# copyright (c) 2020 PaddlePaddle Authors. All Rights Reserve. # # 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. import paddle import paddle.nn.functional as F __all__ = ['CELoss', 'MixCELoss', 'GoogLeNetLoss', 'JSDivLoss'] class Loss(object): """ Loss """ def __init__(self, class_dim=1000, epsilon=None): assert class_dim > 1, "class_dim=%d is not larger than 1" % (class_dim) self._class_dim = class_dim if epsilon is not None and epsilon >= 0.0 and epsilon <= 1.0: self._epsilon = epsilon self._label_smoothing = True else: self._epsilon = None self._label_smoothing = False def _labelsmoothing(self, target): if target.shape[-1] != self._class_dim: one_hot_target = F.one_hot(target, self._class_dim) else: one_hot_target = target soft_target = F.label_smooth(one_hot_target, epsilon=self._epsilon) soft_target = paddle.reshape(soft_target, shape=[-1, self._class_dim]) return soft_target def _crossentropy(self, input, target): if self._label_smoothing: target = self._labelsmoothing(target) input = -F.log_softmax(input, axis=-1) cost = paddle.sum(target * input, axis=-1) else: cost = F.cross_entropy(input=input, label=target) avg_cost = paddle.mean(cost) return avg_cost def _kldiv(self, input, target, name=None): eps = 1.0e-10 cost = target * paddle.log( (target + eps) / (input + eps)) * self._class_dim return cost def _jsdiv(self, input, target): input = F.softmax(input) target = F.softmax(target) cost = self._kldiv(input, target) + self._kldiv(target, input) cost = cost / 2 avg_cost = paddle.mean(cost) return avg_cost def __call__(self, input, target): pass class CELoss(Loss): """ Cross entropy loss """ def __init__(self, class_dim=1000, epsilon=None): super(CELoss, self).__init__(class_dim, epsilon) def __call__(self, input, target): cost = self._crossentropy(input, target) return cost class MixCELoss(Loss): """ Cross entropy loss with mix(mixup, cutmix, fixmix) """ def __init__(self, class_dim=1000, epsilon=None): super(MixCELoss, self).__init__(class_dim, epsilon) def __call__(self, input, target0, target1, lam): cost0 = self._crossentropy(input, target0) cost1 = self._crossentropy(input, target1) cost = lam * cost0 + (1.0 - lam) * cost1 avg_cost = paddle.mean(cost) return avg_cost class GoogLeNetLoss(Loss): """ Cross entropy loss used after googlenet """ def __init__(self, class_dim=1000, epsilon=None): super(GoogLeNetLoss, self).__init__(class_dim, epsilon) def __call__(self, input0, input1, input2, target): cost0 = self._crossentropy(input0, target) cost1 = self._crossentropy(input1, target) cost2 = self._crossentropy(input2, target) cost = cost0 + 0.3 * cost1 + 0.3 * cost2 avg_cost = paddle.mean(cost) return avg_cost class JSDivLoss(Loss): """ JSDiv loss """ def __init__(self, class_dim=1000, epsilon=None): super(JSDivLoss, self).__init__(class_dim, epsilon) def __call__(self, input, target): cost = self._jsdiv(input, target) return cost