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loss.py
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import torch
import torch.nn as nn
import torch.nn.functional as F
from torch.autograd import Variable
# class mse_loss(nn.Module):
# def __init__(self) -> None:
# super().__init__()
# self.loss_fn = nn.MSELoss()
# def forward(self, output, target):
# return self.loss_fn(output, target)
def mse_loss(output, target):
return F.mse_loss(output, target)
class FocalLoss(nn.Module):
def __init__(self, gamma=2, alpha=None, size_average=True):
super(FocalLoss, self).__init__()
self.gamma = gamma
self.alpha = alpha
if isinstance(alpha,(float,int)): self.alpha = torch.Tensor([alpha,1-alpha])
if isinstance(alpha,list): self.alpha = torch.Tensor(alpha)
self.size_average = size_average
def forward(self, input, target):
if input.dim()>2:
input = input.view(input.size(0),input.size(1),-1) # N,C,H,W => N,C,H*W
input = input.transpose(1,2) # N,C,H*W => N,H*W,C
input = input.contiguous().view(-1,input.size(2)) # N,H*W,C => N*H*W,C
target = target.view(-1,1)
logpt = F.log_softmax(input)
logpt = logpt.gather(1,target)
logpt = logpt.view(-1)
pt = Variable(logpt.data.exp())
if self.alpha is not None:
if self.alpha.type()!=input.data.type():
self.alpha = self.alpha.type_as(input.data)
at = self.alpha.gather(0,target.data.view(-1))
logpt = logpt * Variable(at)
loss = -1 * (1-pt)**self.gamma * logpt
if self.size_average: return loss.mean()
else: return loss.sum()