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# Copyright (c) OpenMMLab. All rights reserved.
from typing import Dict, List, Union
import torch
from torch import Tensor
from mmdet.registry import MODELS
from mmdet.utils import InstanceList, OptInstanceList
from ..losses import CrossEntropyLoss, SmoothL1Loss, carl_loss, isr_p
from ..utils import multi_apply
from .ssd_head import SSDHead
# TODO: add loss evaluator for SSD
@MODELS.register_module()
class PISASSDHead(SSDHead):
"""Implementation of `PISA SSD head <https://arxiv.org/abs/1904.04821>`_
Args:
num_classes (int): Number of categories excluding the background
category.
in_channels (Sequence[int]): Number of channels in the input feature
map.
stacked_convs (int): Number of conv layers in cls and reg tower.
Defaults to 0.
feat_channels (int): Number of hidden channels when stacked_convs
> 0. Defaults to 256.
use_depthwise (bool): Whether to use DepthwiseSeparableConv.
Defaults to False.
conv_cfg (:obj:`ConfigDict` or dict, Optional): Dictionary to construct
and config conv layer. Defaults to None.
norm_cfg (:obj:`ConfigDict` or dict, Optional): Dictionary to construct
and config norm layer. Defaults to None.
act_cfg (:obj:`ConfigDict` or dict, Optional): Dictionary to construct
and config activation layer. Defaults to None.
anchor_generator (:obj:`ConfigDict` or dict): Config dict for anchor
generator.
bbox_coder (:obj:`ConfigDict` or dict): Config of bounding box coder.
reg_decoded_bbox (bool): If true, the regression loss would be
applied directly on decoded bounding boxes, converting both
the predicted boxes and regression targets to absolute
coordinates format. Defaults to False. It should be `True` when
using `IoULoss`, `GIoULoss`, or `DIoULoss` in the bbox head.
train_cfg (:obj:`ConfigDict` or dict, Optional): Training config of
anchor head.
test_cfg (:obj:`ConfigDict` or dict, Optional): Testing config of
anchor head.
init_cfg (:obj:`ConfigDict` or dict or list[:obj:`ConfigDict` or \
dict], Optional): Initialization config dict.
""" # noqa: W605
def loss_by_feat(
self,
cls_scores: List[Tensor],
bbox_preds: List[Tensor],
batch_gt_instances: InstanceList,
batch_img_metas: List[dict],
batch_gt_instances_ignore: OptInstanceList = None
) -> Dict[str, Union[List[Tensor], Tensor]]:
"""Compute losses of the head.
Args:
cls_scores (list[Tensor]): Box scores for each scale level
Has shape (N, num_anchors * num_classes, H, W)
bbox_preds (list[Tensor]): Box energies / deltas for each scale
level with shape (N, num_anchors * 4, H, W)
batch_gt_instances (list[:obj:`InstanceData`]): Batch of
gt_instance. It usually includes ``bboxes`` and ``labels``
attributes.
batch_img_metas (list[dict]): Meta information of each image, e.g.,
image size, scaling factor, etc.
batch_gt_instances_ignore (list[:obj:`InstanceData`], Optional):
Batch of gt_instances_ignore. It includes ``bboxes`` attribute
data that is ignored during training and testing.
Defaults to None.
Returns:
dict[str, Union[List[Tensor], Tensor]]: A dictionary of loss
components. the dict has components below:
- loss_cls (list[Tensor]): A list containing each feature map \
classification loss.
- loss_bbox (list[Tensor]): A list containing each feature map \
regression loss.
- loss_carl (Tensor): The loss of CARL.
"""
featmap_sizes = [featmap.size()[-2:] for featmap in cls_scores]
assert len(featmap_sizes) == self.prior_generator.num_levels
device = cls_scores[0].device
anchor_list, valid_flag_list = self.get_anchors(
featmap_sizes, batch_img_metas, device=device)
cls_reg_targets = self.get_targets(
anchor_list,
valid_flag_list,
batch_gt_instances,
batch_img_metas,
batch_gt_instances_ignore=batch_gt_instances_ignore,
unmap_outputs=False,
return_sampling_results=True)
(labels_list, label_weights_list, bbox_targets_list, bbox_weights_list,
avg_factor, sampling_results_list) = cls_reg_targets
num_images = len(batch_img_metas)
all_cls_scores = torch.cat([
s.permute(0, 2, 3, 1).reshape(
num_images, -1, self.cls_out_channels) for s in cls_scores
], 1)
all_labels = torch.cat(labels_list, -1).view(num_images, -1)
all_label_weights = torch.cat(label_weights_list,
-1).view(num_images, -1)
all_bbox_preds = torch.cat([
b.permute(0, 2, 3, 1).reshape(num_images, -1, 4)
for b in bbox_preds
], -2)
all_bbox_targets = torch.cat(bbox_targets_list,
-2).view(num_images, -1, 4)
all_bbox_weights = torch.cat(bbox_weights_list,
-2).view(num_images, -1, 4)
# concat all level anchors to a single tensor
all_anchors = []
for i in range(num_images):
all_anchors.append(torch.cat(anchor_list[i]))
isr_cfg = self.train_cfg.get('isr', None)
all_targets = (all_labels.view(-1), all_label_weights.view(-1),
all_bbox_targets.view(-1,
4), all_bbox_weights.view(-1, 4))
# apply ISR-P
if isr_cfg is not None:
all_targets = isr_p(
all_cls_scores.view(-1, all_cls_scores.size(-1)),
all_bbox_preds.view(-1, 4),
all_targets,
torch.cat(all_anchors),
sampling_results_list,
loss_cls=CrossEntropyLoss(),
bbox_coder=self.bbox_coder,
**self.train_cfg['isr'],
num_class=self.num_classes)
(new_labels, new_label_weights, new_bbox_targets,
new_bbox_weights) = all_targets
all_labels = new_labels.view(all_labels.shape)
all_label_weights = new_label_weights.view(all_label_weights.shape)
all_bbox_targets = new_bbox_targets.view(all_bbox_targets.shape)
all_bbox_weights = new_bbox_weights.view(all_bbox_weights.shape)
# add CARL loss
carl_loss_cfg = self.train_cfg.get('carl', None)
if carl_loss_cfg is not None:
loss_carl = carl_loss(
all_cls_scores.view(-1, all_cls_scores.size(-1)),
all_targets[0],
all_bbox_preds.view(-1, 4),
all_targets[2],
SmoothL1Loss(beta=1.),
**self.train_cfg['carl'],
avg_factor=avg_factor,
num_class=self.num_classes)
# check NaN and Inf
assert torch.isfinite(all_cls_scores).all().item(), \
'classification scores become infinite or NaN!'
assert torch.isfinite(all_bbox_preds).all().item(), \
'bbox predications become infinite or NaN!'
losses_cls, losses_bbox = multi_apply(
self.loss_by_feat_single,
all_cls_scores,
all_bbox_preds,
all_anchors,
all_labels,
all_label_weights,
all_bbox_targets,
all_bbox_weights,
avg_factor=avg_factor)
loss_dict = dict(loss_cls=losses_cls, loss_bbox=losses_bbox)
if carl_loss_cfg is not None:
loss_dict.update(loss_carl)
return loss_dict