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import numpy as np |
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import json |
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import os |
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import numpy as np |
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from PIL import Image |
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from multiprocessing import Pool, cpu_count |
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from urllib.parse import unquote |
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from datetime import datetime |
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import pandas as pd |
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import os |
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import tempfile |
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import argparse |
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import glob |
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import shutil |
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import tarfile |
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class InputStream: |
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def __init__(self, data): |
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self.data = data |
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self.i = 0 |
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def read(self, size): |
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out = self.data[self.i : self.i + size] |
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self.i += size |
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return int(out, 2) |
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def access_bit(data, num): |
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"""from bytes array to bits by num position""" |
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base = int(num // 8) |
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shift = 7 - int(num % 8) |
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return (data[base] & (1 << shift)) >> shift |
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def bytes2bit(data): |
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"""get bit string from bytes data""" |
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return ''.join([str(access_bit(data, i)) for i in range(len(data) * 8)]) |
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def decode_rle(rle, print_params: bool = False): |
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"""from LS RLE to numpy uint8 3d image [width, height, channel] |
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Args: |
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print_params (bool, optional): If true, a RLE parameters print statement is suppressed |
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""" |
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input = InputStream(bytes2bit(rle)) |
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num = input.read(32) |
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word_size = input.read(5) + 1 |
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rle_sizes = [input.read(4) + 1 for _ in range(4)] |
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if print_params: |
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print( |
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'RLE params:', num, 'values', word_size, 'word_size', rle_sizes, 'rle_sizes' |
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) |
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i = 0 |
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out = np.zeros(num, dtype=np.uint8) |
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while i < num: |
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x = input.read(1) |
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j = i + 1 + input.read(rle_sizes[input.read(2)]) |
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if x: |
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val = input.read(word_size) |
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out[i:j] = val |
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i = j |
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else: |
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while i < j: |
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val = input.read(word_size) |
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out[i] = val |
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i += 1 |
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return out |
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def log(message): |
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timestamp = datetime.now().strftime('%Y-%m-%d %H:%M:%S') |
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print(f"[{timestamp}] {message}") |
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def save_image(mask_image: Image.Image, save_path: str): |
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mask_image.save(save_path, format='PNG') |
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log(f'Saved mask: {save_path}') |
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def process_files_in_parallel(files_to_process, masks_save_directory, source_files): |
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with Pool(processes=cpu_count()//2) as pool: |
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results = pool.starmap(process_file, [(file, masks_save_directory, source_files) for file in files_to_process]) |
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return [e for r in results for e in r] |
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def process_file(file_path, masks_save_directory, source_files): |
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log(f"Opening file: {file_path}") |
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total_metadata = [] |
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try: |
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with open(file_path, 'r') as file: |
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data = json.load(file) |
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except Exception as e: |
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log(f'Error reading file {file_path}: {e}') |
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return total_metadata |
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image_name = data['task']['data']['image'].split('/')[-1] |
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if image_name not in source_files: |
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log(f"Requested file {image_name} does not exist in source data!") |
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return total_metadata |
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image_name_prefix = unquote(image_name.rsplit('.', 1)[0]) |
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log(f"Processing image: {image_name_prefix}") |
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label_counts = {} |
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for result in data['result']: |
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if 'rle' not in result['value']: |
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log(f"No 'rle' key found in result: {result.get('id', 'Unknown ID')}") |
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continue |
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rle_data = result['value']['rle'] |
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rle_bytes = bytes.fromhex(''.join(format(x, '02x') for x in rle_data)) |
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mask = decode_rle(rle_bytes) |
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original_height = result['original_height'] |
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original_width = result['original_width'] |
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mask = mask.reshape((original_height, original_width, 4)) |
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alpha_channel = mask[:, :, 3] |
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mask_image = np.zeros((original_height, original_width, 3), dtype=np.uint8) |
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mask_image[alpha_channel == 255] = [255, 255, 255] |
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if 'brushlabels' in result['value']: |
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for label in result['value']['brushlabels']: |
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label_counts[label] = label_counts.get(label, 0) + 1 |
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save_path = os.path.join(masks_save_directory, f"{image_name_prefix}-{label}-{label_counts[label]}.png") |
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save_image(Image.fromarray(mask_image).convert('L'), save_path) |
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metadata = { |
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"original_height": result['original_height'], |
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"original_width": result['original_width'], |
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"image": os.path.join('sourcedata/labeled/', os.path.basename(data['task']['data']['image'])), |
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"score": result['score'] if 'score' in result.keys() else 0, |
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"mask": save_path, |
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"class": label, |
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} |
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total_metadata.append(metadata) |
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return total_metadata |
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def merge_file_masks(mask_info, target_mask_dir, label2id, img): |
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final_mask = np.zeros( |
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np.asarray(Image.open(mask_info['mask'].iloc[0])).shape, dtype=np.uint8) |
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for i, r in mask_info.iterrows(): |
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mask = np.asarray(Image.open(r['mask'])) |
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final_mask = np.where(mask == 0, final_mask, label2id[r['class']]) |
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mask_path = os.path.join(target_mask_dir, f"{os.path.basename(img).split('.')[0]}_mask.png") |
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Image.fromarray(final_mask).convert('L').save(mask_path, format='PNG') |
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return { |
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'mask': mask_path, |
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'image': img, |
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'original_height': r['original_height'], |
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'original_width': r['original_width'] |
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} |
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def merge_masks(mask_metadata, target_mask_dir, label2id): |
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new_metadata = [] |
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imgs = [ |
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( |
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mask_metadata[mask_metadata['image'] == img], |
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target_mask_dir, |
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label2id, |
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img |
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) for img in mask_metadata['image'].unique()] |
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with Pool(processes=cpu_count()//2) as pool: |
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new_metadata = pool.starmap(merge_file_masks, imgs) |
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return new_metadata |
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def main(): |
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parser = argparse.ArgumentParser('maskconvert') |
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parser.add_argument('dataset_root', help="Root directory of the dataset repo.") |
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arguments = parser.parse_args() |
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tmp_raw_label_pth = tempfile.mkdtemp('_labels_raw') |
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with tarfile.open(os.path.join(arguments.dataset_root, 'labels_raw.tar.gz'), mode='r:gz') as archive: |
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archive.extractall(tmp_raw_label_pth) |
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annotations_folder_path = os.path.join(tmp_raw_label_pth, 'labels_raw') |
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tmp_mask_path = tempfile.mkdtemp('_masks') |
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files_to_process = glob.glob(f"{annotations_folder_path}/*") |
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images = {os.path.basename(x): x for x in glob.glob('sourcedata/**/*.jpg')} |
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source_files = [k for k in images.keys()] |
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metadata = pd.DataFrame(process_files_in_parallel(files_to_process, tmp_mask_path, source_files)) |
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id2label = {int(k): v for k, v in enumerate(['void', 'Fruit', 'Leaf', 'Flower', 'Stem'])} |
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label2id = {v: k for k, v in id2label.items()} |
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result = merge_masks(metadata, os.path.join(arguments.dataset_root, 'semantic_masks'), label2id) |
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result = pd.DataFrame(result).drop_duplicates() |
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images = {os.path.basename(x): x for x in glob.glob('sourcedata/**/*.jpg')} |
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for img in metadata['image']: |
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if 'unlabeled' in images[img]: |
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print("Moving {img} to labeled!") |
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shutil.move(images[img], os.path.join('sourcedata/labeled/', img)) |
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result.to_csv( |
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os.path.join(arguments.dataset_root, 'semantic_metadata.csv'), |
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index=False) |
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if __name__ == '__main__': |
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main() |
