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ohem_cross_entropy_loss.py
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ohem_cross_entropy_loss.py
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# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# 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
from paddle import nn
import paddle.nn.functional as F
from paddleseg.cvlibs import manager
_IS_NPU = "npu" in paddle.get_device()
_IS_MLU = "mlu" in paddle.get_device()
@manager.LOSSES.add_component
class OhemCrossEntropyLoss(nn.Layer):
"""
Implements the ohem cross entropy loss function.
Args:
thresh (float, optional): The threshold of ohem. Default: 0.7.
min_kept (int, optional): The min number to keep in loss computation. Default: 10000.
ignore_index (int64, optional): Specifies a target value that is ignored
and does not contribute to the input gradient. Default ``255``.
weight (tuple|list|ndarray|Tensor, optional): A manual rescaling weight
given to each class. Its length must be equal to the number of classes.
Default ``None``.
"""
def __init__(self,
thresh=0.7,
min_kept=10000,
ignore_index=255,
weight=None):
super(OhemCrossEntropyLoss, self).__init__()
self.thresh = thresh
self.min_kept = min_kept
self.ignore_index = ignore_index
self.EPS = 1e-5
if weight is not None:
self.weight = paddle.to_tensor(weight, dtype='float32')
else:
self.weight = None
def forward(self, logit, label):
"""
Forward computation.
Args:
logit (Tensor): Logit tensor, the data type is float32, float64. Shape is
(N, C), where C is number of classes, and if shape is more than 2D, this
is (N, C, D1, D2,..., Dk), k >= 1.
label (Tensor): Label tensor, the data type is int64. Shape is (N), where each
value is 0 <= label[i] <= C-1, and if shape is more than 2D, this is
(N, D1, D2,..., Dk), k >= 1.
"""
if self.weight is not None and logit.shape[1] != len(self.weight):
raise ValueError(
'The number of weights = {} must be the same as the number of classes = {}.'
.format(len(self.weight), logit.shape[1]))
if len(label.shape) != len(logit.shape):
label = paddle.unsqueeze(label, 1)
# get the label after ohem
n, c, h, w = logit.shape
label = label.reshape((-1, )).astype('int64')
valid_mask = (label != self.ignore_index).astype('int64')
num_valid = valid_mask.sum()
label = label * valid_mask
prob = F.softmax(logit, axis=1)
prob = prob.transpose((1, 0, 2, 3)).reshape((c, -1))
if self.min_kept < num_valid and num_valid > 0:
# let the value which ignored greater than 1
prob = prob + (1 - valid_mask).astype(prob.dtype)
# get the prob of relevant label
label_onehot = F.one_hot(label, c)
label_onehot = label_onehot.transpose((1, 0))
prob = prob * label_onehot
prob = paddle.sum(prob, axis=0)
threshold = self.thresh
if self.min_kept > 0:
index = prob.argsort()
if hasattr(paddle.Tensor, "contiguous"):
threshold_index = index[min(len(index), self.min_kept) -
1].contiguous()
else:
threshold_index = index[min(len(index), self.min_kept) - 1]
threshold_index = int(threshold_index)
if prob[threshold_index] > self.thresh:
threshold = prob[threshold_index]
kept_mask = (prob < threshold).astype('int64')
label = label * kept_mask
valid_mask = valid_mask * kept_mask
# make the invalid region as ignore
label = label + (1 - valid_mask) * self.ignore_index
label = label.reshape((n, 1, h, w))
valid_mask = valid_mask.reshape((n, 1, h, w)).astype('float32')
if _IS_NPU:
logit = F.log_softmax(logit, axis=1)
loss = F.nll_loss(logit,
label.squeeze(1),
weight=self.weight,
ignore_index=self.ignore_index,
reduction='none')
loss = loss.unsqueeze(1)
elif _IS_MLU:
# mlu kernel does not deal with th parameter ignore_index
# so here manual solve it
logit_trans = logit.transpose((0, 2, 3, 1)).flatten(0, 2)
mask = label != self.ignore_index
label = paddle.where(mask, label, paddle.zeros_like(label))
label_trans = label.transpose((0, 2, 3, 1)).flatten(0, 2)
loss = F.cross_entropy(logit_trans,
label_trans,
weight=self.weight,
reduction='none',
axis=-1)
loss = loss.reshape([n, h, w, 1]).transpose([0, 3, 1, 2])
loss = loss * mask.astype("float32")
else:
loss = F.cross_entropy(logit,
label,
weight=self.weight,
ignore_index=self.ignore_index,
reduction='none',
axis=1)
loss = loss * valid_mask
avg_loss = paddle.mean(loss) / (paddle.mean(valid_mask) + self.EPS)
label.stop_gradient = True
valid_mask.stop_gradient = True
return avg_loss