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cross_entropy_loss.py
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cross_entropy_loss.py
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# Copyright (c) OpenMMLab. All rights reserved.
import warnings
import torch
import torch.nn as nn
import torch.nn.functional as F
from mmseg.registry import MODELS
from .utils import get_class_weight, weight_reduce_loss
def cross_entropy(pred,
label,
weight=None,
class_weight=None,
reduction='mean',
avg_factor=None,
ignore_index=-100,
avg_non_ignore=False):
"""cross_entropy. The wrapper function for :func:`F.cross_entropy`
Args:
pred (torch.Tensor): The prediction with shape (N, 1).
label (torch.Tensor): The learning label of the prediction.
weight (torch.Tensor, optional): Sample-wise loss weight.
Default: None.
class_weight (list[float], optional): The weight for each class.
Default: None.
reduction (str, optional): The method used to reduce the loss.
Options are 'none', 'mean' and 'sum'. Default: 'mean'.
avg_factor (int, optional): Average factor that is used to average
the loss. Default: None.
ignore_index (int): Specifies a target value that is ignored and
does not contribute to the input gradients. When
``avg_non_ignore `` is ``True``, and the ``reduction`` is
``''mean''``, the loss is averaged over non-ignored targets.
Defaults: -100.
avg_non_ignore (bool): The flag decides to whether the loss is
only averaged over non-ignored targets. Default: False.
`New in version 0.23.0.`
"""
# class_weight is a manual rescaling weight given to each class.
# If given, has to be a Tensor of size C element-wise losses
loss = F.cross_entropy(
pred,
label,
weight=class_weight,
reduction='none',
ignore_index=ignore_index)
# apply weights and do the reduction
# average loss over non-ignored elements
# pytorch's official cross_entropy average loss over non-ignored elements
# refer to https://github.com/pytorch/pytorch/blob/56b43f4fec1f76953f15a627694d4bba34588969/torch/nn/functional.py#L2660 # noqa
if (avg_factor is None) and reduction == 'mean':
if class_weight is None:
if avg_non_ignore:
avg_factor = label.numel() - (label
== ignore_index).sum().item()
else:
avg_factor = label.numel()
else:
# the average factor should take the class weights into account
label_weights = torch.stack([class_weight[cls] for cls in label
]).to(device=class_weight.device)
if avg_non_ignore:
label_weights[label == ignore_index] = 0
avg_factor = label_weights.sum()
if weight is not None:
weight = weight.float()
loss = weight_reduce_loss(
loss, weight=weight, reduction=reduction, avg_factor=avg_factor)
return loss
def _expand_onehot_labels(labels, label_weights, target_shape, ignore_index):
"""Expand onehot labels to match the size of prediction."""
bin_labels = labels.new_zeros(target_shape)
valid_mask = (labels >= 0) & (labels != ignore_index)
inds = torch.nonzero(valid_mask, as_tuple=True)
if inds[0].numel() > 0:
if labels.dim() == 3:
bin_labels[inds[0], labels[valid_mask], inds[1], inds[2]] = 1
else:
bin_labels[inds[0], labels[valid_mask]] = 1
valid_mask = valid_mask.unsqueeze(1).expand(target_shape).float()
if label_weights is None:
bin_label_weights = valid_mask
else:
bin_label_weights = label_weights.unsqueeze(1).expand(target_shape)
bin_label_weights = bin_label_weights * valid_mask
return bin_labels, bin_label_weights, valid_mask
def binary_cross_entropy(pred,
label,
weight=None,
reduction='mean',
avg_factor=None,
class_weight=None,
ignore_index=-100,
avg_non_ignore=False,
**kwargs):
"""Calculate the binary CrossEntropy loss.
Args:
pred (torch.Tensor): The prediction with shape (N, 1).
label (torch.Tensor): The learning label of the prediction.
Note: In bce loss, label < 0 is invalid.
weight (torch.Tensor, optional): Sample-wise loss weight.
reduction (str, optional): The method used to reduce the loss.
Options are "none", "mean" and "sum".
avg_factor (int, optional): Average factor that is used to average
the loss. Defaults to None.
class_weight (list[float], optional): The weight for each class.
ignore_index (int): The label index to be ignored. Default: -100.
avg_non_ignore (bool): The flag decides to whether the loss is
only averaged over non-ignored targets. Default: False.
`New in version 0.23.0.`
Returns:
torch.Tensor: The calculated loss
"""
if pred.size(1) == 1:
# For binary class segmentation, the shape of pred is
# [N, 1, H, W] and that of label is [N, H, W].
# As the ignore_index often set as 255, so the
# binary class label check should mask out
# ignore_index
assert label[label != ignore_index].max() <= 1, \
'For pred with shape [N, 1, H, W], its label must have at ' \
'most 2 classes'
pred = pred.squeeze(1)
if pred.dim() != label.dim():
assert (pred.dim() == 2 and label.dim() == 1) or (
pred.dim() == 4 and label.dim() == 3), \
'Only pred shape [N, C], label shape [N] or pred shape [N, C, ' \
'H, W], label shape [N, H, W] are supported'
# `weight` returned from `_expand_onehot_labels`
# has been treated for valid (non-ignore) pixels
label, weight, valid_mask = _expand_onehot_labels(
label, weight, pred.shape, ignore_index)
else:
# should mask out the ignored elements
valid_mask = ((label >= 0) & (label != ignore_index)).float()
if weight is not None:
weight = weight * valid_mask
else:
weight = valid_mask
# average loss over non-ignored and valid elements
if reduction == 'mean' and avg_factor is None and avg_non_ignore:
avg_factor = valid_mask.sum().item()
loss = F.binary_cross_entropy_with_logits(
pred, label.float(), pos_weight=class_weight, reduction='none')
# do the reduction for the weighted loss
loss = weight_reduce_loss(
loss, weight, reduction=reduction, avg_factor=avg_factor)
return loss
def mask_cross_entropy(pred,
target,
label,
reduction='mean',
avg_factor=None,
class_weight=None,
ignore_index=None,
**kwargs):
"""Calculate the CrossEntropy loss for masks.
Args:
pred (torch.Tensor): The prediction with shape (N, C), C is the number
of classes.
target (torch.Tensor): The learning label of the prediction.
label (torch.Tensor): ``label`` indicates the class label of the mask'
corresponding object. This will be used to select the mask in the
of the class which the object belongs to when the mask prediction
if not class-agnostic.
reduction (str, optional): The method used to reduce the loss.
Options are "none", "mean" and "sum".
avg_factor (int, optional): Average factor that is used to average
the loss. Defaults to None.
class_weight (list[float], optional): The weight for each class.
ignore_index (None): Placeholder, to be consistent with other loss.
Default: None.
Returns:
torch.Tensor: The calculated loss
"""
assert ignore_index is None, 'BCE loss does not support ignore_index'
# TODO: handle these two reserved arguments
assert reduction == 'mean' and avg_factor is None
num_rois = pred.size()[0]
inds = torch.arange(0, num_rois, dtype=torch.long, device=pred.device)
pred_slice = pred[inds, label].squeeze(1)
return F.binary_cross_entropy_with_logits(
pred_slice, target, weight=class_weight, reduction='mean')[None]
@MODELS.register_module()
class CrossEntropyLoss(nn.Module):
"""CrossEntropyLoss.
Args:
use_sigmoid (bool, optional): Whether the prediction uses sigmoid
of softmax. Defaults to False.
use_mask (bool, optional): Whether to use mask cross entropy loss.
Defaults to False.
reduction (str, optional): . Defaults to 'mean'.
Options are "none", "mean" and "sum".
class_weight (list[float] | str, optional): Weight of each class. If in
str format, read them from a file. Defaults to None.
loss_weight (float, optional): Weight of the loss. Defaults to 1.0.
loss_name (str, optional): Name of the loss item. If you want this loss
item to be included into the backward graph, `loss_` must be the
prefix of the name. Defaults to 'loss_ce'.
avg_non_ignore (bool): The flag decides to whether the loss is
only averaged over non-ignored targets. Default: False.
`New in version 0.23.0.`
"""
def __init__(self,
use_sigmoid=False,
use_mask=False,
reduction='mean',
class_weight=None,
loss_weight=1.0,
loss_name='loss_ce',
avg_non_ignore=False):
super().__init__()
assert (use_sigmoid is False) or (use_mask is False)
self.use_sigmoid = use_sigmoid
self.use_mask = use_mask
self.reduction = reduction
self.loss_weight = loss_weight
self.class_weight = get_class_weight(class_weight)
self.avg_non_ignore = avg_non_ignore
if not self.avg_non_ignore and self.reduction == 'mean':
warnings.warn(
'Default ``avg_non_ignore`` is False, if you would like to '
'ignore the certain label and average loss over non-ignore '
'labels, which is the same with PyTorch official '
'cross_entropy, set ``avg_non_ignore=True``.')
if self.use_sigmoid:
self.cls_criterion = binary_cross_entropy
elif self.use_mask:
self.cls_criterion = mask_cross_entropy
else:
self.cls_criterion = cross_entropy
self._loss_name = loss_name
def extra_repr(self):
"""Extra repr."""
s = f'avg_non_ignore={self.avg_non_ignore}'
return s
def forward(self,
cls_score,
label,
weight=None,
avg_factor=None,
reduction_override=None,
ignore_index=-100,
**kwargs):
"""Forward function."""
assert reduction_override in (None, 'none', 'mean', 'sum')
reduction = (
reduction_override if reduction_override else self.reduction)
if self.class_weight is not None:
class_weight = cls_score.new_tensor(self.class_weight)
else:
class_weight = None
# Note: for BCE loss, label < 0 is invalid.
loss_cls = self.loss_weight * self.cls_criterion(
cls_score,
label,
weight,
class_weight=class_weight,
reduction=reduction,
avg_factor=avg_factor,
avg_non_ignore=self.avg_non_ignore,
ignore_index=ignore_index,
**kwargs)
return loss_cls
@property
def loss_name(self):
"""Loss Name.
This function must be implemented and will return the name of this
loss function. This name will be used to combine different loss items
by simple sum operation. In addition, if you want this loss item to be
included into the backward graph, `loss_` must be the prefix of the
name.
Returns:
str: The name of this loss item.
"""
return self._loss_name