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# 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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import copy
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import os
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import numpy as np
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from tqdm import tqdm
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from scipy.cluster.vq import kmeans
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from paddlers.utils import logging
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__all__ = ['YOLOAnchorCluster']
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class BaseAnchorCluster(object):
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def __init__(self, num_anchors, cache, cache_path):
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"""
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Base Anchor Cluster
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Args:
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num_anchors (int): number of clusters
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cache (bool): whether using cache
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cache_path (str): cache directory path
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"""
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super(BaseAnchorCluster, self).__init__()
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self.num_anchors = num_anchors
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self.cache_path = cache_path
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self.cache = cache
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def print_result(self, centers):
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raise NotImplementedError('%s.print_result is not available' %
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self.__class__.__name__)
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def get_whs(self):
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whs_cache_path = os.path.join(self.cache_path, 'whs.npy')
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shapes_cache_path = os.path.join(self.cache_path, 'shapes.npy')
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if self.cache and os.path.exists(whs_cache_path) and os.path.exists(
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shapes_cache_path):
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self.whs = np.load(whs_cache_path)
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self.shapes = np.load(shapes_cache_path)
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return self.whs, self.shapes
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whs = np.zeros((0, 2))
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shapes = np.zeros((0, 2))
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samples = copy.deepcopy(self.dataset.file_list)
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for sample in tqdm(samples):
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im_h, im_w = sample['image_shape']
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bbox = sample['gt_bbox']
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wh = bbox[:, 2:4] - bbox[:, 0:2]
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wh = wh / np.array([[im_w, im_h]])
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shape = np.ones_like(wh) * np.array([[im_w, im_h]])
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whs = np.vstack((whs, wh))
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shapes = np.vstack((shapes, shape))
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if self.cache:
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os.makedirs(self.cache_path, exist_ok=True)
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np.save(whs_cache_path, whs)
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np.save(shapes_cache_path, shapes)
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self.whs = whs
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self.shapes = shapes
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return self.whs, self.shapes
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def calc_anchors(self):
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raise NotImplementedError('%s.calc_anchors is not available' %
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self.__class__.__name__)
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def __call__(self):
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self.get_whs()
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centers = self.calc_anchors()
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return centers
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class YOLOAnchorCluster(BaseAnchorCluster):
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def __init__(self,
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num_anchors,
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dataset,
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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=0.25):
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"""
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YOLOv5 Anchor Cluster
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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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dataset (DataSet): DataSet instance, VOC or COCO
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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. Defaults to True.
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cache_path (str or None, optional): cache directory path. If None, use `data_dir` of dataset. Defaults to None.
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iters (int, optional): iters of kmeans algorithm. Defaults to 300.
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gen_iters (int, optional): iters of genetic algorithm. Defaults to 1000.
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thresh (float, optional): anchor scale threshold. Defaults to 0.25.
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"""
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self.dataset = dataset
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if cache_path is None:
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cache_path = self.dataset.data_dir
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if isinstance(image_size, int):
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image_size = [image_size] * 2
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self.image_size = image_size
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self.iters = iters
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self.gen_iters = gen_iters
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self.thresh = thresh
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super(YOLOAnchorCluster, self).__init__(num_anchors, cache, cache_path)
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def print_result(self, centers):
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whs = self.whs
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x, best = self.metric(whs, centers)
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bpr, aat = (best > self.thresh).mean(), (
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x > self.thresh).mean() * self.num_anchors
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logging.info(
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'thresh=%.2f: %.4f best possible recall, %.2f anchors past thr' %
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(self.thresh, bpr, aat))
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logging.info(
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'n=%g, img_size=%s, metric_all=%.3f/%.3f-mean/best, past_thresh=%.3f-mean: '
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% (self.num_anchors, self.image_size, x.mean(), best.mean(),
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x[x > self.thresh].mean()))
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logging.info('%d anchor cluster result: [w, h]' % self.num_anchors)
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for w, h in centers:
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logging.info('[%d, %d]' % (w, h))
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def metric(self, whs, centers):
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r = whs[:, None] / centers[None]
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x = np.minimum(r, 1. / r).min(2)
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return x, x.max(1)
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def fitness(self, whs, centers):
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_, best = self.metric(whs, centers)
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return (best * (best > self.thresh)).mean()
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def calc_anchors(self):
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self.whs = self.whs * self.shapes / self.shapes.max(
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1, keepdims=True) * np.array([self.image_size[::-1]])
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wh0 = self.whs
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i = (wh0 < 3.0).any(1).sum()
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if i:
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logging.warning('Extremely small objects found. %d of %d '
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'labels are < 3 pixels in width or height' %
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(i, len(wh0)))
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wh = wh0[(wh0 >= 2.0).any(1)]
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logging.info('Running kmeans for %g anchors on %g points...' %
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(self.num_anchors, len(wh)))
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s = wh.std(0)
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centers, dist = kmeans(wh / s, self.num_anchors, iter=self.iters)
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centers *= s
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f, sh, mp, s = self.fitness(wh, centers), centers.shape, 0.9, 0.1
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pbar = tqdm(
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range(self.gen_iters),
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desc='Evolving anchors with Genetic Algorithm')
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for _ in pbar:
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v = np.ones(sh)
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while (v == 1).all():
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v = ((np.random.random(sh) < mp) * np.random.random() *
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np.random.randn(*sh) * s + 1).clip(0.3, 3.0)
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new_centers = (centers.copy() * v).clip(min=2.0)
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new_f = self.fitness(wh, new_centers)
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if new_f > f:
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f, centers = new_f, new_centers.copy()
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pbar.desc = 'Evolving anchors with Genetic Algorithm: fitness = %.4f' % f
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centers = np.round(centers[np.argsort(centers.prod(1))]).astype(
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int).tolist()
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return centers
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