未验证 提交 a06a6258 编写于 作者: Z zhiboniu 提交者: GitHub

add hrnet data, engine, metrics; rename Hrnet to HRNet (#2890)

上级 90bfe009
......@@ -15,8 +15,8 @@
import os
import cv2
import numpy as np
import json
import copy
# TODO: unify xtococotools and pycocotools
import pycocotools
from pycocotools.coco import COCO
from .dataset import DetDataset
......@@ -317,4 +317,341 @@ class KeypointBottomUpCrowdPoseDataset(KeypointBottomUpCocoDataset):
self.id2name, self.name2id = self._get_mapping_id_name(self.coco.imgs)
self.dataset_name = 'crowdpose'
print(f'=> num_images: {self.num_images}')
print('=> num_images: {}'.format(self.num_images))
@serializable
class KeypointTopDownBaseDataset(DetDataset):
"""Base class for top_down datasets.
All datasets should subclass it.
All subclasses should overwrite:
Methods:`_get_db`
Args:
dataset_dir (str): Root path to the dataset.
image_dir (str): Path to a directory where images are held.
anno_path (str): Relative path to the annotation file.
num_joints (int): keypoint numbers
transform (composed(operators)): A sequence of data transforms.
"""
def __init__(self,
dataset_dir,
image_dir,
anno_path,
num_joints,
transform=[]):
super().__init__(dataset_dir, image_dir, anno_path)
self.image_info = {}
self.ann_info = {}
self.img_prefix = os.path.join(dataset_dir, image_dir)
self.transform = transform
self.ann_info['num_joints'] = num_joints
self.db = []
def __len__(self):
"""Get dataset length."""
return len(self.db)
def _get_db(self):
"""Get a sample"""
raise NotImplementedError
def __getitem__(self, idx):
"""Prepare sample for training given the index."""
records = copy.deepcopy(self.db[idx])
records['image'] = cv2.imread(records['image_file'], cv2.IMREAD_COLOR |
cv2.IMREAD_IGNORE_ORIENTATION)
records['image'] = cv2.cvtColor(records['image'], cv2.COLOR_BGR2RGB)
records['score'] = records['score'] if 'score' in records else 1
records = self.transform(records)
# print('records', records)
return records
@register
@serializable
class KeypointTopDownCocoDataset(KeypointTopDownBaseDataset):
"""COCO dataset for top-down pose estimation.
The dataset loads raw features and apply specified transforms
to return a dict containing the image tensors and other information.
COCO keypoint indexes:
0: 'nose',
1: 'left_eye',
2: 'right_eye',
3: 'left_ear',
4: 'right_ear',
5: 'left_shoulder',
6: 'right_shoulder',
7: 'left_elbow',
8: 'right_elbow',
9: 'left_wrist',
10: 'right_wrist',
11: 'left_hip',
12: 'right_hip',
13: 'left_knee',
14: 'right_knee',
15: 'left_ankle',
16: 'right_ankle'
Args:
dataset_dir (str): Root path to the dataset.
image_dir (str): Path to a directory where images are held.
anno_path (str): Relative path to the annotation file.
num_joints (int): Keypoint numbers
trainsize (list):[w, h] Image target size
transform (composed(operators)): A sequence of data transforms.
bbox_file (str): Path to a detection bbox file
Default: None.
use_gt_bbox (bool): Whether to use ground truth bbox
Default: True.
pixel_std (int): The pixel std of the scale
Default: 200.
image_thre (float): The threshold to filter the detection box
Default: 0.0.
"""
def __init__(self,
dataset_dir,
image_dir,
anno_path,
num_joints,
trainsize,
transform=[],
bbox_file=None,
use_gt_bbox=True,
pixel_std=200,
image_thre=0.0):
super().__init__(dataset_dir, image_dir, anno_path, num_joints,
transform)
self.bbox_file = bbox_file
self.use_gt_bbox = use_gt_bbox
self.trainsize = trainsize
self.pixel_std = pixel_std
self.image_thre = image_thre
self.dataset_name = 'coco'
def parse_dataset(self):
if self.use_gt_bbox:
self.db = self._load_coco_keypoint_annotations()
else:
self.db = self._load_coco_person_detection_results()
def _load_coco_keypoint_annotations(self):
coco = COCO(self.get_anno())
img_ids = coco.getImgIds()
gt_db = []
for index in img_ids:
im_ann = coco.loadImgs(index)[0]
width = im_ann['width']
height = im_ann['height']
file_name = im_ann['file_name']
im_id = int(im_ann["id"])
annIds = coco.getAnnIds(imgIds=index, iscrowd=False)
objs = coco.loadAnns(annIds)
valid_objs = []
for obj in objs:
x, y, w, h = obj['bbox']
x1 = np.max((0, x))
y1 = np.max((0, y))
x2 = np.min((width - 1, x1 + np.max((0, w - 1))))
y2 = np.min((height - 1, y1 + np.max((0, h - 1))))
if obj['area'] > 0 and x2 >= x1 and y2 >= y1:
obj['clean_bbox'] = [x1, y1, x2 - x1, y2 - y1]
valid_objs.append(obj)
objs = valid_objs
rec = []
for obj in objs:
if max(obj['keypoints']) == 0:
continue
joints = np.zeros(
(self.ann_info['num_joints'], 3), dtype=np.float)
joints_vis = np.zeros(
(self.ann_info['num_joints'], 3), dtype=np.float)
for ipt in range(self.ann_info['num_joints']):
joints[ipt, 0] = obj['keypoints'][ipt * 3 + 0]
joints[ipt, 1] = obj['keypoints'][ipt * 3 + 1]
joints[ipt, 2] = 0
t_vis = obj['keypoints'][ipt * 3 + 2]
if t_vis > 1:
t_vis = 1
joints_vis[ipt, 0] = t_vis
joints_vis[ipt, 1] = t_vis
joints_vis[ipt, 2] = 0
center, scale = self._box2cs(obj['clean_bbox'][:4])
rec.append({
'image_file': os.path.join(self.img_prefix, file_name),
'center': center,
'scale': scale,
'joints': joints,
'joints_vis': joints_vis,
'im_id': im_id,
})
gt_db.extend(rec)
return gt_db
def _box2cs(self, box):
x, y, w, h = box[:4]
center = np.zeros((2), dtype=np.float32)
center[0] = x + w * 0.5
center[1] = y + h * 0.5
aspect_ratio = self.trainsize[0] * 1.0 / self.trainsize[1]
if w > aspect_ratio * h:
h = w * 1.0 / aspect_ratio
elif w < aspect_ratio * h:
w = h * aspect_ratio
scale = np.array(
[w * 1.0 / self.pixel_std, h * 1.0 / self.pixel_std],
dtype=np.float32)
if center[0] != -1:
scale = scale * 1.25
return center, scale
def _load_coco_person_detection_results(self):
all_boxes = None
bbox_file_path = os.path.join(self.dataset_dir, self.bbox_file)
with open(bbox_file_path, 'r') as f:
all_boxes = json.load(f)
if not all_boxes:
print('=> Load %s fail!' % bbox_file_path)
return None
kpt_db = []
for n_img in range(0, len(all_boxes)):
det_res = all_boxes[n_img]
if det_res['category_id'] != 1:
continue
file_name = det_res[
'filename'] if 'filename' in det_res else '%012d.jpg' % det_res[
'image_id']
img_name = os.path.join(self.img_prefix, file_name)
box = det_res['bbox']
score = det_res['score']
im_id = int(det_res['image_id'])
if score < self.image_thre:
continue
center, scale = self._box2cs(box)
joints = np.zeros((self.ann_info['num_joints'], 3), dtype=np.float)
joints_vis = np.ones(
(self.ann_info['num_joints'], 3), dtype=np.float)
kpt_db.append({
'image_file': img_name,
'im_id': im_id,
'center': center,
'scale': scale,
'score': score,
'joints': joints,
'joints_vis': joints_vis,
})
return kpt_db
@register
@serializable
class KeypointTopDownMPIIDataset(KeypointTopDownBaseDataset):
"""MPII dataset for topdown pose estimation.
The dataset loads raw features and apply specified transforms
to return a dict containing the image tensors and other information.
MPII keypoint indexes::
0: 'right_ankle',
1: 'right_knee',
2: 'right_hip',
3: 'left_hip',
4: 'left_knee',
5: 'left_ankle',
6: 'pelvis',
7: 'thorax',
8: 'upper_neck',
9: 'head_top',
10: 'right_wrist',
11: 'right_elbow',
12: 'right_shoulder',
13: 'left_shoulder',
14: 'left_elbow',
15: 'left_wrist',
Args:
dataset_dir (str): Root path to the dataset.
image_dir (str): Path to a directory where images are held.
anno_path (str): Relative path to the annotation file.
num_joints (int): Keypoint numbers
trainsize (list):[w, h] Image target size
transform (composed(operators)): A sequence of data transforms.
"""
def __init__(self,
dataset_dir,
image_dir,
anno_path,
num_joints,
transform=[]):
super().__init__(dataset_dir, image_dir, anno_path, num_joints,
transform)
self.dataset_name = 'mpii'
def parse_dataset(self):
with open(self.get_anno()) as anno_file:
anno = json.load(anno_file)
gt_db = []
for a in anno:
image_name = a['image']
im_id = a['image_id'] if 'image_id' in a else int(
os.path.splitext(image_name)[0])
c = np.array(a['center'], dtype=np.float)
s = np.array([a['scale'], a['scale']], dtype=np.float)
# Adjust center/scale slightly to avoid cropping limbs
if c[0] != -1:
c[1] = c[1] + 15 * s[1]
s = s * 1.25
c = c - 1
joints = np.zeros((self.ann_info['num_joints'], 3), dtype=np.float)
joints_vis = np.zeros(
(self.ann_info['num_joints'], 3), dtype=np.float)
if 'joints' in a:
joints_ = np.array(a['joints'])
joints_[:, 0:2] = joints_[:, 0:2] - 1
joints_vis_ = np.array(a['joints_vis'])
assert len(joints_) == self.ann_info[
'num_joints'], 'joint num diff: {} vs {}'.format(
len(joints_), self.ann_info['num_joints'])
joints[:, 0:2] = joints_[:, 0:2]
joints_vis[:, 0] = joints_vis_[:]
joints_vis[:, 1] = joints_vis_[:]
gt_db.append({
'image_file': os.path.join(self.img_prefix, image_name),
'im_id': im_id,
'center': c,
'scale': s,
'joints': joints,
'joints_vis': joints_vis
})
self.db = gt_db
......@@ -29,7 +29,7 @@ import math
import copy
import os
from ...modeling.keypoint_utils import get_affine_mat_kernel, warp_affine_joints
from ...modeling.keypoint_utils import get_affine_mat_kernel, warp_affine_joints, get_affine_transform, affine_transform
from ppdet.core.workspace import serializable
from ppdet.utils.logger import setup_logger
logger = setup_logger(__name__)
......@@ -38,7 +38,8 @@ registered_ops = []
__all__ = [
'RandomAffine', 'KeyPointFlip', 'TagGenerate', 'ToHeatmaps',
'NormalizePermute', 'EvalAffine'
'NormalizePermute', 'EvalAffine', 'RandomFlipHalfBodyTransform',
'TopDownAffine', 'ToHeatmapsTopDown'
]
......@@ -403,3 +404,229 @@ class ToHeatmaps(object):
records['mask_{}x'.format(idx + 1)] = mask
del records['mask']
return records
@register_keypointop
class RandomFlipHalfBodyTransform(object):
"""apply data augment to image and coords
to achieve the flip, scale, rotate and half body transform effect for training image
Args:
trainsize (list):[w, h], Image target size
upper_body_ids (list): The upper body joint ids
flip_pairs (list): The left-right joints exchange order list
pixel_std (int): The pixel std of the scale
scale (float): The scale factor to transform the image
rot (int): The rotate factor to transform the image
num_joints_half_body (int): The joints threshold of the half body transform
prob_half_body (float): The threshold of the half body transform
flip (bool): Whether to flip the image
Returns:
records(dict): contain the image and coords after tranformed
"""
def __init__(self,
trainsize,
upper_body_ids,
flip_pairs,
pixel_std,
scale=0.35,
rot=40,
num_joints_half_body=8,
prob_half_body=0.3,
flip=True,
rot_prob=0.6):
super(RandomFlipHalfBodyTransform, self).__init__()
self.trainsize = trainsize
self.upper_body_ids = upper_body_ids
self.flip_pairs = flip_pairs
self.pixel_std = pixel_std
self.scale = scale
self.rot = rot
self.num_joints_half_body = num_joints_half_body
self.prob_half_body = prob_half_body
self.flip = flip
self.aspect_ratio = trainsize[0] * 1.0 / trainsize[1]
self.rot_prob = rot_prob
def halfbody_transform(self, joints, joints_vis):
upper_joints = []
lower_joints = []
for joint_id in range(joints.shape[0]):
if joints_vis[joint_id][0] > 0:
if joint_id in self.upper_body_ids:
upper_joints.append(joints[joint_id])
else:
lower_joints.append(joints[joint_id])
if np.random.randn() < 0.5 and len(upper_joints) > 2:
selected_joints = upper_joints
else:
selected_joints = lower_joints if len(
lower_joints) > 2 else upper_joints
if len(selected_joints) < 2:
return None, None
selected_joints = np.array(selected_joints, dtype=np.float32)
center = selected_joints.mean(axis=0)[:2]
left_top = np.amin(selected_joints, axis=0)
right_bottom = np.amax(selected_joints, axis=0)
w = right_bottom[0] - left_top[0]
h = right_bottom[1] - left_top[1]
if w > self.aspect_ratio * h:
h = w * 1.0 / self.aspect_ratio
elif w < self.aspect_ratio * h:
w = h * self.aspect_ratio
scale = np.array(
[w * 1.0 / self.pixel_std, h * 1.0 / self.pixel_std],
dtype=np.float32)
scale = scale * 1.5
return center, scale
def flip_joints(self, joints, joints_vis, width, matched_parts):
joints[:, 0] = width - joints[:, 0] - 1
for pair in matched_parts:
joints[pair[0], :], joints[pair[1], :] = \
joints[pair[1], :], joints[pair[0], :].copy()
joints_vis[pair[0], :], joints_vis[pair[1], :] = \
joints_vis[pair[1], :], joints_vis[pair[0], :].copy()
return joints * joints_vis, joints_vis
def __call__(self, records):
image = records['image']
joints = records['joints']
joints_vis = records['joints_vis']
c = records['center']
s = records['scale']
r = 0
if (np.sum(joints_vis[:, 0]) > self.num_joints_half_body and
np.random.rand() < self.prob_half_body):
c_half_body, s_half_body = self.halfbody_transform(joints,
joints_vis)
if c_half_body is not None and s_half_body is not None:
c, s = c_half_body, s_half_body
sf = self.scale
rf = self.rot
s = s * np.clip(np.random.randn() * sf + 1, 1 - sf, 1 + sf)
r = np.clip(np.random.randn() * rf, -rf * 2,
rf * 2) if np.random.random() <= self.rot_prob else 0
if self.flip and np.random.random() <= 0.5:
image = image[:, ::-1, :]
joints, joints_vis = self.flip_joints(
joints, joints_vis, image.shape[1], self.flip_pairs)
c[0] = image.shape[1] - c[0] - 1
records['image'] = image
records['joints'] = joints
records['joints_vis'] = joints_vis
records['center'] = c
records['scale'] = s
records['rotate'] = r
return records
@register_keypointop
class TopDownAffine(object):
"""apply affine transform to image and coords
Args:
trainsize (list): [w, h], the standard size used to train
records(dict): the dict contained the image and coords
Returns:
records (dict): contain the image and coords after tranformed
"""
def __init__(self, trainsize):
self.trainsize = trainsize
def __call__(self, records):
image = records['image']
joints = records['joints']
joints_vis = records['joints_vis']
rot = records['rotate'] if "rotate" in records else 0
trans = get_affine_transform(records['center'], records['scale'] * 200,
rot, self.trainsize)
image = cv2.warpAffine(
image,
trans, (int(self.trainsize[0]), int(self.trainsize[1])),
flags=cv2.INTER_LINEAR)
for i in range(joints.shape[0]):
if joints_vis[i, 0] > 0.0:
joints[i, 0:2] = affine_transform(joints[i, 0:2], trans)
records['image'] = image
records['joints'] = joints
return records
@register_keypointop
class ToHeatmapsTopDown(object):
"""to generate the gaussin heatmaps of keypoint for heatmap loss
Args:
hmsize (list): [w, h] output heatmap's size
sigma (float): the std of gaussin kernel genereted
records(dict): the dict contained the image and coords
Returns:
records (dict): contain the heatmaps used to heatmaploss
"""
def __init__(self, hmsize, sigma):
super(ToHeatmapsTopDown, self).__init__()
self.hmsize = np.array(hmsize)
self.sigma = sigma
def __call__(self, records):
joints = records['joints']
joints_vis = records['joints_vis']
num_joints = joints.shape[0]
image_size = np.array(
[records['image'].shape[1], records['image'].shape[0]])
target_weight = np.ones((num_joints, 1), dtype=np.float32)
target_weight[:, 0] = joints_vis[:, 0]
target = np.zeros(
(num_joints, self.hmsize[1], self.hmsize[0]), dtype=np.float32)
tmp_size = self.sigma * 3
for joint_id in range(num_joints):
feat_stride = image_size / self.hmsize
mu_x = int(joints[joint_id][0] / feat_stride[0] + 0.5)
mu_y = int(joints[joint_id][1] / feat_stride[1] + 0.5)
# Check that any part of the gaussian is in-bounds
ul = [int(mu_x - tmp_size), int(mu_y - tmp_size)]
br = [int(mu_x + tmp_size + 1), int(mu_y + tmp_size + 1)]
if ul[0] >= self.hmsize[0] or ul[1] >= self.hmsize[1] or br[
0] < 0 or br[1] < 0:
# If not, just return the image as is
target_weight[joint_id] = 0
continue
# # Generate gaussian
size = 2 * tmp_size + 1
x = np.arange(0, size, 1, np.float32)
y = x[:, np.newaxis]
x0 = y0 = size // 2
# The gaussian is not normalized, we want the center value to equal 1
g = np.exp(-((x - x0)**2 + (y - y0)**2) / (2 * self.sigma**2))
# Usable gaussian range
g_x = max(0, -ul[0]), min(br[0], self.hmsize[0]) - ul[0]
g_y = max(0, -ul[1]), min(br[1], self.hmsize[1]) - ul[1]
# Image range
img_x = max(0, ul[0]), min(br[0], self.hmsize[0])
img_y = max(0, ul[1]), min(br[1], self.hmsize[1])
v = target_weight[joint_id]
if v > 0.5:
target[joint_id][img_y[0]:img_y[1], img_x[0]:img_x[1]] = g[g_y[
0]:g_y[1], g_x[0]:g_x[1]]
records['target'] = target
records['target_weight'] = target_weight
del records['joints'], records['joints_vis']
return records
......@@ -166,7 +166,12 @@ class Checkpointer(Callback):
if 'save_best_model' in status and status['save_best_model']:
for metric in self.model._metrics:
map_res = metric.get_results()
key = 'bbox' if 'bbox' in map_res else 'mask'
if 'bbox' in map_res:
key = 'bbox'
elif 'keypoint' in map_res:
key = 'keypoint'
else:
key = 'mask'
if key not in map_res:
logger.warn("Evaluation results empty, this may be due to " \
"training iterations being too few or not " \
......
......@@ -37,10 +37,11 @@ TRT_MIN_SUBGRAPH = {
'TTFNet': 3,
'FCOS': 16,
'SOLOv2': 60,
'HigherHrnet': 40,
'HigherHRNet': 3,
'HRNet': 3,
}
KEYPOINT_ARCH = ['HigherHrnet', 'Hrnet']
KEYPOINT_ARCH = ['HigherHRNet', 'TopDownHRNet']
def _parse_reader(reader_cfg, dataset_cfg, metric, arch, image_shape):
......
......@@ -33,7 +33,7 @@ from ppdet.optimizer import ModelEMA
from ppdet.core.workspace import create
from ppdet.utils.checkpoint import load_weight, load_pretrain_weight
from ppdet.utils.visualizer import visualize_results, save_result
from ppdet.metrics import Metric, COCOMetric, VOCMetric, WiderFaceMetric, get_infer_results
from ppdet.metrics import Metric, COCOMetric, VOCMetric, WiderFaceMetric, get_infer_results, KeyPointTopDownCOCOEval
from ppdet.data.source.category import get_categories
import ppdet.utils.stats as stats
......@@ -173,6 +173,15 @@ class Trainer(object):
anno_file=self.dataset.get_anno(),
multi_scale=multi_scale)
]
elif self.cfg.metric == 'KeyPointTopDownCOCOEval':
eval_dataset = self.cfg['EvalDataset']
eval_dataset.check_or_download_dataset()
anno_file = eval_dataset.get_anno()
self._metrics = [
KeyPointTopDownCOCOEval(anno_file,
len(eval_dataset), self.cfg.num_joints,
self.cfg.save_dir)
]
else:
logger.warn("Metric not support for metric type {}".format(
self.cfg.metric))
......@@ -374,6 +383,7 @@ class Trainer(object):
self.status['step_id'] = step_id
# forward
outs = self.model(data)
for key in ['im_shape', 'scale_factor', 'im_id']:
outs[key] = data[key]
for key, value in outs.items():
......
......@@ -13,7 +13,8 @@
# limitations under the License.
from . import metrics
from . import keypoint_metrics
from .metrics import *
from .keypoint_metrics import *
__all__ = metrics.__all__
__all__ = metrics.__all__ + keypoint_metrics.__all__
# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import copy
import os
import json
from collections import OrderedDict
from collections import defaultdict
import numpy as np
from pycocotools.coco import COCO
from pycocotools.cocoeval import COCOeval
from ..modeling.keypoint_utils import oks_nms
__all__ = ['KeyPointTopDownCOCOEval']
class KeyPointTopDownCOCOEval(object):
def __init__(self,
anno_file,
num_samples,
num_joints,
output_eval,
iou_type='keypoints',
in_vis_thre=0.2,
oks_thre=0.9):
super(KeyPointTopDownCOCOEval, self).__init__()
self.coco = COCO(anno_file)
self.num_samples = num_samples
self.num_joints = num_joints
self.iou_type = iou_type
self.in_vis_thre = in_vis_thre
self.oks_thre = oks_thre
self.output_eval = output_eval
self.res_file = os.path.join(output_eval, "keypoints_results.json")
self.reset()
def reset(self):
self.results = {
'all_preds': np.zeros(
(self.num_samples, self.num_joints, 3), dtype=np.float32),
'all_boxes': np.zeros((self.num_samples, 6)),
'image_path': []
}
self.eval_results = {}
self.idx = 0
def update(self, inputs, outputs):
kpt_coord = outputs['kpt_coord']
kpt_score = outputs['kpt_score']
num_images = inputs['image'].shape[0]
self.results['all_preds'][self.idx:self.idx + num_images, :, 0:
2] = kpt_coord[:, :, 0:2]
self.results['all_preds'][self.idx:self.idx + num_images, :, 2:
3] = kpt_score
self.results['all_boxes'][self.idx:self.idx + num_images, 0:2] = inputs[
'center'].numpy()[:, 0:2]
self.results['all_boxes'][self.idx:self.idx + num_images, 2:4] = inputs[
'scale'].numpy()[:, 0:2]
self.results['all_boxes'][self.idx:self.idx + num_images, 4] = np.prod(
inputs['scale'].numpy() * 200, 1)
self.results['all_boxes'][self.idx:self.idx + num_images,
5] = np.squeeze(inputs['score'].numpy())
self.results['image_path'].extend(inputs['im_id'].numpy())
self.idx += num_images
def _write_coco_keypoint_results(self, keypoints):
data_pack = [{
'cat_id': 1,
'cls': 'person',
'ann_type': 'keypoints',
'keypoints': keypoints
}]
results = self._coco_keypoint_results_one_category_kernel(data_pack[0])
if not os.path.exists(self.output_eval):
os.makedirs(self.output_eval)
with open(self.res_file, 'w') as f:
json.dump(results, f, sort_keys=True, indent=4)
try:
json.load(open(self.res_file))
except Exception:
content = []
with open(self.res_file, 'r') as f:
for line in f:
content.append(line)
content[-1] = ']'
with open(self.res_file, 'w') as f:
for c in content:
f.write(c)
def _coco_keypoint_results_one_category_kernel(self, data_pack):
cat_id = data_pack['cat_id']
keypoints = data_pack['keypoints']
cat_results = []
for img_kpts in keypoints:
if len(img_kpts) == 0:
continue
_key_points = np.array(
[img_kpts[k]['keypoints'] for k in range(len(img_kpts))])
_key_points = _key_points.reshape(_key_points.shape[0], -1)
result = [{
'image_id': img_kpts[k]['image'],
'category_id': cat_id,
'keypoints': list(_key_points[k]),
'score': img_kpts[k]['score'],
'center': list(img_kpts[k]['center']),
'scale': list(img_kpts[k]['scale'])
} for k in range(len(img_kpts))]
cat_results.extend(result)
return cat_results
def get_final_results(self, preds, all_boxes, img_path):
_kpts = []
for idx, kpt in enumerate(preds):
_kpts.append({
'keypoints': kpt,
'center': all_boxes[idx][0:2],
'scale': all_boxes[idx][2:4],
'area': all_boxes[idx][4],
'score': all_boxes[idx][5],
'image': int(img_path[idx])
})
# image x person x (keypoints)
kpts = defaultdict(list)
for kpt in _kpts:
kpts[kpt['image']].append(kpt)
# rescoring and oks nms
num_joints = preds.shape[1]
in_vis_thre = self.in_vis_thre
oks_thre = self.oks_thre
oks_nmsed_kpts = []
for img in kpts.keys():
img_kpts = kpts[img]
for n_p in img_kpts:
box_score = n_p['score']
kpt_score = 0
valid_num = 0
for n_jt in range(0, num_joints):
t_s = n_p['keypoints'][n_jt][2]
if t_s > in_vis_thre:
kpt_score = kpt_score + t_s
valid_num = valid_num + 1
if valid_num != 0:
kpt_score = kpt_score / valid_num
# rescoring
n_p['score'] = kpt_score * box_score
keep = oks_nms([img_kpts[i] for i in range(len(img_kpts))],
oks_thre)
if len(keep) == 0:
oks_nmsed_kpts.append(img_kpts)
else:
oks_nmsed_kpts.append([img_kpts[_keep] for _keep in keep])
self._write_coco_keypoint_results(oks_nmsed_kpts)
def accumulate(self):
self.get_final_results(self.results['all_preds'],
self.results['all_boxes'],
self.results['image_path'])
coco_dt = self.coco.loadRes(self.res_file)
coco_eval = COCOeval(self.coco, coco_dt, 'keypoints')
coco_eval.params.useSegm = None
coco_eval.evaluate()
coco_eval.accumulate()
coco_eval.summarize()
keypoint_stats = []
for ind in range(len(coco_eval.stats)):
keypoint_stats.append((coco_eval.stats[ind]))
self.eval_results['keypoint'] = keypoint_stats
def log(self):
stats_names = [
'AP', 'Ap .5', 'AP .75', 'AP (M)', 'AP (L)', 'AR', 'AR .5',
'AR .75', 'AR (M)', 'AR (L)'
]
num_values = len(stats_names)
print(' '.join(['| {}'.format(name) for name in stats_names]) + ' |')
print('|---' * (num_values + 1) + '|')
print(' '.join([
'| {:.3f}'.format(value) for value in self.eval_results['keypoint']
]) + ' |')
def get_results(self):
return self.eval_results
......@@ -139,10 +139,11 @@ class LinearWarmup(object):
boundary = []
value = []
for i in range(self.steps + 1):
alpha = i / self.steps
factor = self.start_factor * (1 - alpha) + alpha
lr = base_lr * factor
value.append(lr)
if self.steps > 0:
alpha = i / self.steps
factor = self.start_factor * (1 - alpha) + alpha
lr = base_lr * factor
value.append(lr)
if i > 0:
boundary.append(i)
return boundary, value
......
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