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import itertools | |
import logging | |
import os.path as osp | |
import tempfile | |
from collections import OrderedDict | |
import annotator.uniformer.mmcv as mmcv | |
import numpy as np | |
import pycocotools | |
from annotator.uniformer.mmcv.utils import print_log | |
from pycocotools.coco import COCO | |
from pycocotools.cocoeval import COCOeval | |
from terminaltables import AsciiTable | |
from annotator.uniformer.mmdet.core import eval_recalls | |
from .builder import DATASETS | |
from .custom import CustomDataset | |
class CocoDataset(CustomDataset): | |
CLASSES = ('person', 'bicycle', 'car', 'motorcycle', 'airplane', 'bus', | |
'train', 'truck', 'boat', 'traffic light', 'fire hydrant', | |
'stop sign', 'parking meter', 'bench', 'bird', 'cat', 'dog', | |
'horse', 'sheep', 'cow', 'elephant', 'bear', 'zebra', 'giraffe', | |
'backpack', 'umbrella', 'handbag', 'tie', 'suitcase', 'frisbee', | |
'skis', 'snowboard', 'sports ball', 'kite', 'baseball bat', | |
'baseball glove', 'skateboard', 'surfboard', 'tennis racket', | |
'bottle', 'wine glass', 'cup', 'fork', 'knife', 'spoon', 'bowl', | |
'banana', 'apple', 'sandwich', 'orange', 'broccoli', 'carrot', | |
'hot dog', 'pizza', 'donut', 'cake', 'chair', 'couch', | |
'potted plant', 'bed', 'dining table', 'toilet', 'tv', 'laptop', | |
'mouse', 'remote', 'keyboard', 'cell phone', 'microwave', | |
'oven', 'toaster', 'sink', 'refrigerator', 'book', 'clock', | |
'vase', 'scissors', 'teddy bear', 'hair drier', 'toothbrush') | |
def load_annotations(self, ann_file): | |
"""Load annotation from COCO style annotation file. | |
Args: | |
ann_file (str): Path of annotation file. | |
Returns: | |
list[dict]: Annotation info from COCO api. | |
""" | |
if not getattr(pycocotools, '__version__', '0') >= '12.0.2': | |
raise AssertionError( | |
'Incompatible version of pycocotools is installed. ' | |
'Run pip uninstall pycocotools first. Then run pip ' | |
'install mmpycocotools to install open-mmlab forked ' | |
'pycocotools.') | |
self.coco = COCO(ann_file) | |
self.cat_ids = self.coco.get_cat_ids(cat_names=self.CLASSES) | |
self.cat2label = {cat_id: i for i, cat_id in enumerate(self.cat_ids)} | |
self.img_ids = self.coco.get_img_ids() | |
data_infos = [] | |
total_ann_ids = [] | |
for i in self.img_ids: | |
info = self.coco.load_imgs([i])[0] | |
info['filename'] = info['file_name'] | |
data_infos.append(info) | |
ann_ids = self.coco.get_ann_ids(img_ids=[i]) | |
total_ann_ids.extend(ann_ids) | |
assert len(set(total_ann_ids)) == len( | |
total_ann_ids), f"Annotation ids in '{ann_file}' are not unique!" | |
return data_infos | |
def get_ann_info(self, idx): | |
"""Get COCO annotation by index. | |
Args: | |
idx (int): Index of data. | |
Returns: | |
dict: Annotation info of specified index. | |
""" | |
img_id = self.data_infos[idx]['id'] | |
ann_ids = self.coco.get_ann_ids(img_ids=[img_id]) | |
ann_info = self.coco.load_anns(ann_ids) | |
return self._parse_ann_info(self.data_infos[idx], ann_info) | |
def get_cat_ids(self, idx): | |
"""Get COCO category ids by index. | |
Args: | |
idx (int): Index of data. | |
Returns: | |
list[int]: All categories in the image of specified index. | |
""" | |
img_id = self.data_infos[idx]['id'] | |
ann_ids = self.coco.get_ann_ids(img_ids=[img_id]) | |
ann_info = self.coco.load_anns(ann_ids) | |
return [ann['category_id'] for ann in ann_info] | |
def _filter_imgs(self, min_size=32): | |
"""Filter images too small or without ground truths.""" | |
valid_inds = [] | |
# obtain images that contain annotation | |
ids_with_ann = set(_['image_id'] for _ in self.coco.anns.values()) | |
# obtain images that contain annotations of the required categories | |
ids_in_cat = set() | |
for i, class_id in enumerate(self.cat_ids): | |
ids_in_cat |= set(self.coco.cat_img_map[class_id]) | |
# merge the image id sets of the two conditions and use the merged set | |
# to filter out images if self.filter_empty_gt=True | |
ids_in_cat &= ids_with_ann | |
valid_img_ids = [] | |
for i, img_info in enumerate(self.data_infos): | |
img_id = self.img_ids[i] | |
if self.filter_empty_gt and img_id not in ids_in_cat: | |
continue | |
if min(img_info['width'], img_info['height']) >= min_size: | |
valid_inds.append(i) | |
valid_img_ids.append(img_id) | |
self.img_ids = valid_img_ids | |
return valid_inds | |
def _parse_ann_info(self, img_info, ann_info): | |
"""Parse bbox and mask annotation. | |
Args: | |
ann_info (list[dict]): Annotation info of an image. | |
with_mask (bool): Whether to parse mask annotations. | |
Returns: | |
dict: A dict containing the following keys: bboxes, bboxes_ignore,\ | |
labels, masks, seg_map. "masks" are raw annotations and not \ | |
decoded into binary masks. | |
""" | |
gt_bboxes = [] | |
gt_labels = [] | |
gt_bboxes_ignore = [] | |
gt_masks_ann = [] | |
for i, ann in enumerate(ann_info): | |
if ann.get('ignore', False): | |
continue | |
x1, y1, w, h = ann['bbox'] | |
inter_w = max(0, min(x1 + w, img_info['width']) - max(x1, 0)) | |
inter_h = max(0, min(y1 + h, img_info['height']) - max(y1, 0)) | |
if inter_w * inter_h == 0: | |
continue | |
if ann['area'] <= 0 or w < 1 or h < 1: | |
continue | |
if ann['category_id'] not in self.cat_ids: | |
continue | |
bbox = [x1, y1, x1 + w, y1 + h] | |
if ann.get('iscrowd', False): | |
gt_bboxes_ignore.append(bbox) | |
else: | |
gt_bboxes.append(bbox) | |
gt_labels.append(self.cat2label[ann['category_id']]) | |
gt_masks_ann.append(ann.get('segmentation', None)) | |
if gt_bboxes: | |
gt_bboxes = np.array(gt_bboxes, dtype=np.float32) | |
gt_labels = np.array(gt_labels, dtype=np.int64) | |
else: | |
gt_bboxes = np.zeros((0, 4), dtype=np.float32) | |
gt_labels = np.array([], dtype=np.int64) | |
if gt_bboxes_ignore: | |
gt_bboxes_ignore = np.array(gt_bboxes_ignore, dtype=np.float32) | |
else: | |
gt_bboxes_ignore = np.zeros((0, 4), dtype=np.float32) | |
seg_map = img_info['filename'].replace('jpg', 'png') | |
ann = dict( | |
bboxes=gt_bboxes, | |
labels=gt_labels, | |
bboxes_ignore=gt_bboxes_ignore, | |
masks=gt_masks_ann, | |
seg_map=seg_map) | |
return ann | |
def xyxy2xywh(self, bbox): | |
"""Convert ``xyxy`` style bounding boxes to ``xywh`` style for COCO | |
evaluation. | |
Args: | |
bbox (numpy.ndarray): The bounding boxes, shape (4, ), in | |
``xyxy`` order. | |
Returns: | |
list[float]: The converted bounding boxes, in ``xywh`` order. | |
""" | |
_bbox = bbox.tolist() | |
return [ | |
_bbox[0], | |
_bbox[1], | |
_bbox[2] - _bbox[0], | |
_bbox[3] - _bbox[1], | |
] | |
def _proposal2json(self, results): | |
"""Convert proposal results to COCO json style.""" | |
json_results = [] | |
for idx in range(len(self)): | |
img_id = self.img_ids[idx] | |
bboxes = results[idx] | |
for i in range(bboxes.shape[0]): | |
data = dict() | |
data['image_id'] = img_id | |
data['bbox'] = self.xyxy2xywh(bboxes[i]) | |
data['score'] = float(bboxes[i][4]) | |
data['category_id'] = 1 | |
json_results.append(data) | |
return json_results | |
def _det2json(self, results): | |
"""Convert detection results to COCO json style.""" | |
json_results = [] | |
for idx in range(len(self)): | |
img_id = self.img_ids[idx] | |
result = results[idx] | |
for label in range(len(result)): | |
bboxes = result[label] | |
for i in range(bboxes.shape[0]): | |
data = dict() | |
data['image_id'] = img_id | |
data['bbox'] = self.xyxy2xywh(bboxes[i]) | |
data['score'] = float(bboxes[i][4]) | |
data['category_id'] = self.cat_ids[label] | |
json_results.append(data) | |
return json_results | |
def _segm2json(self, results): | |
"""Convert instance segmentation results to COCO json style.""" | |
bbox_json_results = [] | |
segm_json_results = [] | |
for idx in range(len(self)): | |
img_id = self.img_ids[idx] | |
det, seg = results[idx] | |
for label in range(len(det)): | |
# bbox results | |
bboxes = det[label] | |
for i in range(bboxes.shape[0]): | |
data = dict() | |
data['image_id'] = img_id | |
data['bbox'] = self.xyxy2xywh(bboxes[i]) | |
data['score'] = float(bboxes[i][4]) | |
data['category_id'] = self.cat_ids[label] | |
bbox_json_results.append(data) | |
# segm results | |
# some detectors use different scores for bbox and mask | |
if isinstance(seg, tuple): | |
segms = seg[0][label] | |
mask_score = seg[1][label] | |
else: | |
segms = seg[label] | |
mask_score = [bbox[4] for bbox in bboxes] | |
for i in range(bboxes.shape[0]): | |
data = dict() | |
data['image_id'] = img_id | |
data['bbox'] = self.xyxy2xywh(bboxes[i]) | |
data['score'] = float(mask_score[i]) | |
data['category_id'] = self.cat_ids[label] | |
if isinstance(segms[i]['counts'], bytes): | |
segms[i]['counts'] = segms[i]['counts'].decode() | |
data['segmentation'] = segms[i] | |
segm_json_results.append(data) | |
return bbox_json_results, segm_json_results | |
def results2json(self, results, outfile_prefix): | |
"""Dump the detection results to a COCO style json file. | |
There are 3 types of results: proposals, bbox predictions, mask | |
predictions, and they have different data types. This method will | |
automatically recognize the type, and dump them to json files. | |
Args: | |
results (list[list | tuple | ndarray]): Testing results of the | |
dataset. | |
outfile_prefix (str): The filename prefix of the json files. If the | |
prefix is "somepath/xxx", the json files will be named | |
"somepath/xxx.bbox.json", "somepath/xxx.segm.json", | |
"somepath/xxx.proposal.json". | |
Returns: | |
dict[str: str]: Possible keys are "bbox", "segm", "proposal", and \ | |
values are corresponding filenames. | |
""" | |
result_files = dict() | |
if isinstance(results[0], list): | |
json_results = self._det2json(results) | |
result_files['bbox'] = f'{outfile_prefix}.bbox.json' | |
result_files['proposal'] = f'{outfile_prefix}.bbox.json' | |
mmcv.dump(json_results, result_files['bbox']) | |
elif isinstance(results[0], tuple): | |
json_results = self._segm2json(results) | |
result_files['bbox'] = f'{outfile_prefix}.bbox.json' | |
result_files['proposal'] = f'{outfile_prefix}.bbox.json' | |
result_files['segm'] = f'{outfile_prefix}.segm.json' | |
mmcv.dump(json_results[0], result_files['bbox']) | |
mmcv.dump(json_results[1], result_files['segm']) | |
elif isinstance(results[0], np.ndarray): | |
json_results = self._proposal2json(results) | |
result_files['proposal'] = f'{outfile_prefix}.proposal.json' | |
mmcv.dump(json_results, result_files['proposal']) | |
else: | |
raise TypeError('invalid type of results') | |
return result_files | |
def fast_eval_recall(self, results, proposal_nums, iou_thrs, logger=None): | |
gt_bboxes = [] | |
for i in range(len(self.img_ids)): | |
ann_ids = self.coco.get_ann_ids(img_ids=self.img_ids[i]) | |
ann_info = self.coco.load_anns(ann_ids) | |
if len(ann_info) == 0: | |
gt_bboxes.append(np.zeros((0, 4))) | |
continue | |
bboxes = [] | |
for ann in ann_info: | |
if ann.get('ignore', False) or ann['iscrowd']: | |
continue | |
x1, y1, w, h = ann['bbox'] | |
bboxes.append([x1, y1, x1 + w, y1 + h]) | |
bboxes = np.array(bboxes, dtype=np.float32) | |
if bboxes.shape[0] == 0: | |
bboxes = np.zeros((0, 4)) | |
gt_bboxes.append(bboxes) | |
recalls = eval_recalls( | |
gt_bboxes, results, proposal_nums, iou_thrs, logger=logger) | |
ar = recalls.mean(axis=1) | |
return ar | |
def format_results(self, results, jsonfile_prefix=None, **kwargs): | |
"""Format the results to json (standard format for COCO evaluation). | |
Args: | |
results (list[tuple | numpy.ndarray]): Testing results of the | |
dataset. | |
jsonfile_prefix (str | None): The prefix of json files. It includes | |
the file path and the prefix of filename, e.g., "a/b/prefix". | |
If not specified, a temp file will be created. Default: None. | |
Returns: | |
tuple: (result_files, tmp_dir), result_files is a dict containing \ | |
the json filepaths, tmp_dir is the temporal directory created \ | |
for saving json files when jsonfile_prefix is not specified. | |
""" | |
assert isinstance(results, list), 'results must be a list' | |
assert len(results) == len(self), ( | |
'The length of results is not equal to the dataset len: {} != {}'. | |
format(len(results), len(self))) | |
if jsonfile_prefix is None: | |
tmp_dir = tempfile.TemporaryDirectory() | |
jsonfile_prefix = osp.join(tmp_dir.name, 'results') | |
else: | |
tmp_dir = None | |
result_files = self.results2json(results, jsonfile_prefix) | |
return result_files, tmp_dir | |
def evaluate(self, | |
results, | |
metric='bbox', | |
logger=None, | |
jsonfile_prefix=None, | |
classwise=False, | |
proposal_nums=(100, 300, 1000), | |
iou_thrs=None, | |
metric_items=None): | |
"""Evaluation in COCO protocol. | |
Args: | |
results (list[list | tuple]): Testing results of the dataset. | |
metric (str | list[str]): Metrics to be evaluated. Options are | |
'bbox', 'segm', 'proposal', 'proposal_fast'. | |
logger (logging.Logger | str | None): Logger used for printing | |
related information during evaluation. Default: None. | |
jsonfile_prefix (str | None): The prefix of json files. It includes | |
the file path and the prefix of filename, e.g., "a/b/prefix". | |
If not specified, a temp file will be created. Default: None. | |
classwise (bool): Whether to evaluating the AP for each class. | |
proposal_nums (Sequence[int]): Proposal number used for evaluating | |
recalls, such as recall@100, recall@1000. | |
Default: (100, 300, 1000). | |
iou_thrs (Sequence[float], optional): IoU threshold used for | |
evaluating recalls/mAPs. If set to a list, the average of all | |
IoUs will also be computed. If not specified, [0.50, 0.55, | |
0.60, 0.65, 0.70, 0.75, 0.80, 0.85, 0.90, 0.95] will be used. | |
Default: None. | |
metric_items (list[str] | str, optional): Metric items that will | |
be returned. If not specified, ``['AR@100', 'AR@300', | |
'AR@1000', 'AR_s@1000', 'AR_m@1000', 'AR_l@1000' ]`` will be | |
used when ``metric=='proposal'``, ``['mAP', 'mAP_50', 'mAP_75', | |
'mAP_s', 'mAP_m', 'mAP_l']`` will be used when | |
``metric=='bbox' or metric=='segm'``. | |
Returns: | |
dict[str, float]: COCO style evaluation metric. | |
""" | |
metrics = metric if isinstance(metric, list) else [metric] | |
allowed_metrics = ['bbox', 'segm', 'proposal', 'proposal_fast'] | |
for metric in metrics: | |
if metric not in allowed_metrics: | |
raise KeyError(f'metric {metric} is not supported') | |
if iou_thrs is None: | |
iou_thrs = np.linspace( | |
.5, 0.95, int(np.round((0.95 - .5) / .05)) + 1, endpoint=True) | |
if metric_items is not None: | |
if not isinstance(metric_items, list): | |
metric_items = [metric_items] | |
result_files, tmp_dir = self.format_results(results, jsonfile_prefix) | |
eval_results = OrderedDict() | |
cocoGt = self.coco | |
for metric in metrics: | |
msg = f'Evaluating {metric}...' | |
if logger is None: | |
msg = '\n' + msg | |
print_log(msg, logger=logger) | |
if metric == 'proposal_fast': | |
ar = self.fast_eval_recall( | |
results, proposal_nums, iou_thrs, logger='silent') | |
log_msg = [] | |
for i, num in enumerate(proposal_nums): | |
eval_results[f'AR@{num}'] = ar[i] | |
log_msg.append(f'\nAR@{num}\t{ar[i]:.4f}') | |
log_msg = ''.join(log_msg) | |
print_log(log_msg, logger=logger) | |
continue | |
if metric not in result_files: | |
raise KeyError(f'{metric} is not in results') | |
try: | |
cocoDt = cocoGt.loadRes(result_files[metric]) | |
except IndexError: | |
print_log( | |
'The testing results of the whole dataset is empty.', | |
logger=logger, | |
level=logging.ERROR) | |
break | |
iou_type = 'bbox' if metric == 'proposal' else metric | |
cocoEval = COCOeval(cocoGt, cocoDt, iou_type) | |
cocoEval.params.catIds = self.cat_ids | |
cocoEval.params.imgIds = self.img_ids | |
cocoEval.params.maxDets = list(proposal_nums) | |
cocoEval.params.iouThrs = iou_thrs | |
# mapping of cocoEval.stats | |
coco_metric_names = { | |
'mAP': 0, | |
'mAP_50': 1, | |
'mAP_75': 2, | |
'mAP_s': 3, | |
'mAP_m': 4, | |
'mAP_l': 5, | |
'AR@100': 6, | |
'AR@300': 7, | |
'AR@1000': 8, | |
'AR_s@1000': 9, | |
'AR_m@1000': 10, | |
'AR_l@1000': 11 | |
} | |
if metric_items is not None: | |
for metric_item in metric_items: | |
if metric_item not in coco_metric_names: | |
raise KeyError( | |
f'metric item {metric_item} is not supported') | |
if metric == 'proposal': | |
cocoEval.params.useCats = 0 | |
cocoEval.evaluate() | |
cocoEval.accumulate() | |
cocoEval.summarize() | |
if metric_items is None: | |
metric_items = [ | |
'AR@100', 'AR@300', 'AR@1000', 'AR_s@1000', | |
'AR_m@1000', 'AR_l@1000' | |
] | |
for item in metric_items: | |
val = float( | |
f'{cocoEval.stats[coco_metric_names[item]]:.3f}') | |
eval_results[item] = val | |
else: | |
cocoEval.evaluate() | |
cocoEval.accumulate() | |
cocoEval.summarize() | |
if classwise: # Compute per-category AP | |
# Compute per-category AP | |
# from https://github.com/facebookresearch/detectron2/ | |
precisions = cocoEval.eval['precision'] | |
# precision: (iou, recall, cls, area range, max dets) | |
assert len(self.cat_ids) == precisions.shape[2] | |
results_per_category = [] | |
for idx, catId in enumerate(self.cat_ids): | |
# area range index 0: all area ranges | |
# max dets index -1: typically 100 per image | |
nm = self.coco.loadCats(catId)[0] | |
precision = precisions[:, :, idx, 0, -1] | |
precision = precision[precision > -1] | |
if precision.size: | |
ap = np.mean(precision) | |
else: | |
ap = float('nan') | |
results_per_category.append( | |
(f'{nm["name"]}', f'{float(ap):0.3f}')) | |
num_columns = min(6, len(results_per_category) * 2) | |
results_flatten = list( | |
itertools.chain(*results_per_category)) | |
headers = ['category', 'AP'] * (num_columns // 2) | |
results_2d = itertools.zip_longest(*[ | |
results_flatten[i::num_columns] | |
for i in range(num_columns) | |
]) | |
table_data = [headers] | |
table_data += [result for result in results_2d] | |
table = AsciiTable(table_data) | |
print_log('\n' + table.table, logger=logger) | |
if metric_items is None: | |
metric_items = [ | |
'mAP', 'mAP_50', 'mAP_75', 'mAP_s', 'mAP_m', 'mAP_l' | |
] | |
for metric_item in metric_items: | |
key = f'{metric}_{metric_item}' | |
val = float( | |
f'{cocoEval.stats[coco_metric_names[metric_item]]:.3f}' | |
) | |
eval_results[key] = val | |
ap = cocoEval.stats[:6] | |
eval_results[f'{metric}_mAP_copypaste'] = ( | |
f'{ap[0]:.3f} {ap[1]:.3f} {ap[2]:.3f} {ap[3]:.3f} ' | |
f'{ap[4]:.3f} {ap[5]:.3f}') | |
if tmp_dir is not None: | |
tmp_dir.cleanup() | |
return eval_results | |