
draw_boxes(src_img, boxes, scores, labels, colors, classes)
#整理字符
steel_no, steel_no_score, steel_no_boxes = get_steel_info_mini(
boxes, scores, labels, classes)
#cv2.imshow("ss",src_img)
#cv2.waitKey()
#input(steel_no)
steel_no = steel_no.replace("B", "8")
steel_no = steel_no.replace("D", "0")
steel_no = steel_no.replace("I", "1")
steel_no = steel_no.replace("O", "0")
steel_no = steel_no.replace("S", "5")
exist_char = True
if len(steel_no) != 14:
self.log_oper.add_log(
"Warning>>当前识别钢板号{}不符合规则,放弃发送({})".format(
steel_no, img_name))
exist_char = False
if False == steel_no.isdigit():
self.log_oper.add_log(
"Warning>>当前识别钢板号{}未全部由数字组成,放弃发送({})".format(
steel_no, img_name))
exist_char = False
if exist_char is True:
#进行钢板号二次分类
char_w, char_h = 0, 0
char_x_min, char_x_max = 99999, 0
char_y_min, char_y_max = 99999, 0
img_mini_list = []
for i in range(0, len(steel_no_boxes)):
box = steel_no_boxes[i]
xmin, ymin, xmax, ymax = box
char_w = char_w + (xmax - xmin)
char_h = char_h + (ymax - ymin)
if xmin < char_x_min:
char_x_min = xmin
if ymin < char_y_min:
char_y_min = ymin
if xmax > char_x_max:
char_x_max = xmax
if ymax > char_y_max:
char_y_max = ymax
img_mini = img[int(ymin):int(ymax), int(xmin):int(xmax)]
img_mini_list.append(img_mini)
img_arr = self.classifier.get_norm_img(img_mini_list)
class_score, conf_score = self.classifier.predict_img_arr(
img_arr)
steel_no_ref = ''
for c in class_score:
steel_no_ref = steel_no_ref + str(c)
## if steel_no != steel_no_ref:
## self.log_oper.add_log("Warning>>识别不一样,原识别号:{},验证识别号:{}".format(steel_no,steel_no_ref))
## else:
## self.log_oper.add_log("Normal>>识别相同")
#发送二级的图上写字符
if len(steel_no_boxes) > 0:
char_w = char_w / len(steel_no_boxes)
char_h = char_h / len(steel_no_boxes)
cv2.rectangle(res_img, (max(0, int(char_x_min - char_w * 0.2)),
max(0, int(char_y_min - char_h * 2))),
(min(img_w, int(char_x_max + char_w * 0.2)),
min(img_h, int(char_y_max - char_h * 2))),
(0, 255, 255), 3) #2
for i in range(0, len(steel_no_boxes)):
box = steel_no_boxes[i]
xmin, ymin, xmax, ymax = box
cv2.putText(res_img, str(list(steel_no)[i]),
(int(xmin), int(max(0, char_y_min - char_h))),
cv2.FONT_HERSHEY_SIMPLEX, 0.8, (0, 0, 255), 2)
#
self.cache_char.append([
steel_no, steel_no_score, "", "", src_img, res_img,
top_offset, bottom_offset, img_name
])
self.log_oper.add_log("Normal>>完成单行字符{}的识别,识别板号为:{}".format(
img_name, steel_no))
except Exception as err:
self.log_oper.add_log("Error>>单行识别字符过程中出现错误,错误代码为{}".format(err))
def detect_char_mini(self, img, img_name, top_offset, bottom_offset):
try:
self.log_oper.add_log("Normal>>开始进行单行字符识别")
image_size = self.char_model_param_mini['image_size']
score_threshold = self.char_model_param_mini['score_threshold']
classes = self.char_model_param_mini['classes']
colors = self.char_model_param_mini['colors']
src_img = img.copy()
img = img[:, :, ::-1]
img_h, img_w = img.shape[:2]
img_norm, scale = preprocess_image(img, image_size=image_size)
boxes, scores, labels = self.char_model_mini.predict_on_batch(
[np.expand_dims(img_norm, axis=0)])
boxes, scores, labels = np.squeeze(boxes), np.squeeze(
scores), np.squeeze(labels)
boxes = postprocess_boxes(boxes=boxes,
scale=scale,
height=img_h,
width=img_w)
indices = np.where(scores[:] > score_threshold)[0]
boxes = boxes[indices]
labels = labels[indices]
scores = scores[indices]
res_nms = nms(boxes, scores, 0.1)
boxes = boxes[res_nms]
labels = labels[res_nms]
scores = scores[res_nms]
draw_boxes(src_img, boxes, scores, labels, colors, classes)
#整理字符
steel_no, steel_no_score = get_steel_info_mini(
boxes, scores, labels, classes)
#cv2.imshow("ss",src_img)
#cv2.waitKey()
#input(steel_no)
steel_no = steel_no.replace("B", "8")
steel_no = steel_no.replace("D", "0")
steel_no = steel_no.replace("I", "1")
steel_no = steel_no.replace("O", "0")
steel_no = steel_no.replace("S", "5")
exist_char = True
if len(steel_no) != 14:
self.log_oper.add_log(
"Warning>>当前识别钢板号{}不符合规则,放弃发送({})".format(
steel_no, img_name))
exist_char = False
if False == steel_no.isdigit():
self.log_oper.add_log(
"Warning>>当前识别钢板号{}未全部由数字组成,放弃发送({})".format(
steel_no, img_name))
exist_char = False
if exist_char is True:
self.cache_char.append([
steel_no, steel_no_score, "", "", src_img, img, top_offset,
bottom_offset, img_name
])
self.log_oper.add_log("Normal>>完成单行字符{}的识别,识别板号为:{}".format(
img_name, steel_no))
except Exception as err:
self.log_oper.add_log("Error>>单行识别字符过程中出现错误,错误代码为{}".format(err))