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convert_mot17_to_coco.py

convert_mot17_to_coco.py 6.6 KB
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  1. import os
    2. 

  2. import numpy as np
    3. 

  3. import json
    4. 

  4. import cv2
    5. 

  5. 

  6. 

  7. # Use the same script for MOT16
    8. 

  8. DATA_PATH = 'datasets/mot'
    9. 

  9. OUT_PATH = os.path.join(DATA_PATH, 'annotations')
    10. 

  10. SPLITS = ['train_half', 'val_half', 'train', 'test']  # --> split training data to train_half and val_half.
    11. 

  11. HALF_VIDEO = True
    12. 

  12. CREATE_SPLITTED_ANN = True
    13. 

  13. CREATE_SPLITTED_DET = True
    14. 

  14. 

  15. 

  16. if __name__ == '__main__':
    17. 

  17. 

  18.     if not os.path.exists(OUT_PATH):
    19. 

  19.         os.makedirs(OUT_PATH)
    20. 

  20. 

  21.     for split in SPLITS:
    22. 

  22.         if split == "test":
    23. 

  23.             data_path = os.path.join(DATA_PATH, 'test')
    24. 

  24.         else:
    25. 

  25.             data_path = os.path.join(DATA_PATH, 'train')
    26. 

  26.         out_path = os.path.join(OUT_PATH, '{}.json'.format(split))
    27. 

  27.         out = {'images': [], 'annotations': [], 'videos': [],
    28. 

  28.                'categories': [{'id': 1, 'name': 'pedestrian'}]}
    29. 

  29.         seqs = os.listdir(data_path)
    30. 

  30.         image_cnt = 0
    31. 

  31.         ann_cnt = 0
    32. 

  32.         video_cnt = 0
    33. 

  33.         tid_curr = 0
    34. 

  34.         tid_last = -1
    35. 

  35.         for seq in sorted(seqs):
    36. 

  36.             if '.DS_Store' in seq:
    37. 

  37.                 continue
    38. 

  38.             if 'mot' in DATA_PATH and (split != 'test' and not ('FRCNN' in seq)):
    39. 

  39.                 continue
    40. 

  40.             video_cnt += 1  # video sequence number.
    41. 

  41.             out['videos'].append({'id': video_cnt, 'file_name': seq})
    42. 

  42.             seq_path = os.path.join(data_path, seq)
    43. 

  43.             img_path = os.path.join(seq_path, 'img1')
    44. 

  44.             ann_path = os.path.join(seq_path, 'gt/gt.txt')
    45. 

  45.             images = os.listdir(img_path)
    46. 

  46.             num_images = len([image for image in images if 'jpg' in image])  # half and half
    47. 

  47. 

  48.             if HALF_VIDEO and ('half' in split):
    49. 

  49.                 image_range = [0, num_images // 2] if 'train' in split else \
    50. 

  50.                               [num_images // 2 + 1, num_images - 1]
    51. 

  51.             else:
    52. 

  52.                 image_range = [0, num_images - 1]
    53. 

  53. 

  54.             for i in range(num_images):
    55. 

  55.                 if i < image_range[0] or i > image_range[1]:
    56. 

  56.                     continue
    57. 

  57.                 img = cv2.imread(os.path.join(data_path, '{}/img1/{:06d}.jpg'.format(seq, i + 1)))
    58. 

  58.                 height, width = img.shape[:2]
    59. 

  59.                 image_info = {'file_name': '{}/img1/{:06d}.jpg'.format(seq, i + 1),  # image name.
    60. 

  60.                               'id': image_cnt + i + 1,  # image number in the entire training set.
    61. 

  61.                               'frame_id': i + 1 - image_range[0],  # image number in the video sequence, starting from 1.
    62. 

  62.                               'prev_image_id': image_cnt + i if i > 0 else -1,  # image number in the entire training set.
    63. 

  63.                               'next_image_id': image_cnt + i + 2 if i < num_images - 1 else -1,
    64. 

  64.                               'video_id': video_cnt,
    65. 

  65.                               'height': height, 'width': width}
    66. 

  66.                 out['images'].append(image_info)
    67. 

  67.             print('{}: {} images'.format(seq, num_images))
    68. 

  68.             if split != 'test':
    69. 

  69.                 det_path = os.path.join(seq_path, 'det/det.txt')
    70. 

  70.                 anns = np.loadtxt(ann_path, dtype=np.float32, delimiter=',')
    71. 

  71.                 dets = np.loadtxt(det_path, dtype=np.float32, delimiter=',')
    72. 

  72.                 if CREATE_SPLITTED_ANN and ('half' in split):
    73. 

  73.                     anns_out = np.array([anns[i] for i in range(anns.shape[0])
    74. 

  74.                                          if int(anns[i][0]) - 1 >= image_range[0] and
    75. 

  75.                                          int(anns[i][0]) - 1 <= image_range[1]], np.float32) 
    76. 

  76.                     anns_out[:, 0] -= image_range[0]
    77. 

  77.                     gt_out = os.path.join(seq_path, 'gt/gt_{}.txt'.format(split))
    78. 

  78.                     fout = open(gt_out, 'w')
    79. 

  79.                     for o in anns_out:
    80. 

  80.                         fout.write('{:d},{:d},{:d},{:d},{:d},{:d},{:d},{:d},{:.6f}\n'.format(
    81. 

  81.                                     int(o[0]), int(o[1]), int(o[2]), int(o[3]), int(o[4]), int(o[5]),
    82. 

  82.                                     int(o[6]), int(o[7]), o[8]))
    83. 

  83.                     fout.close()
    84. 

  84.                 if CREATE_SPLITTED_DET and ('half' in split):
    85. 

  85.                     dets_out = np.array([dets[i] for i in range(dets.shape[0])
    86. 

  86.                                          if int(dets[i][0]) - 1 >= image_range[0] and
    87. 

  87.                                          int(dets[i][0]) - 1 <= image_range[1]], np.float32)
    88. 

  88.                     dets_out[:, 0] -= image_range[0]
    89. 

  89.                     det_out = os.path.join(seq_path, 'det/det_{}.txt'.format(split))
    90. 

  90.                     dout = open(det_out, 'w')
    91. 

  91.                     for o in dets_out:
    92. 

  92.                         dout.write('{:d},{:d},{:.1f},{:.1f},{:.1f},{:.1f},{:.6f}\n'.format(
    93. 

  93.                                     int(o[0]), int(o[1]), float(o[2]), float(o[3]), float(o[4]), float(o[5]),
    94. 

  94.                                     float(o[6])))
    95. 

  95.                     dout.close()
    96. 

  96. 

  97.                 print('{} ann images'.format(int(anns[:, 0].max())))
    98. 

  98.                 for i in range(anns.shape[0]):
    99. 

  99.                     frame_id = int(anns[i][0])
    100. 

  100.                     if frame_id - 1 < image_range[0] or frame_id - 1 > image_range[1]:
    101. 

  101.                         continue
    102. 

  102.                     track_id = int(anns[i][1])
    103. 

  103.                     cat_id = int(anns[i][7])
    104. 

  104.                     ann_cnt += 1
    105. 

  105.                     if not ('15' in DATA_PATH):
    106. 

  106.                         #if not (float(anns[i][8]) >= 0.25):  # visibility.
    107. 

  107.                             #continue
    108. 

  108.                         if not (int(anns[i][6]) == 1):  # whether ignore.
    109. 

  109.                             continue
    110. 

  110.                         if int(anns[i][7]) in [3, 4, 5, 6, 9, 10, 11]:  # Non-person
    111. 

  111.                             continue
    112. 

  112.                         if int(anns[i][7]) in [2, 7, 8, 12]:  # Ignored person
    113. 

  113.                             category_id = -1
    114. 

  114.                         else:
    115. 

  115.                             category_id = 1  # pedestrian(non-static)
    116. 

  116.                             if not track_id == tid_last:
    117. 

  117.                                 tid_curr += 1
    118. 

  118.                                 tid_last = track_id
    119. 

  119.                     else:
    120. 

  120.                         category_id = 1
    121. 

  121.                     ann = {'id': ann_cnt,
    122. 

  122.                            'category_id': category_id,
    123. 

  123.                            'image_id': image_cnt + frame_id,
    124. 

  124.                            'track_id': tid_curr,
    125. 

  125.                            'bbox': anns[i][2:6].tolist(),
    126. 

  126.                            'conf': float(anns[i][6]),
    127. 

  127.                            'iscrowd': 0,
    128. 

  128.                            'area': float(anns[i][4] * anns[i][5])}
    129. 

  129.                     out['annotations'].append(ann)
    130. 

  130.             image_cnt += num_images
    131. 

  131.             print(tid_curr, tid_last)
    132. 

  132.         print('loaded {} for {} images and {} samples'.format(split, len(out['images']), len(out['annotations'])))
    133. 

  133.         json.dump(out, open(out_path, 'w'))
    134.