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440 lines
18 KiB
440 lines
18 KiB
# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved. |
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# |
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# Licensed under the Apache License, Version 2.0 (the "License"); |
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# you may not use this file except in compliance with the License. |
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# You may obtain a copy of the License at |
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# |
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# http://www.apache.org/licenses/LICENSE-2.0 |
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# |
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# Unless required by applicable law or agreed to in writing, software |
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# distributed under the License is distributed on an "AS IS" BASIS, |
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
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# See the License for the specific language governing permissions and |
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# limitations under the License. |
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from __future__ import absolute_import |
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import copy |
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import os |
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import os.path as osp |
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import random |
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import re |
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from collections import OrderedDict |
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import xml.etree.ElementTree as ET |
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import numpy as np |
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from paddle.io import Dataset |
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from paddlers.utils import logging, get_num_workers, get_encoding, path_normalization, is_pic |
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from paddlers.transforms import DecodeImg, MixupImage |
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from paddlers.tools import YOLOAnchorCluster |
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class VOCDetection(Dataset): |
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"""读取PascalVOC格式的检测数据集,并对样本进行相应的处理。 |
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Args: |
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data_dir (str): 数据集所在的目录路径。 |
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file_list (str): 描述数据集图片文件和对应标注文件的文件路径(文本内每行路径为相对data_dir的相对路)。 |
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label_list (str): 描述数据集包含的类别信息文件路径。 |
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transforms (paddlers.det.transforms): 数据集中每个样本的预处理/增强算子。 |
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num_workers (int|str): 数据集中样本在预处理过程中的线程或进程数。默认为'auto'。当设为'auto'时,根据 |
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系统的实际CPU核数设置`num_workers`: 如果CPU核数的一半大于8,则`num_workers`为8,否则为CPU核数的 |
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一半。 |
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shuffle (bool): 是否需要对数据集中样本打乱顺序。默认为False。 |
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allow_empty (bool): 是否加载负样本。默认为False。 |
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empty_ratio (float): 用于指定负样本占总样本数的比例。如果小于0或大于等于1,则保留全部的负样本。默认为1。 |
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""" |
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def __init__(self, |
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data_dir, |
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file_list, |
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label_list, |
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transforms=None, |
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num_workers='auto', |
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shuffle=False, |
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allow_empty=False, |
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empty_ratio=1.): |
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# matplotlib.use() must be called *before* pylab, matplotlib.pyplot, |
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# or matplotlib.backends is imported for the first time |
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# pycocotools import matplotlib |
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import matplotlib |
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matplotlib.use('Agg') |
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from pycocotools.coco import COCO |
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super(VOCDetection, self).__init__() |
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self.data_dir = data_dir |
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self.data_fields = None |
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self.transforms = copy.deepcopy(transforms) |
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self.num_max_boxes = 50 |
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self.use_mix = False |
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if self.transforms is not None: |
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for op in self.transforms.transforms: |
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if isinstance(op, MixupImage): |
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self.mixup_op = copy.deepcopy(op) |
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self.use_mix = True |
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self.num_max_boxes *= 2 |
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break |
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self.batch_transforms = None |
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self.num_workers = get_num_workers(num_workers) |
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self.shuffle = shuffle |
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self.allow_empty = allow_empty |
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self.empty_ratio = empty_ratio |
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self.file_list = list() |
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neg_file_list = list() |
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self.labels = list() |
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annotations = dict() |
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annotations['images'] = list() |
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annotations['categories'] = list() |
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annotations['annotations'] = list() |
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cname2cid = OrderedDict() |
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label_id = 0 |
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with open(label_list, 'r', encoding=get_encoding(label_list)) as f: |
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for line in f.readlines(): |
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cname2cid[line.strip()] = label_id |
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label_id += 1 |
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self.labels.append(line.strip()) |
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logging.info("Starting to read file list from dataset...") |
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for k, v in cname2cid.items(): |
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annotations['categories'].append({ |
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'supercategory': 'component', |
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'id': v + 1, |
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'name': k |
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}) |
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ct = 0 |
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ann_ct = 0 |
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with open(file_list, 'r', encoding=get_encoding(file_list)) as f: |
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while True: |
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line = f.readline() |
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if not line: |
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break |
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if len(line.strip().split()) > 2: |
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raise Exception("A space is defined as the separator, " |
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"but it exists in image or label name {}." |
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.format(line)) |
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img_file, xml_file = [ |
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osp.join(data_dir, x) for x in line.strip().split()[:2] |
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] |
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img_file = path_normalization(img_file) |
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xml_file = path_normalization(xml_file) |
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if not is_pic(img_file): |
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continue |
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if not osp.isfile(xml_file): |
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continue |
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if not osp.exists(img_file): |
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logging.warning('The image file {} does not exist!'.format( |
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img_file)) |
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continue |
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if not osp.exists(xml_file): |
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logging.warning('The annotation file {} does not exist!'. |
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format(xml_file)) |
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continue |
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tree = ET.parse(xml_file) |
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if tree.find('id') is None: |
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im_id = np.asarray([ct]) |
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else: |
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ct = int(tree.find('id').text) |
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im_id = np.asarray([int(tree.find('id').text)]) |
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pattern = re.compile('<size>', re.IGNORECASE) |
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size_tag = pattern.findall(str(ET.tostringlist(tree.getroot()))) |
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if len(size_tag) > 0: |
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size_tag = size_tag[0][1:-1] |
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size_element = tree.find(size_tag) |
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pattern = re.compile('<width>', re.IGNORECASE) |
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width_tag = pattern.findall( |
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str(ET.tostringlist(size_element)))[0][1:-1] |
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im_w = float(size_element.find(width_tag).text) |
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pattern = re.compile('<height>', re.IGNORECASE) |
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height_tag = pattern.findall( |
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str(ET.tostringlist(size_element)))[0][1:-1] |
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im_h = float(size_element.find(height_tag).text) |
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else: |
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im_w = 0 |
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im_h = 0 |
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pattern = re.compile('<object>', re.IGNORECASE) |
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obj_match = pattern.findall( |
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str(ET.tostringlist(tree.getroot()))) |
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if len(obj_match) > 0: |
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obj_tag = obj_match[0][1:-1] |
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objs = tree.findall(obj_tag) |
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else: |
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objs = list() |
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num_bbox, i = len(objs), 0 |
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gt_bbox = np.zeros((num_bbox, 4), dtype=np.float32) |
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gt_class = np.zeros((num_bbox, 1), dtype=np.int32) |
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gt_score = np.zeros((num_bbox, 1), dtype=np.float32) |
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is_crowd = np.zeros((num_bbox, 1), dtype=np.int32) |
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difficult = np.zeros((num_bbox, 1), dtype=np.int32) |
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for obj in objs: |
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pattern = re.compile('<name>', re.IGNORECASE) |
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name_tag = pattern.findall(str(ET.tostringlist(obj)))[0][1: |
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-1] |
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cname = obj.find(name_tag).text.strip() |
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pattern = re.compile('<difficult>', re.IGNORECASE) |
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diff_tag = pattern.findall(str(ET.tostringlist(obj))) |
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if len(diff_tag) == 0: |
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_difficult = 0 |
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else: |
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diff_tag = diff_tag[0][1:-1] |
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try: |
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_difficult = int(obj.find(diff_tag).text) |
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except Exception: |
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_difficult = 0 |
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pattern = re.compile('<bndbox>', re.IGNORECASE) |
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box_tag = pattern.findall(str(ET.tostringlist(obj))) |
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if len(box_tag) == 0: |
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logging.warning( |
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"There's no field '<bndbox>' in one of object, " |
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"so this object will be ignored. xml file: {}". |
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format(xml_file)) |
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continue |
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box_tag = box_tag[0][1:-1] |
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box_element = obj.find(box_tag) |
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pattern = re.compile('<xmin>', re.IGNORECASE) |
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xmin_tag = pattern.findall( |
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str(ET.tostringlist(box_element)))[0][1:-1] |
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x1 = float(box_element.find(xmin_tag).text) |
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pattern = re.compile('<ymin>', re.IGNORECASE) |
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ymin_tag = pattern.findall( |
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str(ET.tostringlist(box_element)))[0][1:-1] |
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y1 = float(box_element.find(ymin_tag).text) |
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pattern = re.compile('<xmax>', re.IGNORECASE) |
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xmax_tag = pattern.findall( |
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str(ET.tostringlist(box_element)))[0][1:-1] |
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x2 = float(box_element.find(xmax_tag).text) |
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pattern = re.compile('<ymax>', re.IGNORECASE) |
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ymax_tag = pattern.findall( |
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str(ET.tostringlist(box_element)))[0][1:-1] |
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y2 = float(box_element.find(ymax_tag).text) |
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x1 = max(0, x1) |
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y1 = max(0, y1) |
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if im_w > 0.5 and im_h > 0.5: |
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x2 = min(im_w - 1, x2) |
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y2 = min(im_h - 1, y2) |
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if not (x2 >= x1 and y2 >= y1): |
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logging.warning( |
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"Bounding box for object {} does not satisfy xmin {} <= xmax {} and ymin {} <= ymax {}, " |
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"so this object is skipped. xml file: {}".format( |
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i, x1, x2, y1, y2, xml_file)) |
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continue |
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gt_bbox[i, :] = [x1, y1, x2, y2] |
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gt_class[i, 0] = cname2cid[cname] |
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gt_score[i, 0] = 1. |
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is_crowd[i, 0] = 0 |
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difficult[i, 0] = _difficult |
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i += 1 |
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annotations['annotations'].append({ |
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'iscrowd': 0, |
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'image_id': int(im_id[0]), |
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'bbox': [x1, y1, x2 - x1, y2 - y1], |
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'area': float((x2 - x1) * (y2 - y1)), |
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'category_id': cname2cid[cname] + 1, |
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'id': ann_ct, |
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'difficult': _difficult |
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}) |
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ann_ct += 1 |
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gt_bbox = gt_bbox[:i, :] |
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gt_class = gt_class[:i, :] |
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gt_score = gt_score[:i, :] |
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is_crowd = is_crowd[:i, :] |
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difficult = difficult[:i, :] |
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im_info = { |
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'im_id': im_id, |
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'image_shape': np.array( |
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[im_h, im_w], dtype=np.int32) |
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} |
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label_info = { |
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'is_crowd': is_crowd, |
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'gt_class': gt_class, |
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'gt_bbox': gt_bbox, |
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'gt_score': gt_score, |
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'difficult': difficult |
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} |
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if gt_bbox.size > 0: |
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self.file_list.append({ |
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'image': img_file, |
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** |
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im_info, |
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** |
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label_info |
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}) |
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annotations['images'].append({ |
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'height': im_h, |
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'width': im_w, |
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'id': int(im_id[0]), |
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'file_name': osp.split(img_file)[1] |
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}) |
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else: |
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neg_file_list.append({ |
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'image': img_file, |
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** |
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im_info, |
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** |
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label_info |
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}) |
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ct += 1 |
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if self.use_mix: |
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self.num_max_boxes = max(self.num_max_boxes, 2 * len(objs)) |
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else: |
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self.num_max_boxes = max(self.num_max_boxes, len(objs)) |
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if not ct: |
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logging.error("No voc record found in %s' % (file_list)", exit=True) |
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self.pos_num = len(self.file_list) |
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if self.allow_empty and neg_file_list: |
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self.file_list += self._sample_empty(neg_file_list) |
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logging.info( |
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"{} samples in file {}, including {} positive samples and {} negative samples.". |
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format( |
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len(self.file_list), file_list, self.pos_num, |
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len(self.file_list) - self.pos_num)) |
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self.num_samples = len(self.file_list) |
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self.coco_gt = COCO() |
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self.coco_gt.dataset = annotations |
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self.coco_gt.createIndex() |
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self._epoch = 0 |
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def __getitem__(self, idx): |
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sample = copy.deepcopy(self.file_list[idx]) |
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if self.data_fields is not None: |
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sample = {k: sample[k] for k in self.data_fields} |
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if self.use_mix and (self.mixup_op.mixup_epoch == -1 or |
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self._epoch < self.mixup_op.mixup_epoch): |
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if self.num_samples > 1: |
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mix_idx = random.randint(1, self.num_samples - 1) |
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mix_pos = (mix_idx + idx) % self.num_samples |
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else: |
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mix_pos = 0 |
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sample_mix = copy.deepcopy(self.file_list[mix_pos]) |
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if self.data_fields is not None: |
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sample_mix = {k: sample_mix[k] for k in self.data_fields} |
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sample = self.mixup_op(sample=[ |
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DecodeImg(to_rgb=False)(sample), |
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DecodeImg(to_rgb=False)(sample_mix) |
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]) |
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sample = self.transforms(sample) |
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return sample |
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def __len__(self): |
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return self.num_samples |
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def set_epoch(self, epoch_id): |
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self._epoch = epoch_id |
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def cluster_yolo_anchor(self, |
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num_anchors, |
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image_size, |
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cache=True, |
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cache_path=None, |
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iters=300, |
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gen_iters=1000, |
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thresh=.25): |
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""" |
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Cluster YOLO anchors. |
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Reference: |
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https://github.com/ultralytics/yolov5/blob/master/utils/autoanchor.py |
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Args: |
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num_anchors (int): number of clusters |
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image_size (list or int): [h, w], being an int means image height and image width are the same. |
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cache (bool): whether using cache |
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cache_path (str or None, optional): cache directory path. If None, use `data_dir` of dataset. |
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iters (int, optional): iters of kmeans algorithm |
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gen_iters (int, optional): iters of genetic algorithm |
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threshold (float, optional): anchor scale threshold |
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verbose (bool, optional): whether print results |
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""" |
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if cache_path is None: |
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cache_path = self.data_dir |
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cluster = YOLOAnchorCluster( |
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num_anchors=num_anchors, |
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dataset=self, |
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image_size=image_size, |
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cache=cache, |
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cache_path=cache_path, |
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iters=iters, |
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gen_iters=gen_iters, |
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thresh=thresh) |
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anchors = cluster() |
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return anchors |
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def add_negative_samples(self, image_dir, empty_ratio=1): |
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"""将背景图片加入训练 |
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Args: |
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image_dir (str):背景图片所在的文件夹目录。 |
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empty_ratio (float or None): 用于指定负样本占总样本数的比例。如果为None,保留数据集初始化是设置的`empty_ratio`值, |
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否则更新原有`empty_ratio`值。如果小于0或大于等于1,则保留全部的负样本。默认为1。 |
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""" |
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import cv2 |
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if not osp.isdir(image_dir): |
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raise Exception("{} is not a valid image directory.".format( |
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image_dir)) |
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if empty_ratio is not None: |
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self.empty_ratio = empty_ratio |
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image_list = os.listdir(image_dir) |
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max_img_id = max(len(self.file_list) - 1, max(self.coco_gt.getImgIds())) |
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neg_file_list = list() |
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for image in image_list: |
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if not is_pic(image): |
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continue |
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gt_bbox = np.zeros((0, 4), dtype=np.float32) |
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gt_class = np.zeros((0, 1), dtype=np.int32) |
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gt_score = np.zeros((0, 1), dtype=np.float32) |
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is_crowd = np.zeros((0, 1), dtype=np.int32) |
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difficult = np.zeros((0, 1), dtype=np.int32) |
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max_img_id += 1 |
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im_fname = osp.join(image_dir, image) |
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img_data = cv2.imread(im_fname, cv2.IMREAD_UNCHANGED) |
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im_h, im_w, im_c = img_data.shape |
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im_info = { |
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'im_id': np.asarray([max_img_id]), |
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'image_shape': np.array( |
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[im_h, im_w], dtype=np.int32) |
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} |
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label_info = { |
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'is_crowd': is_crowd, |
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'gt_class': gt_class, |
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'gt_bbox': gt_bbox, |
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'gt_score': gt_score, |
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'difficult': difficult |
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} |
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if 'gt_poly' in self.file_list[0]: |
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label_info['gt_poly'] = [] |
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neg_file_list.append({'image': im_fname, ** im_info, ** label_info}) |
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if neg_file_list: |
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self.allow_empty = True |
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self.file_list += self._sample_empty(neg_file_list) |
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logging.info( |
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"{} negative samples added. Dataset contains {} positive samples and {} negative samples.". |
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format( |
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len(self.file_list) - self.num_samples, self.pos_num, |
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len(self.file_list) - self.pos_num)) |
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self.num_samples = len(self.file_list) |
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def _sample_empty(self, neg_file_list): |
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if 0. <= self.empty_ratio < 1.: |
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import random |
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total_num = len(self.file_list) |
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neg_num = total_num - self.pos_num |
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sample_num = min((total_num * self.empty_ratio - neg_num) // |
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(1 - self.empty_ratio), len(neg_file_list)) |
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return random.sample(neg_file_list, sample_num) |
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else: |
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return neg_file_list
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