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detr_loss.py
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detr_loss.py
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# 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 paddle
import paddle.nn as nn
import paddle.nn.functional as F
from ppdet.core.workspace import register
from .iou_loss import GIoULoss
from ..transformers import bbox_cxcywh_to_xyxy, sigmoid_focal_loss, varifocal_loss_with_logits
from ..bbox_utils import bbox_iou
__all__ = ['DETRLoss', 'DINOLoss']
@register
class DETRLoss(nn.Layer):
__shared__ = ['num_classes', 'use_focal_loss']
__inject__ = ['matcher']
def __init__(self,
num_classes=80,
matcher='HungarianMatcher',
loss_coeff={
'class': 1,
'bbox': 5,
'giou': 2,
'no_object': 0.1,
'mask': 1,
'dice': 1
},
aux_loss=True,
use_focal_loss=False,
use_vfl=False,
use_uni_match=False,
uni_match_ind=0):
r"""
Args:
num_classes (int): The number of classes.
matcher (HungarianMatcher): It computes an assignment between the targets
and the predictions of the network.
loss_coeff (dict): The coefficient of loss.
aux_loss (bool): If 'aux_loss = True', loss at each decoder layer are to be used.
use_focal_loss (bool): Use focal loss or not.
"""
super(DETRLoss, self).__init__()
self.num_classes = num_classes
self.matcher = matcher
self.loss_coeff = loss_coeff
self.aux_loss = aux_loss
self.use_focal_loss = use_focal_loss
self.use_vfl = use_vfl
self.use_uni_match = use_uni_match
self.uni_match_ind = uni_match_ind
if not self.use_focal_loss:
self.loss_coeff['class'] = paddle.full([num_classes + 1],
loss_coeff['class'])
self.loss_coeff['class'][-1] = loss_coeff['no_object']
self.giou_loss = GIoULoss()
def _get_loss_class(self,
logits,
gt_class,
match_indices,
bg_index,
num_gts,
postfix="",
iou_score=None,
gt_score=None):
# logits: [b, query, num_classes], gt_class: list[[n, 1]]
name_class = "loss_class" + postfix
target_label = paddle.full(logits.shape[:2], bg_index, dtype='int64')
bs, num_query_objects = target_label.shape
num_gt = sum(len(a) for a in gt_class)
if num_gt > 0:
index, updates = self._get_index_updates(num_query_objects,
gt_class, match_indices)
target_label = paddle.scatter(
target_label.reshape([-1, 1]), index, updates.astype('int64'))
target_label = target_label.reshape([bs, num_query_objects])
if self.use_focal_loss:
target_label = F.one_hot(target_label,
self.num_classes + 1)[..., :-1]
if iou_score is not None and self.use_vfl:
if gt_score is not None:
target_score = paddle.zeros([bs, num_query_objects])
target_score = paddle.scatter(
target_score.reshape([-1, 1]), index, gt_score)
target_score = target_score.reshape(
[bs, num_query_objects, 1]) * target_label
target_score_iou = paddle.zeros([bs, num_query_objects])
target_score_iou = paddle.scatter(
target_score_iou.reshape([-1, 1]), index, iou_score)
target_score_iou = target_score_iou.reshape(
[bs, num_query_objects, 1]) * target_label
target_score = paddle.multiply(target_score,
target_score_iou)
loss_ = self.loss_coeff[
'class'] * varifocal_loss_with_logits(
logits, target_score, target_label,
num_gts / num_query_objects)
else:
target_score = paddle.zeros([bs, num_query_objects])
if num_gt > 0:
target_score = paddle.scatter(
target_score.reshape([-1, 1]), index, iou_score)
target_score = target_score.reshape(
[bs, num_query_objects, 1]) * target_label
loss_ = self.loss_coeff[
'class'] * varifocal_loss_with_logits(
logits, target_score, target_label,
num_gts / num_query_objects)
else:
loss_ = self.loss_coeff['class'] * sigmoid_focal_loss(
logits, target_label, num_gts / num_query_objects)
else:
loss_ = F.cross_entropy(
logits, target_label, weight=self.loss_coeff['class'])
return {name_class: loss_}
def _get_loss_bbox(self, boxes, gt_bbox, match_indices, num_gts,
postfix=""):
# boxes: [b, query, 4], gt_bbox: list[[n, 4]]
name_bbox = "loss_bbox" + postfix
name_giou = "loss_giou" + postfix
loss = dict()
if sum(len(a) for a in gt_bbox) == 0:
loss[name_bbox] = paddle.to_tensor([0.])
loss[name_giou] = paddle.to_tensor([0.])
return loss
src_bbox, target_bbox = self._get_src_target_assign(boxes, gt_bbox,
match_indices)
loss[name_bbox] = self.loss_coeff['bbox'] * F.l1_loss(
src_bbox, target_bbox, reduction='sum') / num_gts
loss[name_giou] = self.giou_loss(
bbox_cxcywh_to_xyxy(src_bbox), bbox_cxcywh_to_xyxy(target_bbox))
loss[name_giou] = loss[name_giou].sum() / num_gts
loss[name_giou] = self.loss_coeff['giou'] * loss[name_giou]
return loss
def _get_loss_mask(self, masks, gt_mask, match_indices, num_gts,
postfix=""):
# masks: [b, query, h, w], gt_mask: list[[n, H, W]]
name_mask = "loss_mask" + postfix
name_dice = "loss_dice" + postfix
loss = dict()
if sum(len(a) for a in gt_mask) == 0:
loss[name_mask] = paddle.to_tensor([0.])
loss[name_dice] = paddle.to_tensor([0.])
return loss
src_masks, target_masks = self._get_src_target_assign(masks, gt_mask,
match_indices)
src_masks = F.interpolate(
src_masks.unsqueeze(0),
size=target_masks.shape[-2:],
mode="bilinear")[0]
loss[name_mask] = self.loss_coeff['mask'] * F.sigmoid_focal_loss(
src_masks,
target_masks,
paddle.to_tensor(
[num_gts], dtype='float32'))
loss[name_dice] = self.loss_coeff['dice'] * self._dice_loss(
src_masks, target_masks, num_gts)
return loss
def _dice_loss(self, inputs, targets, num_gts):
inputs = F.sigmoid(inputs)
inputs = inputs.flatten(1)
targets = targets.flatten(1)
numerator = 2 * (inputs * targets).sum(1)
denominator = inputs.sum(-1) + targets.sum(-1)
loss = 1 - (numerator + 1) / (denominator + 1)
return loss.sum() / num_gts
def _get_loss_aux(self,
boxes,
logits,
gt_bbox,
gt_class,
bg_index,
num_gts,
dn_match_indices=None,
postfix="",
masks=None,
gt_mask=None,
gt_score=None):
loss_class = []
loss_bbox, loss_giou = [], []
loss_mask, loss_dice = [], []
if dn_match_indices is not None:
match_indices = dn_match_indices
elif self.use_uni_match:
match_indices = self.matcher(
boxes[self.uni_match_ind],
logits[self.uni_match_ind],
gt_bbox,
gt_class,
masks=masks[self.uni_match_ind] if masks is not None else None,
gt_mask=gt_mask)
for i, (aux_boxes, aux_logits) in enumerate(zip(boxes, logits)):
aux_masks = masks[i] if masks is not None else None
if not self.use_uni_match and dn_match_indices is None:
match_indices = self.matcher(
aux_boxes,
aux_logits,
gt_bbox,
gt_class,
masks=aux_masks,
gt_mask=gt_mask)
if self.use_vfl:
if sum(len(a) for a in gt_bbox) > 0:
src_bbox, target_bbox = self._get_src_target_assign(
aux_boxes.detach(), gt_bbox, match_indices)
iou_score = bbox_iou(
bbox_cxcywh_to_xyxy(src_bbox).split(4, -1),
bbox_cxcywh_to_xyxy(target_bbox).split(4, -1))
else:
iou_score = None
if gt_score is not None:
_, target_score = self._get_src_target_assign(
logits[-1].detach(), gt_score, match_indices)
else:
iou_score = None
loss_class.append(
self._get_loss_class(
aux_logits,
gt_class,
match_indices,
bg_index,
num_gts,
postfix,
iou_score,
gt_score=target_score
if gt_score is not None else None)['loss_class' + postfix])
loss_ = self._get_loss_bbox(aux_boxes, gt_bbox, match_indices,
num_gts, postfix)
loss_bbox.append(loss_['loss_bbox' + postfix])
loss_giou.append(loss_['loss_giou' + postfix])
if masks is not None and gt_mask is not None:
loss_ = self._get_loss_mask(aux_masks, gt_mask, match_indices,
num_gts, postfix)
loss_mask.append(loss_['loss_mask' + postfix])
loss_dice.append(loss_['loss_dice' + postfix])
loss = {
"loss_class_aux" + postfix: paddle.add_n(loss_class),
"loss_bbox_aux" + postfix: paddle.add_n(loss_bbox),
"loss_giou_aux" + postfix: paddle.add_n(loss_giou)
}
if masks is not None and gt_mask is not None:
loss["loss_mask_aux" + postfix] = paddle.add_n(loss_mask)
loss["loss_dice_aux" + postfix] = paddle.add_n(loss_dice)
return loss
def _get_index_updates(self, num_query_objects, target, match_indices):
batch_idx = paddle.concat([
paddle.full_like(src, i) for i, (src, _) in enumerate(match_indices)
])
src_idx = paddle.concat([src for (src, _) in match_indices])
src_idx += (batch_idx * num_query_objects)
target_assign = paddle.concat([
paddle.gather(
t, dst, axis=0) for t, (_, dst) in zip(target, match_indices)
])
return src_idx, target_assign
def _get_src_target_assign(self, src, target, match_indices):
src_assign = paddle.concat([
paddle.gather(
t, I, axis=0) if len(I) > 0 else paddle.zeros([0, t.shape[-1]])
for t, (I, _) in zip(src, match_indices)
])
target_assign = paddle.concat([
paddle.gather(
t, J, axis=0) if len(J) > 0 else paddle.zeros([0, t.shape[-1]])
for t, (_, J) in zip(target, match_indices)
])
return src_assign, target_assign
def _get_num_gts(self, targets, dtype="float32"):
num_gts = sum(len(a) for a in targets)
num_gts = paddle.to_tensor([num_gts], dtype=dtype)
if paddle.distributed.get_world_size() > 1:
paddle.distributed.all_reduce(num_gts)
num_gts /= paddle.distributed.get_world_size()
num_gts = paddle.clip(num_gts, min=1.)
return num_gts
def _get_prediction_loss(self,
boxes,
logits,
gt_bbox,
gt_class,
masks=None,
gt_mask=None,
postfix="",
dn_match_indices=None,
num_gts=1,
gt_score=None):
if dn_match_indices is None:
match_indices = self.matcher(
boxes, logits, gt_bbox, gt_class, masks=masks, gt_mask=gt_mask)
else:
match_indices = dn_match_indices
if self.use_vfl:
if gt_score is not None: #ssod
_, target_score = self._get_src_target_assign(
logits[-1].detach(), gt_score, match_indices)
elif sum(len(a) for a in gt_bbox) > 0:
src_bbox, target_bbox = self._get_src_target_assign(
boxes.detach(), gt_bbox, match_indices)
iou_score = bbox_iou(
bbox_cxcywh_to_xyxy(src_bbox).split(4, -1),
bbox_cxcywh_to_xyxy(target_bbox).split(4, -1))
else:
iou_score = None
else:
iou_score = None
loss = dict()
loss.update(
self._get_loss_class(
logits,
gt_class,
match_indices,
self.num_classes,
num_gts,
postfix,
iou_score,
gt_score=target_score if gt_score is not None else None))
loss.update(
self._get_loss_bbox(boxes, gt_bbox, match_indices, num_gts,
postfix))
if masks is not None and gt_mask is not None:
loss.update(
self._get_loss_mask(masks, gt_mask, match_indices, num_gts,
postfix))
return loss
def forward(self,
boxes,
logits,
gt_bbox,
gt_class,
masks=None,
gt_mask=None,
postfix="",
gt_score=None,
**kwargs):
r"""
Args:
boxes (Tensor): [l, b, query, 4]
logits (Tensor): [l, b, query, num_classes]
gt_bbox (List(Tensor)): list[[n, 4]]
gt_class (List(Tensor)): list[[n, 1]]
masks (Tensor, optional): [l, b, query, h, w]
gt_mask (List(Tensor), optional): list[[n, H, W]]
postfix (str): postfix of loss name
"""
dn_match_indices = kwargs.get("dn_match_indices", None)
num_gts = kwargs.get("num_gts", None)
if num_gts is None:
num_gts = self._get_num_gts(gt_class)
total_loss = self._get_prediction_loss(
boxes[-1],
logits[-1],
gt_bbox,
gt_class,
masks=masks[-1] if masks is not None else None,
gt_mask=gt_mask,
postfix=postfix,
dn_match_indices=dn_match_indices,
num_gts=num_gts,
gt_score=gt_score if gt_score is not None else None)
if self.aux_loss:
total_loss.update(
self._get_loss_aux(
boxes[:-1],
logits[:-1],
gt_bbox,
gt_class,
self.num_classes,
num_gts,
dn_match_indices,
postfix,
masks=masks[:-1] if masks is not None else None,
gt_mask=gt_mask,
gt_score=gt_score if gt_score is not None else None))
return total_loss
@register
class DINOLoss(DETRLoss):
def forward(self,
boxes,
logits,
gt_bbox,
gt_class,
masks=None,
gt_mask=None,
postfix="",
dn_out_bboxes=None,
dn_out_logits=None,
dn_meta=None,
gt_score=None,
**kwargs):
num_gts = self._get_num_gts(gt_class)
total_loss = super(DINOLoss, self).forward(
boxes,
logits,
gt_bbox,
gt_class,
num_gts=num_gts,
gt_score=gt_score)
if dn_meta is not None:
dn_positive_idx, dn_num_group = \
dn_meta["dn_positive_idx"], dn_meta["dn_num_group"]
assert len(gt_class) == len(dn_positive_idx)
# denoising match indices
dn_match_indices = self.get_dn_match_indices(
gt_class, dn_positive_idx, dn_num_group)
# compute denoising training loss
num_gts *= dn_num_group
dn_loss = super(DINOLoss, self).forward(
dn_out_bboxes,
dn_out_logits,
gt_bbox,
gt_class,
postfix="_dn",
dn_match_indices=dn_match_indices,
num_gts=num_gts,
gt_score=gt_score)
total_loss.update(dn_loss)
else:
total_loss.update(
{k + '_dn': paddle.to_tensor([0.])
for k in total_loss.keys()})
return total_loss
@staticmethod
def get_dn_match_indices(labels, dn_positive_idx, dn_num_group):
dn_match_indices = []
for i in range(len(labels)):
num_gt = len(labels[i])
if num_gt > 0:
gt_idx = paddle.arange(end=num_gt, dtype="int64")
gt_idx = gt_idx.tile([dn_num_group])
assert len(dn_positive_idx[i]) == len(gt_idx)
dn_match_indices.append((dn_positive_idx[i], gt_idx))
else:
dn_match_indices.append((paddle.zeros(
[0], dtype="int64"), paddle.zeros(
[0], dtype="int64")))
return dn_match_indices
@register
class MaskDINOLoss(DETRLoss):
__shared__ = ['num_classes', 'use_focal_loss', 'num_sample_points']
__inject__ = ['matcher']
def __init__(self,
num_classes=80,
matcher='HungarianMatcher',
loss_coeff={
'class': 4,
'bbox': 5,
'giou': 2,
'mask': 5,
'dice': 5
},
aux_loss=True,
use_focal_loss=False,
num_sample_points=12544,
oversample_ratio=3.0,
important_sample_ratio=0.75):
super(MaskDINOLoss, self).__init__(num_classes, matcher, loss_coeff,
aux_loss, use_focal_loss)
assert oversample_ratio >= 1
assert important_sample_ratio <= 1 and important_sample_ratio >= 0
self.num_sample_points = num_sample_points
self.oversample_ratio = oversample_ratio
self.important_sample_ratio = important_sample_ratio
self.num_oversample_points = int(num_sample_points * oversample_ratio)
self.num_important_points = int(num_sample_points *
important_sample_ratio)
self.num_random_points = num_sample_points - self.num_important_points
def forward(self,
boxes,
logits,
gt_bbox,
gt_class,
masks=None,
gt_mask=None,
postfix="",
dn_out_bboxes=None,
dn_out_logits=None,
dn_out_masks=None,
dn_meta=None,
**kwargs):
num_gts = self._get_num_gts(gt_class)
total_loss = super(MaskDINOLoss, self).forward(
boxes,
logits,
gt_bbox,
gt_class,
masks=masks,
gt_mask=gt_mask,
num_gts=num_gts)
if dn_meta is not None:
dn_positive_idx, dn_num_group = \
dn_meta["dn_positive_idx"], dn_meta["dn_num_group"]
assert len(gt_class) == len(dn_positive_idx)
# denoising match indices
dn_match_indices = DINOLoss.get_dn_match_indices(
gt_class, dn_positive_idx, dn_num_group)
# compute denoising training loss
num_gts *= dn_num_group
dn_loss = super(MaskDINOLoss, self).forward(
dn_out_bboxes,
dn_out_logits,
gt_bbox,
gt_class,
masks=dn_out_masks,
gt_mask=gt_mask,
postfix="_dn",
dn_match_indices=dn_match_indices,
num_gts=num_gts)
total_loss.update(dn_loss)
else:
total_loss.update(
{k + '_dn': paddle.to_tensor([0.])
for k in total_loss.keys()})
return total_loss
def _get_loss_mask(self, masks, gt_mask, match_indices, num_gts,
postfix=""):
# masks: [b, query, h, w], gt_mask: list[[n, H, W]]
name_mask = "loss_mask" + postfix
name_dice = "loss_dice" + postfix
loss = dict()
if sum(len(a) for a in gt_mask) == 0:
loss[name_mask] = paddle.to_tensor([0.])
loss[name_dice] = paddle.to_tensor([0.])
return loss
src_masks, target_masks = self._get_src_target_assign(masks, gt_mask,
match_indices)
# sample points
sample_points = self._get_point_coords_by_uncertainty(src_masks)
sample_points = 2.0 * sample_points.unsqueeze(1) - 1.0
src_masks = F.grid_sample(
src_masks.unsqueeze(1), sample_points,
align_corners=False).squeeze([1, 2])
target_masks = F.grid_sample(
target_masks.unsqueeze(1), sample_points,
align_corners=False).squeeze([1, 2]).detach()
loss[name_mask] = self.loss_coeff[
'mask'] * F.binary_cross_entropy_with_logits(
src_masks, target_masks,
reduction='none').mean(1).sum() / num_gts
loss[name_dice] = self.loss_coeff['dice'] * self._dice_loss(
src_masks, target_masks, num_gts)
return loss
def _get_point_coords_by_uncertainty(self, masks):
# Sample points based on their uncertainty.
masks = masks.detach()
num_masks = masks.shape[0]
sample_points = paddle.rand(
[num_masks, 1, self.num_oversample_points, 2])
out_mask = F.grid_sample(
masks.unsqueeze(1), 2.0 * sample_points - 1.0,
align_corners=False).squeeze([1, 2])
out_mask = -paddle.abs(out_mask)
_, topk_ind = paddle.topk(out_mask, self.num_important_points, axis=1)
batch_ind = paddle.arange(end=num_masks, dtype=topk_ind.dtype)
batch_ind = batch_ind.unsqueeze(-1).tile([1, self.num_important_points])
topk_ind = paddle.stack([batch_ind, topk_ind], axis=-1)
sample_points = paddle.gather_nd(sample_points.squeeze(1), topk_ind)
if self.num_random_points > 0:
sample_points = paddle.concat(
[
sample_points,
paddle.rand([num_masks, self.num_random_points, 2])
],
axis=1)
return sample_points