dice_loss.py
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# Copyright (c) OpenMMLab. All rights reserved.
import torch
import torch.nn as nn
from ..builder import LOSSES
from .utils import weight_reduce_loss
def dice_loss(pred,
target,
weight=None,
eps=1e-3,
reduction='mean',
naive_dice=False,
avg_factor=None):
"""Calculate dice loss, there are two forms of dice loss is supported:
- the one proposed in `V-Net: Fully Convolutional Neural
Networks for Volumetric Medical Image Segmentation
<https://arxiv.org/abs/1606.04797>`_.
- the dice loss in which the power of the number in the
denominator is the first power instead of the second
power.
Args:
pred (torch.Tensor): The prediction, has a shape (n, *)
target (torch.Tensor): The learning label of the prediction,
shape (n, *), same shape of pred.
weight (torch.Tensor, optional): The weight of loss for each
prediction, has a shape (n,). Defaults to None.
eps (float): Avoid dividing by zero. Default: 1e-3.
reduction (str, optional): The method used to reduce the loss into
a scalar. Defaults to 'mean'.
Options are "none", "mean" and "sum".
naive_dice (bool, optional): If false, use the dice
loss defined in the V-Net paper, otherwise, use the
naive dice loss in which the power of the number in the
denominator is the first power instead of the second
power.Defaults to False.
avg_factor (int, optional): Average factor that is used to average
the loss. Defaults to None.
"""
input = pred.flatten(1)
target = target.flatten(1).float()
a = torch.sum(input * target, 1)
if naive_dice:
b = torch.sum(input, 1)
c = torch.sum(target, 1)
d = (2 * a + eps) / (b + c + eps)
else:
b = torch.sum(input * input, 1) + eps
c = torch.sum(target * target, 1) + eps
d = (2 * a) / (b + c)
loss = 1 - d
if weight is not None:
assert weight.ndim == loss.ndim
assert len(weight) == len(pred)
loss = weight_reduce_loss(loss, weight, reduction, avg_factor)
return loss
@LOSSES.register_module()
class DiceLoss(nn.Module):
def __init__(self,
use_sigmoid=True,
activate=True,
reduction='mean',
naive_dice=False,
loss_weight=1.0,
eps=1e-3):
"""Compute dice loss.
Args:
use_sigmoid (bool, optional): Whether to the prediction is
used for sigmoid or softmax. Defaults to True.
activate (bool): Whether to activate the predictions inside,
this will disable the inside sigmoid operation.
Defaults to True.
reduction (str, optional): The method used
to reduce the loss. Options are "none",
"mean" and "sum". Defaults to 'mean'.
naive_dice (bool, optional): If false, use the dice
loss defined in the V-Net paper, otherwise, use the
naive dice loss in which the power of the number in the
denominator is the first power instead of the second
power. Defaults to False.
loss_weight (float, optional): Weight of loss. Defaults to 1.0.
eps (float): Avoid dividing by zero. Defaults to 1e-3.
"""
super(DiceLoss, self).__init__()
self.use_sigmoid = use_sigmoid
self.reduction = reduction
self.naive_dice = naive_dice
self.loss_weight = loss_weight
self.eps = eps
self.activate = activate
def forward(self,
pred,
target,
weight=None,
reduction_override=None,
avg_factor=None):
"""Forward function.
Args:
pred (torch.Tensor): The prediction, has a shape (n, *).
target (torch.Tensor): The label of the prediction,
shape (n, *), same shape of pred.
weight (torch.Tensor, optional): The weight of loss for each
prediction, has a shape (n,). Defaults to None.
avg_factor (int, optional): Average factor that is used to average
the loss. Defaults to None.
reduction_override (str, optional): The reduction method used to
override the original reduction method of the loss.
Options are "none", "mean" and "sum".
Returns:
torch.Tensor: The calculated loss
"""
assert reduction_override in (None, 'none', 'mean', 'sum')
reduction = (
reduction_override if reduction_override else self.reduction)
if self.activate:
if self.use_sigmoid:
pred = pred.sigmoid()
else:
raise NotImplementedError
loss = self.loss_weight * dice_loss(
pred,
target,
weight,
eps=self.eps,
reduction=reduction,
naive_dice=self.naive_dice,
avg_factor=avg_factor)
return loss