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losses.py
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losses.py
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import torch
import torch.nn as nn
import torch.nn.functional as F
import numpy as np
def focal_loss(input_values, gamma):
p = torch.exp(-input_values)
loss = (1 - p) ** gamma * input_values
return loss.mean()
class FocalLoss(nn.Module):
def __init__(self, weight=None, gamma=0.):
super(FocalLoss, self).__init__()
assert gamma >= 0
self.gamma = gamma
self.weight = weight
def forward(self, input, target):
return focal_loss(F.cross_entropy(input, target, reduction='none', weight=self.weight), self.gamma)
class LDAMLoss(nn.Module):
def __init__(self, cls_num_list, max_m=0.5, weight=None, s=30):
super(LDAMLoss, self).__init__()
m_list = 1.0 / np.sqrt(np.sqrt(cls_num_list))
m_list = m_list * (max_m / np.max(m_list))
m_list = torch.cuda.FloatTensor(m_list)
self.m_list = m_list
assert s > 0
self.s = s
self.weight = weight
def forward(self, x, target):
index = torch.zeros_like(x, dtype=torch.uint8)
index.scatter_(1, target.data.view(-1, 1), 1)
index_float = index.type(torch.cuda.FloatTensor)
batch_m = torch.matmul(self.m_list[None, :], index_float.transpose(0, 1))
batch_m = batch_m.view((-1, 1))
x_m = x - batch_m
output = torch.where(index, x_m, x)
return F.cross_entropy(self.s*output, target, weight=self.weight)