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- #!/usr/bin/env python
- #version : 2023.04.04
- #language : en
- from time import time
- ScreenOrientation = False
- class LPR:
- loc_model_path = '/root/preset/model/loc.mud'
- reg_model_path = '/root/preset/model/reg.mud'
- chars =[ "皖", "沪", "津", "渝", "冀", "晋", "蒙", "辽", "吉", "黑",
- "苏", "浙", "京", "闽", "赣", "鲁", "豫", "鄂", "湘" , "粤",
- "桂", "琼", "川", "贵", "云", "藏", "陕", "甘", "青" , "宁",
- "新", "警", "学", "A" , "B" , "C" , "D" , "E" , "F" , "G",
- "H" , "J" , "K" , "L" , "M" , "N" , "P" , "Q" , "R" , "S",
- "T" , "U" , "V" , "W", "X" , "Y" , "Z" , "0" , "1", "2", "3",
- "4", "5", "6", "7", "8", "9", "-"]
- variances = [0.1, 0.2]
- steps = [8, 16, 32]
- min_sizes = [12, 24, 48, 96, 192, 320]
- def __init__(self) -> None:
- from maix import nn
- self.loc_model = nn.load(self.loc_model_path , opt = None)
- self.reg_model = nn.load(self.reg_model_path , opt = None)
- from maix.nn import decoder
- self.loc_decoder = decoder.license_plate_location([224,224] , self.steps , self.min_sizes, self.variances)
- self.reg_decoder = decoder.CTC((1,68,18))
- def __del__(self):
- del self.loc_model
- del self.loc_decoder
- def cal_fps(self ,start , end):
- one_second = 1
- one_flash = end - start
- fps = one_second / one_flash
- return fps
- def draw_fps(self,img , fps):
- img.draw_string(0, 0 ,'FPS :'+str(fps), scale=1,color=(255, 0, 255), thickness=1)
- def draw_string(self , img , x , y , string , color):
- img.draw_string( x , y , string ,color = color)
- def draw_paste(self , src ,dst):
- src.paste(dst , 0 , 0)
- def draw_rectangle(self,img, box):
- img.draw_rectangle(box[0], box[1], box[2], box[3],color=(230 ,230, 250), thickness=2)
- def draw_point(self,img,landmark):
- for i in range(4):
- x = landmark[2 * i ]
- y = landmark[2 * i + 1]
- img.draw_rectangle(x-2,y-2, x+2,y+2,color= (193 ,255 ,193), thickness =-1)
- def process(self,input):
- loc_out = self.loc_model.forward(input, quantize=1, layout = "chw") # retinaface decoder only support chw layout
- boxes , landmarks = self.loc_decoder.run(loc_out, nms = 0.2 ,score_thresh = 0.7 , outputs_shape =[[1,4,2058],[1,2,2058],[1,8,2058]])
- for i,box in enumerate(boxes):
- landmark = landmarks[i][:6]
- reg_in = input.crop_affine(landmark , 94 , 24)
- reg_out = self.reg_model.forward(reg_in , quantize=1, layout = "chw")
- LP_number = self.reg_decoder.run(reg_out)
- string_LP = ''
- for id in LP_number:
- string_LP += self.chars[id]
- self.draw_string(input , box[0], box[1] , string_LP ,color=(225,0,0))
- self.draw_paste(input , reg_in)
- self.draw_rectangle(input,box)
- self.draw_point(input , landmarks[i])
- def lcdRotation(inputImg,rotationAngle):
- from maix import image
- imageRotationBuffer = inputImg.crop(0, 0, 240, 320)
- if ScreenOrientation:
- imgRotationAim = image.new(size = (240, 320))
- else:
- imgRotationAim = image.new(size = (320, 240))
- return imgRotationAim.draw_image(imageRotationBuffer.rotate(rotationAngle, adjust=1),0,0,alpha=1)
- if ScreenOrientation:
- CAMERAROTATE = +180
- else:
- CAMERAROTATE = +90
- def main():
- from maix import display, camera , image
- image.load_freetype("/home/res/sans.ttf")
- app = LPR()
-
- canvasImg = image.new(size = (240, 320))
- while True:
- canvasImg.clear()
- img = camera.capture().crop(0, 0,224, 224)
- app.process(img)
- canvasImg.draw_image(img,48,8)
- canvasImg.draw_image((image.open("/root/preset/img/exit_ff0000_24x24.png")).rotate(0, adjust=0),288,216,alpha=1)
- display.show(canvasImg)
- # break
- main()
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