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import sys
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from rknn.api import RKNN
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DATASET_PATH = '../../../datasets/COCO/coco_subset_20.txt'
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DEFAULT_RKNN_PATH = '../model/yolov5.rknn'
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DEFAULT_QUANT = True
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def parse_arg():
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if len(sys.argv) < 3:
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print("Usage: python3 {} onnx_model_path [platform] [dtype(optional)] [output_rknn_path(optional)]".format(sys.argv[0]))
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print(" platform choose from [rk3562, rk3566, rk3568, rk3576, rk3588, rv1103, rv1106, rv1126b, rv1109, rv1126, rk1808]")
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print(" dtype choose from [i8, fp] for [rk3562, rk3566, rk3568, rk3576, rk3588, rv1103, rv1106, rv1126b]")
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print(" dtype choose from [u8, fp] for [rv1109, rv1126, rk1808]")
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exit(1)
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model_path = sys.argv[1]
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platform = sys.argv[2]
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do_quant = DEFAULT_QUANT
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if len(sys.argv) > 3:
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model_type = sys.argv[3]
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if model_type not in ['i8', 'u8', 'fp']:
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print("ERROR: Invalid model type: {}".format(model_type))
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exit(1)
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elif model_type in ['i8', 'u8']:
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do_quant = True
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else:
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do_quant = False
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if len(sys.argv) > 4:
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output_path = sys.argv[4]
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else:
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output_path = DEFAULT_RKNN_PATH
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return model_path, platform, do_quant, output_path
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if __name__ == '__main__':
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model_path, platform, do_quant, output_path = parse_arg()
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# Create RKNN object
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rknn = RKNN(verbose=False)
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# Pre-process config
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print('--> Config model')
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rknn.config(mean_values=[[0, 0, 0]], std_values=[
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[255, 255, 255]], target_platform=platform)
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print('done')
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# Load model
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print('--> Loading model')
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ret = rknn.load_onnx(model=model_path)
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if ret != 0:
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print('Load model failed!')
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exit(ret)
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print('done')
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# Build model
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print('--> Building model')
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ret = rknn.build(do_quantization=do_quant, dataset=DATASET_PATH)
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if ret != 0:
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print('Build model failed!')
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exit(ret)
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print('done')
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# Export rknn model
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print('--> Export rknn model')
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ret = rknn.export_rknn(output_path)
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if ret != 0:
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print('Export rknn model failed!')
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exit(ret)
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print('done')
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# Release
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rknn.release()
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+242
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import cv2
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import os
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import numpy as np
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from rknnlite.api import RKNNLite
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import sys
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from copy import copy
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OBJ_THRESH = 0.25
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NMS_THRESH = 0.45
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# The follew two param is for map test
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# OBJ_THRESH = 0.001
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# NMS_THRESH = 0.65
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IMG_SIZE = (640, 640) # (width, height), such as (1280, 736)
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CLASSES = ("person", "bicycle", "car","motorbike ","aeroplane ","bus ","train","truck ","boat","traffic light",
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"fire hydrant","stop sign ","parking meter","bench","bird","cat","dog ","horse ","sheep","cow","elephant",
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"bear","zebra ","giraffe","backpack","umbrella","handbag","tie","suitcase","frisbee","skis","snowboard","sports ball","kite",
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"baseball bat","baseball glove","skateboard","surfboard","tennis racket","bottle","wine glass","cup","fork","knife ",
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"spoon","bowl","banana","apple","sandwich","orange","broccoli","carrot","hot dog","pizza ","donut","cake","chair","sofa",
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"pottedplant","bed","diningtable","toilet ","tvmonitor","laptop ","mouse ","remote ","keyboard ","cell phone","microwave ",
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"oven ","toaster","sink","refrigerator ","book","clock","vase","scissors ","teddy bear ","hair drier", "toothbrush ")
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coco_id_list = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 27, 28, 31, 32, 33, 34,
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35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63,
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64, 65, 67, 70, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 84, 85, 86, 87, 88, 89, 90]
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def get_real_box(self, box, in_format='xyxy'):
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bbox = copy(box)
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if self.enable_ltter_box == True:
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# unletter_box result
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if in_format=='xyxy':
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bbox[:,0] -= self.letter_box_info_list[-1].dw
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bbox[:,0] /= self.letter_box_info_list[-1].w_ratio
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bbox[:,0] = np.clip(bbox[:,0], 0, self.letter_box_info_list[-1].origin_shape[1])
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bbox[:,1] -= self.letter_box_info_list[-1].dh
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bbox[:,1] /= self.letter_box_info_list[-1].h_ratio
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bbox[:,1] = np.clip(bbox[:,1], 0, self.letter_box_info_list[-1].origin_shape[0])
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bbox[:,2] -= self.letter_box_info_list[-1].dw
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bbox[:,2] /= self.letter_box_info_list[-1].w_ratio
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bbox[:,2] = np.clip(bbox[:,2], 0, self.letter_box_info_list[-1].origin_shape[1])
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bbox[:,3] -= self.letter_box_info_list[-1].dh
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bbox[:,3] /= self.letter_box_info_list[-1].h_ratio
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bbox[:,3] = np.clip(bbox[:,3], 0, self.letter_box_info_list[-1].origin_shape[0])
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return bbox
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def filter_boxes(boxes, box_confidences, box_class_probs):
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"""Filter boxes with object threshold.
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"""
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box_confidences = box_confidences.reshape(-1)
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class_max_score = np.max(box_class_probs, axis=-1)
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classes = np.argmax(box_class_probs, axis=-1)
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_class_pos = np.where(class_max_score* box_confidences >= OBJ_THRESH)
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scores = (class_max_score* box_confidences)[_class_pos]
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boxes = boxes[_class_pos]
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classes = classes[_class_pos]
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return boxes, classes, scores
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def nms_boxes(boxes, scores):
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"""Suppress non-maximal boxes.
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# Returns
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keep: ndarray, index of effective boxes.
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"""
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x = boxes[:, 0]
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y = boxes[:, 1]
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w = boxes[:, 2] - boxes[:, 0]
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h = boxes[:, 3] - boxes[:, 1]
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areas = w * h
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order = scores.argsort()[::-1]
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keep = []
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while order.size > 0:
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i = order[0]
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keep.append(i)
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xx1 = np.maximum(x[i], x[order[1:]])
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yy1 = np.maximum(y[i], y[order[1:]])
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xx2 = np.minimum(x[i] + w[i], x[order[1:]] + w[order[1:]])
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yy2 = np.minimum(y[i] + h[i], y[order[1:]] + h[order[1:]])
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w1 = np.maximum(0.0, xx2 - xx1 + 0.00001)
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h1 = np.maximum(0.0, yy2 - yy1 + 0.00001)
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inter = w1 * h1
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ovr = inter / (areas[i] + areas[order[1:]] - inter)
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inds = np.where(ovr <= NMS_THRESH)[0]
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order = order[inds + 1]
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keep = np.array(keep)
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return keep
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def box_process(position, anchors):
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grid_h, grid_w = position.shape[2:4]
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col, row = np.meshgrid(np.arange(0, grid_w), np.arange(0, grid_h))
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col = col.reshape(1, 1, grid_h, grid_w)
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row = row.reshape(1, 1, grid_h, grid_w)
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grid = np.concatenate((col, row), axis=1)
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stride = np.array([IMG_SIZE[1]//grid_h, IMG_SIZE[0]//grid_w]).reshape(1,2,1,1)
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col = col.repeat(len(anchors), axis=0)
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row = row.repeat(len(anchors), axis=0)
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anchors = np.array(anchors)
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anchors = anchors.reshape(*anchors.shape, 1, 1)
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box_xy = position[:,:2,:,:]*2 - 0.5
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box_wh = pow(position[:,2:4,:,:]*2, 2) * anchors
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box_xy += grid
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box_xy *= stride
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box = np.concatenate((box_xy, box_wh), axis=1)
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# Convert [c_x, c_y, w, h] to [x1, y1, x2, y2]
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xyxy = np.copy(box)
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xyxy[:, 0, :, :] = box[:, 0, :, :] - box[:, 2, :, :]/ 2 # top left x
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xyxy[:, 1, :, :] = box[:, 1, :, :] - box[:, 3, :, :]/ 2 # top left y
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xyxy[:, 2, :, :] = box[:, 0, :, :] + box[:, 2, :, :]/ 2 # bottom right x
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xyxy[:, 3, :, :] = box[:, 1, :, :] + box[:, 3, :, :]/ 2 # bottom right y
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return xyxy
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def post_process(input_data, anchors):
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boxes, scores, classes_conf = [], [], []
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# 1*255*h*w -> 3*85*h*w
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input_data = [_in.reshape([len(anchors[0]),-1]+list(_in.shape[-2:])) for _in in input_data]
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for i in range(len(input_data)):
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boxes.append(box_process(input_data[i][:,:4,:,:], anchors[i]))
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scores.append(input_data[i][:,4:5,:,:])
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classes_conf.append(input_data[i][:,5:,:,:])
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def sp_flatten(_in):
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ch = _in.shape[1]
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_in = _in.transpose(0,2,3,1)
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return _in.reshape(-1, ch)
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boxes = [sp_flatten(_v) for _v in boxes]
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classes_conf = [sp_flatten(_v) for _v in classes_conf]
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scores = [sp_flatten(_v) for _v in scores]
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boxes = np.concatenate(boxes)
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classes_conf = np.concatenate(classes_conf)
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scores = np.concatenate(scores)
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# filter according to threshold
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boxes, classes, scores = filter_boxes(boxes, scores, classes_conf)
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# nms
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nboxes, nclasses, nscores = [], [], []
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for c in set(classes):
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inds = np.where(classes == c)
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b = boxes[inds]
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c = classes[inds]
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s = scores[inds]
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keep = nms_boxes(b, s)
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if len(keep) != 0:
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nboxes.append(b[keep])
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nclasses.append(c[keep])
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nscores.append(s[keep])
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if not nclasses and not nscores:
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return None, None, None
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boxes = np.concatenate(nboxes)
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classes = np.concatenate(nclasses)
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scores = np.concatenate(nscores)
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return boxes, classes, scores
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def draw(image, boxes, scores, classes):
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for box, score, cl in zip(boxes, scores, classes):
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top, left, right, bottom = [int(_b) for _b in box]
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print("%s @ (%d %d %d %d) %.3f" % (CLASSES[cl], top, left, right, bottom, score))
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cv2.rectangle(image, (top, left), (right, bottom), (255, 0, 0), 2)
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cv2.putText(image, '{0} {1:.2f}'.format(CLASSES[cl], score),
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(top, left - 6), cv2.FONT_HERSHEY_SIMPLEX, 0.6, (0, 0, 255), 2)
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INPUT_SIZE = 640
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if __name__ == '__main__':
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rknn_lite = RKNNLite()
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model = sys.argv[1]
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image_name = sys.argv[2]
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target = None
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# load RKNN model
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print('--> Load RKNN model')
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ret = rknn_lite.load_rknn(model)
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if ret != 0:
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print('Load RKNN model failed')
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exit(ret)
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print('done')
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ori_img = cv2.imread(image_name)
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img = cv2.cvtColor(ori_img, cv2.COLOR_BGR2RGB)
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img = cv2.resize(img, (IMG_SIZE,IMG_SIZE))
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# init runtime environment
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print('--> Init runtime environment')
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ret = rknn_lite.init_runtime(target=target)
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if ret != 0:
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print('Init runtime environment failed')
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exit(ret)
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print('done')
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with open("anchors_yolov5.txt", 'r') as f:
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values = [float(_v) for _v in f.readlines()]
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anchors = np.array(values).reshape(3,-1,2).tolist()
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print("use anchors from '{}', which is {}".format("anchors_yolov5.txt", anchors))
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# Inference
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print('--> Running model')
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outputs = rknn_lite.inference(inputs=[img])
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boxes, classes, scores = post_process(outputs, anchors)
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img_p = ori_img.copy()
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if boxes is not None:
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draw(img_p, get_real_box(boxes), scores, classes)
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if not os.path.exists('./result'):
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os.mkdir('./result')
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result_path = os.path.join('./result', image_name)
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cv2.imwrite(result_path, img_p)
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print('Detection result save to {}'.format(result_path))
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rknn_lite.release()
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# yolov5 train
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这里介绍rknn yolov5训练和转换。
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## 1. 训练
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源码使用[https://github.com/airockchip/yolov5](https://github.com/airockchip/yolov5)这个仓库。
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训练过程与官方的yolov5训练方法一致,训练完成之后,使用该仓库的`export.py`进行转换:
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```shell
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# for detection model
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python export.py --rknpu --weight yolov5s.pt
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# for segmentation model
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python export.py --rknpu --weight yolov5s-seg.pt
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```
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## 2. 转换
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之后,使用这里的`convert.py`将onnx转换为`rknn`:
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```shell
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python convert.py <onnx_model> <TARGET_PLATFORM> <dtype(optional)> <output_rknn_path(optional)>
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## 比如
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python convert.py yolov5.onnx rk1808 u8 yolov5.rknn
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```
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## 3. 测试
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将模型部署到1808上之后,使用下面的命令测试一张图片:
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```shell
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python test.py <rknn_model_name> <test_image>
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```
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Reference in New Issue
Block a user