# 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. from __future__ import absolute_import from __future__ import division from __future__ import print_function import numpy as np import paddle import paddle.nn as nn import paddle.nn.functional as F from ppdet.core.workspace import register from ..ops import iou_similarity from ..bbox_utils import iou_similarity as batch_iou_similarity from ..bbox_utils import bbox_center from .utils import (check_points_inside_bboxes, compute_max_iou_anchor, compute_max_iou_gt) __all__ = ['ATSSAssigner'] @register class ATSSAssigner(nn.Layer): """Bridging the Gap Between Anchor-based and Anchor-free Detection via Adaptive Training Sample Selection """ __shared__ = ['num_classes'] def __init__(self, topk=9, num_classes=80, force_gt_matching=False, eps=1e-9): super(ATSSAssigner, self).__init__() self.topk = topk self.num_classes = num_classes self.force_gt_matching = force_gt_matching self.eps = eps def _gather_topk_pyramid(self, gt2anchor_distances, num_anchors_list, pad_gt_mask): pad_gt_mask = pad_gt_mask.tile([1, 1, self.topk]).astype(paddle.bool) gt2anchor_distances_list = paddle.split( gt2anchor_distances, num_anchors_list, axis=-1) num_anchors_index = np.cumsum(num_anchors_list).tolist() num_anchors_index = [0, ] + num_anchors_index[:-1] is_in_topk_list = [] topk_idxs_list = [] for distances, anchors_index in zip(gt2anchor_distances_list, num_anchors_index): num_anchors = distances.shape[-1] topk_metrics, topk_idxs = paddle.topk( distances, self.topk, axis=-1, largest=False) topk_idxs_list.append(topk_idxs + anchors_index) topk_idxs = paddle.where(pad_gt_mask, topk_idxs, paddle.zeros_like(topk_idxs)) is_in_topk = F.one_hot(topk_idxs, num_anchors).sum(axis=-2) is_in_topk = paddle.where(is_in_topk > 1, paddle.zeros_like(is_in_topk), is_in_topk) is_in_topk_list.append(is_in_topk.astype(gt2anchor_distances.dtype)) is_in_topk_list = paddle.concat(is_in_topk_list, axis=-1) topk_idxs_list = paddle.concat(topk_idxs_list, axis=-1) return is_in_topk_list, topk_idxs_list @paddle.no_grad() def forward(self, anchor_bboxes, num_anchors_list, gt_labels, gt_bboxes, pad_gt_mask, bg_index, gt_scores=None, pred_bboxes=None): r"""This code is based on https://github.com/fcjian/TOOD/blob/master/mmdet/core/bbox/assigners/atss_assigner.py The assignment is done in following steps 1. compute iou between all bbox (bbox of all pyramid levels) and gt 2. compute center distance between all bbox and gt 3. on each pyramid level, for each gt, select k bbox whose center are closest to the gt center, so we total select k*l bbox as candidates for each gt 4. get corresponding iou for the these candidates, and compute the mean and std, set mean + std as the iou threshold 5. select these candidates whose iou are greater than or equal to the threshold as positive 6. limit the positive sample's center in gt 7. if an anchor box is assigned to multiple gts, the one with the highest iou will be selected. Args: anchor_bboxes (Tensor, float32): pre-defined anchors, shape(L, 4), "xmin, xmax, ymin, ymax" format num_anchors_list (List): num of anchors in each level gt_labels (Tensor, int64|int32): Label of gt_bboxes, shape(B, n, 1) gt_bboxes (Tensor, float32): Ground truth bboxes, shape(B, n, 4) pad_gt_mask (Tensor, float32): 1 means bbox, 0 means no bbox, shape(B, n, 1) bg_index (int): background index gt_scores (Tensor|None, float32) Score of gt_bboxes, shape(B, n, 1), if None, then it will initialize with one_hot label pred_bboxes (Tensor, float32, optional): predicted bounding boxes, shape(B, L, 4) Returns: assigned_labels (Tensor): (B, L) assigned_bboxes (Tensor): (B, L, 4) assigned_scores (Tensor): (B, L, C), if pred_bboxes is not None, then output ious """ assert gt_labels.ndim == gt_bboxes.ndim and \ gt_bboxes.ndim == 3 num_anchors, _ = anchor_bboxes.shape batch_size, num_max_boxes, _ = gt_bboxes.shape # negative batch if num_max_boxes == 0: assigned_labels = paddle.full( [batch_size, num_anchors], bg_index, dtype=gt_labels.dtype) assigned_bboxes = paddle.zeros([batch_size, num_anchors, 4]) assigned_scores = paddle.zeros( [batch_size, num_anchors, self.num_classes]) return assigned_labels, assigned_bboxes, assigned_scores # 1. compute iou between gt and anchor bbox, [B, n, L] ious = iou_similarity(gt_bboxes.reshape([-1, 4]), anchor_bboxes) ious = ious.reshape([batch_size, -1, num_anchors]) # 2. compute center distance between all anchors and gt, [B, n, L] gt_centers = bbox_center(gt_bboxes.reshape([-1, 4])).unsqueeze(1) anchor_centers = bbox_center(anchor_bboxes) gt2anchor_distances = (gt_centers - anchor_centers.unsqueeze(0)) \ .norm(2, axis=-1).reshape([batch_size, -1, num_anchors]) # 3. on each pyramid level, selecting topk closest candidates # based on the center distance, [B, n, L] is_in_topk, topk_idxs = self._gather_topk_pyramid( gt2anchor_distances, num_anchors_list, pad_gt_mask) # 4. get corresponding iou for the these candidates, and compute the # mean and std, 5. set mean + std as the iou threshold iou_candidates = ious * is_in_topk iou_threshold = paddle.index_sample( iou_candidates.flatten(stop_axis=-2), topk_idxs.flatten(stop_axis=-2)) iou_threshold = iou_threshold.reshape([batch_size, num_max_boxes, -1]) iou_threshold = iou_threshold.mean(axis=-1, keepdim=True) + \ iou_threshold.std(axis=-1, keepdim=True) is_in_topk = paddle.where( iou_candidates > iou_threshold.tile([1, 1, num_anchors]), is_in_topk, paddle.zeros_like(is_in_topk)) # 6. check the positive sample's center in gt, [B, n, L] is_in_gts = check_points_inside_bboxes(anchor_centers, gt_bboxes) # select positive sample, [B, n, L] mask_positive = is_in_topk * is_in_gts * pad_gt_mask # 7. if an anchor box is assigned to multiple gts, # the one with the highest iou will be selected. mask_positive_sum = mask_positive.sum(axis=-2) if mask_positive_sum.max() > 1: mask_multiple_gts = (mask_positive_sum.unsqueeze(1) > 1).tile( [1, num_max_boxes, 1]) is_max_iou = compute_max_iou_anchor(ious) mask_positive = paddle.where(mask_multiple_gts, is_max_iou, mask_positive) mask_positive_sum = mask_positive.sum(axis=-2) # 8. make sure every gt_bbox matches the anchor if self.force_gt_matching: is_max_iou = compute_max_iou_gt(ious) * pad_gt_mask mask_max_iou = (is_max_iou.sum(-2, keepdim=True) == 1).tile( [1, num_max_boxes, 1]) mask_positive = paddle.where(mask_max_iou, is_max_iou, mask_positive) mask_positive_sum = mask_positive.sum(axis=-2) assigned_gt_index = mask_positive.argmax(axis=-2) # assigned target batch_ind = paddle.arange( end=batch_size, dtype=gt_labels.dtype).unsqueeze(-1) assigned_gt_index = assigned_gt_index + batch_ind * num_max_boxes assigned_labels = paddle.gather( gt_labels.flatten(), assigned_gt_index.flatten(), axis=0) assigned_labels = assigned_labels.reshape([batch_size, num_anchors]) assigned_labels = paddle.where( mask_positive_sum > 0, assigned_labels, paddle.full_like(assigned_labels, bg_index)) assigned_bboxes = paddle.gather( gt_bboxes.reshape([-1, 4]), assigned_gt_index.flatten(), axis=0) assigned_bboxes = assigned_bboxes.reshape([batch_size, num_anchors, 4]) assigned_scores = F.one_hot(assigned_labels, self.num_classes + 1) ind = list(range(self.num_classes + 1)) ind.remove(bg_index) assigned_scores = paddle.index_select( assigned_scores, paddle.to_tensor(ind), axis=-1) if pred_bboxes is not None: # assigned iou ious = batch_iou_similarity(gt_bboxes, pred_bboxes) * mask_positive ious = ious.max(axis=-2).unsqueeze(-1) assigned_scores *= ious elif gt_scores is not None: gather_scores = paddle.gather( gt_scores.flatten(), assigned_gt_index.flatten(), axis=0) gather_scores = gather_scores.reshape([batch_size, num_anchors]) gather_scores = paddle.where(mask_positive_sum > 0, gather_scores, paddle.zeros_like(gather_scores)) assigned_scores *= gather_scores.unsqueeze(-1) return assigned_labels, assigned_bboxes, assigned_scores